Update for 76505HEAD main

author: pgww <pgww@lists.pglaf.org> 2025-07-15 16:22:01 -0700
committer: pgww <pgww@lists.pglaf.org> 2025-07-15 16:22:01 -0700
commit: c557f721e1ffdf30b60c1c0ea6752ac6b8a404bd (patch)
tree: 5c3a9341d054d2ed840d5bebcf6af660589decd0 /76505-h
209 files changed, 27405 insertions, 0 deletions
diff --git a/76505-h/76505-h.htm b/76505-h/76505-h.htm
new file mode 100644
index 0000000..cc46380
--- /dev/null
+++ b/76505-h/76505-h.htm
@@ -0,0 +1,27405 @@
+<!DOCTYPE html>
+<html lang="en">
+<head>
+    <meta charset="UTF-8">
+    <title>
+      Australian Insects | Project Gutenberg
+    </title>
+    <link rel="icon" href="images/cover.jpg" type="image/x-cover">
+    <style>
+
+body {
+    margin-left: 10%;
+    margin-right: 10%;
+}
+
+    h1,h2,h3,h4 {
+    text-align: center; /* all headings centered */
+    clear: both;
+}
+
+h1     {font-weight: normal;}
+
+h2     {font-size: 110%;}
+
+h3     {font-size: 95%;}
+
+h4     {font-size: 90%;}
+
+
+.subhed { display: block; margin-top: .5em; font-size: 80%; }
+
+p {
+    margin-top: .51em;
+    text-align: justify;
+    margin-bottom: .49em;
+    text-indent: 1.2em;
+}
+
+.p0       {margin-top: 0em;}
+.p1       {margin-top: 1em;}
+.p2       {margin-top: 2em;}
+.p4       {margin-top: 4em;}
+
+hr {
+    width: 33%;
+    margin-top: 2em;
+    margin-bottom: 2em;
+    margin-left: 33.5%;
+    margin-right: 33.5%;
+    clear: both;
+}
+
+hr.tb   {width: 45%; margin-left: 27.5%; margin-right: 27.5%;}
+hr.chap {width: 65%; margin-left: 17.5%; margin-right: 17.5%;}
+
+hr.r25  {width: 25%; margin-top: .1em; margin-bottom: .1em; margin-left: 37.5%; margin-right: 37.5%;}
+
+div.chapter {page-break-before: always;}
+
+ul       { list-style-type: none; }
+li.i1 {
+    text-indent: -2em;
+    padding-left: 2em;
+}
+
+div.parent { text-align: center; }
+ul.left { display: inline-block; text-align: left;
+      list-style-type: none; }
+
+table {
+margin: auto;
+width:auto;
+border: 0;
+border-spacing: 0;
+border-collapse: collapse; }
+
+td {
+padding:  0em .2em 0em 2.5em;
+border: .1em none white;
+text-align: left;
+text-indent: -2em; }
+
+th.pag {
+font-weight: normal;
+font-size: x-small;
+text-align: right;
+padding-left: 2em; }
+
+th.header {
+padding:  1.5em .2em .2em .2em;
+text-align: center;
+text-indent: 0em;
+font-size: 100%;
+font-weight: bold;}
+
+th.header1 {
+padding:  .5em .2em .2em .2em;
+text-align: center;
+text-indent: 0em;
+font-size: 100%;
+font-weight: bold;}
+
+td.chn {
+text-align: right;
+vertical-align: top;
+padding-right: 1em;
+ padding-left: 1em;  }
+
+td.cht {
+text-align: left;
+vertical-align: top;
+padding-left: 1.5em;
+text-indent: -1em;}
+
+td.pag {
+text-align: right;
+vertical-align: bottom;
+padding-left: 2em;}
+
+ td.ctr {
+ text-align: center;
+ text-indent: 0em;
+ padding-left: 0em;
+ vertical-align: top; }
+
+
+.pagenum { /* uncomment the next line for invisible page numbers */
+    /*  visibility: hidden;  */
+    position: absolute;
+    left: 92%;
+    font-size: small;
+    text-align: right;
+    font-style: normal;
+    font-weight: normal;
+    font-variant: normal;
+    text-indent: 0;
+} /* page numbers */
+
+.hangingindent {
+  padding-left: 2em ;
+  text-indent: -2em ;}
+
+.blockquot {
+    margin-left: 5%;
+    margin-right: 10%;
+    font-size: 90%;
+}
+
+.p-left  {text-indent: 0em; }
+
+.left { text-align: left;}
+
+.xs { font-size: x-small;}
+
+.sm { font-size: small;}
+
+.xl  { font-size: x-large;}
+
+.smaller  {font-size: 90%; }
+
+.center   {text-align: center;
+           text-indent: 0em;}
+
+.smcap    {font-variant: small-caps;}
+
+.gesperrt
+{
+    letter-spacing: 0.2em;
+    margin-right: -0.2em;
+}
+
+/* Images */
+
+img {
+    max-width: 100%;
+    height: auto;
+}
+
+.figcenter {
+    margin: auto;
+    text-align: center;
+    page-break-inside: avoid;
+    max-width: 100%;
+}
+
+/* Transcriber's notes */
+.transnote {background-color: #E6E6FA;
+    color: black;
+    font-size:small;
+    padding:0.5em;
+    margin-bottom:5em;
+    font-family:sans-serif, serif;
+}
+
+    </style>
+</head>
+<body>
+<div style='text-align:center'>*** START OF THE PROJECT GUTENBERG EBOOK 76505 ***</div>
+
+
+
+
+<h1 class="gesperrt">AUSTRALIAN<br>
+INSECTS.</h1>
+
+<p class="center p2 xs">BY</p>
+
+<p class="center p1">WALTER W. FROGGATT, F.L.S.,</p>
+
+<p class="center p1">Government Entomologist, New South Wales.</p>
+
+<p class="center xs">Member of the Association of Economic Entomologists, U.S. America;<br>
+Member of the Société Entomologique de France; Member of Council,<br>
+Linnean Society of N.S. Wales, and N.S. Wales Naturalists’ Club.</p>
+
+<p class="center p2">With 37 Plates, containing 270 Figures, also<br>
+180 text-blocks.</p>
+
+  <div class="figcenter">
+    <img
+    class="p4"
+    src="images/title.jpg"
+    alt="">
+  </div>
+
+<p class="center p4 sm">Sydney:</p>
+
+<p class="center xs">WILLIAM BROOKS &amp; COMPANY, LIMITED, Printers and Publishers,<br>
+17 Castlereagh Street.</p>
+
+<div class="chapter">
+<p><span class="pagenum" id="Page_iii">[iii]</span></p>
+<h2 class="p2" style="font-weight: normal">PREFACE.</h2>
+</div>
+
+
+<p>There have been so many enquiries from people in all parts of
+Australia, as well as from visitors from other countries, for a book
+dealing with our insects, that the writer thinks that the time has come
+when a Text Book dealing exclusively with Australian Entomology will be
+well received, both at home and abroad, by all those interested in this
+subject.</p>
+
+<p>The difficulty has been to write in a popular style so as to interest
+the general reader, and induce him to further follow his studies of
+the wonders of Natural History, yet at the same time to define the
+characteristics of the insects described and give some idea of their
+classification, so that it will not lose its value as a Text Book to
+the student while enlarging the circle of its readers.</p>
+
+<p>Since the year 1770, when Sir Joseph Banks captured the first diamond
+beetle on the sandy shores of Botany Bay, the majority of our insects
+have been described in rare old English or foreign publications, the
+Zoology of Voyages and Travels, or the Transactions and Proceedings of
+Scientific Societies consisting of many hundreds of volumes written in
+many different languages.</p>
+
+<p>Many of these original descriptions, written in English or Latin,
+are so brief and obscure that without seeing the type they are quite
+unintelligible even to the trained entomologist, and therefore are
+absolutely of no value to the beginner.</p>
+
+<p>Most of the earlier describers of Australian insects confined their
+attention to beetles, moths, and butterflies. Among the few exceptions
+are Westwood, who has identified himself with insects in nearly all the
+orders, and as he figured many of them (often in colours), there is no
+trouble in determining his species; and Walker, who also described many
+unique Australian insects (chiefly in the British Museum Catalogues);<span class="pagenum" id="Page_iv">[iv]</span>
+but his often vague descriptions, without details or figures, have
+puzzled all entomologists who have not had access to his types.</p>
+
+<p>During the last decade, however, as specialists have taken up the
+work of monographing the more neglected orders, and as large general
+collections of insects have been obtained from what were, at one time,
+inaccessible parts of Australia, a writer can now obtain satisfactory
+data as to the classification and number of Australian insects hitherto
+wanting.</p>
+
+<p>With these views the present text book has been prepared.</p>
+
+
+
+
+<div class="chapter">
+<h2 class="p4" style="font-weight: normal">TABLE OF CONTENTS.</h2>
+</div>
+
+<table class="smaller" style="max-width: 50em">
+   <tr>
+    <td class="cht smcap">Preface</td>
+    <td class="pag"><a href="#Page_iii">iii.</a></td>
+  </tr>
+
+   <tr>
+    <td class="cht smcap">Contents</td>
+    <td class="pag"><a href="#Page_vii">vii.</a></td>
+  </tr>
+
+   <tr>
+    <td class="cht smcap">List of Plates</td>
+    <td class="pag"><a href="#Page_xi">xi.</a></td>
+  </tr>
+
+   <tr>
+    <td class="cht smcap">Introduction</td>
+    <td class="pag"><a href="#Page_xiii">xiii.</a></td>
+  </tr>
+
+   <tr>
+    <td class="cht smcap">Classification</td>
+    <td class="pag"><a href="#Page_1">1</a></td>
+  </tr>
+
+   <tr>
+    <td class="cht smcap">Distribution</td>
+    <td class="pag"><a href="#Page_4">4</a></td>
+  </tr>
+
+   <tr>
+    <td class="cht smcap">Structure</td>
+    <td class="pag"><a href="#Page_6">6</a></td>
+  </tr>
+
+   <tr>
+    <td class="cht smcap">Fossil Insects</td>
+    <td class="pag"><a href="#Page_9">9</a></td>
+  </tr>
+
+   <tr>
+    <td class="cht smcap">The Collection and Preservation of Insects</td>
+    <td class="pag"><a href="#Page_395">395</a></td>
+  </tr>
+
+   <tr>
+    <td class="cht smcap">Museum Collections and Types</td>
+    <td class="pag"><a href="#Page_409">409</a></td>
+  </tr>
+
+   <tr>
+    <td class="cht smcap">Publications Dealing with Australian Entomology</td>
+    <td class="pag"><a href="#Page_418">418</a></td>
+  </tr>
+
+   <tr>
+    <td class="cht smcap">Addenda</td>
+    <td class="pag"><a href="#Page_423">423</a></td>
+  </tr>
+
+   <tr>
+    <td class="cht smcap">Index</td>
+    <td class="pag"><a href="#Page_425">425</a></td>
+  </tr>
+</table>
+
+  <div class="figcenter" id="a0050_ill" style="max-width: 747px">
+     <img
+    class="p1"
+    src="images/a0050_ill.jpg"
+     alt="">
+     <p class="p0 smaller center">“The White Ant City,” Somerset, Cape York, N. Queensland.</p>
+     <p class="p0 smaller center">(After Savelle-Kent)</p>
+     </div>
+
+<p><span class="pagenum" id="Page_vii">[vii]</span></p>
+
+<div class="chapter">
+<h2 class="p2" style="font-weight: normal">CONTENTS.</h2>
+</div>
+
+<table class="smaller" style="max-width: 50em">
+  <tr>
+    <th class="header" colspan="4">Order I.—APTERA.</th>
+  </tr>
+
+  <tr>
+    <th></th>
+    <th></th>
+    <th></th>
+    <th class="pag">Page</th>
+  </tr>
+
+ <tr>
+    <td class="ctr">Family</td>
+    <td class="chn">1.</td>
+    <td class="cht smcap">Collembola</td>
+    <td class="pag"><a href="#Page_10">10</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">2.</td>
+    <td class="cht smcap">Thysanura</td>
+    <td class="pag"><a href="#Page_11">11</a></td>
+  </tr>
+
+  <tr>
+    <th class="header" colspan="4">Order II.—ORTHOPTERA.</th>
+  </tr>
+
+ <tr>
+    <td class="ctr">Family</td>
+    <td class="chn">1.</td>
+    <td class="cht smcap">Forficulidae</td>
+    <td class="pag"><a href="#Page_15">15</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">2.</td>
+    <td class="cht smcap">Blattidae</td>
+    <td class="pag"><a href="#Page_17">17</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">3.</td>
+    <td class="cht smcap">Termitidae</td>
+    <td class="pag"><a href="#Page_20">20</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">4.</td>
+    <td class="cht smcap">Embiidae</td>
+    <td class="pag"><a href="#Page_28">28</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">5.</td>
+    <td class="cht smcap">Psocidae</td>
+    <td class="pag"><a href="#Page_30">30</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">6.</td>
+    <td class="cht smcap">Mantidae</td>
+    <td class="pag"><a href="#Page_31">31</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">7.</td>
+    <td class="cht smcap">Phasmidae</td>
+    <td class="pag"><a href="#Page_34">34</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">8.</td>
+    <td class="cht smcap">Acridiidae</td>
+    <td class="pag"><a href="#Page_40">40</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">9.</td>
+    <td class="cht smcap">Locustidae</td>
+    <td class="pag"><a href="#Page_46">46</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">10.</td>
+    <td class="cht smcap">Gryllidae</td>
+    <td class="pag"><a href="#Page_48">48</a></td>
+  </tr>
+
+  <tr>
+    <th class="header" colspan="4">Order III.—NEUROPTERA.</th>
+  </tr>
+
+ <tr>
+    <td class="ctr">Family</td>
+    <td class="chn">1.</td>
+    <td class="cht smcap">Perlidae</td>
+    <td class="pag"><a href="#Page_50">50</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">2.</td>
+    <td class="cht smcap">Odonata</td>
+    <td class="pag"><a href="#Page_51">51</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">3.</td>
+    <td class="cht smcap">Ephemeridae</td>
+    <td class="pag"><a href="#Page_54">54</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">4.</td>
+    <td class="cht smcap">Sialidae</td>
+    <td class="pag"><a href="#Page_55">55</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">5.</td>
+    <td class="cht smcap">Panorpidae</td>
+    <td class="pag"><a href="#Page_56">56</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">6.</td>
+    <td class="cht smcap">Hemerobiidae</td>
+    <td class="pag"><a href="#Page_57">57</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">7.</td>
+    <td class="cht smcap">Trichoptera</td>
+    <td class="pag"><a href="#Page_66">66</a></td>
+  </tr>
+
+  <tr>
+    <th class="header" colspan="4">Order IV.—HYMENOPTERA.</th>
+  </tr>
+
+ <tr>
+    <td class="ctr">Family</td>
+    <td class="chn">1.</td>
+    <td class="cht smcap">Cephidae</td>
+    <td class="pag"><a href="#Page_70">70</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">2.</td>
+    <td class="cht smcap">Oryssidae</td>
+    <td class="pag"><a href="#Page_70">70</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">3.</td>
+    <td class="cht smcap">Siricidae</td>
+    <td class="pag"><a href="#Page_71">71</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">4.</td>
+    <td class="cht smcap">Tenthredinidae</td>
+    <td class="pag"><a href="#Page_71">71</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">5.</td>
+    <td class="cht smcap">Cynipidae</td>
+    <td class="pag"><a href="#Page_73">73</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">6.</td>
+    <td class="cht smcap">Chalcididae</td>
+    <td class="pag"><a href="#Page_74">74</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">7.</td>
+    <td class="cht smcap">Proctotrypidae</td>
+    <td class="pag"><a href="#Page_81">81</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">8.</td>
+    <td class="cht smcap">Ichneumonidae</td>
+    <td class="pag"><a href="#Page_83">83</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">9.</td>
+    <td class="cht smcap">Braconidae</td>
+    <td class="pag"><a href="#Page_85">85</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">10.</td>
+    <td class="cht smcap">Chrysididae</td>
+    <td class="pag"><a href="#Page_87">87</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">11.</td>
+    <td class="cht smcap">Evaniidae</td>
+    <td class="pag"><a href="#Page_88">88</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">12.</td>
+    <td class="cht smcap">Megalyridae</td>
+    <td class="pag"><a href="#Page_90">90</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">13.</td>
+    <td class="cht smcap">Formicidae</td>
+    <td class="pag"><a href="#Page_91">91</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">14.</td>
+    <td class="cht smcap">Mutillidae</td>
+    <td class="pag"><a href="#Page_98">98</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">15.</td>
+    <td class="cht smcap">Thynnidae</td>
+    <td class="pag"><a href="#Page_100">100</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">16.</td>
+    <td class="cht smcap">Scoliidae</td>
+    <td class="pag"><a href="#Page_102">102</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">17.</td>
+    <td class="cht smcap">Pompilidae</td>
+    <td class="pag"><a href="#Page_105">105</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">18.</td>
+    <td class="cht smcap">Sphegidae</td>
+    <td class="pag"><a href="#Page_106">106</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">19.</td>
+    <td class="cht smcap">Eumenidae</td>
+    <td class="pag"><a href="#Page_110">110</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">20.</td>
+    <td class="cht smcap">Vespidae</td>
+    <td class="pag"><a href="#Page_112">112</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">21.</td>
+    <td class="cht smcap">Masaridae</td>
+    <td class="pag"><a href="#Page_113">113</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">22.</td>
+    <td class="cht smcap">Apidae</td>
+    <td class="pag"><a href="#Page_114">114</a></td>
+  </tr>
+
+  <tr>
+    <th class="header" colspan="4">Order V.—COLEOPTERA.</th>
+  </tr>
+
+ <tr>
+    <td class="ctr">Family</td>
+    <td class="chn">1.</td>
+    <td class="cht smcap">Cicindelidae</td>
+    <td class="pag"><a href="#Page_124">124</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">2.</td>
+    <td class="cht smcap">Carabidae</td>
+    <td class="pag"><a href="#Page_126">126</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">3.</td>
+    <td class="cht smcap">Dytiscidae</td>
+    <td class="pag"><a href="#Page_133">133</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">4.</td>
+    <td class="cht smcap">Gyrinidae</td>
+    <td class="pag"><a href="#Page_134">134</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">5.</td>
+    <td class="cht smcap">Hydrophilidae</td>
+    <td class="pag"><a href="#Page_135">135</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">6.</td>
+    <td class="cht smcap">Staphylinidae</td>
+    <td class="pag"><a href="#Page_136">136</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">7.</td>
+    <td class="cht smcap">Pselaphidae</td>
+    <td class="pag"><a href="#Page_138">138</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">8.</td>
+    <td class="cht smcap">Paussidae</td>
+    <td class="pag"><a href="#Page_138">138</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">9.</td>
+    <td class="cht smcap">Scydmaenidae</td>
+    <td class="pag"><a href="#Page_139">139</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">10.</td>
+    <td class="cht smcap">Silphidae</td>
+    <td class="pag"><a href="#Page_140">140</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">11.</td>
+    <td class="cht smcap">Scaphididae</td>
+    <td class="pag"><a href="#Page_141">141</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">12.</td>
+    <td class="cht smcap">Histeridae</td>
+    <td class="pag"><a href="#Page_141">141</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">13.</td>
+    <td class="cht smcap">Phalacridae</td>
+    <td class="pag"><a href="#Page_142">142</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">14.</td>
+    <td class="cht smcap">Nitidulidae</td>
+    <td class="pag"><a href="#Page_143">143</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">15.</td>
+    <td class="cht smcap">Trogositidae</td>
+    <td class="pag"><a href="#Page_144">144</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">16.</td>
+    <td class="cht smcap">Colydidae</td>
+    <td class="pag"><a href="#Page_146">146</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">17.</td>
+    <td class="cht smcap">Rhysodidae</td>
+    <td class="pag"><a href="#Page_146">146</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">18.</td>
+    <td class="cht smcap">Cucujidae</td>
+    <td class="pag"><a href="#Page_146">146</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">19.</td>
+    <td class="cht smcap">Cryptophagidae</td>
+    <td class="pag"><a href="#Page_147">147</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">20.</td>
+    <td class="cht smcap">Lathrididae</td>
+    <td class="pag"><a href="#Page_148">148</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">21.</td>
+    <td class="cht smcap">Mycetophagidae</td>
+    <td class="pag"><a href="#Page_148">148</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">22.</td>
+    <td class="cht smcap">Dermestidae</td>
+    <td class="pag"><a href="#Page_148">148</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">23.</td>
+    <td class="cht smcap">Byrrhidae</td>
+    <td class="pag"><a href="#Page_150">150</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">24.</td>
+    <td class="cht smcap">Georyssidae</td>
+    <td class="pag"><a href="#Page_150">150</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">25.</td>
+    <td class="cht smcap">Parnidae</td>
+    <td class="pag"><a href="#Page_150">150</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">26.</td>
+    <td class="cht smcap">Heteroceridae</td>
+    <td class="pag"><a href="#Page_151">151</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">27.</td>
+    <td class="cht smcap">Lucanidae</td>
+    <td class="pag"><a href="#Page_151">151</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">28.</td>
+    <td class="cht smcap">Scarabaeidae</td>
+    <td class="pag"><a href="#Page_153">153</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">29.</td>
+    <td class="cht smcap">Buprestidae</td>
+    <td class="pag"><a href="#Page_162">162</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">30.</td>
+    <td class="cht smcap">Eucnemidae</td>
+    <td class="pag"><a href="#Page_165">165</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">31.</td>
+    <td class="cht smcap">Elateridae</td>
+    <td class="pag"><a href="#Page_166">166</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">32.</td>
+    <td class="cht smcap">Rhipidoceridae</td>
+    <td class="pag"><a href="#Page_167">167</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">33.</td>
+    <td class="cht smcap">Malacodermidae</td>
+    <td class="pag"><a href="#Page_167">167</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">34.</td>
+    <td class="cht smcap">Cleridae</td>
+    <td class="pag"><a href="#Page_168">168</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">35.</td>
+    <td class="cht smcap">Ptinidae</td>
+    <td class="pag"><a href="#Page_169">169</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">36.</td>
+    <td class="cht smcap">Cioidae</td>
+    <td class="pag"><a href="#Page_170">170</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">37.</td>
+    <td class="cht smcap">Bostrychidae</td>
+    <td class="pag"><a href="#Page_171">171</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">38.</td>
+    <td class="cht smcap">Tenebrionidae</td>
+    <td class="pag"><a href="#Page_172">172</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">39.</td>
+    <td class="cht smcap">Cistelidae</td>
+    <td class="pag"><a href="#Page_175">175</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">40.</td>
+    <td class="cht smcap">Lagriidae</td>
+    <td class="pag"><a href="#Page_175">175</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">41.</td>
+    <td class="cht smcap">Anthicidae</td>
+    <td class="pag"><a href="#Page_176">176</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">42.</td>
+    <td class="cht smcap">Pyrochroidae</td>
+    <td class="pag"><a href="#Page_176">176</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">43.</td>
+    <td class="cht smcap">Mordellidae</td>
+    <td class="pag"><a href="#Page_176">176</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">44.</td>
+    <td class="cht smcap">Cantharidae</td>
+    <td class="pag"><a href="#Page_177">177</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">45.</td>
+    <td class="cht smcap">Scolytidae</td>
+    <td class="pag"><a href="#Page_178">178</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">46.</td>
+    <td class="cht smcap">Brenthidae</td>
+    <td class="pag"><a href="#Page_179">179</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">47.</td>
+    <td class="cht smcap">Anthribidae</td>
+    <td class="pag"><a href="#Page_180">180</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">48.</td>
+    <td class="cht smcap">Curculonidae</td>
+    <td class="pag"><a href="#Page_181">181</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">49.</td>
+    <td class="cht smcap">Cerambycidae</td>
+    <td class="pag"><a href="#Page_190">190</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">50.</td>
+    <td class="cht smcap">Chrysomelidae</td>
+    <td class="pag"><a href="#Page_200">200</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">51.</td>
+    <td class="cht smcap">Erotylidae</td>
+    <td class="pag"><a href="#Page_206">206</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">52.</td>
+    <td class="cht smcap">Coccinellidae</td>
+    <td class="pag"><a href="#Page_207">207</a></td>
+  </tr>
+
+  <tr>
+    <th class="header" colspan="4">Order VI.—LEPIDOPTERA.</th>
+  </tr>
+
+  <tr>
+    <th class="header1" colspan="4">Sub-order.—RHOPALOCERA.</th>
+  </tr>
+
+ <tr>
+    <td class="ctr">Family</td>
+    <td class="chn">1.</td>
+    <td class="cht smcap">Nymphalidae</td>
+    <td class="pag"><a href="#Page_214">214</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">2.</td>
+    <td class="cht smcap">Libytheidae</td>
+    <td class="pag"><a href="#Page_219">219</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">3.</td>
+    <td class="cht smcap">Lycaenidae</td>
+    <td class="pag"><a href="#Page_219">219</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">4.</td>
+    <td class="cht smcap">Pieridae</td>
+    <td class="pag"><a href="#Page_223">223</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">5.</td>
+    <td class="cht smcap">Papilionidae</td>
+    <td class="pag"><a href="#Page_225">225</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">6.</td>
+    <td class="cht smcap">Hesperidae</td>
+    <td class="pag"><a href="#Page_227">227</a></td>
+  </tr>
+
+  <tr>
+    <th class="header" colspan="4">Sub-order.—HETEROCERA.</th>
+  </tr>
+
+ <tr>
+    <td class="ctr">Family</td>
+    <td class="chn">1.</td>
+    <td class="cht smcap">Castniidae</td>
+    <td class="pag"><a href="#Page_232">232</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">2.</td>
+    <td class="cht smcap">Uraniidae</td>
+    <td class="pag"><a href="#Page_232">232</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">3.</td>
+    <td class="cht smcap">Agaristidae</td>
+    <td class="pag"><a href="#Page_233">233</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">4.</td>
+    <td class="cht smcap">Syntomidae</td>
+    <td class="pag"><a href="#Page_235">235</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">5.</td>
+    <td class="cht smcap">Zygaenidae</td>
+    <td class="pag"><a href="#Page_236">236</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">6.</td>
+    <td class="cht smcap">Sphingidae</td>
+    <td class="pag"><a href="#Page_236">236</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">7.</td>
+    <td class="cht smcap">Hepialidae</td>
+    <td class="pag"><a href="#Page_239">239</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">8.</td>
+    <td class="cht smcap">Psychidae</td>
+    <td class="pag"><a href="#Page_243">243</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">9.</td>
+    <td class="cht smcap">Limacodidae</td>
+    <td class="pag"><a href="#Page_246">246</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">10.</td>
+    <td class="cht smcap">Arctiidae</td>
+    <td class="pag"><a href="#Page_248">248</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">11.</td>
+    <td class="cht smcap">Liparidae</td>
+    <td class="pag"><a href="#Page_252">252</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">12.</td>
+    <td class="cht smcap">Bombycidae</td>
+    <td class="pag"><a href="#Page_255">255</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">13.</td>
+    <td class="cht smcap">Geometridae</td>
+    <td class="pag"><a href="#Page_259">259</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">14.</td>
+    <td class="cht smcap">Noctuidae</td>
+    <td class="pag"><a href="#Page_262">262</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">15.</td>
+    <td class="cht smcap">Pyralidae</td>
+    <td class="pag"><a href="#Page_268">268</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">16.</td>
+    <td class="cht smcap">Tortricidae</td>
+    <td class="pag"><a href="#Page_274">274</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">17.</td>
+    <td class="cht smcap">Micro-lepidoptera</td>
+    <td class="pag"><a href="#Page_278">278</a></td>
+  </tr>
+
+  <tr>
+    <th class="header" colspan="4">Order VII.—DIPTERA.</th>
+  </tr>
+
+ <tr>
+    <td class="ctr">Family</td>
+    <td class="chn">1.</td>
+    <td class="cht smcap">Cecidomyidae</td>
+    <td class="pag"><a href="#Page_285">285</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">2.</td>
+    <td class="cht smcap">Mycetophilidae</td>
+    <td class="pag"><a href="#Page_287">287</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">3.</td>
+    <td class="cht smcap">Colicidae</td>
+    <td class="pag"><a href="#Page_288">288</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">4.</td>
+    <td class="cht smcap">Chironomidae</td>
+    <td class="pag"><a href="#Page_291">291</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">5.</td>
+    <td class="cht smcap">Tipulidae</td>
+    <td class="pag"><a href="#Page_292">292</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">6.</td>
+    <td class="cht smcap">Stratiomyidae</td>
+    <td class="pag"><a href="#Page_293">293</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">7.</td>
+    <td class="cht smcap">Tabanidae</td>
+    <td class="pag"><a href="#Page_294">294</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">8.</td>
+    <td class="cht smcap">Bombylidae</td>
+    <td class="pag"><a href="#Page_296">296</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">9.</td>
+    <td class="cht smcap">Acroceridae</td>
+    <td class="pag"><a href="#Page_297">297</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">10.</td>
+    <td class="cht smcap">Mydaidae</td>
+    <td class="pag"><a href="#Page_298">298</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">11.</td>
+    <td class="cht smcap">Asilidae</td>
+    <td class="pag"><a href="#Page_298">298</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">12.</td>
+    <td class="cht smcap">Apioceridae</td>
+    <td class="pag"><a href="#Page_301">301</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">13.</td>
+    <td class="cht smcap">Pipunculidae</td>
+    <td class="pag"><a href="#Page_301">301</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">14.</td>
+    <td class="cht smcap">Syrphidae</td>
+    <td class="pag"><a href="#Page_302">302</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">15.</td>
+    <td class="cht smcap">Conopidae</td>
+    <td class="pag"><a href="#Page_305">305</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">16.</td>
+    <td class="cht smcap">Muscidae Acalyptera</td>
+    <td class="pag"><a href="#Page_305">305</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">17.</td>
+    <td class="cht smcap">Anthomyidae</td>
+    <td class="pag"><a href="#Page_311">311</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">18.</td>
+    <td class="cht smcap">Tachinidae</td>
+    <td class="pag"><a href="#Page_312">312</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">19.</td>
+    <td class="cht smcap">Dexiidae</td>
+    <td class="pag"><a href="#Page_313">313</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">20.</td>
+    <td class="cht smcap">Sarcophagidae</td>
+    <td class="pag"><a href="#Page_314">314</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">21.</td>
+    <td class="cht smcap">Muscidae</td>
+    <td class="pag"><a href="#Page_315">315</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">22.</td>
+    <td class="cht smcap">Oestridae</td>
+    <td class="pag"><a href="#Page_317">317</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">23.</td>
+    <td class="cht smcap">Hippoboscidae</td>
+    <td class="pag"><a href="#Page_319">319</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">24.</td>
+    <td class="cht smcap">Pulicidae</td>
+    <td class="pag"><a href="#Page_321">321</a></td>
+  </tr>
+
+  <tr>
+    <th class="header" colspan="4">Order VIII.—HEMIPTERA.</th>
+  </tr>
+
+ <tr>
+    <td class="ctr">Family</td>
+    <td class="chn">1.</td>
+    <td class="cht smcap">Pentatomidae</td>
+    <td class="pag"><a href="#Page_327">327</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">2.</td>
+    <td class="cht smcap">Coreidae</td>
+    <td class="pag"><a href="#Page_331">331</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">3.</td>
+    <td class="cht smcap">Lygaeidae</td>
+    <td class="pag"><a href="#Page_333">333</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">4.</td>
+    <td class="cht smcap">Pyrrhocoridae</td>
+    <td class="pag"><a href="#Page_335">335</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">5.</td>
+    <td class="cht smcap">Tingidae</td>
+    <td class="pag"><a href="#Page_336">336</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">6.</td>
+    <td class="cht smcap">Aradidae</td>
+    <td class="pag"><a href="#Page_337">337</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">7.</td>
+    <td class="cht smcap">Hydrometridae</td>
+    <td class="pag"><a href="#Page_337">337</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">8.</td>
+    <td class="cht smcap">Reduviidae</td>
+    <td class="pag"><a href="#Page_338">338</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">9.</td>
+    <td class="cht smcap">Cimicidae</td>
+    <td class="pag"><a href="#Page_341">341</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">10.</td>
+    <td class="cht smcap">Capsidae</td>
+    <td class="pag"><a href="#Page_341">341</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">11.</td>
+    <td class="cht smcap">Cryptocerata</td>
+    <td class="pag"><a href="#Page_342">342</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">12.</td>
+    <td class="cht smcap">Belostomidae</td>
+    <td class="pag"><a href="#Page_343">343</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">13.</td>
+    <td class="cht smcap">Notonectidae</td>
+    <td class="pag"><a href="#Page_344">344</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">14.</td>
+    <td class="cht smcap">Corixidae</td>
+    <td class="pag"><a href="#Page_345">345</a></td>
+  </tr>
+
+  <tr>
+    <th class="header" colspan="4">Sub-order.—HOMOPTERA.</th>
+  </tr>
+
+ <tr>
+    <td class="ctr">Family</td>
+    <td class="chn">1.</td>
+    <td class="cht smcap">Cicadidae</td>
+    <td class="pag"><a href="#Page_346">346</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">2.</td>
+    <td class="cht smcap">Cercopidae</td>
+    <td class="pag"><a href="#Page_354">354</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">3.</td>
+    <td class="cht smcap">Membracidae</td>
+    <td class="pag"><a href="#Page_356">356</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">4.</td>
+    <td class="cht smcap">Fulgoridae</td>
+    <td class="pag"><a href="#Page_358">358</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">5.</td>
+    <td class="cht smcap">Jassidae</td>
+    <td class="pag"><a href="#Page_360">360</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">6.</td>
+    <td class="cht smcap">Psyllidae</td>
+    <td class="pag"><a href="#Page_361">361</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">7.</td>
+    <td class="cht smcap">Aphidae</td>
+    <td class="pag"><a href="#Page_367">367</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">8.</td>
+    <td class="cht smcap">Aleurodidae</td>
+    <td class="pag"><a href="#Page_370">370</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">9.</td>
+    <td class="cht smcap">Coccidae</td>
+    <td class="pag"><a href="#Page_371">371</a></td>
+  </tr>
+
+  <tr>
+    <th class="header" colspan="4">Sub-order.—ANOPLURA.</th>
+  </tr>
+
+ <tr>
+    <td class="ctr">Family</td>
+    <td class="chn">1.</td>
+    <td class="cht smcap">Pediculidae</td>
+    <td class="pag"><a href="#Page_388">388</a></td>
+  </tr>
+
+  <tr>
+    <th class="header" colspan="4">Sub-order.—MALLOPHAGA.</th>
+  </tr>
+
+ <tr>
+    <td class="ctr">Family</td>
+    <td class="chn">1.</td>
+    <td class="cht smcap">Trichodectidae</td>
+    <td class="pag"><a href="#Page_390">390</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">2.</td>
+    <td class="cht smcap">Philopteridae</td>
+    <td class="pag"><a href="#Page_390">390</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">3.</td>
+    <td class="cht smcap">Gyropidae</td>
+    <td class="pag"><a href="#Page_390">390</a></td>
+  </tr>
+
+ <tr>
+    <td class="ctr">„</td>
+    <td class="chn">4.</td>
+    <td class="cht smcap">Liotheidae</td>
+    <td class="pag"><a href="#Page_390">390</a></td>
+  </tr>
+
+  <tr>
+    <th class="header" colspan="4">Order IX.—THYSANOPTERA.</th>
+  </tr>
+
+ <tr>
+    <td class="ctr">Family</td>
+    <td class="chn">1.</td>
+    <td class="cht smcap">Thripidae</td>
+    <td class="pag"><a href="#Page_392">392</a></td>
+  </tr>
+</table>
+
+<p><span class="pagenum" id="Page_xi">[xi]</span></p>
+
+<div class="chapter">
+<h2 style="font-weight: normal">LIST OF PLATES.</h2>
+</div>
+
+<table class="smaller">
+  <tr>
+    <th class="chap">PLATE.</th>
+    <th></th>
+    <th class="pag">FACING<br>PAGE</th>
+  </tr>
+
+  <tr>
+    <td class="chn">I.</td>
+    <td class="cht smcap">Cockroaches</td>
+    <td class="pag"><a href="#plate1">17</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">II.</td>
+    <td class="cht smcap">White Ants</td>
+    <td class="pag"><a href="#plate2">22</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">III.</td>
+    <td class="cht smcap">Nests of White Ants</td>
+    <td class="pag"><a href="#plate3">24</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">IV.</td>
+    <td class="cht smcap">&emsp;&nbsp;„&emsp;&nbsp;„&emsp;&emsp;&emsp;„</td>
+    <td class="pag"><a href="#plate4">28</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">V.</td>
+    <td class="cht smcap">Leaf Insects</td>
+    <td class="pag"><a href="#plate5">35</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">VI.</td>
+    <td class="cht smcap">Long-horned Grasshoppers</td>
+    <td class="pag"><a href="#plate6">46</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">VII.</td>
+    <td class="cht smcap">Crickets</td>
+    <td class="pag"><a href="#plate7">48</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">VIII.</td>
+    <td class="cht smcap">Dragon Flies</td>
+    <td class="pag"><a href="#plate8">51</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">IX.</td>
+    <td class="cht smcap">Ant Lions</td>
+    <td class="pag"><a href="#plate9">57</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">X.</td>
+    <td class="cht smcap">Saw Flies</td>
+    <td class="pag"><a href="#plate10">71</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">XI.</td>
+    <td class="cht smcap">&emsp;„&ensp;&emsp;„</td>
+    <td class="pag"><a href="#plate11">73</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">XII.</td>
+    <td class="cht smcap">Fig Insects</td>
+    <td class="pag"><a href="#plate12">78</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">XIII.</td>
+    <td class="cht smcap">Ichneumon, Sand, and Flower Wasps</td>
+    <td class="pag"><a href="#plate13">89</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">XIV.</td>
+    <td class="cht smcap">Ants</td>
+    <td class="pag"><a href="#plate14">95</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">XV.</td>
+    <td class="cht smcap">Nests of Wasps</td>
+    <td class="pag"><a href="#plate15">112</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">XVI.</td>
+    <td class="cht smcap">Bees and Wasps</td>
+    <td class="pag"><a href="#plate16">118</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">XVII.</td>
+    <td class="cht smcap">Beetles</td>
+    <td class="pag"><a href="#plate17">151</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">XVIII.</td>
+    <td class="cht smcap">Flower Beetles</td>
+    <td class="pag"><a href="#plate18">163</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">XIX.</td>
+    <td class="cht smcap">White Butterflies</td>
+    <td class="pag"><a href="#plate19">214</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">XX.</td>
+    <td class="cht smcap">Miscellaneous Butterflies</td>
+    <td class="pag"><a href="#plate20">220</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">XXI.</td>
+    <td class="cht smcap">&emsp;&emsp;&emsp;&ensp;„&emsp;&emsp;&emsp;&emsp;&nbsp;&emsp;„</td>
+    <td class="pag"><a href="#plate21">227</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">XXII.</td>
+    <td class="cht smcap">&emsp;&emsp;&emsp;&ensp;„&emsp;&emsp;&emsp;Moths</td>
+    <td class="pag"><a href="#plate22">235</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">XXIII.</td>
+    <td class="cht smcap">Great Swift Moth</td>
+    <td class="pag"><a href="#plate23">241</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">XXIV.</td>
+    <td class="cht smcap">Bag Shelter Moths</td>
+    <td class="pag"><a href="#plate24">245</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">XXV.</td>
+    <td class="cht smcap">Case Moths</td>
+    <td class="pag"><a href="#plate25">253</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">XXVI.</td>
+    <td class="cht smcap">Miscellaneous Moths</td>
+    <td class="pag"><a href="#plate26">268</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">XXVII.</td>
+    <td class="cht smcap">Mosquitoes</td>
+    <td class="pag"><a href="#plate27">289</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">XXVIII.</td>
+    <td class="cht smcap">Flies</td>
+    <td class="pag"><a href="#plate28">299</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">XXIX.</td>
+    <td class="cht smcap">House Flies</td>
+    <td class="pag"><a href="#plate29">314</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">XXX.</td>
+    <td class="cht smcap">Blow Flies</td>
+    <td class="pag"><a href="#plate30">316</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">XXXI.</td>
+    <td class="cht smcap">Plant Bugs</td>
+    <td class="pag"><a href="#plate31">327</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">XXXII.</td>
+    <td class="cht smcap">&emsp;&nbsp;„&emsp;&emsp;„</td>
+    <td class="pag"><a href="#plate32">336</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">XXXIII.</td>
+    <td class="cht smcap">Cicadas</td>
+    <td class="pag"><a href="#plate33">346</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">XXXIV.</td>
+    <td class="cht smcap">Galls of Coccids and Beetles</td>
+    <td class="pag"><a href="#plate34">374</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">XXXV.</td>
+    <td class="cht smcap">Galls of Coccids</td>
+    <td class="pag"><a href="#plate35">380</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">XXXVI.</td>
+    <td class="cht smcap">Lac Insects</td>
+    <td class="pag"><a href="#plate36">378</a></td>
+  </tr>
+
+  <tr>
+    <td class="chn">XXXVII.</td>
+    <td class="cht smcap">Thrip Insects</td>
+    <td class="pag"><a href="#plate37">393</a></td>
+  </tr>
+</table>
+
+<hr class="chap x-ebookmaker-drop">
+
+<div class="chapter">
+<p><span class="pagenum" id="Page_xiii">[xiii]</span></p>
+<h2 style="font-weight: normal">INTRODUCTION.</h2>
+</div>
+
+
+<p>The chief drawback to the study of entomology by the outsider has
+been, until modern times, the dry-as-dust technical terms used in the
+descriptive work, and the formidable names attached to many of the
+interesting little creatures, without any information about their
+habits or life histories. This is not surprising when we know the
+methods of some of the writers, and the material on which they often
+worked; namely, specimens obtained from abroad, often in a more or less
+damaged condition, discoloured and aborted from being squeezed among
+spirit collections, and with a brief or no record of their native home.</p>
+
+<p>This has been all changed since trained students like Darwin, Wallace,
+Bates, and many others have spent years in the wilds studying zoology
+under natural surroundings, recording their observations while they
+made collections, and, with this wealth of material and accurate
+knowledge, gave such descriptions, that they have led into many new
+fields of investigation, one of the most important of which is economic
+entomology.</p>
+
+<p>The Economic Entomologist has become more necessary and important every
+year. His investigations, carried on in the field and insectarium,
+have not only done much to popularise entomology, but have saved the
+countries interested untold wealth by the discovery of methods for
+checking the spread and ravages of injurious insects. The technical
+description of an insect is not sufficient to satisfy a practical man;
+he wants to know where it passes the earlier stages of its existence,
+what it feeds upon, and its place in the insect world.</p>
+
+<p>In the open-air study of God’s tiny creatures many pleasant and
+profitable hours may be spent, and dwellers in the country need never
+feel time hang heavily on their hands, after they have once had their
+eyes opened to the wonders of Nature around them. It is the writer’s
+privilege to know and correspond with a great many busy men and women,
+scattered all over Australia, who are doing valuable work in collecting
+specimens, making notes, and seeing both with eyes and brain—true bush
+naturalists in every sense of the word.</p>
+
+<p>In acknowledging my obligations to friends who have helped me in the
+course of this work, I desire to express my thanks to Mr. Masters
+for notes on the habits and range of<span class="pagenum" id="Page_xiv">[xiv]</span> insects, and the examination
+of specimens in the Macleay Museum; to Messrs. Sloane, Lea, Lyell,
+R. Turner, Tillyard, Tepper, Kershaw, Dun, Dr. Jefferis Turner, Dr.
+Goding, and Rev. T. Blackburn for various notes, specimens, and help
+generally. From Mr. C. French and C. French, Jr., I have had the loan
+of papers, books, and specimens unobtainable in Sydney, and from Mr. J.
+J. Fletcher suggestions and references to works in the N.S.W. Linnean
+Society’s library.</p>
+
+<p>Many other correspondents have greatly assisted me in examining and
+determining specimens—Dr. Horvath, Dr. Forel, M. André, Dr. Sharp,
+Mr. W. F. Kirby, Mr. C. C. Green, Dr. Silvestri, Dr. Howard, Mr. W. M.
+Ashmead, and Mr. D. W. Coquillett.</p>
+
+<p>I am indebted to Mr. Maiden for the identification of the native food
+plants of many insects.</p>
+
+<p>I am also greatly indebted to Mr. W. S. Campbell for permission to
+use the drawings of Messrs. Grose, Burton, and Chambers, which have
+previously appeared in the pages of <i>The Agricultural Gazette
+of N.S.W.</i>, and which for beauty and accuracy have rarely been
+surpassed. To Mr. Burton and Mr. Gurney my thanks are also due for
+their care in arranging and photographing other specimens. To the other
+friends who have kindly aided me in this undertaking in any way I beg
+here to offer my best thanks.</p>
+<hr class="chap x-ebookmaker-drop">
+
+<div class="chapter">
+<p><span class="pagenum" id="Page_1">[1]</span></p>
+
+<p class="center p2 xl"><b>AUSTRALIAN INSECTS.</b></p>
+</div>
+
+<h2 class="sm" style="font-weight: normal">CLASSIFICATION.</h2>
+
+
+<p>In considering the classification of our insects, I have on the
+whole followed that adopted by Sharp in his “Insects” (vol. v.,
+vi., 1895, 1899), Cambridge Natural History, but at the same time
+have considered it advisable, in a work of this kind, to leave out
+whenever possible the definition of the smaller sub-divisions. I have
+also made one important alteration in his scheme of classification
+by placing the Termitidae after the Blattidae, following on with the
+Embiidae and Psocidae, as I consider that these are nearer primitive
+Orthoptera than Neuroptera in their wing structure; we thus do away
+with Pseudo-Neuroptera that has always appeared to be an unnecessary
+division; and we should have the courage of our convictions and place
+them on one side or the other.</p>
+
+<p>In zoological classification, the sub-kingdom Arthopoda, comprising
+creatures whose bodies are composed of rings or segments, and jointed
+legs, contains four large groups: (1) Arachnidae, spiders, mites,
+ticks, and scorpions; (2) Crustacea, crabs, shrimps, wood lice, &amp;c.;
+(3) Myriapoda, centipedes, millepedes, &amp;c.; (4) Insecta, insects; and
+a fifth group, Onychophora, containing the <i>Peripatus</i>, is now
+included. Though these creatures are broadly related, insects are
+readily distinguished from the members of the preceding groups.</p>
+
+<p>The word Entomology is derived from two Greek words, <i>Entomos</i>,
+an insect; and <i>Logos</i>, a discourse. Insects are arranged by
+entomologists in Orders, Families, Genera, and Species. The first
+clearly-defined classification was published by Linnaeus in his
+“Systema Naturae,” 1758, where he divided them up into seven great
+orders; namely, Coleoptera, Hemiptera, Lepidoptera, Neuroptera,
+Hymenoptera, Diptera, and Aptera, distinguished by the number and
+structure of the wings. Later on (1778) Fabricius founded another
+classification, based on the structure of the organs of the mouth, but
+this artificial arrangement soon became obsolete.</p>
+
+<p><span class="pagenum" id="Page_2">[2]</span></p>
+
+<p>In 1815, Kirby and Spence issued the work in four volumes entitled
+“An Introduction to Entomology or Elements of the Natural History of
+Insects,” a second revised edition coming out in 1816. This was the
+first attempt in England to popularise entomology, and to give the
+ordinary reader an idea of classification. In it will be found a great
+deal of general information that all young entomologists should read.</p>
+
+<p>In Westwood’s “Introduction to the Modern Classification of Insects,”
+published in 1839, a great advance was made, and the science placed on
+a sound footing; this has been a great help to all workers. He divided
+the insects into thirteen orders; but, though the tendency of American
+and European writers has been to increase these divisions, we have
+reduced them, and in Kirby’s “Text Book of Entomology” only seven are
+used. In the last work, “Insects” (Cambridge Natural History, 1895), by
+Sharp, the same seven orders are used, though in a somewhat different
+manner, with the addition of an eighth, Thysanoptera, to contain the
+single family Thripidae.</p>
+
+<p>The correct naming of insects is based on the following rules: First
+comes the Order, which may contain a number of Families, all with
+certain peculiarities; as, for example, the straight-winged insects,
+Order Orthoptera, of which we will take the Family <i>Acridiidae</i>,
+“locusts.” This Family is again subdivided into smaller divisions or
+groups, called Genera; all the individuals comprised in the Genus have
+some well-defined external characters that form a common link binding
+them together: the individuals are known as Species. Therefore each
+insect when it has been described has a generic or group name, and a
+specific or individual name. The generic name should be based on some
+Greek or Latin root, preferably the former, but it cannot of course be
+compounded from both languages; it should on translation give some clue
+to the general distinctive character of the group. The specific name
+should be derived from Latin, and give the student some idea of the
+locality, markings, colour, or shape of some part of the insect under
+observation; thus, <i>Locusta australis</i>, Brunner, is the southern
+locust or grasshopper. As a matter of convenience to students, the name
+or abbreviated name of the entomologist who first described the insect
+follows the name when mentioned in scientific articles or catalogues,
+but is not usually done in general work.</p>
+
+<p>The rules here laid down, however, are much more observed in the breach
+than in the observance. In former times most descriptions of insects
+were written in Latin, but at the present time they are being described
+not only in English, French, and German, but many other languages
+difficult for<span class="pagenum" id="Page_3">[3]</span> the ordinary English student to translate, such as
+Russian, Bohemian, Hungarian, &amp;c., so that it is very difficult in many
+instances to find out whether some generic names have any meaning.
+The difficulty of creating generic names with pure roots that are not
+preoccupied by previous writers is always increasing, and to save the
+trouble of going through the lists of genera already in use, many
+zoologists use the names of other naturalists, names of localities, or
+“nonsense” names compounded of a jumble of letters. Then, again, when
+the genus is an extensive one containing many species, the describer
+gives it the Latinised name of the collector or some friend he wishes
+to honour, so that we may come across both a generic and specific name
+that throws no light on the identity of the insect. As an example,
+<i>Grabhamia curriei</i>; Coquillett named this mosquito in the first
+instance <i>Culex curriei</i>, Currie’s mosquito, which was consistent,
+but Theobald found on subsequent examination that it belonged to his
+Genus <i>Grabhamia</i>, dedicated to Dr. Grabham.</p>
+
+<p>Even without these drawbacks, a beginner naturally finds the
+classification of insects a serious task, and the simple committing to
+memory of the scientific names a big undertaking; but when he has once
+grasped the rudiments, the system will soon appear to him.</p>
+
+<p>One of the most difficult things the popular writer meets with in
+scientific work is to find a suitable vernacular name to fit a common
+insect; a beetle may be bright yellow, with a brown head; the first man
+comes along and calls it the “Yellow-bodied Beetle,” another passes
+by and says it is the “Brown-headed Beetle,” yet neither would be
+quite accurate or define its main peculiarities. Again, we often find
+a popular name that designates a particular insect in one district is
+used for quite a different species in another part of the State: quite
+recently I asked several correspondents for specimens of the beetle in
+the Maitland district known as the “Jackeroi,” and had four distinct
+species of weevils forwarded under that name. The “Dicky Rice” is
+the name given to a tiny grey weevil (<i>Prosayleus phytolymus</i>)
+by the orchardists about Windsor, but in other districts it is used
+indiscriminately for a number of other weevils.</p>
+
+<p>Should any one take up a box full of unnamed and unclassified insects,
+he will feel like a stranger in a picture gallery without a catalogue;
+for, while everything is very beautiful, how much more interesting
+if he only knew something about the subject; for the same reason,
+each insect named and arranged has an individuality that it did not
+previously possess.</p>
+<hr class="chap x-ebookmaker-drop">
+
+<div class="chapter">
+<p><span class="pagenum" id="Page_4">[4]</span></p>
+
+<h2 class="sm" style="font-weight: normal">DISTRIBUTION.</h2>
+</div>
+
+
+<p>The insect fauna of Australia is as remarkable and distinctive in its
+peculiarities as the flora, and probably for the same reason,—the fact
+of its isolated position from the larger continental areas, and the
+configuration of the continent. If we take away the eastern mountain
+range running north and south from Cape York to Gippsland, we find an
+immense tract of almost level country with hardly a river of any size
+except the Murray and its tributaries, covered with thick scrub or open
+forest, great flat unbroken plains in the south; rolling downs towards
+the north; sand-hills, and low timbered ranges in the interior. It is
+half the year without any permanent water for hundreds of miles at a
+stretch; scorched with a blazing sun and fierce hot winds in summer,
+bleak and cold in the winter. Yet there is no desert country of any
+extent in the strict sense of the word in the most arid portion; for
+given a good fall of rain, the country, apparently parched beyond
+recovery, soon puts on a coat of green, wild flowers shoot out, insects
+and little creatures of all kinds emerge from their hiding places, and
+birds appear as if by magic.</p>
+
+<p>Naturally our fauna, and the insects in particular, have had to adapt
+themselves to these extremes, and we find them with many curious habits
+without parallel in more normal countries.</p>
+
+<p>Our fauna is extremely rich in gall-producing insects in many different
+orders; there are about 50 different species of coccids that form
+well defined galls upon their host plants, yet the only record of a
+gall-making coccid outside Australia is a single species in Mexico.
+Numbers of <i>Thripidae</i> produce galls in the leaves or flower
+buds of our native shrubs, while the galls of <i>Psyllidae</i>,
+<i>Diptera</i>, and <i>Hymenoptera</i> are very abundant.</p>
+
+<p>Ants, <i>Formicidae</i>, swarm in the driest parts of the interior;
+and flies, of all kinds, blow flies, blue bottle, and the small house
+flies, are a perfect pest all through the summer months.</p>
+
+<p>All our coastal scrubs are rich in flowering shrubs which provide food
+or hunting ground for a large insect population. The flower wasps,
+<i>Thynnidae</i>, (in which the males are large and handsome with well
+developed wings, but the females are diminutive and wingless,) comprise
+several hundred described species; the only other countries in which
+they are<span class="pagenum" id="Page_5">[5]</span> represented are the west coast of South America, and a few in
+the Pacific Islands. The allied ant-like <i>Mutillidae</i> with their
+wingless females are more numerous in the interior. Though our country
+is very rich in Sawflies, <i>Tenthredinidae</i>, they all belong
+to genera peculiar to Australia; the members of the typical genus
+<i>Cimbex</i> extending its range as far east as Japan do not reach us.</p>
+
+<p>The low stunted flowering shrubs covering large patches of both the
+eastern and western coasts support an immense number of Jewel-beetles,
+Genus <i>Stigmodera</i>, also peculiar to this continent. We appear to
+have few forms allied to North or South America; our affinities are
+with Africa, and the Malay Peninsula; insects of well sustained flight,
+as the Orthoptera, are found here identical with species found in
+Africa and Asia.</p>
+
+<p>Many insects abundant in the eastern coastal districts are very limited
+in their range; but on the western watershed others may be found
+ranging right across to the Indian Ocean.</p>
+<hr class="chap x-ebookmaker-drop">
+
+<div class="chapter">
+<p><span class="pagenum" id="Page_6">[6]</span></p>
+
+<h2 class="sm" style="font-weight: normal">STRUCTURE.</h2>
+</div>
+
+
+<p>The imago or perfect insect is encased in a more or less perfect horny
+integument composed of a substance called chiten, which forms in many
+a regular box containing all the vital organs. Every insect can be
+divided into three primary divisions: first, the head, to which is
+attached the mouth parts, antennae, and eyes; second, the thorax or
+chest, sometimes forming a solid mass, but properly composed of three
+segments, namely, the prothorax, mesothorax, and metathorax, to which
+are attached three pairs of legs, and two pairs of wings (there are,
+however, many exceptions to the last, as some have only one pair,
+and others are wingless); third, the abdomen or body, consisting of
+a number of segments variously estimated from five to eleven, the
+normal number being ten, which enclose the digestive, breathing, and
+reproductive organs.</p>
+
+<p>Every insect in the first instance comes from an egg or living larva
+produced by the female, and though, even to the naturalist, it seems
+very hard to account for the countless millions of some of the smaller
+insects such as aphids and scale insects which suddenly swarm as if by
+magic over plants, there is no such thing as spontaneous generation;
+insects cannot come out of the ground from nothing, or be produced
+from the crystalline dew upon the foliage as we have sometimes found
+stated in newspapers. Again, a grain weevil cannot change into a flour
+moth, or <i>vice versa</i>, as many of our farmers will say in all
+good faith. In some groups the insects are produced as living larvae,
+and commence to feed at once; but in the majority, eggs are deposited
+in or upon the food, in which state they may remain without hatching
+but a few days, or more than a year. As soon as the little caterpillar
+or grub emerges, it starts upon its food, spending the whole of this
+stage of its existence in eating and growing, moulting at intervals by
+casting off the outer skin to accommodate its increasing bulk; when
+full-grown and ready for the final moult, it stops eating, crawls away
+into a suitable place, and forms a cocoon, cell, or shell, in which it
+pupates. It is now a chrysalis or pupa, quiescent, without any movement
+except a slight twitching of the tip of the abdomen when disturbed.
+Under the pupal covering the different organs of the perfect insect
+become gradually defined, until one bright day the last evolution is
+completed, and with a few convulsive movements the perfect insect<span class="pagenum" id="Page_7">[7]</span>
+bursts out of its enveloping swaddling clothes and appears in all its
+beauty and perfection.</p>
+
+<p>Some groups, however, undergo a much more simple or incomplete
+metamorphosis; emerging from the egg a baby insect ready to eat, (like
+the grasshopper,) the same food as its mother; it undergoes a series
+of moults, and after casting its skin every time, becomes more nearly
+perfect without any true pupal stage, and finally after the last moult
+comes forth with well-developed wings, a perfect insect.</p>
+
+<p>The typical insect is furnished with a large compound eye on either
+side of the head composed of a number of small sections called facets,
+varying in number from sixteen to several thousands in some of the
+more highly developed families, and two or three simple eyes forming
+bright shining dots between the compound pair called ocelli. In some
+groups these ocelli are wanting; in others both eyes and ocelli, so the
+insects are therefore blind.</p>
+
+<p>The mouth parts are composed of several hard plates; in chewing or
+biting (mandibulate) insects, they consist of a pair of stout jaws,
+in front of which lies the labrum, and behind the maxillae; again
+behind the maxillae follows a second pair fused together to form the
+labium. Both labium and maxillae are provided with a pair of slender
+jointed appendages known as labial and maxillary palpi; these are used
+as fingers to assist in drawing food into the mouth. In those groups
+with sucking (haustellate) mouths these various parts are coalesced
+into a simple sucking tube ending in a sharp style-like tip, which
+is buried in the tissue of the plant when the insect is feeding. The
+antennae when well developed consist of a number of distinct rings
+or segments, standing out on either side of the head, and generally
+attached to the front of the head between the eyes; they serve as
+organs of touch, smell, and probably hearing. The legs contain five
+distinct joints; first, the coxae or hips; next, the trochanters, small
+joints with a ball and socket-like action from which the femora or
+thighs move backward and forward; to these are attached the tibiae or
+shanks terminating in the tarsi or feet at the extremity. Most insects
+are also furnished with a pair of tarsal claws, between which may be a
+small pad, called the pulvillus or empodium.</p>
+
+<p>The wings of insects vary considerably. Some are membranous and smooth;
+others are covered with down or scales; while in many the fore pair
+are solid chitinous wing-cases, useless for flight, and chiefly acting
+as protective covers to the hind pair, which, when the insect is at
+rest, lie folded up beneath them. The flying wings are traversed with
+branching tubes called nervures, which, while strengthening them, also
+perform an important function in the breathing<span class="pagenum" id="Page_8">[8]</span> of the insect, and are
+pierced with small openings; these openings are very distinct in some
+of the hymenoptera.</p>
+
+<p>Insects breathe by means of openings situated along the sides of the
+thoracic and abdominal segments called spiracles, opening out into
+branching air vessels called trachea, which pass into the interior,
+ramifying throughout the body and extending into every part and
+appendage, even to the tips of the antennae. The nervous system, the
+life and movement of the insect, consists of a double chain of ganglia,
+(<i>ganglion</i>, a knot,) nerve cells, which are connected with finer
+encircling nerve tissues, that radiate in all directions, returning
+to the ganglia, the latter regulating the nerve sensation. Therefore,
+as their perceptions are so much less confined to the brain than in
+vertebrate animals, they cannot feel to the same extent. Thus, you
+can frequently find a locust, beetle, or ant that has escaped from a
+bird, minus its abdomen, still crawling about, quite able to move all
+its remaining organs. You can even remove the long slender body of
+a dragon-fly, and carefully insert a bit of grass stalk of the same
+length and weight to balance the wings, and it will fly off quite
+readily; but of course they will not live long after such injuries.</p>
+
+<p>We know that many insects must have very keen perceptions of sound, or
+the movement of the air around them, for they will drop to the ground
+at the least alarm, before the bush upon which they are resting has
+been touched. Very little is understood about the organs of hearing,
+except in the case of grasshoppers and locusts where the ears have been
+located at the base of the abdomen or on the front leg; these in some
+species can be detected with an ordinary lens. It is considered by some
+writers that the hairs and spiracles upon the different parts of the
+body may transmit sound and act as ears. The organs of sound are very
+interesting, but can be better treated when dealing with the different
+groups.</p>
+
+<p>Usually, there are only two sexes of insects, males and females; but
+among those living in social communities, like the bees, ants, wasps,
+and termites, the majority of the inhabitants are neuters. These
+neuters are usually aborted females, which do all the work in the
+construction of the nest and look after the food supply of the rest of
+the community.</p>
+
+<p><span class="pagenum" id="Page_9">[9]</span></p>
+
+
+<h2 class="sm" style="font-weight: normal">FOSSIL INSECTS</h2>
+
+<p>In comparison with other countries, fossil remains of insects are
+scarce; only ten species have been described and named. My information
+on this subject is obtained from Messrs. Etheridge and Olliff’s Memoir
+of the Geological Survey, (Palaeontology No. 7,); “The Mesozoic and
+Tertiary Insects of New South Wales,” 1890. The first record of fossil
+insects was made by Moore in the Quarterly Journal of the Geological
+Society, 1870, entitled “Note on a plant and insect bed on the Rocky
+River, N.S.W.” “These insects were obtained from a chocolate-coloured
+micaceous laminated marl, forming a bed ten feet thick, at a depth of
+about one hundred feet from the surface, and forming a portion of the
+Tertiary drift worked at the above locality. The latter are probably of
+Pliocene age.” (E. &amp; O.)</p>
+
+<p>Jack obtained the wing of a dragon fly in the Cretaceous beds of
+the Flinders River, N. Queensland, which was described and figured
+by Woodward under the name of <i>Aeschna flindersensis</i> in the
+Geological Magazine, 1884. It was entombed in a dark chocolate
+limestone.</p>
+
+<p>The insects described and figured by Messrs. Etheridge and Olliff
+consist of a cicada (<i>C. lowei</i>) from the “Taeniopteris-bearing
+beds of the Talbragar River in New South Wales, and of Lower Mesozoic
+age”: a fly, <i>Chironomus venerabilis</i>: and a mayfly, <i>Ephemera
+culleni</i>: and a beetle larva belonging to the <i>Lampyridae</i>,
+under the name of <i>Palaeolycus problematicus</i>, from the Tertiary
+beds at Emmaville, New England.</p>
+
+<p>From the Ipswich Coal Measures of Queensland comes the fossil wing
+of a Buprestid beetle, allied to existing Stigmodera, which they
+called <i>Mesostigmodera typica</i>. Among the insect remains from
+this locality the authors note several wings that appear to belong to
+weevils and other beetles allied to existing species.</p>
+
+<p>Mr. W. S. Dun informs me that insect remains have been found at
+Narellan N.S.W. in Wianamatta shales, and also in the brick pits at St.
+Peters near Sydney.</p>
+<hr class="chap x-ebookmaker-drop">
+
+<div class="chapter">
+<p><span class="pagenum" id="Page_10">[10]</span></p>
+
+<h2>Order I.—APTERA.<br>
+<span class="subhed">Spring-tails and Silver-fish.</span></h2></div>
+
+
+<p>These tiny little creatures are wingless in all stages of their
+existence, with only six segments in the abdomen; they are active
+little creatures of very delicate structure, found in all kinds of
+situations. We have many indigenous species, but on account of their
+small size and retiring habits they have been seldom noticed, and a
+wide field awaits some future entomologist who undertakes the study of
+these interesting insects.</p>
+
+<p>Very little systematic work had been done with these insects until
+Lubbock’s “Monograph of the Collembola and Thysanura” was published
+by the Ray Society in 1873. In this work not only are a large number
+described, but observations made upon their habits and life histories
+are recorded.</p>
+
+<hr class="r25">
+
+<h4>Family 1. Spring-tails.<br>
+<span class="subhed">COLLEMBOLA.</span></h4>
+
+<p>These are among the smallest insects, for the largest does not measure
+more than ⅓ of an inch in length, and most of them are very much
+smaller. They are chiefly found in damp situations among loose soil,
+decaying vegetable matter, and such like material, and can stand a very
+cold temperature. They are easily distinguished from the silver-fish by
+the few joints in the antennae, and the great powers of jumping they
+possess by means of their long jointed tail appendages.</p>
+
+<p>Our common species, <i>Lipura sp.</i>, is at times very abundant in
+the loose soil; after a sudden thunderstorm they are often washed out
+in such numbers that, carried into the little pools along the road
+side, they form a dull blue scum on the surface of the water. They
+measure ⅓ of a line in length; are of a dull blue colour, and have
+short, thickened antennae and legs; the body is distinctly segmented
+and rounded at the tip. Resting on the surface of the water they are
+constantly in motion, springing up every moment like little rubber
+balls.</p>
+
+<p>Another species belonging to the Genus <i>Smynthurus</i>, allied to
+<i>S. viridis</i>, a European form, but probably an undescribed<span class="pagenum" id="Page_11">[11]</span> native
+species, appeared in great numbers in lucerne paddocks in S. Australia
+in 1896, where they did a great deal of damage by eating the surface of
+the leaves, swarming over the fields in countless millions.</p>
+
+<p>It is a member of this genus (<i>Smynthurus lutus</i>) that Lubbock has
+described in such an entertaining manner when recounting the courtship
+of these queer little creatures.</p>
+
+<hr class="r25">
+
+<h4>Family 2. Silver-fish.<br>
+<span class="subhed">THYSANURA.</span></h4>
+
+<p>The silver-fish are divided into two distinct groups: those clothed
+with fine loose silver-like scales, and those in which the scales
+are absent and are replaced by fine hairs. The abdomen contains ten
+segments; their bodies are elongated, furnished with long, slender,
+many jointed antennae tapering to the extremities, and the tip of the
+abdomen carries two or three slender thread-like tail appendages.
+Though the group has been divided into four divisions, there are not
+many species described; they frequent warm, dry, dark situations.</p>
+
+  <div class="figcenter" id="fig1" style="max-width: 317px">
+     <img
+    class="p1"
+    src="images/fig1.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 1.</b>—<i>Lepisma saccharina</i> (Linn.).</p>
+     <p class="p0 smaller center">The common Silver-Fish.</p>
+     <p class="p0 smaller center">(Redrawn from Marlatt’s “Household Insects.”)</p>
+     </div>
+
+<p><i>Lepisma saccharina</i>, the Common European Silver-fish, measures
+up to ½ an inch in length, and is covered with delicate lead-coloured
+scales that give it a dull metallic<span class="pagenum" id="Page_12">[12]</span> lustre. They are great pests in
+libraries, where they eat the glaze on papers or clothbound books,
+pasted labels, or even the surface of etchings and engravings. Our
+common species was generally supposed to be this insect; but Dr.
+Silvestri, to whom I submitted a number of specimens caught in Sydney
+houses, says that it is <i>Lepisma longicaudata</i>, the common African
+species unknown in Europe.</p>
+
+<p>There is another tiny, little, dull yellow species found under stones
+in ants’ nests that Silvestri has named <i>Lepisma cursitans</i>. In
+the dry western scrubs of the interior under stones, hiding in the
+dust, I collected <i>Lepisma producta</i>. In a natural open cave among
+the sandstone cliffs on the sea shore near Gosford N.S.W. I found
+a number of a very large species resting on the bare rock, with a
+striking resemblance to small dried shrimps; for this peculiar species
+Silvestri proposes the name of <i>Allomachilus froggatti</i>.</p>
+<hr class="chap x-ebookmaker-drop">
+
+<div class="chapter">
+<p><span class="pagenum" id="Page_13">[13]</span></p>
+
+<h2>Order II.—ORTHOPTERA.<br>
+<span class="subhed">Cockroaches, Grasshoppers, Termites, &amp;c.</span></h2></div>
+
+  <div class="figcenter" id="fig2" style="max-width: 372px">
+     <img
+    class="p1"
+    src="images/fig2.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 2.</b>—Mouth Parts of a Grasshopper, Showing
+the different parts.</p>
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>1. The labrum, or upper lip.</li>
+  <li>2. Mandibles.</li>
+  <li>3. Jaws.</li>
+  <li>4. The lower labrum.</li>
+  <li>5. Tongue.</li>
+</ul>
+</div>
+     <p class="p0 smaller center">(Redrawn from Duncan’s “Transformations of Insects.”)</p>
+     </div>
+
+<p>The members of this order are known as straight winged insects, because
+the narrow membranous fore wings (elytra) are usually laid flat along
+the sides of the body, covering the fan-shaped hind wings that are
+folded up beneath them. In some of the families we find groups or
+individuals with the wings rudimentary or so modified in structure as
+to be useless for flight, and in a few the perfect insects of one or
+both sexes are wingless. In some, like the typical grasshoppers, the
+hind legs have the thighs greatly developed and adapted for springing
+or jumping; in the Mantids the two hind pairs of legs are simple, but
+the front pair are produced into curved, spined tibiae and femora,
+weapons well adapted to capture their prey. The mouth parts are
+composed of a rounded upper lip, with two stout mandibles, and a pair
+of jaws to which are attached jointed<span class="pagenum" id="Page_14">[14]</span> appendages (maxillary palpi),
+the labrum or hind lip bearing similar appendages called the labial
+palpi; besides these they have a stout spade-shaped tongue, so that
+they both bite off and chew up their food.</p>
+
+<p>Though the majority are vegetarian in their habits, one group, the
+mantids, are carnivorous, and in these insects the mouth parts are
+produced into a sharp point to the tip of the jaws.</p>
+
+<p>They emerge from the eggs that are deposited singly or in masses in or
+upon the ground or attached to the twigs of their food plant; as baby
+insects they are much like the adult, undergoing a series of moults
+without any true pupal stage, until in the last moult they emerge with
+fully developed wings and reproductive organs.</p>
+
+<p>The Orthoptera comprise a number of very different looking insects,
+among them some giants of the insect world like the stick and leaf
+insects. I have placed the earwigs, cockroaches, termites, embids, book
+lice, grasshoppers, crickets, mantis and phasmids together, though
+there is some difference of opinion among entomologists as to the exact
+position of the termites, embids, and book lice. The latest list of
+the Orthoptera is W. F. Kirby’s “Synonymic Catalogue of Orthoptera,
+vol. I.,” containing all the named species of the <i>Forficulidae</i>,
+<i>Hemimeridae</i>, <i>Blattidae</i>, <i>Mantidae</i>, and
+<i>Phasmidae</i>. This work was published by the Trustees of the
+British Museum, 1904: a second volume (not yet published) dealing with
+the locusts, grasshoppers, and crickets will complete this work. The
+latter were catalogued by F. Walker 1869–1870 in five parts, (Catalogue
+of the Specimens of Dermaptera, Saltatoria, and Supplement to the
+Blattariae in the British Museum), which this work of Kirby’s when
+finished will supersede.</p>
+
+<p>Among the chief specialists on Orthoptera may be mentioned
+Henri de Saussure, who besides his monographs in the “Biologia
+Centrali-Americana,” has published many papers in scientific journals,
+of which the most important (containing descriptions of Australian
+species) is his “Melanger Orthopterologiques” in the Memoirs de la
+Societe de Physique et d’Histoire Naturelle de Geneve 1863–4, and
+in subsequent volumes. Brunner von Wattenwyl has described other
+Australian species in different German publications, and in 1893
+published his “Révision des Système des Orthoptères” in the Annali del
+Museo Civico di Storia Naturale di Genova.</p>
+
+<p>Kirby described other of our species chiefly in papers contributed to
+the “Annals and Magazine of Natural History,” and the Transactions of
+the Zoological and Entomological Societies.</p>
+
+<p><span class="pagenum" id="Page_15">[15]</span></p>
+
+<hr class="r25">
+
+<h4>Family 1. Earwigs.<br>
+<span class="subhed">FORFICULIDAE.</span></h4>
+
+<p>These insects are slender in form, with somewhat rounded heads bearing
+two large facetted eyes, but no ocelli; and long slender antennae
+composed of short oval joints. The elytra, very short, usually not
+extending beyond the hind margin of the thorax, cover the hind wings
+when at rest. These hind wings are short but broad, somewhat resembling
+a human ear when expanded for flight, but neatly folded up beneath
+the abbreviated elytra at other times. In many groups however both
+elytra and wings are absent, the insects trusting to their legs and
+powers of burrowing to get out of danger, and even those with well
+developed wings seldom use them. The thorax is narrow; the legs stout,
+well adapted both for digging and running; and the abdomen, tapering
+to the extremity, terminates in a pair of callipers or pincer-like
+processes, sometimes curved and toothed into remarkable shapes. It is
+the possession of these curious anal appendages that has led to the
+earwig being popularly credited with all kinds of evil propensities;
+but though they certainly look very formidable they can only give
+one’s finger a harmless pinch if handled carelessly, and are otherwise
+perfectly harmless.</p>
+
+  <div class="figcenter" id="fig3" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig3.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 3.</b>—<i>Labidura truncata</i> (Kirby).</p>
+     <p class="p0 smaller center">The common Earwig found in the sand along river banks.</p>
+     <p class="p0 smaller center">(Original W. B. Gurney.)</p>
+     </div>
+
+<p>Earwigs are met with chiefly in damp situations; some of the smaller
+ones can be collected by pulling the rotten bark off dead trees; others
+are to be found under stones or logs; and in summer time many will be
+found in burrows in the damp sand on the water’s edge after the manner
+of mole crickets. In point of numbers this is not a large family, only
+about 520 species being described from all parts of the world; and only
+about 20 from Australia, so that they are poorly represented in this
+country.</p>
+
+<p>The Genus <i>Labidura</i> contains 15 described species from all parts
+of the world; <i>Labidura riparia</i>, a cosmopolitan species ranging
+from Europe to Asia and Africa does not reach Australia; but we have a
+typical species in <i>Labidura<span class="pagenum" id="Page_16">[16]</span> truncata</i>, which has similar habits,
+living in burrows in the sand along the edges of lagoons and creeks.
+It measures an inch in length, and is of a general reddish brown tint
+mottled with dull yellow; and the dorsal segments of the abdomen are
+deeply barred with reddish black almost confluent down the centre. The
+head is large; the prothorax small, with the elytra and wings well
+developed; the abdomen, rather narrow at the base, is broadest behind
+the large callipers, which are slender, furnished with two blunt teeth
+on the inner edge and meet at the extremities. It differs from <i>L.
+ripara</i> in having the apical edge of the last abdominal segment
+truncate, and not scalloped as in the former.</p>
+
+<p>The next large Genus <i>Anisolabis</i> is also world wide in its
+range and contains 36 described species, 3 of which are recorded from
+Australia, 2 from Tasmania, 1 from New Zealand, and 1 from Norfolk
+Island. <i>Anisolabis colossea</i>, our largest common wingless
+species, also recorded from New Caledonia, was described by Dohrn (Ann.
+Museo Genov. 1879), and a second variety by Burr under the name of
+<i>A. minor</i> in 1902; but it is most variable in size, ranging from
+over 1½ inches in length to less than half an inch. It is of a uniform
+dull reddish brown colour, with a rounded head, truncate thorax, and
+elongate broad abdomen terminating in a pair of short stout finger-like
+appendages fitting close together and turned up slightly at the tips.</p>
+
+<p>A second species of <i>Anisolabis</i> common in Tasmania and recorded
+from the top of Mount Wellington is black, somewhat broad and flattened
+on the dorsal surface, with the anal appendages short, slender, and
+twisted over to the left side as if they had been damaged. It was
+described by Bormans (C.R. Soc. Ent. Belg. 1880) under the name of
+<i>Anisolabis tasmanica</i>.</p>
+
+  <div class="figcenter" id="fig4" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig4.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 4.</b>—<i>Anisolabis colossea</i> (Dohrn).</p>
+     <p class="p0 smaller center">The large wingless earwig.</p>
+     <p class="p0 smaller center">(Original W. W. Froggatt.)</p>
+     </div>
+
+<p><i>Labia grandis</i> described by Dubrony (Ann. Museo Genov. 1879)
+comes from North Australia. The genus contains 47 described species;
+several undetermined species in my collection are small dark brown
+earwigs with well developed elytra, and anal appendages very narrow at
+the base, small, and curving over at the sharp tips.</p>
+
+<p class="p2 smaller center">Plate I.—ORTHOPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Blattidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>&ensp;1. <i>Blatta orientalis</i> ♂ (Linn.).</li>
+  <li>&ensp;2. <i>Blatta orientalis</i> ♀ (Linn.).</li>
+  <li>&ensp;3. <i>Blatta orientalis</i> Larva (Linn.).</li>
+  <li>&ensp;4. <i>Polyzosteria limbata</i> (Burm.).</li>
+  <li>&ensp;5. <i>Periplaneta australasiae</i> (Fabr.).</li>
+  <li>&ensp;6. <i>Geoscapheus giganteus</i> (Tepper).</li>
+  <li>&ensp;7. <i>Panesthia laevicollis</i> (Sauss.).</li>
+  <li>&ensp;8. <i>Periplaneta americana</i> (Linn.).</li>
+  <li>&ensp;9. <i>Phyllodromia germanica</i> (Linn.).</li>
+  <li>10. <i>Periplaneta americana</i> (Linn.).</li>
+</ul>
+</div>
+
+  <div class="figcenter" id="plate1">
+     <p class="p1 sm center"><i>Plate I.—ORTHOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate1.jpg"
+    alt="">
+  </div>
+
+<p><i>Apterygida arachidis</i>, a cosmopolitan species recorded from
+all parts of the world, is found in Australia; and the common
+<span class="pagenum" id="Page_17">[17]</span>European typical species, <i>Forficula auricularia</i>, which is
+widely distributed over the old world and America, is not recorded from
+Australia in Kirby’s Catalogue, but I have specimens in my collection
+given me by Mr. J. J. Walker taken in New Zealand, who told me he had
+also captured it in Tasmania, so that it is more than probable it will
+be found on the mainland.</p>
+
+<hr class="r25">
+
+<h4>Family 2. Cockroaches.<br>
+<span class="subhed">BLATTIDAE.</span></h4>
+
+<p>The typical cockroach is a shield-shaped insect, with stout horny
+plates covering both the dorsal and ventral surfaces of the thorax and
+abdomen. The head, tucked under and hidden, when viewed from above by
+the rim of the prothorax, is furnished with two large compound eyes
+placed well in front; in some groups there are also two ocelli; the
+antennae springing from below the eyes are very long and slender,
+composed of a great number of short ringed segments. The jaws are well
+adapted for their vegetarian habits, though some among the domestic
+species are almost omnivorous in their tastes. Tepper considers that
+several species destroy the grubs and caterpillars of injurious
+cut-worms, but this wants further confirmation. Their legs are long and
+stout, covered with spines, and in the species living under stones and
+logs the legs are usually thickened. Many species are provided with
+two pairs of stout membranous wings, while the front pair (elytra)
+are thickened, opaque and coarsely veined; the hind wings, though
+frequently small, are fan-shaped, membranous and well adapted for
+flight.</p>
+
+<p>The cockroach is one of the most ancient of insects, and roaches are
+common in fossil beds both in Europe and America, many of them allied
+to our still existing forms.</p>
+
+<p>The female has a curious habit of carrying her keeled egg capsule
+protruding from her abdomen for some time before she deposits it in a
+suitable situation.</p>
+
+<p>A number of cosmopolitan species might be called domestic insects
+as they are only found about houses or the haunts of man; in London
+<i>Blatta orientalis</i> is commonly known as the “black beetle,”
+swarming in cellars and kitchens. In Sydney the large yellow roach
+that comes flying round the room to the light is <i>Periplaneta
+americana</i>, an introduction from America, which has almost driven
+the smaller indigenous <i>Periplaneta australasiae</i> out of our
+houses; while in some<span class="pagenum" id="Page_18">[18]</span> of the southern and eastern States of America
+our Australian roach has been introduced and become the common
+domestic pest. The little German Roach, or “Croten Bug” of America,
+<i>Phyllodromia germanica</i>, is sometimes found about the Sydney
+wharves. Many of these bush and household roaches are provided with
+glands at the tip of the abdomen, from which they can discharge (when
+disturbed) a foetid odour as a means of defence. The cockroaches are
+a very extensive family; Marlatt estimates that at least 5,000 occur
+all over the world; about 212 species are given by Kirby (Catalogue
+Orthoptera vol. I. British Museum 1904) as Australian. Most of our
+typical forms are wingless, and live under rotten logs or stones; some
+of the largest species are to be found in the dry interior.</p>
+
+<p>Saussure has described a number of our species (Mem. Soc. Geneve
+1863–4–9): Walker many others, (Brit. Mus. Catalogue Blattidae 1868):
+and Tepper has been a constant worker at this group in South Australia
+for some years; descriptions of most of his species will be found in
+the Transactions of the Royal Society of S. Australia between 1893–95,
+and the Zoology of the Horn Expedition 1896.</p>
+
+<p>The Genus <i>Panesthia</i> contains 44 described species ranging from
+India to Australia, of which 7 are peculiar to this country.</p>
+
+<p><i>Panesthia laevicollis</i> is common in forest land, where it is
+found burrowing in damp rotting logs. It is a wingless black insect,
+measuring nearly 1½ inches in length, with the thorax narrow and
+flattened above the head, the latter furnished with comparatively short
+antennae; the legs short but very spiny; and the dorsal surface of the
+abdomen covered with irregular punctures.</p>
+
+<p><i>Cosmozosteria coolgardiensis</i> is a very distinctive, wingless,
+dull yellow species broadly marked with black on the thoracic segments,
+and finely barred with the same colour on the upper edges of the
+abdominal segments. It measures about 1¼ inches in length, and ranges
+from South Australia to the central parts of Western Australia.</p>
+
+<p><i>Polyzosteria limbata</i> is a large dark brown cockroach margined
+on the outer edge of the dorsal plates with yellow; it is common in
+the vicinity of Sydney, and may be often noticed in the neighbourhood
+of Botany resting on stumps and fences; it has the habit, like several
+other species, of discharging a most offensive liquid when disturbed.
+<i>Polyzosteria pubescens</i> is an allied but much larger insect,
+measures up to 2 inches in length and 1½ inch in breadth; it is of a
+uniform dull brown tint, and is common about Kalgoorlie W.A., and will
+be probably found to range over a large portion of the interior.</p>
+
+<p><span class="pagenum" id="Page_19">[19]</span></p>
+
+<p><i>Polyzosteria mitchellii</i> is a variegated, dull metallic green
+cockroach ranging over the same country, but not more than 1½ inches in
+length. It has the upper surface margined on the edges with yellow, and
+is mottled on the legs and under-surface.</p>
+
+  <div class="figcenter" id="fig5_6" style="max-width: 389px">
+     <img
+    class="p1"
+    src="images/fig5_6.jpg"
+     alt="">
+     <p class="p0 sm center"><b>Figs.</b> <b>5</b> and <b>6</b>.—Desert Cockroaches.</p>
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li class="hangingindent">5. <i>Polyzosteria mitchellii</i> (Angas). The green-banded
+cockroach.</li>
+  <li class="hangingindent">6. <i>Polyzosteria pubescens</i> (Tepper). The Pubescent
+cockroach.</li>
+</ul>
+</div>
+     <p class="p0 sm center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p><i>Geoscapheus giganteus</i> is our giant cockroach, measuring 2½
+inches in length and 1½ across the middle of the body. Like the last
+three it is wingless, with the large prothoracic shield overlapping the
+head. In colour it is bright reddish brown, crenulated and very rugose
+in the centre of the dorsal surface. In the same year (1895) that
+Tepper obtained this fine species, Saussure described another large
+roach under the name of <i>Macropanesthia rhinoceros</i>, forming a
+new genus for its reception and adding a second species which he named
+<i>M. muelleri</i>.</p>
+
+<p><span class="pagenum" id="Page_20">[20]</span></p>
+
+<hr class="r25">
+
+<h4>Family 3. White Ants.<br>
+<span class="subhed">TERMITIDAE.</span></h4>
+
+  <div class="figcenter" id="fig7" style="max-width: 354px">
+     <img
+    class="p1"
+    src="images/fig7.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 7.</b>—<i>Mastotermes darwiniensis</i>
+(Froggatt).</p>
+     <p class="p0 smaller center">The giant termite of Northern Australia, showing the structure of the
+wings of the male.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>The exact position of these insects in every scheme of classification
+has been more or less vague, and while some writers place them in the
+Orthoptera, more include them in the Neuroptera; others again to get
+over the difficulty have formed a halting ground between the two and
+called them Pseudo-Neuroptera. In the “Genera Insectorum,” Desneux has
+followed Brullé and Comstock and placed them in a distinct order as
+Isoptera. Grassi, one of the greatest living authorities on the anatomy
+of insects, considers they are allied to the Neuroptera: but taking the
+broad ground of outward structure upon which the Orders were formed,
+and<span class="pagenum" id="Page_21">[21]</span> comparing the perfect termites, especially my giant species from
+North Australia, <i>Mastotermes darwiniensis</i>, with other families,
+I consider they are closely allied to the cockroaches, and therefore
+place them here. Take the wing away from some of the larger species and
+they have a striking resemblance to earwigs, and one of our greatest
+authorities on the family (Hagen) actually described a damaged earwig
+from Japan as a termite.</p>
+
+<p>Termites are widely distributed over all the warmer regions of the
+world, though most numerous in tropical countries; and a number of
+fossil species have been described from Europe and America.</p>
+
+<p>When Hagen’s “Monograph of the Termitidae” was published in 1858, only
+seven species were recorded from Australia and Tasmania, and one or
+two of these are very doubtful. In my “Australian Termitidae” (Pro.
+Linn. Soc. 1896–1897) the number was brought up to 35, and there are
+probably many more to be discovered, so that the family is very well
+represented in this country. Our species have been subdivided into nine
+genera placed in six sub-families, which are chiefly formed on the wing
+structure.</p>
+
+<p>Broadly speaking their habits are very similar, and each nest or
+community consists of the same castes. First in order come the dark
+brown perfect winged male and female insects, only found in the regular
+nests in the early summer months; for soon after their wings are
+developed, the workers cut openings in the clay walls of the nest, and
+they fly out in a continuous stream, generally just before sunset, and
+when all have left the workers again close up the openings for another
+year. In the winged state they are known as “flying ants,” and on a
+warm summer night sometimes come in such numbers round the lights,
+dropping their easily detached wings all over the table, that they are
+a regular nuisance.</p>
+
+<p>These perfect termites have well developed eyes; slender antennae
+composed of short, rounded, bead-like joints standing out in front of
+the rounded flattened head; and a short stout thorax fitting close
+against the elongate rounded abdomen. They are furnished with two pairs
+of similar, elongated, narrow wings of uniform width rounded at the
+tips, with primitive parallel neuration; these are loosely attached to
+the basal wing-flap by a cross suture, where they readily tear them
+across; when at rest they are laid flat over each other down the back,
+extending well beyond the tip of the body: the legs are short and stout.</p>
+
+<p>Their flight is feeble, and of the millions that swarm out and flutter
+away from the nest, probably not more than halfa-dozen<span class="pagenum" id="Page_22">[22]</span> couples are
+fortunate enough to get into a suitable place to found a fresh colony.</p>
+
+  <div class="figcenter" id="fig8" style="max-width: 289px">
+     <img
+    class="p1"
+    src="images/fig8.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 8.</b>—Diagram of head of worker termite.
+Dorsal view, showing the jaws and mouth parts. <i>Coptotermes (Termes)
+lacteus</i> (Froggatt).</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+  <div class="figcenter" id="fig9" style="max-width: 500px">
+     <img
+    class="p1"
+    src="images/fig9.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 9.</b>—<i>Coptotermes (Termes) lacteus</i>
+(Froggatt). Fully developed female or Queen.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+    </div>
+
+<p class="p2 smaller center">Plate II.—ORTHOPTERA.</p>
+
+<p class="center smaller">Family <i>Termitidae</i>.</p>
+
+<p class="center smaller"><i>Coptotermes (Termes) lacteus</i> (Froggatt).</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>1. Male (wings closed).</li>
+  <li>2. Male (wings expanded).</li>
+  <li>3. Worker.</li>
+  <li>4. Nymph.</li>
+  <li>5. Soldier.</li>
+</ul>
+</div>
+
+  <div class="figcenter" id="plate2">
+     <p class="p1 sm center"><i>Plate II.—ORTHOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate2.jpg"
+    alt="">
+  </div>
+
+<p>The next caste, that form the bulk of the life of the nest, are the
+workers, delicate soft white creatures with pale yellow, rounded,
+flattened heads; blind, but furnished with slender antennae; and a pair
+of short stout toothed jaws hidden by the labrum, and which in the
+course of their labours do such immense damage to all kinds of both
+native and imported timber. The third caste, also always present, are
+the soldiers, that simply act as guards for the whole nest, leaving
+all the work of building, feeding the young, and gathering supplies to
+the workers. In the fourth we have the Queen, which was originally one
+of the winged forms; after casting her wings she is impregnated, and
+while the head, thorax and appendages remain as before, the abdomen
+swells into a white cylindrical sack as thick as one’s little finger;
+the chitinous plates that once fitted close together are now widely
+separated and appear as narrow black bands. <span class="pagenum" id="Page_23">[23]</span>She is simply a mass
+of egg tubes; and, looked after and fed by the attendant workers, she
+devotes her life to laying eggs, which, like grains of sugar, are
+carried away and piled up by the workers in adjacent chambers under
+the nursery. From these eggs develop tiny white specks of matter that
+gradually develop by a regular series of moults into workers, soldiers,
+and immature winged forms; the latter have large rounded bodies and
+rounded wing pads representing the future wings. Supplementary Queens
+are sometimes found that have never gone through the winged stage; they
+have the general structure and large corrugated bodies of the mature
+queens. The typical white ants’ nest, known as a Termitarium, usually
+consists in the first instance of a mass of woody laminated material
+that might be likened to papier-mache, originally a stump or portion of
+a log that has been chewed up and voided in the form of a mortar-like
+substance. This termitarium is full of irregular galleries running like
+a network all through the mass, with the means of exit running out
+under the nest; a mass of stout terraced structure above the ground
+level surrounds the Royal Chambers, which might be likened in size
+and shape to an inverted saucer, from which the enclosed Queen cannot
+escape, but the attendant workers can pass to and fro. Above this is
+a rounded oval mass often as big as a child’s head, which resembles
+stiff brown paper folded round and round, full of fine openings, and
+is easily crumbled up; this, for want of a better word, I call the
+nursery, as it contains all the minute larvae as they emerge from the
+eggs. The formation above the nursery is more irregular, and terminates
+in a rounded cap. The whole of this woody structure is covered with a
+stout enveloping wall of fine clay, which, carried up grain by grain,
+has been cemented together into a firm earthy wall in contact with the
+woody structure at the base of the nest, but often with a cavity at the
+apex.</p>
+
+  <div class="figcenter" id="fig10" style="max-width: 750px">
+     <img
+    class="p1"
+    src="images/fig10.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 10.</b>—Queen Termite (<i>C. (Termes)
+lacteus</i>) (Froggatt). Showing her in the Royal Cell or Queen’s
+Chamber.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p><span class="pagenum" id="Page_24">[24]</span></p>
+
+<p>The nests of the <i>Eutermes</i> are sometimes built over stumps, but
+more often on the branches or trunks of trees, where they form rounded
+or oval masses a foot or two in diameter, with covered galleries
+leading down to the ground. In these nests there is no distinct outer
+earthy sheath; when near the ground, earth and wood are blended
+together in a very compact mass, full of small galleries running at
+every angle, and have no distinct structure like the first group. When
+the nest is placed on a tree trunk or branch away from the ground it
+consists almost entirely of woody matter, and may be quite soft and
+papery beneath the outer crust. In the West Indies these nests are
+popularly known as “Negroheads.”</p>
+
+<p>Other groups are never known to construct true nests, but form chambers
+and galleries under the bark of trees, in banks, or simply under logs
+and stones. Some in the interior are said to disappear underground from
+their nests in the dry summer time, returning with the first rains and
+mending up the dilapidated walls.</p>
+
+<p>The members of the two genera <i>Mastotermes</i> and <i>Calotermes</i>
+have the wings much more thickly veined than the more simple
+<i>Termes</i> and <i>Eutermes</i>.</p>
+
+<p><i>Mastotermes darwiniensis</i> is the largest common species taken
+flying round the lights at night in North Queensland and Port Darwin.
+It is very dark brown, with thickly veined wings, and measures 1⅓
+inches in length from the front of the head to the tip of the folded
+wings. Nothing is known of its nests or the other forms of this
+species. It is the sole representative of the sub-family. I have,
+through the observations of Mr. N. W. Christie of Port Darwin, good
+reasons for believing that <i>Termes errabundus</i>, described from the
+soldiers and workers only, is identical with this giant termite. He
+informs me that at Point Charles he finds the nests in every old post
+or stump in the wet season.</p>
+
+<p><i>Calotermes longiceps</i> is the common Sydney species of this
+group, of which we have six described from Australia, and one from New
+Zealand. The soldier measures ½ inch in length, with a long broad head
+armed with blackish projecting jaws, which are irregularly toothed on
+the inner edges. The <i>Calotermes</i> live in logs and trees in small
+communities; they form no regular nest; this species is found in logs
+of firewood about Sydney. In some species the soldiers are very rare,
+the community consisting of immature winged forms and workers.</p>
+
+<p class="p2 smaller center">Plate III.—ORTHOPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Termitidae</span>.</p>
+
+<p class="center smaller">Termitarium of the Meridonial White Ant, <i>Termes meridionalis</i><br>
+(Froggatt).</p>
+
+<p class="center smaller">“The Magnetic Nest,” Palmerston, Port Darwin, N. Australia.</p>
+
+<p class="center smaller">(Original photo. N. Holtz.)]</p>
+
+  <div class="figcenter" id="plate3">
+     <p class="p1 sm center"><i>Plate III.—ORTHOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate3.jpg"
+    alt="">
+  </div>
+
+<p>In the <span class="smcap">Rhinoterminae</span> we have two species, differing from the
+former group in having the wings very finely wrinkled or reticulated;
+and also in having two distinct forms of soldiers, one much larger
+than the other, but both with <span class="pagenum" id="Page_25">[25]</span>pear shaped heads and pointed
+finely-toothed jaws. <i>Rhinotermes intermedius</i> is not uncommon in
+old stumps about Sydney; the winged forms are of a light reddish brown
+colour with delicate wings; both the workers and soldiers of the major
+type have large yellow heads, the latter armed with curved jaws; while
+the heads of the small form of soldiers are much more slender.</p>
+
+  <div class="figcenter" id="fig11" style="max-width: 560px">
+     <img
+    class="p1"
+    src="images/fig11.jpg"
+     alt="">
+     <p class="p0 smaller hangingindent"><b>Fig. 11.</b>—Typical Domed Termitarium or “White
+Ants’ Nest” from the coastal districts of New South Wales. Formed
+by <i>Coptotermes (Termes) lacteus</i> (Froggatt).</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+  <div class="figcenter" id="fig12" style="max-width: 300px">
+     <img
+    class="p1"
+    src="images/fig12.jpg"
+     alt="">
+     <p class="p0 smaller hangingindent"><b>Fig. 12.</b>—Vertical section of nest of the same species shewing
+the structure of the woody interior, with the outer clay covering.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>The typical <span class="smcap">Termitinae</span> comprise nearly all the species that
+build regular mounds, containing countless thousands of individuals.
+<i>Termes lacteus</i> is the common species that does so much mischief
+to buildings about Sydney, and though not a mound builder about the
+city, yet from Colo Vale to Victoria and also northward it forms tall
+rounded nests up<span class="pagenum" id="Page_26">[26]</span> to six feet high and very regular in structure. The
+soldier is about ¼ inch long, with a bright, yellow, pear shaped head,
+and a pair of curved jaws; it also has an opening in the front of the
+head above the jaws from which it can discharge a globule of milk-like
+fluid when disturbed. This species with several allied forms has been
+placed in the genus <i>Coptotermes</i>. <i>Termes meridionalis</i> has
+a small soldier, almost white, with a rounded yellow head armed with
+two slender curved jaws, and an incurved tooth in the centre of the
+inner margin; it measures a little over ⅙ of an inch in length. It has
+a world wide reputation on account of building what is known as the
+“Magnetic Nest,” built like a brick wall and always pointing north and
+south, with the wall facing east and west. Jack (Pro. Royal Society,
+Queensland, 1897) considers that this is done by the termites always
+building towards the rising sun; so that, as they work at night, the
+clay will dry rapidly. They are found in several localities on Cape
+York and near Port Darwin. Several very distinct species are found in
+the interior. <i>Termes perniger</i> ranges from Kalgoorlie W.A. to
+Western Queensland; the soldier is a very dark coloured insect with
+a very large head furnished with large powerful toothed jaws, and
+is very savage. <i>T. rubriceps</i> is found in<span class="pagenum" id="Page_27">[27]</span> small colonies in
+Central Australia, forming their nests at the roots of the tussocks of
+spinifex grass. <i>T. krisiformes</i>, a species in which the soldier
+has slender irregular jaws like a Malay kris, makes tiny little mounds
+about Bulli N.S.W. or forms colonies under the shelter of a log.</p>
+
+  <div class="figcenter" id="fig13" style="max-width: 515px">
+     <img
+    class="p1"
+    src="images/fig13.jpg"
+     alt="">
+     <p class="p0 smaller hangingindent"><b>Fig. 13.</b>—Nest of White Ant (<i>Eutermes
+fumipennis</i>) (Walker), upon the summit of a rock where a small stump
+had been situated. Manly, near Sydney, N.S.W.</p>
+     <p class="p0 smaller center">(Original photo. W.W.F.)</p>
+     </div>
+
+<p>The members of the genus <i>Eutermes</i> are common all over Australia;
+they construct hard woody nests seldom more than a foot or two high;
+though at the same time, the largest known termitarium is also built
+by one species, <i>Eutermes pyriformis</i>, pillar shaped and often 18
+feet in height, probably in the first instance commenced over a dead
+tree trunk.</p>
+
+<p>The soldiers are very curious looking creatures; the peculiar oval or
+rounded heads produced into an awl-like point in front, the centre
+being filled with a clear honey-like fluid; this is discharged down the
+projecting snout and smothers their enemies, because they have no true
+jaws above the mouth: most of them are much darker brown insects than
+the<span class="pagenum" id="Page_28">[28]</span> other termites. The two species, <i>Eutermes fumigatus</i>, the
+darker, smaller species, and <i>E. fumipennis</i>, the lighter tinted,
+are common in the vicinity of Sydney.</p>
+
+  <div class="figcenter" id="fig14" style="max-width: 350px">
+     <img
+    class="p1"
+    src="images/fig14.jpg"
+     alt="">
+     <p class="p0 smaller hangingindent"><b>Fig. 14.</b>—Typical nest, of the Spinifex termite (<i>Eutermes
+triodiae</i>) (Froggatt), about 14 feet high. Hall’s Creek, Kimberley, W.A.</p>
+     <p class="p0 smaller center">(Original photo. Mansbridge.)</p>
+     </div>
+
+
+<hr class="r25">
+
+<h4>Family 4. Web-spinners.<br>
+<span class="subhed">EMBIIDAE.</span></h4>
+
+<p>These rare and curious little chocolate brown creatures are elongate in
+form, not unlike a slender adult termite after it has shed its wings,
+and they form another group that has puzzled entomologists in regard to
+their classification. Only twenty species are known from all parts of
+the world; but from their affinities to prehistoric insects they have
+been carefully studied. Grassi worked at the life-history of a species
+found in Southern Europe under stones: Wood-Mason has figured and
+described Indian forms and placed them in the Orthoptera: Perkins says
+that the species in Hawaii is common on tree trunks where they conceal
+themselves under a fine web like spiders.</p>
+
+<p class="p2 smaller center">Plate IV.—ORTHOPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Termitidae</span>.</p>
+
+<p class="center smaller">Termitarium of the Great Mound-nest White Ant, <i>Eutermes
+pyriformis</i> (Froggatt).</p>
+
+<p class="center smaller">Palmerston, Port Darwin, N. Australia.</p>
+
+<p class="center smaller">(Original photo. N. Holtz.)</p>
+
+  <div class="figcenter" id="plate4">
+     <p class="p1 sm center"><i>Plate IV.—ORTHOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate4.jpg"
+    alt="">
+  </div>
+
+<p><span class="pagenum" id="Page_29">[29]</span></p>
+
+  <div class="figcenter" id="fig15" style="max-width: 268px">
+     <img
+    class="p1"
+    src="images/fig15.jpg"
+     alt="">
+     <p class="p0 smaller hangingindent"><b>Fig. 15.</b>—<i>Oligotoma gurneyi</i> (Froggatt). The web spinning
+embiid. With a diagram showing the primitive structure of wing.</p>
+     <p class="p0 smaller center">(Proc. Linn. Soc. N.S.W.)</p>
+     </div>
+
+<p>They measure up to about ½ an inch in length; are elongate in form
+with large globular heads, small toothed jaws, and long, slender
+antennae composed of 20 or more bead-shaped joints which they are
+constantly moving when they run about. The thorax is formed of three
+very elongated segments, so that each pair of legs is very wide
+apart; and in the winged forms the slender oar-shaped wings with very
+primitive nervures are so far from each other that they have quite
+a comical look; the abdomen is short, cylindrical, composed of 10
+segments, rounded at the tip, with large anal appendages (cerci). The
+legs are curiously thickened, with the tarsi of the front pair shaped
+somewhat like a weaver’s shuttle. Until last year they were unknown
+in Australia, when I described two species (Proc. Linn. Soc. 1904);
+the first <i>Oligotoma agilis</i>, is a wingless form, of which I
+found two specimens while turning over granite boulders at Bomen near
+Wagga N.S.W. The second, <i>Oligotoma gurneyi</i>, was obtained by Mr.
+Gurney in a lighted room one evening in a suburb of Sydney; it had well
+developed wings. Soon afterwards Mr. Steel had his attention called to
+what one of the men in the Colonial Sugar Co.’s refinery at Pyrmont
+called a “white fungus” under one of the windows. This Mr. Steel found
+to be a mass of white web matted with excrement and full of<span class="pagenum" id="Page_30">[30]</span> slender
+brown insects, which he collected into a bottle and handed to me.
+Though most of them were mature, only a few showed regular wing pads,
+but otherwise they appear to be <i>O. gurneyi</i>; in captivity they
+spun a great quantity of delicate white web among which they hid, but
+when wet sugar was placed on the cork they ate it readily.</p>
+
+<hr class="r25">
+
+<h4>Family 5. Book Lice.<br>
+<span class="subhed">PSOCIDAE.</span></h4>
+
+<p>These are very delicate little creatures that run about on moss grown
+fences, tree trunks, among foliage, or hide in boxes, old baskets and
+other litter. In some groups, while the larvae and pupae are wingless,
+the perfect insects have two pairs of delicate wings with curious
+curved transverse nervures and very few cross veins, so that the cells
+are few. In other groups the perfect insects are wingless, or if
+present, aborted and useless for flight. They are all furnished with
+long slender antennae consisting of from 11 to 25 joints; the head is
+large, rounded in front, with convex eyes, and three ocelli (wanting in
+the wingless forms).</p>
+
+  <div class="figcenter" id="fig16" style="max-width: 371px">
+     <img
+    class="p1"
+    src="images/fig16.jpg"
+     alt="">
+     <p class="p0 smaller hangingindent"><b>Fig. 16.</b>—<i>Philotarsus froggatti</i> (Enderlein). A typical
+specimen of the Psocidae found near Sydney, N.S.W.</p>
+     <p class="p0 smaller center">(Redrawn from Enderlein’s figure,—W.W.F.)</p>
+     </div>
+
+<p>They can be collected into a small tube on fences or tree trunks, or
+shaken into a net or umbrella; but they must be handled very gently,
+and are best placed in dry tubes, and killed and mounted at home. Many
+handsome species are found in Australia, and some probably have a wide
+distribution, as they are easily introduced into a new country with
+many kinds of produce. One dull winged species is very common on the
+foliage of the orange trees, where it lays its metallic green eggs in
+patches of 9 or 12 on the midrib of the leaf, covering them over with a
+delicate white silken sheet.</p>
+
+<p><span class="pagenum" id="Page_31">[31]</span></p>
+
+<p>A number of species were obtained in Australia by the Hungarian
+entomologist L. Biro, collecting for the Royal Museum of Hungary,
+chiefly captured in the neighbourhood of Sydney. In 1903 Dr. Enderlein
+classified and described these (Die Copeognathen des Indo-Australischen
+Faunengebietes), published in the Annals of the above Museum, and
+illustrated with many fine drawings. In this monograph he divides the
+family into 16 sub-families, 39 genera and 115 species, 15 of which are
+described from Australia.</p>
+
+<p><i>Philotarsus froggatti</i>, a tiny creature 2⅓ millimetres in length,
+with clear wings, is found on the Blue Mountains.</p>
+
+<hr class="r25">
+
+<h4>Family 6. Mantids.<br>
+<span class="subhed">MANTIDAE.</span></h4>
+
+<p>We have no exact popular name for these peculiar insects; some of the
+bush children call them “Forest Ladies,” on account of the dainty form
+and graceful motion of several of our smaller species, which is rather
+appropriate; but unfortunately several lace-wings go under the same
+fanciful name. In the United States the common species are called “Rear
+Horses” from the way they stand at rest with raised fore legs. The
+Romans called them “Soothsayers;” and at least two species are known
+as “Praying Mantis,” namely <i>Mantis religiosa</i> in Europe, and
+<i>Mantis carolina</i> in the United States, from their pious attitudes.</p>
+
+<p>They are most numerous in tropical countries, and are well represented
+in Australia; Westwood in his “Synopsis of the Species of Mantidae,”
+published in 1889, records 624 described species, only 30 of which come
+from this country. Kirby’s Catalogue (1904) brings the list up to about
+843, and adds 5 more to our list of described species.</p>
+
+<p>With the exception of some curious little neuroptera (<i>Mantispa</i>),
+which can be easily distinguished by their lace-like wings, the members
+of this family cannot be confused with other groups. The long slender
+prothorax, supporting a very flexible narrow head, forms an elongate
+neck, to which are attached, well in front, the formidable spined fore
+legs, which are seldom used as means of progression, but as weapons of
+offence to capture other insects upon which they prey, for they are
+tigers of the insect world, lying in wait, perfectly motionless, with
+their colouration adapted to the foliage among which they hunt. The two
+apical portions of the thorax, and slender body, which in the ordinary
+type is<span class="pagenum" id="Page_32">[32]</span> covered with two pairs of wings, the first pair narrow like
+that of a grasshopper and the hind pair fan-shaped, with the two pairs
+of slender legs, are orthopterous; while the front portion, consisting
+of the narrow head turned down in front into a pointed mouth, with
+large projecting eyes, and thread-like antennae, show its carnivorous
+habits. The female deposits her eggs upon the twigs or bark of trees
+in an almond-shaped mass, consisting of regular rows of elongate eggs
+piled above each other, with the tips all pointing outward, and which
+are covered with an enveloping coat of a sticky brown secretion that,
+as it hardens in the sun, becomes dry and papery. When the baby mantids
+emerge from the eggs they are attached to them by two slender threads
+fastened to the anal appendages (cerci); they hang head downward, like
+a mass of tiny squirming caterpillars, until they cast their first
+larval skin, when they fall to the ground, soft, wingless, little
+stick-like creatures, ready to hunt for themselves. These egg masses
+are very conspicuous objects in the bush and orchard, and are often
+received from my correspondents with enquiries as to what they are, and
+whether they should be destroyed. As each is the home of some hundreds
+of little creatures that destroy thousands of smaller injurious
+insects, they should never be disturbed by the gardener.</p>
+
+<p>The commonest species in our gardens is the “Thick shouldered green
+mantis,” <i>Orthodera ministralis</i> better known under the name of
+<i>Orthodera prasina</i>, but as it was described many years before
+under the first name, the latter has become a synonym. It is about 1½
+inches in length, somewhat stout and thickset, the front portion of
+the neck-like prothorax as wide as the head, fitting up close against
+it, and narrower where it joins the mesothorax. It has well developed
+wings and flies very well, but it usually remains immovable and alert,
+resting on a leaf as green as its own bright coat, its treacherous
+deadly fore-legs are raised, ready to lash out and seize any incautious
+moth or butterfly that comes within reach, and it will often secure
+one larger than itself. It ranges from Tasmania round to North-west
+Australia, and has been recorded from New Zealand, into which place it
+could have been easily introduced from Australia with foliage plants.</p>
+
+<p><span class="pagenum" id="Page_33">[33]</span></p>
+
+  <div class="figcenter" id="fig17_18" style="max-width: 341px">
+     <img
+    class="p1"
+    src="images/fig17_18.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Figs.</b> <b>17</b> and <b>18</b>.—Australian Mantidae.</p>
+     <p class="p0 smaller hangingindent">17. <i>Tenodera australasiae</i> (Leach), the long-winged mantis.</p>
+     <p class="p0 smaller hangingindent">18. <i>Archimantis latistylus</i> (Serv.), the short-winged mantis.</p>
+     <p class="p0 smaller center">(Original photo. Burton.)</p>
+     </div>
+
+<p>The Genus <i>Archimantis</i> contains five species described from
+Australia, of which <i>Archimantis latistylus</i> is the commonest
+species about Sydney. It measures 4 inches in length, is furnished
+with large well developed wings, and varies in colour from dull green
+to brownish yellow; the female is smaller, with more thickened body
+and shorter wings. The fore-wings, or more properly elytra, are brown,
+rounded at<span class="pagenum" id="Page_34">[34]</span> the tips, often marked in the centre with a dark spot;
+the hind wings are semitransparent. It hides among the dull-coloured
+foliage of the Leptospermum and Melaleuca bushes, which assimilate well
+with its own uniform tint. This species will be found, figured, in
+colours in McCoy’s “Zoology of Victoria, Decade xiii.”</p>
+
+<p><i>Archimantis montrosa</i>, a slightly larger species, comes from
+Victoria River, North Australia; the type was taken by Elsey,
+naturalist to the Gregory Exploring Expedition in 1856. <i>A.
+armatus</i>, a smaller brown species, from the same district, has the
+prothorax curiously spined on the outer margins, and the under-surface
+covered with coarse tubercles.</p>
+
+<p><i>Tenodera australasiae</i> is another of our best known species, not
+uncommon about Sydney in the summer months on the low scrub. It was
+first described, and figured in colours, by Leach in his “Zoological
+Miscellanies” 1815; and Westwood states that the type is in the
+Banksian Collection in the British Museum. It has a wide range over
+Australia, and is also a native of New Caledonia, New Guinea and
+Ceram. It is a more brightly-tinted insect, 3½ inches in length, of a
+general yellowish brown colour; the apical edge of the elytra striped
+with green, followed with a stripe of pale salmon colour, and the rest
+semitransparent; the wings are tinged with pink along the front margin,
+the whole mottled with black and brown, thickest towards the body.</p>
+
+<p>There are a number of active, little, black or dark brown mantids
+with curiously shaped bodies that run about on the dull coloured tree
+trunks, seldom flying, (though many of them are winged), but trusting
+to their imitative tints to escape observation; several of our species
+belong to the Genus <i>Paroxypilus</i>.</p>
+
+<hr class="r25">
+
+<h4>Family 7. Stick or Leaf Insects.<br>
+<span class="subhed">PHASMIDAE.</span></h4>
+
+<p>These are sometimes in general appearance not unlike mantids, but the
+distinctive characteristics are well defined; for though the prothorax
+is more or less elongated into a neck, and the abdomen, wings, and hind
+legs long, it will soon be noticed that the fore pair of legs are not
+spined, but are regular walking or clinging legs like the hind ones.
+The head is oval or rounded, with a somewhat simple mouth adapted for
+chewing foliage; smaller eyes; and large, thicker jointed antennae.</p>
+
+<p class="p2 smaller center">Plate V.—ORTHOPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Phasmidae.</span></p>
+
+<p class="center smaller"><i>Podacanthus wilkinsoni</i> (Macleay).</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>1. Male.</li>
+  <li>2. Female.</li>
+  <li>3. Immature male.</li>
+  <li>4. Showing structure of hind legs of immature male.</li>
+  <li>5. Egg (enlarged).</li>
+</ul>
+</div>
+
+  <div class="figcenter" id="plate5">
+     <p class="p1 sm center"><i>Plate V.—ORTHOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate5.jpg"
+    alt="">
+  </div>
+
+<p><span class="pagenum" id="Page_35">[35]</span></p>
+
+<p>They in the matter of colouration also adapt themselves to their
+surroundings, and are usually green or brown when at rest, though when
+the wings are expanded they exhibit some brilliant tints. In some
+groups the species are winged in both sexes; others have only winged
+males; and one group is wingless in both sexes, the latter generally
+long, slender, and stick-like.</p>
+
+<p>This family contains some of the giants of the insect world; specimens
+of several of our Australian species measure 12 inches in length; while
+supposed closely allied fossil forms unearthed in the Carboniferous
+deposits of Europe measure up to 19 inches and were supplied with
+immense wings. The female while crawling about among the foliage drops
+her eggs singly on the ground beneath, where, protected in their hard
+shells among the litter, they sometimes remain over a year before the
+baby phasma comes out. The remarkable form and texture of these hard
+oval egg cases has attracted the attention of entomologists in many
+countries, and Sharp has figured and described some from New Britain.</p>
+
+<p>Just as the Mantis has adapted its colour and shape to catch its prey,
+so the phasma to protect itself from its many enemies has evolved
+wonderful leaf-like processes upon the wings and legs, agreeing in
+style with the surrounding foliage. It is noticeable that the larger
+bodied female is often more leaf-like than her slender mate, probably
+because more helpless; this is particularly so in the gravid or
+egg-laying condition.</p>
+
+<p>G. R. Gray described a number of our species in the Transactions of the
+Entomological Society 1836, and others in the “Entomology of Australian
+Phasmidae” 1833, and later in his “Synopsis Phasmidae”; Westwood in
+his “Catalogue of the Orthopterous Insects in the British Museum” 1859
+describes some; a few have been described by Macleay, Leach, McCoy and
+Rainbow, bringing our list up to about 60 species. In Kirby’s Catalogue
+95 species are listed from all parts of the world, but no additions are
+made to our list.</p>
+
+<p>The members of the Genus <i>Bacillus</i> are slender, wingless,
+stick-like creatures of which 5 species are recorded from Australia.
+The Great Brown Phasma, <i>Acrophylla titan</i>, is the type of one
+of our groups, containing 11 species described from this country.
+The female measures 8 inches to the tip of the body, and is slightly
+broader across the outspread wings; the general form of head and thorax
+to base of tegmina is slender; the abdomen is thickened; the legs and
+mesothorax are spiny. The general colour is greyish brown; the tegmina
+light brown, but thickly blotched with blue-black so that it is often
+more black than brown; the wings are very large with the costal area
+broad and similar in<span class="pagenum" id="Page_36">[36]</span> colour to the tegmina, but shaded with red at
+base, the hind membranous part of them light chocolate irregularly
+mottled with dull greyish brown. The male is more slender in form,
+about an inch shorter, the smaller tegmina mottled with greenish
+yellow; the front of the wings, which are proportionately small, are
+of the same colour, and the hind portion dark chocolate finely mottled
+with light brown. This large stick-insect used to be common about
+Sydney before the scrub was cleared away, and ranges northward up the
+coast. Gray says: “It is found on low scrubs about Port Jackson where
+the inhabitants call it “Walking Straw” or the “Animated Stick.”</p>
+
+  <div class="figcenter" id="fig19" style="max-width: 331px">
+     <img
+    class="p1"
+    src="images/fig19.jpg"
+     alt="">
+     <p class="p0 smaller hangingindent"><b>Fig. 19.</b>—Group of Gregarious Phasmids, <i>Podacanthus
+wilkinsoni</i> (Macleay) resting upon denuded eucalyptus foliage.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>The Genus <i>Podacanthus</i> is represented by 3 fine species. The
+large pink winged phasma, <i>P. typhon</i>, has a wide range from
+Victoria to Queensland. When resting with closed wings it is of a
+uniform rich green tint, but when the wings are opened out, the
+upper surface of the abdomen and the wings behind the frontal stripe
+are bright rose red. The female measures 5 inches to the tip of the
+body and over 7 inches across the outspread wings. In this genus the
+mesothorax is short, the dorsal surface covered with short spined<span class="pagenum" id="Page_37">[37]</span>
+bosses and the metathorax swelling out into a thickened body tapering
+to the large boat shaped ovipositor. The male is smaller and much more
+slender.</p>
+
+<p><i>P. wilkinsoni</i> is a gregarious species, appearing in the summer
+in the New England forests in countless thousands, stripping every
+leaf off the eucalyptus bushes as they travel along to the south-east,
+so that all the trees look as if they had been killed by ringbarking,
+from which habit they have received the name of “Lourie’s Ringbarkers,”
+Mr. Lourie being the owner of Noundoc Station, where they are very
+numerous. The female measures about 3½ inches to the tip of the body,
+which is broad and thickset from the shoulders, of a general uniform
+bright green tint on the dorsal surface, with the ventral somewhat
+blackened and roughened. When the wings are expanded the front margin
+shows the basal part pale orange yellow, and the membranous part behind
+varying from rich rose red to pink. The male is a more slender insect
+of a dull olive green tint, about the same length, with the broad wings
+delicate purple. They appear with well developed wings about New Year,
+and are depositing their eggs toward the end of February, the first
+frost killing the last of them off.</p>
+
+<p><i>Didymuria violescens</i> was described and figured in Leach’s
+“Zoological Miscellanies 1815” as our typical Australian Phasma; Gray
+again figured it in colours in his “Entomology of Australia” under the
+name of the “Violet-winged tailed Spectre.” It is a slender species
+not unlike the last, of a brownish yellow colour, with wings of a deep
+violet almost red tint; and it has 3 large spines on the thighs of the
+hind legs.</p>
+
+<p>The Genus <i>Tropidoderus</i> contains four species according to the
+latest catalogue, though there is some doubt whether one or two should
+not be defined as only varieties of <i>T. childreni</i> described by
+Gray.</p>
+
+<p><i>T. rhodomus</i> is figured and described by McCoy; it measures 6
+inches in length and 9 across the outspread wings. With closed wings
+it is a rich green, but when they are expanded, the basal portion of
+the wings is bright red, with the apical portion green, and the rest
+semitransparent. The tegmina is short, leaf-like, green above, but
+shaded with red on the under-surface. This is one of the short-necked
+broad-bodied forms, and while the fore-legs are long and slender, the
+thighs of the mid and hind pair are dilated into flattened leaf-like
+forms; it is found, clinging among the foliage of the gum trees, from
+Victoria to Queensland. The typical <i>T. childreni</i> differs from
+this form in having the basal portion of the apical area of the wings
+yellow instead of red, and the hyaline wings tinged with yellow. McCoy
+has figured another under<span class="pagenum" id="Page_38">[38]</span> the name of <i>T. iodomus</i>: and Rainbow
+a fourth from the neighbourhood of Sydney under the name of <i>T.
+decipiens</i> which also comes very close to the typical species; it
+has the basal portion of the apical area of the wings purple.</p>
+
+  <div class="figcenter" id="fig20" style="max-width: 339px">
+     <img
+    class="p1"
+    src="images/fig20.jpg"
+     alt="">
+     <p class="p0 smaller hangingindent"><b>Fig. 20.</b>—The Spiny Green Leaf Insect. <i>Extatosoma
+tiaratum</i> (Macleay).</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p><i>Extatosoma tiaratum</i> is remarkable for the great difference in
+the sexes; the male is a rare insect, about 4 inches long; is a dull
+dark green, with small tegmina; the wings are large, rounded at the
+tip, the apical margin green with the rest semiopaque, dark brown,
+mottled with whitish bands; the head is conical, coming to a point at
+the summit and cleft in the centre, covered with fine tubercles.</p>
+
+<p>The female measures about 5 inches, is of a similar colour, large and
+swollen in proportion; the tegmina are represented by two flaps, and
+the wings are wanting. The head is of the same conical shape as that
+of the male, but larger; neck short and stout; the legs produced into
+dilated spiny leaf-like processes, cut out and arcuate like the leaves
+of<span class="pagenum" id="Page_39">[39]</span> holly; and the lower segments of the abdomen are fringed with spiny
+leaf-like appendages. Often the large body is mottled with white specks
+and smutty blotches, giving it a wonderful resemblance to the foliage
+among which it hides. It has a very wide range from Tasmania to New
+Guinea.</p>
+
+  <div class="figcenter" id="fig21" style="max-width: 385px">
+     <img
+    class="p1"
+    src="images/fig21.jpg"
+     alt="">
+     <p class="p0 smaller hangingindent"><b>Fig. 21.</b>—A group of Spiny Green Leaf Insects,
+<i>Extatosoma tiaratum</i> placed on a Japanese Holly bush to
+show protective mimicry.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette” N.S.W.)</p>
+     </div>
+
+<p><i>Clemacantha regale</i> is a large, handsome, very long phasma over
+9 inches in length, of a combined yellow and green tint; the head is
+striped with parallel green and pale yellow. The leaf-like tegmina are
+striped with white; wings have the apical area green shaded with pink
+at base; rest semitransparent with a blue tint. It ranges from N.S.
+Wales to Queensland.</p>
+
+<p><span class="pagenum" id="Page_40">[40]</span></p>
+
+<hr class="r25">
+
+<h4>Family 8. Short-horned Grasshoppers.<br>
+<span class="subhed">ACRIDIIDAE.</span></h4>
+
+<p>These are insects with the thighs of the hind legs swollen or enlarged,
+much longer than the fore legs, and adapted for jumping. The tarsi
+are composed of three distinct segments. The antennae are short,
+containing less than 30 joints; the ovipositor of the females is not
+sabre-shaped, but composed of short plates adapted for boring into the
+ground; and the organs representing ears are placed on the sides of the
+first abdominal segment. This group of the Orthoptera may be described
+as the short-horned locusts or grasshoppers in contradistinction to
+the tree or grass dwelling green grasshoppers with long thread-like
+antennae. All the true plague locusts that ravage many of the warmer
+countries and do an immense amount of damage belong to this division.
+Many species have a wide range; our locusts are allied to the African
+and Indian forms. Most of the species are winged, and many are capable
+of long sustained flight; these are furnished with air sacs in the
+interior of the thorax and abdomen; these when distended with air
+assist in lightening the otherwise heavy body. The remarkable shrill
+notes produced by some of these insects are caused by rubbing the inner
+edge of the hind thigh against the outer surface of the wing covers
+which are frequently furnished with ridges or raised veins for this
+purpose. The so-called ears consist of a membrane covering a small
+opening on the abdomen, and are of a somewhat different structure in
+different groups.</p>
+
+  <div class="figcenter" id="fig22" style="max-width: 750px">
+     <img
+    class="p1"
+    src="images/fig22.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 22.</b>—Diagram of Grasshopper.
+<i>Cyrtacanthacris exacta</i> (♀) (Walker).</p>
+     <p class="p0 smaller hangingindent"><i>ant</i>, antennae; <i>e</i>, eye; <i>vert</i>, vertex; <i>oc</i>,
+ocellus; <i>fast</i>, fastigium; <i>c. fac</i>, costae facialis;
+<i>c</i>, clypeus; <i>m</i>, mandible; <i>l</i>, labrum; <i>mp</i>,
+maxilliary palpi; <i>lp</i>, labial palpi; <i>ps</i>, prosternal
+spine; <i>p</i>, pronotum; <i>m. epis</i>, meso-episternum; <i>m.
+epim</i>, meso-epimeron; <i>co</i>, coxa; <i>tr</i>, trochanter;
+<i>meta-epis</i>, meta-episternum; <i>meta-epim</i>, meta-epimeron;
+<i>fem</i>, femur; <i>tib</i>, tibia; <i>tar</i>, tarsus; <i>sp</i>,
+spiracle; <i>v</i>, ventral valves of ovipositor.</p>
+     <p class="p0 smaller center">(Original W. B. Gurney.)</p>
+     </div>
+
+<p>The reproductive organs of the female consist of several<span class="pagenum" id="Page_41">[41]</span> anal plates
+that are used after the manner of an auger to cut a circular pit in the
+hard soil, the abdominal segments being extended while the operation is
+going on; the eggs are deposited at the bottom of the hole, enclosed
+in a similar exudation as that which encloses the eggs of the mantis,
+and some of the plague locusts deposit two or more egg masses before
+they die. These grasshoppers have been studied by many entomologists,
+who have subdivided them into different groups. Brunner von Wattenwyl
+places them under nine sub-families or tribes chiefly based on the
+structure of the head. Saussure has described some of our species;
+Walker, Stoll and Blanchard others.</p>
+
+  <div class="figcenter" id="fig23" style="max-width: 616px">
+     <img
+    class="p1"
+    src="images/fig23.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 23.</b>—<i>Locusta danica</i> (Linn.) The
+Yellow-winged Locust.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>The Yellow-winged Locust, <i>Locusta danica</i>, is common in open
+forest country all over Australia, and usually makes a rustling noise
+as it flies up; it is too well known to need describing; with its
+wings closed it is a mottled, dull brown and green insect up to 2
+inches in length, with a short broad head and crested thorax; when the
+wings are opened it shows a large patch of rich yellow banded with
+black. The male is often fully a third smaller than the female. It has
+been described under a great number of different names, but is now
+considered the same insect as found in the South of Europe, Africa and
+Asia.</p>
+
+<p>The Blue Mountain Locust, <i>Oedaleus senegalensis</i>, might easily
+be mistaken for a smaller dull coloured specimen of the last one, but
+the yellow tint, when present, is very slight, and the wings have
+the tips blackened as well as the inner<span class="pagenum" id="Page_42">[42]</span> band. It has a wide range
+over Australia, and is also found in Africa from which place it was
+described by Krauss.</p>
+
+  <div class="figcenter" id="fig24" style="max-width: 300px">
+     <img
+    class="p1"
+    src="images/fig24.jpg"
+     alt="">
+     <p class="p0 smaller hangingindent"><b>Fig. 24.</b>—<i>Chortoicetes pusilla</i> (Walker). The small
+Plague-locust of the interior of Australia.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+  <div class="figcenter" id="fig25" style="max-width: 411px">
+     <img
+    class="p1"
+    src="images/fig25.jpg"
+     alt="">
+     <p class="p0 smaller hangingindent"><b>Fig. 25.</b>—<i>Chortoicetes terminifera</i> (Walker). The
+larger Plague-locust.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>The Large Coast Locust, <i>Acridium maculicollis</i>, is sometimes
+found in gardens; it measures 3 inches to the tip of the wings, and
+is greyish brown with darkly mottled elytra. <i>Locusta australis</i>
+is like the Yellow-winged Locust, with more regularly mottled elytra,
+and clear transparent wings. The small plain Locust, <i>Chortoicetes
+pusilla</i>, is under 1 inch in length; the male is of a general
+bright yellow colour, and the female, somewhat larger, of a general
+greyish brown tint. It is the species that for the last few years has
+done so much damage to our grass and crops in the Western country.
+<i>C. terminifera</i> is one-third larger, and is of a general light
+brown mottled colour, with the wings semitransparent, tipped with
+dull brown; it at times is one of our plague locusts. The Rose-winged
+Locust, <i>Hyalopteryx australis</i>, is one of our small but very
+noisy locusts, about 8 lines in length; when at rest it is light brown
+mottled with darker tints, the expanded<span class="pagenum" id="Page_43">[43]</span> hind wings are brightly shaded
+with rose pink and clouded with black. It is found in open grass lands,
+and when disturbed rises with a very shrill screech. The Red-legged
+Locust, <i>Cirphula pyrocnemis</i>, is a short broad insect about 1
+inch long; is of a general dark brown tint, with the expanded wings
+dark yellowish brown: the head and thorax are roughened; the abdominal
+segments are dull yellow with several black bands on the sides: it is
+common on the open flats about Sydney in summer. The common “Great
+Striped Locust,” <i>Cyrtacanthacris exacta</i>, measures nearly 3
+inches; it ranges all along the Eastern coast and is often seen in
+secluded gardens; it has a broad dorsal stripe down the centre, varying
+from yellow to dull green.</p>
+
+  <div class="figcenter" id="fig26" style="max-width: 389px">
+     <img
+    class="p1"
+    src="images/fig26.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 26.</b>—<i>Cirphula pyrocnemis</i> (Stäl). The
+Red-legged Locust.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+  <div class="figcenter" id="fig27_28" style="max-width: 443px">
+     <img
+    class="p1"
+    src="images/fig27_28.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Figs. 27</b> and <b>28</b>.—Australian Grasshoppers.</p>
+     <p class="p0 smaller center">27.—<i>Tryxalis rafflesii</i> (Blanchard). The Slender Narrow-headed
+Grasshopper.</p>
+     <p class="p0 smaller center">28.—<i>Goniæa australasiae</i> (Leach). The Ridge-backed Grasshopper.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>The Long-nosed Locust, <i>Tryxalis rafflesii</i>, is very common in
+open grassed flats; the female is nearly 3 inches long, with a slender
+pointed head, and long pointed body, varying from all shades of grass
+green to pale salmon colour. It is easily recognised by its curious
+finger-like antennae, and grotesque head. The male is a very slender,
+much smaller insect. The pink-winged Tryxalid, <i>Atrastemorpha
+crenaticeps</i>, is much smaller; it has a pointed head of a uniform
+pale green tint; the wings are brightly tinted with red, deepest at the
+shoulders. The Ridge-backed Grasshopper, <i>Goniaea australasiae</i>,
+is a large, stout, reddish brown insect about 2 inches long, which
+lives on the hills in open forest; the male is a much smaller hopper,
+but both sexes have the head, thorax, and closed wings forming a
+sharp ridge down the back. In similar open forest country we find
+<i>Coryphistes cyanopterus</i>, which usually rests on the tree trunks,
+with its slightly roughened head, thorax, and mottled elytra closely
+resembling the bark. It measures 2½ inches in length, but though it
+is very variable in size and outward colouration,<span class="pagenum" id="Page_44">[44]</span> the wings when
+expanded always show a rich blue tint. The Crested Locust, <i>Ecphantus
+quadrilobis</i>, is one of our western forms that rests among the dry
+grass on the plains; it is dull green to yellow, short and thickset;
+is 1½ inches long; with the back ridged, and the crested thorax formed
+into 4 lobes. The spotted locust, <i>Stropis maculosa</i>, is another
+of our western forms; it is broad and thickset; about 2 inches<span class="pagenum" id="Page_45">[45]</span> long;
+of a uniform dark brown tint, with the thorax barred, and the elytra
+mottled with large patches of light yellow.</p>
+
+  <div class="figcenter" id="fig29" style="max-width: 300px">
+     <img
+    class="p1"
+    src="images/fig29.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 29.</b>—<i>Coryphistes cyanopterus</i> (Charpentier).
+The Blue-winged Locust.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+  <div class="figcenter" id="fig30" style="max-width: 450px">
+     <img
+    class="p1"
+    src="images/fig30.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 30.</b>—<i>Stropis maculosa</i> (Stäl). The Spotted
+Ground-locust of the interior.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>There are also many other curious forms of wingless, short-horned
+locusts in the interior, belonging to several genera, and probably some
+fine things that have never reached our museums.</p>
+
+<p><span class="pagenum" id="Page_46">[46]</span></p>
+
+<hr class="r25">
+
+<h4>Family 9. Long-horned Grasshoppers.<br>
+<span class="subhed">LOCUSTIDAE.</span></h4>
+
+<p>These grasshoppers are found not only among the grass but on low
+shrubs, or in tree tops, feeding upon the foliage; while others, many
+of them wingless, live underground after the manner of crickets. Among
+those that frequent trees are some that, like the phasmids, have the
+legs and wing-covers so wonderfully veined and spotted that they
+are an exact imitation of the leaves of their food plant. They are
+easily distinguished from the previous group by their long, slender,
+thread-like antennae composed of a number of fine joints; in most cases
+the body is softer; and in the female furnished with a sabre-like
+ovipositor with which she generally deposits her eggs in rows along the
+side of a leaf or twig, though others place them on the ground. The
+basal portion of the thigh of the hind leg is generally thickest, and
+most of the species have four jointed tarsi, with the ear process not
+upon the base of the abdomen, but on the knees of the fore-legs. Some
+are said to be carnivorous, and I have twice seen a large green species
+which comes to the flowers of the stunted angophora devouring honey
+bees, but probably more for the honey they contain than the blood of
+the bee.</p>
+
+<p>Brunner von Wattenwyl has written a great deal about these insects
+and described a number of Australian species. Tepper is one of the
+few Australian entomologists who has taken up this group, describing
+some in the Transactions of the Royal Society of S. Australia: in the
+Locustidae of the world Sharp groups them into fifteen tribes. Most of
+these Orthoptera are solitary or found in pairs; some too have a very
+musical note.</p>
+
+<p>The Mountain Grasshopper, <i>Acridopeza reticulata</i>, is such a
+curious looking creature that it has been figured and noted by many
+naturalists. Both sexes are of a uniform dull brown colour, but very
+different in structure; the male measures 2 inches; has long pointed
+elytra, and well developed wings; the head is small; the antennae
+slender and thread-like; the eyes stand out on the side of the head,
+and the thorax is saddle shaped. The female is furnished with a very
+short, rounded body richly mottled with blue, white, and red, covered
+with a pair of rounded, short, shell-like elytra, but the wings are
+wanting. When disturbed she stands on tiptoes, arches her body, raises
+her elytra exposing all the bright tints of her body, which probably
+act as a warning to her enemies.</p>
+
+<p class="p2 smaller center">Plate VI.—ORTHOPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Locustidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>1. <i>Acridopeza reticulata</i> (Guérin), ♀.</li>
+  <li>1<i>a</i>. <i>Acridopeza reticulata</i> (Guérin), ♂.</li>
+  <li>1<i>b</i>. <i>Acridopeza reticulata</i> (Guérin), eggs.</li>
+  <li>2. <i>Alectoria superba</i> (Brunner).</li>
+  <li>3. <i>Ephippitytha</i> 32-<i>guttata</i> (Serv.).</li>
+  <li>4. <i>Pseudorhynchus lessonii</i> (Serv.).</li>
+</ul>
+</div>
+
+  <div class="figcenter" id="plate6">
+     <p class="p1 sm center"><i>Plate VI.—ORTHOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate6.jpg"
+    alt="">
+  </div>
+
+<p>Another remarkable grasshopper is <i>Alectoria superba</i>, found
+<span class="pagenum" id="Page_47">[47]</span>in the dry western country among the grass; it is a long, slender,
+green insect, measuring 2½ inches; the elytra and legs are richly
+mottled with bright reddish brown; the thorax is produced into a
+large circular crest edged with bright red, a large boss below on
+either side, and another projecting above the head. The female has
+a very small lance-like ovipositor. The Speckled Green Grasshopper,
+<i>Ephippitytha 32-guttata</i>, is about the same length as the last,
+of a somewhat lighter green tint, and has the elytra mottled with a
+double row of black spots varying from 32 to 44 in number. The head
+is small, the thorax short and somewhat saddle-shaped. It is found
+about Sydney on flowering shrubs; and there is a darker variety which
+has a wide range over the interior, to which Tepper has given the
+name of <i>E. quadrigesima-guttatus</i>. The Small Green Grasshopper,
+<i>Caedicia valida</i>, is one of our dainty, slender, green species
+found in the gardens, where it sometimes damages the young fruit by
+gnawing patches off the skin, or nibbles holes in the foliage; it
+produces a sharp musical note uttered three times in succession.</p>
+
+<p>The Large Green Leaf Grasshopper, <i>Locusta vigentissima</i>, figured
+by McCoy, is also found on low shrubs in the summer; it measures
+nearly 3 inches, and is of a uniform dull green colour, with the
+head, legs and antennae more or less yellow: the head is broad; the
+thorax stout; the legs long and spiny; the elytra long, tapering to
+the tips; the wings large, semitransparent; the abdomen short, in the
+female furnished with a long sabre-like ovipositor. The Lance-headed
+Grasshopper, <i>Pseudorhynchus lessonii</i>, has a wide range along
+the eastern coast among the long grass; it is green, with the tips
+of the elytra marked with yellow; the wings are small, and the front
+of the head produced into a lance-like point. Among the foliage of
+the eucalypts in Southern Australia there is a very handsome large
+grasshopper with the head small, the thorax very square, and the elytra
+very leaf-like in form; it has a curious bloom upon it like that upon
+many of the gum leaves, and is a very fine case of mimicry.</p>
+
+<p>The Genus <i>Anostosoma</i> comprises a number of reddish brown
+wingless locusts more like crickets in many ways, for they live chiefly
+in holes in the ground, have long thread-like antennae, and stout spiny
+legs. <i>Anostosoma australasiae</i> is a very formidable looking
+insect with immense head and jaws, originally described from Moreton
+Bay; it is sometimes found about Sydney, measuring 3 inches in length;
+it has antennae over 4 inches long. The smaller species, <i>Anostosoma
+erinaceus</i>, is of a similar colour and form, but not more than 1½
+inches in length; it is not uncommon in gardens.</p>
+
+<p><i>Paragryllacris combusta</i> lives in hiding during the day under<span class="pagenum" id="Page_48">[48]</span>
+a curled leaf spathe of a palm frond, or in a cavity in a tree trunk;
+if in the last it often forms a white tough substance of a net-like
+structure over the front, and if disturbed will snap at a grass blade
+or straw and shake the net, making a distinct sharp sound. It is of a
+uniform, yellowish brown tint, measuring about 2 inches to the tip of
+the large curled wings closely folded over the body.</p>
+
+<p>The curious Cave Locust, <i>Pachyrhamma sp.</i>, with its small oval
+body, and long slender antennae and hind legs, is always found in
+caves. It is a dull brown wingless creature, whose slender thread-like
+antennae are many times longer than the body.</p>
+
+<hr class="r25">
+
+<h4>Family 10. Crickets.<br>
+<span class="subhed">GRYLLIDAE.</span></h4>
+
+<p>These are the black field and house crickets which are so well known by
+their shrill note; this is caused by the insect rubbing the stout wing
+covers or elytra together; those of the males have a distinct circular
+wavy neuration forming distinct ridges for this purpose.</p>
+
+<p>Crickets are easily distinguished by their slender thread-like
+antennae, short rounded heads, black wings folded down the back, and
+spiny hind legs adapted both for creeping through the grass or jumping
+out of the road of their enemies. The abdomen is furnished with a
+pair of slender spined appendages on the sides, and the female with a
+stiletto-like ovipositor composed of two grooved pieces by which the
+eggs are deposited in the ground.</p>
+
+<p>We have a number of field crickets in this country; Walker in his
+catalogue of the family gives 12 species, of which <i>Gryllus
+servillei</i> is our common field cricket, sometimes swarming out
+in sufficient numbers to do a great deal of damage to field crops
+and vegetable gardens. It is of a uniform black tint, with a short,
+shining, round head; it measures about 1 inch in length, and has a wide
+range over Australia. The Mole Cricket, <i>Gryllotalpa coarctata</i>,
+is found all over the interior, forming underground tunnels in the
+sand along the edges of watercourses; it was collected in the Horn
+Expedition in Central Australia, and is also found about Sydney. It
+is of the usual dull brown tint, with hooded thorax and spade-shaped
+fore-legs. Another curious little black cricket is common about the
+edges of watercourses, and when disturbed often jumps in and swims
+about on the surface; it belongs to the Genus <i>Nemobius</i>, and is
+only ⅙ of an inch in length.</p>
+
+<p class="p2 smaller center">Plate VII.—ORTHOPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Gryllidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>1. <i>Gryllus servillei</i> (Sauss.).</li>
+  <li>1<i>a</i>. <i>Gryllus servillei</i> (Sauss.). (Elytron ♀.)</li>
+  <li>2. <i>Gryllotalpa coarctata</i> (Walk.).</li>
+  <li>3. <i>Pachyrhamma sp.</i></li>
+  <li>4. <i>Nemobius sp.</i></li>
+  <li>5. <i>Paragryllacris combusta</i> (Germ.).</li>
+  <li>6. <i>Anostostoma erinaceus</i> (Gray).]</li>
+</ul>
+</div>
+
+  <div class="figcenter" id="plate7">
+     <p class="p1 sm center"><i>Plate VII.—ORTHOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate7.jpg"
+    alt="">
+  </div>
+
+<hr class="chap x-ebookmaker-drop">
+
+<div class="chapter">
+<p><span class="pagenum" id="Page_49">[49]</span></p>
+
+<h2>Order III.—NEUROPTERA.<br>
+<span class="subhed">Lace-winged Insects.</span></h2></div>
+
+
+<p>After excising the families usually treated as <i>Pseudo-Neuroptera</i>
+from this order, these insects can be defined as the “lace wings,”
+furnished with two pairs of delicate gauzy wings reticulated with a
+network of fine transverse and parallel veins forming a great number
+of more or less irregular cells. The head is furnished, with a few
+exceptions, with stout jaws adapted to their carnivorous habits; large
+eyes; and antennae of many different forms, sometimes short, thickened,
+or clubbed, but in others long, slender, and filiform. The legs, suited
+to their clinging habits when at rest, are generally slender, and the
+body more or less elongate.</p>
+
+<p>Most of them undergo a complete metamorphosis; the active larvae are
+furnished with large sucking or biting jaws; in the terrestrial forms
+they live among foliage or on the ground, and feed upon aphids, mites,
+ants, &amp;c., and when full grown pupate in regular cocoons. While some of
+the aquatic forms go through a pupal stage in cells in the mud or under
+stones, others, like the dragon flies, have no true pupal form, simply
+going through a series of moults, and changing from an aquatic life to
+an aerial one by crawling out of the water and emerging from the pupal
+case, leaving it attached to the water plant.</p>
+
+<p>Sharp places the Neuroptera in eleven families, further divided
+up into a number of sub-families under five tribes. In excising
+the <i>Pseudo-Neuroptera</i> seven families remain, though the
+<i>Hemerobiidae</i> includes a number of sub-families that by some
+writers are ranked as families.</p>
+
+<p>The Neuroptera are represented in Australia by many very handsome
+and curious insects, of which the dragon flies are probably the most
+typical and well known.</p>
+
+<p><span class="pagenum" id="Page_50">[50]</span></p>
+
+<hr class="r25">
+
+<h4>Family 1. Stone-flies.<br>
+<span class="subhed">PERLIDAE.</span></h4>
+
+<p>The Stone-flies are not an extensive group, and though the European
+and American forms have been studied, very little is known about our
+species. In England several species are much prized by fishermen as
+tempting bait for fly-fishing.</p>
+
+<p>The perfect insects have oblong, flattened bodies of uniform width
+to the tip of the abdomen, terminating in a pair of long slender
+tails or setae. The head is long, provided with large prominent eyes,
+three ocelli, slender thread-like antennae, and weak mouth parts; the
+fore-wings are slightly longer than the hind ones, which are very
+broad and folded down the middle when closed. They are generally found
+about watercourses in early summer, and lay an immense number of eggs
+(5,000 to 6,000 some authorities state are laid by each female); these
+eggs are dropped on the surface of the water. The larvae are very like
+the perfect insects except that they have no wings; they are active
+carnivorous creatures living in the bottom of swift running streams,
+crawling under the stones, and feeding chiefly on the larvae of
+mayflies.</p>
+
+<p>Only four or five species have been described from Australia; I had
+a number of specimens sent me from Hobart, Tasmania, the larvae of
+which were said to be damaging the woodwork down a well. It has been
+identified as <i>Eusthenia spectabilis</i>. This insect was named by
+Westwood, and is figured in Griffith’s “Animal Kingdom,” (page 348,
+plate 72). It measures about 2 inches across the outspread wings; its
+general colour is dark brown, with the fore wings lighter, mottled
+with brown at the base and the lower half dull red; the hind pair
+brighter red with the tips blackish. The head is flattened, with long
+slender many jointed antennae tapering to the tips. The thorax is
+slender, flattened on the upper surface; the legs stout; and the tip
+of the abdomen bears two slender jointed tails (setae). This insect is
+also found in Australia. A second species, <i>Eusthenia thalia</i>,
+is described from Tasmania by Newman; I have one from Gippsland
+Victoria probably a new species. Several species have been described
+by Walker (Brit. Mus. Catalogue, Neuroptera 1852) in the typical Genus
+<i>Perla</i> from Tasmania.</p>
+
+<p>Members of the Genus <i>Cupnia</i> are often found upon the snow in
+Northern Europe.</p>
+
+<p class="p2 smaller center">Plate VIII.—NEUROPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Odonata</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>1. <i>Tramea loewii</i> (Brauer).</li>
+  <li>2. <i>Synlestes weyersii</i> (Selys).</li>
+  <li>3. <i>Ischnura delicata</i> (Selys).</li>
+  <li>4. <i>Rhyothemis graphiptera</i> (Ramb.).</li>
+  <li>5. <i>Orthetrum nigrifrons</i> (Kirby).</li>
+  <li>6. <i>Diplacodes (Diplax) bipunctata</i> (Brauer).</li>
+</ul>
+</div>
+
+<p class="center smaller">Family <span class="smcap">Sialidae</span>.</p>
+
+<p class="center smaller">7. <i>Chaulcodes guttatus</i> (Walk.).</p>
+
+<p class="center smaller">(Original photo. Burton.)</p>
+
+  <div class="figcenter" id="plate8">
+     <p class="p1 sm center"><i>Plate VIII.—NEUROPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate8.jpg"
+    alt="">
+  </div>
+
+<p><span class="pagenum" id="Page_51">[51]</span></p>
+
+
+<hr class="r25">
+
+<h4>Family 2. Dragon Flies.<br>
+<span class="subhed">ODONATA.</span></h4>
+
+<p>Everyone has noticed dragon flies that sail and dart about over swamps
+and rivers, the embodiment of grace and beauty in flying creatures. In
+England and Australia they are popularly known as “horse-stingers,” a
+very misleading name, for they cannot sting, and if they frequent the
+vicinity of horses it is for the sake of the flies or gnats they can
+capture. In America the country folk know them under the still more
+peculiar name of “Devil’s Darning Needles,” while the French children,
+who recognise their beauty and dainty form, call them “demoiselles.”
+Westwood places the dragon flies in the family <i>Libellulidae</i>; but
+both Kirby and Sharp call them <i>Odonata</i>; the former again divides
+them into the <i>Libellulidae</i> and the <i>Agrionidae</i>, and the
+latter subdivides them into groups with the same characters, namely the
+<i>Anisopteridae</i> and <i>Zygopteridae</i>.</p>
+
+<p>The members of the first group are those with the hind pair of wings
+slightly larger than the front pair, and the second with wings of equal
+size or the hind pair smaller. Specialists have further subdivided them
+into seven smaller sub-families containing about 300 genera.</p>
+
+<p>Dragon flies are widely distributed over the world, but are most
+plentiful in the warmer zones; about 2,000 have been described from all
+parts of the world, of which 107 species are recorded from Australia;
+but as Billinghurst was able to collect 41 species in one circumscribed
+district in Victoria (Victorian Naturalist No. 1, 1900), systematic
+collecting would certainly add many more to our list.</p>
+
+<p>In the early stages of their life dragon flies are aquatic; the female
+deposits her eggs on the foliage of water plants, sometimes dipping
+into the water to be sure they are submerged. The slender larvae with
+wing pads in place of the future wings have somewhat the form of the
+adults, and are carnivorous, feeding upon all kinds of smaller water
+insects.</p>
+
+<p>The dragon flies form a very distinct division of the Neuroptera; every
+organ is beautifully adapted for their aerial life, their immense eyes
+giving them an outlook on all sides, while the slender cylindrical
+body does not impede their flight; and the great oar-shaped wings
+strengthened with many stout nervures enable them to twist and turn in
+the air with wonderful ease and rapidity.</p>
+
+<p>The <span class="smcap">Libellulidae</span> are thick-bodied dragon flies of medium size,
+and comprise a number of fine species. The larvae are<span class="pagenum" id="Page_52">[52]</span> short broad
+creatures with wide heads; they live in the mud on the bottom of ponds.
+<i>Rhyothemus graphiptera</i> belongs to a genus containing over 30
+species ranging from Africa to China, and the Eastern Archipelago to
+the New Hebrides. It measures 2½ inches across the wings, which are
+yellowish brown, beautifully mottled with darker tints; the front pair
+are blotched at the base, a slender stripe in front running into the
+first of 2 irregular transverse bands about the centre and tip; in the
+hind pair the two apical bands have basal markings consisting of three
+small irregular blotches: it is found in the northern parts of N.S.
+Wales.</p>
+
+  <div class="figcenter" id="fig31" style="max-width: 601px">
+     <img
+    class="p1"
+    src="images/fig31.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 31.</b>—Diagram of a Dragon Fly.</p>
+     <p class="p0 smaller hangingindent"><i>a</i>, antenna; <i>ar</i>, arculus; <i>b.s</i>, basilar
+space; <i>c</i>, costal nervure; <i>s.c</i>, sub-costal nervure;
+<i>e</i>, eye; <i>f</i>, front; <i>m</i>, median nervure (or
+radius); <i>s.m</i>, sub-median; <i>m.s</i>, median sector;
+<i>m</i>, membranule; <i>n</i>, nodus; <i>n.s</i>, nodal
+sector; <i>o</i>, occiput; <i>p</i>, pterostigma; <i>p.s</i>,
+principal sector; <i>s.s</i>, short sector; <i>s.t</i>, sector
+of triangle; <i>t</i>, triangle; <i>i.a</i>, inferior appendage;
+<i>s.a</i>, superior; <i>a.n</i>, antenodals. The numerals refer
+to the segments of the abdomen.</p>
+     <p class="p0 smaller center">(Original R. J. Tillyard.)</p>
+     </div>
+
+<p>The Genus <i>Diplax</i> contains a number of more delicate,
+short-winged insects, of which <i>Diplax rubra</i>, a typical form,
+is common both along the rivers and in the open scrub, often quite a
+distance from water. It is a moderate-sized dragon fly, tinted with
+pale yellow at the base of the hind wings,<span class="pagenum" id="Page_53">[53]</span> and has a distinctive
+bright red body. <i>Diplacodes (Diplax) bipunctata</i> has much the
+same habits, and a wider range over the country; it is common about
+Sydney, and is slightly smaller than the previous species, and of a
+general yellow tint. <i>Orthetrum nigrifrons</i> is a more thickset
+dragon fly about 2 inches across the wings; the head and front of
+thorax are black, with the hind portion of the latter and body deep
+blue; it is a very distinctive species along the watercourses and in
+the open bush. <i>Orthetrum villosovittatum</i> is a slightly larger
+form found in Southern Queensland, with slightly clouded wings,
+blotched close to the body with yellowish brown: the head and thorax
+are brown, and the body is red.</p>
+
+<hr class="tb">
+
+<p>The <span class="smcap">Aeschnidae</span> contain the giants among the dragon flies:
+<i>Petalura gigantea</i> is our largest species, and varies much in
+different localities; most of ours on the Blue Mountains measure about
+5 inches across the wings, but Tillyard captured them at Cairns N.Q.
+6½ inches. It is a very robust insect of a dull brown tint, with a
+single, broad, pale stripe on the sides of the large square thorax, and
+when viewed from the side seems to have the abdomen attached to the
+under-side of the thorax. The pterastigma of the wing is long.</p>
+
+<p><i>Hemianax papuensis</i> is typical of one of our large species, often
+flying in numbers about Sydney hawking for gnats high up in the air
+before a storm. It measures 4 inches across the wings, which have a
+slight smoky tint.</p>
+
+<p><i>Aeschna brevistyla</i> is about the same size as the previous
+species, but the wings are clear, and the abdominal segments are marked
+with two angulated white blotches, one on either side of the dorsal
+stripe. The larvae are curious, elongate, oval creatures, with large
+heads, living in the mud at the bottom of stagnant ponds and are common
+about Sydney.</p>
+
+<hr class="tb">
+
+<p>The <span class="smcap">Agrionidae</span> are the delicate slender-bodied dragon flies
+with oar-shaped wings, and narrow heads with the eyes standing out
+on either side. <i>Lestes analis</i> is our common type of the large
+genus; it is of the usual slender form, with the body nearly as long
+as the expanse of wings, and is of a general reddish brown colour.
+<i>Synlestes weyersii</i> is a very beautiful slender creature nearly
+3 inches across the wings, and over 2 inches from the front of the
+head to the tip of the body. It has transparent wings with an oval
+whitish pterastigma toward the tips, and the whole head and body is
+deep rich metallic green. It flies in a very graceful manner up and
+down the edges of the watercourses, resting every now and then on a
+reed or overhanging twig, and is very easily captured. <i>Ischnura
+heterosticta</i> is our tiny, little,<span class="pagenum" id="Page_54">[54]</span> banded, blue and brown dragon
+fly, with the female of a more sombre brown tint: Tillyard has recorded
+two forms of females in this species, one taking on the garb of the
+bright-coloured male.</p>
+
+<p><i>Ischnura delicata</i>, very similar in size and form, has the basal
+two-thirds of the abdomen red and the apical portion blue. The larvae
+of both these species are common in the ponds about Sydney in the early
+summer. Tillyard (Pro. Linn. Soc. N.S.W. 1905) has recently added three
+new species of the Genus <i>Austrogomphus</i> collected in the Cairns
+district N. Queensland.</p>
+
+<hr class="r25">
+
+<h4>Family 3. May-flies.<br>
+<span class="subhed">EPHEMERIDAE.</span></h4>
+
+<p>These delicate gauze-winged insects were named Ephemera from the old
+idea that their life as perfect insects lasted only for a day; they
+were born in the morning and died at the fall of day. Though their span
+of life is short, as they possess only rudimentary mouths incapable of
+absorbing food, and only live a short time after the eggs are laid, it
+is generally a matter of a few days.</p>
+
+<p>They have large prominent eyes; three ocelli; and minute antennae
+consisting of two thickened joints surmounted with a needle-like hair
+or bristle: the prothorax is small, the middle portion large; and the
+somewhat small body, generally composed of ten segments, is provided
+with a slender articulated hair-like tail on either side. The wings are
+broadest at the base, rounded at the extremities, with the hind pair
+small, in some genera the hind pair absent. The larvae live in burrows
+in the mud at the bottom of ponds or watercourses, and when full grown
+climb up the stalks of grass or plants and cast their pupal coverings.</p>
+
+<p>Most of our species are only found in odd pairs, and do not assemble
+in swarms as they sometimes do in England; but in 1885, in the Royal
+Geographical Society’s Exploring Expedition in New Guinea, when
+ascending the Fly River we met with great clouds of the large white
+Mayfly, <i>Palingenia papuana</i>, flying along over the surface of
+the water just as described by D’Albertis in his work on New Guinea;
+specimens I collected are now in the Australian Museum.</p>
+
+<p>The commonest species about Sydney is <i>Atalophlebia australasica</i>,
+a small chocolate brown insect marked with black; the wings are
+vitreous with black markings on the veins, the front margin tinged with
+umber brown on the cross veins.<span class="pagenum" id="Page_55">[55]</span> It was described by Pictet in his
+“Natural History Neuroptera” (1843–45): Walker has described another
+from Tasmania: Eaton three more from different parts of the mainland:
+and Burmeister one in his “Handbook of Entomology” as far back as
+1839. The members of this genus have a wide range from South America
+through Africa, Japan, and Ceylon. A single species of the Genus
+<i>Coloburiscus</i> has been described from Melbourne.</p>
+
+<p>The chief work on these insects is Eaton’s “Revisional Monograph of
+Recent Ephemeridae or May-flies,” Parts I.-V. (Transactions of the
+Linnean Society 1883–87;) in this work he subdivides them into three
+groups containing 55 genera and 270 species.</p>
+
+<hr class="r25">
+
+<h4>Family 4. Alder Flies and Snake Flies.<br>
+<span class="subhed">SIALIDAE:</span></h4>
+
+<p>This small division contains two groups that Westwood treated as two
+distinct families, the <i>Sialidae</i> and the <i>Raphidae</i>; but
+Sharp points out, that in general structure and habits they are very
+closely related to each other,—the latter chiefly differing from the
+former in the remarkable elongation of the prothorax, and he thus only
+ranks them as sub-families.</p>
+
+<p>The Alder Flies have two pairs of broad wings, wide at the base, the
+hind pair slightly smaller and capable of being folded behind; they
+are all traversed by numerous veins forming irregular cells. They
+are slow in their movements, and are to be found clinging to bushes
+in the vicinity of water. Our commonest species is the <i>Chauliodes
+guttatus</i>, described by Walker; it is a large, dull brown insect
+with an elongated thorax and body; the head is furnished with long,
+slender, annulated antennae, large prominent eyes on the sides, and
+three ocelli on the summit. The wings are semiopaque, the fore pair
+finely spotted with black, thickest on the front margin; the broader
+hind pair are only lightly spotted at the extreme tip, with from 4 to 5
+larger rounded spots about the centre. It measures over 3 inches across
+the outspread wings, and 1¼ inches from the head to the tip of the
+abdomen; it has a wide range from Victoria to Queensland.</p>
+
+<p>The larvae are remarkable for having fringed filaments on the sides
+of the abdomen; they crawl about in the mud or among the weeds in
+water-holes, and are carnivorous, feeding upon other aquatic insects;
+when ready to transform, the<span class="pagenum" id="Page_56">[56]</span> pupae come out of the water and crawl
+under stones, or sometimes under the loose bark on tree trunks.</p>
+
+<p>The Snake Flies are curious looking creatures with elongated necks, and
+the female is provided with a very curious, long, curved ovipositor.
+They are found under bark on tree trunks, both in the perfect and
+larval state; they are unknown in Australia, but Howard states that an
+attempt was made some years ago to send living <i>Raphidians</i> from
+California to destroy codlin moth grubs, but that nothing has been
+heard of them since.</p>
+
+<hr class="r25">
+
+<h4>Family 5. Scorpion Flies.<br>
+<span class="subhed">PANORPIDAE.</span></h4>
+
+<p>These insects have the head turned down in front with the mouth parts
+forming an elongate beak; large projecting eyes; and slender antennae.
+The prothorax forms a slender neck to the larger mesothorax; the
+wings are narrow and somewhat oar-shaped, traversed with a network of
+veins; the legs are long and slender, except the hind pair, which are
+thickened on the thighs and stoutly spined; the tarsi are large and
+coated with a sticky membrane, which assists it in catching flies.</p>
+
+<p>At first sight many of them might be taken for crane-flies of somewhat
+clumsy build; in the European <i>Panorpa</i> the males are furnished
+with a peculiar anal appendage from which they take the popular name
+of Scorpion Flies. Members of the Genus <i>Boreus</i> are wingless and
+resemble tiny grasshoppers; in America they are often found on snow.
+The family is represented in Australia by <i>Bittacus australis</i>,
+which has a wide range from Tasmania to Queensland, and is very
+abundant in the early summer, hanging about the leptospermum and
+ti-tree bushes. It rests among the foliage, with the large hind legs
+hanging loosely down below but ready to strike out the moment an
+incautious fly comes within range. The long flexible tarsi fold round
+the captive with the stout spines transfixing it, while the Bitticus
+draws its leg round under the head so that it can press its sharp beak
+into the victim and suck up its blood. Its general colour is reddish
+brown marked with black; the wings are clouded, narrow, rounded at
+the tips, and reticulated with fine nervures. Nothing is known about
+the earlier stages in the life-history of this insect, but specimens
+in captivity laid a number of flattened bun-shaped eggs which did not
+hatch out.</p>
+
+<p class="p2 smaller center">Plate IX.—NEUROPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Hemerobiidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>1. <i>Nymphes myrmeleonides</i> (Leach).</li>
+  <li>7. <i>Porismus strigatus</i> (Burm.).</li>
+</ul>
+</div>
+
+<p class="center smaller">Family <span class="smcap">Myrmeleonidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>2. <i>Glenurus erythrocephalus</i> (Leach).</li>
+  <li>4. <i>Glenurus falsus</i> (Walker).</li>
+  <li>5. <i>Glenurus circuiter</i> (Walker).</li>
+  <li>6. <i>Glenurus pulchellus</i> (Kirby).</li>
+</ul>
+</div>
+
+<p class="center smaller">Family <span class="smcap">Mantispidae</span>.</p>
+
+<p class="center smaller">3. <i>Mantispa strigodes</i> (Westwood).</p>
+
+<p class="center smaller">(Original photo. Burton.)</p>
+
+  <div class="figcenter" id="plate9">
+     <p class="p1 sm center"><i>Plate IX.—NEUROPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate9.jpg"
+    alt="">
+  </div>
+
+<p><span class="pagenum" id="Page_57">[57]</span></p>
+
+<hr class="r25">
+
+<h4>Family 6. Ant-lions and Lace-wings.<br>
+<span class="subhed">HEMEROBIIDAE.</span></h4>
+
+<p>This interesting division of the Neuroptera comprises a number of
+smaller groups, ranked by some entomologists as families, but now
+generally regarded as sub-families. Westwood divided them into two
+families, the first containing the true ant-lions; both Kirby and Sharp
+treat them as one, but the latter places them in seven well defined
+sub-families.</p>
+
+<p>They come naturally together from the fact that all the larvae are
+provided with large, curved, hollow, sucking jaws, and are carnivorous
+in their habits, while the perfect insects have simple biting jaws.
+They all have, in the perfect state, long slender bodies, provided with
+two pairs of finely reticulated wings, folded over each other when at
+rest; the head is short, with large projecting eyes; ocelli generally
+wanting; and the antennae are composed of many short annular joints.</p>
+
+<p>The <span class="smcap">Myrmeleonides</span> are the true ant-lions, whose larvae in many
+species construct funnel shaped pits in soft sandy soil an inch or
+two in depth, at the bottom of which, buried in the loose soil, with
+only the tip of their large jaws visible, they lie in wait for any
+ant or other small insect that may happen to slip over the edge and
+tumble to the bottom, where it is immediately seized in the ant-lion’s
+powerful jaws and devoured; when however, as often happens, the trapped
+visitor manages to regain its footing and nearly succeeds in clambering
+out, the ant-lion presses its head downward like a spade and throws
+a quantity of sand right at its prey, generally bringing its quarry
+within reach again. It generally excavates its pit under the shelter
+of a log or rock so that it is protected from the rain, and when full
+grown pupates at the bottom of its shaft. The larva is a short thickset
+little brown creature covered with tufts of short stout bristles; the
+head is broad and rounded behind, attached to the heart-shaped body by
+a neck-like thorax. They are easily captured by slipping a knife blade
+under them and throwing them out when they are intent on catching a
+struggling ant. In captivity they are easily kept in a saucer full of
+sand, and have the power of going for weeks without food; when placed
+on a smooth surface they always arch their heads and crawl backwards.</p>
+
+<p>Most of our described species belong to the Genus <i>Glenurus</i>, all
+slender elongated insects resting with their long narrow wings folded
+over their backs against a twig or grass stem, and when disturbed
+flitting away in a very awkward manner; they are very easily captured.</p>
+
+<p><span class="pagenum" id="Page_58">[58]</span></p>
+
+<p><i>Glenurus pulchellus</i> is the commonest species about the coast,
+with a wing expanse of about 2½ inches; its general colour is chocolate
+brown, mottled and marbled with lighter tints; the fore wings are
+speckled with black; the apical portion of the hind pair deeply
+blotched with chestnut brown, encircling a white patch, with a second
+smaller one nearer the extremity. <i>Glenurus falsus</i> is a shade
+smaller; the fore wings darker; and a single dark patch on the hind
+wings. <i>Glenurus striola</i> is a slightly larger species with
+semitransparent wings, marked on the posterior margin of the hind pair
+with a narrow light brown stripe. I found this species very plentiful
+in some swampy flats near Brisbane, Q., in October, where they were
+resting on the rushes. <i>Glenurus fundatus</i> is our largest species,
+often measuring up to 4 inches across the wings, and is of a general
+uniform mottled grey tint spotted with brown; it is common along
+the coast in North Queensland. <i>Glenurus circuiter</i> is easily
+recognised from all the others by the shape of the fore wings, which
+are broadened to the tips, cut out behind at the extremities, and
+both pairs are irregularly blotched and spotted dark brown, giving
+it a very handsome appearance. <i>Glenurus erythrocephalus</i> has
+semitransparent wings, elongate and rounded at the tips, the fore
+pair thickly covered with spots and blotches of dark brown, the hind
+pair usually only marked with three spots, but the spotting is very
+irregular and variable. It comes from the more northern parts of N.S.
+Wales and Queensland.</p>
+
+<hr class="tb">
+
+<p>The <span class="smcap">Ascalaphides</span> are all moderate-sized, clear-winged insects
+with a stigma toward the tip, and curious long slender antennae clubbed
+at the tips; they might be likened to dragon-flies with butterflies’
+heads. <i>Suphalasca sabulosa</i> measures about 2½ inches across the
+wings; the head and thorax are fringed with fine hairs, the stigma
+on the wings black. It is generally found on bush land clinging to a
+grass stalk or twig, with the wings folded down, and the slender body
+sticking out at right angles. I have found the larvae living under the
+dry bark attached to dead tree trunks, their short hairy bodies covered
+with tufts of stout bristles, their large jaws pointing upward; and
+from their situation they probably capture the large sugar ants. In
+captivity they would remain for days resting against the side of the
+box without any movement, and lived for several months without taking
+any food, and finally formed a round cocoon.</p>
+
+<p>The female places her eggs in a double row along the edge of a blade of
+grass, and the young ones, when they hatch out, sit in the bottom of
+the eggshell, all head and jaws, waiting for something to turn up, and
+must often undergo long fasts.</p>
+
+<p><span class="pagenum" id="Page_59">[59]</span></p>
+
+<p><i>Stibopteryx costalis</i> is a stout bodied insect with a wing
+expanse of 3 inches, a large, dragon-fly-like head, and narrow rounded
+wings banded with parallel bands of chocolate brown. It ranges from
+Sydney right round Australia.</p>
+
+<p>The <span class="smcap">Nemopterides</span> are a very curious group of lace-wings, which
+have the hind pair of wings produced into slender or clubbed appendages
+of most peculiar form. Kirby (Annals and Magazine of Natural History
+1900) has listed all the known species from all parts of the world, 33
+species in 7 genera.</p>
+
+<p><i>Chasmoptera hutti</i>, described by Westwood from Western Australia,
+has a wing expanse of 1½ inches, and the hind pair are produced into a
+spoon-shaped tail. <i>Croce attenuata</i> is a smaller, dull coloured,
+brown insect, with the fore wings like those of a mayfly, and the hind
+pair forming a pair of antennae-like processes longer than the body.
+It was taken by my correspondent, Mrs. Black, round a lamp, and comes
+from North Queensland. It is described by me in the Proceedings of the
+Linnean Society 1904.</p>
+
+<p>The <span class="smcap">Mantispides</span> are lace-wings that in general form, imitate
+the orthopterous mantis; with the same elongate neck, spined fore legs
+and broad head, but the structure of the wings soon shows its affinity
+to the lace-wings. We have some very fine species in Australia, which
+are usually found hiding among the foliage of trees, and are generally
+captured when beating the bush for beetles. Nothing is known about the
+earlier stages of any of our species, but Brauer studied the larval and
+pupal forms of the European <i>Mantispa</i>, and found that the eggs
+were stalked; the larvae are long slender creatures with large jaws.
+Westwood has figured and described a number of our species (Trans. Ent.
+Soc. 1852).</p>
+
+<p><i>Mantispa biseriata</i>, one of our largest species, measures up
+to 2½ inches across the outspread wings. Its general colour is dull
+reddish brown; the wings are mottled with very fine black dots, and
+the stigma on the fore wing forms a dull red blotch. It has a wide
+range from Victoria to North Queensland. <i>Mantispa strigipes</i> is
+a smaller darker species, with no distinct stigma but a stripe of dull
+red along the front margin of both pairs of wings, thickest toward the
+extremities. It ranges over Victoria and N.S. Wales.</p>
+
+<p>The <span class="smcap">Hemerobiides</span> are well represented in Australia by some
+very beautiful insects, which when at rest are recognised by the way in
+which their wings are folded against each other, forming a ridge above
+the back; the antennae, generally long, consist of a number of short
+annular joints. The eggs are laid upon the food plant; the larvae feed
+upon small insects.</p>
+
+<p><span class="pagenum" id="Page_60">[60]</span></p>
+
+  <div class="figcenter" id="fig32" style="max-width: 322px">
+     <img
+    class="p1"
+    src="images/fig32.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 32.</b>—<i>Croce attenuata</i> (Froggatt). The
+Thread-winged Nemopteron.</p>
+     <p class="p0 smaller center">(Pro. Linn. Soc. N.S.W.)</p>
+     </div>
+
+<p><span class="pagenum" id="Page_61">[61]</span></p>
+
+<p><i>Nymphes myrmeleonides</i>, described and figured by Leach in 1814,
+has a somewhat robust body, long slender antennae and narrow head; the
+wings, which have an expanse of 3 inches, are large, of equal size, and
+semitransparent, except the tips, which are ornamented with an elongate
+brownish blotch enclosing an irregular white spot in the centre. It is
+a very ungainly insect when flying, with its large oar-shaped shining
+wings; it has a very wide range along the eastern coast. The larvae
+live under the shelter of logs hiding among the dust and dirt with only
+their jaws projecting; specimens obtained near Armidale, N.S.W., lived
+for some time in captivity, forming the usual spherical parchment-like
+pupal case, from which the insect emerged about a month later.</p>
+
+  <div class="figcenter" id="fig33" style="max-width: 423px">
+     <img
+    class="p1"
+    src="images/fig33.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 33.</b>—<i>Psychopsis illidgi</i> (Froggatt). The
+Painted Lace-wing.</p>
+     <p class="p0 smaller center">(Pro. Linn. Soc. N.S.W.)</p>
+     </div>
+
+  <div class="figcenter" id="fig34" style="max-width: 413px">
+     <img
+    class="p1"
+    src="images/fig34.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 34.</b>—<i>Psychopsis coelevagus</i> (Walker). The
+small Metallic Lace-wing.</p>
+     <p class="p0 smaller center">(Pro. Linn. Soc. N.S.W.)</p>
+     </div>
+
+<p>The Genus <i>Psychopsis</i> was formed by Newman in 1840 (Newman’s
+Entomologist p. 415) to contain the curious creamy white moth-like
+insect <i>Psychopsis mimica</i>. It has broad rounded wings covered
+with fine hairy veins shading from buff to grey or creamy white,
+spotted with red on the base of the fore wings and a dull brown spot
+on the centre of the hind pair; the head is turned down in front when
+resting. It measures about 1½ inches across the outspread wings and
+is found from South Australia to Queensland. I figured and described
+all our known species (Notes on the Genus Psychopsis Newman, with
+descriptions of new species)<span class="pagenum" id="Page_62">[62]</span> in the Proceedings of the Linnean
+Society N.S.W. 1903, where I added two new species. <i>Psychopsis
+coelivagus</i> is our smallest species, measuring 1 inch across the
+outspread wings, which are creamy white thickly mottled with a central
+band of metallic coppery brown; it comes from S. Queensland.</p>
+
+<p><i>Psychopsis illidgi</i> is one of the most remarkable looking of all
+our Neuroptera, with its large rounded buff fore wings with confluent
+ochreous yellow markings crossing them, and the usual dull spot in
+the centre of the smaller hind wings. It measures about 2¾ inches
+across the wings, and is a rare insect. Illidge has taken several
+specimens that came flying in to the light at night on the top of Mount
+Tambourina in South Queensland.</p>
+
+  <div class="figcenter" id="fig35" style="max-width: 200px">
+     <img
+    class="p1"
+    src="images/fig35.jpg"
+     alt="">
+     <p class="p0 smaller hangingindent"><b>Fig. 35.</b>—Larva of <i>Psychopsis mimica</i> (Newman).
+Bred from the egg (much enlarged).</p>
+     <p class="p0 smaller center">(Original W.W.F.)</p>
+     </div>
+
+<p><i>Psychopsis insolens</i> and <i>P. meyricki</i> are both dull
+coloured smaller insects, the first found about Sydney and Brisbane,
+the latter on the top of Mount Kosciusko, resting on the rocks.</p>
+
+<p>The eggs are not stalked but are attached to the food plant; the young
+elongated larva, furnished with stout projecting jaws, crawls upon the
+foliage and feeds upon aphids.<span class="pagenum" id="Page_63">[63]</span> This Genus was considered peculiar to
+Australia, until in the last few years two species have been described
+from Africa and a third from Burmah.</p>
+
+<p>The curious black mottled lace-wing, <i>Porismus strigatus</i>, has a
+narrow red head furnished with long slender antennae and large rounded
+eyes; the front portion of the thorax forms a regular neck. The narrow
+elongate black wings, blotched and tipped with pale yellow shading into
+white, are folded over the back forming a ridge when at rest on a tree
+trunk. They are sometimes met with about Sydney, and are common in New
+England toward the end of summer. I found larvae and eggs under logs in
+that district which I believe to be those of this insect; the former
+were stalked and deposited in a narrow semicircle attached to each
+other; the larvae, of the usual tick-shaped form, covered themselves
+over with bits of burnt ashes, and clung to the surface of the log,
+where they easily escaped notice with their protective covering.</p>
+
+  <div class="figcenter" id="fig36" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig36.jpg"
+     alt="">
+     <p class="p0 smaller hangingindent"><b>Fig. 36.</b>—Larva of <i>Porismus strigatus</i> (Bohem). The
+adult Lace-wing is shown in Plate VI., Fig. 7.</p>
+     <p class="p0 smaller center">(Original W.W.F.)</p>
+     </div>
+
+<p>The Genus <i>Osmylus</i> contains a number of slender insects with
+longer, semitransparent, spotted, brown wings, and fine antennae
+clothed with short hairs. The larvae, active little<span class="pagenum" id="Page_64">[64]</span> creatures, feed
+about among the leaves destroying aphids. <i>Osmylus tenui</i> measures
+about 1¼ inches across the outspread wings, is of the usual dull brown
+tint, and is found in Victoria.</p>
+
+<p>In the Genus <i>Drepanopteryx</i> the fore wings are short, broad,
+rounded in front at the shoulders, and arcuate on the hind margin; the
+hind pair are rounded, semitransparent, with a darker costal margin;
+when resting upon a twig they tuck the head down under the thorax, and
+turn the wings upward, almost standing on their heads; they could be
+easily passed over from their resemblance to a brown leaf.</p>
+
+<p><i>Drepanopteryx binocula</i> and <i>D. instabilis</i> are found in
+N.S. Wales and Victoria; the first has dark fore wings and measures
+about ¾ of an inch; the second is somewhat smaller and lighter coloured.</p>
+
+  <div class="figcenter" id="fig37">
+    <img
+    class="p0"
+    src="images/fig37.jpg"
+    alt="">
+  </div>
+
+
+  <div class="figcenter" id="fig38" style="max-width: 532px">
+     <img
+    class="p1"
+    src="images/fig38.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Figs. 37 and 38.</b>—Life History of the Brown Lace-wing.</p>
+     <p class="p0 smaller center">37.—<i>Micromus Australis</i> (Froggatt).</p>
+     <p class="p0 smaller center">38.—Larva.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>The <span class="smcap">Chrysophides</span> comprise the lace wings known as “Ruby Eyes”
+from their rich metallic tint, or “Aphis Lions” on account of the
+voracious habits of their larvae. They hide among the foliage in the
+day time, and in summer often come buzzing round the lamp, several
+species giving out a most objectionable smell when handled. They are
+generally slender-bodied green or yellow insects with large delicate
+glassy wings, folded over the back. They attach their eggs to the
+foliage on long slender stalks, probably a<span class="pagenum" id="Page_65">[65]</span> means of protection against
+other larvae that might otherwise find and devour them. The larvae are
+active little creatures with large heads furnished with scythe-shaped
+jaws; their rounded backs are covered with short stiff hairs, by means
+of which they hold bits of dirt, sand, or wood, with which they cover
+themselves when feeding upon the aphids or scale. If when in captivity
+these bits are brushed off they run round and replace them bit by bit;
+pushing the bits into the jaws with their fore legs, then turning their
+heads backward, they drop each bit upon their backs, repeating the
+operation until they are again completely covered. When full-grown they
+spin a white hemispherical cocoon composed of fine white threads and
+the longer hairs of the body, from which in summer the perfect insects
+will emerge in a fortnight.</p>
+
+  <div class="figcenter" id="fig39" style="max-width: 554px">
+     <img
+    class="p1"
+    src="images/fig39.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 39.</b>—<i>Chrysopa ramburi</i> (Schiner). The
+Green Golden Eye.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+  <div class="figcenter" id="fig40" style="max-width: 554px">
+     <img
+    class="p1"
+    src="images/fig40.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 40.</b>—Life history of <i>Chrysopa ramburi</i>
+(Schiner).</p>
+     <p class="p0 smaller hangingindent">Larva; stalked egg; and pupa enclosed in hemispherical cocoon
+covered with the remains of the aphis upon which it has fed
+during the larval stage.</p>
+     </div>
+
+<p>The Green Lace Wing, <i>Chrysopa ramburi</i>, is our common orchard
+friend; and where plentiful they soon clean the trees of aphid and
+scale insects. Its general colour is bright<span class="pagenum" id="Page_66">[66]</span> green fading into yellow
+after death; the large golden eyes are so bright that they can be seen
+through the cocoon some time before it emerges. The Brown Lace Wing,
+<i>Micromus australis</i>, is common among dead bushes, and also in
+summer in orange orchards; it is much smaller than the last, only
+slightly over ¼ of an inch across the expanded wings; is of a general
+light brown colour mottled all over the wings with darker tints. The
+broad head is furnished with large bronzy eyes, and slender hairy
+antennae composed of 44 very short annular joints. Both the slender,
+brown, ferret-like larvae and the perfect insects are very active
+little creatures, always on the move. This species was described by me
+in the Agricultural Gazette N.S. Wales, 1904.</p>
+
+<hr class="r25">
+
+<h4>Family 7. Caddis Flies.<br>
+<span class="subhed">TRICHOPTERA.</span></h4>
+
+<p>The larval forms of these interesting little creatures are common in
+our creeks and water-holes, encased in their cocoons or sacks formed
+of silken strands covered with bits of sticks, leaves, sand or small
+stones; they may be often noticed floating on the surface or crawling
+about under the water among the weeds and mud. These are protective
+coverings, for though the head and front of the thorax, that are
+projected in front when the larva is moving along, are hard and
+leathery, the abdominal segments are covered with a thin integument,
+and would soon fall a prey to the many carnivorous water insects in the
+ponds if it were not for their case-bearing habits. These cases, unlike
+those of the terrestrial case moths, are open at both ends, so that the
+water can flow right through when the creature is crawling about.</p>
+
+<p>They are known in England as “water moths,” or “caddis-flies,” and
+are much sought for by anglers as bait for fly-fishing. The perfect
+insects have two pairs of membranous wings with fewer cross veins
+than other members of the Neuroptera; the hind pair are broadest and
+folded when at rest; most of them are clothed with fine hairs instead
+of scales. The head is small, with very long, slender, thread-like
+antennae composed of many short indistinct joints, and the biting
+mouth is rudimentary; the prothorax is short, with an elongate body
+rounded at the extremity; and the legs are well developed, and more
+or less provided with spines. The female deposits her eggs, enveloped
+in a gelatinous mass, in the water, often carrying them about with
+her attached<span class="pagenum" id="Page_67">[67]</span> to the tip of the abdomen for some time before they are
+dropped.</p>
+
+<p>Some of the smaller species are so wonderfully like small tinead moths,
+that it takes an experienced eye, aided with a good lens, to pick them
+out of a box when mixed up with small microlepidoptera; and from their
+delicate form and small size most of my specimens have not been taken
+as caddis-flies, but obtained from the leavings of insect boxes of moth
+collectors.</p>
+
+<p>Between the years 1874–80 McLachlan published his fine “Monograph of
+the European Trichoptera,” illustrated with a great number of very fine
+drawings; over 500 species are identified and described in this work.
+According to Howard, about 150 species have been described from North
+America.</p>
+
+<p>McLachlan treats them as an Order in his work, dividing them into a
+number of families, chiefly based upon the number of spines on the
+legs, the joints of the palpi, and the ocelli.</p>
+
+<p>Judging from my own collection of caddis-flies I should think that
+Australia is rich in species, but they are a much neglected family
+and I do not know of a single named specimen in any of our Museum
+collections.</p>
+
+<p>In the British Museum Catalogue of Neuroptera published in 1852, Walker
+gives only four species from Tasmania and Australia: <i>Leptocerus
+magnus</i> and <i>L. oppositus</i>, which he describes from Tasmania,
+and <i>Plectrotarsus gravenhorsti</i>, described by Koller from
+Australia; the latter measures nearly an inch across the wings, and
+⅓ of an inch in the body, and is of a general yellow tint, thickly
+clothed with yellow and black hairs; the fore wings are bluish black
+marked with white, yellow at the base and along the fore border; the
+hind wings are yellow but blackish toward the tips.</p>
+
+<p><i>Monopseudopsis inscriptus</i>, described by Walker, is a larger fly,
+of a general black colour, with pale wings spotted with yellow, the
+hind pair clouded. The locality of this species is given as Australia.</p>
+<hr class="chap x-ebookmaker-drop">
+
+<div class="chapter">
+<p><span class="pagenum" id="Page_68">[68]</span></p>
+
+<h2>Order IV.—HYMENOPTERA.<br>
+<span class="subhed">Bees, Ants and Wasps.</span></h2></div>
+
+
+<p>This division contains an immense number of very interesting insects
+which, though generally known as bees, ants, and wasps, comprise many
+other just as important families; some are unfortunately popularly
+called flies, such as saw-flies, gall-flies, and ichneumon-flies, but
+all true flies have only one pair of wings. Hymenoptera are, with a
+few exceptions, furnished with two pairs of semitransparent membranous
+wings, sometimes shaded with black or yellow tints, devoid of hairs or
+scales, but traversed by stout nervures forming irregular cells; the
+hind pair are the smaller, and are furnished with a row of spines along
+the front margin capable of hooking into the hind edge of the fore
+pair, thus adding to their powers of flight.</p>
+
+  <div class="figcenter" id="fig41" style="max-width: 260px">
+     <img
+    class="p1"
+    src="images/fig41.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 41.</b>—Diagram of the Head of a Wasp.</p>
+     <p class="p0 smaller hangingindent"><i>a</i>, eyes; <i>b</i>, clypeus; <i>c</i>, labrum; <i>d</i>,
+mandibles; <i>e</i>, ocelli; <i>f</i>, insertion of the antennae.</p>
+     <p class="p0 smaller center">(Redrawn from Cresson’s “Hymenoptera of North America.”)</p>
+     </div>
+
+  <div class="figcenter" id="fig42" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig42.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 42.</b>—Diagram of the Thorax of a Wasp.</p>
+     <p class="p0 smaller hangingindent"><i>a</i>, prothorax; <i>b</i>, mesothorax; <i>c</i>, scutellum;
+<i>d</i>, postscutellum; <i>e</i>, metathorax; <i>f</i>,
+tegulae; <i>g</i>, parapsidal grooves.</p>
+     <p class="p0 smaller center">(Cresson’s “Hymenoptera of N. America.”)</p>
+     </div>
+
+<p>In a few anomalous groups we find the females wingless, such as
+<i>Thynnidae</i>, <i>Mutillidae</i> and others; in some like the fig
+insects <i>Blastophaginae</i>, the males are wingless and blind; in the
+ants, while the males and females are winged, the bulk of the community
+consists of wingless workers forming a third sex or caste.</p>
+
+<p><span class="pagenum" id="Page_69">[69]</span></p>
+
+  <div class="figcenter" id="fig43" style="max-width: 519px">
+     <img
+    class="p1"
+    src="images/fig43.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 43.</b>—Diagram of Fore-wing of a Bee
+(<i>Mellinus</i>).</p>
+     <p class="p0 smaller hangingindent">1, Costal cell; 2, median or externo-medial cell; 3, sub-median
+cell; 4, anal cell; 5, marginal or radial cell; 6, first
+sub-marginal or cubital cell; 7, second s.-m. or cubital cell;
+8, third s.-m. or cubital cell; 9, fourth s.-m. or cubital cell;
+10, first discoidal cell; 11, second d. cell; 12, third d. cell;
+13, first apical cell; 14, second a. cell. <i>a</i>, Costal
+nervure; <i>b</i>, sub-costal nervure; <i>c</i>, externo-medial
+nervure; <i>d</i>, anal nervure; <i>e</i>, marginal or
+radial nervure; <i>f</i>, basal nervure; <i>g</i>, first
+transverso-cubital nervure; <i>h</i>, second t.-c. nervure;
+<i>i</i>, third t.-c. nervure; <i>j</i>, transverso-medial
+nervure; <i>k</i>, discoidal nervure; <i>l</i>, cubital nervure;
+<i>m</i>, first recurrent nervure; <i>n</i>, second r. nervure;
+<i>o</i>, sub-discoidal nervure; <i>p</i>, stigma; <i>q</i>,
+posterior margin; <i>r</i>, apical margin.</p>
+     <p class="p0 smaller center">(Cresson, “Hym. N. America.”)</p>
+     </div>
+
+<p>These insects are furnished with well developed antennae; large
+compound eyes, in some groups composed of an immense number of facets;
+usually 3 simple eyes or ocelli, but these are sometimes wanting; a
+more or less tubular mouth adapted for sucking up food (commonly called
+the proboscis), though mandibles are always present. The thorax is
+stout and broad; the three primary portions, prothorax, mesothorax and
+metathorax, are distinct on the upper surface with well defined lateral
+or ventral plates. The legs are generally large, with spined tibiae,
+and slender tarsi terminating in a double claw or hook, but varying
+much in size and shape in the different families. The abdomen takes
+all kinds of remarkable forms, from the thickened sessile body of the
+sawfly to the slender stalked abdomen of the sand-wasp, and the female
+is furnished with an ovipositor, sting, or saw at the extremity.</p>
+
+<p>The Hymenoptera are considered by naturalists to be one of the most
+highly developed or specialised orders of insects, on account of the
+social habits of some of the chief families, and the care they display
+in providing for the safety and food supplies of their larvae.</p>
+
+<p>They undergo a complete metamorphosis: from the egg is hatched out a
+soft, generally legless larva which when full grown, if in a protected
+cell, is simply enveloped in a thin skin, but otherwise forms a stout
+silken or parchment-like cocoon; the larva usually takes a considerable
+time to change into the pupa; the change is not rapid as that of a
+butterfly.</p>
+
+<p><span class="pagenum" id="Page_70">[70]</span></p>
+
+<p>Australia is very rich in hymenoptera; most of the typical families are
+well represented, and we also have a few very distinct groups peculiar
+to this country.</p>
+
+<p>There have been many schemes of classification and sub-divisions of
+these insects proposed by various authors, and the present idea among
+specialists seems to tend to a still closer definition of the families,
+as exemplified in Ashmead’s recent Classification running through the
+pages of the Canadian Entomologist; but in a book of this kind, I can
+only deal with the most important divisions and refer my readers to the
+work of such specialists.</p>
+
+<p>Westwood divided the first section, <i>Terebranti</i>, in which the
+females are provided with a more or less projecting instrument for
+depositing their eggs, into two sub-sections, <i>Phytiphaga</i>, in
+which the abdomen is sessile, and <i>Entomophaga</i>, in which the body
+is stalked. Some of the French entomologists had previously suggested
+dividing them up into five large families defined by the peculiarities
+of the ovipositor or borer. Kirby used the same terms as Westwood, but
+I have followed Sharp, who uses the names <i>Sessiliventres</i> instead
+of the first, and <i>Petioliventres</i> for the second, for they
+certainly express more clearly the form of the body of the groups under
+observation. The first group contains four families.</p>
+
+<hr class="r25">
+
+<h4>Family 1. Stem-Sawflies.<br>
+<span class="subhed">CEPHIDAE.</span></h4>
+
+<p>The first group comprises what Sharp terms “Stem-Sawflies,” which are
+not represented in Australia. They are slender little insects with
+long antennae; the larvae feed in the stems of plants; one damages
+wheat stems in Europe, another infests willows in America, a third is
+recorded from Japan; but they are unknown in Australia.</p>
+
+<p class="p2 smaller center">Plate X.—HYMENOPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Tenthredinidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>1. <i>Phylacteophaga eucalypti</i> (Froggatt).</li>
+  <li>2. <i>Phylacteophaga eucalypti</i> (Froggatt), Larva.</li>
+  <li>3. <i>Perga dorsalis</i> (Leach).</li>
+  <li>4. <i>Perga dorsalis</i> (Leach), Larva.</li>
+  <li>5. <i>Perga lewisii</i> (Westwood).</li>
+</ul>
+</div>
+
+  <div class="figcenter" id="plate10">
+     <p class="p1 sm center"><i>Plate X.—HYMENOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate10.jpg"
+    alt="">
+  </div>
+
+<hr class="r25">
+
+<h4>Family 2.<br>
+<span class="subhed">ORYSSIDAE.</span></h4>
+
+<p>This family consists of the single Genus <i>Oryssus</i>, of which only
+20 species are known. They are remarkable for the curious situation
+of the antennae on the under-surface of the head, the cylindrical
+rounded abdomen, and the exposed <span class="pagenum" id="Page_71">[71]</span>needle-like ovipositor. Turner
+has described one from Mackay, Queensland, in the Proceedings of the
+Linnean Society N.S.W. under the name of <i>Oryssus queenslandicus</i>.
+It is a small black insect measuring ½ an inch in length; with mottled
+brown wings, and typical shape of the genus.</p>
+
+<hr class="r25">
+
+<h4>Family 3.<br>
+<span class="subhed">SIRICIDAE.</span></h4>
+
+<p>These handsome Sawflies are common in Europe and America, the larvae
+living in timber; the members of the typical Genus <i>Sirex</i>
+have long cylindrical bodies rounded to the apex; the borer of the
+female extends beyond the tip of the abdomen. One species, <i>Sirex
+australis</i>, has been described from Australia by Kirby (List of
+Hymenoptera 1882). I have never heard of another specimen being found,
+and believe the type is unique.</p>
+
+<hr class="r25">
+
+<h4>Family 4. Sawflies.<br>
+<span class="subhed">TENTHREDINIDAE.</span></h4>
+
+<p>These are the typical stoutly built Sawflies, with the pronotum narrow,
+and the thorax generally broader than the head; the abdomen sessile,
+and provided in the female with a beautiful saw-like instrument
+on the under-surface of the tip of the abdomen, with which she
+slits the leaves to deposit her eggs in the tissue. The larvae are
+caterpillar-like creatures usually furnished with three pairs of legs;
+they feed upon the foliage of many plants.</p>
+
+<p>Our species all belong to genera peculiar to Australia: Klug described
+several in the Berlin Magazin in 1814; Leach figured and described
+others in his “Zoological Miscellanies 1817”; Westwood described and
+figured a number in an important paper in the Proceedings of the
+Zoological Society 1880, others in his “Arcana Entomologica 1841”; and
+Kirby added to them in his List of Hymenoptera, B.M. Catalogue 1882.</p>
+
+<p>The Genus <i>Perga</i> contains about 50 of our largest Sawflies, broad
+thickset insects, with reddish or light brown opaque wings, and short
+antennae forming an elongate club at the<span class="pagenum" id="Page_72">[72]</span> extremity. The larva is black
+or brown clothed with short scattered shining bristles, black head,
+three pairs of short stout legs, broad thorax, and abdomen tapering to
+a rounded tip. They feed gregariously upon the foliage of eucalypts,
+often stripping off all the leaves of the young bushes; they rest
+in the day time clustered together in a bunch of 50 or more round a
+branch, holding on with the legs; when disturbed they raise and rap the
+tip of the abdomen against the leaves, at the same time discharging
+a sticky yellow fluid from the mouth smelling strongly of eucalyptus
+extract. They are very subject to the attacks of dipterous and
+hymenopterous parasites, which these means of defence may keep away.
+When full grown they bury themselves in the soil, and form elongate,
+oval, parchment-like cocoons clustered together.</p>
+
+<p>The Steel Blue Sawfly, <i>Perga dorsalis</i>, is slightly over 1 inch
+in length; is of a deep metallic blue, marked on face and thorax with
+bright yellow, and has stout reddish brown wings; the smaller male
+has the upper surface of the abdominal segments clothed with silvery
+pubescence. <i>Perga kirbyi</i> is dark reddish brown, similar in form
+and size to the last species; <i>Perga lewisii</i>, a much smaller
+yellowish brown insect, flattened on the dorsal surface, is common
+about Sydney upon the foliage of the “blood-wood” (<i>Eucalyptus
+corymbosa</i>), where she lays her eggs in the leaf in a double row,
+and stands over them until the tiny larvae hatch out and are able to
+move away; while thus occupied you can pick her up, but she will not
+move away, but raise her wings and fight like a hen over her chickens.
+Though this is our commonest species, and I have taken hundreds of
+females, I have never seen a male. <i>Perga cameronii</i> is like the
+last species, but larger, with more distinct markings on the back; it
+is found on the Blue Mountains.</p>
+
+<p>In the Genus <i>Pterygophorus</i> about 10 species are described; they
+are much smaller insects, with bright metallic blue colours marked
+with reddish yellow; the male has the antennae produced into a comb or
+feathery structure, those of the female are formed of short rounded
+joints. The larva is a dull olive green creature covered with small
+warty tubercules; the head is broad, and the abdomen tapers off into a
+slender pointed tail; it has seven pairs of abdominal legs. It feeds
+upon the foliage of <i>Leptospermum</i>, wild dock and other plants,
+and when full grown bores into dead wood, pupating in a rounded oval
+cell.</p>
+
+<p>The Ringed Sawfly, <i>Pterygophorus cinctus</i>, ½ an inch in length,
+is dark blue marked with deep reddish orange on the thorax, with a ring
+round the centre and tip of the abdomen of a similar colour; the wings
+are marked and clouded with black.</p>
+
+<p class="p2 smaller center">Plate XI.—HYMENOPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Tenthredinidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>1. <i>Pterygophorus cinctus</i> (Klug).</li>
+  <li>2. <i>Pterygophorus cinctus</i> (Klug), Antenna ♀.</li>
+  <li>3. <i>Pterygophorus cinctus</i> (Klug), Larva.</li>
+  <li>4. <i>Philomastix glaber</i> (Froggatt).</li>
+  <li>5. <i>Philomastix glaber</i> (Froggatt), Antenna.</li>
+  <li>6. <i>Philomastix glaber</i> (Froggatt), Larva.</li>
+</ul>
+</div>
+
+  <div class="figcenter" id="plate11">
+     <p class="p1 sm center"><i>Plate XI.—HYMENOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate11.jpg"
+    alt="">
+  </div>
+
+<p><span class="pagenum" id="Page_73">[73]</span></p>
+
+<p>The Pale Coloured Sawfly, <i>P. interruptus</i>, slightly larger, has
+the thorax marked with orange yellow, and the abdomen deeply blotched
+with the same colour, forming interrupted bands on the sides; both
+these species are taken upon flowers in the summer months.</p>
+
+<p><i>Philomastix glaber</i> has very curious larvae that feed upon the
+wild bramble on the northern rivers of N.S. Wales; they have large
+heads, no abdominal legs, and two slender rat-like tails on the tip
+of the body. The sawfly measures 1 inch in length; the general colour
+is shining yellow, mottled with dull metallic blue on the thorax and
+abdomen; the semiopaque wings are barred with dark brown; the male
+has shorter antennae composed of short funnel shaped segments. There
+are a number of small species, belonging to the Genera <i>Eurys</i>,
+<i>Euryopsis</i> and <i>Polyclonus</i>, found chiefly upon flowers;
+<i>Polyclonus atratus</i>, sole representative of the Genus, has 18
+jointed antennae, each joint furnished with a hairy finger turning
+inward at the tips. The Blister-leaf Sawfly, <i>Phylacteophaga
+eucalypti</i>, punctures the leaves of small gum trees; the larva
+feeds in the tissue, and when full grown pupates in a chamber in the
+centre, forming a distinct blister in the leaf: in the pupal state it
+has power to bend the body and rap against the side of the chamber.
+The sawfly measures ¼ of an inch in length; the male is black with a
+red head; the slightly larger female has the head and thorax reddish
+brown; the antennae have eight joints, long and slender. They have long
+stout legs, and are very active when they first emerge from the leaves,
+making a loud buzzing sound as they run about and try to escape.</p>
+
+<hr class="r25">
+
+<h4>Family 5. Gall-flies.<br>
+<span class="subhed">CYNIPIDAE.</span></h4>
+
+<p>This is the first group of the <i>Petiolata</i>, which are often known
+from their small size as <i>Micro-hymenoptera</i>. They are all small
+creatures, differing from the succeeding families in that they are
+broadly speaking plant eating, usually forming galls in which they live
+and pupate. However, there are some that live upon the gall-making
+forms; others live only upon the tissue of their cousins’ galls without
+disturbing their host; and again some that are known as inqualines
+(visitors that dwell in the cavity with the true gall-maker); so that
+their life histories are somewhat complicated.</p>
+
+<p><span class="pagenum" id="Page_74">[74]</span></p>
+
+<p>The typical gall-fly deposits her eggs in the tissues of the selected
+plant by means of her ovipositor, which is beautifully adapted for the
+purpose; she injects in some cases a fluid that keeps the wound from
+closing up at once and so destroying the delicate egg. Most of the
+Cynips galls are rounded woody excrescences. The Gall Wasps have wings
+with few cells and no stigma; the front portion of the thorax is joined
+to the second; the ovipositor is concealed; the antennae straight,
+containing from 13 to 15 joints. I described three hymenopterons
+forming galls on wattles (Proc. Linn. Soc. N.S.W. 1892), but these
+insects submitted to Dr. Mayr some years afterwards proved to belong
+to another family. The only species described from Australia are 3
+named by Ashmead (Pro. Linn. Soc. N.S.W. 1900), which were collected by
+Koebele without any exact locality being given; and <i>Hypodiranchis
+aphidis</i> described by me as a parasite of the common peach aphis in
+the Agricultural Gazette N.S.W. 1904.</p>
+
+<hr class="r25">
+
+<h4>Family 6. Parasitic Wasps.<br>
+<span class="subhed">CHALCIDIDAE.</span></h4>
+
+<p>This is a very extensive family, the members of which differ from the
+other small wasps in having the antennae elbowed, the first segment
+often as long as all the others combined; the antennae may be simple,
+but are often clubbed at the tips, and in the males of some groups
+with the segments or joints feathered or furnished with slender
+branching fingers. The delicate gauze-like wings are traversed by
+very few veins, and the abdomen is produced into all sorts of curious
+shapes, ornamented sometimes with remarkable anal appendages; and the
+ovipositor of the female, though often short, is sometimes much longer
+than the whole insect, and is usually prominent. These tiny little
+creatures deposit their eggs in the eggs, larvae, and pupae of other
+insects, wood galls, and excrescences produced by other insects, though
+a few groups are plant feeders and even produce galls.</p>
+
+<p>Most of them are very minute, and can only be collected by keeping
+infested galls, leaves, eggs and cocoons in jars and breeding them out,
+so that the majority of them escape the eye of the ordinary collector,
+though among the most beautiful of all insects in rich colours and
+delicate structure.</p>
+
+<p>Walker described a number of Australian species in the British Museum
+Catalogue, Hymenoptera 1846, others in his<span class="pagenum" id="Page_75">[75]</span> Monograph of the family
+1839, and the Proceedings of other Journals (1863, &amp;c.); but his usual
+locality is simply “New Holland,” and without access to the types
+one would have some difficulty in determining any species. Westwood
+obtained and figured some of our largest; and Haliday others in the
+“Entomologist” 1842; while the few others described are those obtained
+by the zoologists on the various scientific expeditions visiting this
+country. Ashmead has contributed the only modern paper (Pro. Linn.
+Society N.S.W. 1900) on these and other parasitic hymenoptera collected
+by Mr. Koebele and myself. The species in the Genus <i>Leucaspis</i>
+are large thickset chalcids, with the ovipositor curving round and
+fitting into grooves in the dorsal surface of the abdomen. <i>Leucaspis
+darlingi</i> was obtained by Westwood from the Darling Downs Queensland
+(I have specimens from Mackay Q.): it is black mottled with yellow,
+and has brownish wings; the hind legs are swollen: the antennae
+thickened; and it measures ½ an inch. <i>L. australis</i> was obtained
+by Walker from S. Australia. Nothing is known about their habits,
+but <i>Leucaspis gigas</i> in Europe lays its eggs in the nests of
+mud-dauber wasps, piercing the clay walls with its stout ovipositor.
+<i>Trichoxenia cineraria</i>, a slightly smaller black insect, is
+deeply punctured all over the dorsal surface of the head and thorax;
+the wings are clouded at the apex; and the upper surface of the body
+is thickly clothed with dense yellow down, thickest toward the apex.
+Specimens in my collection were taken about Sydney.</p>
+
+<p>The typical Genus <i>Chalcis</i> contains a number of short stout
+insects, generally black, sometimes marked with yellow and brown; they
+are easily distinguished by the globular form of the thighs of the
+hind legs, which are sometimes nearly as large as the abdomen. These
+insects are chiefly parasitic upon the larvae of small leaf-rolling
+moths: <i>Chalcis vicaria</i> is black, with the base of the tibiae
+and tarsi yellow; it is common about Mackay Queensland. I have bred
+numbers of <i>Chalcis phya</i>, a small black species with white
+mottled hind legs, from the chrysalids of the lucerne moth (<i>Tortrix
+glaphyriana</i>). Another undetermined yellow legged species has been
+bred from the codlin moth pupa. <i>Eurytoma binotata</i>, a tiny black
+insect clothed with a white pubescence, has the pronotum spotted
+with yellow, and the antennae and legs marked with reddish brown; it
+can be bred from the galls on the twigs of the turpentine gum. <i>E.
+eucalypti</i>, a smaller black species, slightly over ⅛ of an inch,
+comes out of eucalyptus galls collected at Uralla N.S.W. The members
+of the extensive Genus <i>Megastigmus</i> are all obtained from galls;
+they are more elongate in form, with broad globular<span class="pagenum" id="Page_76">[76]</span> heads, the males
+with short cylindrical bodies, but the larger females furnished with
+bristle-like ovipositors turning upward often longer than the whole
+insect. <i>Megastigmus brachyscelides</i> measures ¹⁄₁₂ of an inch, and
+is black to dark brown marked with yellow; it is bred from the large
+galls of <i>Brachyscelis crispa</i>. <i>M. iamenus</i>, originally
+described from Tasmania, I have bred from another gall coccid (<i>B.
+pileata</i>); also a larger light yellow species bred from dipterous
+galls on the Snow-bush (<i>Aster ramulosus</i>) has been named by
+Ashmead <i>M. asteri</i>; <i>M. brachychitoni</i>, ⅙ of an inch,
+reddish brown and yellow, is common in the large fleshy galls on the
+Kurrajong tree.</p>
+
+  <div class="figcenter" id="fig44" style="max-width: 422px">
+     <img
+    class="p1"
+    src="images/fig44.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 44.</b>—<i>Hypodiranchis aphidis</i>
+(Froggatt). A cynips parasitic upon the peach aphis.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p><i>Stilbula peduncularis</i> is a remarkable looking insect, with
+broad, rich metallic coppery red head and thorax; the basal portion of
+the abdomen forms a slender stalk with the apical tip produced into
+a small oval club. I have had a closely allied form out of the pupal
+cocoon of the red bull-dog ant.</p>
+
+<p>The <span class="smcap">Perilampinae</span> comprise some of the largest and most
+remarkable chalcids: <i>Thaumasura terebrator</i> has been described
+and figured by Westwood; my specimens came from S. Australia, and were
+sent by Mr. Blackburn. It is a slender, rich metallic purple insect,
+about ¼ of an inch in length to the apex of the flask-shaped body,
+which is continued in a long jointed tail three times the length of
+the<span class="pagenum" id="Page_77">[77]</span> whole insect. <i>T. femor-rubra</i> is a smaller insect with
+a tail not so long as the body, and of a general black colour with
+transparent wings and reddish legs. <i>Dinoura auriventris</i> is a
+very curious, metallic tinted species ¼ of an inch in length, with
+the apical portion of the attenuated abdomen produced into four
+flanges. I have bred a number of these wasps out of the large wood
+galls of coccids (<i>Brachyscelinae</i>), chiefly <i>B. pileata</i>.
+<i>Pteromalus puparum</i> is an introduced parasite of butterfly pupae,
+and is common about Sydney, where it infests that of the orange feeding
+butterfly (<i>Papilio erectheus</i>). Another tiny little metallic
+tinted chalcid, <i>Eupelmus antipoda</i>, infests the eggs of our
+common mantis.</p>
+
+  <div class="figcenter" id="fig45" style="max-width: 580px">
+     <img
+    class="p1"
+    src="images/fig45.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 45.</b>—<i>Pteromalus puparum</i> (Linn.). ♂ and ♀.</p>
+     <p class="p0 smaller center">Parasitic Chalcids that destroy the pupae of many species of
+butterflies.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>About twenty species of the cosmopolitan Genus <i>Tetrasticus</i>
+are described by Walker, chiefly from Tasmania. The allied
+<i>Tetrastichodes froggatti</i> is a very tiny creature, described by
+Ashmead from shot-like galls on the leaves of eucalypts. <i>Euryischia
+lestophoni</i>, a larger black insect with mottled wings, is
+interesting to economic entomologists, as it is a secondary parasite of
+the Cottony Cushion Scale (<i>Icerya purchasi</i>), feeding on the fly
+parasite.</p>
+
+<hr class="tb">
+
+<p>The <span class="smcap">Blastophaginae</span> are remarkable little creatures, for there
+is a very great difference in the sexes of the same species; the
+males, yellow or brown, wingless, and blind, are more like white ants
+in general appearance than chalcids.<span class="pagenum" id="Page_78">[78]</span> They breed in the interior of
+figs, and are numerous in Australia. Saunders (Trans. Ent. Soc. 1883)
+described our common species (<i>Pleistodontes imperialis</i>), found
+in the fruit of the Moreton Bay fig about March. The tiny male, ¹⁄₁₂
+of an inch in length, is of the typical form and colour; the elongate,
+shining black female (which is figured) is so different a looking
+creature that it would never be taken for the opposite sex of the
+insect. Their life history and remarkable habits have been described
+in the Agricultural Gazette (June 1900). <i>Idarnis australis</i>,
+described in the same paper, is a slender, bright, metallic green wasp,
+with a long tubular ovipositor nearly twice the length of the whole
+insect, which she also uses by pressing it down against the fig to jump
+like an acrobat, as well as for puncturing the skin of the fruit. The
+insect I described as the supplementary male of <i>P. imperialis</i>,
+is, Dr. Mayr tells me, the wingless male of this species. Mayr in
+“<i>Neue Feigen-Insekten</i> 1906” states that he finds that my
+identification is wrong and this is not the one named by Saunders but a
+new species which he calls <i>Pleistodontes froggatti</i>, and places
+my <i>Idarnis</i> in his Genus <i>Sycoryctes</i>.</p>
+
+  <div class="figcenter" id="fig46" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig46.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 46.</b>—<i>Dinoura auriventris</i> (Ashmead).</p>
+     <p class="p0 smaller hangingindent">A parasitic Chalcid that destroys the gall-making coccids
+(<i>Brachyscelinae</i>) by devouring the females and pupating in
+the cavity.</p>
+     <p class="p0 smaller center">(Original, W.W.F.)</p>
+     </div>
+
+<p class="p2 smaller center">Plate XII.—HYMENOPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Chalcididae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li class="hangingindent">1. Branch of Moreton Bay Fig (<i>Ficus macrophylla</i>).</li>
+  <li class="hangingindent">2. Immature fig attacked by <i>Pleistodontes froggatti</i>
+(Mayr), which are cutting their way into the fig. A female
+<i>Idarnis australis</i> on the right-hand side of the fig.</li>
+  <li class="hangingindent">3. Section of fig, showing insects in the centre.</li>
+  <li class="hangingindent">4. <i>Pleistodontes froggatti</i> (Mayr). ♀.</li>
+  <li class="hangingindent">5. Cutting plate (mandibular appendage) used by the insect to
+cut into the fig.</li>
+  <li class="hangingindent">6. Point of head, showing beak-like extremity, and the base of
+the mandibular appendage where attached to the head.</li>
+  <li class="hangingindent">7. Wings of <i>Pleistodontes froggatti</i> (Mayr).</li>
+  <li class="hangingindent">8. <i>Pleistodontes froggatti</i> (Mayr). ♂.</li>
+  <li class="hangingindent">9. <i>Idarnes australis</i> (Froggatt). ♂.</li>
+  <li class="hangingindent">10. <i>Idarnes australis</i> (Froggatt). ♀.</li>
+  <li class="hangingindent">11. <i>Idarnes australis</i> (Froggatt), Wings.</li>
+</ul>
+</div>
+
+  <div class="figcenter" id="plate12">
+     <p class="p1 sm center"><i>Plate XII.—HYMENOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate12.jpg"
+    alt="">
+  </div>
+
+<hr class="tb">
+
+<p>Additional species of <span class="smcap">Chalcididae</span> have been added to our fauna
+by the researches of Messrs. Perkins and Koebele (Bulletins 1, pts.
+6 &amp; 8 Hawaii 1905). In the <i>Encryritinae</i> he describes 12 new
+species, most of them bred from the pupae of the Dryinids collected
+in Queensland, but a few from more southern regions. <i>Chalcerinys
+eximia</i> is only ¹⁄₂₅ of an inch in length; is of a rich metallic
+green tint marked with black and brassy-yellowish tints, and is
+furnished with long antennae. It ranges from Bundaberg to Sydney. In
+the <span class="pagenum" id="Page_79">[79]</span><span class="smcap">Eupelminae</span> he describes one new species parasitic
+upon the parasite fly, <i>Pipunculus cinerascens</i>, under the name of
+<i>Anastatus pipunculi</i>. It is a bright metallic green and purple
+little creature about ¹⁄₁₂ of an inch in length. One species of the
+<span class="smcap">Tetrastichinae</span>, which he calls <i>Ootetrastichus beatus</i>,
+has been bred from the eggs of leaf-hoppers from both Queensland and
+Fiji, while another parasite on the eggs of a Jassid embedded in the
+branchlets of a Eucalyptus was bred in Southern Queensland. Perkins
+describes it under the name of <i>Pterygogramma acuminata</i>, a tiny
+creature not ¹⁄₂₅ of an inch in length, of general brown and yellowish
+tints.</p>
+
+  <div class="figcenter" id="fig47" style="max-width: 341px">
+     <img
+    class="p1"
+    src="images/fig47.jpg"
+     alt="">
+     <p class="p0 smaller hangingindent"><b>Fig. 47.</b>—<i>Megastigmus brachychitoni</i> (Froggatt) ♀.
+A yellow and brown Chalcid, bred from the large fleshy galls on
+the kurrajong trees.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+  <div class="figcenter" id="fig48" style="max-width: 334px">
+     <img
+    class="p1"
+    src="images/fig48.jpg"
+     alt="">
+     <p class="p0 smaller hangingindent"><b>Fig. 48.</b>—<i>Coelocyba viridilineata</i> (Froggatt). A
+pale yellow and green Chalcid infesting the large fleshy galls
+on the kurrajong trees.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>Five species of the parasitic wasps belonging to the <span class="smcap">Mymaridae</span>
+are described from Queensland. They are all tiny little creatures
+with slender feathered wings and long legs. They deposit their eggs
+in the eggs of different species of leaf-hoppers, and some species
+are very abundant. Four<span class="pagenum" id="Page_80">[80]</span> species of the more robust parasites
+belonging to the Genus <i>Aphanomerus</i> are also described as egg
+parasites from Queensland. After studying the galls and insects from
+the wattles which I described in the Proceedings of the Linnean
+Society 1892, as belonging to the Cynipidae, Dr. Mayr finds that
+the insects will not fit into any known genera, so he has formed
+the Genus <i>Trichilogaster</i> to contain <i>T. maideni</i>, which
+forms galls on the branchlets of <i>Acacia longifolia</i>, and <i>T.
+a-longifoliae</i>, which aborts the flower buds of the same wattle into
+oval or rounded red and yellow galls as big as marbles. He describes a
+third species I sent him, <i>T. pendulae</i>, forming rounded galls on
+<i>Acacia pendula</i>, and has made the remarkable discovery that the
+tiny wasp deposits a female egg, which forms the central cavity on the
+gall with a second male egg in a small cavity on the side of the same
+gall, so that a male and female wasp is always produced from each gall,
+and he thinks this will be the case with our two common species when
+they are examined.</p>
+
+  <div class="figcenter" id="fig49" style="max-width: 396px">
+     <img
+    class="p1"
+    src="images/fig49.jpg"
+     alt="">
+     <p class="p0 smaller hangingindent"><b>Fig. 49.</b>—<i>Ceraphron niger</i> (Curtis) ♂. A
+tiny black parasitic Chalcid that infests the pupae of the leaf-mining
+fly (<i>Phytomyza affinis</i>). <b>49a.</b>—Head of Female.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p><span class="pagenum" id="Page_81">[81]</span></p>
+
+<hr class="r25">
+
+<h4>Family 7. Micro-hymenoptera.<br>
+<span class="subhed">PROCTOTRYPIDAE.</span></h4>
+
+<p>In general appearance these tiny creatures, some of the smallest
+in the insect world, would seem to be almost identical with those
+of the previous family; but Ashmead says: “If the anomalous group
+<span class="smcap">Mymarinae</span> are removed there will be no difficulty in
+distinguishing at a glance a Proctotrypid from a Chalcid,” and defines
+them thus: “In all true Proctotrypidae the pronotum extends back to the
+tegulae, and the ovipositor issues from the tip of the abdomen, the
+sheaths in a few abnormal cases being conjoined and forming a more or
+less cylindrical tube or scabbard for the reception of the two spiculae
+and the ovipositor proper.”</p>
+
+<p>Sharp on the other hand considers that this is one of the most
+difficult groups of the Hymenoptera to define; to a specialist of
+course they can be easily separated, but anyone who first takes up the
+study of these Micro-hymenoptera (and bear in mind that we are talking
+about insects, so small that when a collector breeds them out in jars
+he has to liberate them upon a window pane that he may see them against
+the light), he will I think endorse Dr. Sharp’s decision. Besides the
+peculiarities of the abdomen previously noted, the antennae, sometimes
+twice the length of the whole insect, are composed of from 7 to 15
+joints, and in the typical groups, though the first joint may be long,
+it is not elbowed as in the Chalcids, and is seldom branched. The
+wings are delicate, without any nervures, except in a few small groups
+where the veins are somewhat like those of small ichneumon wasps. The
+hind legs are generally longer than the others, and though some have
+the thighs swollen as in the Chalcids, they are as a rule much more
+slender, and the abdomen is usually pointed.</p>
+
+<p>They can be bred from galls, particularly those of small Gall-flies
+(<i>Cecidomyia</i>), the eggs of all kinds of insects, and the larvae
+of small beetles, moths, and other wasps.</p>
+
+<p>In Ashmead’s “Monograph of the Proctotrypidae of North America” nearly
+600 species are described, and a number have been added since these
+were recorded in 1893. The Australian species are probably numerous,
+judging from my own observations when studying gall-making insects; but
+very few have been described. Westwood described four in his “Thesaurus
+Entomologicus, Oxford 1874,” belonging to the <span class="smcap">Bethyllides</span>, the
+peculiarities of which he defines, and figures with coloured plates.
+Ashmead describes another<span class="pagenum" id="Page_82">[82]</span> (Pro. Linn. Soc. N.S.W. 1900) under the name
+of <i>Ateleopterus longiceps</i>, obtained by me in a hollow twig of
+a wattle tree; a shining black ant-like creature about ⅙ of an inch
+in length, rusty red legs, and transparent wings clouded at the base,
+probably parasitic on the larva of some wood boring beetle. <i>Sierola
+antipoda</i> was bred from the curious bract-like gall of <i>Cecidomyia
+frauenfeldi</i> on the twigs of Melaleuca bushes. A second species of
+this genus was collected by Webster, and forwarded to Ashmead, who
+named it after the sender.</p>
+
+<p>In 1890 Riley described “An Australian Hymenopterous parasite of
+the fluted scale” in “Insect Life” which he named <i>Ophelosia
+crawfordi</i>; it is a tiny reddish brown wasp with a shining black
+body, and the wings obscurely barred with smoky brown; it is easily
+bred from this mealy bug, which it greatly keeps in check. <i>Goniozus
+antipodum</i>, described by Westwood from S. Australia, is a little
+shining black ant-like wasp which has been lately discovered destroying
+the grubs of codlin moth both in S. Australia and N.S. Wales. The
+larvae feed upon the outside of the grub, burying their heads in the
+tissue, and when full grown spin a loose silken cocoon.</p>
+
+<hr class="tb">
+
+<p>Perkins has recently added a number of new species to this family
+belonging to the <span class="smcap">Dryinidae</span>. In his Bulletins Hawaii 1905,
+Nos. 1 &amp; 10, “Leaf Hoppers and their Natural Enemies,” he describes 45
+new species, chiefly collected by Koebele in Queensland, but some from
+the neighbourhood of Sydney. These curious little proctotrypids are
+parasitic upon the larvae and pupae of the small homopterous insects
+commonly known as Leaf or Frog-hoppers (Families <span class="smcap">Jassidae</span> and
+<span class="smcap">Fulgoridae</span>). The adult wasp captures the insect, holding it
+with its curious clawed feet while it deposits its egg in its body;
+when full grown the larva spins a white silken cocoon, from which the
+active winged insect emerges in about 18 days.</p>
+
+<hr class="tb">
+
+<p><i>Gonotopus australis</i> is a tiny wingless ant-like creature
+about ¹⁄₁₂ of an inch in length, which attacks jassids and fulgorids
+feeding upon grass and low herbage. This species comes from Bundaberg
+Queensland; but Koebele has bred a second species about ⅛ of an inch
+in length, of a general brownish colour, from a Jassid collected near
+Parramatta. The curious little sacs or larval bags of these parasites
+can be readily noticed projecting from the sides of the thoracic
+segments. Most of these insects have well developed wings, but,
+according to Koebele’s observations, they stalk their prey when looking
+for the host for their egg.</p>
+
+<p><span class="pagenum" id="Page_83">[83]</span></p>
+
+<hr class="r25">
+
+<h4>Family 8. Larger Parasitic Wasps.<br>
+<span class="subhed">ICHNEUMONIDAE.</span></h4>
+
+<p>These are commonly known as Ichneumon Flies, and the family is a very
+extensive one. They play an important part in the economy of Nature in
+destroying thousands of the moth and other larvae that would otherwise
+strip our fields and forests of their grass and foliage, and they
+are therefore useful allies to the agriculturist; though they also
+often destroy other beneficial insects as well as pests, and thus
+discount their usefulness. Ichneumon Flies are moderately sized insects
+furnished with long slender antennae composed of from 16 to upward of
+60 joints, with the basal one often thickened, but never elbowed. The
+wings are well developed, with a distinct stigma and numerous nervures
+forming regular cells; a few species are wingless in both sexes, but
+these exceptional ones have not been recorded from this country.
+The legs are long, generally slender, and well adapted for running
+about; the abdomen is usually long, rounded or cylindrical, joined
+to the thorax on the under side, and more or less stalked, while the
+ovipositor of the female is characteristic of the group and adapted or
+modified for laying the eggs in or upon the different hosts they prefer
+to adopt for their offspring; when they infest wood boring caterpillars
+that are somewhat out of reach, the ovipositor is correspondingly long
+and the sheath and “tails” produced so as to guide the eggs to their
+resting place on the grub, out of the sight of the parent ichneumon.
+When the species lays its eggs on the back of leaf-eating insects with
+no protective covering, the ovipositor is generally short and stout,
+the tip sometimes so stiff and sharp, that several species are credited
+with stinging people when handled. The little wasp-grub, hatching from
+the egg either deposited on the back or placed beneath the skin, feeds
+upon the substance of the body of its victim without touching the vital
+organs, so that in most instances where the caterpillar of a moth is
+infested, it yet has the power to form its cocoon and pupate before
+the wasp-grub has finished growing; the latter thus finishes its final
+transformation in the destroyed moth pupa, and cuts its way out through
+the side of the cocoon when ready to emerge. Usually, if it is a large
+species, the ichneumon deposits only one egg in its victim, but in some
+of the smaller ones half a dozen can be bred from a single cocoon. Over
+6,000 species of these insects have been described from all parts of
+the world, and in many countries, such as this, the native species are
+still hardly known, and<span class="pagenum" id="Page_84">[84]</span> much confusion exists in their classification
+on account of their parasitic habits and the number of different
+hosts that the same species may infest; but now that so many economic
+entomologists are at work all over the world, it will probably not be
+long before they will have many admirers, and a rich field awaits the
+entomologist who takes up the study of Australian ichneumons.</p>
+
+<p>Cresson in his “Synopsis of the North American Hymenoptera” lists over
+1,100 described species, while in Australia up to the time when Brullé
+published his “Histoire Naturelle des Insectes, Hymenopteres,” in 1846,
+only one or two had been described, to which he added eighteen species;
+Kirby, Smith, Cameron and several foreign entomologists have added a
+few more; and in Ashmead’s recent paper ten more Australian species are
+described, which makes a very meagre list.</p>
+
+<p>The Spotted Black Ichneumon, <i>Pimpla intricatoria</i>, is one of our
+largest common species, having a wide distribution over Australia,
+and it breeds in a number of different moths. It measures nearly 1
+inch in length to the tip of the short ovipositor, and is of a uniform
+black colour with red legs and antennae; the thorax and abdomen are
+ornamented with pale yellow spots, those on the latter oval, forming a
+row on either side.</p>
+
+<p>The Dark-winged Ichneumon, <i>Rhyssa semipunctata</i>, is a more
+slender species of about the same length; is of a uniform dull red
+colour except the basal half of the abdomen, which is black with white
+markings on the sides; the wings are clouded with brown, darkest on
+the inner portion. These wasps always follow up the cut worms and
+caterpillar plagues, and destroy immense numbers in the pupal stage.</p>
+
+<p>The Spotted Ichneumon, <i>Mesotenus albopictus</i>, is somewhat
+smaller, with slender stalked abdomen and the slender ovipositor turned
+downward: the general colour is black, with the antennae marked with
+yellow toward the apical portion; the head, thorax and abdomen are
+richly marked with light yellow; light brown wings and red legs mottled
+with black and yellow. This ichneumon breeds in a great number of
+different cocoons, and frequently emerges from the oval cup-like ones
+of the “Stinging Caterpillars” (<i>Doratifera</i> and <i>Limacodes</i>).</p>
+
+<p>The <span class="smcap">Ophioninae</span> comprises a number of genera, of which
+the typical species are reddish brown insects, with clear wings
+and curiously curved, laterally flattened bodies, broadest at the
+extremity. They are frequently noticed in numbers among the low scrub
+in the day time, and in the summer evenings often fly into the house
+round the lighted lamp. Six species of the typical Genus <i>Ophion</i>
+are described<span class="pagenum" id="Page_85">[85]</span> from Australia; but none of the Genus <i>Anomalon</i>
+have been recorded.</p>
+
+  <div class="figcenter" id="fig50" style="max-width: 370px">
+     <img
+    class="p1"
+    src="images/fig50.jpg"
+     alt="">
+     <p class="p0 smaller hangingindent"><b>Fig. 50.</b>—<i>Bassus laetatorius</i> (Fabr.). An Ichneumon
+wasp that destroys the pupae of Syrphid flies.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p><i>Bassus laetatorius</i> is a well known Ichneumon which has a very
+wide range over the globe, and is not a useful species, for it lays
+its eggs in the larvae of Syrphid flies, which feed upon different
+kinds of plant lice (<i>Aphis</i>) and are very useful insects to the
+gardener. It measures about ¼ of an inch in length, with the head,
+thorax, tip and base of the abdomen black, the rest reddish brown with
+yellow markings on the head. The tibiae of the hind legs are very
+distinctly banded with white, black, and reddish brown, giving it quite
+a distinctive character.</p>
+
+<hr class="r25">
+
+<h4>Family 9. Small Ichneumons.<br>
+<span class="subhed">BRACONIDAE.</span></h4>
+
+<p>These are insects with very similar habits but easily separated from
+the large ichneumon wasps by the structure of the fore wings, as they
+have the outer cross veins wanting, thus showing two long outer cells,
+which in the former are divided into two cells. The antennae are always
+composed of more than fifteen joints, and the segments of the abdomen
+are more soldered together. Many of them, like the <i>Microgasters</i>,
+are very small, others are as large as many of the smaller true
+ichneumons. This country is probably very<span class="pagenum" id="Page_86">[86]</span> rich in indigenous species,
+while we have a considerable number that have been introduced with
+their host insect; but hardly anything has been done in describing our
+species. As far back as 1775 Fabricius named 4 species of the typical
+Genus <i>Bracon</i>, to which only three other species have been added,
+though over 500 species are listed in Dalla Torre’s Catalogue in the
+cosmopolitan Genus <i>Bracon</i> from other parts of the globe.</p>
+
+<p>The typical Braconid is usually very small; many of them are no larger
+than some of the Chalcids. Wherever the cabbage aphis or other plant
+infesting insects such as caterpillars are to be found, these little
+wasps can be observed hovering round, waiting for an opportunity to
+deposit their eggs. They differ from the large ichneumons, in that
+while the latter only deposit a single, or at most a dozen eggs upon
+a victim, these often place hundreds in a large caterpillar, which,
+emerging when full grown, form little white oval silken cocoons on the
+top of the remains of their hosts, that are sometimes surrounded with
+a mass of white fibre exactly like cotton wool. After a plague of cut
+worms has passed over a paddock it is quite common to find clusters
+of these little cocoons attached to the grass stalks; these have been
+often sent to me from the country with the information that they were
+the eggs of the plague caterpillars or cut worms.</p>
+
+  <div class="figcenter" id="fig51" style="max-width: 407px">
+     <img
+    class="p1"
+    src="images/fig51.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 51.</b>—<i>Ephedrus persicae</i> (Froggatt). A Braconid
+wasp that lays its eggs on the bodies of aphids.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p><i>Bracon limbatus</i>, one of our larger typical species, is found in
+Tasmania, and has a wide range over Australia. It measures about ½ an
+inch from the front of the head to the tip of the abdomen, and is of
+a general black colour on the upper surface, with dusky almost black
+wings, and a red head. The under-surface is marked with brown, with
+the thorax, thighs, and tibiae of the front and middle legs black;<span class="pagenum" id="Page_87">[87]</span>
+the three slender curled hair-like tails forming the ovipositor being
+longer than the whole insect. Eight other species of <i>Bracon</i> are
+described, several of which are also recorded from New Guinea and New
+Zealand. Among the introduced species is <i>Lepolexis rapae</i> of
+Curtis, which is parasitic upon the cabbage aphis in Europe; it can be
+collected in gardens about Sydney. Aphids containing these parasites
+are always swollen, round, and apparently dead skins through which each
+braconid eats its way.</p>
+
+<p>Five species of the Genus <i>Agathes</i> are described; they are
+remarkable for their showy particoloured wings, and large size in
+comparison with other members of this family. Ashmead has described a
+tiny black species marked with yellow bred by me from the larva of a
+Noctuid Moth, an undetermined species of <i>Agrotis</i>, under the name
+of <i>Apanteles antipoda</i>; and a second larger one as <i>Apanteles
+australasiae</i>. In his Genus <i>Microbracon</i> he has described a
+dainty little black and yellow creature that infests the larvae of our
+scale-eating moth (<i>Thalpochares coccophaga</i>) under the name of
+<i>Microbracon thalpocaris</i>.</p>
+
+<hr class="r25">
+
+<h4>Family 10. Ruby Wasps.<br>
+<span class="subhed">CHRYSIDIDAE.</span></h4>
+
+<p>The popular and scientific names of these insects refer to the
+brilliant metallic blue, green, golden or copper coloured tints
+of their armour-plated bodies, which are also covered with coarse
+punctures, finest upon the abdomen. They are stout thickset wasps with
+short curled antennae and large eyes; the thorax is broad and closely
+attached to the abdomen, the latter composed of from three to five
+segments, the first generally much shorter than the second, with the
+last toothed along the hind margin, and characteristic of the different
+species; the under-surface of these plates is concave, with the tip of
+the abdomen produced into a tubular process, so that when alarmed the
+wasp can curl her body round into a ball, protected on all sides by
+the armour-like integument; and as she lays her eggs in the nests of
+other wasps and bees, and is sometimes caught in the act, this habit
+is probably a wise provision of Nature which enables her to resist the
+sting of the lawful nest maker.</p>
+
+<p>Some of the earlier observers called them “Cuckoo Wasps,” under the
+impression that their larvae, when hatched out in the nests of hunting
+wasps or bees that filled the cells with<span class="pagenum" id="Page_88">[88]</span> insects or bee bread, fed
+upon the stored food supplies, but later researches show that, though
+the egg of both the lawful occupant and the intruder may be deposited
+in the cell, the latter does not hatch until the former has devoured
+all the food placed there by his mother and is ready to pupate; then
+the ruby wasp baby comes out, attaches itself to the full fed larva
+beside it, and sucks him dry, pupating in his skin.</p>
+
+<p>Most of our species that I have bred out are parasitic in the clay
+nests of the smaller Mason Wasps, <i>Odynerus</i> and <i>Alastor</i>,
+though in Europe many species live in the nests of bees. The perfect
+insects are generally found crawling over or flying round old fences
+or stumps and dead trees in the hottest part of the day. Our species
+were described by F. Smith in 1874 in his revision of the family, in
+the Transactions of the Entomological Society of London; a few others
+have since been added to the list by Mocsáry, who monographed the
+Chrysididae in 1889; and Gribodo in the Annals of the Mus. Geneva, 1879.</p>
+
+<p>No member of the typical Genus <i>Cleptes</i> common in Europe and
+America is recorded from Australia; but two well defined species
+of the beautiful ruby wasps of the Genus <i>Stilbum</i> that has a
+world wide range are described, <i>Stilbum splendidum</i> confined to
+Australia and New Caledonia, and <i>Stilbum amethystinium</i>, found
+also in Asia, Africa and America. The great Genus <i>Chrysis</i>, which
+contains over 600 described species, is represented here by about 27
+species.</p>
+
+<hr class="r25">
+
+<h4>Family 11. Hatchet-bodied Wasps.<br>
+<span class="subhed">EVANIIDAE.</span></h4>
+
+<p>Under the recent classification of this family it now comprises three
+very well defined genera, which have moderately thick antennae, not
+elbowed, consisting of thirteen or fourteen joints; the nervures of
+the wings not so well defined as those of the Ichneumons; and the
+stalked abdomen attached to the upper part of the metathorax. They are
+well represented in this country, and have been chiefly described by
+Westwood and Schletterer.</p>
+
+<p class="p2 smaller center">Plate XIII.—HYMENOPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Megalyridae</span>.</p>
+
+<p class="center smaller">1. <i>Megalyra fasciipennis</i> (Westwood). ♀.</p>
+
+<p class="center smaller">Family <span class="smcap">Ichneumonidae</span>.</p>
+
+<p class="center smaller">2. <i>Pimpla intricatoria</i> (Fabr.). ♀.</p>
+
+<p class="center smaller">Family <span class="smcap">Evaniidae</span>.</p>
+
+<p class="center smaller">3. <i>Gasteruption sp.</i></p>
+
+<p class="center smaller">Family <span class="smcap">Mutillidae</span>.</p>
+
+<p class="center smaller">4. <i>Mutilla formicaria</i> (Westwood). ♀.</p>
+
+<p class="center smaller">Family <span class="smcap">Chrysididae</span>.</p>
+
+<p class="center smaller">5. <i>Stilbum splendidum</i> (Fabr.).</p>
+
+<p class="center smaller">Family <span class="smcap">Thynnidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>&ensp;6. <i>Diamma bicolor</i> (Westwood).</li>
+  <li>10. <i>Thynnus variabilis</i> (Kirby). ♀.</li>
+  <li>11. <i>Thynnus variabilis</i> (Kirby). ♂.</li>
+</ul>
+</div>
+
+<p class="center smaller">Family <span class="smcap">Scoliidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>7. <i>Trielus zonata</i> (Smith). ♀.</li>
+  <li>8. <i>Discolia verticalis</i> (Fabr.). ♂.</li>
+  <li>9. <i>Discolia soror</i> (Smith). ♀.</li>
+</ul>
+</div>
+
+<p class="center smaller">Family <span class="smcap">Sphegidae</span>.</p>
+
+<p class="center smaller">12. <i>Bembex tridentifera</i> (Smith).</p>
+
+<p class="center smaller">(Original photo. Burton.)</p>
+
+  <div class="figcenter" id="plate13">
+     <p class="p1 sm center"><i>Plate XIII.—HYMENOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate13.jpg"
+    alt="">
+  </div>
+
+<p>The members of the typical Genus <i>Evania</i> are generally shining
+black insects, sometimes variegated with dull red markings; the head
+and thorax are short and broad; the abdomen has the first segment
+produced into a slender stalk, and the remaining ones forming a
+vertically compressed hatchet-like body. They are parasitic upon the
+egg cases of cockroaches;<span class="pagenum" id="Page_89">[89]</span> some with a very wide range have been
+introduced in all probability with their cosmopolitan hosts, while they
+are often found in the house flying on the window panes, evidently
+introduced in the same manner. In the bush the perfect insects are
+commonly found on flowering shrubs in the summer time. About 20 species
+are described from Australia and Tasmania. <i>Evania princeps</i> is
+of a uniform black colour with dusky wings, and is recorded from most
+parts of Australia, Woodlark Island and New Guinea. It is one of our
+largest species, measuring ½ an inch in length, broad in proportion,
+and furnished with very long spined legs.</p>
+
+<p>The Genus <i>Gasteruption</i>, which takes the place of the Genus
+<i>Foenus</i> in the earlier catalogues, contains 36 described species
+from Australia; as they are rare insects, there are probably many more
+to be discovered. Nothing is known about their habits for certain,
+but they are supposed to be parasitic upon the larvae of wood boring
+insects; I have generally found them flying round the trunk of a dead
+or burnt tree. They differ from the former genus in having the head
+almost globular, with antennae standing out straight in front, and
+large oval eyes on the sides; the thorax is more elongate, rounded in
+front, so that the insect appears to have a slight neck. The abdomen
+springs from a rounded node on the thorax, with the basal segments
+slender, swelling out gradually, and broadest at the tip; the females
+bear a very long hair-like ovipositor. The legs are slender, the hind
+pair longest, with both the thighs and apical half of the tibiae
+thickened in a very distinctive manner. Ten species are described from
+Sydney; and one, <i>Gasteruption pedunculatum</i>, is also common to
+New Zealand.</p>
+
+<p>The Genus <i>Aulacus</i> contains ten described species of smaller
+insects. <i>Aulacus apicalis</i> is parasitic upon the larvae of a
+longicorn beetle (<i>Piesarthrius marginellus</i>). I have found as
+many as fifty, each enclosed in a thin parchment cocoon, all matted
+together in a single cavity. This little wasp has a long extended
+ovipositor, and measures about ½ an inch in length; the head and
+greater portion of the abdomen is black, the rest reddish brown, with a
+blotch of yellow on the upper surface of the base of the abdomen; the
+hyaline wings are tipped with black.</p>
+
+<p><span class="pagenum" id="Page_90">[90]</span></p>
+
+<hr class="r25">
+
+<h4>Family 12. Long-tailed Wasps.<br>
+<span class="subhed">MEGALYRIDAE.</span></h4>
+
+<p>These remarkable parasitic wasps, peculiar to Australia, are comprised
+in a single genus containing 16 species, none of which are very common.
+They are all shining black insects; the head short, broad and almost
+rounded, the thorax broad and stout, both very rugose and clothed
+with fine silvery hairs on the sides; the eyes large, circular, and
+very prominent; ocelli small; the antennae composed of irregular wiry
+joints; the wings semitransparent, generally banded with black, and
+the transverse nervures wanting in the apical half; legs long, with
+the thighs thickened. The abdomen is closely attached to the thorax,
+cylindrical, tapering to the extremity, and in the females furnished
+with an ovipositor often more than three times the whole length of the
+insect, looking exactly like three black horse-hairs. These elongated
+ovipositors are used for depositing their eggs in the wood-boring
+larvae of longicorn beetles belonging to the Genus <i>Phoracantha</i>,
+and probably others of like habits, which feed under the bark in the
+sap wood of different eucalypts. The perfect insects are generally
+found about flowers on low shrubs in summer.</p>
+
+<p><i>Megalyra shuchardi</i> is of the usual black colour with silvery
+pubescence; the wings are pitch black and opaque: the whole insect
+measures slightly under 1 inch in length, with the ovipositor over
+three inches. It is found in Victoria and New South Wales, and
+also recorded from Melville Island on the North Coast. <i>Megalyra
+fasciipennis</i> was described by Westwood when he founded the genus,
+in the Transactions of the Entomological Society 1841; and it is again
+figured in Griffith’s Animal Kingdom, Insects, Vol. II. It is much
+smaller than the previous one, of similar form, the legs and ovipositor
+reddish brown, the wings hyaline, barred across the centre and clouded
+at the extremities with blackish brown. The male is much smaller than
+the female, with similar wings, but the body is more slender and comes
+to a point at the tip, furnished with a curious bifid anal appendage.
+This is the species we have found breeding from the longicorn larvae.</p>
+
+<p>Six other species have been described, some by Schletterer (Berliner
+Entom. Zeitschrift 1889); one, <i>Megalyra melanoptera</i>, closely
+allied to Westwood’s dark winged species. In 1902 Szepligeti (Termes Z.
+Fuzetek, xxv.) monographed the family and added one more; and Bradley
+last year, describing the last new form (Trans. Ent. Society of London
+1905) appends<span class="pagenum" id="Page_91">[91]</span> a translation of the former’s tabulation of all the
+known species, seven in number. I have (Pro. Linn. Soc. N.S.W. 1906)
+since added 8 new species to the list.</p>
+
+<hr class="r25">
+
+<h4>Family 13. Ants.<br>
+<span class="subhed">FORMICIDAE.</span></h4>
+
+<p>The ants are among the first insects that attract one’s notice in a
+new country; civilization seems to agree with many species which form
+their nests in the lawns or gardens, and even take up their quarters
+in the house. Within the last decade a small introduced species has
+appeared in the heart of London, and the small red ant, <i>Monomorium
+pharaonis</i>, is a world wide pest in houses from Europe to Australia.</p>
+
+<p>Ants live in communities forming nests in the ground, under logs or
+stones, or in dead trees, and sometimes among the foliage of plants.
+These communities consist of winged males and females, and wingless
+aborted females known as workers, the bulk of the family consisting of
+the latter; in some groups there are several varieties of workers, that
+are often called soldiers on account of their great size and swollen
+heads. In those species that are furnished with a sting both the
+workers and winged females should be handled with care.</p>
+
+<p>They are divided into five sub-families, based on the difference in
+the structure of the segments of the body, absence or presence of
+a sting, and a few other minor characters. The leading specialists
+differ somewhat in the sequence of these groups; I follow Forel in
+placing the <i>Ponerinae</i> at the head of the family; and for a good
+classification and definition of the genera would refer my readers
+to Emery’s paper in the “Annales de la Societe Entomologique de
+Belgique,” Vol. xl., 1896. All our species described before 1858 are
+listed in Smith’s British Museum “Catalogue of the Formicidae,” where
+he described a number of new species: Lowne described a number of new
+species collected in the neighbourhood of Sydney in the Entomologist,
+Vol. ii., 1865: Mayr in several papers, chief of which are
+“Myrmecologische Studien,” “Neue Formiciden,” and “Die Australischen
+Formiciden” added many up to 1876. Emery, Forel, and others have
+since added to the list; and in Dalla Torre’s great “Catalogue of the
+Hymenoptera,” published in 1893, all species described up to that date
+are recorded. I have lately (1905) published a list<span class="pagenum" id="Page_92">[92]</span> of Australian
+species (Miscellaneous Publications No. 889, Dep. Agr. N.S.W.),
+including all Forel and others have added to our fauna, in which
+nearly 400 species are recorded, without counting the large number
+of races and varieties into which some of them are divided. From my
+own researches I think a great many more will be found when they are
+systematically collected in the tropical scrubs and the dry districts
+in the interior, which as yet have hardly been touched.</p>
+
+<hr class="tb">
+
+<p>The sub-family <span class="smcap">Ponerinae</span> includes many large or medium sized
+ants with elongated bodies furnished with only one constricted segment
+or node at the base of the abdomen, and the latter terminating in a
+powerful sting. The larvae are enclosed in stout silken cocoons. The
+Genus <i>Myrmecia</i> contains most of our largest typical species
+peculiar to Australia, popularly known as “bull-dog ants,” “inchmen,”
+or “jumpers”; about 34 species have been described, some of which have
+a very wide range. The “Jumper,” <i>Myrmecia albo-cincta</i>, forms
+its nest under the shelter of a low bush; it is a low mound with an
+opening on the summit, and another on the side level with the ground;
+when disturbed these ants come rushing out like a pack of dogs with
+a series of short jumps, and attack everything they meet. It is one
+of the smaller species, about ½ an inch in length, of a uniform black
+colour, with only the front and hind portion of the thorax brownish
+red to yellow. <i>Myrmecia forficata</i> is our large red and black
+“bull-dog ant,” with a very extended range like the previous one from
+Victoria to Queensland. They measure up to 1 inch in length, and are
+of a uniform dull red, except the eyes and abdomen, which are black.
+They live in rather large colonies up to 200 in number, digging deep
+circular shafts or irregular chambers under logs; when away from the
+latter, they form regular domed mounds over the nests, which in summer
+contain the large, elongated, oval, brown sacks enclosing the pupae,
+and often a number of winged males and females; the former with small
+heads and jaws, the latter with jaws as large or larger than those of
+the workers. <i>Myrmecia gulosa</i> is of a lighter red colour, with
+the tip of the abdomen black. <i>M. tarsata</i> is our common black
+bull-dog ant, with yellow jaws, and antennae and tips of the legs
+reddish brown; it has a great habit of hunting up and down the larger
+tree trunks, and drops to the ground at the least alarm; when disturbed
+in the nest, if the first two or three are captured, the others will
+usually retreat down their burrows, and not show fight like the other
+species. Sharp notes the bull-dog as forming large mounds (Cambridge
+Natural History); but I think he was misinformed, as the nests of the
+Mound Ant, <i>Iridomyrmex<span class="pagenum" id="Page_93">[93]</span> detectus</i>, are often confounded with
+these ants. The Genus <i>Odontomachus</i> contains a number of curious
+slender black ants with large heads and long projecting jaws; they are
+more tropical in their range, but <i>O. ruficeps</i> and its varieties
+are found from the Darling River N.S. Wales through Queensland to North
+Australia.</p>
+
+<p>The “Green-head,” <i>Ectatomma metallicum</i>, is a common ant of
+medium size that lives in small communities under stones or logs, and
+often makes nests in the dry banks of lawns in our gardens. Though
+somewhat sluggish, they sting sharply if they crawl on one when resting
+on the grass. About 28 species and many varieties of this genus occur
+in Australia; one in New Zealand; and 3 in New Caledonia. The members
+of the Genus <i>Ponera</i> are remarkable for their extended range;
+we have several species or varieties in Queensland closely allied to
+species from South America, Borneo, Europe, and Africa, while three are
+recorded from New Zealand; <i>Euponera lutea</i>, a slender pale yellow
+ant with the abdominal segment constricted, lives in small communities
+under stones or roots. It ranges from Sydney to Fremantle, round to N.
+Queensland. <i>Pachycondyla piliventris</i> is a large, hairy black
+ant with large head and rounded body, roughened, and clothed with fine
+rusty down. They are generally found under stones in communities of a
+dozen or so, and when exposed or disturbed pretend to be dead, with
+their legs folded up under the body; they are common about Sydney.</p>
+
+<p>Six species of the Genus <i>Sphinctomyrmex</i> are found chiefly in
+the North. They are somewhat rare ants; I have found two species, both
+small, slender, dull brownish yellow insects living under stones;
+<i>S. froggatti</i> in a vineyard near Sydney; and the second, <i>S.
+hednigae</i>, in the New England district under large stones.</p>
+
+<hr class="tb">
+
+<p>The second sub-family, <span class="smcap">Dorylinae</span>, comprises ants with the
+antennae placed close together in the front of the head, the abdomen
+elongated, with the first segment forming an irregular node. This
+group contains some very remarkable ants in Africa and America, but is
+only represented in Australia by two species belonging to the Genus
+<i>Ænictus</i>, both of which are described from specimens collected by
+Turner at Mackay, Queensland.</p>
+
+<hr class="tb">
+
+<p>The third sub-family, <span class="smcap">Myrmicinae</span>, is well represented here;
+they are all small or medium sized ants, with the base of the abdomen
+formed into two small nodes, and the sting rudimentary; the pupa
+naked and not enclosed in a cocoon. Many of them live in very large
+communities.</p>
+
+<p>The members of the Genus <i>Meranoplus</i> are tiny little brown ants
+with rounded heads and bodies, resembling some of the<span class="pagenum" id="Page_94">[94]</span> small wingless
+female Mutillid in shape and habits, for though they form irregular
+galleries under stones or in dry banks, they are generally found
+running up and down tree trunks; when touched they curl up the body
+and sham death. <i>Meranoplus oceanicus</i>, reddish brown, is common
+in N.S. Wales; <i>M. pubescens</i> has a very wide range right round
+Australia.</p>
+
+<hr class="tb">
+
+<p><i>Monomorium pharaonis</i> is our tiny red house-ant introduced
+from Europe, now world wide in its range; and when once it becomes
+established in a house is a difficult pest to destroy. <i>M.
+rubriceps</i>, a much larger species but under ¼ of an inch in
+length, is bright reddish brown, with the nodes very small and the
+apical portion of the abdomen black, and broadly rounded. It is found
+crawling upon the trunks of trees, and has a wide range from Sydney
+to Cape York. The typical tree-trunk ants included in the Genus
+<i>Podomyrma</i> are much larger ants, sluggish in their habits,
+forming their nests in tree stems and always found crawling about
+the trunks. They are broad-headed ants with short stout jaws toothed
+at the tips; the thorax is widest in front, tapering to the narrow
+pedicle of the broadly rounded abdomen; the thighs of the legs are
+thickened in the centre. <i>Podomyrma gratiosa</i>, under ½ an inch
+in length, is bright reddish brown, rugose and spined on the front
+margin of the thorax, with the abdomen black, smooth, and shining; it
+is widely distributed over Australia from Adelaide to Cape York. <i>P.
+adelaidae</i> is a smaller species with black legs, and a distinct oval
+brown blotch on either side of the black abdomen; it is common in South
+Australia and Victoria. <i>P. bimaculata</i> is still smaller, with
+the blotches on the abdomen smaller and more oval; I have had it from
+Kalgoorlie W.A., and Wagga N.S. Wales.</p>
+
+<p class="p2 smaller center">Plate XIV.—HYMENOPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Formicidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>1. <i>Iridomyrmex detectus</i> (Smith).</li>
+  <li>2. <i>Polyrhachis semi-aurata</i> (Mayr).</li>
+  <li>3. <i>Myrmecia gulosa</i> (Fabr.).</li>
+  <li>4. <i>Ectatomma metallicum</i> (Smith).</li>
+  <li>5. <i>Iridomyrmex rufoniger</i> (Lowne).</li>
+  <li>6. <i>Camponotus nigriceps</i> (Smith).</li>
+</ul>
+</div>
+
+  <div class="figcenter" id="plate14">
+     <p class="p1 sm center"><i>Plate XIV.—HYMENOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate14.jpg"
+    alt="">
+  </div>
+
+<p>The Genus <i>Pheidole</i> is well represented in Australia by 22
+species and many varieties found in all parts of the country, forming
+irregular chambers and galleries under stones and logs; they are tiny
+reddish brown ants, with a very large headed form of soldiers often
+four or five times the size of the ordinary workers. The winged forms
+are also very large in proportion. <i>Pheidole bos</i> is dark reddish
+brown, the soldiers furnished with very large swollen heads; it ranges
+from Western Australia to Victoria. <i>P. anthracina</i> is a darker
+coloured form, ranging from the northern portion of N.S. Wales into
+Queensland. The members of the Genus <i>Cremastogaster</i> are very
+small black, brown, or dull yellow coloured ants with longer legs, and
+heart-shaped bodies; they live in large communities in nests under logs
+and stones. <i>C. fusca</i> is black with reddish tarsi, and a reddish
+tint on the thorax; it comes from Queensland. <i>C. pallipes</i>
+<span class="pagenum" id="Page_95">[95]</span>and <i>C. ruficeps</i> are lighter coloured, found under stones
+about Sydney.</p>
+
+<p><i>Sima laeviceps</i> is a very curious elongated shining black ant
+with reddish brown antennae and tarsi, which ranges up the Queensland
+coast to N.W. Australia, and is found crawling about on tree trunks,
+when touched curling its body up like a wasp and shamming death.</p>
+
+<hr class="tb">
+
+<p>The sub-family <span class="smcap">Dolichoderinae</span> comprises a number of
+small or medium sized ants living often in very large communities
+and having naked pupae. The base of the abdomen consists of a
+single small node with no constriction between the two following
+segments; sting practically wanting (rudimentary). The typical Genus
+<i>Dolichoderus</i> is represented here by five species widely
+distributed. <i>D. doriae</i> is common about Sydney living in large
+communities under logs, often clustered over each other like a swarm
+of bees; they collect on the leaves of eucalypts, upon which the sugar
+lerp psylla, (<i>Spondylaspis eucalypti</i>) constructs its larval
+scales, and suck or lick up the sugary exudation. This ant measures
+¼ of an inch in length; the head and thorax are black and roughened;
+the legs reddish brown, and the flattened heart-shaped abdomen clothed
+with a silvery pubescence. <i>Leptomyrmex erythrocephalus</i> might
+well be called the “Silly Ant” from the aimless manner in which it
+rushes about with its head stuck up in the air, and its abdomen curled
+over its back. They live in underground nests sometimes deep down, but
+others live under stones; they are slender-bodied, long-legged black
+ants under ½ an inch in length, with an oval red head, rounded behind
+with long slender antennae, and the front of the thorax produced into a
+slender neck. In some varieties the whole of the thorax, legs, and head
+are yellowish brown.</p>
+
+<p>The typical Genus <i>Iridomyrmex</i> contains 18 distinct species, some
+of which have been subdivided into three or four varieties or races;
+most of them are small, except our “Mound Ant,” sometimes known as the
+“Meat Ant,” <i>Iridomyrmex detectus</i>, which is the commonest and
+most widely distributed ant in Australia. They construct large mounds a
+couple of feet above the surface of the ground, and two or three yards
+in diameter; they are formed of the soil excavated from beneath when
+forming their network of irregular open galleries; the upper surface is
+pierced with numbers of rounded vertical shafts, up which they swarm
+in countless thousands and attack any intruder, biting savagely with
+their stout sharp jaws and making things generally unpleasant for the
+stranger. When a mound is situated in open grassed country, one can
+trace regular bare roads leading off from the nest, worn smooth by the
+regular stream of ants passing backward and forward day after day. It
+is<span class="pagenum" id="Page_96">[96]</span> too well known to need description, but measures about ⅓ of an
+inch in length, and is of a general brownish purple tint, with the
+head light reddish brown. Smith described the worker under the name of
+<i>Formica purpurea</i>, and the male as <i>F. detectus</i>, so in most
+Museum collections it will be found under the former specific name.
+Forel has made a new variety, which he calls <i>Var sanguineus</i>, of
+the coastal form found in North Queensland, with the head and thorax
+light reddish brown.</p>
+
+<p>Most of the other species are small black ants: <i>Iridomyrmex
+rufoniger</i> is very common in the bush and in the gardens; a variety
+which Forel has called <i>domesticus</i> is the common black ant
+that comes into the house in Sydney, and is a regular pest in the
+summer in many districts. <i>Tapinoma minutum</i> is about as large
+as the “Mound Ant”; black; the head and thorax deeply pitted and
+corrugated; the abdomen slightly constricted in the centre, smooth
+and shining. It comes from Townsville, N.Q.: a second species, <i>T.
+melanocephalum</i>, taken in Cairns, is also found in Samoa and the
+Tonga Islands.</p>
+
+<hr class="tb">
+
+<p>The last sub-family, <span class="smcap">Camponotinae</span>, is a large division well
+represented in Australia; they live in more or less large communities,
+and with a few exceptions have the pupae enclosed in cocoons. The
+base of the abdomen forms a single node, and there is no constriction
+between the second and third abdominal segments; the sting is wanting,
+and the anal orifice is fringed with hairs. In the works of early
+entomologists a number of our ants were described under the Genus
+<i>Formica</i>, but they have been gradually identified and placed
+in their proper genera, until we only have about half a dozen still
+remaining in this genus, probably more on account of the difficulty of
+identifying them than because they really belong here.</p>
+
+<p>The Genus <i>Acantholepis</i> is represented by four species all
+described by Forel from specimens I have collected and sent him from
+N.S. Wales, so that their range seems to be restricted. They are all
+small, reddish brown, smooth, shining ants; <i>A. bosii</i> was found
+under stones at Cooma, N.S.W.</p>
+
+<p>The Green Tree-ant, <i>Oecophylla smaragdina</i>, found in tropical
+Africa, India, and New Guinea, is common in the tropical scrubs on the
+coast of North Queensland. They live in large communities among the
+foliage of the trees, in nests formed by webbing the leaves together
+into an irregular mass varying in size from a cricket ball to a man’s
+head. The material with which they make these nests is obtained by the
+workers, by squeezing the pupae and using the secretion they discharge.
+The winged female measures nearly ¾ of an inch in length, has a broad
+thorax and large oval<span class="pagenum" id="Page_97">[97]</span> body; the worker is only about ¼ of an inch,
+and slender in proportion, but for his size is the most pugnacious
+creature in the insect world; if one damages a nest pushing through the
+scrub, down tumble a swarm of green tree ants on one’s head and neck,
+and wherever they drop they stick their jaws in and hang on, and each
+one has to be picked off in detail. In these forests they destroy an
+immense number of insects, catching the little bees as they come out
+of their nests in the tree trunks, and dragging the small beetles off
+the twigs by main force. I have often seen half a dozen hanging on to
+the legs of a stout weevil, apparently trying to wear him out, for they
+would remain for hours in the same position, and probably succeeded in
+the end.</p>
+
+<p>The great Genus <i>Camponotus</i> contains about 400 described species
+from all parts of the world, of which about 60 are recorded from
+Australia. Most of them are found in open forest country, forming
+their nests in the ground, under logs or stones, or near the butts
+of trees. Several of our common species are known as “sugar ants,”
+as they come about at night and invade the pantry and store room in
+search of sweets; but they are omnivorous in their tastes, and will
+often come round the camp fire at night, prowling about for the small
+moths that flutter round, often rushing right into the edge of the
+ashes to capture a moth when it falls with singed wings. <i>Camponotus
+intrepidus</i> is one of our largest species, varying from black to
+reddish brown in tint, and is thickly clothed with short hair. They
+form nests in the open sandstone country about Sydney, sometimes
+raising a little mound or producing a fragile funnel-shaped structure
+above the opening leading into the nest. The Sugar Ant, <i>Camponotus
+nigriceps</i>, is the commonest house species; it forms large chambers
+under stones or logs in which they all cluster together. The general
+colour is black, with all the abdomen except the base dull yellow, but
+the variations of the yellow and black are common; it measures to ¾ of
+an inch in length.</p>
+
+<p><i>Camponotus inflatus</i> is the curious “honey ant” of Central
+Australia figured and described by Lubbock in his “Bees, Ants, and
+Wasps.” The naturalists on the Horn Exploring Expedition obtained a
+number of this and other species, described by me in the Zoology of
+this Expedition. The ordinary members of the “honey pot ants” are of
+the usual normal form, but certain individuals of each nest of these
+species are crammed with a honey secretion (probably obtained by the
+workers from aphids or psyllids), until the abdomen swells out of all
+proportion to the rest of the ant; the honey pot ants remain hanging
+about in the bottom of the nests like a number of bottles of honey,
+incapable of<span class="pagenum" id="Page_98">[98]</span> leaving the nest; the supply is probably used as food
+for the larvae. Spencer says that the blacks dig up these nests and
+look upon the “honey pots” as great luxuries. The honey is sweet with
+an acrid taste like the honey of our native bees. They are apparently
+common in Central Australia; Miss Ormerod sent me some from England
+which she had received from a correspondent at Kalgoorlie; and recently
+Mr. Field of Tennant’s Creek sent me a fine red species from the far
+north.</p>
+
+<p><i>Camponotus claripes</i>, a smaller pale coloured species, generally
+makes its galleries at the base of a tree trunk, and has a very wide
+range from Victoria to North Queensland. I found the cocoons of this
+species in a nest at Howlong infested with full grown red velvet mites
+(<i>Trombidiidae</i>), which occupied the whole space.</p>
+
+<p>The Genus <i>Polyrhachis</i> contains a number of black ants of fair
+size, most of which build their nests in dead logs, and live in rather
+large communities, but others form small nests by matting the foliage
+of trees together; the latter are confined to Queensland, and are
+generally smaller shining black forms. The true “wood ants” are more or
+less covered with bright metallic pubescence and fine hairs, and with
+the hind portion of the thorax and the node of the abdomen ornamented
+with a pair of slender spines.</p>
+
+<p><i>Polyrhachis ornata</i> is black, with the thorax and base of the
+spines richly tinted with gold; it comes from Queensland. <i>P.
+ammon</i>, ranging from Victoria to Queensland, is clothed with pale
+golden pubescence lightest on the head and thickest on the abdomen.
+<i>P. semi-aurata</i> has both the head and thorax golden, with the
+abdomen smooth, black and shining. <i>P. laevior</i> is one of the
+smaller tree nesting forms, and is smooth and shining without any
+metallic tints, and the thoracic and abdominal spines are very small.
+<i>P. turneri</i>, also a northern form, has the head golden, and large
+well developed spines.</p>
+
+<hr class="r25">
+
+<h4>Family 14. Solitary Ants.<br>
+<span class="subhed">MUTILLIDAE.</span></h4>
+
+<p>Though these interesting little creatures were once placed in the
+Formicidae, and are still popularly known as “Solitary Ants” in Europe
+and “Cow Ants” in America, they are now classified as the first family
+of the fossorial wasps. Unlike the true ants, they are solitary in
+their habits and probably all parasitic in other insects’ nests. Until
+quite<span class="pagenum" id="Page_99">[99]</span> recently they were all placed in the Genus <i>Mutilla</i>,
+in which about 1,000 species have been described from all parts of
+the world, and about 130 from Australia; the earlier ones by Messrs.
+Westwood and Smith, the later ones by Andre, who has had the great
+advantage of obtaining a great many specimens from Mr. Gilbert Turner,
+who was able to sex the species, add valuable notes about their habits,
+and give the exact locality of the specimens collected. Turner, who
+was a most careful observer, after some years of collecting was not
+positive where they passed the earlier stages of their existence, but
+told me that he believed that some of them were parasitic in the nests
+of ants. Several of the European <i>Mutillidae</i> are known to be
+parasitic in the nests of bees: I have on several occasions dug the
+females of the smaller species out of moss at the foot of tree trunks,
+and our two largest species are generally found under stones in open
+chambers, while on hot summer days both sexes of <i>Mutilla cordata</i>
+and several other species are found running up and down the tree trunks.</p>
+
+<p>The males are furnished with two pairs of dark or semiopaque wings.
+The head is rounded; the antennae curving round; with large eyes and
+ocelli; the thorax broad, but showing the segmental divisions, and the
+abdomen rather short and rounded, without any pedicle; the legs stout,
+and spined on the middle pair. The whole insect is rugose and deeply
+punctured or roughened, and more or less clothed with pubescence and
+longer hairs. The females are wingless, with shorter curled antennae,
+very different in size, sculpture, and even colouration to the males
+of the same species; with the body more elongated and terminating
+in a long powerful sting. Andre remarks upon the brilliant metallic
+colouration of many of the Australian species, which is much more
+pronounced than in those from other parts of the world. He also says
+that they resemble the American species in the fact that they can be
+divided into two groups by the configuration of the eyes.</p>
+
+<p>Within the last few years specialists have subdivided the Genus
+<i>Mutilla</i> into a number of new genera; and Andre places nearly
+all the Australian species in the Genus <i>Ephutermorpha</i>, but for
+simplicity I retain the old name.</p>
+
+<p><i>Mutilla rugicollis</i>, described by Westwood many years ago, is
+our largest species, measuring in the larger female over ¾ of an inch
+in length. She is black, very deeply punctured, thickly clothed with
+black and silvery white hairs, the latter forming white patches on the
+hind portion of the head, sides and under-surface of the abdomen, and
+has a dorsal row of five distinct spots down the back. The male is much
+smaller, with somewhat similar but not so distinct white markings,<span class="pagenum" id="Page_100">[100]</span> and
+is furnished with dark brown wings, which are hyaline, close to the
+sides of the thorax.</p>
+
+<p><i>Mutilla quadrisignata</i> has about the same measurements as the
+female of the last species; with blackish hairy covering, except on
+the under surface of the abdomen, and four dark, reddish brown, oval
+spots forming a square on the dorsal surface. Both these species have
+a wide range over Australia. <i>Mutilla ferruginata</i> is a smaller
+species with a similar deeply punctured surface; is of a uniform dull
+rusty red colour, thickly clothed with darker brown hairs; the legs
+and antennae deeper coloured than the body. <i>Mutilla cordata</i> is
+typical of the smaller active forms that frequent tree trunks; the male
+is black with dark wings and slender abdomen, and measures about ⅓ of
+an inch in length; in this case much larger than the female, which has
+a rounded body with the centre of the dorsal surface occupied with a
+large rounded golden blotch. I have found the best time to collect
+these insects is in the hottest part of the day, when they are running
+up and down the larger tree trunks; but they are very active, and drop
+at the least alarm, so that it takes some practice to capture them.</p>
+
+<hr class="r25">
+
+<h4>Family 15. Flower Wasps.<br>
+<span class="subhed">THYNNIDAE.</span></h4>
+
+<p>These handsome flower wasps are closely allied to the members of the
+previous family, as they have similar wingless females of such peculiar
+shapes that, if examined alone, they would never be taken for the
+consorts of the large wasp-like <i>Thynnus</i>, with its long stout
+antennae, well developed legs, and large powerful wings. The males fly
+about the flowers of leptospermum and eucalypts, and when captured
+bite and pretend to sting by turning up the tip of the abdomen, which
+ends in a horny, harmless process. Fortunately, when hunted for in the
+summer, most of our commoner species can be taken <i>in copula</i> with
+the smaller female, with which he flies about quite easily; when caught
+the female immediately detaches herself and falls to the ground, where
+she crawls out of sight, so that care must be taken by the collector to
+keep each pair captured in a box by themselves, or else when once mixed
+up it is impossible to determine unknown species. Australia is the
+headquarters of this group, for of about 400 described species, 300 are
+peculiar to this country; the others are chiefly confined to Brazil and
+Chili in South<span class="pagenum" id="Page_101">[101]</span> America, with a few from Asia and the Islands. Smith
+has described a great number in the British Museum Catalogues; Westwood
+others; and Guerin those collected during the Voyage de Coquille in
+1830; but as many of these were determined from single specimens of one
+sex, it is certain that when a collection of sexed specimens can be
+compared with the types, the number of species will suffer considerable
+reduction.</p>
+
+<p>Nothing definite is known about the earlier stages of their
+development; I have however obtained cocoons composed of a stout silken
+case enveloped in a thin outer second papery covering, oval in form,
+with a nipple-like projection at the extremity, from which I have bred
+one of our large species. These cocoons are buried several inches in
+the ground like those of the <i>Scolias</i>, so that the females, which
+are furnished with short, stout, spiny legs well adapted for digging,
+probably lay their eggs in lamellicorn larvae living in the loose soil.</p>
+
+<p>A number of our common species are plentiful on the flowering
+Leptospermum and Melaleuca bushes, and many of the smaller ones
+may be found feeding upon the honey dew covering the foliage of
+small eucalypts that are infested with scale insects. <i>Thynnus
+variabilis</i>, our commonest species, is a very handsome wasp
+measuring over ¾ of an inch in length, and nearly 1¾ across the
+outspread wings; the general colour is brown; the front of the head,
+hind margin of thorax, and broad bands or double dots across the
+abdominal segments bright yellow; the semiopaque wings reddish brown.
+The female, very broad in proportion, is shorter than the male; she
+is reddish brown; the abdominal segments are rugose and blotched with
+yellow, forming transverse bars of rounded dots on the hind portion.
+The antennae are short and curled; the head broad, with a stout thorax;
+and she has short hairy legs. <i>Thynnus leachellus</i>, slightly
+smaller, is found in the vicinity of Sydney. The abdomen is broader and
+shorter in proportion; the general tint is black, richly marked on the
+head and thorax with bright yellow, and each of the abdominal segments
+carries a narrow transverse band of the same colour, broken by a dorsal
+stripe of black. The female is much smaller, short and thickset;
+is of a general reddish brown colour; the abdomen is marked with
+yellow blotches and bands, only the last one divided as in the male.
+<i>Thynnus flavilabris</i>, somewhat larger, is quite black, with only
+the face marked with deep yellow; the wings are dark, smoke-coloured;
+and the hind margin of the thorax is thickly covered with white hairs.</p>
+
+<p><i>Thynnus brenchleyi</i> is a type of the North Australian forms; it
+is nearly as large as <i>T. variabilis</i>, but has the whole<span class="pagenum" id="Page_102">[102]</span> upper
+surface smooth and shining, the hind margin of the thorax and the base
+of the abdomen truncate and fitting close against each other. The head
+and prothorax are bright yellow, the rest black. This handsome insect
+was described by Smith in the Zoology of the Voyage of the Curaçoa, and
+it was said to come from the northern coast of Western Australia; my
+specimens were taken near Charters Towers, North Queensland. A female,
+sent with this species as its mate, is black, marked on the head, sides
+of thorax, and abdomen with yellow, and is furnished with a curious
+fringe of pale buff hairs on the hind margin of the thorax, and along
+the front of the first abdominal segment.</p>
+
+<p>In the Genus <i>Rhagigaster</i> the males are more slender in form; the
+abdomen, elongated and deeply constricted or corrugated at the junction
+of the segments, is usually black, with more or less dark coloured
+wings: the females are very small in proportion.</p>
+
+<p>Among the most remarkable is the “Blue Ant,” <i>Diamma bicolor</i>. In
+this case the female is most common; about Sydney I have caught scores
+of females, but so far have never taken a male. She measures 1 inch in
+length, and is of a rich metallic blue to purple colour, smooth and
+shining, the antennae and legs reddish brown. She is furnished with
+a fine pair of jaws and a powerful sting, more formidable than that
+of any ant, and when disturbed turns over on her back and shows fight
+with both jaws and sting. The male, much smaller in size, is black,
+with red legs and black tarsi; the wings are semitransparent with black
+nervures. The whole upper surface of head and thorax is rugose, and the
+insect very ant-like in general appearance.</p>
+
+<p>Mr. Roland Turner is at present engaged in working up the Australian
+Thynnidae at the British Museum, having his own and my collection
+of specimens to identify; probably this combined collection is the
+largest in existence, and contains an immense number of sexed specimens
+collected in the field, as we have both spent a great deal of time over
+these typical Australian insects.</p>
+
+<hr class="r25">
+
+<h4>Family 16. Hairy Flower Wasps.<br>
+<span class="subhed">SCOLIIDAE</span></h4>
+
+<p>These insects are easily distinguished from the Thynnidae in being
+thickset hairy wasps; both sexes are furnished with wings in which the
+neuration is distinct at the base, but the nervures fade out before
+they reach the tips; the thorax is broad, rounded in front, with a very
+short pedicle attaching<span class="pagenum" id="Page_103">[103]</span> it to the stout abdomen. The legs are stout,
+compressed, very hairy, and spiny, with one stout spur on the tibiae
+of the middle pair of legs well adapted for burrowing. The males are
+easily distinguished from the females in being more slender in form,
+with longer straight antennae (in the latter sex short, thickened,
+and curling round the sides of the head); and the legs are slender,
+with fewer spines. Several species are plentiful about the Sydney
+gardens and bush, where they can be easily captured on the flowers. In
+observations made by earlier entomologists, their life history seems
+to have been confused with those of the long legged sand wasps, which
+burrow in the ground and form regular nests provisioned with other
+insects and spiders; but the <span class="smcap">Scoliidae</span> form no true nest;
+the female burrows into the ground or under logs, where she finds the
+larvae or white grubs of the larger lamellicorn beetles, on which
+she deposits a single egg, first carefully stinging the beetle grub
+(according to Fabre, the French naturalist, who studied the habits of
+several European species). The young wasp hatching out attaches itself
+to the helpless grub in such a manner that it does not injure the
+vital organs, and by the time it has devoured its host it is ready to
+pupate, spinning a brown silken cocoon which fits into the cavity first
+occupied by the unfortunate beetle grub; when fully developed it digs
+its way up to the surface.</p>
+
+<p>About 50 species have been described from Australia; Smith listed and
+described a number of new species (British Museum Catalogue Hymenoptera
+1855): Saussure described several in the same year (Memoires de la
+Societe de Physique, &amp;c., Geneve), and later on others in the Annals
+of the Entomological Society of France 1858. In 1864 he and Sichel
+monographed the family: Smith described 8 more four years after: and
+Kirby going through the British Museum Collections in 1889 revised the
+Genera and added another to our list.</p>
+
+<p><i>Discolia soror</i> is our commonest shining black species; the
+female measures over 1 inch in length, and is easily identified by its
+beautiful, iridescent, opaque, dark blue wings. It may be often seen in
+our gardens on the flowers or hovering in numbers over a dead stump,
+looking for beetle larvae in which to deposit its eggs. <i>Scolia
+fulva</i> is our largest species; the female measures up to 1½ inches
+in length, and is broad in proportion; it is black and reddish yellow,
+but so thickly clothed with coarse reddish hairs that it is more the
+latter tint; and the semiopaque wings are reddish brown. This species
+is figured and described by Gray in Griffith’s Animal Kingdom 1832.</p>
+
+<p><i>Scolia radula</i> is a smaller black species, under 1 inch in<span class="pagenum" id="Page_104">[104]</span>
+length; the head, apex of thorax, base of abdomen and most of the
+under-surface are clothed with grey hairs, but the hind margin of the
+head and dorsal surface of abdomen are clothed with reddish brown; the
+latter is orange yellow above, but marked with black at the base and
+tip.</p>
+
+  <div class="figcenter" id="fig52" style="max-width: 369px">
+     <img
+    class="p1"
+    src="images/fig52.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 52.</b>—Life History of a Flower Wasp.</p>
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>1. <i>Dielis formosa</i> (Guérin). ♀. (1a.—Life size.)</li>
+  <li>2. &emsp;„&emsp;&emsp;&emsp;„&emsp;&ensp;Larva.</li>
+  <li class="hangingindent">3. Pupal Cocoon, showing opening whence the wasp has emerged.</li>
+</ul>
+</div>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p><i>Dielis 7-cincta</i>, one of our commonest species, often clustering
+in numbers on flowering shrubs in the gardens, was described by
+Fabricius, and is the male of <i>Dielis (Scolia) formosa</i> which was
+not described till 1846 by Guérin. The male, ⅔ of an inch in length,
+is very slender in form, of a general black colour, clothed with fine
+grey hairs, and marked with light yellow on the head and thorax, with
+five broad bands of the same colour on the body. The female, under 1
+inch in length, is black, with the abdomen<span class="pagenum" id="Page_105">[105]</span> marked on the upper surface
+with reddish yellow somewhat variable in its distribution, and clothed
+with reddish brown hairs, thickest on the head and thorax. This insect
+has been found in Queensland destroying the underground grub of the
+Sugar-cane Beetle (<i>Lepidoderma albo-hirtum</i>).</p>
+
+<hr class="r25">
+
+<h4>Family 17. Sand Wasps.<br>
+<span class="subhed">POMPILIDAE.</span></h4>
+
+  <div class="figcenter" id="fig53" style="max-width: 374px">
+     <img
+    class="p1"
+    src="images/fig53.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 53.</b>—<i>Salius (Priocnemus) bicolor</i> (Fabr.).</p>
+     <p class="p0 smaller center">Large sand-burrowing wasp, that attacks cicadas.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>This group is well represented in Australia, and widely distributed
+over the country; about 60 species have been described: several
+collected by Sir Joseph Banks in 1775 were described by Fabricius;
+Smith, in the Catalogue previously noticed, in a series of papers
+between 1862–69 in the Transactions of the Entomological Society, other
+Journals, and a British Museum publication (New Species of Hymenoptera<span class="pagenum" id="Page_106">[106]</span>
+1879) published after his death, has described most of our species;
+Saussure in the Hymenoptera of the Reise Novara; and later Kohl has
+enriched our list.</p>
+
+<p>The typical genera <i>Pompilus</i> and <i>Salius</i> comprise a number
+of large yellow and black wasps with coloured wings tipped with black.
+They have long legs well adapted for running over the ground, and may
+be seen any warm sunny morning hunting about for spiders, with their
+antennae and wings constantly on the move as they rush about. They
+will attack the largest spider whether on the ground or hidden in a
+tree trunk; one large black undetermined species even ventures down
+the nests of the Trap-door Spiders and drags them forth. Sometimes one
+of the larger ground spiders shows fight, and it becomes a duel to the
+death, the wasp now and then being captured by its intended victim.
+They often place the spider in any suitable cavity with their eggs,
+but others form extensive burrows in the soil. <i>Salius (Priocnemus)
+bicolor</i> is one of our largest yellow and black species, often
+measuring 2 inches across the wings, but variable both in colouration
+and size. She forms a burrow as large as a mouse hole, several feet
+in length, with quite a large mound of excavated soil outside the
+entrance; when emerging from the chamber she looks a most formidable
+creature, but unless captured never attempts to attack anyone. She
+sometimes stores her nest with cicadas many times larger than herself,
+which she rides down to their tomb before they are quite dead. The
+young larva is usually attached to the cicada’s breast when hatched
+out; but I have never been able to keep any alive after being dug out
+of the nest. This wasp has a curious habit of flying round and dragging
+a cicada off a branch when it is sucking up the sap; taking its place,
+she calmly stands over the spot and drinks up the sap that exudes from
+the puncture the dispossessed cicada had made in the bark. The members
+of the Genus <i>Pepsis</i> are large black wasps with a beautiful
+metallic lustre on the wings; they are chiefly confined to the tropics,
+but Saussure has described one species, <i>P. australis</i>, from this
+country.</p>
+
+<hr class="r25">
+
+<h4>Family 18. Smaller Sand Wasps.<br>
+<span class="subhed">SPHEGIDAE.</span></h4>
+
+<p>Westwood placed these wasps and the <span class="smcap">Pompilidae</span> in a single
+family, but Kohl, while separating the latter, has grouped a number
+that were once ranked as families, under the <span class="smcap">Sphegidae</span>,
+calling them simply sub-families, thus making this a much more
+extensive division, the <span class="smcap">Sphegidae</span> proper forming only a part
+of the whole.</p>
+
+<p><span class="pagenum" id="Page_107">[107]</span></p>
+
+<p>Dalla Torre in his Catalogue treats them as a sub-division of the
+<span class="smcap">Crabronidae</span>; but Sharp takes Kohl’s classification, which I
+follow.</p>
+
+<p>The <i>Sphegides</i> are easily distinguished by the peculiar structure
+of the abdomen; the basal portion is produced into a slender rod-like
+stalk or pedicle, with the apical part forming a rounded or oval tip;
+they are very active creatures with the habits of the larger sand wasps.</p>
+
+<p>The world-wide Genus <i>Ammophila</i> is represented in Australia by
+four described species; they make their nests in sandy ground, digging
+out a straight burrow with an enlarged chamber at the end, which they
+store with different kinds of caterpillars they capture on the plants
+while hunting; these they sting but do not kill, but though paralysed
+and incapable of motion, remain alive long enough to furnish the baby
+wasps with a supply of fresh food.</p>
+
+<p><i>Ammophila suspiciosa</i> is a slender black insect under 1 inch
+in length; the thickened tip of the abdomen is dull red. This is our
+common species found all over the western country. <i>A. instabilis</i>
+is a larger black species with semiopaque wings and reddish legs; the
+tubular portion of the body and base of the thickened part are reddish
+brown: this one is a northern form found in Queensland.</p>
+
+<p><i>Pelopaeus laetus</i> is a very handsome black and yellow wasp with a
+somewhat similar shaped body tipped with black; it is very variable in
+size, the largest measuring about 1 inch in length. It has a wide range
+over Australia, and differs from the former insects in being a regular
+“mud dauber,” forming a regular clay nest consisting of a number of
+different cells, each of which is filled with paralysed spiders. It is
+a very friendly insect, often flying into the room on a summer day; and
+will build its nest on the edge of a roof or wall.</p>
+
+<p>The typical Genus <i>Sphex</i> contains a number of fine black wasps
+more or less clothed with silver or golden pubescence on the head and
+thorax, with the slender pedicle at the base of the thorax very well
+defined, and the hind portion of the abdomen almost round or oval. They
+form underground burrows branching out into a chamber at the end, in
+which they store all kinds of different insects, each species seeming
+to have a preference for its particular choice. <i>Sphex vestita</i>,
+one of our largest species, has the face thickly clothed with silvery
+pubescence; it is often common in sandy patches in gardens, where it
+hunts for small orthopterous insects, and is particularly fond of a
+species of small brown cricket which lives in the long grass. <i>S.
+opulenta</i> is a smaller species about ¾ of an inch in length, with
+the face and back of the thorax bright silver, and the dorsal surface
+of the latter coppery.<span class="pagenum" id="Page_108">[108]</span> About 30 species are described from Australia,
+some of which have a very wide range over the interior.</p>
+
+<p>The <span class="smcap">Larrides</span> are medium sized black wasps with the abdomen not
+stalked, but coming to a point at the junction with the thorax, and
+often ornamented with golden or silvery pubescence forming bands on the
+body.</p>
+
+<p>Shuckard described a number of our species belonging to the Genus
+<i>Pison</i> (Trans. Ent. Society 1837–40), where he gives some account
+of the group. Smith in the same Transactions, 1869, catalogued those
+previously described, and added a number of new species; and also added
+the Genus <i>Parapison</i>, containing species from India, Ceylon
+and Australia. The European <i>Tachytes</i>, which Westwood says are
+captured in sand banks, are represented here by three species, all
+shining black insects about ½ an inch in length. Saussure (1855), and
+Kohl later have described others.</p>
+
+<p><i>Pison spinolae</i> and <i>P. decipiens</i> are both black wasps
+with silvery bands upon the sides of the abdomen; the latter are the
+smaller. They are both common about Sydney, and have a very wide range
+over the country; they are very fearless insects, flying into the
+house, and wherever they come upon a convenient hole in the rung of
+a chair, or even a key hole, will set to work and line it with clay,
+forming an irregular chamber, which they store with small spiders,
+deposit the egg, and after closing it up fly away quite satisfied.
+Sometimes they form a row of round clay cells on a coat or other
+garment hanging on a wall.</p>
+
+<p>The <span class="smcap">Nyssonides</span> comprise a smaller group of closely allied
+forms, differing chiefly in the venation of the wings. Smith has
+described most of our species. The members of the Genus <i>Gorytes</i>
+are represented by five described species; all small, active, bee-like
+insects with coppery fasciae upon the abdomen; several of these are
+known in the bush as “policemen flies” from their habit of coming round
+and catching flies upon one’s clothes and even snapping one off the
+back of one’s hand; these flies are killed with their stout jaws and
+deposited in their nests constructed in the ground.</p>
+
+<p>The curious, large, reddish brown wasp, <i>Stizus pectoralis</i>, from
+Queensland, at first sight might be taken for a <i>Thynnus</i>, but the
+distinct form of the body, and the antennae thickened toward the tips,
+show that it could not belong to the flower wasps. It is now placed in
+the allied Genus <i>Sphecius</i>.</p>
+
+<p>The <span class="smcap">Philanthides</span> are easily distinguished from the other
+groups by the curious rugose or punctured integument which makes them
+look as though coated with armour plate, and the curious constrictions
+or rings between the abdominal<span class="pagenum" id="Page_109">[109]</span> segments, becoming smallest toward
+the tip. They are generally black or reddish brown, marked with pale
+yellow spots and bands. With the exception of one species of the Genus
+<i>Philanthus</i> all ours have been placed in the world-wide Genus
+<i>Cerceris</i>. I have generally captured them about flowers, or
+flying round bushes infested with scale insects that were throwing
+off honey dew, which sweet secretion has a great attraction for small
+hymenoptera of many different families. Eight species are described
+by Smith and Saussure; there are probably many new species to be
+recorded. Nothing is known about their habits in this country, but
+the European species form nests in the ground, which they provision
+with small beetles; and each species is said to confine its attention
+to a different group of beetles; one uses only small weevils; another
+carries off chrysomalids, and so on with each species.</p>
+
+<p>The <span class="smcap">Crabronides</span> are another small group, and under the
+present classification all our species have been placed by Smith in
+the world-wide Genus <i>Crabro</i>. They are medium sized black wasps
+with broad stout heads and unstalked bodies, generally banded with
+orange, red, or yellow; they form burrows in the stems of plants, which
+they store with captured flies. Five species have been described from
+Australia and Tasmania.</p>
+
+<p>The <span class="smcap">Bembecides</span> are very handsome, smooth, shining wasps of
+fair size, with broad bodies, rounded and broadly pointed at the
+extremity. They are generally met with along sandy pathways and roads,
+flitting along in front of one, settling on the ground and rising
+again, so that they are easily captured with a net. They make shallow
+burrows on the roadside in which they place flies, which they capture
+with their powerful jaws.</p>
+
+<p>Nearly all our species have been described by Smith in the British
+Museum Catalogue Hymenoptera 1856, and the Annals and Magazine of
+Natural History 1873. Under 20 species are recorded from Australia.
+<i>Bembex tridentifera</i> was described by Smith from Moreton Bay,
+Queensland, but it has a wide range southwards to Victoria. It measures
+just under ¾ of an inch in length; is of a general black colour; the
+face yellow with a black trident-like mark above and two black spots
+below the antennae; the legs yellow lightly marked with black; the
+upper surface of the thorax spotted and barred with yellow, and the
+abdomen beautifully banded with irregular white bands on the 2nd to
+4th segments, with the first and last only marked on the sides. <i>B.
+vespiformis</i> ranges from West Australia to S. Australia, is somewhat
+smaller than the last, and viewed from above is black, with very faint
+markings on the thorax, and a broad white band on either side of the
+first segment of the abdomen almost meeting on the back.</p>
+
+<p><span class="pagenum" id="Page_110">[110]</span></p>
+
+
+<h3>DIPLOPTERA.</h3>
+
+<p>The true wasps have the antennae generally elbowed and thickened toward
+the tips, and the eyes notched. They have the wings folded like a
+fan in repose, but can fly well, and have legs and feet adapted for
+walking. Some species are solitary in their habits, and consist of
+males and females only; others live in large communities, and, like the
+ants, comprise males, females, and workers, the latter aborted females.</p>
+
+<hr class="r25">
+
+<h4>Family 19. Solitary Wasps.<br>
+<span class="subhed">EUMENIDAE.</span></h4>
+
+<p>This group is well represented in Australia; they are well known
+to residents in the country from their habit of constructing clay
+nests under the shelter of the verandah or the eaves of the houses.
+They usually appear in pairs, and rapidly build up the structure,
+flying backward and forward with their earthen loads; from this habit
+they get the name of “Mud Daubers” in America, and “Mason Wasps” in
+this country. A number of our species are described and figured in
+Saussure’s “Monograph des Guepes Solitaires” published in 1851.</p>
+
+<p>The Genus <i>Eumenes</i> contains a number of very handsome insects
+that are easily recognised from the basal portion of the abdomen
+forming a more or less slender stalk, and the apical portion rounded at
+the junction and tapering to a sharp point at the tip. They build clay
+nests containing a number of cells, and store them with caterpillars,
+which they do not appear to be able to paralyse in the same manner as
+the large sand wasps, for they are capable of movement after they are
+enclosed in the cell. By some wonderful instinct, the female wasp does
+not deposit her egg haphazard among the wriggling grubs that would
+easily damage it, but suspends it by a fine stalk to the roof of the
+cell in such a manner, that when the little wasp larva hatches out, it
+can safely reach down and feed upon the nearest caterpillar, until it
+has finished the last bit, when it spins a thin parchment cocoon and
+pupates in the cavity which before was its larder.</p>
+
+<p><i>Eumenes bicincta</i> has a wide range over Australia; it measures
+about 1 inch in length; the stalk is not quite so long as the base
+of the abdomen, and is of a uniform deep orange<span class="pagenum" id="Page_111">[111]</span> yellow colour, with
+the top of the head, centre of thorax, and broad band in the middle
+of the abdomen black. <i>Eumenes latreillei</i>, a larger species,
+has the stalk of the abdomen shorter and thickened, with the basal
+half of the body from the stalk black. <i>Eumenes servillei</i>, the
+smallest of the three, is more slender in shape, has more black upon
+the thorax, and the stalked portion of the body is variegated with
+black. <i>Eumenes arcuatus</i> is a more northern species common in
+Queensland; it measures over 1 inch in length, and is the only one
+with blackish wings; it has a very long slender stalked abdomen. It is
+black, mottled on the head and thorax with yellow; and the abdominal
+segments are barred on either side with yellow, which appear to form
+regular slender bands across, but do not actually meet in the centre.</p>
+
+<p>Two of our handsomest mason wasps belonging to the Genus <i>Abispa</i>
+measure 1 inch in length, but are so stout in form that they appear
+much larger; they are black and deep orange yellow, with dull yellow
+wings tipped with black, and the stout broad thorax fits close against
+the base of the abdomen. <i>Abispa splendida</i> has the front half of
+the first abdominal segment black, with the hind portion yellow, while
+in <i>Abispa ephippium</i> the whole of the first abdominal segment
+is yellow. They both build very large, solid, clay nests generally
+containing two rows of cells, about 6 in number, above each other,
+with thick partitions between them; the outer surface is rounded on
+the sides; each cell is stored with caterpillars upon which the larva
+feeds, and finally pupates in a reddish brown parchment-like cocoon.</p>
+
+<p>The Genus <i>Rhynchium</i> comprises about six described species,
+handsome insects not unlike the former in general form, but with the
+abdomen more tapering. <i>Rhynchium mirabile</i> measures ¾ of an inch
+in length; it is of a general black colour, the head marked with,
+and collar of thorax, yellow; and the hind margin of the abdominal
+segments is ringed with slender bands of orange yellow. <i>Rhynchium
+superbum</i> is a smaller insect of similar form and colour, with the
+basal half of the abdomen black and the hind portion rich yellow. Both
+these species come from Queensland.</p>
+
+<p>The Genus <i>Odynerus</i> contains a great number of small thickset
+wasps, that make clay nests of various shapes, sometimes very delicate
+in structure, forming a finger-shaped row of clay cells or rounded
+cup-shaped chambers; while some species make use of a hole in the
+wood or wall and simply coat it over with clay. Australia is rich in
+species, some of which have a very wide range. <i>Odynerus bicolor</i>,
+one of our commonest species, is black, with the collar of the thorax,
+legs, and all the abdomen except the basal segment,<span class="pagenum" id="Page_112">[112]</span> dull reddish
+yellow. <i>Odynerus nigro-cinctus</i> is of a general dark orange
+yellow colour, with the head and centre of abdomen black. The closely
+allied species forming the Genus <i>Alastor</i> differ slightly in the
+venation of the wings, but their habits are identical; about 30 species
+have been described from Australia, chiefly by Saussure, some of which
+are figured in colours in his Monograph. These wasps may be captured
+round water-holes in the summer months, and may sometimes be found
+resting upon grass stalks in the early morning.</p>
+
+<hr class="r25">
+
+<h4>Family 20. Social or Paper-nest Wasps.<br>
+<span class="subhed">VESPIDAE.</span></h4>
+
+<p>These typical wasps are found all over the world, and next to the
+bees have probably received more attention from the casual observer
+than most of the other groups. Each community consists of males,
+females, and workers, and though the structure of their nests differs
+considerably in the various groups, the social economy is the same.
+The female first starting the nest constructs a stout stalk at the
+apex attached to a twig or roof, and constructs a six-sided cell from
+which the whole mushroom-shaped nest is built. In each little cell she
+deposits an egg from which the legless white grub emerges, attaches
+itself to the roof of the cell and hangs head downward, being fed
+by the mother wasp until full grown with food chiefly composed of
+masticated spiders, when it pupates under a silken cover spun over
+the apex of the cell. As soon as it emerges it sets to work to help
+on the nest, so that the community rapidly increases in numbers. The
+nest of <i>Polistes tasmaniensis</i> sometimes measures six inches in
+diameter. Some confusion as to the identity of this species and <i>P.
+variabilis</i> seems to exist, but from Saussure’s description, our
+common species appears to be <i>P. tasmaniensis</i>.</p>
+
+<p class="p2 smaller center">Plate XV.—HYMENOPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Vespidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>1 &amp; 5. Nests of <i>Polistes tasmaniensis</i>.</li>
+  <li>2. <i>Icaria gregaria</i> (Sauss.).</li>
+  <li>3. Slender nest typical of Genus <i>Icaria</i>.</li>
+  <li>4. <i>Polistes tasmaniensis</i> (Sauss.).</li>
+</ul>
+</div>
+
+<p class="center smaller">(Original photo. Burton.)]</p>
+
+  <div class="figcenter" id="plate15">
+     <p class="p1 sm center"><i>Plate XV.—HYMENOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate15.jpg"
+    alt="">
+  </div>
+
+<p>The widespread Genus <i>Vespa</i>, though it is recorded from as far
+down as Java, is unknown in Australia. We have however allied species
+belonging to the genera <i>Icaria</i> and <i>Polistes</i>. Those of the
+genus <i>Icaria</i> are the smaller wasps, the largest well under ½ an
+inch in length; most of them are reddish brown, or mottled with black
+and yellow; the abdomen is contracted into a stalk at the base, then
+becomes rounded, with the apical segments small and telescopic, so that
+when retracted it looks as if it were damaged. They all form similar
+nests <span class="pagenum" id="Page_113">[113]</span>commencing with the usual stalk, but, unlike the larger
+<i>Polistes</i>, the cells follow on in rows, forming finger-like
+nests. <i>Icaria gregaria</i>, our commonest species, forms these
+slender nests up to six inches in length. It is a dull reddish brown
+wasp mottled with black on the thorax and legs, with the apex of the
+abdomen lightest in colour.</p>
+
+<p>Some of the members of the Genus <i>Polistes</i> grow to a considerable
+size, and armed with a powerful sting are very formidable insects;
+several of the largest form small stalked nests on the under-side of
+fallen logs; when hunting for insects and turning over dead wood one
+is liable to disturb a family party and find it wise to beat a hasty
+retreat. They differ from the previous group in having no stalk to
+the abdomen, which is very slender at the base, rounded to the middle
+and tapers to a pointed apex. <i>Polistes tasmaniensis</i>, our most
+sociable species, is very fond of building her large nest (previously
+noticed) under one’s verandah, or the porch over the door, and is quite
+ready to attack any one when disturbed. It is one of the smallest
+species, measuring under ¾ of an inch in length; is of a general dark
+brown colour marked with reddish brown; the abdomen is irregularly
+banded, with the first basal band finest. <i>Polistes tepidus</i>, one
+of our largest wasps, is almost black, with face, tips of legs, and
+thorax marked with dark orange yellow, and the abdomen banded with
+rusty red. <i>Polistes humilis</i> is of an almost uniform yellowish
+brown tint, with the face marked with black. In the Queensland Museum
+there are some very large paper-nests of some undetermined wasps that
+have a regular comb-like structure containing thousands of cells, and
+which are several feet in length.</p>
+
+<hr class="r25">
+
+<h4>Family 21. Shining Wasps.<br>
+<span class="subhed">MASARIDAE.</span></h4>
+
+<p>These curious wasps stand quite alone as the last group of the true
+Vespidae, and are a comparatively small family, comprising several
+distinctive genera containing altogether sixty species found in the
+Mediterranean region, South and North America, and Australia.</p>
+
+<p>They are wasp-like in waist, with the antennae thickened toward the
+tips or clubbed; the wings contain two sub-marginal cells; and the feet
+are furnished with curious toothed or rather hooked claws. The European
+species are known to build nests in the ground, forming a tunnel ending
+in a<span class="pagenum" id="Page_114">[114]</span> clay cell in which the larvae live and are fed by the mother in
+the same manner as the true wasps forming the papery nests; others
+construct clay chambers attached to twigs.</p>
+
+<p>Shuckard when he formed the typical Australian Genus <i>Paragia</i>
+named it “in allusion to its deceptive habit, which is precisely that
+of a Vespa.” Saussure wrote a monograph on the Masaridae forming
+the third part of the Vespidae published in 1856; Smith has also
+contributed to our knowledge of Australian species in the British
+Museum Catalogue 1857, and subsequently in several papers in the
+Entomological Society of London between 1864–1869.</p>
+
+<p>Seventeen species have been described in the Genus <i>Paragia</i>, but
+nothing has been recorded about their habits or life history: several
+are described from Tasmania and New South Wales, but all the specimens
+in my collection come from the northern part of Australia.</p>
+
+<p><i>Paragia decipiens</i> was described and figured by Shuckard in the
+Transactions of the Entomological Society, 1837; it measures under ¾ of
+an inch in length, and is of a general black colour, with the front and
+sides of the thorax spotted with yellow, and the whole of the smooth
+rounded abdomen of the same bright colour except the base, which is
+black; the wings are smoky brown, with the nervures black. <i>Paragia
+bicolor</i> is a larger insect measuring nearly 1 inch in length; the
+head and thorax are black, and the abdomen bright metallic blue; the
+under surface and sides of the first three segments, and the base of
+the thorax, are marked with bright yellow.</p>
+
+<hr class="r25">
+
+<h4>Family 22. Bees.<br>
+<span class="subhed">ANTHOPHILA or APIDAE.</span></h4>
+
+<p>The Australian region is rich in bees peculiar to the country; and
+while we have representatives of many of the foreign groups, yet
+several well-known genera, such as <i>Apis</i>, <i>Bombus</i>,
+<i>Eucera</i>, <i>Colletes</i> and <i>Osmia</i>, though ranging over
+the greater part of the world, are unknown in Australia.</p>
+
+<p>The classification of the bees is still somewhat unsatisfactory.
+Latreille termed them <span class="smcap">Mellifera</span>, honey gatherers, or
+<span class="smcap">Anthophila</span>, lovers of flowers: Westwood and others, while
+keeping this as a group name, subdivided them into two large families,
+<span class="smcap">Andrenidae</span>, short-tongued bees, and <span class="smcap">Apidae</span>,
+long-tongued bees, dividing the last family into five smaller groups
+based upon their different structure and<span class="pagenum" id="Page_115">[115]</span> habits. The European bees
+have been since placed under six headings; while in Dalla Torre’s
+Catalogue dealing with the bees of the whole world, there are no less
+than fourteen sub-families. Most of our species have been described
+by Smith, in the British Museum Catalogue, Hymenoptera 1853; others
+in the Transactions of the Entomological Society 1862–68, and New
+Species, British Museum 1879. Cockerell (Ann. &amp; Mag. Nat. History 1905)
+described a number of new species of our bees examined by him in the
+British Museum Collections, and added some interesting information on
+species already described; as many of these specimens were collected
+by Turner, Walker, and myself and sent to the British Museum, the
+Australian localities are given.</p>
+
+<p>None of the short-tongued bees store up honey, but form cells or
+burrows in the ground, walls, cavities in rocks, or the stems of
+plants, in which they form a row of cells or little chambers each
+containing an egg and sufficient bee bread for the development of the
+larva. Some of these bees are parasitic, and live at the expense of
+the industrious species, crawling into the open nests and laying their
+eggs upon the food supply of the rightful occupant; these are popularly
+known as “cuckoo bees.”</p>
+
+<p>The members of the Genus <i>Prosopis</i> are handsome, shining black or
+steel blue bees, marked with bright yellow upon the face and thorax.
+With the additions that Cockerell has made to the list, nearly fifty
+species are described from Australia, and a number are common in the
+vicinity of Sydney. <i>Prosopis vidua</i>, our largest species, but
+considerably smaller than the honey bee, is found upon the crimson
+flowers of the bottlebrush (<i>Callistemon</i>). It has the head and
+thorax black, with a yellow spot on the face and the base of each fore
+wing; the abdomen is bright metallic blue. A smaller undetermined
+species may be often noticed hovering round and entering holes in
+the soft sandstone rocks where it appears to nest. <i>Prosopis
+metallica</i>, a shining black species, smaller than <i>P. vidua</i>,
+with face and shoulders broadly marked with yellow, was bred out of
+a row of half a dozen brown papery cocoons placed in an empty burrow
+formed in the branch of a wattle tree by the larva of some longicorn
+beetle.</p>
+
+<p><i>Lamprocolletes plumosus</i> and several other species of the genus
+frequent the flowers of the Leptospermum. It is a handsome dark brown
+bee, under ½ an inch in length. The abdomen has a metallic sheen, and
+the head and thorax are clothed with fine down.</p>
+
+<p><i>Hylaeoides concinnus</i> is a very remarkable looking black<span class="pagenum" id="Page_116">[116]</span> bee,
+with clouded smoky wings, marked with bright red on the face, and
+with bands of the same colour on the base and tip of the abdomen. I
+have usually captured this bee upon bushes; it bears such a decided
+superficial resemblance to a small clay nesting (<i>Odynerus</i>)
+wasp, that this may be a case of protective mimicry. The Genus
+<i>Paracolletes</i> has been added to by Cockerell, who describes
+twelve new species in his recent papers. <i>Paracolletes crassipes</i>
+was described by Smith from W. Australia, but it is common on low scrub
+in the early part of the year on the Blue Mountains N.S.W. It is a
+handsome black bee about ½ an inch in length, with the head and thorax
+thickly clothed with pale buff hairs, and the abdominal segments banded
+on the upper surface with dull brown.</p>
+
+<p><i>Gastropsis (Oestropsis) pubescens</i> is nearly as large as a honey
+bee, with curious thickened antennae, slender at the basal joint. It
+is somewhat flattened on the upper surface and clothed all over with a
+dense coat of pale buff coloured hairs, only showing indistinct brown
+bars on the abdomen. I know nothing about the habits of this curious
+bee; it has been described from Western and South Australia.</p>
+
+<p>The Genus <i>Halictus</i> is represented by about thirty described
+species; nothing has been recorded about the habits of our species,
+but most of the European form galleries in the ground connected with a
+large excavation or chamber in which the larvae are placed in cells.
+<i>Halictus floralis</i> is a small bee with a reddish brown body; the
+front of the head, antennae, legs, front and middle of thorax are light
+yellow. <i>H. bicingulatus</i> is black with the legs reddish brown,
+and the segmental divisions of the abdomen light coloured. They are
+found on grass and field flowers. <i>Nomia australica</i>, under ½ an
+inch in length, is common on the flowers of the <i>Leptospermum</i>; it
+is a dull, metallic blue bee with antennae, labrum, legs, and extreme
+tip of abdomen reddish brown. The latter has a greenish sheen, and
+is somewhat heart shaped, terminating in a fine point. Cockerell has
+added six new species to our list, most of which are described from
+Queensland.</p>
+
+<p><i>Exoneura froggatti</i> is a little bee not much over ¼ of an inch
+in length, black with smoky rings, reddish legs and a curiously
+sack-shaped reddish brown abdomen, broadest near the apex, but
+contracted to a point at the tip. I have frequently cut them out
+of small burrows in the dead stems of wattle trees. <i>Exoneura
+bicolor</i> is a slightly larger species, with a darker, broader
+abdomen, and it comes from Queensland. Cockerell has added three
+more new species, all from the neighbourhood of Sydney. The great
+Carpenter Bees of the Genus <i>Xylocopa</i> are represented by four
+species, which<span class="pagenum" id="Page_117">[117]</span> are more common in Queensland and the northern parts of
+Australia; but one species at least, <i>Xylocopa aestuans</i>, ranges
+southwards. It is of the typical broad form with dark coloured wings;
+the upper surface of the thorax is clothed with yellow, other portions
+with black hairs. <i>Xylocopa bryorum</i> is a larger species measuring
+about 1 inch in length, with a wing expanse of nearly two; the whole
+of the upper surface is thickly clothed with golden yellow hairs, the
+brown beneath giving it a greenish tint. The wings are light brown with
+black nervures, and the hairs on the legs and under-surface are dark
+brown to black.</p>
+
+<p>The closely allied Carpenter Bees of the Genus <i>Lestis</i> are
+peculiar to Australia. The male of <i>Lestis bombylans</i> measures
+over ½ an inch in length, and is of a rich metallic green, with the
+front of the face striped with white; the thorax and base of abdomen
+are clothed with golden hairs, those on the front of the thorax forming
+a double bar; the hairs on the front pair of legs yellow, those on
+the hind pair black; the wings are brown with faint iridescence. The
+female has the face silvery, but no yellow down upon the thorax; the
+abdomen is deep purple; and the wings almost opaque, varying from
+dark brown to rich metallic violet colour in different lights. The
+second species, <i>Lestis aerata</i>, is slightly larger, with the
+stripe on the face of the male yellow, and all the legs fringed with
+yellow pubescence, while the female is of a uniform brassy green,
+with wings light coloured, more like those of the males, and only
+showing a slight iridescence. Both species have a wide range; those
+about Sydney form their nests in the dead flower stalks of the grass
+trees (<i>Xanthorrhoea</i>). It begins by boring a circular hole 3½
+lines in diameter towards the centre, then turns downward, excavating
+all the pith to a depth of about 4 inches, and then works out about
+the same distance above the opening, so that the full length of the
+chamber is 8 inches, with an average of ½ an inch in diameter. This is
+divided off into a row of cells, each about ½ an inch in length, with
+a ball of bee bread and an egg deposited in the far end; each cell is
+separated by a stout wad of triturated pith. I have never found the
+centre of the chamber in front of the opening closed up with cells,
+a space always being left unoccupied on both sides. The larvae are
+of the usual cylindrical form, attenuated at the extremities, and
+of a dull white colour, about ½ an inch in length, and can be found
+in all stages of development in November. The pretty banded bees,
+formerly known under the name of <i>Anthophora</i>, but now placed<span class="pagenum" id="Page_118">[118]</span> in
+the Genus <i>Podalirius</i>, are world wide in their range. All our
+species have the head and thorax clothed with a dense coat of buff or
+pale yellow hairs, and the body banded with black and blue of various
+tints. <i>Podalirius emendatus</i>, our largest species, is found on
+the northern rivers of N.S. Wales and is common in Queensland; it
+has the head and thorax covered with rusty red pubescence, and the
+low abdominal bands broad. <i>P. cingulatus</i> is slightly smaller,
+with the pubescence pale buff, the abdominal bands much the same;
+<i>P. pulcher</i>, much smaller, with the pubescence darker, is our
+commonest species about Sydney. <i>P. aeruginosus</i> has the whole
+of the abdomen as well as the head and thorax thickly clothed with a
+dull greenish yellow pubescence. My specimens of this species come
+from Mackay, Queensland. Five new species are added to this genus by
+Cockerell.</p>
+
+<p>The Genus <i>Crocisa</i> contains a few very handsome moderate sized
+bees of a uniform black colour with smoky rings, and brightly marked
+bodies. <i>Crocisa albo-maculata</i>, our largest species, has the
+face, upper and under surface, and legs thickly marked and spotted
+with white pubescence. It is a somewhat rare insect about Sydney.
+<i>C. lamprosoma</i> is a smaller bee with the marks and spots pale
+blue, those upon the abdomen forming a more regular pattern of four
+well defined rows. In <i>C. nitidula</i> the pubescence forms rich
+metallic blue spots and blotches, most brilliant on the upper surface
+of the abdomen, where they run right round the basal segment and form a
+regular row of short bands on either side but not meeting on the dorsal
+surface. It is found in New South Wales and Queensland.</p>
+
+<p class="p2 smaller center">Plate XVI.—HYMENOPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Apidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>1. <i>Xylocopa aestuans</i> (Linn.). ♂.</li>
+  <li>1. <i>Xylocopa aestuans</i> (Linn.). ♀.</li>
+  <li>2. <i>Lestis aeratus</i> (Smith). ♀.</li>
+  <li>2. <i>Lestis aeratus</i> (Smith). ♂.</li>
+  <li>5. <i>Crocisa nitidula</i> (Fabr.).</li>
+  <li>6. <i>Crocisa lamprosoma</i> (Boisd.).</li>
+  <li>7. <i>Sarapoda bombiformis</i> (Smith).</li>
+  <li>8. <i>Megachile pictiventris</i> (Smith).</li>
+  <li>9. <i>Megachile blackburni</i> (Froggatt).</li>
+</ul>
+</div>
+
+<p class="center smaller">Family <span class="smcap">Andrenidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>&ensp;3. <i>Hyleoides concinna</i> (Fabr.). ♀.</li>
+  <li>10. <i>Paracolletes crassipes</i> (Smith).</li>
+</ul>
+</div>
+
+<p class="center smaller">Family <span class="smcap">Eumenidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>4. <i>Abispa splendida</i> (Guérin).</li>
+  <li>11. <i>Odynerus nigro-cinctus</i> (Saussure).</li>
+  <li>12. <i>Rhynchium mirabile</i> (Saussure).</li>
+  <li>14. <i>Eumenes arcuatus</i> (Fabr.).</li>
+</ul>
+</div>
+
+<p class="center smaller">Family <span class="smcap">Sphegidae</span>.</p>
+
+<p class="center smaller">13. <i>Ammophila impatiens</i> (Smith).</p>
+
+<p class="center smaller">Family <span class="smcap">Philanthidae</span>.</p>
+
+<p class="center smaller">15. <i>Cerceris sp.</i></p>
+
+<p class="center smaller">Family <span class="smcap">Vespidae</span>.</p>
+
+<p class="center smaller">16. <i>Polistes tepidus</i> (Fabr.).</p>
+
+<p class="center smaller">(Original photo. Burton.)</p>
+
+  <div class="figcenter" id="plate16">
+     <p class="p1 sm center"><i>Plate XVI.—HYMENOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate16.jpg"
+    alt="">
+  </div>
+
+<p>The great Genus <i>Megachile</i> contains the leaf-cutting bees, so
+called from the curious habit they have of cutting circular pieces
+out of the leaves of growing plants with which they line their nests;
+these are sometimes built in excavations in old walls, or dead wood,
+or simply constructed like a cigar under stones. About 30 species
+have been described from Australia; the two largest are <i>Megachile
+monstrosa</i>, figured in Brenchley’s “Cruise of the Curaçoa,”
+published in 1873; and <i>M. blackburni</i>, described by me from
+specimens obtained from Central Australia by the Elder Exploring
+Expedition. <i>Megachile mystacea</i>, a medium sized species found
+in Queensland and Northern Australia, is also recorded from India;
+it is black, with the head and face clothed with silvery hairs, and
+the whole of the abdomen covered with rich reddish brown pubescence;
+while <i>M. pictiventris</i> has the hind margin of the thorax clothed
+with silvery hairs, the apical half of the under-surface with reddish
+brown hairs which extend to form a fringe round the extremity.<span class="pagenum" id="Page_119">[119]</span>
+<i>M. chrysopyga</i> is a native of Tasmania and Victoria. I found a
+nest of this species under a stone in the latter State, which could be
+lifted up bodily without breaking. It was about the shape and length
+of an ordinary cigar, and consisted of about nine cells containing the
+larvae. These cells, like a series of shallow thimbles, were enfolded
+in the outer shell of looser leaf.</p>
+
+<p>The Genus <i>Coelioxys</i> comprises a number of curious bees that in
+general appearance are so very like the “leaf cutters,” that a French
+naturalist having bred one out of a Megachile’s nest described it as
+the male form of the species. They are now known to be parasitic in the
+nests of these bees in Europe, so that the similarity in form may be
+of great protective value to them. They differ chiefly in the form of
+the abdomen, which in the males is produced into forked spines at the
+extremity, and in the females into a sharp point.</p>
+
+<p>I have two undetermined species in my collection from Queensland
+obtained some years ago, but until last year the presence of this group
+had not been recorded from Australia. Cockerell recorded (1905) two
+species from this country; <i>Coelioxys albolineata</i>, measuring
+about ⅓ of an inch in length, comes from Queensland, and is of the
+usually grey and brown tints.</p>
+
+<p>The last group we have to deal with are the Australian stingless
+honey bees, belonging to the Genus <i>Trigona</i>, which range all
+over Australia. They collect quantities of dark coloured somewhat
+acid flavoured honey, which they store up in little jug-shaped cells
+of dark brown wax, forming an irregular comb attached to the walls
+of the cavity in which they have constructed their hive by a network
+of irregular rods of wax. They generally choose a cavity in the
+heart of a large gum-tree with a small opening from the outside, and
+before commencing to make their comb they plaster up all the cracks
+and inequalities of the chamber with the sticky sap or gum of the
+Turpentine Tree (<i>Syncarpia</i>). This chamber is usually about the
+size of a man’s head, and the comb as a rule contains not more than a
+pint or two of honey. This is the typical nest found in N.S. Wales,
+but in the tropical scrubs of North Queensland many of them form a
+small funnel or spout projecting round the opening, composed of a
+waxy-substance an inch or more in length. As the green tree ants often
+capture these bees and are always swarming over the tree trunks, this
+is probably a necessary protection. The honey gatherers of <i>Trigona
+carbonaria</i>, our common species, are black, thickset little bees
+measuring about ⅙ of an inch in length. They are fearless little
+creatures when at work, and will allow themselves to be picked off the
+flowers without any attempt to fly. Several<span class="pagenum" id="Page_120">[120]</span> species have been recently
+added to our fauna, and though Dalla-Torre in his Catalogue places the
+members of the genus Trigona in the <i>Melipona</i>, which until then
+had only contained the allied stingless bees of South America and the
+tropics, Cockerell retains them in the old genus, describing a new
+species from Port Essington, and recording a species known in Ceylon
+(<i>Trigona canifrons</i>) also from the north coast of Australia.</p>
+<hr class="chap x-ebookmaker-drop">
+
+<div class="chapter">
+<p><span class="pagenum" id="Page_121">[121]</span></p>
+
+<h2>Order V.—COLEOPTERA.<br>
+<span class="subhed">Beetles.</span></h2></div>
+
+
+<p>This group is the best known of all the orders, for nearly every
+entomologist starts collecting as a “beetle hunter.” They are the most
+frequently observed because they are found everywhere; there is hardly
+a log or stone that does not shelter some beetle; they infest all kinds
+of timber, damage the living trees in the forest, devour foodstuffs,
+stored grain, skins, furs and drugs; others are attracted to all kinds
+of decaying animal or vegetable matter; while hundreds either in the
+larval or perfect state are to be found all through the year upon the
+flowers, foliage, or bark of trees and plants.</p>
+
+<p>Thus they are readily collected, and when obtained are much more easy
+to look after and keep than the more delicate insects, on account of
+their stout horny structure.</p>
+
+<p>Beetles are typical insects in that the head, thorax, and abdomen are
+very well defined, and can be readily distinguished from each other;
+the insect is more or less protected with a stout horny integument.
+But the joints are flexible, so that though the parts fit close and
+the body appears ensheathed in regular armour plate, most of the
+species are very active. They are all furnished with cutting, biting,
+or chewing jaws, and are therefore called mandibulate insects; and
+with very few exceptions have well developed eyes and antennae, the
+latter produced into all kinds of curious shapes in some groups, but
+usually slender, filiform and many jointed. The thorax consists of one
+solid segment, the three portions, so apparent in some insects, being
+soldered together to form one uniform mass when viewed from above. The
+large abdomen is said to contain ten distinct segments on dissection,
+but when viewed from the under-surface generally only five can be seen.
+Instead of the thin flying, or membranous fore-wings of other insects,
+the first pair in the beetles are transformed into two horny plates
+completely covering the dorsal surface of the abdomen and called the
+elytra. When at rest they fit close together over the back, but can
+be readily opened out in flight. Though of little use in flying, they
+probably assist a large heavy beetle in balancing or steering through
+the air, and always cover the two large pointed membranous hind flying
+wings, which when not in use are folded up beneath them. In some<span class="pagenum" id="Page_122">[122]</span>
+beetles the elytra are not divided, but form a solid shield; and the
+hind wings are wanting, or if they exist are simple pads. The various
+families have the head, mouth parts, and legs admirably adapted to
+their different habits and diet.</p>
+
+<p>Their larvae are also as variable in form as the perfect insects; many
+are active, slender grubs with three pairs of legs, and large powerful
+jaws, as in the carnivorous species; elongate cylindrical jointed
+creatures with scaly heads, or short and wrinkled grubs like the wood
+borers; others quite slug-like feed upon the surface of the foliage;
+and a few are clothed with fine hairs.</p>
+
+  <div class="figcenter" id="fig54" style="max-width: 386px">
+     <img
+    class="p1"
+    src="images/fig54.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 54.</b>—Diagram of a Water-Beetle, showing the
+Dorsal surface.</p>
+     <p class="p0 smaller hangingindent">1, Labrum; 2, clypeus; 3, head; 4, prothorax; 5, maxillary
+palpus; 6, antennae; 7, eyes; 8, elytron; 9, wings; 10,
+scutellum; 11, abdominal segments; 12, scutellum of the
+metathorax; 13, claws of the feet or the fore leg; 14, tarsus;
+15, tibia; 16, femur; 17, middle leg; 18, spines or spurs on
+tibia; 19, tarsus; 20, hind leg.</p>
+     <p class="p0 smaller center">(Redrawn from Westwood [Griffiths’ Animal Kingdom].)</p>
+     </div>
+
+<p>In the pupal state, for all beetles undergo a complete metamorphosis,
+they are inactive, mummy-like creatures showing the outlines of the
+future beetle, with the wings, antennae, and legs closely folded down,
+and the whole enveloped in a thin membrane. Some form regular cocoons
+from the<span class="pagenum" id="Page_123">[123]</span> material among which they feed; others seal up at both ends
+the cavity in which they have been feeding before they pupate; but many
+do not even take this precaution.</p>
+
+<p>The classification of the Coleoptera has been undertaken by many
+entomologists. In Gemminger and Harold’s great Catalogue of the
+Coleoptera, seventy-five families were enumerated; Sharp has recently
+adopted eighty, but when it comes to the larger sub-divisions none
+of them agree. Westwood in his Classification has an alarming array
+of sections, tribes, stirps, and sub-families: Kirby gives fourteen
+sections in his Text Book; while Sharp simplifies the matter by forming
+six series, some of them on the old lines, but his third series is
+apparently more of a dumping ground than anything else for those that
+will not fit into the other five, for it includes such dissimilar
+families as the Staphylinidae, Buprestidae, Coccinellidae and many
+others.</p>
+
+<p>As Masters’ Catalogue of the Described Coleoptera of Australia is the
+list used by all Australian collectors, I shall follow his grouping
+of the families (originally based on that of Gemminger and Harold),
+defining the groups of each important or distinct family, though
+through want of space many of them can be only briefly noticed.</p>
+
+<p>There have been so many describers of Australian beetles, that their
+names alone would take some enumerating; so that I propose to omit them
+here and notice them later on when dealing with the families upon which
+they have worked. Australia is rich in large and handsome specimens,
+which attracted the attention of the colonists at a very early date
+in the history of the country, and quite a number of collections were
+made and the specimens forwarded to England. Most of the exploring
+expeditions that traversed the back country had a collector of some
+sort on their staff, and it was usually beetles that formed the bulk of
+the entomological specimens obtained. Again the Scientific Exploring
+Ships, fitted out by our own and foreign countries, that visited the
+different ports, collected many zoological specimens, so that many
+of our larger beetles were known and described many years ago. Over
+7,200 are listed in Masters’ Catalogue, and since its publication some
+thousands have been added to our list.</p>
+
+<p><span class="pagenum" id="Page_124">[124]</span></p>
+
+<hr class="r25">
+
+<h4>Family 1. Tiger Beetles.<br>
+<span class="subhed">CICINDELIDAE.</span></h4>
+
+<p>This family is well represented in Australia by about forty-five
+species, chiefly described by Macleay (Trans. Ent. Soc. N.S.W. 1871),
+and later on (Proc. Linn. Soc. N.S.W., 1887–8); and Count Castelnau
+(Trans. Royal Soc. Victoria). The typical Tiger Beetles are slender
+graceful insects, with broad short heads, furnished with large
+projecting eyes, and great powerful jaws; the thorax is produced into a
+cylindrical neck; and the short rounded elytra cover large wings.</p>
+
+  <div class="figcenter" id="fig55" style="max-width: 231px">
+     <img
+    class="p1"
+    src="images/fig55.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 55.</b>—<i>Megacephala cylindrica</i> (Macleay).</p>
+     <p class="p0 smaller center">The Metallic Green Tiger Beetle.</p>
+     <p class="p0 smaller center">(Original photo. Burton.)</p>
+     </div>
+
+<p>The larvae are elongated creatures, with large curving jaws; they
+live in burrows in the ground, generally in the vicinity of a
+waterhole or creek where there is a sandy shore; here they remain
+hidden during the day, and come out at night to capture and devour
+the less powerful insects they come across. One of our largest and
+most handsome species is <i>Megacephala cylindrica</i>, found in the
+western country, where it hides deep down in the cracks of the soil;
+it lives chiefly upon ants. It measures over ¾ of an inch in length,
+and is of a rich metallic green colour: the mouth, antennae and legs
+are brownish yellow. A second species, <i>M. frenchi</i>, has been
+recently described by Sloane, and ranges from North West Queensland
+into Western Australia. The Genus <i>Tetracha</i> contains a number
+of handsome, shorter, broad-bodied Tiger Beetles with green metallic
+tints and reddish brown or yellow legs, and similar coloured markings
+on the wing covers. They form burrows, like their larvae, along the
+sandy margins of rivers and water-holes, coming out and running along
+the water’s edge at twilight, and often flying into the lamp at night.
+<i>Tetracha australis</i> has a wide range from the Murray river to the
+interior; I have dug them out of the sand round an artesian bore near
+the<span class="pagenum" id="Page_125">[125]</span> Queensland border. It is smaller than the previously described
+one, which it somewhat resembles in general colour, but can be easily
+distinguished by the larger jaws, shorter body, and the elytra tipped
+with yellow near the apex.</p>
+
+<p><i>T. australasiae</i> and <i>T. hopei</i> are smaller species, dull
+green, marked with reddish brown on the wing covers; they are found in
+North West Australia, while several other species are recorded from
+Queensland.</p>
+
+<p>The <i>Cicindela</i> are not common about Sydney; two species, however,
+are to be found; <i>Cicindela ypsilon</i>, about ½ an inch long, is
+so named from the dark markings on the cream-coloured wing cases
+resembling the Greek E; they are to be found running about on the
+seashore in hundreds in midsummer, and can easily be caught by throwing
+a handful of sand over them: though so numerous, I have never been able
+to find their larvae. In captivity one ate raw beef quite readily,
+burying its jaw in the strange food and sucking up the juice.</p>
+
+<p><i>C. circumcincta</i> is a smooth, dark green beetle with the outer
+edges of the wing covers marked with yellow; it is sometimes taken
+about Sydney, but is not very common.</p>
+
+<p>The smallest Australian species is <i>C. tenuicollis</i>, described
+by Macleay from specimens I collected on a sandy flat near the
+Barrier Ranges in N.W. Australia; it is a rich, metallic red insect
+with slender legs and small thorax. On a sandy road near Cairns, N.
+Queensland, several small species were so plentiful that they often
+flew up in clouds, and I have taken scores in half an hour with a
+butterfly net.</p>
+
+<p>The tropical Genus <i>Distypsidera</i> is represented by about a dozen
+species, chiefly confined to North Queensland, where they hunt over the
+stems of trees; when approached they run round the trunk to keep out of
+sight; they are broader and more thickset than the <i>Cicindela</i>,
+and their eyes are very large and prominent; <i>D. flavicans</i> is the
+only one that comes down as far as Northern N.S. Wales.</p>
+
+<p>The researches of Hacker in North Queensland have added several new and
+interesting species of Tiger Beetles from the Coen River, some of which
+are closely allied to New Guinea forms.</p>
+
+<p><span class="pagenum" id="Page_126">[126]</span></p>
+
+<hr class="r25">
+
+<h4>Family 2. Carnivorous Ground Beetles.<br>
+<span class="subhed">CARABIDAE.</span></h4>
+
+<p>These are broader and thicker set than the Cicindelidae, varying in
+size from several inches to a line in length; the head is smaller than
+the thorax; and most of them are black or reddish brown, while others
+are richly marked with metallic tints.</p>
+
+<p>They are most numerous in open forest country, hiding under logs or
+stones during the day and hunting over the ground at night: when camped
+in the bush, where logs are plentiful, the entomologist can often trap
+many interesting species by sinking empty tins into the soil, into
+which they readily tumble.</p>
+
+<p>The larvae are slender creatures with three pairs of simple legs; their
+bodies are protected with stout horny plates, and the head is furnished
+with large powerful jaws; they are found in the same situations as the
+adult beetles, and devour all kinds of insects that they can capture;
+the larger ones even eat small frogs. This family has been divided
+into a great number of sub-families which it is hardly necessary to
+enumerate here.</p>
+
+<p>Australia is very rich in <i>Carabidae</i>; over 1,600 species have
+been described. Chaudoir described many in Russian and Belgian; Newman,
+Westwood, Pascoe, Hope, and Bates in English; Castelnau, Macleay,
+and Sloane in Australian scientific journals; so that the literature
+dealing with these beetles is very scattered, but the references can be
+found in Masters’ Catalogue.</p>
+
+<p><i>Calosoma schayeri</i> is our type of this cosmopolitan genus. They
+live in cavities in cultivated fields, and are very useful insects
+where numerous, for they devour the larvae and pupae of many species of
+cut-worms. It measures about 1 inch in length, has a small head, narrow
+rounded thorax, and very broad, short, rounded abdomen; the whole is
+bright metallic green. It has a wide range over Australia, and may
+sometimes be even taken in the Sydney streets.</p>
+
+<p>The Genus <i>Pamborus</i> contains many distinctive black beetles, some
+of which are marked with coppery green tints; they measure up to 1 inch
+in length, and are broad in proportion. When captured, many of them
+discharge an acrid fluid or gas that stains the fingers reddish brown.</p>
+
+<p><i>Pamborus viridis</i> is black, with the wing covers thickly ridged
+with parallel punctured striae marked with green.</p>
+
+<p><i>P. alternans</i> is a larger beetle, 1¼ inches long, with the
+same small head, and rounded thorax tapering and narrow<span class="pagenum" id="Page_127">[127]</span> behind; the
+coppery-tinted elytra have very broad parallel ridges.</p>
+
+  <div class="figcenter" id="fig56_59" style="max-width: 350px">
+     <img
+    class="p1"
+    src="images/fig56_59.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Figs. 56–59.</b>—Typical Carabidae.</p>
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>56. <i>Helluo costatus</i> (Bonelli). The Desert-Carab.</li>
+  <li class="hangingindent">58. <i>Hyperion schroetteri</i> (Schreib.). The Forest-Carab.</li>
+  <li class="hangingindent">57. <i>Trichosternus renardi</i> (Chaud.). The Scrub-Carab.</li>
+  <li class="hangingindent">59. <i>Catadromus australis</i> (Casteln.). The Swamp-Carab.</li>
+</ul>
+</div>
+     <p class="p0 smaller center">(Original photo. Burton.)</p>
+     </div>
+
+<p><i>Drypta australis</i> is a small beetle about 5 lines in length;
+it has a pointed head, large projecting eyes, and the thorax forms a
+cylindrical neck hardly broader than the head; the wing covers do not
+quite cover the tip of the abdomen. In<span class="pagenum" id="Page_128">[128]</span> general colour it is yellowish
+brown, with the antennae, legs, a broad stripe down the centre and the
+edges of the wing covers dark purple to black; the wing covers are very
+finely striated and punctured. They live on the edges of swamps, and
+sometimes fly into the lamp at night.</p>
+
+<p>A beetle with a very wide range is <i>Helluo costatus</i>; it is a
+medium sized brown beetle; the head and thorax are about the same
+length, the latter rounded on either side in front but narrowed behind;
+the wing covers are flattened, broadly ridged, and not reaching to the
+tip of the abdomen.</p>
+
+  <div class="figcenter" id="fig60" style="max-width: 300px">
+     <img
+    class="p1"
+    src="images/fig60.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 60.</b>—<i>Pheropsophus verticalis</i> (Dejean).</p>
+     <p class="p0 smaller center">The Yellow Bombardier Beetle which discharges an acrid gas when
+disturbed.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>Our Common “Bombardier Beetle,” <i>Pheropsophus verticalis</i>, is
+another widely distributed species; it measures over ½ an inch in
+length, and is of a general dark brown tint, with the head, antennae,
+and thorax dull yellow; the wing covers, which do not reach to the
+tip of the abdomen, are blotched on either side and the tip with the
+same colour. It can be found in any damp spot under stones or logs;
+and as soon as disturbed, it discharges a small cloud of vapour with a
+distinct report, and which feels quite warm to the fingers.</p>
+
+<p>The Genus <i>Scopodes</i> contains a number of tiny beetles that are
+common on the plains and about crabholes and swamps.</p>
+
+<p><i>Scopodes sigillatus</i> has the wing covers roughened, and measures
+about 2 lines in length; with its large projecting eyes it might be
+mistaken for a small Tiger Beetle.</p>
+
+<p><span class="pagenum" id="Page_129">[129]</span></p>
+
+<p>We now come to a group, <span class="smcap">Pseudomorphides</span>, comprising a number
+of genera that live under the loose bark on tree trunks; they have
+adapted themselves to their confined hiding places, so that they have
+become flattened and rounded, and even remarkable in colouration; and
+so, unless a collector carefully examines them, he would never at first
+sight think of including them among the Carabidae.</p>
+
+<p>The Genus <i>Silphomorpha</i>, in which over 40 species have been
+described, are yellow and black, or yellow and brown beetles up to ½
+an inch in length; all their parts fit close together into a convex or
+oval form very like some of the water-beetles.</p>
+
+<p><i>Silphomorpha colymbetoides</i> and <i>S. nitiduloides</i> are found
+about Sydney. The first has the head and thorax reddish brown, the
+elytra pale yellow broadly blotched in the centre with black: the
+second, much larger (¼ of an inch in length) is blackish, and the
+centre only of each wing cover blotched with dull yellow.</p>
+
+<p>The members of the Genus <i>Adelotopus</i> are mostly black, narrow,
+and shield-shaped, with the tips of the wing covers truncated; while in
+<i>Philophloeus</i>, though very thin and flattened, they have the head
+and thorax well divided from the broad abdomen; and are dull yellow,
+striped, and barred with darker brown.</p>
+
+<p>Turning from these we come to the giant of all our carabs, <i>Hyperion
+schroetteri</i>, which lives in cavities in tree trunks, where it is
+often found by splitters in the red gum forests in Victoria and N.S.
+Wales. I have taken it at night round the camp fire on the Murray
+frontage. It is shining black, and measures 2½ inches in length, but
+being narrow in proportion it appears much longer than it really is;
+while with its large elongate head and immense jaws it is a very
+formidable-looking creature.</p>
+
+<p>The next in order is a large and interesting group, the
+<span class="smcap">Scaritides</span>, which are not only wingless, but have the wing
+covers soldered together into one solid armour plate; their legs are
+adapted for digging, and many of them live in underground tunnels
+of considerable length. In most species the head, armed with large
+powerful jaws, fits close into the thorax, so that they move together;
+and in some groups the insect appears to be formed only of two parts,
+for the head and thorax taken together are as long and broad as the
+abdomen. After a heavy fall of rain in the interior, some species
+may be found in numbers under logs and stones, driven out of their
+holes and deep burrows. They are much sought after by collectors; and
+Macleay, Blackburn, and Sloane have described a number of curious
+species.</p>
+
+<p><i>Eutoma tinctilatum</i>, found about Sydney, and typical of the<span class="pagenum" id="Page_130">[130]</span>
+elongate slender Scaritides, was described by Newman many years ago,
+and figured by Westwood in his “Arcana Entomologica 1841”; it is a
+shining black beetle about 8 lines in length.</p>
+
+<p><i>Carenum bonelli</i>, the commonest Sydney species of this genus,
+measures about ¾ of an inch and is broad in proportion; it is black,
+with bright metallic green tints on thorax and elytra.</p>
+
+<p>The members of the Genus <i>Philoscaphus</i> are short and broad, with
+the elytra covered with rows of warts.</p>
+
+<p><i>P. tuberculatus</i> has a wide range over the western country; it
+measures over 1 inch in length; is black; the head and thorax are
+broader than the body; the latter oval, with the elytra finely rugose.</p>
+
+  <div class="figcenter" id="fig61" style="max-width: 300px">
+     <img
+    class="p1"
+    src="images/fig61.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 61.</b>—<i>Euryscaphus lobicollis</i> (Sloane).</p>
+     <p class="p0 smaller center">The Great Ground Scaritid Beetle, found in the interior.</p>
+     <p class="p0 smaller center">The Genus <i>Euryscaphus</i> contains the giants of the group.</p>
+     </div>
+
+<p><i>Euryscaphus titanus</i>, a shining black beetle, is nearly 2
+inches in length, and measures ¾ of an inch across the elytra; while
+<i>E. lobicollis</i>, a smaller beetle, has the body still broader in
+proportion to its size; both these and several other fine species are
+not uncommon on the Western Australian goldfields about Kalgoorlie.</p>
+
+<p>The allied <span class="smcap">Clivinides</span>, recently monographed by Sloane (Proc.
+Linn. Soc. N.S.W. 1896) are like elongate miniature Carenums furnished
+with dilated fore-legs adapted for digging; they are generally taken
+along the edges of swamps and watercourses under logs or the debris on
+the soft mud.<span class="pagenum" id="Page_131">[131]</span> They are world wide in their distribution, and are most
+plentiful in the warmer portions of the globe: Australia is rich in
+species: Sloane lists 55 species in his paper.</p>
+
+<p><i>Clivina basalis</i> has a wide range over S. Australia, Victoria,
+and N.S. Wales; it measures ¼ inch; is black, with the basal portion of
+the elytra and the legs red.</p>
+
+<p><i>C. australasiae</i>, slightly larger, is all black; it has a similar
+range, and is also recorded from New Zealand and Lord Howe Island.</p>
+
+<p>The next group comprise the typical <i>Chlaenius</i>; they are rather
+long-legged beetles with a small head and somewhat heart-shaped
+thorax forming a slight neck behind, and with a broad, oval, convex
+abdomen. They are active beetles, generally found under stones or wood
+near water-holes; many of them have a greenish dull metallic tint.
+<i>Chlaenius puncticeps</i> is black, with the legs and an irregular
+blotch at the apical half of each wing cover dull yellow. <i>C.
+maculifer</i>, from Queensland, is smaller; <i>C. laeteviridis</i>
+is dull green with the edges of the wing covers yellow; <i>C.
+marginatus</i> is a larger and brighter green beetle with the wing
+covers marked with yellow in a similar manner.</p>
+
+<p><i>Promecoderus concolor</i>, typical of the genus, is a shining
+black beetle about ½ inch in length, of a curious cylindrical shape
+with the head turned down in front. These beetles are found all over
+the interior in dry country under stones or logs. The allied Genus
+<i>Parroa</i> was formed by Castelnau for several curious beetles
+taken in the interior near the Paroo River. <i>Parroa noctis</i>, from
+Kalgoorlie, W.A., measures over 1 inch in length, and is a rounded
+solid-looking black beetle. The bulk of the species once included in
+the Genus <i>Harpalus</i> is now divided up into a number of groups;
+most of the small black carabs running about in the suburban gardens in
+the early summer belong to this division.</p>
+
+<p>The <span class="smcap">Feronides</span> comprise a number of our largest carabs:
+<i>Catadromus australis</i> measures nearly 2 inches in length, is
+broad in proportion; it is shining black with the wing covers broadly
+ridged, and their margins and the hind portion of the thorax richly
+marked with bright metallic green. <i>C. lacordairei</i> is smaller,
+and similar in general form, with the thorax smaller and the metallic
+colouration on the thorax running right round to the hind margin of
+the head. Both these beetles are found along the edges of swamps and
+lagoons in the Murray country living under dead logs, where their black
+banded larvae may also be found, sometimes feasting on small frogs.</p>
+
+<p>All the beetles known under the Genera <i>Homalosoma</i>
+and <i>Trichisternus</i> have been placed in the new Genus
+<i>Castelnaudia</i> by the Russian entomologist Tschitscherini, as
+both<span class="pagenum" id="Page_132">[132]</span> the former names were preoccupied. This group contains many large
+handsome beetles, chiefly confined to our coastal forest country, where
+they live under dead logs.</p>
+
+<p><i>Castelnaudia renardi</i> is one of the common species in the Tweed
+River scrubs; it measures 1½ inches in length; is black with the
+parallel striae on the elytra widely apart; the head very large, is
+turned down and furnished with long powerful jaws.</p>
+
+<p><i>C. imperiale</i>, from Southern Queensland, is a very handsome
+species; it is about the same size as the former but has the thorax and
+elytra more flattened; and the head, thorax, and margins of the wing
+covers are rich metallic green.</p>
+
+<p>In November I took several specimens on the top of Mt. Tambourine,
+S. Queensland, under deeply buried logs by the roadside, where they
+live in broad excavated galleries; in two nests I found three larvae
+and eggs. The former, probably by their size only a few weeks old,
+were elongate, flattened, light brown to ochreous coloured creatures,
+with the head and dorsal surface of segments chocolate brown. The
+head is broader than long, flattened, and furnished with long curved
+brown jaws, and has also a stout incurved tooth near the base of
+each jaw. They were very active creatures and lived for over a month
+in captivity. The eggs were dull yellow, ⅜ of an inch long, broadly
+rounded, and were enclosed in a thin clay shell like the rind of an
+orange.</p>
+
+<p>The Genus <i>Notonomus</i> has been recently revised by Sloane (Pro.
+Linn. Soc. N.S.W. 1902); in this paper he enumerated 72 species, a
+number of them previously undescribed. These beetles are apterous, and
+confined to the coastal forests of Eastern Australia. Sloane says:
+“From the Grampians in Western Victoria, along the coast of Eastern
+Australia as far north as the Burnett River in Queensland, and many
+species are very restricted in their range.”</p>
+
+<p><i>Notonomus australasiae</i> is one of the commonest species around
+Sydney; it measures under ¾ of an inch in length, and is of a uniform
+black colour; the broad thorax is arcuate behind the head, swelling out
+and broadly rounded on the sides; it has a rich blue metallic tint,
+and a distinct medium suture; the wing covers are distinctly striated,
+forming broad parallel ridges.</p>
+
+<p>Passing over a number of more or less important genera we finish with
+the Genus <i>Bembidium</i>, which contains a number of small active
+beetles generally found along the edges of swamps.</p>
+
+<p><i>B. ocellatum</i> is a shining black beetle under ⅙ of an inch in
+length, with a broad head, and the thorax rounded on the hind margin.</p>
+
+<p><span class="pagenum" id="Page_133">[133]</span></p>
+
+<hr class="r25">
+
+<h4>Family 3. Water Beetles.<br>
+<span class="subhed">DYTISCIDAE.</span></h4>
+
+<p>This group contains the first division of the Water Beetles; these have
+the antennae bare and filiform; short palpi and undivided eyes; the
+legs fringed with hairs, the front pair not longer than the hind pair,
+adapted for swimming. They live in the water both in the larval and
+beetle stage; the former are slender, elongate creatures, with a body
+consisting of twelve segments; the head is broad and furnished with
+powerful hollow jaws; they are very voracious creatures, devouring all
+sorts of aquatic insects, and even the smaller and weaker of their own
+species. When full grown they pupate in cells which they form in the
+soft mud.</p>
+
+<p>These beetles are perfectly at home in the water, and breathe by coming
+to the surface; turning head downwards, and with the tip of the wing
+covers slightly raised, they draw in a supply of air which occupies a
+cavity on the back, and when the elytra are closed down, the beetle can
+remain under water until the supply is exhausted. Many species can be
+easily captured in the water with a small hand-net; on a warm summer
+night numbers leave the water and come flying in to the lighted lamps.
+Many are very small, few over ½ an inch in length; they are quite as
+numerous in the colder waters of the globe as in the tropics, and many
+species have a very wide distribution.</p>
+
+<p>We have representatives of most of the typical genera; our species have
+been described by Clark (Journal of Entomology 1862), and Sharp (Trans.
+Dublin Soc. 1882).</p>
+
+<p>The members of the Genus <i>Bidessus</i> are small, brown, boat-shaped
+beetles not much over ½ an inch in length; about 18 species are listed
+in Masters’ Catalogue; <i>Bidessus bistrigatus</i> has the head marked
+with black and the wing covers clouded with dark brown; it has a wide
+range over Australia. <i>Antiphorus gilberti</i> is more than twice
+the size, has the wing covers mottled, and is common in the waters
+of Victoria and South Australia. <i>Macroporus howetti</i> is dark
+brown, more shining and slightly larger, the dark markings forming
+two irregular black bands connected by a dorsal stripe. <i>Hydroporus
+collaris</i>, from the north-west coast of Australia, measures under
+2 lines in length; it is all black with the dorsal surface convex
+and finely rugose. <i>Platynectis 10-punctata</i> was described by
+Fabricius at a very early date from Australia; it is common along the
+edges of the Murray lagoons, where it is to be found in the soft mud
+under the<span class="pagenum" id="Page_134">[134]</span> water-weeds. It is a smooth, shining black beetle, with very
+convex wing covers. <i>Rhantus pubescens</i> is an oval beetle, under ½
+an inch in length, of a dull brown colour, with the whole of the wing
+covers granulated with black. <i>Colymbetes lanceolatus</i> is a more
+elongate insect of a similar brown colour, the back of the head and
+wing covers marked with irregular parallel black lines, thickest in the
+middle. <i>Copelatus acuductus</i> is a larger shining black beetle,
+typical of the genus, of which about twenty species are described from
+this country.</p>
+
+<p><i>Cybister tripunctatus</i> is one of our largest species; it measures
+over 1 inch, and is broad and flattened in proportion; it is of a
+blackish or dark olive colour, margined right round from the front of
+the head to the tips of the wing covers with a dull yellow stripe. As
+children we often pulled these beetles out of the water hanging on
+to the bait used for catching crayfish, and we called them “clocks,”
+why I do not know. This species has a very wide range over Australia,
+and it is recorded from Lord Howe Island. It was once known under the
+name of <i>C. gayndahensis</i>. A second species has been described
+by Blackburn under the name of <i>C. granulatus</i> from the Northern
+Territory of South Australia. <i>Eretes australis</i> is another
+widely distributed species; it measures about ½ an inch; is broad and
+flattened, and is of a general yellowish brown tint, marked with black
+between the eyes, and the wing covers are finely punctured with close
+black spots.</p>
+
+<hr class="r25">
+
+<h4>Family 4. Whirligig Beetles.<br>
+<span class="subhed">GYRINIDAE.</span></h4>
+
+<p>This family, small in number of species, is well known to all lovers of
+Nature, for it contains the water beetles that float about in shoals on
+the margin of any quiet stream or waterhole, or dart about like bits of
+silver, twisting and turning round in most remarkable gyrations, from
+which they take the popular name of Whirligig Beetles.</p>
+
+<p>They are distinguished from the last family (which they resemble in the
+earlier stages of their development) in having very short antennae;
+the fore-legs much longer than the two hind pairs; and in having the
+eyes on either side divided, thus having two eyes looking down into the
+water and two above, so that they can see both sides at the same time,
+an admirable adaptation of vision for beetles living<span class="pagenum" id="Page_135">[135]</span> so much on the
+surface of the water and liable to be attacked from above or below. The
+tip of the body is not covered by the elytra, and when diving downward
+they carry a bubble of air attached to the extremity. These beetles
+are well represented in Australia, and have been described by Clark
+previously mentioned, Regimbart (Annals Soc. Ent. France 1882), Macleay
+(Trans. Ent. Soc. N.S.W. 1871), and Boisduval in the “Entomology of the
+voyage de l’Astrolabe.” Our common species about Sydney, <i>Macrogyrus
+canaliculatus</i>, is of the usual boat-shaped form, silvery black,
+with the wing covers finely striated; it measures about ½ an inch in
+length. <i>M. oblongus</i> is a somewhat smaller species not so broad
+in form; is browner, and the wing covers are very slightly striated;
+it is also found in the vicinity of Sydney. <i>M. paradoxus</i> was
+described and figured by Regimbart from Australia with no exact
+locality, but I have collected it on the North West coast of Australia,
+and seen others from Southern Queensland, so that it has a wide range.
+It is not much over ¼ of an inch in length; is dark olive; the outer
+margin is dull yellow, and it has a few fine striae on either side
+of the elytra. I have found the pupae of one species, probably <i>M.
+oblongus</i>, in clay cells attached to a bit of board on the bank of a
+waterhole in the western country of N.S. Wales.</p>
+
+<hr class="r25">
+
+<h4>Family 5. Clubbed-horned Water Beetles.<br>
+<span class="subhed">HYDROPHILIDAE.</span></h4>
+
+<p>This family is also known under the Group <i>Palpicorna</i> in
+reference to the clubbed antennae, and made to include a second family,
+which are very closely allied but are terrestial in their habits.</p>
+
+<p>These beetles have five jointed tarsi; short clubbed antennae, with the
+palpi slender and much longer than the antennae. Most of the beetles
+are vegetarian in their diet, though many of them in the earlier stages
+of their existence are carnivorous.</p>
+
+<p>These are the largest of the Water Beetles; and the typical species
+are ovate and very convex in form; the thorax very broad; the tibiae
+slightly spined on the edges, terminating in a stouter spine at the
+apex; the tarsi ciliated. They are poor swimmers when compared with the
+two last groups.</p>
+
+<p><span class="pagenum" id="Page_136">[136]</span></p>
+
+<p>Most of our species have been described by Macleay (Trans. Ent. Soc.
+N.S.W. 1871), and Blackburn (Pro. Linn. Soc. 1888). <i>Hydrophilus
+latipalpus</i> is of the usual boat-shaped form; shining black; and the
+wing covers are very finely marked with punctured parallel striae. It
+measures nearly 1½ inches, and is found about Sydney. <i>H. albipes</i>
+is a much smaller beetle of similar form and colour; it is found in the
+Murray River districts.</p>
+
+<hr class="r25">
+
+<h4>Family 6. Rove Beetles.<br>
+<span class="subhed">STAPHYLINIDAE.</span></h4>
+
+<p>These peculiar beetles can be readily distinguished from most of the
+other families by their abbreviated elytra, which do not protect more
+than a third of the abdomen leaving the hind portion quite bare; while
+the well developed hind wings are tucked away out of sight under them,
+but can be quickly extended and used for flight. The apical segments
+of the abdomen are very flexible, and most species have the habit
+of turning up the tip of the body when running along; others have
+the power of discharging a strong scent, in some cases with quite a
+pleasant odour.</p>
+
+<p>They are slender elongate insects with stout jaws, and the antennae
+thickened or clubbed at the extremities; the tarsal joints are variable
+in number. Rove Beetles are found in many different situations, but
+chiefly upon the ground in the vicinity of manure, decaying vegetable
+matter, dead animals, and even on the seashore hiding under stones and
+seaweed, though most of them only seek these places to devour other
+small creatures, for they are carnivorous in their habits. Some of the
+foreign species are found living in the nests of ants, but I do not
+think any with this peculiarity have been recorded from Australia.</p>
+
+<p>The principal writers on our Staphylinidae are Macleay (Trans. Ent.
+Soc. N.S.W. 1871), and Fauvel in his work on “Les Staphylinides de
+l’Australie et de la Polynesie” (1878). In 1886 Olliff commenced his
+revision of the Staphylinidae of Australia (Proc. Linn. Soc.), but this
+only ran into the third part and was never finished. Others have been
+described by Blackburn (Trans. Royal Soc. S.A. 1887). About 400 species
+have been recorded from this country representing most of the typical
+sub-families.</p>
+
+<p>The Genus <i>Aleochara</i> contains a number of small short black
+beetles with thickened antennae; those in <i>Homalota</i> are<span class="pagenum" id="Page_137">[137]</span> even
+smaller but more slender; several species are found under cowdung.</p>
+
+<p><i>Quedius luridipennis</i> measures over ⅓ of an inch in length; the
+shining black head and thorax are almost globular, the latter the
+larger; the broad flattened fore wings are red; the margins of the
+abdomen are flanged and slightly spined, and the tip fringed with three
+tufts of bristles.</p>
+
+<p>The Devil’s Coach-horse, <i>Creophilus erythrocephalus</i>, is our
+largest common species and has a very wide range; it measures over
+¾ of an inch in length and is very broad in proportion; its general
+colour is black with the head bright red, the eyes and a rounded spot
+between them black; the elytra have a metallic purple tint. It can be
+often found in stables, or hunting round dead animals in the bush;
+when disturbed it cocks up its head, turning up the tip of its body at
+the same time in a very comical manner, from which habit the allied
+European species has probably derived the above popular name.</p>
+
+<p><i>Actinus macleayi</i> is slightly longer but more slender, and is
+our most beautiful species of this somewhat dull coloured family;
+the head and thorax are rich metallic coppery green, the elytra deep
+metallic purple; the basal portion of the abdomen is black, and the
+tip, antennae, and legs bright yellow. It is a native of the tropical
+scrubs of North Queensland; in the neighbourhood of Cairns I captured
+specimens in tins I had baited with bits of meat and had sunk in the
+ground to trap Carabidae, and into which they had been attracted by the
+food.</p>
+
+<p><i>Xantholinus erythrocephalus</i> lives in the stems of rotting grass
+trees, where the beetles can be collected in all stages of development;
+the beetle measures over ½ an inch in length; is of a much more
+elongate form; black; the elytra dull red, and the tip of the abdomen
+yellow.</p>
+
+<p><i>Paederus cruenticollis</i> is one of our commonest species, and is
+often found under stones in the bush; it is a very distinctly marked
+little beetle about ¼ of an inch in length, slender in form with long
+thickened antennae; black, with the thorax and centre of the abdomen
+red, and the elytra deep metallic blue.</p>
+
+<p><i>Sartellus signatus</i> is a curious little yellow beetle quite
+unlike the typical Rove Beetle; it is short and rounded in form, with
+the fore wings much longer than usual; is of a uniform light yellow
+colour, with a curious reddish brown mark in the centre of each
+elytron. It is common on our sandy beaches, where it hides under the
+seaweed and rubbish and feeds chiefly upon dead barnacles.</p>
+
+<p><span class="pagenum" id="Page_138">[138]</span></p>
+
+<hr class="r25">
+
+<h4>Family 7. Ant Beetles.<br>
+<span class="subhed">PSELAPHIDAE</span></h4>
+
+<p>This group includes a number of small beetles that have the elytra
+usually not covering more than half of the abdominal segments; the
+antennae thickened toward the tips; maxillary palpi large, and the
+tarsi three jointed. The ordinary collector is very apt to pass over
+these small creatures, but many interesting forms are found in this
+country by sifting rubbish, or examining debris along the water’s edge,
+which can be gathered up in a stout bag and afterwards shaken over a
+sheet of white paper. I have captured them along the edges of lagoons
+in summer time by pouring buckets of water over the dry cracked mud,
+and as they were drowned out gathering them into small tubes. They can
+also be taken with a sweeping net when on the wing; in Europe many
+species are found in ants’ nests. Westwood believes that they feed
+chiefly upon <i>Acari</i> and other small creatures.</p>
+
+<p>Large numbers have been described from this country, chiefly through
+the researches of the Rev. R. L. King (Trans. Ent. Soc. N.S.W. 1865).
+Messrs. Sharp, Westwood, Schaufers and Blackburn added to this number;
+while in 1900 Raffray published his Monograph on the family (Pro. Linn.
+Soc. N.S.W. 1900), in which he described 45 new species, and brings the
+number known up to 200.</p>
+
+<p><i>Pselaphus lineatus</i>, a reddish beetle, measures 1½ lines in
+length, and is found about Sydney; it has a wide range over N.S. Wales,
+Victoria, and South Australia.</p>
+
+<p>Lea (Pro. Royal Soc. Victoria 1905) records four species of the Genus
+<i>Articerus</i> found in ants’ nests, all of which appear to have a
+wide range; <i>A. curvicornis</i>, originally described by Westwood
+from ants’ nests in Melbourne, is also found in Tasmania, S. Australia
+and N.S. Wales.</p>
+
+<hr class="r25">
+
+<h4>Family 8. Comb-horned Beetles.<br>
+<span class="subhed">PAUSSIDAE.</span></h4>
+
+<p>These are remarkable looking beetles, easily distinguished by their
+broad flattened toothed antennae curving round on either side. The
+head is short and angular on the sides; the thorax flattened; and the
+elongate elytra truncate at the apex and not quite covering the tip of
+the abdomen. Most<span class="pagenum" id="Page_139">[139]</span> of the species are of moderate size, and reddish
+brown in colour; they are confined chiefly to Africa, the East Indies,
+and Australia. Most of the African species are said to dwell in ants’
+nests, but though I have had several records of species being found
+under stones in ants’ nests, most of ours are found under logs, bark,
+or crawling about on the grass or ground. This family attracted the
+notice of entomologists at a very early date; Latreille formed the
+family to contain the two genera <i>Paussus</i> and <i>Cerapterus</i>,
+which he called <i>Paussili</i>, afterwards changed by Leach to
+<i>Paussides</i>. Donovan described the first species from this country
+in 1815. Westwood has written a great deal about them; he monographed
+the family (Proc. Linn. Soc. 1849–1850); in his “Arcana Entomologica”
+he described a great many from Australia and other countries; others
+in the “Annals of Natural History,” 1851; and again figured others
+in his “Theosaurus Entomologica,” Oxen. 1874. Macleay added 32 new
+species (Trans. Ent. Soc. N.S.W. 1873), all belonging to the Genus
+<i>Arthropterus</i>; while Blackburn placed 3 more to the list
+1891–1892, one of them in the typical Genus <i>Paussus</i>.</p>
+
+<p><i>Arthropterus brevis</i> is one of our smallest species; it measures
+slightly over ¼ of an inch in length; the antennae are rather short and
+broad; the thorax broad and rounded on the sides; the elytra expanded
+slightly to the truncate tips, leaving the apical portion of the
+abdomen exposed. This is our commonest species, and can be sometimes
+obtained in numbers near Sydney under the papery bark of the ti-trees.</p>
+
+<p><i>A. humeralis</i> comes from the Wellington district, and measures
+under ¾ of an inch; the antennae are large; the head angular; the body
+long, narrow, and rounded to the extremity, with the elytra short and
+truncate above the tip of the abdomen. General colour dark reddish
+brown, lightly clothed with short scattered brown hairs.</p>
+
+<hr class="r25">
+
+<h4>Family 9. Ant Beetles.<br>
+<span class="subhed">SCYDMAENIDAE.</span></h4>
+
+<p>The members of this family are minute creatures of which little is
+known. Sharp says: “Allied to the <i>Silphidae</i>, with the hind coxae
+separated, and the facets of the eyes coarser; tarsi five jointed; the
+number of abdominal segments visible six.”</p>
+
+<p>It is owing to the Rev. R. L. King that we first knew<span class="pagenum" id="Page_140">[140]</span> anything about
+this group in Australia; he described about 15 species (Trans. Ent.
+Soc. N.S.W. 1864); to which 2 more have been added by Macleay and Sharp.</p>
+
+<p><i>Heterognathus carinatus</i> was described by King from the nest of
+small black ants found in the neighbourhood of Parramatta; Lea has
+lately recorded it from the nests of ants (<i>Iridomyrmex nitidus</i>)
+taken in the Mallee country of North Western Victoria. He says: “It can
+be distinguished from all its congeners by the prothorax having a short
+longitudinal carina at the base, on each side of which is a transverse
+impression.”</p>
+
+<hr class="r25">
+
+<h4>Family 10. Burying Beetles.<br>
+<span class="subhed">SILPHIDAE.</span></h4>
+
+<p>The typical European species are popularly known as Burying Beetles
+from the curious habit they have of excavating the ground beneath any
+small dead bird or animal they find, and finally burying it under
+the soil. This family contains a number of interesting beetles both
+large and small; the antennae are thickened or clubbed; the tarsi 4
+or 5 jointed; and the whole dorsal surface flattened. They are poorly
+represented in this country, but there are several large distinctive
+species found about dead animals or decaying vegetable matter. A large
+number of blind Silphids are found in the caves of Europe and America,
+but I have never found any as Australian cave fauna.</p>
+
+<p>Thirteen species have been described from this country by a number of
+different writers, chief of which is Blackburn (Trans. Royal Soc. S.A.
+1891–94).</p>
+
+<p><i>Necrodes osculans</i> comes from Queensland; I found it common about
+Cairns, feeding amongst decaying matter in the scrub. It measures over
+1 inch; is a broad flattened beetle of a general black colour; the
+elytra mottled with dull orange, ribbed, and truncate at the extremity,
+showing the tip of the abdomen. The head is small, turned down in
+front, but furnished with large clubbed antennae; the thorax is finely
+punctured and rounded in front.</p>
+
+<p><i>Ptomaphila lachrymosa</i> is a dull reddish brown beetle, with the
+centre of the head and thorax black, the head small and somewhat hidden
+by the large flattened thorax; the elytra round, somewhat depressed;
+both marked with irregular parallel black ribs and bosses; they feed
+about dead animals. Length about 1 inch.</p>
+
+<p><span class="pagenum" id="Page_141">[141]</span></p>
+
+<p>In the following family, <span class="smcap">Trichopterygidae</span>, only two species
+are described, one from Tasmania, and the other from West Australia.
+They are minute beetles with fringed wings, the middle joints of the
+antennae smallest.</p>
+
+<hr class="r25">
+
+<h4>Family 11. Round Fungus Beetles.<br>
+<span class="subhed">SCAPHIDIDAE.</span></h4>
+
+<p>The members of this family are small, broad, short insects that live
+in fungus, and are very active. Macleay described several species from
+Gayndah (Trans. Ent. Soc. N.S.W. 1871): Reitter and other foreign
+writers have added to the list.</p>
+
+<p><i>Scaphidium punctipenne</i>, though described from Queensland, is
+also found in the neighbourhood of Sydney. It is a small rounded
+seed-shaped insect, but with slender legs and slightly clubbed
+antennae; its upper surface is deep orange yellow irregularly barred
+with black.</p>
+
+<hr class="r25">
+
+<h4>Family 12. Mimic Beetles.<br>
+<span class="subhed">HISTERIDAE.</span></h4>
+
+<p>When touched these beetles contract their legs and pretend to be dead,
+from which habit they take their family name from <i>Histris</i>, the
+Latin for a stage mimic. They are shining black, or metallic coloured
+beetles; many are flattened and broad in shape, with the elytra
+truncate at the apex, leaving the tip of the abdomen uncovered; the
+exposed integument is however very much thickened, and all the parts
+fit close together; the antennae are thick, clubbed at the apex; the
+legs short and stout. Most of the flattened forms are found under bark,
+others in or under dead animal matter; both the beetles and their
+larvae are carnivorous.</p>
+
+<p>This family is well represented here: Macleay described some from
+Gayndah; Marseul described others in the Annals Museo Genevre 1879, and
+the Annals Ent. Belg. 1870; Schmidt in the Ent. Nachr. 1892; and a few
+are described by other writers.</p>
+
+<p><i>Hololepta sidnensis</i>, one of our commonest species, can be
+collected in early summer by chopping up the dead grass tree stems; but
+I have never been able to find the larvae. It<span class="pagenum" id="Page_142">[142]</span> measures ½ an inch, and
+is shining black; it is very much flattened and broad in proportion
+to its length; two stout horns project in front of the eyes, coming
+together at the tips; the thorax is slightly impressed in the centre,
+and punctured on the sides; the elytra is smooth and shining, but the
+exposed abdominal plates are spotted with large punctures. Many of this
+genus are found under bark or crawling about on tree trunks.</p>
+
+<p><i>Platysoma strongulatum</i> is a broadly flattened black insect about
+⅙ of an inch long; the head is small; the thorax truncate; the elytra
+smooth in the centre, with four distinct striae on each side, straight
+at the apex, with the tip of the abdomen turning downwards. This is
+another common Sydney species found at the base of the flower stalks of
+the “grass trees” (<i>Xanthorrhoea</i>).</p>
+
+<p><i>Saprinus laetus</i>, typical of another group, is a short, thickset,
+rounded, oval beetle, ¼ of an inch in length, with the upper surface
+convex; the head is small, shining green; the thorax broad, bright
+metallic pale copper; and the short truncate elytra and exposed tip
+of the abdomen deep metallic green. This almost seed-shaped beetle is
+usually found under dead birds or animals lying in the bush. It has a
+very wide range over Australia.</p>
+
+<hr class="r25">
+
+<h4>Family 13.<br>
+<span class="subhed">PHALACRIDAE.</span></h4>
+
+<p>Only one species of this family is listed in Masters’ Catalogue,
+described by Erichson from Tasmania in 1842; but in Blackburn’s paper
+(Trans. Royal Soc. S. Australia 1891) 16 new species are described
+from all parts of Australia. They are short oval beetles, very small,
+the largest not much over ¹⁄₁₂ of an inch in length; black or brown in
+colour.</p>
+
+<p><i>Litochrus palmerstoni</i> is of a uniform ferruginous colour, with
+the apex of the elytra pale testaceous; without the punctures of the
+other species; of the typical oval form; and only ⅘ of a line in
+length and ¹⁄₂₄ of an inch in width. This tiny creature comes from the
+Northern Territory of S. Australia.</p>
+
+<p>This family is not an important one, but is well represented in Europe
+and America, where the larvae live in flowers, boring their way down
+the stems and pupating in earthen cocoons.</p>
+
+<p><span class="pagenum" id="Page_143">[143]</span></p>
+
+<hr class="r25">
+
+<h4>Family 14. Fruit Beetles.<br>
+<span class="subhed">NITIDULIDAE.</span></h4>
+
+<p>These are all small black or brownish beetles that breed and feed upon
+decaying vegetable matter, and some are very partial to ripe fruit.
+Some have well developed wing covers, but in others these are very
+short, reminding one of the smaller Rove Beetles, but the club of
+each antennae consists of three joints, and fewer abdominal segments
+are exposed to view. About eighty species have been described from
+Australia, chiefly by Reitter (Verh. Ver. Brünn, 1874–75, and other
+Journals); Murray in his Monograph of the Family; Macleay (Trans. Ent.
+Soc. N.S.W. 1871); and Blackburn (Trans. Royal Soc. S. Australia 1891).</p>
+
+<p><i>Brachypeplus binotatus</i> is one of our commonest species, widely
+distributed over Australia; it is a typical form of the family, about
+⅕ of an inch in length; of a general dark brown colour, with reddish
+brown antennae and legs; the abbreviated wing covers leaving the
+abdominal segments exposed, the latter marked with deep orange yellow.
+Olliff (Agricultural Gazette N.S. Wales 1893) describes and figures
+this beetle and its larva, which he describes as feeding upon the
+fungus on the damaged sugar cane.</p>
+
+  <div class="figcenter" id="fig62" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig62.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 62.</b>—<i>Pochadius pilistriatus</i> (Macleay).</p>
+     <p class="p0 smaller center">Living in the seed pods of the Kurrajong.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>The Genus <i>Carpophilus</i> contains 11 described species, most of
+which have a wide range over Australia; two are well known about
+Sydney from their habit of crawling into damaged fruit and feeding
+round the stone, causing it to decay very rapidly; they are also said
+to cluster round the<span class="pagenum" id="Page_144">[144]</span> fruit stalks, and by gnawing the base cause the
+fruit to drop. <i>Carpophilus pilipennis</i> is a small reddish brown
+boat-shaped beetle, with the wing covers cut off at the hind margin,
+exposing the tip of the abdomen; it measures 1½ lines in length. <i>C.
+aterrimus</i> is a somewhat larger flatter species of a uniform black
+colour, with the whole of the upper surface finely punctured; the legs
+and antennae are reddish brown. The abdomen is not so pointed as in the
+first species and much more of it is exposed on the dorsal surface.
+A curious little species, <i>Pocadius pilistriatus</i>, about ⅙ of
+an inch in length, is an elongate rounded brown beetle clothed with
+fine hairs. It feeds and breeds in the seed cases of the Kurrajong;
+the larvae are reddish brown grubs, elongate in form; they have three
+jointed antennae, and short black jaws, with well developed legs, and
+the tip of the abdomen bears two pairs of spines, the first pair erect,
+the second at the extremity but turning upwards.</p>
+
+<hr class="r25">
+
+<h4>Family 15.<br>
+<span class="subhed">TROGOSITIDAE.</span></h4>
+
+<p>These are beetles of moderate size with five jointed tarsi, the first
+so small that unless closely examined it is not noticeable. They are
+found chiefly under dead bark or wood, but are carnivorous in their
+habits, and very dissimilar in form.</p>
+
+  <div class="figcenter" id="fig63" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig63.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 63.</b>—<i>Lophocateres pusillus.</i></p>
+     <p class="p0 smaller hangingindent">A tiny introduced Beetle belonging to the Family <i>Trogositidae</i>
+that attacks dried fruit.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>The cosmopolitan “Cadelle,” <i>Trogosita mauritanica</i>, frequently
+found in bagged wheat, where the larvae gnaw out the embryo of the
+grain, is world wide in its range. It is a flattened, shining, black
+beetle; it was once placed among the <i>Heteromera</i>; and at first
+sight might be taken for a flattened carab.</p>
+
+<p><span class="pagenum" id="Page_145">[145]</span></p>
+
+<p>The Genus <i>Leperina</i> contains a number of curious, elongate
+beetles flattened on the under surface; the dorsal surface is convex,
+and rounded at the extremities, with the integument covered with
+mottled grey, brown, and black tufts of scales imitating moss, and
+probably of a protective character, for they are generally found
+clinging to bark. <i>Leperina decorata</i> was described by Erichson
+from Tasmania in 1842, but it has a wide range over the mainland. It
+measures from ¼ to ½ an inch in length; its ground colour is light
+chestnut brown mottled with black; the sides of the thorax deeply
+blotched with creamy white, and the back marked with indistinct patches
+of whitish scales.</p>
+
+  <div class="figcenter" id="fig64_65" style="max-width: 312px">
+     <img
+    class="p1"
+    src="images/fig64_65.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Figs. 64 and 65.</b>—Life History of the Cadelle.</p>
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>64. <i>Trogosita mauritanica</i> (Linn.).</li>
+  <li>65.&emsp;&emsp;„&emsp;&emsp;&emsp;&emsp;„&emsp;&emsp;Larva.</li>
+</ul>
+</div>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>Pascoe described some of ours (Annals of Nat. Hist. 1872), and the
+Journal of Entomology 1860. Macleay described others in 1871; Reitter
+in 1876–77; Olliff (Proc. Linn. Soc. N.S.W. 1886); and later Blackburn
+(Trans. Royal Soc. S.A. 1891).</p>
+
+<p><span class="pagenum" id="Page_146">[146]</span></p>
+
+<hr class="r25">
+
+<h4>Family 16.<br>
+<span class="subhed">COLYDIDAE.</span></h4>
+
+<p>These are small, reddish brown or black beetles, elongate in form, with
+four jointed tarsi, the coxae of the two pairs of fore-legs globular,
+and those of the hind legs transverse. They are usually found under
+dead or decaying bark, or among rotten wood. Several members of the
+Genus <i>Bothrideres</i> are found about Sydney; they have the thorax
+flattened and the elytra ribbed.</p>
+
+<p>About 70 species of this family have been described from this country,
+chiefly by Macleay 1871; Pascoe in the Journal of Entomology 1860;
+Reitter in 1877 in several German journals; and later by Blackburn
+1891; and Olliff in the Memoirs of the Australian Museum 1889 on
+species from Lord Howe Island.</p>
+
+<hr class="r25">
+
+<h4>Family 17.<br>
+<span class="subhed">RHYSODIDAE.</span></h4>
+
+<p>This family consists of only a few known species; Olliff has described
+one species, <i>Rhysodes lignarius</i> (Pro. Linn. Soc. N.S.W. 1885), a
+pitchy black shining beetle about ⅓ of an inch in length; it was found
+in rotten wood at Yass, N.S.W.</p>
+
+<hr class="r25">
+
+<h4>Family 18. Bark Beetles.<br>
+<span class="subhed">CUCUJIDAE.</span></h4>
+
+<p>The members of this group are very curious beetles, most of our species
+being found under dead bark on the trunks of the smooth gums; both the
+beetles and their larvae have adapted their form in such a remarkable
+manner to their surroundings that they are often as flat and thin as
+a bit of paper, while others living in more roomy quarters are quite
+normal in shape.</p>
+
+<p><i>Hectarthrum brevifossum</i> is a slender, somewhat cylindrical,
+shining black beetle, with thickened antennae composed of eleven
+bead-shaped joints; the head is depressed in front,<span class="pagenum" id="Page_147">[147]</span> with the thorax
+more elongated, and the slender ribbed elytra rounded at the tips.</p>
+
+<p><i>Platisus integricollis</i> is a reddish brown beetle, the basal
+joints of the antennae elongated and the apical ones bead-shaped;
+the head is angular, buried in the short broad thorax; the body is
+flattened, with the elytra slightly ridged round the edges. The larva
+is as flat as a knife blade, with a large head armed with stout jaws;
+the thoracic segments are furnished with short thick legs; it has seven
+simple flattened abdominal segments, with an eighth spade-shaped one,
+on which is a four-pronged trident-like process standing up at the
+apex, and a small spine at either side. The insects both in the beetle
+and the larval stage are often to be found under the same bit of bark.</p>
+
+<p><i>Brontes lucius</i>, found in the same situations, is a darker
+reddish insect with the antennae very long and slender; the front
+of the thorax is spined on the sides; the elytra slightly convex,
+elongated and rounded at the extremities. <i>B. militaris</i> can be
+easily distinguished from the last species by its darker colour, more
+flattened smooth elytra, with two oval light brown blotches on the
+basal half of the wing covers. About 60 species are described from
+Australia; among the chief writers are Grouvelle (Bull. Soc. Ent.
+France 1877); and other Journals 1876–1883, &amp;c.; Olliff (Proc. Linn.
+Soc. N.S.W. 1885); Reitter 1878, and Blackburn 1892.</p>
+
+<hr class="r25">
+
+<h4>Family 19.<br>
+<span class="subhed">CRYPTOPHAGIDAE.</span></h4>
+
+<p>In Masters’ Catalogue only one species (<i>Cnecosa fulvida</i>) is
+recorded, described by Pascoe in the “Journal of Entomology” 1865, from
+Sydney. Since then Blackburn has described 12 more species (Trans.
+Royal Soc. of S.A. 1887). They are all minute beetles which feed upon
+mould. In Europe the larvae of several genera live in the nests of
+bumble bees, and the perfect insects in flowers.</p>
+
+<p><span class="pagenum" id="Page_148">[148]</span></p>
+
+<hr class="r25">
+
+<h4>Families 20–21.<br>
+<span class="subhed">LATHRIDIDAE and MYCETOPHAGIDAE.</span></h4>
+
+<p>These are composed of minute beetles found on fungus. Macleay in 1871
+described some; Blackburn others (Trans. Royal Soc. S.A. 1887–1891);
+most of these were found in fungi or under bark. They are very small,
+the largest about ⅒ of an inch in length. In Europe the larvae of some
+species are covered with curious hairs, and the perfect beetles of
+others live in ants’ nests; but nothing is known about the habits of
+our species.</p>
+
+<hr class="r25">
+
+<h4>Family 22. Bacon Beetles.<br>
+<span class="subhed">DERMESTIDAE.</span></h4>
+
+<p>This is a well-known group, for the hairy larvae do a great deal of
+mischief to sheepskins by gnawing holes in them when they are piled on
+each other; getting into bacon and other animal foods; even gnawing
+holes in bones. The beetles have somewhat short antennae clubbed at the
+tips; five jointed tarsi; the coxae of the fore-legs conical, the hind
+ones cylindrical.</p>
+
+<p>The typical Genus <i>Dermestes</i> contains 5 species found in
+Australia; most of them have been introduced from other parts of the
+world, and several have penetrated far into the interior.</p>
+
+<p><i>Dermestes cadaverinus</i> measures over ⅓ of an inch; the upper
+surface is clothed with pale pubescence, and the under-surface thickly
+clothed with white hairs. Its general form is elongate; the head is
+tucked under the front edge of the thorax, which forms a slight hood.</p>
+
+<p><i>D. vulpinus</i> is slightly larger; has the same elongate form;
+is black, with the dorsal surface covered with short brown hairs,
+and the under surface with more buff coloured pubescence. Both
+these species have a very wide range, and can be found under dead
+animals in the bush, in sheepskins, bacon, &amp;c., and I have even taken
+larvae in bags of grain. Under favourable conditions these beetles
+increase in countless numbers; quite recently, Mrs. Black, writing
+from N. Queensland, says that toward the end of the drought when the
+country was covered with bones and dead stock, whenever the station
+hands camped to eat their dinners, these beetles would swarm out in
+thousands from under logs<span class="pagenum" id="Page_149">[149]</span> and stones to pick up the bits of food
+scattered about. Gilbert in Gould’s “Birds of Australia,” records a
+similar instance on the Hautmann’s-Abrolhos Islands off the coast of
+W. Australia, a great nesting place for the Noddy Tern, where immense
+numbers of the young birds are killed by the lizards, which only eat
+the brain and marrow. The remains cumbering the ground were food for
+<i>Dermestes lardarius</i>, which swarm over the islands in immense
+numbers.</p>
+
+<p>This is the common European Bacon Beetle, and is listed in Masters’
+Catalogue as found in Australia, but I have never seen an Australian
+specimen of this very distinct beetle, and think Gilbert may have
+mistaken the species.</p>
+
+<p>The members of the Genus <i>Trogoderma</i> are small, broad, and rather
+flattened black beetles, generally found under bark on tree trunks in
+the dead pupae of moths upon which they feed.</p>
+
+<p><i>Trogoderma froggatti</i> is short and broad; it measures under ⅙
+of an inch; is a shining black beetle, with the elytra clothed with
+dark scattered hairs; it was bred from larvae taken close to Sydney.
+<i>T. apicipenne</i> is slightly larger, and darker black, very
+thickly clothed with black hairs; a dull red blotch on either side of
+the apical half of the elytra gives it a very distinctive character.
+These beetles and their hairy larvae feed upon the remains of dead
+caterpillars under the dead bark, pupae and other organic matter.</p>
+
+<p>The <i>Anthrenus</i> are known as “Museum beetles,” for they are the
+greatest pests that curators of Museums have to deal with; their small
+hairy larvae attack every kind of specimen, and are most destructive to
+pinned insect collections, though the adult beetles are generally found
+in the gardens frequenting flowers.</p>
+
+<p><i>Anthrenus varius</i> is our greatest pest; it is an introduced
+species, variable in size, the largest measuring about 1½ lines; it
+is almost round, with the small head furnished with clubbed antennae
+tucked down when at rest or disturbed; the ground colour is black, but
+it is so thickly clothed with grey and brown pubescence that it has a
+mottled buff appearance. Blackburn states that this is the species that
+has been confounded with <i>A. museorum</i>, which he says is not found
+in Australia. <i>A. nigricans</i> is about the same size; black, with
+a delicate fascia of fine white hairs which give it a very distinctive
+character.</p>
+
+<p>About 44 species of Dermestidae are recorded from Australia: Fabricius
+and Linneaus described the earlier ones: Macleay others from Gayndah
+1871. Reitter described more in several German publications: and
+Blackburn all the later ones (Trans. Royal Soc. S.A. 1891).</p>
+
+<p><span class="pagenum" id="Page_150">[150]</span></p>
+
+<hr class="r25">
+
+<h4>Family 23. Pill Beetles.<br>
+<span class="subhed">BYRRHIDAE.</span></h4>
+
+<p>These are small beetles, found under stones. They take their popular
+name from their rounded form, which is more noticeable from the fact
+that their legs and antennae are retractile. Thirteen species are
+described from this country.</p>
+
+<p><i>Microchaetes sphaericus</i>, described by Hope from W. Australia, is
+also found in N.S. Wales; it is a small, rounded, black beetle, under 2
+lines in length; is very rugose on the upper surface, which is covered
+with tufts of brown scales which give it a curious roughened appearance
+and a brown tint.</p>
+
+<hr class="r25">
+
+<h4>Family 24.<br>
+<span class="subhed">GEORYSSIDAE.</span></h4>
+
+<p>This family is a small obscure group. They are small beetles with
+short clubbed antennae, inhabiting damp wet ground. Only a dozen are
+described from all parts of the world, two of which are peculiar
+to Australia. King described one from Parramatta under the name of
+<i>Georyssus australis</i>: Macleay the second from Gayndah, Queensland.</p>
+
+<hr class="r25">
+
+<h4>Family 25.<br>
+<span class="subhed">PARNIDAE.</span></h4>
+
+<p>These are aquatic beetles living under stones or close to water; they
+are thickly clothed with fine silky hairs like a waterproof coat; their
+antennae are thickened, and sometimes very short. Six species were
+described by King (Trans. Ent. Soc. N.S.W. 1864); and two others by
+Messrs. Blackburn and Lea (Proc. Linn. Soc. N.S.W. 1894–95). Most of
+these belong to the typical Genus <i>Elmis</i>, the members of which
+are found clinging to stones under water.</p>
+
+<p class="p2 smaller center">Plate XVII.—COLEOPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Lucanidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>&ensp;9. <i>Lamprima latreillei</i> (W. S. Macleay).</li>
+  <li>11. <i>Cladognathus arfakanus</i> (Lansb.).</li>
+</ul>
+</div>
+
+<p class="center smaller">Family <span class="smcap">Cetonidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>&ensp;4. <i>Trichaulax macleayi</i> (Kratz).</li>
+  <li>&ensp;7. <i>Eupoecila inscripta</i> (Janson).</li>
+  <li>&ensp;8. <i>Chlorobapta besti</i> (Westwood).</li>
+  <li>10. <i>Diaphonia olliffiana</i> (Janson).</li>
+</ul>
+</div>
+
+<p class="center smaller">Family <span class="smcap">Rhipidophoridae</span>.</p>
+
+<p class="center smaller">2. <i>Pelecotomoides conicollis</i> (Castelnau).</p>
+
+<p class="center smaller">Family <span class="smcap">Scarabaeidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>1. <i>Bolboceras proboscidium</i> (Schreibers).</li>
+  <li>3. <i>Onthophagus australis</i> (Guérin).</li>
+  <li>5. <i>Trox dohrni</i> (Harold).</li>
+</ul>
+</div>
+
+<p class="center smaller">Family <span class="smcap">Tenebrionidae</span>.</p>
+
+<p class="center smaller">6. <i>Zopherosis georgii</i> (White).</p>
+
+<p class="center smaller">(Original photo. Burton.)]</p>
+
+  <div class="figcenter" id="plate17">
+     <p class="p1 sm center"><i>Plate XVII.—COLEOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate17.jpg"
+    alt="">
+  </div>
+
+<p><span class="pagenum" id="Page_151">[151]</span></p>
+
+<hr class="r25">
+
+<h4>Family 26.<br>
+<span class="subhed">HETEROCERIDAE.</span></h4>
+
+<p>This group contains a number of small beetles that are semi-aquatic
+in their habits; these are also clothed with fine hairs, and have
+short clubbed antennae with the two basal joints enlarged. They are
+found burrowing in mud or wet sand close to water. Only seven species
+are recorded from this country, most of them belonging to the Genus
+<i>Heterocerus</i>; Westwood described two (Proc. Ent. Soc. London
+1874): Macleay another from Gayndah 1871: and Blackburn four others
+(Trans. Roy. Soc. S.A. 1887–91).</p>
+
+<hr class="r25">
+
+<h4>Family 27. Stag Beetles.<br>
+<span class="subhed">LUCANIDAE.</span></h4>
+
+<p>This is the first group of the Lamellicorn beetles, which are defined
+by the structure of their short antennae composed of 9–10 joints
+ending in a three-jointed lamellated club. In the Stag Beetles the
+antennae are ten-jointed, and in the typical forms have the mandibles,
+especially in the males, produced in front of the eyes like horns.
+Australia is rich in these beetles, both in number and beauty of form
+and colouration. The chief writers upon them are Macleay (Proc. Linn.
+Soc. N.S.W. 1885); and Westwood (Trans. Ent. Soc. London 1885–63–71).</p>
+
+<p><i>Rhyssonotus nebulosus</i> is a dark brown beetle mottled with black
+upon the dorsal surface; the small narrow head is furnished with
+projecting horns with several distinct points; the thorax is broad,
+curiously divided into rounded areas interspersed with depressed
+punctured patches; the body is rather short; the wing covers very
+indistinctly ribbed and mottled with black. It measures slightly over
+1 inch in length, and has a wide range over N.S. Wales and Southern
+Queensland. I have bred this beetle from the fleshy white grub of the
+usual Lamellicorn Beetle type taken under rotten logs.</p>
+
+<p>In the Genus <i>Lamprima</i> we have 12 described species of our
+beautiful “Gold Beetles,” which in the larval state live in rotten
+wood, from which the beetles emerge and crawl up the twigs of the young
+gum saplings; in favourable localities they can often be taken in great
+numbers while mating. They are all rich metallic green, gold, blue,
+or coppery in tint; the<span class="pagenum" id="Page_152">[152]</span> horns, projecting and turning up in front,
+are clothed with fine hairs along the inner margin; the thorax is very
+convex, rounded on the sides; the fore-legs very robust; the body not
+twice the length of the thorax, and rounded at the apex. Many species
+are so variable that it is probable that when carefully studied the
+number of species will be much reduced.</p>
+
+<p><i>Lamprima latreillei</i> is our commonest species; it measures 1¼
+inches in length; the head is rich coppery red, the rest metallic
+green; the thorax deeply and coarsely punctured. It is however a very
+variable species both in size and colouration; in a large series we can
+find them all shades to metallic blue; with stout horns or long horns;
+and ranging from the dimensions given to ½ an inch smaller.</p>
+
+<p><i>L. rutilans</i> is the southern form found in Victoria: <i>M.
+insularis</i> is only found in Lord Howe Island. <i>Phalacrognathus
+muelleri</i>, one of the largest and most beautiful of all our beetles,
+was named by Macleay after Baron von Mueller, from specimens obtained
+from Cairns, North Queensland; it could be best described as a giant
+gold beetle, 2 inches long; of a brilliant green and coppery red tint.
+The male has the horns greatly produced in front of the head.</p>
+
+<p><i>Lissapterus howittanus</i> measures nearly 1½ inches, and is
+broad in proportion; the abdomen is shorter than the head and thorax
+combined; the horns curve round in front and are thickened and serrate
+at the base; the rugose head forms a ridge in front, fitting closely
+into the punctured thorax. The female is about 1 inch in length; has
+the head more flattened, and furnished with short, stout, toothed
+mandibles. This curious beetle is peculiar to Victoria.</p>
+
+<p>The Genus <i>Ceratognathus</i> contains 7 species of our smallest Stag
+Beetles, none of which measure ½ an inch; they are black or brown;
+the mandibles of the male are produced into short curved horns with
+a square flange on the outer basal margins. I obtained the larvae of
+the species named after me by Blackburn in considerable numbers in the
+outer bark of <i>Eucalyptus robusta</i>. The larva is a white, shining,
+semitransparent grub with a slender abdomen; the pale brownish head is
+round and slightly elongate, with stout three-toothed mandibles; with
+long slender legs; and with the dorsal surface of the body clothed with
+fine ferruginous spines interspersed with hairs.</p>
+
+<p><i>Figulus regularis</i> is a small, shining, elongate black beetle
+measuring slightly over ½ an inch; it has short angular mandibles,
+finely punctured thorax, and striated elytra. It has a wide range over
+Australia, and is very common under decaying logs.</p>
+
+<p>The <span class="smcap">Passalides</span> are a group of what might be called flattened
+hornless Stag Beetles (some of very large size), that<span class="pagenum" id="Page_153">[153]</span> are found
+under rotting logs. <i>Aulacocyclus kaupi</i>, measuring 1¼ inches,
+is shining black; has short curved mandibles in front; the head is
+excavated in the centre, with a short, bent, finger-like horn curving
+forward above the hollow; the thorax is broad; and the elytra ribbed.
+The larva is dull white, long, slender, and somewhat cylindrical; it
+has a small head, and very long legs furnished with sickle-shaped
+claws. When full grown, they pupate in elongate, oval, smooth, brown
+cocoons of earth and woody matter.</p>
+
+<p>Kaup in 1871 published a Monograph of the <i>Passalidae</i>, in which
+many of our species are described.</p>
+
+<hr class="r25">
+
+<h4>Family 28. Digger and Chafer Beetles.<br>
+<span class="subhed">SCARABAEIDAE.</span></h4>
+
+<p>The group contains an immense number of handsome beetles, among which
+are some of the giants of the beetle world, though there are also
+many tiny ones; most of them in the earlier stages of their lives are
+thick, fleshy, white grubs that live in the ground or decaying woody
+matter, and sometimes do a great deal of damage to the roots of grass
+and cultivated crops. Though these beetles vary much in form and size,
+they have the antennae always produced at the tip into a laminate or
+pectinate club, which when expanded forms a comb or brush-like process.</p>
+
+<p>Kirby divides this family into eleven sub-families; Westwood into ten;
+while Sharp reduces them to five, which is quite sufficient for our
+purpose.</p>
+
+<p>The first comprise the <span class="smcap">Coprides</span>, or true Dung-burying Beetles;
+they feed upon animal droppings, boring vertical shafts beneath fresh
+dung, and carrying portions several inches under ground; on this they
+not only feed, but also deposit their eggs in rounded balls of the same
+material. In the more tropical parts they are also attracted to dead
+animals, which they feed on in the same manner. They have a shovel-like
+rim round the front of the head, often ornamented above with spines or
+horns both on the head and thorax, particularly in the male sex; and
+their legs are admirably adapted for digging.</p>
+
+<p>The Sacred Beetle, worshipped and carved on the monuments by the
+ancient Egyptians, <i>Ateuchus sacer</i>, is typical of the group.</p>
+
+<p><i>Cephalodesmius armiger</i> is a black beetle, about ⅓ of an<span class="pagenum" id="Page_154">[154]</span> inch
+in length; it has a small head produced in front along the outer
+margin into four spines or horns standing out straight in front, the
+two middle ones longest; the thorax is finely punctured; and the wing
+covers are slightly striated.</p>
+
+<p><i>Temnoplectron rotundum</i>, about the same length, is a shining
+black beetle; the head is flattened and turned down; the whole of the
+dorsal surface is smooth, and the wing covers are oval toward the apex.</p>
+
+<p>The Genus <i>Onthophagus</i> contains most of our typical Dung
+Beetles; over 60 species have been described, chiefly by Macleay,
+1864–1887–1888, and Harold 1869.</p>
+
+<p><i>Onthophagus pentacanthus</i> is ¾ inch in length; the male has a
+large slender horn rising up from the centre of the head; a curved
+shorter one on either side; and a short two-pronged process in the
+centre of the thorax, which is finely granulated above, and clothed
+with reddish hairs on the under side.</p>
+
+<p><i>O. kershawi</i> has the head armed with a similar horn but without
+the side ones on the thorax; the central ones are longer and more
+slender than those on the process of the previous species. <i>O.
+cuniculus</i>, one of our commonest species, is only about ¼ inch
+long; the head and thorax are bright metallic green; the central
+portion of the latter is produced (in the male) into a conical point;
+the wing covers are shining black and rugose. Another common species,
+<i>O. granulatus</i>, is slightly smaller; it has the dorsal surface
+flattened; the head and thorax dull metallic blue; and the wing covers
+are mottled, light chocolate brown and finely granulated; the whole
+insect is covered with short reddish hairs, lightest on the dorsal
+surface. <i>O. rufosignatus</i>, which I once took in numbers busily
+engaged burying a dead wallaby in N.W. Australia, is slightly over ¼
+inch in length; it is black with the centre of the thorax and sides of
+the elytra richly blotched with red.</p>
+
+<p>The members of the Genus <i>Bolboceras</i> are even more remarkable
+in regard to the peculiar forms into which the head and thorax are
+produced in many species; most of them are reddish brown, and thickly
+clothed with coarse reddish hairs on the under surface. In structure
+they are somewhat similar to the former species. They are commonly
+taken at night flying to the lamp or camp fire.</p>
+
+<p><i>Bolboceras sloanei</i> is a broad hemispherical beetle, just under
+1 inch in length; the male has a great horn standing up in the middle
+of the head, and a shorter one on either side of the thorax, with an
+excavation above and below them; the female is about the same size
+without any appendages, and the front of the thorax is hollowed out
+and the hind portion very rugose. <i>B. proboscidium</i> is common in
+the<span class="pagenum" id="Page_155">[155]</span> southern districts; it is smaller than the last species; of a
+darker reddish tint. The male has the front of the head produced into
+a lance-shaped process, standing out straight; this tapers toward the
+tip, which turns down like a hook, and has a short blunt spine on the
+upper surface. The female has a small truncate head, quite unlike the
+male. About 30 species were described in Masters’ Catalogue; Blackburn
+in his Monograph of the group lists 43 species (Proc. Linn. Soc. N.S.W.
+1904).</p>
+
+  <div class="figcenter" id="fig66" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig66.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 66.</b>—<i>Phyllotocus macleayi</i> (Fischer).</p>
+     <p class="p0 smaller center">The Honey Beetle, common on flowers in summer time.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>Members of the Genus <i>Trox</i> feed chiefly on decaying animal
+matter, and are to be found under dead animals, and a few in caves
+among the accumulated dung of bats; they are curious dull brown
+insects, convex and rounded on the upper surface; the head is so small
+and retractile that it appears to be wanting. <i>Trox dohrni</i>, from
+Central Australia, one of our largest species, is just under 1 inch;
+is almost black, covered with a regular armour plate of shining black
+bosses and ridges all over the dorsal surface. <i>T. australasiae</i>,
+our<span class="pagenum" id="Page_156">[156]</span> common species, is about half the length, and is dull brown, with
+the bosses on the elytra more regular and ridged.</p>
+
+<hr class="tb">
+
+<p>The <span class="smcap">Melolonthides</span> are mostly small beetles with the tip of
+the abdomen not always covered; they feed chiefly upon the foliage
+of plants. The Genus <i>Phyllotocus</i> contains about 27 described
+species of small reddish brown beetles with long black or yellow legs:
+some species are very abundant about Sydney, swarming over the flowers
+of native scrubs; they even come to the garden plants to feed upon the
+honey.</p>
+
+  <div class="figcenter" id="fig67" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig67.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 67.</b>—<i>Diphucephala aurulenta</i> (Kirby).</p>
+     <p class="p0 smaller center">The Metallic Green Wattle Beetle. In Tasmania it damages young apples
+by eating off the skin.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p><i>Phyllotocus macleayi</i> has even been found swarming round
+bee-hives, probably attracted by the smell of the honey. It is
+a smooth, shining, yellowish brown beetle about ⅓ of an inch in
+length, with the apical portion of the wing covers blackened. <i>P.
+marginatus</i> is smaller than the last, and of the usual dull reddish
+colour; the head, centre of thorax, and stripe down the centre of
+the wing covers black; the whole lightly clothed with fine hairs.
+<i>Diphucephala aurulenta</i>, typical of another group of bright,
+metallic coloured, broad bodied beetles, measures ¼ of an inch in
+length, and has the dorsal surface of a rich reddish-copper tint,
+thickly and coarsely punctured; the under surface and legs are deep
+green, clothed with fine grey hairs. It is common upon the foliage of
+the black wattle about Sydney. <i>D. rufipes</i>, a smaller beetle,
+is coppery green with reddish legs; is not uncommon about Sydney.
+<i>D. colaspidoides</i>, a southern species, is metallic green; the
+thorax smooth; the elytra deeply and thickly marked with punctured
+striae. <i>Maechidius tibialis</i>, representing another group, is a
+flattened, reddish brown beetle over ⅓ of an inch; the head is produced
+into two shell-like flanges in front of the eyes; the thorax is finely
+punctured; and the elytra ribbed, with closely punctured striae. I have
+found both the beetle and its larva, a soft white grub, in numbers in
+the open galleries of the termitaria<span class="pagenum" id="Page_157">[157]</span> built by our common White Ant
+(<i>Termes lacteus</i>) in the Shoalhaven district, N.S.W., where they
+seemed to live in harmony with the swarms of White Ants.</p>
+
+<p><i>Xylonychus eucalypti</i> is a large cockchafer-like beetle about
+1 inch long; it is of a delicate pale grass-green colour; its under
+surface and legs darker and thickly clothed with fine hairs. This
+beetle feeds about Sydney upon the foliage of the Swamp Mahogany
+(<i>Eucalyptus robusta</i>), and is not uncommon in early summer. The
+members of the Genus <i>Liparetrus</i> are small, dark reddish brown,
+or almost black beetles, often thickly clothed with fine hairs; the
+wing covers are generally shorter than the abdomen. Many species swarm
+over the tops of the young gum trees devouring the foliage. Nearly 100
+species of this extensive group have been described from Australia,
+chiefly by Macleay and Blackburn (Proc. Linn. Soc. of N.S. Wales,
+1886–1888).</p>
+
+<p><i>Liparetrus marginipennis</i>, common about Sydney, is black; it
+measures under ⅓ of an inch; the elytra, except the basal edges, are
+dark reddish brown; the whole insect is thickly clothed with light
+brown hairs that form a fringe round it. <i>L. hispidus</i> is a
+smaller dark brown beetle, thickly clothed with dull yellow hairs.</p>
+
+<p><i>Lepidoderma albo-hirtum</i> is a large cockchafer; it measures 1¼
+inches; all the dorsal surface of the head and thorax and both dorsal
+and ventral portions of abdomen are reddish brown; ventral surface of
+head, thorax and legs black. The whole of the upper and portion of the
+under surface are so thickly clothed with fine pale scales that it has
+a uniform grey tint. The larva, a large white grub, is a well-known
+pest to the Queensland sugar planters, for it eats off the roots of the
+growing cane; they are so numerous in some districts that as much as a
+shilling a pint is paid for these sugar cane grubs.</p>
+
+<hr class="tb">
+
+<p>The <span class="smcap">Rutelides</span> comprise a number of large beetles, popularly
+called Cockchafers; some species swarm out in immense numbers,
+stripping the foliage off the native bush and sometimes attacking the
+shade-trees in the gardens. Most of their larvae are large, white,
+subterranean grubs, either feeding on roots of grass and plants, or
+living in or under decaying logs. Dr. Ohaus has just published a
+“Revision des Anoplognathides” 1904, in which he describes 72 species
+included in 13 genera. <i>Repsimus aeneus</i> has a dark blue to
+coppery tint; the tip of the abdomen is reddish,<span class="pagenum" id="Page_158">[158]</span> and the hind legs are
+thickened. They are found clinging to low bushes, and are common about
+Sydney.</p>
+
+  <div class="figcenter" id="fig68_69" style="max-width: 400px">
+     <img
+    class="p1"
+    src="images/fig68_69.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Figs. 68.</b> and <b>69</b>.—Life History of the
+Shining Cockchafer.</p>
+     <p class="p0 smaller center">68. <i>Anoplognathus porosus</i> (Dalm).&emsp;69. Larva.&emsp;69a. Pupa.</p>
+     </div>
+
+<p><i>Calloodes grayanus</i> is a very handsome bright green beetle with
+the outer margins of the thorax and wing covers edged with yellow;
+it measures 1¼ inches long; is found in Queensland, but seldom in
+numbers. The two beautiful, little, metallic gold coloured species
+placed by Macleay in this genus have been removed by Ohaus into
+<i>Anoplognathus</i>, which now contains 41 species. Among these
+are our large reddish brown cockchafers. <i>A. viridaeneus</i>, the
+“King-beetle,” is our largest cockchafer; it measures 1½ inches and
+is broad in proportion; has a general bright metallic reddish golden
+sheen; and the tip of the abdomen is deep green. It is usually found
+clinging to the foliage of the smaller gum trees in early summer. <i>A.
+velutinus</i> takes its name from the velvety patches of curious little
+white scales scattered all over its dull brown coat; it is found about
+Sydney, but is not plentiful.</p>
+
+  <div class="figcenter" id="fig70" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig70.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 70.</b>—<i>Pentodon australis</i> (Blackburn).</p>
+     <p class="p0 smaller center">The larva and adult feed upon grass roots and sometimes damage growing
+corn.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p><i>A. porosus</i> is a light brown beetle; the wing covers are marked
+with tiny dark spots that form irregular, short, parallel lines; the
+head and thorax are shining; it is ¾ of an<span class="pagenum" id="Page_159">[159]</span> inch in length. It, and
+<i>A. analis</i>, a large reddish shining beetle furnished with a tuft
+of hairs at the tip of the abdomen, are two of our commonest species;
+their larvae have been found destroying strawberry plants by eating off
+their roots; and they are frequently met with when digging over the
+garden in early summer.</p>
+
+<p><i>Anoplostethus opalinus</i>, just under 1 inch in length, is a
+very beautiful pale opaline green beetle, and is peculiar to Western
+Australia.</p>
+
+  <div class="figcenter" id="fig71_72" style="max-width: 450px">
+     <img
+    class="p1"
+    src="images/fig71_72.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Figs. 71</b> and <b>72</b>.—Life History of the
+Queensland “Elephant Beetle.”</p>
+     <p class="p0 smaller center">71. <i>Xylotrupes australicus</i> (Thorn), Larva. 72. <i>Xylotrupes
+australicus</i>, Male Beetle.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<hr class="tb">
+
+<p>The <span class="smcap">Dynastides</span> contain the giants of the family, and in
+several genera the males have the head and thorax greatly enlarged
+and produced into blunt spines and horns; while the female has them
+of the usual rounded form. <i>Oryctes barbarossa</i> is one of our
+largest black lamellicorns; it comes from N. Australia. <i>Pentadon
+australis</i> is a shining black beetle about ¾ of an inch in length,
+which has been found damaging young maize plants about Sydney. The
+Queensland Elephant Beetle, <i>Xylotrupes australicus</i>, in the
+larval state feeds upon decaying vegetable matter, from which the
+beetles emerge and climb up the first tree to hand, and upon which they
+cling during the day, but come buzzing round to the lamps at night. The
+male measures 2 inches in length; is of a uniform black colour; the
+head curves out in front into a double-pronged horn; and the front of
+the thorax is produced into a second swollen one curving downward over
+the horns on the head, arcuate and toothed on either side of the tip.
+The<span class="pagenum" id="Page_160">[160]</span> female as usual in this group is smaller, and the head and thorax
+are of the ordinary rounded structure.</p>
+
+<hr class="tb">
+
+<p>The <span class="smcap">Cetonides</span> comprise the beautiful “Rose Chafers,” with
+their shorter, broader, flattened bodies, small heads, and the angular
+thorax broadest behind. Australia is rich in these flower-haunting
+beetles, and some species are very abundant in the summer months. A
+great number were at one time placed in the Genus <i>Schizorrhina</i>,
+but in 1880 Kraatz in a paper on the revision of the family (Deutsche
+Ent. Zeit. xxiv.) divided them into a great many new genera, in some
+cases with very little reason.</p>
+
+  <div class="figcenter" id="fig73" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig73.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 73.</b>—<i>Merimna atrata</i> (Lap. et Gory).</p>
+     <p class="p0 smaller center">A Buprestid Beetle that has the curious habit of flying into the fire.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>The members of the Genus <i>Lomaptera</i> are chiefly found in the more
+tropical parts of this continent, and are easily distinguished from
+the other groups by the shape of the thorax, the hind margin produced
+into an angular wedge into the centre of the elytra; while in the other
+typical Rose Chafers the thorax is truncate, and a wedge-shaped piece
+separated from the thorax occupies the centre of the back. <i>Lomaptera
+wallacei</i> is of the usual flattened form; uniform rich shining
+green; and measures just an inch in length. It is found upon flowers
+in the tropical scrubs of North Queensland. <i>L. duboulayi</i>, about
+the same size, is of a duller green tint, with the outer margin of the
+head, thorax, elytra and under-surface dull yellow: <i>L. cinnamea</i>,
+slightly smaller, is of a uniform shining reddish brown colour.</p>
+
+<p><i>Dilochrosis atripennis</i> is one of our largest typical cetonids;
+it measures over 1½ inches in length and is broad in proportion; it is
+shining black, with the sides of the thorax and elytra, except a stripe
+down the centre (broadest in front), rich<span class="pagenum" id="Page_161">[161]</span> reddish brown. It is not
+uncommon about Cairns, N. Queensland, and ranges down, according to
+Masters, to the extreme north of N.S. Wales. The Fiddler, <i>Eupoecila
+australasiae</i>, about ¾ of an inch in length, is black and reddish
+brown, marked upon the thorax and elytra with green stripes, forming
+a fanciful resemblance to a lyre upon the back, from which it takes
+its popular name. The larvae of this and the following species, (thick
+fleshy white grubs) feed in the rotting trunks of dead grass trees,
+forming stout oval cocoons in the larval stage; and the beetles are
+very abundant upon the Angophora flowers in the early summer.</p>
+
+  <div class="figcenter" id="fig74" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig74.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 74.</b>—<i>Cisseis leucosticta</i> (Kirby).</p>
+     <p class="p0 smaller center">A Leaf-eating Flower Beetle, common on the Black Wattle.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p><i>Micropoecila cincta</i> is another common species about Sydney; is
+slightly smaller; of a general black colour, the outer edges of the
+thorax and wing covers broadly margined with reddish yellow; and its
+life history and habits are identical with the “Fiddler.”</p>
+
+<p><i>Polystigma punctata</i> is one of our smaller common species; is of
+a dull yellow colour irregularly but finely spotted all over the upper
+surface with black dots. A second species, described under the name of
+<i>P. octopunctata</i>, is I think only a variety; my specimens all
+come from the Shoalhaven, N.S.W. <i>Cacochroa gymnopleura</i>, about
+the same size, is black, rather downy on the under surface; and is
+remarkable for having a variety as common as itself, with reddish brown
+thorax and elytra.</p>
+
+<p>The members of the Genus <i>Trichaulax</i> are remarkable for having
+the elytra deeply furrowed, and these depressions filled with close
+short hairs. They are all large fine beetles over an inch in length;
+<i>Trichaulax philipsii</i>, taken about Sydney<span class="pagenum" id="Page_162">[162]</span> on the flowers of
+the blood-wood late in the summer, is marked with grey hairs. <i>T.
+marginipennis</i> is common to N.S. Wales and Queensland; it has bright
+reddish hairs completely clothing the tips of the wing covers and
+abdomen.</p>
+
+<p><i>Diaphonia dorsalis</i> is a large common species, of a general black
+colour, with the upper surface of the thorax and elytra yellowish brown
+variably marked with black in the centre. It often comes flying about
+the garden with a loud hum, and even sometimes comes in through the
+open window.</p>
+
+<p><i>D. olliffiana</i> is a very rare species about the same size, with
+the upper surface reddish brown and the wing covers irregularly marked
+with black blotches. All the specimens known, about half a dozen in
+number, come from the same locality, Colo Vale, N.S.W., and nothing is
+known about their habits. <i>Glycyphana brunnipes</i> is common on the
+flowering scrub about Sydney, and has a wide range round the coast of
+Australia; it measures about ⅓ of an inch, and varies from dull brown
+to green in colour, irregularly spotted and marked.</p>
+
+<hr class="r25">
+
+<h4>Family 29. Jewel Beetles.<br>
+<span class="subhed">BUPRESTIDAE.</span></h4>
+
+<p>This is one of our largest and most typical groups of the Coleoptera,
+containing a great number of large beetles rich with metallic tints,
+chiefly found upon flowering shrubs, and most plentiful on the coastal
+districts of Victoria, New South Wales, and West Australia. They are
+elongate in form, with the head short, fitting closely into the broader
+thorax, and furnished with large eyes and slender, slightly serrate
+antennae. The abdomen is long with closely fitting wing covers, and
+well-developed wings which enable them to fly well, though they usually
+drop to the ground when disturbed. The larva is a slender flattened
+white grub with small black jaws and head; the thoracic segments are
+very broad behind and rounded to the much narrower abdominal segments.
+They are wood borers, feeding in the sapwood under the bark, and
+finally burrowing into the solid timber where they pupate; some of the
+smaller ones feed in dead wood; and a few form regular galls upon the
+roots or branchlets of shrubs.</p>
+
+<p class="p2 smaller center">Plate XVIII.—COLEOPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Buprestidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>1. <i>Stigmodera fortnumi</i> (Hope).</li>
+  <li>2. <i>Stigmodera macularia</i> (Donov.).</li>
+  <li>3. <i>Stigmodera pascoci</i> (Saunders).</li>
+  <li>4. <i>Stigmodera thoracica</i> (Saunders).</li>
+  <li>5. <i>Cyria imperialis</i> (Donov.).</li>
+  <li>6. <i>Stigmodera variabilis</i> (Donov.).</li>
+  <li>7. <i>Calodema regalis</i> (Lap. et Gory).</li>
+  <li>8. <i>Chalcophora vittata</i> (Waterhouse).</li>
+  <li>9. <i>Julodimorpha bakewelli</i> (White).</li>
+</ul>
+</div>
+
+<p class="center smaller">(Original photo. Burton.)]</p>
+
+  <div class="figcenter" id="plate18">
+     <p class="p1 sm center"><i>Plate XVIII.—COLEOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate18.jpg"
+    alt="">
+  </div>
+
+<p>The Banksia beetle, <i>Cyria imperialis</i>, has a wide range and
+is common about Sydney upon the foliage of the stunted honeysuckle
+bushes (<i>Banksia</i>); the larvae feed in the stems. It measures 1½
+inches in length; is of a uniform shining black colour, <span class="pagenum" id="Page_163">[163]</span>richly
+marked on the upper surface with bright yellow forming four irregular
+bands across the elytra, and the under surface is lightly clothed
+with grey hairs. The Genus <i>Diadoxus</i> contains two very distinct
+species, the larvae of which feed chiefly on the stems of our native
+cypress pines, and sometimes attack and destroy introduced pine trees.
+<i>Diadoxus scalaris</i>, very variable in size, measuring from ¾ to
+1¼ inches, is a slender pale yellow beetle, with the hind margin of
+the head and thorax marked with black, and the wing covers so thickly
+mottled with reddish brown that the yellow only forms a row of blotches
+down the back. It has a wide range from N.S. Wales to West Australia.
+<i>Diadoxus erythrurus</i> known in the west as the “pine scrub
+beetle,” is a much smaller insect slightly over ½ an inch; the head and
+thorax are almost black; the wing covers are dark, the basal portion
+has a double blotch of yellow on each side followed by a row on either
+side of three spots; the under surface has a greenish tint when alive.
+The larvae of this species first feed round the stem under the bark,
+cutting the sap wood, and where the infested tree is small, cause it to
+snap off.</p>
+
+<p>The large rich metallic green or coppery <i>Chalcophora</i> are more
+tropical beetles, the largest of which are restricted to Queensland and
+North Australia; Masters lists 24 species in his catalogue, chiefly
+described by Saunders (Trans. Ent. Soc. London 1872), and Waterhouse in
+the same Journal three years later.</p>
+
+<p><i>Chalcophora vittata</i> measures nearly 1¾ inches in length,
+and is broad in proportion; its general colour is deep metallic
+green, with the head and thorax shaded with rich coppery tints; the
+elytra are finely ribbed and are powdered with a yellow pubescence
+lining the parallel striae, and also forming two spots on the sides.
+<i>Chalcophora farinosa</i> is a smaller and more slender species with
+a narrow thorax, and pointed wing covers; in the neighbourhood of
+Cairns, N.Q., I used to take them in the early morning resting on the
+wild banana leaves.</p>
+
+<p><i>Nascio parryi</i> is a small black beetle with a long thorax of a
+uniform width; the wing covers are short in proportion, and curiously
+marked with reddish orange. It is generally found upon the foliage of
+eucalypts, but nothing is known about its life history. The members
+of the Genus <i>Melobasis</i>, of which about 30 have been described,
+are small, brilliantly coloured metallic green and gold beetles.
+<i>Melobasis splendida</i>, not much over ¼ of an inch in length, is
+bright green, the thorax and elytra marbled with dull purple. The
+larvae feed in the dead branches of <i>Acacia longifolia</i>.</p>
+
+<p><i>Julodimorpha bakewelli</i> is found in South and Western Australia;
+it is a large handsome beetle with a deep coppery<span class="pagenum" id="Page_164">[164]</span> red thorax and deep
+yellow wing covers. It is elongate, but more cylindrical in form than
+the <i>Stigmodera</i>.</p>
+
+<p>The typical Australian Genus <i>Stigmodera</i> contains about 240
+described species which are found in open scrubby country where
+flowering shrubs are abundant; the extensive scrubs round Sydney, and
+similar class of country on the west coast of the continent are the
+head quarters of most of the larger species. <i>Stigmodera tibialis</i>
+measures 2 inches in length, and is broad in proportion; the head,
+thorax and under surface black, with the wing covers reddish chestnut
+with two irregular bands of dull orange yellow across the apical half.
+<i>S. heros</i> is half an inch longer, one of the giants of the
+group; it has the under surface dark bronzy brown, the dorsal surface
+deep dull red; the thorax finely punctured, and the elytra coarsely
+striated. Both these beetles range from South to Western Australia.
+<i>S. pascoei</i> is a handsome rare species from Western Australia,
+measuring under 1 inches in length; it is of a rich yellow tint with
+the upper surface of the head, thorax, and legs rich metallic coppery
+red, and the apical third of the finely striated elytra black with a
+fiery red sheen. <i>S. thoracica</i>, slightly smaller, is black on
+the under surface except the sides of the thorax and tip of abdomen;
+the dorsal surface is yellow, except the head, a band through the
+centre of the thorax, and the tip of the wing covers which are bluish
+black. <i>S. fortnumi</i> is one of the few large species found in the
+interior; it measures 1¾ inches in length, and is broad in proportion;
+the under surface is rich metallic green marked with yellow; the upper
+surface yellow with the greater part of the thorax and three broad
+bands across the elytra deep metallic blue.</p>
+
+<p><i>Stigmodera grandis</i> sometimes measures 2 inches, and is the
+largest species found about Sydney; its general colour is dark bronzy
+brown with the outer edges of the thorax and elytra margined with
+yellow. The common jewel beetle, <i>Stigmodera variabilis</i>, is very
+abundant when the <i>Angophora</i> is in bloom; its general colour
+on the under surface, head and thorax is bronzy black, with the edge
+of the latter and the wing covers bright yellow; the markings upon
+the latter are most variable; specimens are sometimes thickly barred
+with black, others without a spot upon them, so that it is difficult
+to get two alike. <i>S. macularia</i> is purple to black, with the
+wing covers bright yellow deeply pitted all over with purple dots.
+<i>S. jacquinoti</i> might be easily mistaken for the last, which it
+resembles both in size and markings, but the tips of the wing covers
+are produced into sharp spines; and the markings are coarser; it is a
+much rarer beetle than the former, which is one of the commonest large
+species. <i>S. gratiosa</i> is the type of a group from W. Australia,
+all of<span class="pagenum" id="Page_165">[165]</span> a rich metallic green tint with deeply punctured wing covers;
+it has the head and thorax bronzy green and very finely punctured, with
+the elytra green and very coarsely punctured; its length is about ½ an
+inch, and it is short and broad in proportion. This brilliant little
+beetle is plentiful in some districts, and specimens set in gold are
+often used for earrings and brooches, for which its solid integument
+makes it adaptable.</p>
+
+<p><i>Calodema regalis</i> from the scrubs of Southern Queensland and the
+extreme north of N.S. Wales, is possibly our most beautiful beetle in
+shape, size, and colour. Measuring nearly 2 inches in length and broad
+in proportion, the whole of the under surface, head and thorax are
+rich metallic green, with two conspicuous blotches of dark red on the
+dorsal surface of the thorax; the wing covers are bright yellow, almost
+smooth, slightly spined at the tips, with a very fine pencil of green
+down the sides of the inner edges.</p>
+
+<p>The members of the Genera <i>Ethon</i> and <i>Paracephala</i> form
+galls; the first are short, thickset beetles of a dull coppery tint,
+with wavy markings on the wing covers. <i>Ethon corpulentus</i> and
+<i>E. marmoreum</i> make rounded galls upon the roots of <i>Dillwynia
+cricifolia</i>, sometimes as many as twenty on one plant clustering
+round the base of the stem. <i>E. affinis</i> forms galls upon the
+stems of <i>Pultenea stipularis</i>. <i>Paracephala cyaneipennis</i>
+forms galls on the branches of the stunted Casuarina (<i>C.
+distyla</i>), growing about Sydney. It is a slender dull metallic green
+beetle about ⅓ of an inch in length. The Genus <i>Cisseis</i> contains
+a number of very pretty little metallic tinted beetles, the larvae of
+which feed in the wood of <i>Acacias</i> and other small shrubs, and
+the perfect beetles feed upon the foliage. <i>Cisseis 12-maculata</i>,
+a pretty deep blue-black beetle covered with large white spots, is
+found on the grass tree; <i>C. leucosticta</i>, <i>C. similis</i>, and
+<i>C. maculata</i> upon the black wattle.</p>
+
+<hr class="r25">
+
+<h4>Family 30. False Click Beetles.<br>
+<span class="subhed">EUCNEMIDAE.</span></h4>
+
+<p>The beetles in this group form a sort of connecting link between the
+Flower Beetles and the Clicks: many of them are very like the latter,
+but they cannot jump; they have a large terminal joint in the palpus,
+and the antennae when resting are hidden in the grooves along the under
+side of the thorax.</p>
+
+<p><span class="pagenum" id="Page_166">[166]</span></p>
+
+<p>Sixteen species are listed in Masters’ Catalogue, all of which, with
+one exception, are described in Bonvouloir’s Monograph of the family
+(Annals of the Soc. Entom. France 1871–7).</p>
+
+<hr class="r25">
+
+<h4>Family 31. Click Beetles.<br>
+<span class="subhed">ELATERIDAE.</span></h4>
+
+<p>These beetles are found in many different situations, upon flowers,
+hidden under bark, or in cracks on the tree trunks. They are well
+known from their habit of flying in to the lamp at night, and falling
+on their backs go skipping all over the table. They are elongate in
+form, with slender serrate antennae, and a small head deeply sunk into
+the thorax, which is rounded in front, truncate on the hind margin and
+with a slight spine on the edge; while on the under side the thorax is
+furnished with a process that fits into a groove in the first segment
+of the abdomen, which enables it to get enough leverage, by pressing
+the head down when on its back, to jump a considerable distance upward.
+The larvae are slender, cylindrical, shining brown grubs popularly
+known as “Wire Worms,” and some European species are said to do
+considerable damage by eating off the roots of grass and crops.</p>
+
+<p>About 350 species have been described from Australia, most of them
+dull brown or black in colour, though a few are brightly tinted or
+marked. <i>Agrypnus mastersi</i> measures 1 inch, and is of a uniform
+brown colour clothed with fine buff down; it ranges from Queensland to
+Western Australia. The Genus <i>Lacon</i> contains a great number of
+short, broad, dull brown clicks usually found under bark or stones.
+<i>Lacon caliginosus</i>, half an inch in length, is dull brown; it
+ranges from Tasmania to Queensland. <i>Alaus gibboni</i> comes from the
+Richmond River; it measures 1¾ inches, and is broad in proportion; its
+true colour is black, but it is so thickly clothed with fine short grey
+down that it is almost a dull white. <i>A. sericeus</i> is a smaller
+beetle clothed with an admixture of buff and chocolate down; I have
+found them pupating in decaying bark on dead trees on the Richmond
+River. <i>Tetralobus cunninghami</i> is typical of a group of the large
+cylindrical “clicks,” in which the male has feather-like antennae,
+and the thorax is rounded. It is 1½ inches long, dark brown, with the
+under surface of the thorax clothed with reddish hairs. These large
+clicks are generally found in the interior<span class="pagenum" id="Page_167">[167]</span> on the trunks of trees. The
+Genus <i>Monocrepidius</i> contains a number of slender black or brown
+insects usually living on flowers or foliage. <i>Ophidius histrio</i>,
+1 inch long, is black, richly marked with dark yellow lines forming
+four parallel bars down the thorax, and a more irregular lance-shaped
+pattern on the wing covers; this is another fine species from the
+Northern Rivers, N.S.W. <i>Anilicus semiflavus</i> is found on the
+Angophora flowers about Sydney; it is ½ an inch long, black, with the
+basal half of the elytra bright red.</p>
+
+<hr class="r25">
+
+<h4>Family 32. Feather Horns.<br>
+<span class="subhed">RHIPIDOCERIDAE.</span></h4>
+
+<p>This is not a big family; the species are confined to the warmer parts
+of the world, and are chiefly distinguished by the peculiar structure
+between the tarsal claws, and the beautiful feathery antennae of the
+males. <i>Rhipidocera mystacina</i>, our typical form, is ¾ of an inch
+in length, elongate in form, with narrow sloping thorax and large
+feather-like antennae; the general colour is black, with the sides of
+the thorax and whole of the wing covers thickly spotted with white
+downy dots. I have often taken this insect in numbers in the North-West
+of Victoria.</p>
+
+<hr class="r25">
+
+<h4>Family 33. Fire-Fly Beetles.<br>
+<span class="subhed">MALACODERMIDAE.</span></h4>
+
+<p>The members of this family have a softer integument than most beetles.
+They do not all emit light; the true “fire-flies” and “glow-worms”
+belong to the sub-family <span class="smcap">Lampyrides</span>.</p>
+
+<p>The Genus <i>Metriorrhynchus</i> contains about 50 small, elongate,
+flattened beetles of a dull red colour marked with black; the
+wing covers are deeply ribbed but soft and flabby. The larvae are
+curious, smoky black creatures with blunt spines along the sides of
+the body, and live under stones or logs. <i>M. rufipennis</i>, one
+of the largest, is ¾ of an inch in length; the head and thorax are
+black and roughened; the wing covers are light red,<span class="pagenum" id="Page_168">[168]</span> deeply ribbed
+and reticulated: Waterhouse figured and described many of these
+(Trans. Entom. Soc. 1877). Our true fire-flies belong to the Genera
+<i>Luciola</i> and <i>Atyphella</i>. On these Olliff has written an
+interesting paper entitled “New Species of Lampyridae with notes
+on the Mount Wilson Fire-fly” (Pro. Linn. Soc. N.S.W. 1889). Our
+fire-flies are small, light brown beetles, which during the day
+cling to the foliage, flying about at night, emitting a bright flash
+of phosphorescent light from the tip of the abdomen as they move
+their wings. Several species are found on the Blue Mountains and in
+the tropical scrubs of North Queensland; they are very brilliant
+after night-fall: <i>Luciola flavicollis</i>, ¾ of an inch, is our
+common species. The Soldier Beetles, chiefly belonging to the Genera
+<i>Telephorus</i> and <i>Selenurus</i>, are common upon low bushes and
+flowering shrubs. <i>Telephorus pulchellus</i>, ½ an inch in length, is
+a slender, dull orange coloured beetle; the dorsal surface is shining
+blue black except the apical half of the thorax, which is bright
+yellow. This beetle sometimes appears in great numbers; I have seen the
+Melaleuca scrub on the Blue Mountains black with them.</p>
+
+<hr class="r25">
+
+<h4>Family 34. Hunting Beetles.<br>
+<span class="subhed">CLERIDAE.</span></h4>
+
+<p>There are many handsome little beetles in this family which spend their
+time hunting over logs, tree trunks, or in flowers to catch smaller
+insects which they devour; most of them lay their eggs in the bodies
+of the pupae of wood moths and other insects. A freshly fallen tree is
+a good locality to look for Clerids, as they find many small beetles
+attracted by the withering bark: in Europe the larvae of several groups
+infest the nests of wild bees.</p>
+
+<p><i>Natalis porcata</i>, 1 inch in length, is black covered with
+a whitish down, and is found under the dead bark on tree trunks;
+it is probably parasitic upon the grubs of longicorn beetles
+(<i>Phoracantha</i>). <i>Cleromorpha novemguttatus</i> measures only
+⅕ of an inch; it is rich metallic blue, lightly clothed with black
+hairs, and the elytra spotted on either side with white dots: it is
+common in the flowers of the <i>Angophora</i> in early summer. The
+Genus <i>Aulicus</i> contains a number of bright metallic green or blue
+beetles which live on flowering shrubs; about 20 species are described,
+chiefly by Cheverolet (Memoirs of the Cleridae 1878). <i>Aulicus
+instabilis</i>, one of the smallest, is only ¼ of an inch in length;
+it has a wide range<span class="pagenum" id="Page_169">[169]</span> over Australia. <i>Trogodendron fasciculatum</i>
+is another widely distributed species, and may be often seen flying
+about in the height of summer; if captured it bites most viciously. I
+have on several occasions pulled its body off, leaving the head with
+the jaws buried in my finger: it is parasitic on the pupae of our large
+wood moths. It is variable in size, about 1 inch in length, thickset
+and broad in proportion; is dark brown, with bright yellow antennae,
+and broad black fasciae at the base and apical half of the elytra.
+<i>Zenithicola obesus</i>, ⅓ of an inch in length, is like the last
+in general form, but with dull yellow thorax and shining black elytra
+marked with white: <i>Z. australis</i>, a slightly larger species, has
+a black thorax. The members of the Genus <i>Eleale</i> are elongate,
+dark metallic green or blue beetles clothed with fine hairs and deeply
+punctured wing covers; they also live among flowers. <i>Tarsostenus
+zonatus</i> is typical of the small, slender, cylindrical clerids that
+infest the gall-making coccids, and are often bred from these galls.
+It has a bright reddish brown head and thorax, and green wing covers
+barred across the centre with white. <i>Lemidia hilaris</i>, ⅙ of an
+inch long, is a short broad beetle of a shining black tint, with the
+basal half of the elytra red. The Red-legged Ham Beetle, <i>Necrobia
+rufipes</i>, an introduced species, is found all over the world. In the
+interior it swarms under dead animals, feeding upon fresh bones; and is
+also often found about cheese and other preserved foods in the pantry.</p>
+
+<hr class="r25">
+
+<h4>Family 35. Anobiums.<br>
+<span class="subhed">PTINIDAE.</span></h4>
+
+<p>These beetles are small insects, with the head hidden under the thorax;
+they have filiform, pectinate or slightly clubbed antennae; and several
+species are world wide in their range, for as they live in all kinds
+of dried food stuffs they are easily introduced into new countries.
+<i>Gibbium scotius</i> is a curious little beetle hardly over ¹⁄₁₂ of
+an inch in length, with a bright shining brown body, and the legs and
+antennae covered with yellow scales; it feeds upon feathers, and is
+often found in birds’ nests. <i>Anobium paniceum</i> is known as the
+“Biscuit Weevil,” but feeds upon all kinds of things; I have found
+it in boots, seeds, drugs, botanical specimens, and it is said to
+have been found burrowing through sheet lead. The Cigarette Beetle,
+<i>Lasioderma serricorne</i>, is another little brown beetle common in
+Sydney in waste<span class="pagenum" id="Page_170">[170]</span> tobacco. Olliff has described a number of Australian
+species (Proc. Linn. Soc. N.S.W. 1886); and Westwood others (Ent. Soc.
+1869), among which are several members of the Genus <i>Ectrephes</i>,
+which live in ants’ nests.</p>
+
+  <div class="figcenter" id="fig75" style="max-width: 280px">
+     <img
+    class="p1"
+    src="images/fig75.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 75.</b>—<i>Sitodrepa (Anobium) panicea</i> (Fabr.).</p>
+     <p class="p0 smaller center">The omniverous drug-store beetle (Introduced).</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<hr class="r25">
+
+<h4>Family 36. Powderpost Beetles.<br>
+<span class="subhed">CIOIDAE.</span></h4>
+
+  <div class="figcenter" id="fig76" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig76.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 76.</b>—<i>Lyctus brunneus</i> (Douglas).</p>
+     <p class="p0 smaller center">The Beetle so destructive to Rattan furniture.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>Though small in size and number of species, these are very important
+beetles on account of the damage they do to rattan<span class="pagenum" id="Page_171">[171]</span> furniture and
+sapwood in unseasoned timber. <i>Lyctus brunneus</i>, a small
+elongated, reddish brown beetle about ⅙ of an inch in length, lives and
+breeds in wood, and is only too common about Sydney. A second species
+has been described from South Australia by Blackburn.</p>
+
+<hr class="r25">
+
+<h4>Family 37. Auger Beetles.<br>
+<span class="subhed">BOSTRYCHIDAE.</span></h4>
+
+  <div class="figcenter" id="fig77" style="max-width: 602px">
+     <img
+    class="p1"
+    src="images/fig77.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 77.</b>—<i>Bostrychopsis jesuita</i> (Fabr.).</p>
+     <p class="p0 smaller hangingindent">The Auger Beetle which attacks dead or dying trees. Orange tree stem in
+which a number have been feeding.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>These beetles are easily recognised by their curious cowled thorax,
+with the head turned down beneath, and the last 3 joints of the
+antennae forming a well-defined club; the body is long and cylindrical,
+adapted for burrowing in dead wood. Specimens of these beetles
+can generally be found upon fallen trees or freshly-cut timber.
+<i>Bostrychopsis jesuita</i>, one of the largest of the group, about
+½ an inch in length, is black, cylindrical, with the rounded thorax
+rugose in front, and the tip of the wing covers truncate. <i>Bostrychus
+gibbicollis</i>, about ⅓ of an inch, is dark reddish brown, with a
+spined thorax and the tips of the wing covers produced into blunt
+teeth. <i>B. cylindricus</i>, about the same size and similar colour,
+has elytra furnished with three curled spines on each side. It has
+been found damaging wine casks. In the Genera <i>Apate</i> and
+<i>Rhizopertha</i>, also found in dead timber, we have a typical<span class="pagenum" id="Page_172">[172]</span> form
+in <i>Apate collaris</i>, measuring ¼ of an inch in length, with a dull
+yellow thorax, dark brown wing covers spined at the tips.</p>
+
+  <div class="figcenter" id="fig78" style="max-width: 300px">
+     <img
+    class="p1"
+    src="images/fig78.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 78.</b>—<i>Bostrychus cylindricus</i> (Macleay).</p>
+     <p class="p0 smaller center">The Wine-cask borer.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette.” N.S.W.)</p>
+     </div>
+
+<hr class="r25">
+
+<h4>Family 38. Mealworm Beetles.<br>
+<span class="subhed">TENEBRIONIDAE.</span></h4>
+
+<p>This is a very large family of beetles, generally dull brown or black
+in colour, but varying much in shape; many of the more typical forms
+are found under logs and stones, and might easily be mistaken at first
+sight for carnivorous carab beetles until the mouth parts and head are
+noticed. They have somewhat thickened antennae placed on the sides of
+the head; some have wings, others are wingless; most of them are slow,
+heavy beetles, very easily captured. The larvae are usually slender
+shining cylindrical brown worm-like creatures living in rotten wood, of
+which the introduced Mealworm is a typical example. Our species have
+been described by a great many English and foreign writers, chief among
+which are Pascoe, in the Journal of Entomology 1869, and Annals of
+Natural History 1869–80; Hope in the Transactions of the Entomological
+Society of London 1842–48;<span class="pagenum" id="Page_173">[173]</span> Bates in the same journal 1873; and later
+on in the Proceedings of the Australian Societies by Macleay and
+Blackburn. Carter has within this last year described a number of new
+species (Pro. Linn. Soc. N.S.W. 1905–6).</p>
+
+<p>The Ironbark Beetle, <i>Zopherosis georgii</i>, is found in the
+northern scrubs of N.S. Wales, generally climbing on tree trunks; it
+is an elongated, flattened, dull brown beetle, slightly over 1 inch
+in length; the antennae thickened, and the whole of the upper surface
+covered with rounded irregular knobs; it is not unlike a caricature of
+a large click beetle.</p>
+
+<p>The members of the Genus <i>Pterohelaeus</i> are smooth, shining,
+tortoise-shaped black beetles, found under dead bark on the trunks of
+trees. <i>P. piceus</i>, common in S. Australia and N.S. Wales, is just
+under 1 inch in length, but broad in proportion.</p>
+
+  <div class="figcenter" id="fig79" style="max-width: 260px">
+     <img
+    class="p1"
+    src="images/fig79.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 79.</b>—<i>Helaeus subserratus</i> (Blackburn).</p>
+     <p class="p0 smaller center">The Tortoise Beetle.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p><i>Helaeus subserratus</i>, from Western Australia, is typical of
+a very curious group not only wingless, but having the elytra and
+abdominal segments soldered together into a broad flattened box with
+a wide thin flange running right round, continued round the thorax,
+and overlapping in front of the head, which latter is turned down and
+is thus situated in a regular frame; this one is dark brown, with the
+outer flange lighter coloured; it measures 1⅓ inches in length, and
+is broad and rounded in form. These beetles are usually found in the
+driest parts of the interior, where they live under stones or logs
+among the dust, and in spite of their size, remain so motionless that
+they can be very easily overlooked.</p>
+
+<p><i>Saragus floccosus</i>, found on tree trunks in the north of N.S.W.,
+is a smaller tortoise-shaped insect, under ¾ of an inch; is convex
+and keeled down the centre of the thorax;<span class="pagenum" id="Page_174">[174]</span> and the elytra have a more
+narrow flange running right round but curving in and rounded on either
+side of the head. When alive, it has the whole of the upper surface
+covered with loose flocculent matter like soft sawdust, evidently
+as a protective covering, but this is easily brushed off when dead.
+<i>Hypaulax tenuistriata</i> is one of the common large black beetles
+found under dead bark; it measures about 1 inch in length; the head is
+small, projecting; the thorax broad, rounded, shining; and the broad
+wing covers are distinctly ribbed with punctured striae.</p>
+
+<p><i>Chartopteryx childreni</i> is one of our most remarkable and rare
+species; it is 1 inch long; the only specimen I have seen alive,
+I caught alighting on a tree trunk at Mosman, near Sydney; it is
+elongate, broad, oval in form, with the head and thorax turned down,
+and the convex, shining, black elytra deeply punctured and clothed with
+dull yellow moss-like material; the head and thorax are ornamented
+with fine white hairs, forming an elongated mark on either side of the
+latter and two parallel lines down the centre of the head and thorax.</p>
+
+<p><i>Blepegenes aruspex</i> is a shining coppery black coloured beetle
+measuring ¾ of an inch; it is slender in form, remarkably like a carab,
+with a small thorax that is produced into a spine on either side; the
+elytra are deeply ribbed; it is found under logs in the Illawarra
+district, N.S.W.</p>
+
+<p><i>Cardiothorax howitti</i> is also found under logs; it is an elongate
+beetle, black with a dull purple tint on the thorax, which is flattened
+and almost round, a regular rim running round the margin; it is arcuate
+behind the head, and produced into a spine on the hind margins; the
+wing covers are elongated to the apex, and ribbed. The members of the
+extensive Genus <i>Adelium</i> are found under logs; some species are
+quite common, clustering together in considerable numbers; they are
+all black or coppery tinted. These beetles are about ¾ of an inch in
+length; the thorax is roughened, and the wing covers more or less
+striated.</p>
+
+<p>The Genus <i>Chalcopterus</i>, which now includes most of those
+described as <i>Amarygmus</i>, are black or brightly metallic coloured
+beetles; the head and thorax are small and curve downward; the wing
+covers are large, convex, and pointed at the tips. They are found
+crawling about on tree trunks, or hidden under dead bark, and give
+out a very pungent offensive odour when handled. <i>Chalcopterus
+variabilis</i> measures ½ an inch in length; its head and thorax are
+black, the elytra rich coppery red, and it is common about the Sydney
+scrubs.</p>
+
+<p><span class="pagenum" id="Page_175">[175]</span></p>
+
+<p>The common Mealworm, <i>Tenebrio molitor</i>, has a world-wide range;
+it was introduced into Australia at a very early date, and not long ago
+a packet of seeds imported from England was found on examination by
+one of the inspectors of the Agricultural Department N.S.W. to be full
+of the shining wireworm-like larvae of these beetles. It is a common
+beetle in stables and produce stores.</p>
+
+<hr class="r25">
+
+<h4>Family 39.<br>
+<span class="subhed">CISTELIDAE.</span></h4>
+
+<p>These are delicate, elongate, long-legged beetles, with weak
+integument, and are closely allied to the <span class="smcap">Tenebrionidae</span>, only
+differing from them in having comb-like or pectinate claws on the
+tarsi; and their larvae are like wireworms. The Genus <i>Atractus</i>
+comprises a number of slender beetles of bright metallic tints common
+upon the flowering shrubs in summer; <i>Atractus viridis</i>, ½ an inch
+in length, is bright metallic green, with the thorax and shoulders
+tinted with coppery red, the wing covers deeply marked with punctured
+striae. <i>A. virescens</i> is a smaller species with a more dull
+metallic coppery tint. The members of the Genus <i>Allecula</i> are
+larger beetles, with long slender legs and antennae, shining brown or
+black in colour, with finely striated elytra; the larvae are slender,
+dark, shining brown wireworms living in decaying wood. <i>Allecula
+subsulcata</i> is slightly over ½ an inch in length, of a uniform black
+colour, with the last three joints of the antennae and the last two of
+the tarsi pale ferruginous. The larvae breed in the rotten stems of
+dead grass trees, and the beetles are generally found hiding among the
+foliage.</p>
+
+<hr class="r25">
+
+<h4>Family 40.<br>
+<span class="subhed">LAGRIIDAE.</span></h4>
+
+<p>This is another small group containing few species, but <i>Lagria
+grandis</i> is one of our very common beetles, and can be collected on
+low scrub anywhere about Sydney. The larvae are to be found under logs
+or among damp leaves on the ground, and are thickset, black, shining
+creatures.<span class="pagenum" id="Page_176">[176]</span> covered with short reddish hair on the upper surface; short
+antennae standing out in front; and the tip of the abdomen is produced
+into a pair of pointed spines. The beetle is light reddish brown,
+closely covered with fine confluent punctures and short scattered brown
+hairs. It is slightly over ½ an inch in length, with a small head,
+slender, narrow thorax, and with the front of the wing covers forming a
+broad shoulder in front.</p>
+
+<hr class="r25">
+
+<h4>Family 41.<br>
+<span class="subhed">ANTHICIDAE.</span></h4>
+
+<p>These are small ant-like beetles, with the head having a regular neck
+and the thorax narrow and elongate; most of them are found among
+rubbish upon the ground, or along the edges of creeks and watercourses.
+It is chiefly owing to the researches of King, who collected and
+described a great number of the species found about Sydney (Trans. Ent.
+Soc. N.S.W. 1869), that we know much about this family.</p>
+
+<hr class="r25">
+
+<h4>Family 42.<br>
+<span class="subhed">PYROCHROIDAE.</span></h4>
+
+<p>This is a small group containing some beetles with the head attached to
+the thorax by a neck, and with the wing covers much broader than the
+thorax: <i>Lemodes coccinea</i> is a pretty little bright red beetle
+with black legs and antennae, the latter tipped with white; it measures
+slightly over ¼ of an inch in length; is common under logs in the
+Illawarra district. Another species, <i>L. splendens</i>, has recently
+been described by Lea (Pro. Linn. Soc. N.S.W. 1906) from specimens
+obtained by me at Noundoc, N.S. Wales.</p>
+
+<hr class="r25">
+
+<h4>Family 43. Pintails.<br>
+<span class="subhed">MORDELLIDAE.</span></h4>
+
+<p>This group, in which the <i>Rhipidophoridae</i> are now included, are
+very distinctive beetles; they have the head tucked down in front; the
+thorax large, broad, and rounded at the base, with the hind margins
+angular and fitting closely into the<span class="pagenum" id="Page_177">[177]</span> wing covers, which taper down
+to the apex; the end of the abdomen forms a stout spine-shaped tip
+extending beyond the wings.</p>
+
+<p>They are very active little beetles; several species are very
+numerous and swarm over the flowers of the low scrub. <i>Mordella
+leucosticta</i>, ½ an inch in length, is black; the whole of the
+upper surface is thickly spotted and marked with dull white, and the
+legs and under surface are also mottled. <i>M. limbata</i> is a much
+smaller black beetle ⅙ of an inch in length, and has a pale silvery
+sheen: <i>Tomoxia flavicans</i>, from the northern rivers, is a shorter
+broader insect. <i>Pelectomoides conicollis</i> is 1¼ inches in length;
+is of a uniform dull brown colour, with pectinate antennae; the head
+is small, turned down, and the thorax is broad and rounded. This fine
+beetle is found about Sydney. Lea has described and listed the members
+of this family (Trans. Ent. Soc. London 1902).</p>
+
+<hr class="r25">
+
+<h4>Family 44. Oil and Blister Beetles.<br>
+<span class="subhed">CANTHARIDAE.</span></h4>
+
+<p>The true Blister Beetle is a slender insect with soft integument,
+and a small head produced into a neck behind; the thorax is small in
+proportion to the slender rounded abdomen and wing covers. A number of
+species have been described from this country by different writers,
+among whom Fairmaire has been chief (Stett. Ent. Zeit. 1880). Most of
+them belong to the Genus <i>Zonitis</i>, of which about 40 species have
+been described. <i>Zonitis bipartita</i>, under ½ an inch in length,
+has the head, thorax, base of the wing covers, and under surface of
+abdomen orange yellow, with the abdomen and rest of the elytra dark
+shining blue: <i>Z. brevicornis</i> is a very similar insect, but has
+the whole of the wing covers deep metallic blue.</p>
+
+<p>The true Oil Beetles are more rare; unable to fly, they are found
+crawling about on the ground with the body distended and the wing
+covers overlapping each other at the base. Nothing is recorded about
+the larvae of our species of this family, but in other countries they
+are known to feed upon the eggs of locusts; others attach themselves to
+bees, and are thus carried into their nests, where they devour the eggs
+and afterwards the honey.</p>
+
+<p>The <span class="smcap">Oedemeridae</span> are somewhat similar looking insects to the
+Blister Beetle; <i>Ananca puncta</i> is found in the northern parts of
+N.S. Wales; it is a very slender long-legged beetle over ½ an inch in
+length, of a general dull yellow colour,<span class="pagenum" id="Page_178">[178]</span> with the head, thorax, and
+legs mottled with dull blue, and the whole of the elongated wing covers
+dull blue except a dorsal stripe of the prevailing yellow which widens
+out towards the apex.</p>
+
+<hr class="r25">
+
+<h4>Family 45. Woodborers.<br>
+<span class="subhed">SCOLYTIDAE.</span></h4>
+
+  <div class="figcenter" id="fig80" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig80.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 80.</b>—<i>Hylesinus fici</i> (Lea).</p>
+     <p class="p0 smaller hangingindent">The Fig-branch Beetle, better known under the name of <i>H.
+porcatus</i> (Chap.).</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>This is a group the members of which are allied to the Weevils, but
+differ in having a short broad snout with clubbed antennae, and
+the tibiae toothed on the outer edge. Only a few species have been
+described from this country, but several of them are well-known
+pests, and like the smaller species of the Auger Beetles are usually
+attracted to dying trees. In the Genus <i>Hylesinus</i> we have one,
+<i>H. porcatus</i>, which attacks the terminal buds of both the wild
+and cultivated figs. It is a short thickset black beetle, about 2
+lines in length, with the head turned down to the fore-legs, and the
+clubbed antennae 5 jointed; the head and thorax are rugose, and the
+wing covers finely striated; the whole insect is lightly clothed with
+fine hairs. The Ambrosia Beetle, <i>Xyleborus solidus</i>, is a common
+beetle in the bush, and has lately turned its attention to fruit trees;
+boring into the branch and then gnawing a chamber right round under the
+bark, she deposits her eggs at the end of the burrow, at the same time
+killing the branch and causing it to snap off. This beetle is about
+⅛ of an inch in length, of a uniform black colour, with the legs and
+antennae reddish brown. It is stout and cylindrical in form; the head
+is turned down in<span class="pagenum" id="Page_179">[179]</span> front and hidden from above; the rounded thorax is
+nearly as large as the body, covered with short rasp-like points in
+front; the wing covers are flattened and squared off at the tips.</p>
+
+  <div class="figcenter" id="fig81" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig81.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 81.</b>—<i>Xyleborus solidus</i> (Eichhoff).</p>
+     <p class="p0 smaller center">The Scolytid Beetle that damages the Apple tree Branches.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<hr class="r25">
+
+<h4>Family 46. Slender Weevils.<br>
+<span class="subhed">BRENTHIDAE.</span></h4>
+
+<p>These are remarkable looking beetles, very long and slender in form,
+with the snout never turned down but standing out straight in front
+of the head; the antennae not elbowed, but composed of a number of
+bead-like joints attached near the tip on either side; and the jaws
+situated at the extremity of the snout. In many of the larger forms
+the males are much bigger than the females, and have the snout much
+longer; they are chiefly found in the tropical scrubs, two small
+species however coming from the south. <i>Trachelizus howetti</i>,
+a shining reddish brown beetle about ¼ of an inch in length, has
+the antennae thickened to the tips; and <i>Cordus<span class="pagenum" id="Page_180">[180]</span> hospes</i>, a
+larger beetle of a somewhat darker colour, is found under dead bark
+on the tree trunks, and also sometimes in ants’ nests. <i>Ectocemus
+pterygorrhinus</i> comes from North Queensland, and is common on the
+low scrub about Cairns where timber has been felled; it is somewhat
+short and thickset; the male is about 1¼ inches in length, with the
+tip of the rostrum produced into an angulate process, and very long
+cylindrical antennae. The general colour is dark reddish brown, with
+the wing covers ornamented with four parallel rows of shining dull
+yellow bars. <i>Ithystenus hollandiae</i>, also from Cairns, is found
+in similar situations; it is very long and slender, 1½ inches long,
+blackish brown, with two parallel light reddish brown lines down the
+centre of the wing covers, and the extremities produced into a tooth
+at either side. <i>Homocerus fossulatus</i>, found under rotten bark,
+is of a general dull brown colour; is thickened and flattened, with
+the wing covers much roughened. The male measures about 1¾ inches in
+length, but the female is much smaller. <i>Mesetia amoena</i> is a very
+pretty, slender, bright reddish yellow beetle, with the head, legs, and
+sides of the thorax black, and a dark medium stripe down the thorax
+and elytron. It is about 1 inch in length, and is common in the scrubs
+about the Richmond River N.S.W.</p>
+
+<hr class="r25">
+
+<h4>Family 47. Carnivorous Weevils.<br>
+<span class="subhed">ANTHRIBIDAE.</span></h4>
+
+<p>These beetles are allied to, but very distinct from, the true weevils,
+and are usually found on the trunks of dead trees, where they hunt for
+and devour the small wood-boring beetles that are attracted to the dead
+twigs, or which breed out of fungus. They have a short blunt snout, and
+many have long slender antennae which are not elbowed; they are most
+plentiful in the northern scrubs and forests.</p>
+
+<p><i>Ecelonerus albopictus</i> is typical of those with short antennae
+clubbed at the tips; it is a stout thickset dark brown beetle, thickly
+covered with pubescence, and the whole of the under surface, front of
+thorax and middle and tip of the body blotched with white pubescence.
+It measures over ½ an inch in length, and is found in the northern
+parts of N.S. Wales.</p>
+
+<p><i>Ancylotropis waterhousei</i> is a good example of the long-horned
+forms; it measures over ½ an inch in length, but looks shorter as its
+head and thorax are curved downwards.<span class="pagenum" id="Page_181">[181]</span> It is a very slender beetle of
+a uniform brown tint, but thickly clothed with buff and grey down; the
+thorax tapers to the front, and the head is elongated but swells out
+again in front, and is furnished with long slender antennae. <i>Doticus
+pestilans</i> is known as the “Dried Apple Beetle,” from the habit
+that the beetle has of laying its eggs in any dried immature apples
+that are left over the season upon the trees; in its native state
+the larvae breed in the large wattle galls. It measures only about
+⅓ of an inch, and is a short, thickset beetle, with the head turned
+downward, furnished with slender clubbed antennae. The general colour
+is reddish brown; it has a raised ridge on either side of the wing
+covers; the fore-legs are curiously prolonged with large tarsi, and it
+has a peculiar jumping habit. Pascoe has described most of our beetles
+belonging to this group (Journal of Entomology 1860, and Annals and
+Magazine of Natural History 1859).</p>
+
+  <div class="figcenter" id="fig82" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig82.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 82.</b>—<i>Doticus pestilans</i> (Olliff).</p>
+     <p class="p0 smaller center">The Jumping Anthribid or “Dried-apple Beetle.”</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<hr class="r25">
+
+<h4>Family 48. Weevils.<br>
+<span class="subhed">CURCULIONIDAE.</span></h4>
+
+<p>The Weevils or Snout Beetles are one of the largest and best defined
+groups of the Coleoptera, and though they comprise a great number of
+very different looking beetles in shape, they all have the front of
+the head produced into a more or less elongated snout with the jaws
+placed at the tip, and with the distinctly elbowed antennae standing
+out on either side of the snout, forming a regular angle. Most<span class="pagenum" id="Page_182">[182]</span> of
+them are provided with well developed wings, the elytra being usually
+very solid; and the whole insect is encased in thick armour plate
+integument. The majority are slow, sluggish beetles, that trust as a
+rule more to their shape and protective colouration harmonising with
+their surroundings, than to their activity. They feed chiefly upon
+foliage and bark, and when at rest cling to the twigs or stalks of
+their food plants, falling at the least alarm to the ground, where
+they remain perfectly motionless, with their legs and antennae tightly
+closed until the danger has passed.</p>
+
+<p>Those living in the dry western country are represented by curious
+wingless forms with very short stout snouts, and are usually found
+under logs and stones in open grass lands; while in the tropical scrubs
+they are chiefly arboreal, and frequently richly coloured. They are all
+vegetarian in their habits both in the larval and perfect states; some
+infest seeds, others destroy the buds, foliage or roots of plants and
+do a great deal of damage to farms and gardeners’ crops. About 1200
+described species are listed in Masters’ Catalogue, and a great number
+of new species have been added during the last few years by Messrs.
+Blackburn and Lea in the Proceedings of the Linnean Society of N.S.
+Wales, and Transactions of the Royal Society of S. Australia. Pascoe,
+one of the most prolific writers on this family, described a great many
+between the years 1869–1883 (Journ. Linn. Soc. &amp; Ann. Nat. Hist.). They
+have been divided into a number of sub-families, among which only the
+most important can be noticed here.</p>
+
+<p>The remarkable Long-necked Weevil, <i>Rhadinosomus lacordairei</i>,
+measures under ½ an inch in length; is of a uniform dull reddish brown
+tint with a silvery white spot on either side of the rounded elytra,
+which are produced into a spine on each side. It breeds in the cavity
+in the large <i>Brachyscelid</i> galls, feeding on the woody tissue;
+Lea says that in Tasmania it is a pest to strawberry growers.</p>
+
+<p>The members of the Genus <i>Myllocerus</i> are dainty little oval
+weevils found resting upon grass stalks or among the foliage of
+small shrubs peculiar to North Queensland and North West Australia.
+<i>Myllocerus carinatus</i> is about ⅓ of an inch in length, and
+is finely striated and densely clothed with metallic green scales.
+<i>Catasarcus spinipennis</i> is another West Australian insect of a
+brownish buff tint, with the abdomen broadly rounded; and the hind
+portions of the elytra covered with sharp spines. About 40 species
+of this genus are described, all of which with one exception are
+confined to West Australia. <i>Cherrus ebeninus</i> is one of the large
+stout black weevils common in the bush around<span class="pagenum" id="Page_183">[183]</span> Sydney, where it is
+usually found clinging to the twigs of the blood-wood, <i>Eucalyptus
+corymbosa</i>. It is black, with broad rugose thorax and ribbed wing
+covers.</p>
+
+  <div class="figcenter" id="fig83_84" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig83_84.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Figs. 83</b> and<b>84.</b>—<i>Wattle Weevils.</i></p>
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li class="hangingindent"><b>83.</b> <i>Rhinotia hœmoptera</i> (Kirby). The Red Weevil.</li>
+  <li class="hangingindent"><b>84.</b> <i>Leptops tribulus</i> (Fabr.). The Wattle “Pig-beetle.”</li>
+</ul>
+</div>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>The Genus <i>Leptops</i> contains a large number of very characteristic
+beetles feeding upon the foliage of wattles and other scrub trees. They
+are usually grey, buff, or dark brown insects with thickened snouts and
+broad bodies. The Apple-root Borer, <i>Leptops hopei</i>, is sometimes
+a pest to the orchardist, damaging the roots of his apple trees; the
+beetle emerging from the soil crawls up the tree trunk, and laying
+her eggs upon the leaf, turns the edges over and gums them together
+with a sticky secretion; the young grubs hatch and crawl down to the
+roots. <i>L. tribulus</i>, often called by the Sydney boys the “Wattle
+Pig,” feeds upon the foliage<span class="pagenum" id="Page_184">[184]</span> of the black wattle; it is a much larger
+species, about 1 inch in length; dark brown to black in colour; the
+broad rounded body covered with short blunt spines, thickest towards
+the apex. The Grey-banded Leaf Weevil, <i>Ethemaia sellata</i>,
+described from S. Australia, has a wide range over the interior. The
+larvae are pale green legless creatures about ⅓ of an inch in length,
+lightly clothed with short hairs; they remain buried in the soil,
+coming out at night to feed upon plants, but if disturbed by a light
+they will drop to the ground and bury themselves very quickly. The
+beetle is ⅓ of an inch in length, dark brown, shaded with grey, which
+forms an irregular pattern on the thorax, legs, and elytra; rugose,
+deeply pitted; and the whole surface is clothed with white and brown
+scales.</p>
+
+<p>The <span class="smcap">Amycterinae</span> are a large group of weevils with such short
+thick snouts that they are quite unlike the typical forms generally
+found in open forest country among grass or hiding under logs or
+stones; they are wingless, the elytra soldered together forming a very
+thick solid integument. Macleay described a great number (Trans. Ent.
+Soc. N.S.W. 1865). <i>Psalidura elongata</i>, common in the interior,
+measures slightly over 1 inch in length; is of a uniform black colour
+with a reddish brown tint; the short head and flattened thorax are
+finely granulated, with the elytron closely ribbed and punctured.
+<i>Talaurinus tuberculatus</i>, about ⅔ of an inch in length, is black,
+very coarsely granulated on the thorax, with the whole of the flattened
+elytron thickly covered with blunt tubercules. Nearly 90 species or
+this genus have been described, chiefly by Macleay, ranging all over
+Australia. <i>Amycterus draco</i> is one of the most remarkable armour
+plated species in the interior; it is black, with a small deeply ribbed
+head and angulated thorax; and the broad, somewhat elongated elytron is
+turned down at the extremity and covered with rows of raised bosses.
+<i>Acantholophus echinatus</i>, as the generic name implies, represents
+a group containing a number of species covered with spines that
+extend even over the upper surface of the head and thorax. The Genus
+<i>Cubicorrhynchus</i> contains the smaller ground beetles, almost
+cylindrical, with short rounded head and thorax: they dwell under
+stones, and when exposed lie quite motionless as if dead, their dull
+brown tints matching the ground. <i>C. morosus</i>, about ⅓ of an inch
+in length, is of the usual form and colour, with a very wide range, and
+often very numerous in grass lands.</p>
+
+<p>The <span class="smcap">Gonipterinae</span> comprise a number of diverse forms found
+upon foliage clinging to the twigs. The Genus<span class="pagenum" id="Page_185">[185]</span> <i>Oxyops</i> contains
+a number of stout moderate-sized beetles which are remarkable for the
+curious habits of their legless slug-like larvae, which, covering
+themselves with a slimy secretion, crawl about over the surface of the
+eucalyptus leaves, feeding upon the epidermis and covering their backs
+with their excrement; when full grown they pupate on the ground among
+the rubbish beneath their food plant. <i>Oxyops concreta</i> has a
+narrow short head with the thorax broadest behind; the elytra broadly
+swollen, rounded, deeply striated, and clothed with fine scales.
+<i>Bryachus squamicollis</i> has a wide range over Australia, and is
+usually found clinging to the twigs of stunted gum trees; it measures
+about ½ an inch in length; is of a uniform dark chocolate brown, but
+thickly mottled all over with fine grey and black scales. This beetle
+forms rounded cells of a brown gummy substance (very much like large
+Lecanium scales) which are attached to the twigs, in each of which she
+places three eggs; from these emerge pale yellow oval larvae; when full
+grown the larva is an oval smooth rounded grub of a purplish tint,
+legless, flattened on the ventral surface, and with the head hidden
+from above, like a “pear-slug” larva; when adult it falls or crawls to
+the ground, and pupates among the rubbish. Mr. Gurney first discovered
+the curious egg-capsules on trees in the Bogan River district N.S.W.
+<i>Gonipterus gibberus</i> is a small reddish-brown beetle with a
+white blotch on either side of the elytra; it has an elongated head
+and thorax, and is usually found clinging tightly to the tip of a
+eucalyptus twig. <i>Aterpus cultratus</i>, typical of the next group,
+measures ⅓ of an inch in length; the dorsal surface is flattened; is of
+a general dull brown tint, with the head, front of the thorax and tip
+of the abdomen buff. Usually found under dead bark on tree trunks, its
+larva forms a loose cocoon of bits of bark on the stems of Melaleuca
+bushes. <i>Lixus mastersi</i>, the weed weevil, is very common in
+neglected gardens, as its larvae feed in the roots of <i>Amaranthus</i>
+and <i>Chenopodium</i>, causing them to swell out into cylindrical
+galls; the beetle is ⅓ of an inch in length, slender and cylindrical in
+form, of a light brown tint, but when freshly emerged is covered with a
+yellow mealy pubescence which soon rubs off.</p>
+
+<p>The “Botany Bay Diamond Beetle,” as Donovan described it,
+<i>Chrysolophus spectabilis</i>, is one of our commonest and at the
+same time one of the most beautiful of our weevils. It has a very
+wide range all over Australia, and is found wherever the black wattle
+thrives, but also feeds<span class="pagenum" id="Page_186">[186]</span> upon many other species. It is very variable
+in size, measuring to 1 inch in length; is of a uniform black tint,
+but so thickly covered with patches of bright metallic green scales,
+that in freshly emerged specimens it seems more green than black. It
+deposits its eggs about the butt of the wattle tree buried in the bark;
+the stout fleshy grubs form irregular tunnels in the wood.</p>
+
+<p>The Elephant Beetle, <i>Orthorrhinus cylindrirostris</i>, whose stout
+fleshy grubs do a good deal of damage to citrus trees, has a very wide
+range over Australia: it is a dark brown weevil, covered on the dorsal
+surface with fine buff and grey scales; the thorax is covered with
+irregular bosses which form ridges on the elytra. It measures about ½
+an inch in length, and has a long slender snout turned down in front,
+and very long fore-legs terminating in large feathered tarsi; in its
+native state it feeds upon gum trees. <i>O. klugi</i> is a much smaller
+species that feeds and breeds in wattles, but is also known as an
+orchard pest, infesting the canes of vines, and also eating the leaf
+buds.</p>
+
+  <div class="figcenter" id="fig85" style="max-width: 425px">
+     <img
+    class="p1"
+    src="images/fig85.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 85.</b>—<i>Chrysolophus spectabilis</i> (Fabr.).</p>
+     <p class="p0 smaller center">The Botany Bay Diamond Beetle.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p><i>Eurhamphus fasciculatus</i> is one of our largest and most
+remarkable looking weevils; it measures 2½ inches in length, and is of
+a general black tint, but the greater portion is finely clothed with
+grey and rusty red scales, which give it a uniform buff tint; it is
+further clothed with tufts of long soft reddish brown hairs forming
+a raised ridge down either side of the thorax, and are scattered in
+rows on the elytra intermixed with small tufts of long grey hairs,
+giving it a very remarkable spiny appearance. It is a rare insect
+as a rule, ranging from Pine Mountain, Queensland, to the Clarence
+River, N.S. Wales; but many years ago Masters when collecting in the
+north came upon a large dead<span class="pagenum" id="Page_187">[187]</span> pine tree in the scrub literally covered
+with hundreds of these great weevils boring into the dead timber with
+their long slender snouts, making a distinct scratching sound. It is
+therefore probable that they are confined to the strip of country where
+the Hoop or Maryborough Pine grows, and breed on it.</p>
+
+  <div class="figcenter" id="fig86" style="max-width: 395px">
+     <img
+    class="p1"
+    src="images/fig86.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 86.</b>—<i>Myrmacicelus formicarius</i> (Chev.).</p>
+     <p class="p0 smaller center">The Ant-like Weevil.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p><i>Tranes sparsus</i>, ⅓ of an inch in length, is common among the
+coarse palm-like foliage of the Currawong; it is of a uniform reddish
+brown tint with a slender snout, rounded flattened thorax, and oval,
+flattened, finely striated elytra. A smaller black species, <i>T.
+xanthorrhoeae</i>, is found in the foliage of the grass trees. The
+Genus <i>Belus</i> contains a number of very slender weevils with the
+snout standing out in front of the head, long antennae, thickened
+thighs, and the slender elytra coming to a point at the apex. They
+feed upon wattles, and are very active, flying about in the heat of
+the day. <i>Belus semipunctatus</i> is about ¾ of an inch in length;
+of a uniform dark reddish brown tint, with a broad white stripe down
+each side of the thorax and down the centre of the back, with small
+spots on each side. <i>B. bidentatus</i> is a stouter thickset beetle;
+and is of a darker brown colour, with a rounded buff spot on either
+side of the wing covers. <i>B. plagiatus</i> is a smaller almost black
+species, richly variegated with reddish yellow spots and blotches;
+it comes from the more tropical scrubs of N.S. Wales and Southern
+Queensland. <i>Rhinotia hoemoptera</i>, a very handsome slender
+cylindrical weevil, is about ¾ of an inch in length, with the snout
+furnished with thickened antennae turned down below the head; it is
+rich black with bright brick red wing covers which have a fine dorsal
+black stripe down the centre. The curious large-headed larvae feed
+in the stems of the Sweet-scented Wattle, <i>Acacia suaveolens</i>.
+<i>Eurhynchus acanthopterus</i> is the type of another group, which
+has a shorter snout, and<span class="pagenum" id="Page_188">[188]</span> the head broad and rounded, fitting closely
+into the somewhat attenuated thorax; the body is broadly oval, and
+the wing covers furnished with short conical spines in the centre of
+the back. It measures about ½ an inch, and is of a uniform reddish
+brown tint. The Ant Weevil, <i>Myrmacicelus formicarius</i>, usually
+found crawling about on the trunks of wattle trees, is a shining black
+weevil about ⅙ of an inch in length, and is as ant-looking as its names
+suggest. The Genus <i>Balaninus</i> represents the tiny little rounded
+weevils with very long slender snouts adapted for feeding upon seeds.
+<i>B. amoenus</i> is black spotted with white; is almost oval in form,
+and about ⅙ of an inch in length. It feeds upon the ripe fruit of the
+little yellow fig, <i>Ficus rubiginosa</i>.</p>
+
+<p>The Genus <i>Laemosaccus</i> contains a number of short flattened
+weevils of a general black or dark brown colour ornamented with white
+or buff down; they are generally found feasting upon the bark of
+freshly fallen tree-trunks, particularly wattle and eucalypts, in
+which they also bore holes and deposit their eggs. <i>Laemosaccus
+electilis</i> measures ¼ of an inch in length; is black with white
+pubescence on the under surface, and white markings on the tips of
+the wing covers, which are finely striated. My specimens come from
+Condobolin, N.S. Wales.</p>
+
+<p>The members of the Genus <i>Haplonyx</i> contain a number of curious,
+short, broadly rounded beetles generally found clinging to the twigs
+of eucalypts, but their larvae breed in the fleshy galls of the
+Brachyscelid coccids, where they destroy the gall makers and pupate
+in the cavity. <i>Haplonyx centralis</i> is a typical dark brown
+species with a large white circle occupying the centre of the back.
+<i>Perissops ocellatus</i>, about ½ an inch in length, comes from the
+Tweed River N.S. Wales and Southern Queensland: it is of a general
+light brown tint; is oval and rounded in form, with the wing covers
+marked with buff, so that when viewed from behind it resembles a pair
+of eyes and nose on a man’s face.</p>
+
+  <div class="figcenter" id="fig87" style="max-width: 469px">
+     <img
+    class="p1"
+    src="images/fig87.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Figs. 87 and 88.</b>—Kurrajong Weevils.</p>
+     <p class="p0 smaller center"><b>87.</b>—<i>Axionicus insignis</i> (Pascoe).</p>
+     <p class="p0 smaller center">The Mimic Bark-weevil.</p>
+     </div>
+
+  <div class="figcenter" id="fig88" style="max-width: 337px">
+     <img
+    class="p1"
+    src="images/fig88.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>88.</b>—<i>Tepperia sterculiae</i>, (Lea).</p>
+     <p class="p0 smaller center">The Seed-pod Weevil.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p><i>Axionicus insignis</i> is always found upon the trunk of the
+Kurrajong tree hidden in the crevices of the bark, where in spite of
+its size (¾ of an inch in length) it is very difficult to detect, owing
+to the exact blending of its white grey and brown markings with the
+tints of the bark. It lays its eggs in the injured bark; the larvae
+are typical obese legless white grubs; they feed between the bark and
+the wood often in such numbers as to kill large branches. They pupate
+in regular oval cocoons formed of gnawed wood and bark. <i>Tepperia
+sterculiae</i> breeds in the seed pods of the Kurrajong,<span class="pagenum" id="Page_189">[189]</span> and is a
+smaller but somewhat similar tinted beetle clothed with brown and
+grey scales, the latter forming a well defined patch toward the apex
+of the wing covers. The two species of the Genus <i>Enteles</i> are
+smaller, smooth, shining, black beetles, with the head and legs curving
+underneath the body; they are both found in the semi-tropical scrubs of
+the north. <i>Enteles vigorsi</i> is marked with two white transverse
+lines crossing the elytra; while <i>E. ocellatus</i> has more parallel
+lines crossing the transverse ones, making an eye-like pattern upon the
+back. The Grass-tree Weevil, <i>Trigonotarsus rugosus</i>, is 1½ inches
+in length; is of a uniform black colour; and of the typical Calandra
+or palm weevil shape, with a slender curved snout, and small head sunk
+into the thorax, with the dorsal surface of the thorax and elytra
+flattened. The obese white larva feeds in the roots of the grass-trees.
+Allied to this are the two tiny cosmopolitan grain weevils, <i>Calandra
+orizae</i> and <i>C. granaria</i>, which are destructive pests to all
+kinds of grain and other food stuffs.</p>
+
+<p><span class="pagenum" id="Page_190">[190]</span></p>
+
+<hr class="r25">
+
+<h4>Family 49. Longicorns.<br>
+<span class="subhed">CERAMBYCIDAE.</span></h4>
+
+<p>The longicorn beetles from their number, variety, size, and the damage
+they do to timber and plants, are well known beetles, and have always
+been a favourite group with collectors. They are usually elongate
+in form, with powerful gnawing jaws, and long slender many-jointed
+antennae standing out in front of the head, the basal joint often half
+encircled by the large compound eye; the elytron is always divided down
+the centre, and the large hind wings well adapted for flight are folded
+beneath them; the legs are strongly developed, well adapted either for
+running about or clinging to their food plant.</p>
+
+<p>They deposit their eggs in bark or timber; the larvae burrow into
+the tissue beneath, upon which they feed; they often remain, long
+cylindrical or flattened naked grubs, for several years before they
+pupate in the end of their last gallery.</p>
+
+<p>They are divided into three large sub-families by modern entomologists;
+our species have been chiefly described by Newman in “The Entomologist”
+1842; “Annals of Natural History” 1840; and a number of other Journals.
+Pascoe contributed a great many papers to over half a dozen of the
+leading entomological societies in England between 1857 and 1875. Hope,
+in the Proceedings of the Entomological Society of London 1841, and
+other Transactions, added largely to our list, while Messrs. Boisduval,
+Germer, White, Saunders, and others described odd specimens. In our own
+Journals, Macleay and Blackburn have also dealt with these beetles.</p>
+
+<p>The <span class="smcap">Prioninae</span> comprise a number of large broad thickset
+beetles with the front coxae large and transverse, and the prothorax
+having well developed side margins. The determination of several of our
+commonest species was a matter of some doubt, so I submitted most of
+our common forms to Professor Lamare of Brussels, who has identified
+them and enabled me to speak with some authority.</p>
+
+<p><i>Sceleocantha glabricollis</i> is one of the shortest thickset forms;
+about 1¼ inches in length; of the usual uniform reddish brown tint;
+the small shining thorax furnished with a fine spine on either side;
+and the broad rounded elytron finely granulated. It is found along the
+southern coast of N.S. Wales. The common large white grub which bores
+in the trunks of the honeysuckle (<i>Banksia serrata</i>) growing<span class="pagenum" id="Page_191">[191]</span>
+along the coast of the south-east of N.S. Wales, Victoria and Tasmania,
+is the larva of <i>Paroplites australis</i> described in 1842 by
+Erichson; in most of our Museum collections it is known as <i>Macrotoma
+servilis</i>. It is variable in size, measuring to 2 inches in length,
+and is of a dull dark brown tint, with a flattened rugose thorax with
+serrate edges. <i>Eurynassa australis</i> is a large somewhat slender
+species 2¼ inches in length; the broad flattened dull coloured thorax
+is marked in the centre with two shining triangular patches pointing
+toward the head; the reddish brown elytra are finely granulated. <i>E.
+odewahni</i> is a smaller species, with the thorax more constricted,
+shining, rugose, and serrate on the margins; it is found in the
+interior, and has an extended range westward from N.S. Wales to W.
+Australia. <i>Agrianome spinicollis</i> comes from the north-east of
+N.S. Wales; it is a broader more flattened form, about 2 inches in
+length; the thorax is rounded and serrate on the sides; and the general
+colour is light reddish brown. <i>Iotherium metallicum</i> hardly
+measures over ½ an inch; is of a rich metallic purple tint; the thorax
+is produced into a broad spine on the sides; and the wing covers are
+broadly round at the apex. The male is a much smaller coppery tinted
+beetle, and was described under the name of <i>Phaolus macleayi</i>; it
+is usually taken on grass stalks in open forest country.</p>
+
+  <div class="figcenter" id="fig89" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig89.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 89.</b>—<i>Eurynassa odewahni</i> (Pascoe).</p>
+     <p class="p0 smaller center">The great brown Longicorn.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p><span class="pagenum" id="Page_192">[192]</span></p>
+
+<p>The <span class="smcap">Cerambycinae</span> comprise a much larger division of the
+longicorn beetles, differing from the last group in having the first
+coxae not greatly extended transversely; the thorax not margined, and
+the last joint of the maxillary palpus usually broad. <i>Pachydissus
+sericus</i> is a slender silvery dark brown beetle about 1¼ inches in
+length, with the tip of the wing covers spined and the basal joint of
+the antennae thickened. It is generally found clinging to the rough
+bark of tree trunks. They deposit their eggs in the bark of <i>Acacia
+longifolia</i>; the larvae bore all through the trunk and larger
+branches; they have a wide range over the southern half of Australia.</p>
+
+  <div class="figcenter" id="fig90" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig90.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 90.</b>—<i>Pachydissus sericus</i> (Newman).</p>
+     <p class="p0 smaller center">The Silvery Longicorn, breeding in the stems of <i>Acacia
+longifolia</i>.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>The Genus <i>Phoracantha</i> contains a number of typical dark yellow
+or mottled brown beetles which in the larval state feed between the
+bark and sapwood of different gum trees when the trees are dead or
+dying; several species are common in firewood blocks about Sydney. The
+beetles are remarkable for long antennae fringed on the inner edge
+with fine hairs and short spines at the joints, and a single large
+spine on the sides of the thorax. <i>Phoracantha recurva</i> has a very
+wide range from the North-west coast to Victoria; it measures under
+1 inch in length; is of a general dull yellow tint, with<span class="pagenum" id="Page_193">[193]</span> the apical
+half of the wing covers crossed with a broad band of reddish brown.
+<i>P. tricuspis</i> is a much larger, darker reddish brown beetle with
+mottled wing covers that lives in the timber of the ironbark gums.
+<i>P. semipunctata</i>, smaller than the last, has a regular pattern
+of dark brown on its back; it is common about Sydney N.S.W., and has
+a wide range over Australia. <i>Epithora dorsalis</i> is remarkable
+for its very long fringed antennae, and is easily distinguished by
+its uniform reddish tint marked across the centre of the wing covers
+with a broad patch of dull yellow. It also has a wide range over the
+continent, and is often taken about Sydney in summer on flowering
+shrubs. <i>Aphanasium australe</i> is a slender, light reddish brown
+beetle, under ¾ of an inch in length, the larvae of which feed in the
+stems of the prickly Hakea bushes. <i>Piesarthruis marginellus</i> is
+a very distinctive dull reddish brown insect with the centre of the
+wing covers pale brown; the smaller more slender male is furnished with
+remarkable feathered antennae. The larva breeds and pupates in the
+centre of the branches of <i>Acacia longifolia</i>, and can be easily
+reared from infested wood, though it is very rarely found on the food
+plant, for as soon as it emerges it crawls up to the top of the tree
+and clings to the branchlets.</p>
+
+<p><i>Strongylurus thoracicus</i> is a handsome brown longicorn brightly
+marked with white on the sides of the thorax. Its larva is very
+destructive in gardens, cutting off large branches of white cedar and
+pittosporum bushes.</p>
+
+<p>In the Genus <i>Uracanthus</i> the beetles are long and slender, with
+almost cylindrical bodies, and the thorax contracted slightly behind
+the head. <i>Uracanthus triangularis</i> in Victoria confines its
+attention almost exclusively to the branches of the black wattle; but
+in N.S. Wales I have bred it from a number of different shrubs. It
+measures about 1 inch in length; is of a general uniform reddish brown
+colour, but so thickly clothed with fawn-coloured pubescence that there
+is only an angular bare reddish patch on the sides of the wing covers.
+<i>U. cryptophagus</i>, the largest known species, is nearly twice
+the length, more cylindrical in form, and of a uniform buff tint. In
+its native state it fed in the northern scrubs of N.S. Wales upon the
+wild lemon, from which it migrated to the cultivated orange, and the
+larvae burrowing through the branches did a great deal of mischief to
+the trees. <i>Syllitus grammicus</i> is a slender reddish brown beetle
+with six parallel grey lines running down the elytra, and is under ½ an
+inch in length. <i>Lygesis mendica</i> breeds on the twigs of the black
+wattle in the neighbourhood of Sydney. It measures under ½ an inch<span class="pagenum" id="Page_194">[194]</span> in
+length; is of a uniform reddish brown colour, and has a slender head
+and long cylindrical thorax. The wing covers are rounded at the tips,
+and the whole insect is clothed with stout white hairs. <i>Macrones
+rufus</i> is a long, slender, bright reddish brown beetle about 1¼
+inches in length; the thorax is roughened into rounded bosses; the
+body is narrow in the centre, but swells out into a rounded apex; the
+wing covers narrow, and not reaching to the tip of the abdomen give it
+a very wasp-like appearance. It is usually taken upon flowers in the
+summer months.</p>
+
+  <div class="figcenter" id="fig91" style="max-width: 333px">
+     <img
+    class="p1"
+    src="images/fig91.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 91.</b>—<i>Strongylurus thoracicus</i> (Pascoe).</p>
+     <p class="p0 smaller center">The Pittosporum tree borer, and larva.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+  <div class="figcenter" id="fig92" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig92.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 92.</b>—<i>Lygesis mendica</i> (Pascoe).</p>
+     <p class="p0 smaller center">The slender grey-haired Longicorn.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+  <div class="figcenter" id="fig93" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig93.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 93.</b>—<i>Uracanthus cryptophaga</i> (Olliff).</p>
+     <p class="p0 smaller center">The great Orange-tree Borer.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>The Genus <i>Hesthesis</i> contains a number of brightly marked yellow
+and brown beetles that mimic flower-wasps both in colour and shape,
+and are found in similar situations upon flowering shrubs. The wing
+covers are shortened into rounded pads only covering the shoulders,
+while the wings are exposed. <i>Hesthesis vigilans</i>, under ¾ of an
+inch in length, is black, mottled on the thorax, and barred with two
+bands of bright yellow on the abdomen, and one on the front of the
+thorax. <i>H. ferruginea</i>, slightly larger, is bright yellow banded
+with black; and <i>H. cingulata</i>, about the same<span class="pagenum" id="Page_195">[195]</span> size, is black,
+blotched upon the thorax, and marked with three white bands on the
+abdomen. <i>Distichocera macleayi</i> has the smaller male black with
+feathered antennae, and deeply ribbed wing covers tapering to the apex.
+The female, nearly 1½ inches in length, and broader and thickset in
+proportion, has the dorsal surface clothed with rusty red pubescence.
+<i>D. maculicollis</i> is a much smaller species, hardly over ½ an
+inch in length in the male, which is of a dull black faintly marked
+with white; the larger female is rusty red except a parallel stripe
+of black down the centre of the thorax. This species breeds in the
+stems of <i>Kunzea<span class="pagenum" id="Page_196">[196]</span> corifolia</i>; commencing under the bark the larva
+gnaws irregular passages backwards and forwards, finally hollowing out
+several large parallel chambers toward the centre of the stem, in one
+of which it pupates. Among the most beautiful of our flower haunting
+longicorns are the members of the Genus <i>Tragocerus</i>, with stout
+angular thorax and broad deeply ribbed wing covers almost truncated
+at the extremities. <i>T. lepidopterus</i> is variable in size and
+colouration in the sexes, the smaller male being darker coloured
+than the large reddish brown female, which measures nearly 1¾ inches
+in length; both have the wing covers mottled with little patches of
+grey hairs. <i>T. spencei</i> is a smaller species without the white
+patches, but having dark wavy bands crossing the centre of the back.</p>
+
+<p>The members of the Genus <i>Clytus</i> are active little ant-like
+beetles, common in the more tropical parts of Australia, running up and
+down on freshly fallen tree trunks in the bright sunlight, or hunting
+over flowering shrubs; some are richly marked with golden yellow or red
+on the rounded thorax. <i>Clytus curtisi</i>, measuring under 1 inch in
+length, is black spotted and mottled with white. One of our commonest
+and most widely distributed flower haunting longicorns is <i>Aridaeus
+thoracicus</i>, a reddish yellow beetle with short rounded thorax, and
+the wing covers crossed in the centre with two black V-shaped bands.
+It is very variable in size, the largest measuring nearly 1 inch in
+length. <i>Purpuricenus quadrinotatus</i> is a very handsome black and
+bright red beetle about ¾ of an inch in length, with a short broad
+almost globular thorax, and a short body round at the apex. It is
+common along the Flinders River N. Queensland upon low scrub, and I
+have taken them in all variations of red and black; usually the head
+and thorax are black, with the wing covers red blotched with black; a
+variety with the thorax red is described as a distinct species.</p>
+
+<p>The <span class="smcap">Lamiinae</span> comprise the third division which, usually stout
+and broad in proportion, are found chiefly upon branches or twigs
+feeding upon bark; and are frequently very numerous upon fallen timber
+in forest clearings. They differ from the former group in having the
+front coxae round and deeply embedded; the maxillary palpi pointed at
+the tips; and the fore tibiae with a more or less distinct groove on
+the inner side.</p>
+
+<p><i>Microtragus mormon</i> is typical of several closely allied genera
+of short, thickly coated longicorns, with the rounded slightly spined
+thorax and the tapering body ridged or coarsely punctured; they are
+found upon logs or tree trunks on the ground, and somewhat resemble
+the ground weevils.<span class="pagenum" id="Page_197">[197]</span> This species comes from Kalgoorlie, W. Australia,
+but has a wide range over the western country; it is of a dull reddish
+brown tint, and measures about 1 inch in length. <i>Ceraegidion
+horrens</i>, not uncommon in the Illawarra district N.S.W., is a
+smaller darker coloured beetle covered with stout spines upon the
+dorsal surface of the thorax and elytra. The Genus <i>Monohammus</i>
+contains a number of very fine brown or mottled beetles with long
+stout antennae; the small rounded thorax produced into a blunt spine
+on either side; and the broad wing covers arcuate at the tips and
+sometimes spined on the sides. <i>M. holotephrus</i> is of a uniform
+dull buff tint and measures over 1 inch in length; it comes from S.
+Australia and Queensland. <i>M. ovinus</i> is a much smaller species
+with the thorax spined on the summit and sides; it is of a pale brown
+tint finely mottled with grey. It has a wide range, being recorded from
+Kalgoorlie W.A., N.S. Wales, Queensland, and S. Australia.</p>
+
+  <div class="figcenter" id="fig94" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig94.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 94.</b>—<i>Batocera frenchi</i> (Blackburn).</p>
+     <p class="p0 smaller center">The great Fig-tree Longicorn.</p>
+     <p class="p0 smaller center">(Original Photo. Burton.)</p>
+     </div>
+
+<p><span class="pagenum" id="Page_198">[198]</span></p>
+
+<p>The tropical Genus <i>Batocera</i>, containing many of the largest
+and most handsome of our longicorns, is well represented in our
+semi-tropical scrubs. <i>Batocera frenchi</i> has a very wide range
+from the Northern Coast of N.S. Wales to Cape York. The great white
+grubs burrow in the trunks of native figs and other forest trees, and
+the collectors in Cairns, N. Queensland, capture the beetles by cutting
+down fig trees and waiting for them at twilight when they come to feed
+upon the bark. This species measures over 2 inches in length, has a
+spined rugose thorax, broad wing covers, and immense stout spined
+curved antennae; its general colour is slate grey to dark brown, with
+the elytra marked with irregular oval white spots. <i>B. sapho</i> is
+a more reddish brown beetle, somewhat more slender, and with fewer
+spots on the wing covers: it is found in the forests of Cape York, N.
+Queensland. <i>Rosenbergia megacephala</i> is larger still, and is of
+a beautiful creamy white tint, with the basal portions of the elytra
+finely spotted with black; the thorax is deeply ridged and spined: it
+is found at Port Darwin N.A., and Cairns, Queensland. Horace Brown
+informs me that this large beetle frequents fig trees in the forests of
+N. Queensland, where they can often be detected by the number of small
+branches scattered beneath, which have been cut off by their powerful
+jaws. <i>Thyada barbicornis</i> is a very handsome greyish brown
+mottled beetle with an oval blackish spot on each side of the elytra,
+and the antennae are so thickly fringed with fine hairs that it forms a
+regular brush toward the extremities; it measures under ¾ of an inch in
+length, and is common on the foliage of native figs on the Tweed River
+N.S.W.</p>
+
+<p>The Genus <i>Hebecerus</i> contains a number of moderate-sized, grey or
+brownish mottled beetles, many of which lay their eggs in the bark of
+the wattle trees; the larvae feed and pupate in the tips of the dead
+twigs. <i>Hebecerus australis</i>, a thickset greyish brown species
+about ½ an inch in length, has a wide distribution over Australia, and
+has been described under half a dozen synonyms: <i>H. marginicollis</i>
+is a smaller beetle, with the sides of the thorax marked with buff.
+<i>H. crocogaster</i> is smaller still, of a similar general tint, with
+the antennae barred with grey and brown.</p>
+
+<p>The Genus <i>Symphyletes</i> contains a number of large and handsome
+longicorns that are found clinging to twigs and branchlets; many of
+them in the larval state burrow in the stems of wattles, gum trees
+and other smaller shrubs. <i>Symphyletes neglectus</i> is an elongate
+dull brown beetle about 1 inch in length; it girdles the branches of
+<i>Acacia longifolia</i>, laying its eggs under the bark of the dying
+portion in which the little grub feeds in the early part of its life.
+<i>S. nigrovirens</i><span class="pagenum" id="Page_199">[199]</span> is a much smaller beetle, with the head, thorax,
+and base of the elytra clothed with dull yellow hairs; the rest of the
+wing covers is deep green striped with white on the sides. It feeds
+upon a number of small shrubs, but its commonest food plant is the
+stunted prickly wattle (<i>Acacia juniperina</i>). <i>S. solandri</i>,
+a larger beetle clothed with a dense coat of fine buff hairs, breeds in
+the flower stalk of the grass tree, often cutting it right through and
+causing the upper half, beneath which it pupates, to fall off. <i>S.
+vestigialis</i> measures ¾ of an inch; it is brown, richly mottled with
+buff and grey. It feeds upon wattles; it has a wide range over Southern
+Australia.</p>
+
+  <div class="figcenter" id="fig95" style="max-width: 290px">
+     <img
+    class="p1"
+    src="images/fig95.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 95.</b>—<i>Hebecerus marginicollis</i> (Boisd.).</p>
+     <p class="p0 smaller center">The White-cheeked Longicorn.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>The Genus <i>Penthea</i> comprises a number of more thickset beetles
+with similar habits, and which have the upper surface of the thorax and
+wing covers granulated or ribbed and these are either covered with a
+dense pubescence or mottled all over in a very characteristic manner.
+<i>Penthea vermicularia</i>, one of the commonest and with a very
+wide range, is black with the antennae banded, and the elytra covered
+with irregular wavy white markings. It is very variable in size, 1¼
+inches to under ¾ of an inch in length. <i>P. saundersi</i>, found in
+W. Australia, is much larger, of a more shining dark chocolate brown
+tint, and more deeply impressed with well defined spots, blotches and
+irregular buff coloured markings. <i>P. sannio</i>, smaller than the
+last and with a more constricted thorax, has the whole of the upper
+surface clothed with a creamy grey pubescence overlaid with deep orange
+red, and irregular dark lines crossing the wing covers; this beautiful
+beetle is<span class="pagenum" id="Page_200">[200]</span> a native of Queensland. <i>Rhytiphora argus</i> takes its
+name from the dark brown eye-like spots all over its back showing
+through the rich buff pubescence; it also ranges over a large part of
+Queensland. <i>Depsages granulosa</i> resembles a <i>Penthea</i> in its
+robust form; it measures over 1½ inches in length; is of a uniform dark
+dull brown tint, with the elytra covered with fine granules or bosses.
+It is common about Sydney, found clinging in summer time to the stems
+of gum saplings. <i>Zygrita diva</i> is a handsome little dark orange
+yellow coloured beetle irregularly marked and mottled with black. It
+is very common upon grass stalks in the open forest country of North
+Australia.</p>
+
+  <div class="figcenter" id="fig96" style="max-width: 312px">
+     <img
+    class="p1"
+    src="images/fig96.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 96.</b>—<i>Symphyletes vestigialis</i> (Pascoe).</p>
+     <p class="p0 smaller center">The Buff-painted Longicorn.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<hr class="r25">
+
+<h4>Family 50. Plant-eating Beetles.<br>
+<span class="subhed">CHRYSOMELIDAE.</span></h4>
+
+<p>These foliage-destroying beetles have a regular, thickened, more or
+less oval or rounded form, with the thorax sometimes forming a neck;
+but in other groups are rounded and fit closely into the head and
+abdomen. The head, buried up to the eyes in the front of the thorax, is
+furnished with short stout biting jaws, and slender filiform antennae
+composed of many short segments; the tarsi are generally four jointed.
+They are as a rule small insects, rarely measuring<span class="pagenum" id="Page_201">[201]</span> over ½ an inch in
+length; their prevailing colours are red, yellow, or brown, marked with
+black or bright metallic tints. They lay their eggs on the foliage
+or twigs of their food plants, upon which the larvae feed when they
+emerge, and when full grown crawl down and pupate in the soil beneath.</p>
+
+<p>This is a very large family; about 18,000 species are described from
+all parts of the world, and most of the typical groups are represented
+in this country. We have had a number of workers on the Chrysomelids:
+Baly (Ann. Nat. History 1862), (Jour. Linn. Soc. 1864), and (Trans.
+Ent. Soc. of London 1877): Clark in the “Journal of Entomology” 1864:
+Marsham (Trans. Linn. Society 1808): Chapius has described a number
+(Soc. Entom. Belgium Vol. xvii.), and (Journal, Museum Godeffroy
+xiv.): while Lea (Trans. Ent. Soc. London 1904) has monographed
+the <span class="smcap">Cryptocephalides</span>; and Blackburn revised the Genus
+<i>Paropsis</i> (Pro. Linn. Soc. N.S.W. 1896 and 1901), adding many new
+species.</p>
+
+<p>The <span class="smcap">Sagrides</span> are very distinctive beetles, with the thorax
+elongated in front and broad behind; some of the more tropical
+forms are of rich metallic tints, with the thighs of the hind legs
+greatly enlarged; and our beautiful representative species, <i>Sagra
+papuana</i>, is known to collectors in the North Queensland scrubs as
+the “Kangaroo Beetle.” It measures 1 inch in length, and the swollen
+hind legs fringed with reddish hairs and a large angular spine are
+fully another inch in length. It is a uniform deep metallic blue.
+<i>Carpophagus banksiae</i> measures ½ an inch in length; is of a
+uniform dark reddish brown, with the elytra irregularly striped and
+banded with dark yellow; the thighs of the hind legs are thickened, and
+the under surface is clothed with fine grey hairs. It has a wide range,
+and is found about Sydney clinging to the low scrub. <i>Mecynodera
+coxalgica</i> is a larger, broader, dull reddish brown insect, clothed
+with a lighter tinted pubescence, and is found in similar localities.</p>
+
+<p>The <span class="smcap">Cryptocephalides</span> are a group of short, oval or truncate
+beetles, with long slender antennae: the sexes often differ in size
+and markings; they are usually found feeding upon the tender tips of
+the branches of wattle, young gum, and other low shrubs. <i>Elaphodes
+tiqrinus</i> is a small, oval, reddish brown beetle, thickly clothed
+with golden yellow pubescence forming a mottled pattern over the
+elytra; it feeds upon the foliage of the black wattle. The members
+of the Genus <i>Ditropidus</i> are small oval beetles, similar in
+shape and habits, black and shining; over 100 species have been
+described from Australia. The Genus <i>Cadmus</i> contains some very
+handsome ovate insects, with<span class="pagenum" id="Page_202">[202]</span> long slender antennae; they chiefly
+frequent the young eucalypts: the larvae have the curious habit of
+living in jug-shaped cocoons fitting closely to the body, with the
+horny flat forehead closing the opening at the apex; when moving
+along the fore-legs are extended like those of a bag-moth. <i>Cadmus
+rubiginosus</i>, our largest common species, is under ½ an inch in
+length; it is of a general reddish brown colour, with darker markings.
+<i>C. litigiosus</i> is a smaller yellow beetle; the head and thorax
+are black above, and the elytra yellow, finely punctured and spotted
+with black. The Genus <i>Cryptocephalus</i> comprises a number of
+similar shaped beetles with smaller wrinkled head and thorax, and the
+tip of the abdomen truncate. <i>Cryptocephalus scabrosus</i> is black,
+very rugose on the upper surface, with the tip of the elytra tinged
+with reddish brown: it measures about ¼ of an inch, and is common about
+Sydney. <i>C. viridinitens</i> is slightly larger, of a uniform dark
+metallic green on the upper surface.</p>
+
+<p>The <span class="smcap">Eumolpides</span> are represented by one of our most beautiful
+species, <i>Spilopyra sumptuosa</i>, common on low scrub on the
+northern rivers of N.S. Wales: it is about ½ an inch in length, and is
+of a fiery coppery red and deep metallic tint, giving out beautiful
+shades of colour in a bright light.</p>
+
+<p>The Genus <i>Edusa</i> contains a number of bright metallic coloured
+beetles of oval form, which are chiefly found among the foliage of
+eucalypts. <i>Edusa distincta</i> is of the usual bright coppery red
+tint, with greenish head and thorax; it measures nearly ⅓ of an inch
+in length. <i>Rhyparida didyma</i> is a dull yellow beetle, with a
+narrow parallel stripe of black down each side of the elytra; it is of
+the usual elongate oval form with the head turned down in front. They
+are found clinging to grass stalks; this and several other species are
+common on the North West coast of Australia.</p>
+
+<p>The <span class="smcap">Chrysomelides</span> are one of the typical groups; many of
+them are rich in bright metallic tints; are either rounded or oval
+in form; and their larvae are active six legged grubs that crawl
+about the foliage. <i>Aesernoides nigrofasciatus</i> is a handsome,
+broad, convex, black beetle, with the elytra crossed with three broad
+irregular bands of dark orange yellow; it measures nearly ½ an inch in
+length, and is common on several shrubs in the Northern River scrubs.
+The Genus <i>Phyllocharis</i> contains a number of more elongated
+beetles with thicker antennae; they are chiefly found upon grass.
+<i>Phyllocharis cyanicornis</i> measures slightly over ⅓ of an inch
+in length; the general colour is dark orange, with<span class="pagenum" id="Page_203">[203]</span> the antennae
+and legs black; and the dorsal surface of the thorax and elytra are
+irregularly blotched with shining blue-black. It has a wide range over
+Australia and Tasmania. <i>P. cyanipes</i>, a larger species from N.
+Australia, has the head, thorax, blotch on each side of base, and tips
+of elytra light yellow, with the rest of the wing covers shining black.
+<i>Lamprolina perplexa</i> is a smaller, elongate, metallic, dull
+bronze coloured beetle, with yellow head and thorax; it is common upon
+the foliage of the native blackthorn, <i>Busaria spiniferous</i>.</p>
+
+<p>The larvae of several species of the Genus <i>Calomela</i> feed upon
+the foliage of the black wattles: they are short, squat grubs, with
+black heads and small green oval bodies. <i>Calomela paralis</i>
+measures 2½ lines in length; its general colour is dark orange yellow,
+with a broad parallel band of rich metallic green occupying the centre
+of each wing cover and tapering down to the tips; the elytra are deeply
+and finely punctured. Twenty-five species are described from various
+parts of Australia, chiefly by Baly (Trans. Ent. Soc. 1856–1863: and
+Ann. and Mag. N.H. 1862).</p>
+
+<p>The Genus <i>Paropsis</i> is the most extensive and characteristic
+of all our plant-eating beetles, and some of our common species are
+very plentiful about Sydney. Marsham wrote a monograph of the species
+(Trans. Linn. Soc. 1808), placing them in the Genus <i>Notoclea</i>;
+in Masters’ Catalogue 269 species are listed; since then, Blackburn
+has revised the Genus (Pro. Linn. Soc. N.S.W. 1896–1901), and added a
+number of new species.</p>
+
+<p>The beetles are found chiefly upon the foliage of young eucalypts, and
+lay their yellow spindle-shaped eggs in a ring round the small twigs:
+the young larvae when first hatched cluster together, but as they
+increase in size they scatter all over the foliage upon which they
+feed. They are very active, short, stout grubs, with three pairs of
+well developed legs; when full grown they crawl down and pupate in the
+soil. The beetles are very convex and broadly rounded; most of them are
+more or less yellow, brown, or black in tint; some are very richly and
+delicately shaded with metallic tints, which however unfortunately fade
+after death. <i>Paropsis variolosa</i>, one of our largest species,
+measures ¾ of an inch in length, and is nearly as broad in proportion;
+it is of a general yellowish brown tint mottled with lighter yellow and
+closely punctured; the under surface except the legs is black. <i>P.
+alternata</i> is a smaller, dark brown beetle, the<span class="pagenum" id="Page_204">[204]</span> elytra banded with
+parallel lines of black and reddish brown: <i>P. immaculata</i> is
+about the same size; dull reddish brown, with the outer half of the
+elytra darkest; it is usually found feeding upon the foliage of the
+black wattle. <i>P. liturata</i> is slightly smaller than the last,
+with the wing covers irregularly spotted with pale yellow. It is common
+on the eucalypts about Sydney, and has a wide range over the State.
+The small green larvae of <i>P. pictipennis</i> feed upon the foliage
+of <i>Leptospermum</i>; the beetle is a small form, dull yellow marked
+with bright spots, but fades into a dull brown when dead.</p>
+
+  <div class="figcenter" id="fig97" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig97.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 97.</b>—<i>Calomela paralis</i> (Lea).</p>
+     <p class="p0 smaller center">The Green Striped Wattle Beetle.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>The <span class="smcap">Halticides</span> are popularly known as “flea beetles,” as
+they have the thighs of the hind legs swollen out into rounded lumps
+which enable them to jump to a considerable distance: specimens
+are often found feeding upon sedges about watercourses. <i>Nisotra
+submetallica</i> is a tiny, shining green beetle, with a light reddish
+brown head and thorax; it is often a pest in the herb bed, where it
+feeds upon mint. <i>Arsipoda macleayi</i> is a much larger, deep
+metallic blue beetle with very large thighs; it has been found eating
+the surface of vine leaves in the Gosford district N.S.W., and covering
+them all over with brown blotches.</p>
+
+<p>The <span class="smcap">Gallerucides</span> comprise several very destructive garden
+pests, among which is the well known Pumpkin<span class="pagenum" id="Page_205">[205]</span> Beetle, <i>Aulacophora
+olivieri</i>, a reddish yellow and black beetle often called a
+“lady-bird,” and which in many parts of Australia swarms over the
+young melons and cucumbers and devours the flowers and foliage.
+<i>Monolepta rosae</i> is a delicate pale yellow beetle, with the
+front half of the elytra shaded with rose red; it has a wide range,
+and on the northern rivers congregates in great numbers at times,
+eating up the young foliage of the citrus trees. The Fig-leaf Beetle,
+<i>Galleruca semipullata</i>, lays its spindle-shaped eggs in patches
+on the leaves of both the wild and cultivated figs, upon the surface
+of which the dirty yellow coloured larvae feed, finally crawling down
+the trunks and pupating in the ground. The beetle measures about ⅓ of
+an inch in length; is of a dull ochreous yellow, with the outer margins
+of the broad elytra striped with dull bluish black. <i>Hoplostinus
+viridipennis</i> is a much smaller, dull brownish yellow beetle, with
+shorter, rounded, deep metallic green elytra. It feeds upon the foliage
+of the nettle trees growing in the scrubs of the Northern Rivers, N.S.W.</p>
+
+  <div class="figcenter" id="fig98" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig98.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 98.</b>—<i>Paropsis immaculata</i> (Marsham).</p>
+     <p class="p0 smaller center">A typical Leaf-eating Beetle.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+  <div class="figcenter" id="fig99" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig99.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 99.</b>—<i>Monolepta rosae</i> (Blackburn).</p>
+     <p class="p0 smaller center">The Painted Leaf Beetle.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p><span class="pagenum" id="Page_206">[206]</span></p>
+
+<p>The <span class="smcap">Hispides</span> are a very distinct group of the plant-eating
+beetles, whose larvae are sometimes very destructive; they bore into
+the foliage or stalks of plants, feeding in, and not upon the plant
+tissue. The beetles might be divided into two sections; those that are
+short and broad shouldered like <i>Monochirus multispinosus</i>, which
+measures ⅙ of an inch in length, is black in colour, with the whole
+of the dorsal surface covered with short fine spines, and is common
+upon grass blades on the South coast of N.S. Wales; and the elongate
+almost cylindrical forms found on sedges belonging to the Genus
+<i>Euryspa</i>. These beetles are remarkable for the situation of their
+antennae, which are very close together at the base, and stand straight
+out in front of the head. <i>Brontispa froggatti</i>, belonging to the
+latter section, is a very serious pest on the cocoa nut palms in New
+Britain and Solomon Islands.</p>
+
+<p>The <span class="smcap">Cassidides</span> are curious ladybird-like beetles of a general
+yellow or light brown colour spotted or marked with black, with the
+outer margins of the elytra spreading out into an encircling flange or
+rim. They are confined to the more tropical forests of Queensland, but
+one species, <i>Aspidomorpha deusta</i>, comes into the northern scrubs
+of N.S. Wales; it is of the usual shape and mottled tints, measuring
+about ¼ of an inch in length.</p>
+
+<hr class="r25">
+
+<h4>Family 51. Fungus Beetles.<br>
+<span class="subhed">EROTYLIDAE.</span></h4>
+
+<p>The larvae of these beetles can be often found in numbers feeding in
+the different kinds of woody fungi that grow upon tree trunks, old
+fences, and fallen logs. If these infested fungi are collected and kept
+in a box the beetles can be very easily bred out. They can be readily
+recognised by their elongate, boat-shaped form, and clubbed antennae.</p>
+
+<p><i>Episcaphula pictipennis</i>, one of our commonest species, is black,
+but thickly mottled with deep orange red forming three interrupted
+bands across the elytra. It measures about ¼ of an inch. <i>Thallis
+janthina</i> is a smaller, shining, blue black beetle, slightly
+roughened on the elytra; it breeds in the large, spongy, white fungus
+growing on the tree trunks known as “punks.”</p>
+
+<p><span class="pagenum" id="Page_207">[207]</span></p>
+
+<hr class="r25">
+
+<h4>Family 52. Lady-bird Beetles.<br>
+<span class="subhed">COCCINELLIDAE.</span></h4>
+
+<p>These well-known beetles differ from the last family (which many of
+them resemble in outward appearance) in having 3 jointed tarsi, and the
+short usually 11 jointed antennae (occasionally 8–10) being slightly
+clubbed at the tips. In their habits however they differ in being
+carnivorous both in the larval and adult state, with the exception
+of the members of the Genus <i>Epilachna</i>, which are phytophagus.
+They are all small rounded beetles; the short head fits close into the
+thorax, which in turn rests against the front of the elytra: most of
+them are yellow, spotted or marked with darker yellow, metallic blue
+or black, and are slightly pubescent. These insects are well known in
+our gardens to the children as “lady-birds,” and the quaint rhyme of
+“Fly away lady-bird” is said to have originated in the hop fields of
+Kent: after the hop picking, the dead plants, where the common English
+lady-bird was abundant feeding upon the hop aphis, were burnt off, and
+this was a warning by the children to them to fly away before the fires
+were started. They have been closely studied by economic entomologists
+because they are the natural enemies of so many aphis and scale insects.</p>
+
+  <div class="figcenter" id="fig100" style="max-width: 247px">
+     <img
+    class="p1"
+    src="images/fig100.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 100.</b>—<i>Epilachna 28-punctata</i> (Fabr.).</p>
+     <p class="p0 smaller center">The Spotted Leaf-eating Lady-bird.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+
+<p>Over 2,000 species have been described from all parts of the world,
+and in the latest list given by Lea (Pro. Linn. Soc. N.S.W. 1901), 110
+are recorded from Australia. Mulsant published his great work (Species
+Coleopteris Trimeres Securipalpes) in 1850: Crotch published his
+“Revision of the Coccinellidae” in 1874; in both of these will be found
+descriptions of Australian species. Blackburn (Trans. Royal<span class="pagenum" id="Page_208">[208]</span> Soc. S.A.
+1892) and Lea previously quoted, added a number of new species to our
+fauna.</p>
+
+  <div class="figcenter" id="fig101" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig101.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 101.</b>—<i>Epilachna guttatopustulata</i> (Fabr.).</p>
+     <p class="p0 smaller center">The Potato-leaf Lady-bird.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+  <div class="figcenter" id="fig102" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig102.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 102.</b>—<i>Leis conformis</i> (Boisd.)</p>
+     <p class="p0 smaller center">The Common Spotted Lady-bird.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>The Genus <i>Epilachna</i> contains all our plant-feeding lady-bird
+beetles, two of which are common. The 28-spot lady-bird, <i>Epilachna
+28-punctata</i>, has a wide range extending from China and India to all
+parts of Australia; it measures about ⅓ of an inch in length, is of a
+dull yellowish brown tint marked with rounded black spots, and clothed
+with a fine pubescence. Crotch says: “This species varies almost to
+infinity, and gradually runs into the common 6-spotted type, so that I
+cannot give any structural differences.” Its curious gregarious larvae
+are dull yellow covered with black spined tubercles; about Sydney they
+are often found upon the foliage of the trumpet flower (<i>Datura
+stramonium</i>), but in the north of N.S. Wales often damage the
+foliage of potatoes. <i>E. guttatopustulata</i> ranges from Tasmania to
+North Australia, and is a common insect in the Richmond River<span class="pagenum" id="Page_209">[209]</span> scrubs,
+N.S.W.; it is a large beetle, easily recognised by the large, rounded,
+yellowish red blotch on the sides of the elytra.</p>
+
+  <div class="figcenter" id="fig103" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig103.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 103.</b>—<i>Thea galbula</i> (Mulsant).</p>
+     <p class="p0 smaller center">The Yellow-shouldered Lady-bird.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+  <div class="figcenter" id="fig104" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig104.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 104.</b>—<i>Verania frenata</i> (Erichson).</p>
+     <p class="p0 smaller center">The Striped Lady-bird.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>The typical <i>Coccinella repanda</i> measures ⅕ of an inch in length;
+it is a little, rounded, bright yellow beetle, with the head and thorax
+blackish, the elytra striped down the centre, and marked on either side
+with two irregular black V-shaped blotches. It has a wide range over
+Australia, and feeds upon all kinds of aphids, sometimes appearing in
+great numbers all over the country. <i>Leis conformis</i> is a larger
+species, of a uniform bright orange yellow, thickly spotted with black.
+It is a common garden insect, where the clusters of its slender yellow
+eggs may be often noticed attached to the bark of aphis infested trees;
+and its elongated, smoky tinted larvae, blotched on the sides with
+orange, may be often watched feeding upon rose or peach aphis. <i>Thea
+galbula</i> is a dainty little lady-bird, with the dorsal surface
+bright pale yellow, marked with black in the centre of the thorax;
+the dorsal stripe down the centre of the elytra connects two pairs of
+black blotches crossing the centre and base. It measures about ⅙ of
+an inch in length, and is at times common in our gardens. <i>Verania
+frenata</i> is ⅙ of an inch; it is yellow, with the thorax black
+behind, and with three stripes of the same colour down the elytra.
+It has a<span class="pagenum" id="Page_210">[210]</span> wide range from Tasmania to New Caledonia and the Malayan
+Islands.</p>
+
+<p>The Genus <i>Orcus</i> contains a number of metallic blue-black
+lady-birds which feed chiefly upon scale insects; their larvae are
+grey and black creatures with the dorsal surface covered with fine
+spines; several species are common on scale infested citrus trees.
+<i>Orcus chalybeus</i>, measuring about ⅛ of an inch in length, is of
+a uniform deep metallic steel blue. <i>O. australasiae</i> is a larger
+species with two rounded yellow spots on each side of the elytra. <i>O.
+bilunulatus</i> is a still larger insect, with only one yellow blotch
+on either side of the front of the thorax.</p>
+
+  <div class="figcenter" id="fig105" style="max-width: 200px">
+     <img
+    class="p1"
+    src="images/fig105.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 105.</b>—<i>Orcus chalybeus</i> (Boisd.).</p>
+     <p class="p0 smaller center">The Steel-blue Lady-bird.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+  <div class="figcenter" id="fig106" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig106.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 106.</b>—<i>Orcus australasiae</i> (Boisd.).</p>
+     <p class="p0 smaller center">The Six-spot Blue Lady-bird.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p><i>Novius cardinalis</i> is a tiny red and black lady-bird, very
+variable in its black colouration; it was better known as <i>Vedalia
+cardinalis</i>, when it was collected in great numbers and forwarded
+to America to destroy the Fluted or Cottony-cushion Scale (<i>Icerya
+purchasi</i>), which had been introduced from this country into
+California and damaged the orange trees. It has since been introduced
+into other parts of the<span class="pagenum" id="Page_211">[211]</span> world, and is now cosmopolitan. The Genus
+<i>Rhizobius</i> contains a number of small black beetles finely
+punctured and clothed with pubescence, that gives them a rusty tint.
+<i>Rhizobius ventralis</i> is very common in the bush upon young
+eucalypts that are infested with <i>Eriococcus coriaceous</i>;
+it measures about ⅙ of an inch in length and is very pubescent.
+<i>Cryptolæmus montrouzieri</i>, a great foe to all kinds of mealy
+bugs, has been introduced into Hawaii with good results. The larvae
+are flattened brown insects that cover themselves with short white
+overlapping filaments, so that their identity is quite lost; they
+frequently swarm in thousands upon the trunks of scale infested
+Auracaria pines, pupating in such numbers that they form large white
+patches over the tree stems. The beetle is ¼ of an inch in length; is
+of a uniform black tint, with the head, thorax and tip of the elytra
+light yellow. The Genus <i>Scymnus</i> contains many of our smallest
+species: <i>Scymnus vagans</i> is a minute black beetle only ¹⁄₂₄ of
+an inch in length, which can be found on mite infested foliage. <i>S.
+notiscens</i>, more than twice the size, is common both on wattles
+and orange trees; it can be easily identified by the distinct reddish
+blotch in the centre of each wing cover.</p>
+<hr class="chap x-ebookmaker-drop">
+
+<div class="chapter">
+<p><span class="pagenum" id="Page_212">[212]</span></p>
+
+<h2>Order VI.—LEPIDOPTERA.<br>
+<span class="subhed">Butterflies and Moths.</span></h2></div>
+
+<p>Butterflies and moths are scale winged insects, and are among the
+giants of the insect world; they can be defined as insects with two
+pairs of membranous wings well adapted for extended flight, clothed
+with scales overlapping each other like the slates on the roof of a
+house, flattened and rounded on the surface of the wings, but more
+or less hair-like upon the body. The head is usually provided with a
+tubular proboscis or mouth, that can be curled up like a watch spring
+when at rest, and is admirably adapted for sucking up the honey from
+flowers when expanded.</p>
+
+<p>The caterpillars may be smooth and naked, or thickly clothed with
+spines or hair; with few exceptions they feed upon the foliage or
+wood of plants: after undergoing a series of moults they either
+spin a cocoon, bury themselves in the ground, or (if wood borers)
+close themselves up in the burrow where they undergo a complete
+metamorphosis. If the larva of a butterfly, the caterpillar attaches
+itself to a twig by the tip of its tail and casts the larval skin,
+which slips off, leaving the naked transformed pupa simply enclosed
+in a stout, close-fitting pupal jacket. Some species of moths appear
+in such numbers at times that they do a great deal of damage to plant
+life, and are very serious pests.</p>
+
+<p>Lepidoptera on account of their beauty and size have always been very
+popular with entomologists, and large numbers have been collected from
+all parts of the world, so that this is one of the best known orders.
+Sharp estimates that 50,000 species are described, and every year adds
+to this long list.</p>
+
+<p>They are divided into two great groups, somewhat artificial,
+but definable as <span class="smcap">Rhopalocera</span>, butterflies; and
+<span class="smcap">Heterocera</span>, moths.</p>
+
+<p><span class="pagenum" id="Page_213">[213]</span></p>
+
+<h3>RHOPALOCERA.<br>
+<span class="subhed">Butterflies.</span></h3>
+
+<p>The typical butterflies are usually slender-bodied insects, with
+filiform and more or less clubbed antennae, delicate legs, and large
+richly tinted wings; they fly about in the bright sunlight, visiting
+flowers and feasting upon the nectar that they find in the blooms.
+They have large compound eyes so that they can see very well; and the
+slender tubular mouth is very highly developed in all butterflies. The
+eggs are laid upon the food plant: the caterpillars are generally more
+or less elongated, and naked or covered with scattered tubercles rather
+than hairy; when full grown they attach themselves to the under side
+of a twig or leaf by the tip of the abdomen. Some groups are furnished
+with a silken girdle round the middle attached at each end to the leaf
+or twig; and another section roll themselves up in leaves. They do not
+form a cocoon, but as the larval skin slips off, it reveals the regular
+pupal form fitted with a skin-like jacket through which the indistinct
+lines of the rudimentary wings, legs and antennae can be traced. The
+pupa may remain in this quiescent state for several months before the
+butterfly splits the skin and emerges, a perfect, fully developed
+insect.</p>
+
+<p>As many of our butterflies have an extended range, some of them were
+originally described from other countries, and when captured here were
+named as new species; so that a good deal of confusion has existed in
+the proper identification of some of our common species as to whether
+they were Australian or only varieties of foreign species. In 1805
+Donovan figured some of our commonest species in his “Insects of New
+Holland.” After Kirby’s “Catalogue of Rhopalocera” was published in
+1871, Masters compiled and issued a list of our Australian species.
+In 1878 Semper published his list of Australian species; and in 1891
+Miskin produced his “Catalogue of the Australian Butterflies,” in
+which he included and described some new species (No. 1, Annals of the
+Queensland Museum); this remained our working list until Waterhouse
+published his “Catalogue of the Rhopalocera of Australia” as No. 1
+Memoir of the New South Wales Naturalists’ Club 1903. In Waterhouse’s
+list a great many changes have been made in the genera and species;
+a number of our well-known names have vanished, with very little
+explanation; for example, <i>Pieris teutonia</i>, our common white,
+appears under the name of <i>Belenois java</i>; this is unavoidable<span class="pagenum" id="Page_214">[214]</span>
+to a certain extent in bringing Catalogues up to date, but is very
+confusing to beginners in the work of classification.</p>
+
+<p>For a list of the writers upon, and references to our butterflies, the
+student is referred to Waterhouse’s Catalogue.</p>
+
+<p>I am indebted to Messrs. Anderson and Spry for notes on the life
+histories of some of the southern species described in their “Victorian
+Butterflies” (Melbourne 1893).</p>
+
+<hr class="r25">
+
+<h4>Family 1. Brush-footed Butterflies.<br>
+<span class="subhed">NYMPHALIDAE.</span></h4>
+
+<p>This group comprises a number of large or medium sized butterflies that
+are known as “Fritillaries,” “Emperors,” “Admirals,” and many other
+popular names in England, and are generally brightly coloured; many
+have a very wide range over the world. The fore-legs of both sexes
+are imperfect, the male with one or two, the female with four or five
+tarsal joints. The larvae are usually spiny, or clothed with hairy
+warts; and the pupae are suspended by the tail. Sharp places them in
+eight sub-families, four of which are well represented in Australia.</p>
+
+<p>The <span class="smcap">Danainae</span> are brightly coloured butterflies of a general
+reddish brown tint with blackish markings; the larvae are smooth
+cylindrical caterpillars with the tips of the body ornamented with a
+fleshy tail. The Genus <i>Danais</i> contains six species, of which
+the best known in Eastern Australia is the “Monarch” or “Brown Gypsy,”
+originally a North American insect but now almost world wide in its
+range; it is known under at least four names, and though usually
+figured as <i>Danais archippus</i>, its correct name is <i>Danais
+menippe</i>. The handsome banded black and cream coloured larva feeds
+upon the introduced “bladder-weed” (<i>Gomphocarpus fruticosus</i>),
+and turns into a beautiful pale green pupa with metallic markings. This
+large, deep reddish brown and black lined butterfly is too well known
+to require description.</p>
+
+<p class="p2 smaller center">Plate XIX.—LEPIDOPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Pieridae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>1. <i>Pieris teutonia</i> (Fabr.). Eggs on foliage.</li>
+  <li>2. <i>Pieris teutonia</i> (Fabr.). Eggs enlarged.</li>
+  <li>3. <i>Pieris teutonia</i> (Fabr.). Caterpillar.</li>
+  <li>4. <i>Pieris teutonia</i> (Fabr.). Caterpillar (enlarged).</li>
+  <li>5. <i>Pieris teutonia</i> (Fabr.). Pupa (enlarged).</li>
+  <li>6. <i>Pieris teutonia</i> (Fabr.). Pupa on leaf.</li>
+  <li>7. <i>Pieris teutonia</i> (Fabr.). Showing upper surface.</li>
+  <li>8. <i>Pieris teutonia</i> (Fabr.). Showing under surface.</li>
+</ul>
+</div>
+
+<p class="center smaller">This butterfly is now known under the name of <i>Belenois java</i>
+(Sparrman).]</p>
+
+  <div class="figcenter" id="plate19">
+     <p class="p1 sm center"><i>Plate XIX.—LEPIDOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate19.jpg"
+    alt="">
+  </div>
+
+<p><i>D. petilia</i>, a much smaller butterfly, has broader white markings
+on the tip of the fore wings and none round the edges of the hind
+pair. It has a wide range over Australia, across Asia to Europe. The
+caterpillar is of a lavender colour and feeds upon the cotton grass;
+it transforms into a beautiful green chrysalis marked with scattered
+golden spots <span class="pagenum" id="Page_215">[215]</span>and a band of the same colour round the abdomen.
+<i>D. hamata</i>, a fine pearly blue and black species, is recorded by
+Olliff from Cape York to as far south as Shoalhaven, N.S.W., but is a
+rare insect in the south.</p>
+
+<p>Fourteen species of the Genus <i>Euploea</i> are described, of which
+<i>E. corinna</i> is a mottled black and white species, very abundant
+in sheltered gullies in N. Queensland, also ranging southward to
+Sydney. The larva feeds on a creeper (<i>Mandevillia</i>); it is a
+slender, dull-coloured caterpillar with four pairs of fleshy tentacles
+on the back. The pupa is suspended to a leaf, and is a rich, bright
+metallic silver.</p>
+
+<hr class="tb">
+
+<p>The <span class="smcap">Acraeinae</span> contains a single species, belonging to the
+typical Genus <i>Acraea</i>, which is found from North Queensland to
+Sydney. <i>A. andromacha</i> measures 2¾ inches across the wings;
+is blackish brown; the fore wings are transparent with dull brown
+markings; the hind pair are opaque, creamy white, edged with brown; it
+always looks as though badly rubbed. It has a range from New Guinea,
+Fiji, and Samoa into Australia. The yellowish brown caterpillar clothed
+with branched fleshy spines, feeds upon the passion vine, and is not
+uncommon in Sydney gardens.</p>
+
+<hr class="tb">
+
+<p>The <span class="smcap">Nymphalinae</span> comprise a number of handsome butterflies,
+which differ from the previous ones in having the cells of both pairs
+of wings open or imperfectly closed. The larvae are very variable, some
+being slender hairy caterpillars or armed with spines and tubercles;
+others are short and cylindrical, furnished with horns upon the head.</p>
+
+<p>The fine East Indian Genus <i>Cethosia</i> is represented by three
+species: the Crimson-winged Butterfly, <i>C. cydippe</i>, is not an
+uncommon insect in North Queensland frequenting the clearings on the
+edge of the scrub; it measures 3½ inches across the large rounded
+wings, the hind margin of the second pair being deeply scalloped; the
+central portion of both surrounding the body is bright red, the outer
+deep purple, with white markings toward the tips of the front pair; and
+the under surface of both is barred and spotted. <i>Cynthia ada</i>,
+ranging from Brisbane to Thursday Island, is a large light ochreous
+yellow butterfly, with a dark line diagonally crossing both wings
+from the middle of the fore pair to the level of the tip of the body;
+a double band of crenulated markings encircle the wings; and there
+are a pair of eye spots on the hind ones. <i>Cupha prosope</i> is the
+representative of another northern genus ranging from the Richmond
+River N.S.W. to Thursday Island. It is a medium sized butterfly with
+dark orange coloured wings, the front pair tipped and edged with
+black; all the under-surface<span class="pagenum" id="Page_216">[216]</span> is pale orange yellow, mottled and
+barred, with a row of eye spots round the edge of the wings. The
+Australian Fritillary, <i>Argynnis inconstans</i>, measures about 3
+inches across the wings; it is of a uniform dull yellow colour with a
+double row of black spots along the edge of the wings, with the inner
+portion covered with an irregular pattern of spots and dashes. It is
+common along the cleared tracks in the Queensland jungle, and has been
+recorded from as far south as Hunter River, N.S. Wales. <i>Pyrameis
+kershawi</i>, figured and described by McCoy from Victoria, is found
+throughout Australia, and is so closely related to the “Painted
+Lady,” <i>P. cardui</i>, of Europe, that it was until lately only
+considered a variety. It measures under 2 inches across the wings; its
+general colour is dull brown mottled and barred with black and white.
+The larvae feed upon “everlastings” (<i>Heliochrysum</i>) and the
+introduced cape weed; they are slender brown creatures covered with
+black spines, and the chrysalis suspended by the tail is marked with
+shining golden spots. <i>P. itea</i>, slightly larger than the previous
+species, has the edges of both pairs of wings scalloped; the fore wings
+are black, each with three small yellow spots at the tip, and a large
+elongated patch crossing through the centre, with the inner portions of
+both pairs bright ferruginous brown, and a row of four small black eyes
+on the hind wings. The slender spiny caterpillars feed upon the foliage
+of nettles. The angulated chrysalis is often marked with golden spots.
+The Genus <i>Junonia</i> contains two common butterflies, one <i>J.
+villida</i> found all over Australia; it measures about 2 inches across
+the wings and is of a general brown tint edged with delicate white
+and grey markings, and ornamented with a pair of eyes on each wing
+ringed with yellow. It has a curious habit of flying along the track in
+front of one, settling on the ground, then flitting ahead again. The
+cylindrical somewhat stout larva is blackish brown, spined behind the
+head and clothed with fine hairs; it feeds upon rib grass (plantains).
+The short stout chrysalis is light brown marked with darker spots.
+<i>J. albi-cincta</i> does not come south of Brisbane; it is about
+the same size, with the eyes upon the wings smaller, and the hind
+wings mauve, giving out a bright metallic sheen. The Brown Leaf-winged
+Butterfly, <i>Doleschallia australis</i>, is nearly 3 inches across
+the wings, which are elongated and oval in form, with the tip of the
+hind pair produced into a tail; the upper surface is dull reddish brown
+with yellow in the centre, while the under surface is greyish brown
+mottled with wavy lines, with a central larger bar crossing the centre
+and running out into the tail. It flits about in the<span class="pagenum" id="Page_217">[217]</span> undergrowth, a
+conspicuous insect when on the wing, but the moment it settles and
+folds its wings over its back, it is lost to sight, for its leaf-like
+wings, when closed with the tail forming a stalk, so closely resemble
+the foliage, that while it remains at rest it is very difficult to
+detect. It ranges from the Richmond River to North Queensland. The
+Blue-eyed Butterfly, <i>Hypolimnas bolina</i>, ranges from Cape York
+to Sydney, but is a rare insect about the latter place. It differs in
+the sexes both in size and markings; the male is rich velvety black;
+has both wings deeply scalloped, a double white spot towards the tip
+of each, with a blotch of opaline white in the centre encircled with
+iridescent violet blue. The play of colour in this beautiful butterfly
+flashing about in the bright sunlight with its ever changing tints of
+blue and black, makes it one of our most striking species. The female
+is somewhat larger; has the central markings on the fore wings more
+elongated and lighter coloured, with a blotch of fulvous red below it;
+the hind wings are much whiter in the centre and are only slightly
+clouded with blue. <i>Neptis shepherdi</i>, ranging from Brisbane to
+Cape York, has the typical delicate black wings spotted and striped
+with white. The Tailed Emperor, <i>Charaxes sempronius</i>, is our sole
+representative of the genus, the home of which is Africa and the East
+Indies; it is nearly 4 inches across the wings, the inner portions of
+which are creamy white, the outer edges, tips and margins black, and
+with a row of creamy spots along the edges and two spots behind. The
+marginal black edging on the hind wings is broad, shaded on either
+side with pale blue, which covers the broad scallops in the wings;
+there are two stout wedge-shaped tails on each hind wing, and a bright
+reddish-yellow blotch on each inner edge. The larva is a very curious,
+short, stout, pale green caterpillar, with a slightly forked tail,
+and four short stout horns on the top of the head; it feeds upon the
+foliage of the black wattle. This species ranges from Sydney to Derby,
+N.W. Australia, where I took a specimen upon a baobab tree which is now
+in the Macleay Museum; Waterhouse gives Cairns, Q., as its northern
+limit, but this gives it a much extended range.</p>
+
+<hr class="tb">
+
+<p>The <span class="smcap">Satyrinae</span> are chiefly small butterflies, black, brown, or
+sometimes white, generally marked with eye spots, and the wings are
+rounded. The larvae feed upon different grasses, and are smooth or
+clothed with fine short hair: the head is round; and the body tapers to
+each extremity, and ends in a forked tail.</p>
+
+<p>The Genus <i>Mycalesis</i> contains five species; they are all
+reddish-brown butterflies of small size, that flit about in<span class="pagenum" id="Page_218">[218]</span> open
+forest country, of which <i>Mycalesis terminus</i> is a very good
+type: it measures 1½ inches across its dull, rusty red wings, which
+are indistinctly marbled, and darkest at the tips; the edges of the
+hind pair are marked with fine black lines. On each wing are a pair of
+small eyes, the hind one on each wing being largest; these also show
+on the under surface, and those on the hind wings are encircled with
+silvery lines. It is a northern species found along the coast of North
+Queensland. <i>Tisiphone abeona</i> is a common species in Victoria
+and on the eastern coast of N.S. Wales, usually found flitting along
+damp gullies, never flying high or in open country. It measures about
+2½ inches across the wings, and is of a uniform dark brown tint: the
+front wings are ornamented with two eyes, the first smallest; a broad
+irregular band of yellow bisects the wings about the middle, crossing
+behind the eyes; the hind wings are plain, with a small eye on the
+inner margin, and are slightly scalloped round the edges. The delicate
+green caterpillar has a small rounded head; it is broadest in the
+centre, tapering to the head and forked anal extremity. It feeds upon
+the sedges. The chrysalis is of a delicate emerald green tint, with the
+edges of the wings outlined in yellow. <i>Ypthima arctous</i> ranges
+from Sydney to Cape York; it is a small, dull brown insect with a very
+large eye on the tips of the fore wings, and a very small one on the
+hind pair.</p>
+
+<p>The Genus <i>Heteronympha</i> contains seven species, all of which have
+a wide range along the coast; the Yellow Wood Nymph, <i>H. merope</i>,
+being one of the commonest in all open forest country from Tasmania to
+Brisbane; it is remarkable from the fact that the sexes differ both in
+size and markings. The male measures 2½ inches across the wings, which
+are of a general dull tawny yellow colour mottled with black and brown,
+the fore pair in a scroll-like pattern, the hind ones only barred
+along the edges and slightly touched with black. The female, ½ an inch
+broader, has the greater part of the fore wings black, enclosing two
+yellow patches fading into tawny yellow toward the basal portion, and
+with a large yellow angular blotch standing out on the posterior sides;
+each wing in both sexes has a small eye towards the tip. The dull
+brown larvae feed upon various grasses, and hide close to the roots.
+The chrysalis is not attached to the food plant, but rests in a frail
+network on the ground. <i>H. mirifica</i>, found between Sydney and
+Brisbane, is about the same size as the female of the last species; it
+also haunts sheltered country. It is of a uniform, blackish brown tint
+with small eye spots<span class="pagenum" id="Page_219">[219]</span> and a broad irregular white stripe across the
+middle of the fore wings.</p>
+
+<p>The Genus <i>Xenica</i> is peculiar to Australia; it contains nine
+species, four of which are confined to Tasmania, several being found
+only on the higher portion of the mountain ranges. They are all small,
+tawny yellow or reddish brown butterflies of small size, spotted and
+mottled with brown, and have small eyes upon the tips of the wings.
+<i>Xenica achanta</i>, one of the largest, measures about 2 inches
+across the wings, and is of a uniform dark orange yellow, with the
+apical portion of the fore wings marbled with dark brown; the hind
+pair are regularly mottled all over; and the margins of both are edged
+with two fine black lines; it ranges from S. Australia to Queensland.
+Several smaller species have been described from the Australian Alps.
+<i>X. correae</i>, described by Olliff from Mt. Kosciusko, feeds upon
+the native fuschia: <i>X. fulva</i>, also described by Olliff, is the
+male of this species.</p>
+
+<hr class="r25">
+
+<h4>Family 2. Horned Butterflies.<br>
+<span class="subhed">LIBYTHEIDAE.</span></h4>
+
+<p>This family contains only a single genus, representatives of which
+are found scattered over all the warmer parts of the world, but the
+largest and most brightly coloured forms are found in New Guinea. They
+are remarkable for the formation of the palpi, which, standing out in
+front like a beak, are four times the length of the head; the wings are
+angulated, and the pupa hangs by the tip of the abdomen. One species,
+<i>Libythea nicevillei</i>, ranging from Port Moresby across to Cape
+York, represents the family in Australia.</p>
+
+<p>This group appears to form a connecting link between the Nymphalidae on
+the one hand, and the Lycaenidae on the other.</p>
+
+<hr class="r25">
+
+<h4>Family 3. The Blues.<br>
+<span class="subhed">LYCAENIDAE.</span></h4>
+
+<p>The “blues,” “coppers,” or “hair-streaks” are so named on account of
+their rich colourations or wavy markings on the under side of the
+wings. Though often passed over by the ordinary collector because of
+their small size, they are much<span class="pagenum" id="Page_220">[220]</span> sought after by lepidopterists for
+their beauty and bright metallic tints. Their bodies are slender, and
+the wings somewhat fragile; though they can fly well, they usually
+prefer to flit about the bushes and sheltered gullies, and when they
+settle have the habit of folding their wings in an erect position above
+the body, so that unless disturbed they are not very noticeable. The
+prevailing colours are metallic blue, or coppery red, with eyes upon
+the wings in some groups, while others are ornamented with dainty
+feathery tails, or lobes upon the hind wings. The colours and markings
+of the sexes often differ in the same species on the upper surface, but
+always correspond on the under-side. The legs are more developed than
+in the Nymphalidae, the tarsi of the male somewhat aborted, but that of
+the female complete. The larvae are curious, short, slug-like, greasy
+grubs, dull brown or green; some of them are gregarious, clinging to
+the twigs by day and feeding at night. The pupae are attached to the
+twig by the tip of the abdomen and girthed with a silken thread round
+the middle.</p>
+
+<p>In Miskin’s Catalogue 110 species were given under 18 genera; in
+Waterhouse’s list 114 species are recorded, divided into 31 genera.
+Waterhouse has monographed this family, where descriptions of all
+the known Australian species will be found (Pro. Linn. Soc. N.S.W.
+1902–1903). A number are rare and restricted in their range, and many
+are confined to the rich tropical scrubs of North Queensland. The
+Genus <i>Danis</i> contains six species, most of which are confined to
+North Queensland; <i>Danis taygetus</i> is a very distinctive little
+butterfly, common in the Queensland scrubs, and extending as far south
+as the Richmond River, N.S.W. The male has the fore wings pale violet
+blue, with the centre of the hind ones white, the edges of both pairs
+black; in the female both pairs are marked with white with a faint
+shade of blue; on the under surface the centres of the wings are white
+edged with black, with a broad band of bright metallic blue occupying
+the lower half of the hind pair encircling a row of black spots. The
+Genus <i>Miletus</i> contains fifteen species: <i>M. delicia</i> has
+the upper surface brownish black, with the base of the fore and centre
+of hind wings pale metallic blue; the under side is dull yellowish
+brown, variegated with angulated blotches or spots forming bands round
+the wings and a parallel stripe across the front of the fore pair. This
+butterfly ranges from Victoria to Queensland. <i>M. ignita</i> has a
+very wide range over the southern parts of Australia into Queensland;
+it was figured and described by Leach in 1817. <i>Candalides
+absimilis</i> is a medium sized insect; the male has the upper surface
+dull blue with the <span class="pagenum" id="Page_221">[221]</span>edges fringed with white; the female is dark
+brown with an oval patch of white in the centre of both wings and
+metallic tints round the body; the under surface is pale bluish white
+marked with fine wavy lines round the wings. It is found from Victoria
+well into Northern Queensland. <i>Polyommatus boeticus</i> has had many
+names, for not only has it a very wide distribution over Australia,
+but it extends over Asia, Africa, and Europe. It is of a uniform brown
+tint; has the centre of both wings shaded with pale metallic blue; the
+hind one terminates in a fine slender tail, with two eye spots at the
+base; the under side is creamy white with slate grey lines and eye
+spots touched with blue.</p>
+
+<p class="p2 smaller center">Plate XX.—LEPIDOPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Pieridae</span>.</p>
+
+<p class="center smaller">1. <i>Terias hecabe</i> (Fabr.).</p>
+
+<p class="center smaller">Family <span class="smcap">Papilionidae</span>.</p>
+
+<p class="center smaller">2. <i>Papilio sthenelus</i> (Macl.).</p>
+
+<p class="center smaller">Family <span class="smcap">Nymphalidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>3. <i>Junonia albi-cincta</i> (Butler).</li>
+  <li>5. <i>Pyrameis itea</i> (Fabr.).</li>
+  <li>6. <i>Pyrameis cardui</i> (Linn.).</li>
+  <li>7. <i>Danais petilia</i> (Stoll.).</li>
+</ul>
+</div>
+
+<p class="center smaller">Family <span class="smcap">Hesperidae</span>.</p>
+
+<p class="center smaller">4. <i>Trepezites symmomous</i> (Hubn.).</p>
+
+<p class="center smaller">Family <span class="smcap">Lycaenidae</span>.</p>
+
+<p class="center smaller">8. <i>Chrysophanus aenea</i> (Miskin).</p>
+
+  <div class="figcenter" id="plate20">
+     <p class="p1 sm center"><i>Plate XX.—LEPIDOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate20.jpg"
+    alt="">
+  </div>
+
+<p><i>Lucia lucanus</i>, one of the smaller forms, has all the upper
+surface of a dull ochreous tint, with the centres of the fore wings
+pale yellow. A fine fringe of hair-like scales of alternate tufts
+of black and white gives it a delicate pencilled appearance; the
+under surface is mottled and brownish, the white of the fore wings
+showing through. It has a wide range from South Australia to Mackay,
+Queensland, and is common about Sydney. <i>L. pyrodiscus</i> has the
+upper surface black, with the centre of the fore wings and the greater
+part of the hind ones dull red. The whole of the under surface is
+purplish and finely marbled with a very fine tail on the outer edge of
+the hind pair. It ranges from Victoria to N. Queensland.</p>
+
+<p>The Genus <i>Ogyris</i> contains eleven species, most of which are
+recorded from the southern portion of Australia. <i>Ogyris abrota</i>
+has the upper surface dark brown with a patch of pale metallic green in
+the centre of each fore wing; the hind pair are all brown and scalloped
+along the edges; the under side is pale creamy white mottled with
+wavy lines. The larva feeds upon the foliage of <i>Loranthus</i>; it
+measures about an inch in length; is of a uniform dark yellowish brown,
+with the upper surface rough, clothed with fine bristles; they feed at
+night, and pupate in the usual manner of all members of this family.</p>
+
+<p>The Genus <i>Ialmenus</i> contains eight species, among them several
+of our best known “Blues”: <i>Ialmenus evagorus</i> ranges from South
+Australia into Southern Queensland, and was figured by Donovan in his
+“Insects of New Holland” in 1805. It is described by Olliff under the
+name of the “Imperial Blue,” but I would suggest that the “Black-wattle
+Blue” would be a much more distinctive name, for all along the coast
+the short, dull green, slug-like grubs may be met with, congregated in
+little groups clinging to the twigs of this wattle. Hundreds of ants
+are always swarming over them attracted by the secretion they discharge
+from glands on the back.</p>
+
+<p><span class="pagenum" id="Page_222">[222]</span></p>
+
+  <div class="figcenter" id="fig107_108" style="max-width: 750px">
+     <img
+    class="p1"
+    src="images/fig107_108.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Figs. 107</b> and <b>108</b>.—Wattle Butterflies.</p>
+     <p class="p0 smaller center">107. <i>Ialmenus ictinus</i> (Hewitson).</p>
+     <p class="p0 smaller center">The Inland Wattle Butterfly.</p>
+     <p class="p0 smaller center">108. <i>Ialmenus evagorus</i> (Donovan).</p>
+     <p class="p0 smaller center">The Coastal Wattle Butterfly.</p>
+     </div>
+
+<p>The presence of ants is probably of great value to the larvae, for
+they keep parasitic insects and birds from molesting them. When full
+grown they sling themselves to the twigs to pupate, and are often so
+numerous that the branches are covered with pupae hanging like bunches
+of grapes. The butterfly measures nearly 2 inches across the wings,
+which on the upper surface are black on the margin, with the rest pale
+metallic blue shading into white in the centre; the hind pair are
+scalloped and produced into fine feathery tails with spots of dark
+orange yellow at the base; the under side is pearly grey, banded and
+spotted with black. <i>I. ictinus</i>, with identical habits, about the
+same size, takes the place of this species in the inland districts.
+<i>Pseudalmenus myrsilus</i> is a handsome little butterfly with the
+centres of the wings deep orange divided with dark nervures, and the
+hind pair with long black tails; it is found from Tasmania to the
+southern districts of N.S. Wales. The last species of this family,
+<i>Liphyra brassolis</i>, is only found in North Queensland; its larvae
+live and pupate in the arboreal nests of the “Green Tree-ants.” An
+interesting account of the life history of this butterfly is given by
+Dodd in the “Entomologist” 1902.</p>
+
+<p><span class="pagenum" id="Page_223">[223]</span></p>
+
+<hr class="r25">
+
+<h4>Family 4. The Whites and Yellows.<br>
+<span class="subhed">PIERIDAE.</span></h4>
+
+<p>The members of this family are popularly known as “Whites” and
+“Yellows” on account of their prevailing colours. Both sexes have six
+perfect legs, and are butterflies of moderate size, with the hind wings
+rarely crenulated or produced into tails. Their larvae are slender,
+hairy caterpillars with small heads, and are often gregarious in their
+habits; the pupae are sharply angulated to each extremity, attached
+both by the tail, and a silken girdle round the body of their food
+plant.</p>
+
+<p>In Miskin’s Catalogue 34 species are listed, contained in 7 genera;
+Waterhouse reduces them to 31 species, and discards several well-known
+genera.</p>
+
+<p>The Genus <i>Terias</i> contains all the small “Yellows,” which are
+low flitting, dainty, little butterflies found in the tropical jungle,
+but equally at home in the far western scrubs and open forest land.
+<i>Terias smilax</i>, our smallest species, is common about Sydney, and
+has a wide range both north and south from Adelaide to Rockhampton. It
+is bright yellow, with the black markings in the fore wings extending
+to the tips of the hind pair. The Mottled Yellow, <i>T. hecabe</i>, is
+much larger than the last; is of a bright yellow colour with the black
+markings coming round to the edge of the hind wing and swelling out
+into a rounded patch; the hind wings are lightly edged with black, and
+on the under side are thickly mottled with yellowish brown spots. It
+extends from Sydney to Queensland, and has a wide range out northward
+and eastward among the islands.</p>
+
+<p>The Genus <i>Elodina</i> contains several small, pearly white
+butterflies, with wings edged with black. The small white, <i>Elodina
+angulipennis</i>, is found about Sydney, ranging as far north as
+Mackay, Queensland. Our common white butterfly known under the name
+of <i>Pieris teutonia</i>, and the sole representative of that well
+defined genus, has been recently identified as <i>Belenois java</i>,
+and as Sparrman described it some few years before Fabricius, this
+well-known name will unfortunately have to give way. This butterfly
+has a wide range over Australia, especially in the interior, where
+several native shrubs belonging to the <i>Capparidae</i> are plentiful;
+upon these the slender brown and yellow caterpillars feed. This is the
+species that sometimes comes flying over the eastern coast in immense
+swarms. It measures 2½ inches across the wings, and is black and white
+on the upper surface, with<span class="pagenum" id="Page_224">[224]</span> the under portion more mottled with black
+and canary yellow. It ranges from Australia to Fiji, Tonga, and the
+Malay Archipelago. The smaller Whites, which have the under side of the
+hind wings of a more uniform yellow tint, are represented by <i>Appias
+(Tachyris) ega</i>, first described by Boisduval in 1836; it has an
+extended range from Victoria to Cape York, Queensland.</p>
+
+<p>The typical Genus <i>Delias</i> is represented in Australia by 8
+species, three of which can be collected from Sydney to Cape York, and
+two others from South Australia northward. The Painted Delias, <i>D.
+harpalyce</i>, first figured by Donovan in 1805, measures 3 inches
+across the wings, which on the upper surface are creamy white, broadly
+margined on the apical half with black, the fore pair banded with a
+row of white spots; on the under surface the white markings above are
+much broader, and the hind wings are blotched with a bright red band
+surrounded with black but lined with white. The larvae feed upon the
+native mistletoe (<i>Loranthus</i>) which grows upon the she-oaks,
+and are slender, dark coloured caterpillars covered with fine hairs.
+They are gregarious in their habits, often 20 to 30 in a family, and
+not only do they keep together when feeding, but they spin a curious
+web over the denuded twigs of their food plant to which they attach
+themselves when pupating. The pupa is dark brown, slightly over 1 inch
+in length, armed with short black spines along the sides of the body,
+and the front of the head is furnished with a curious two-pronged fork.</p>
+
+<p>The Tinted Delias, <i>D. argenthona</i>, is a Queensland species, with
+the outer half of the hind wings on the under surface black, enclosing
+a number of bright red blotches; while on the hind wings of the Striped
+Delias, <i>D. mysis</i>, the red forms a continuous broad curved band
+round the tips. In the Yellow-tinted Delias, <i>D. aganippe</i>, the
+wings of the male on the upper surface are creamy white, while those
+of the female are tinged with yellow, and the black extends further
+into the wing; on the under surface both sexes have the wings blackish,
+mottled with large white blotches, and yellow markings; a patch of
+bright red on the shoulders; and with a row of rounded spots of the
+same colour running round the hind wings. The larvae feed upon the
+foliage of <i>Loranthus</i>. The Dusky Delias, <i>D. nigrina</i>,
+generally flies high, and is not so easily caught; it has an extended
+range from Sydney to North Queensland; the upper surface is of the
+usual colour, but the whole of the under surface of the wings is dull
+black washed with grey; there is a band of yellow on the fore pair, and
+the hind pair is marked with<span class="pagenum" id="Page_225">[225]</span> the same colour and a horse-shoe band of
+red. The larvae when full grown are almost black spotted with yellow,
+and with fine white hairs; they are gregarious and also feed upon the
+<i>Loranthus</i>.</p>
+
+<p><i>Catopsilia (Callidyras) pomona</i> is a large light butterfly, with
+the upper surface creamy white tinged with yellow, and with dusky spots
+toward the tips of the wings; all the under surface is dull yellow,
+with a few white spots, and with pale purple markings, forming a darker
+patch in the centre of each wing. It is found from Sydney northward
+through the Malay Peninsula, and into Ceylon.</p>
+
+<hr class="r25">
+
+<h4>Family 5. Swallow Tails.<br>
+<span class="subhed">PAPILIONIDAE.</span></h4>
+
+<p>The members of this group of butterflies are popularly known as
+“Swallow Tails” from the peculiar structure of the hind wings of the
+typical species, which are produced at the tips into spatulate lobes or
+tails; though in a large number these tails are wanting. They are all
+furnished with well developed legs; antennae distinctly clubbed; and
+the pupae are attached both by the tip of the body and a silken girdle.
+In this family many of the largest and most beautiful insects in the
+world are congregated.</p>
+
+<p>The Bird-winged Butterflies (<i>Ornithoptera</i>) are represented by
+three more or less distinct species from the mainland, and a fourth
+from Darnley Island. <i>O. richmondia</i>, typical of the group, is the
+southern form, ranging from the Richmond River, N.S.W., into Southern
+Queensland. The smaller male measures about 6 inches across the wings,
+which are rich velvety black, with a bright green stripe along the
+front of the fore wings; the whole of the body is golden; and the hind
+wings except the black margins and four black spots are of a slightly
+brighter tint. The large female is of a uniform dark blackish brown
+with white markings on the wings. <i>O. (cassandra) euphorion</i>,
+found from Mackay to Cairns, N.Q., is somewhat larger, with a second
+stripe of green on the fore wings, and a row of golden spots on the
+hind pair. The large black caterpillars have short black fleshy spines
+along the sides of the body, with the front ones bright red.</p>
+
+<p>Rippon has recently monographed the Ornithoptera, and places our
+species in the Genus <i>Troides</i>, but I prefer to retain the
+original name, under which our species are so well known. The Genus
+<i>Papilio</i><span class="pagenum" id="Page_226">[226]</span> contains 18 species in Miskin’s Catalogue, reduced
+to 15 in Waterhouse’s list, many of them with a very wide range.
+<i>Papilio sarpedon</i> is common in Sydney gardens, and extends away
+up the coast to India and Ceylon. Olliff called it the “Wanderer” from
+its rapid restless flight. It is of a general black colour, with sharp
+angular fore wings, and rounded crenulated hind wings coming to a blunt
+finger-like tail at the tips. The centre of both pairs of wings is pale
+green forming a broad elongate stripe, widest in the centre, and with a
+row of fine crescent-shaped spots down the sides of the hind pair. The
+larvae are short, green, slug-like creatures with a patch of yellow on
+the back; they feed upon the foliage of the camphor laurel.</p>
+
+<p>The Black Orchard Butterfly, <i>Papilio erectheus</i> (now known as
+<i>P. aegeus</i>), is a larger black insect with an irregular band of
+white crossing the tips of the fore wings; the centre of each hind
+one is occupied by a rounded mauve patch; the edges are crenulated,
+tipped with white, and have a red eye-like spot on the inner margin.
+The female is much larger; has the inner portion of the fore wings
+black, but the outer portions dusky white; the hind wings are black
+at the base, banded with white shaded with black, and have a row
+of red spots round the margins. The mottled orange green larva is
+furnished with a broad head, from which shoot out a pair of retractile
+fleshy horns when touched, at the same time giving off a musky scent.
+They feed upon the foliage of orange trees, and when numerous are a
+nuisance in the plant nurseries. The larvae of Macleay’s butterfly
+(<i>Papilio macleayanus</i>) feed upon the foliage of the Sassafras
+in the Illawarra district, and range from Tasmania to Cairns N.Q.
+The butterfly is somewhat after the same slender shape as <i>P.
+sarpedon</i>, but has the hind wings produced into slender swallow
+tails. The portion of the wings surrounding the body is pale green, the
+outer parts black, with three small green patches toward the front of
+the fore pair, and a row of small spots along the lower edges of the
+hind pair.</p>
+
+<p>The Imperial Swallow Tail, <i>Papilio ulysses</i>, measures 5 inches
+across the wings, which are rich metallic blue margined with deep
+velvety black, and are produced into long swallow tails behind. It
+is found in the tropical scrubs of North Queensland ranging up into
+the Malay Archipelago, and for shape and colour is one of the most
+beautiful butterflies in the world, but should be seen in its native
+haunts to fully admire its beauty as it goes floating through the
+tropical brushes.</p>
+
+<p class="p2 smaller center">Plate XXI.—LEPIDOPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Nymphalidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>1. <i>Heteronympha merope</i> (Fabr.). ♂.</li>
+  <li>2. <i>Heteronympha merope</i> (Fabr.). ♀.</li>
+  <li>3. <i>Danais hamata</i> (Macl.).</li>
+  <li>4. <i>Cethosia cydippe</i> (Linn.).</li>
+</ul>
+</div>
+
+<p class="center smaller">(Original photo. Burton.)]</p>
+
+  <div class="figcenter" id="plate21">
+     <p class="p1 sm center"><i>Plate XXI.—LEPIDOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate21.jpg"
+    alt="">
+  </div>
+
+<p>The last of this genus I shall notice is the very distinct yellow and
+black butterfly, <i>Papilio sthenelus</i>, which has a wide <span class="pagenum" id="Page_227">[227]</span>range
+from South Australia to Queensland, and is one of the very few large
+butterflies found far inland. The Painted Gauzewing, <i>Eurycus
+cressida</i>, is a rare species in N.S. Wales, though recorded from as
+far south as Sydney, but is abundant in the tropical northern scrubs.
+The male has the fore wings denuded of scales and semitransparent, with
+the shoulders and two spots in the front black; the hind ones are black
+mottled with white and red, the latter colour also on the sides of the
+thorax and tip of the abdomen. The female is smaller, of a dull brown
+colour, with semitransparent wings, looking very much like a small
+rubbed specimen of the male; the amateur collector generally discards
+them under that impression.</p>
+
+<hr class="r25">
+
+<h4>Family 6. Skippers.<br>
+<span class="subhed">HESPERIDAE.</span></h4>
+
+<p>These butterflies are popularly known as “Skippers” on account of the
+peculiar way they fly, so different from all the other groups. They
+have broad, short, thickset heads and bodies; and the antennae, wide
+apart at the base, are produced at the tip into an irregular club
+or pointed hooked process. The legs are perfect in both sexes and
+often spined; most of them are brown or reddish yellow, more or less
+variegated. The larvae are long, cylindrical, naked caterpillars, with
+the head hard and horny; the prothorax narrow, forming a regular neck.
+When full grown they attach themselves by the tail to the leaf, which
+they roll round themselves into a primitive kind of cocoon.</p>
+
+<p>Messrs. Meyrick and Lower have lately revised this group (Trans. Roy.
+Soc. S.A. 1902), and list 79 species that they identify, and note
+a number of others that are so badly described that they cannot be
+determined.</p>
+
+<p><i>Netrocoryne repanda</i>, one of our largest species, of a uniform
+light brown tint, has the tips of the wings darkest, the centres of
+the fore pair marked with large translucent blotches of a pale yellow
+tint, and a single spot in each hind one. It has an extended range from
+Sydney to N. Queensland.</p>
+
+<p>The Genus <i>Hesperilla</i> contains 31 species, some of which are
+very local, while others have a very wide range: <i>H. picta</i> is
+about 2 inches across the wings; its general colour is dark brown with
+a dull greenish tint on the body, ornamented<span class="pagenum" id="Page_228">[228]</span> with five yellow spots
+on the fore wing; the centres of the hind ones and the hind margins
+of the same yellow colour, and with the markings on the under surface
+more numerous. <i>H. ornata</i> is a smaller species, of a general
+dark brown; the fore wings carry a number of spots and four angular
+golden yellow blotches; the hind pair are reddish orange mottled on the
+under surface of the body, the tips of the fore and the whole of the
+hind wings with pale yellow. It has an extended range from Victoria
+up to Cooktown N.Q. <i>Trapezites iacchus</i>, one of our commonest
+species, described by Fabricius in 1775, measures 1¾ inches in length,
+and is of a uniform, dull brown colour shaded with yellow; the fore
+wings are blotched with small irregular marks; those on the hind pair
+are parallel and confluent. The under surface is dull yellow; the fore
+wings are mottled and the hind ones marked with four to five small
+purple spots ringed with black. It has a wide range from Tasmania over
+Australia. <i>T. symmomus</i> is a darker, larger species very similar
+in the markings, only the yellow spots are more defined. It does not
+range further north than Brisbane.</p>
+
+  <div class="figcenter" id="fig109" style="max-width: 340px">
+     <p class="p1 smaller center"><b>Figs. 109</b> and <b>110</b>.—Earlier stages of the
+Palm Skipper, <i>Pamphila augiades</i> (Fielder).</p>
+     <img
+    class="p1"
+    src="images/fig109.jpg"
+     alt="">
+     <p class="p0 smaller center">109. Larva.</p>
+     </div>
+
+  <div class="figcenter" id="fig110">
+    <img
+    class="p0"
+    src="images/fig110.jpg"
+    alt="">
+     <p class="p0 sm center">110. Pupa.</p>
+  </div>
+
+<p><i>Apaustus lascivia</i> is one of the small dull brown skippers washed
+with yellow, with pale slender transverse bars crossing the centre
+of the wings; the body is marked with white; the under surface is
+dull yellow, with the tips of the fore wings darkest. The larvae of
+<i>Pamphila augiades</i>, another common species in the Sydney gardens,
+and found as far north as Bowen, Queensland, feeds upon the foliage
+of young palms; that of <i>Erynnis sperthias</i> is found on the same
+plant.</p>
+
+<p><i>Badamia exclamationis</i> is a light brown species with the<span class="pagenum" id="Page_229">[229]</span> fore
+wings narrowed to the extremities, and the hind pair arcuate on the
+edges. It measures 2 inches across the wings, and ranges from Sydney to
+Cape York. In the Genus <i>Hasora</i> we have several large skippers,
+all northern species, with the upper surface dark; the under surface
+richly marked with purple and pale golden yellow in <i>H. discolor</i>;
+and with simple silvery stripes on the under surface in <i>H.
+hurama</i>.</p>
+<hr class="chap x-ebookmaker-drop">
+
+<div class="chapter">
+<p><span class="pagenum" id="Page_230">[230]</span></p>
+
+<h3>HETEROCERA.<br>
+<span class="subhed">Moths.</span></h3></div>
+
+
+<p>Moths differ from butterflies in having the abdomen stout and thickset,
+and not pinched or constricted in front at the junction with the
+thorax; and the antennae, instead of being clubbed or thickened at
+the tips, are either slender filiform appendages or are uniformly
+thickened, pectinate, or feathered; when of the latter form they are
+much more pronounced in the males.</p>
+
+  <div class="figcenter" id="fig111" style="max-width: 300px">
+     <img
+    class="p1"
+    src="images/fig111.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 111.</b>—Head of Hawk Moth.</p>
+     <p class="p0 smaller center"><i>a</i>, upper lip; <i>b</i>, mandibles; <i>c</i>, proboscis;
+<i>d</i>, lower lip; <i>e</i>, antennae; <i>f</i>, eyes.</p>
+     <p class="p0 smaller center">(Redrawn from Duncan’s “Transformations of Insects.”)</p>
+     </div>
+
+<p>Most moths are nocturnal in their habits; in the day time they are
+usually found hiding among the foliage or resting in dark corners,
+and many can be obtained by shaking the bushes over a net. The larger
+species may be killed at once in the cyanide bottle, but must be
+transferred to a box as soon as they are dead, for they rub very
+easily; the smaller forms can be placed alive in glass-topped or chip
+boxes, and afterwards killed, and then mounted before they are stiff.
+The members of a few groups fly about in the daylight; for instance
+<i>Agarista glycine</i>, our vine moth, but they are exceptions. The
+beautiful hawk moths only flit about at twilight, and are known as
+“crepuscular” moths.</p>
+
+<p><span class="pagenum" id="Page_231">[231]</span></p>
+
+<p>This great group contains some giants of the insect world, such as some
+of the Atlas Moths of India, and Wood Moths of Australia, which are as
+big as small bats; while among the Micro-lepidoptera we come to many
+tiny creatures which require to be examined with a lens before their
+identity can be established.</p>
+
+<p>The typical moth caterpillar constructs a stout silken bag or cocoon,
+within the shelter of which it casts its skin and becomes a well
+defined pupa; but there are many which bury themselves in the ground,
+or pupate in cavities in timber that form no true cocoon but simply
+undergo their transformations in such secure hiding places.</p>
+
+  <div class="figcenter" id="fig112" style="max-width: 455px">
+     <img
+    class="p1"
+    src="images/fig112.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 112.</b>—Wings of Moth.</p>
+     <p class="p0 smaller hangingindent"><i><b>A</b></i>, Fore wing: <i>c.m</i>, costal margin;
+<i>o.m</i>, outer margin or termin; <i>i.m</i>, inner margin;
+<i>a.a</i>, apex; <i>o.a</i>, outer angle or tornus; <i>c</i>,
+discoidal cell; <i>d</i>, discocellulurs.</p>
+     <p class="p0 smaller hangingindent"><i><b>B</b></i>, Hind wing: <i>c.n</i>, costal nervure; vein
+12 fore wing, 8 of hind wing; <i>s.n</i>, sub-costal nervure;
+<i>m.n</i>, median nervure; <i>1a</i>, <i>b</i>, <i>c</i>, three
+branches of internal nervure; <i>2</i>, <i>3</i>, two branches
+of median nervure; <i>4</i>, <i>5</i>, <i>6</i>, three branches
+of radial nervure; <i>7</i>, <i>8</i>, <i>9</i>, <i>10</i>,
+<i>11</i>, five sub-costal branches of fore wing; <i>7</i>
+sub-costal nervure of hind wing.</p>
+     </div>
+
+<p>Moths are well represented in all parts of Australia, but are most
+numerous in well wooded country: a considerable amount of work has
+been done in this group by Messrs. Lewin, Scott, Walker, Meyrick,
+Lower, Turner, and others in Australia, and Messrs. Guérin, Boisduval,
+and many other foreign writers. I have in the arrangement of the
+families followed Lower’s Catalogue of Victorian Heterocera (Victorian
+Naturalist Vol. x. 1893—Vol. xiv. 1898).</p>
+
+<p><span class="pagenum" id="Page_232">[232]</span></p>
+
+<hr class="r25">
+
+<h4>Family 1. Connecting-link Moths.<br>
+<span class="subhed">CASTNIIDAE.</span></h4>
+
+<p>The members of this group comprise a few insects that form an
+intermediate state of development between butterflies and moths;
+for while there is no doubt that they are moths, they have hooked
+or thickened antennae like the “Skippers,” somewhat similar habits,
+and even the general colouration. They are chiefly confined to South
+America and Australia. <i>Euschemon rafflesiae</i> is one of the
+largest hesperid-like forms; is black, blotched with white, and is
+found in the northern parts of Australia.</p>
+
+<p>The Genus <i>Synemon</i> contains a number of small reddish brown
+moths which flit about over the grass, just like small butterflies:
+<i>Synemon sophia</i> is about 1½ inches across the wings, which are
+brown, slightly marbled in front, and the hind pair blotched with
+dull yellowish brown; it is common on the grassy flats along the
+eastern coast. <i>S. hesperoides</i> is common in Victoria in similar
+localities; is about the same size, but of a darker brown colour; the
+fore wings marbled with fine wavy grey lines, and the hind ones with a
+rusty red tint.</p>
+
+<hr class="r25">
+
+<h4>Family 2. Butterfly Moths.<br>
+<span class="subhed">URANIIDAE.</span></h4>
+
+<p>These are large usually day-flying moths with slender antennae; broad
+wings, the hind pair crenulated and produced into tails; the abdomen
+like that of a stout butterfly, and never extending beyond the hind
+wings.</p>
+
+<p>The typical species (Genus <i>Urania</i>) are found in America,
+others in Madagascar; but our beautiful forms belong to the Genus
+<i>Nyctalemon</i>, one species of which, <i>Nyctalemon orontes</i>, is
+very common in North Queensland. In the neighbourhood of Cairns a score
+of this species can often be taken in the early morning resting on the
+low scrub, and small swarms of them can often be seen flying across the
+rivers in the middle of the day. This species is a very handsome large
+velvety black moth marked with broad dull green bands, and having short
+creamy swallow tails. Several very beautiful species are also found in
+Southern New Guinea.</p>
+
+<p><span class="pagenum" id="Page_233">[233]</span></p>
+
+<hr class="r25">
+
+<h4>Family 3. Day Moths.<br>
+<span class="subhed">AGARISTIDAE.</span></h4>
+
+<p>This family has been lately revised by Hampson (Catalogue of the
+Lepidoptera Phalaenae Vol. I. British Museum 1898); he divides them
+into 55 Genera containing 225 species, of which some typical forms are
+peculiar to Australia; they are conspicuously coloured and further
+noticeable from their habit of flying in the daytime. The members of
+this family are chiefly confined to the tropical parts of the Old World
+and the Australian region; in America a few only are found in Mexico
+and Brazil.</p>
+
+  <div class="figcenter" id="fig113" style="max-width: 538px">
+     <img
+    class="p1"
+    src="images/fig113.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 113.</b>—<i>Phalaenoides glycinae</i> (Lewin).</p>
+     <p class="p0 smaller center">The Caterpillar and Adult of the Vine Moth.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>The Vine Moth, <i>Phalaenoides (Agarista) glycinae</i>, better known
+under the old generic name of <i>Agarista</i>, is one of our regular
+vine pests in the caterpillar state, devouring the<span class="pagenum" id="Page_234">[234]</span> foliage and young
+grapes. The moth lays her eggs upon the vine canes; the grubs when
+full grown measure up to 2 inches; are of a general deep greenish
+yellow tint, with the whole of the upper surface covered with small
+tubercles each bearing a single hair; and they have a band of bright
+red blotches round the dorsal surface of the anal segment. They bury
+themselves in the ground, forming a dark reddish brown chrysalid
+enclosed in a primitive cocoon or covering of particles of earth. The
+moth measures 2¼ inches across the wings, and is of a uniform black
+colour marbled on the head, thorax, and sides of the wings with white;
+the fore wings are tipped with white, and an irregular transverse bar
+of pale yellow is followed by a smaller blotch through the centre;
+in the hind pair the outer margins are irregularly edged with white.
+<i>Phalaenoides tristifica</i>, formerly known under the name of
+<i>Agarista lewinii</i>, is slightly smaller; the fore wings are more
+mottled, and the hind pair have an irregular white spot in the centre
+by which it can be easily identified. <i>Cruria donovani</i>, also
+smaller than the Vine Moth, has the fore wings mottled with a number
+of small white blotches, and a broad irregular patch in the centre of
+the hind ones. <i>Eutrichopidia latina</i> comes closer still to the
+Vine Moth in size and colour, but can also be easily recognised by
+having a single broader, irregular, dull yellow band across the outer
+half of the fore wings. The Painted Day Moth, <i>Agarista agricola</i>,
+attracted the attention of our earliest entomologists by its brilliant
+colouration, and was described and figured in colours by Donovan in
+his “Insects of New Holland” 1805, and again by Dr. Leach in his
+“Zoological Miscellanies” published in 1815. It has a wide range from
+Sydney northward, and the several sub-species placed under this name
+extend its range to New Guinea and Timor. This is now the sole type
+of the Genus <i>Agarista</i>, in which so many of our species were
+formerly placed; it is a handsome black moth; measures up to 3 inches
+across the wings, the fore-pair of which are richly blotched with pale
+yellow, deep orange, and blue; in the hind pair the centre is bright
+red and blue, and the margin is white. The head and thorax are pale
+yellow above; the legs and under surface red; the tip of the abdomen
+dark orange. The larva is a handsome dark coloured caterpillar clothed
+with scattered and curious long clubbed hairs.</p>
+
+<p class="p2 smaller center">Plate XXII.—LEPIDOPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Notodontidae</span>.</p>
+
+<p class="center smaller">1. <i>Danima banksiae</i> (Lewin).</p>
+
+<p class="center smaller">Family <span class="smcap">Agaristidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>2. <i>Hecatesia fenestrata</i> (Boisd.).</li>
+  <li>6. <i>Agarista agricola</i> (Donov.).</li>
+</ul>
+</div>
+
+<p class="center smaller">Family <span class="smcap">Hypsidae</span>.</p>
+
+<p class="center smaller">3. <i>Nyctemera amica</i> (White).</p>
+
+<p class="center smaller">Family <span class="smcap">Sphingidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>4. <i>Cizara ardenia</i> (Lewin).</li>
+  <li>8. <i>Hemaris hylas</i> (Lewin).</li>
+</ul>
+</div>
+
+<p class="center smaller">Family <span class="smcap">Liparidae</span>.</p>
+
+<p class="center smaller">5. <i>Darala ocellata</i> (Walker).</p>
+
+<p class="center smaller">Family <span class="smcap">Syntomidae</span>.</p>
+
+<p class="center smaller">7. <i>Syntomis annulata</i> (Fabr.).</p>
+
+<p class="center smaller">Family <span class="smcap">Castniidae</span>.</p>
+
+<p class="center smaller">9. <i>Synemon hesperoides</i> (Feld).</p>
+
+<p class="center smaller">Family <span class="smcap">Pyralidae</span>.</p>
+
+<p class="center smaller">10. <i>Zenckenia recurvalis</i> (Fabr.).</p>
+
+<p class="center smaller">(Original photo. Burton.)]</p>
+
+  <div class="figcenter" id="plate22">
+     <p class="p1 sm center"><i>Plate XXII.—LEPIDOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate22.jpg"
+    alt="">
+  </div>
+
+<p>The Genus <i>Hecatesia</i> contains our curious “whistling moths,”
+which fly about just at dusk, making sharp continued notes like the
+calls of some of our small cicadas. The sound is said to be produced
+by the male rubbing his curiously clubbed antennae against a pellucid
+ridged area in <span class="pagenum" id="Page_235">[235]</span>the front of the fore wings. Hampson doubts this,
+and says it is probably caused by rubbing the tarsal spines against
+the ribbed space. <i>Hecatesia fenestrata</i> is a pretty little moth,
+about 1 inch across the wings; is of a general dark brown tint; the
+outer margins of the fore wings are provided with a broad semi-lunate
+ribbed band (the musical apparatus) in front, and two white lines
+behind; the centre of the hind pair and abdomen richly blotched with
+reddish yellow; the head, antennae, centre of thorax, and outer margins
+of the wings marked with white.</p>
+
+<p>Three species of this Genus are recorded from Australia, two of which
+were described from the west coast, while <i>Hecatesia fenestrata</i>
+has a range from South Australia into N.S. Wales.</p>
+
+<hr class="r25">
+
+<h4>Family 4. Ringed Moths.<br>
+<span class="subhed">SYNTOMIDAE.</span></h4>
+
+<p>The typical Genus <i>Syntomis</i>, in which Hampson places all our
+species that were previously described under the Genus <i>Hydrusa</i>,
+comprises about 138 species, chiefly confined to Africa, Asia, the
+Malay Archipelago and Australia; 12 species are recorded from this
+country. They are all rather small moths of a general black or brown
+tint mottled with orange yellow or lighter brown.</p>
+
+<p><i>Syntomis annulata</i>, about 1 inch across the outspread wings,
+has a very wide range from the Philippines through New Guinea and
+Australia, and naturally varies much in different localities; our
+variety is of a blackish tint, with six orange spots in the fore
+wings, and two more angular blotches on the hind ones; the abdomen
+is regularly banded with orange and black. <i>S. aperta</i> measures
+2 inches across the wings, which are of a brownish tint with large
+blotches of orange yellow occupying the greater portion of the surface,
+divided from each other by slender lines. It ranges from New Guinea and
+Queensland round to S. Australia, and has been captured out west about
+Bathurst, N.S.W.</p>
+
+<p><i>Euchromia creusa</i> is a very handsome form about 2 inches across
+the narrow fore wings, which are black with two large transparent
+divided spots forming a double row across them, and another very small
+one at the base: the hind pair have two similar blotches. The head,
+thorax, and basal portion of the abdomen are black, shot with metallic
+blue; the basal abdominal segments are crimson, finely barred with
+black. This beautiful moth has a wide range over the<span class="pagenum" id="Page_236">[236]</span> Malay Archipelago
+and the Pacific Islands, coming down to Thursday Island and North
+Queensland.</p>
+
+<p>Many of the foreign species in the larval state feed upon lichens or
+grass.</p>
+
+<hr class="r25">
+
+<h4>Family 5. Burnet Moths.<br>
+<span class="subhed">ZYGAENIDAE.</span></h4>
+
+<p>These moths form an extensive family represented in most parts of the
+world; they are also day-flying moths, and some are very brilliant in
+colour. In England some of them are known as “Burnet Moths” and “Green
+Foresters.” They have long narrow wings, and the antennae thickened
+toward the middle.</p>
+
+<p>Most of our species belong to the Genus <i>Procris</i>, which are also
+very abundant in Southern Europe. They are small creatures measuring
+under 1 inch across the wings, and are of a general dark brown tint
+with greenish markings. <i>Hestiochora bicolor</i> is a curious little
+moth remarkable for its bright colouration, which has a wonderful
+resemblance to one of our small parasitic wasps (<i>Braconidae</i>).
+The wings are clouded with black; the head and front of the thorax are
+red, the hind margin of the latter black; the abdomen black and white.</p>
+
+<hr class="r25">
+
+<h4>Family 6. Hawk Moths.<br>
+<span class="subhed">SPHINGIDAE.</span></h4>
+
+<p>The hawk moths have a stout rounded abdomen tapering to a point;
+thickened antennae; stout narrow pointed wings; the proboscis or
+sucking mouth-tube very long, curled up under the head when at rest,
+but capable of being uncurled in front of the head to suck up the
+nectar from the deepest tubular flower while the moth is hovering over
+it. They hide during the day, and are most active just at twilight,
+when they dart about, over, and around the flowering shrubs. Their
+caterpillars are very handsome thick cylindrical grubs marked with
+brilliant eye spots and stripes of various striking colours, and are
+easily distinguished by a curious curved fleshy horn on the dorsal
+surface of the tail segment.</p>
+
+<p><span class="pagenum" id="Page_237">[237]</span></p>
+
+<p>They take their scientific name from the fanciful resemblance of their
+stiff horny pupae (which are naked and generally buried in the sand
+beneath their food plant) to the Egyptian Sphinx, and their popular
+names of “hawk” and “humming-bird moth” from their powers of flight.</p>
+
+<p>Our species have been divided into five sub-families, and in Miskin’s
+“Catalogue of the Australian Sphingidae” (Proc. Roy. Soc. Queensland)
+42 species are listed under 13 genera; to which list a few species have
+since been added.</p>
+
+<p>The first group contains what are popularly called the “Clear-winged
+Hawk-moths,” from the large bare scaleless areas in the wings; they fly
+about in the daytime with a loud humming noise, very much resembling
+some of the Carpenter-bees when hovering over the flowers. <i>Hemaris
+kingi</i> is marked with black and yellow, and has a thick tuft of
+stiff hairs on either side of the abdomen; it is not uncommon in
+Southern Queensland. <i>H. hylas</i> is a similar stout moth with
+unspotted wings which has an extended range across Queensland to Japan,
+Asia, and Africa; while a third species, <i>H. janus</i>, ranges from
+Brisbane to Rockhampton. In the Genus <i>Macroglossa</i> 4 species are
+recorded from Queensland, some of which extend into our north coast
+scrubs.</p>
+
+<p>In the second group we have a very distinctive little banded hawk moth,
+<i>Cizara ardenia</i>, which ranges from New South Wales into Southern
+Queensland; most of my specimens come from the Illawarra scrubs,
+N.S.W., where the larva feeds upon the wild vine. Its ground colour is
+dark brown with narrow grey bands running round and crossing the middle
+of the wings, with a curious eye spot on the shoulders. The Genus
+<i>Chaerocampa</i> contains a number of large handsome hawk moths, some
+of which are introduced species world wide in their range; about 17 are
+recorded from Australia. The Silver Stripe, <i>Chaerocampa celerio</i>,
+is a common European species, that is well known here. French describes
+the caterpillar as a vine pest in Victoria; it is a cylindrical
+greenish to purple tinted grub with eye spots on the hind segments. The
+moth measures 3 inches across the wings; its ground colour is greyish
+fawn, with four slender lines of silvery white forming a stripe down
+the centre of the fore wings, and the body marked with silver spots;
+the hind wings are bright pink. <i>C. oldenlandi</i>, which comes
+close to this species, feeds upon vines in N.S. Wales. It differs in
+having no short oblique silvery stripes on the front of the fore wings,
+hardly any red on the hind ones, and has an unbroken silvery dorsal
+stripe down the abdomen. <i>C. erotus</i>, about the same size, has
+dark reddish brown<span class="pagenum" id="Page_238">[238]</span> fore wings, slightly marbled, and the hind pair
+yellow, darkened on the hind margins; its larvae sometimes feed upon
+sweet-potatoes. <i>C. scrofa</i> is a much smaller species of a lighter
+brown colour, with the hind wings dull brick red, darkest along the
+hind margin. This is one of our commonest species with a wide range
+over Australia; the brown small-headed larvae feed upon grass and low
+herbage. Among our most striking forms are the two species of the Genus
+<i>Coequosa</i>, both about the same size, sometimes measuring up to 7
+inches across the wings. <i>Coequosa triangularis</i> is of a reddish
+brown and grey tint, mottled on the hind wings with bright yellow, the
+darker brown forming a large angular patch in the centre of the fore
+wings; <i>C. australasiae</i> is of a light buff or fawn colour, more
+marbled, with the wedge-shaped blotch merging into the colouration
+of the tip of the wing; and the hind pair yellow, only edged with
+brown on the hind margin. The caterpillar of <i>C. triangularis</i>,
+our commoner form, is dull green, with a rough granulated skin and a
+small elongate head; the tip of the abdomen is furnished with a pair
+of stout plates used as claspers to cling to its food plant; above
+this on either side is a black shining bead-like eye, which is only
+an ornamental process, but this often leads people to think that this
+is the head end, and in some places it is known as the double-headed
+caterpillar. It feeds upon the foliage of <i>Persoonia</i> and
+<i>Acacia</i>, and when touched has a habit of swinging its body round,
+as if trying to strike; when full grown it is enclosed in a black
+shining pupa-case hidden among the rubbish beneath the trees. The Genus
+<i>Macrosila</i> contains 4 species, two of which are not uncommon in
+N.S. Wales. The She-oak Hawk-moth, <i>M. casuarina</i>, measures up to
+5 inches across the wings, and is of a general greyish mottled brown
+colour, with a darker blotch in the centre of the fore wings, which
+are slightly mottled with black toward the tip; and the hind wings are
+often very dark brown.</p>
+
+<p>The Convolvulus Hawk-moth, <i>Protoparce convolvuli</i>, ranges all
+over the world, the caterpillars feeding upon the convolvulus; and it
+is also sometimes quite a pest upon sweet-potatoes. The moth measures
+3½ inches across the wings, and is of a general dark grey colour
+thickly mottled with dark brown; the abdomen has a broad brown stripe
+down the centre with short transverse white, pink, and black bars on
+either side.</p>
+
+<p>The Privet Hawk-moth, <i>Sphinx ligustri</i>, has light brown fore
+wings, the abdomen and hind wings being marked with pink and black. It,
+like the vine hawkmoth, has a world wide range, and the caterpillars,
+with their delicate green<span class="pagenum" id="Page_239">[239]</span> tint beautifully striped with white, are
+very common in our gardens toward the end of summer on privet and other
+garden shrubs. In spite of their large size, they are very difficult to
+detect until the damaged foliage calls attention to their presence.</p>
+
+  <div class="figcenter" id="fig114" style="max-width: 491px">
+     <img
+    class="p1"
+    src="images/fig114.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 114.</b>—<i>Protoparce convolvuli</i> (Linn.).</p>
+     <p class="p0 smaller center">The Hawk-moth of the sweet potato and convolvulus.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<hr class="r25">
+
+<h4>Family 7. Wood Moths.<br>
+<span class="subhed">HEPIALIDAE.</span></h4>
+
+<p>This is a very distinct group, the members of which usually have
+long deflexed wings rounded at the extremities, and the neuration of
+both pairs of wings alike; the tongue is generally obsolete; ocelli
+absent; the tibiae without spurs; while the abdomen is very long and
+cylindrical in the typical forms. They lay their eggs upon the bark of
+different forest trees; the little caterpillars, after feeding for a
+short time on the surface, tunnel into the tree trunk, becoming fleshy
+naked grubs which bore cylindrical chambers of various forms in the
+timber, in which they sometimes remain for years, finally pupating in
+the burrows. The moth develops and escapes in the summer from the pupal
+case, which is frequently found projecting from the hole in the trunk
+or root after it has emerged. The moths are generally found clinging
+to the tree trunks, where they are easily captured. They frequently
+come to the light at night, but are difficult things to kill and mount,
+on account of their size and the ease with which the scales rub off.
+The females of some species lay many thousands of eggs. If these eggs
+are not<span class="pagenum" id="Page_240">[240]</span> removed from captured specimens and the bodies stuffed before
+setting, they generally become greasy and spoil in a very short time.</p>
+
+<p>On account of their large size and beautiful colouration the wood
+moths have attracted a great deal of attention; Scott figured and
+described a number in his “Australian Lepidoptera,” part of which
+has been published by the trustees of the Australian Museum N.S.W.
+Meyrick published a revision of the family (Proc. Linn. Soc. N.S.W.
+1889), which is much more satisfactory, and has been followed in these
+notes. The moths, which Meyrick considers to be the ancestral forms
+of the <i>Bombycina</i>, have a world wide distribution, and are well
+represented in Australia.</p>
+
+<p>Donovan in his “Insects of New Holland” described one under the name
+of <i>Hepialus australasiae</i>, which is now known as <i>Perissectis
+australasiae</i>. With outspread wings it measures up to 3½ inches
+across; the body and fore wings are of a general dark yellowish colour,
+marbled and mottled with dark brown, and the hind wings have a reddish
+tint. The Genus <i>Porina</i> contains 8 described species from this
+country; others are recorded from New Zealand and Africa; they are
+smaller moths of a general brown, yellow, or grey tint.</p>
+
+<p>The Genus <i>Hepialus</i> comprises a number of very beautiful moths
+with all kinds of delicate green, yellow, pink, and silvery shades of
+colour. The moth lays her eggs upon a tree stem; the newly hatched
+larva eating off the surface of the bark forms a matted web under which
+it bores into the centre of the branch, and then makes a vertical
+shaft downward, varying in length from a few inches to several feet,
+in which it feeds and pupates. The best method to obtain specimens of
+these moths is to collect the infested branches or stems, cutting them
+off a foot or more on either side of the silken webs (which often form
+a regular ring round the stem), and placing them in several inches of
+damp sand in a box, with a sheet of glass over the top. The wood thus
+dries slowly and does not damage the delicate pupae or larvae from
+which, if collected at the proper time, the perfect moths of several
+species will readily breed out. The males and females of the same
+species differ from each other in size, colour and markings.</p>
+
+<p class="p2 smaller center">Plate XXIII.—LEPIDOPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Hepialidae</span>.</p>
+
+<p class="center smaller"><i>Leto staceyi</i> (Scott).</p>
+
+<p class="center smaller">(Original photo. Burton.)]</p>
+
+  <div class="figcenter" id="plate23">
+     <p class="p1 sm center"><i>Plate XXIII.—LEPIDOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate23.jpg"
+    alt="">
+  </div>
+
+<p>Lewin’s wood-moth, <i>Hepialus lewini</i>, is one in which the sexes
+are very different. The larger female measures 2½ inches across the
+wings; the fore pair, head, and thorax are dull claret red, mottled on
+the centre and tips of the wings with green; the hind pair dull yellow,
+with a pinkish tint. In the male, the head, thorax, and fore wings are
+pale green, <span class="pagenum" id="Page_241">[241]</span>the latter banded with opaline white; the hind pair of
+a paler green with white tints. This is one of our common species, and
+feeds in the stems of the Casuarina.</p>
+
+<p>The larva of <i>H. exima</i> feeds on the stems of the “Lilly-pilly”
+and Water-gums, forming quite a felted bag round the branch, and is
+said to remain in the larval state for several years; like the great
+wood-moth, before it pupates it eats the web off in front of its
+chamber and replaces it with a wad to protect the opening; this it can
+easily push out with its horny pupal head when ready to emerge. This is
+a much larger green form, with the edges of the fore wings marked with
+brownish yellow and two eye spots of the same colour in the centre; the
+small male has the green fore wings marked with opaline white. <i>H.
+ramseyi</i> is easily recognised by its greater size and the green fore
+wings richly mottled with large silvery white spots forming irregular
+transverse bands.</p>
+
+<p>The Bent-wing, <i>Leto staceyi</i>, is one of our most remarkable
+moths both for size and colour: it was originally described by Scott
+under the generic name <i>Zelotypia</i>, but Meyrick placed it in the
+Genus <i>Leto</i>, in which another species has been described from S.
+Africa. Both of these species are peculiar in having the hind wings
+tufted with stout shaggy hairs. This moth, chiefly obtained in the
+forest country about Newcastle, has been largely bred from the infested
+timber by miners in the district, who had a ready sale for them, and
+who at this work naturally learnt a good deal about their habits.
+When the young larva enters the tree trunk it covers the opening so
+carefully with web and particles of bark, that it requires an observant
+eye to detect the injury. According to some of the collectors the larva
+lives and grows in its shaft, about a foot in depth, for a period of
+six years (but this needs verifying); it generally pupates early in
+December after blocking the opening with a felted wad; but soon after
+its transformation it pushes this wad out. The chrysalid fits close
+to its vertical shaft, and aided by rows of fine spines round the
+apex of each abdominal segment can move up and down; when reaching
+maturity it has a favourite habit of resting in the shaft with the top
+of its head level with the transverse burrow, and dropping downward if
+disturbed. Thornton, who bred or captured nearly 100 in the Newcastle
+district, generally obtained them in the month of March, and found
+that those under observation invariably came out about 3 o’clock in
+the afternoon. The larger female measures up to 8 inches across the
+wings, of which the front pair are long, slender, and arcuate on the
+hind margins; these are of a general<span class="pagenum" id="Page_242">[242]</span> greyish fawn brown, wonderfully
+marbled with black and brown, and with a large eye-spot in the centre
+toward the tip: the hind wings and body are reddish yellow. Meyrick
+suggests, in his paper previously quoted, that the curious eye-spots on
+the wings, together with the general outline of the moth resting upon
+the tree trunk, might be a case of protective mimicry, resembling a
+snake’s head; this appears to me however to be very far fetched. Skuse
+reproduced a drawing of the moth and a monitor lizard’s head in the
+“Records of the Australian Museum,” to show this fancied resemblance,
+but if the correct colouration had been added the resemblance would
+have been very much less marked.</p>
+
+<p>The Genus <i>Pielus</i> contains some large brownish moths with very
+hairy legs, two of which have been described from Australia: <i>Pielus
+hyalinatus</i>, slightly under 4 inches across the wings, is of a
+general chocolate brown tint with an irregular silvery white stripe and
+dark lines running through the centre of the fore wings; the hind pair
+are brown. The larvae feed in the roots of several species of wattles,
+and are frequently attacked by <i>Cordiceps</i>, the curious fungus
+that turns them into what are known as “vegetable caterpillars.” This
+species has a range from the southern parts of W. Australia through
+Victoria to North Queensland. Messrs. Olliff and Prince figured and
+described (Proc. Linn. Soc. N.S.W. 1887) a handsome variety of this
+moth under the name of <i>Pielus imperialis</i>. The marbled wood-moth,
+<i>Trictena labyrinthica</i>, is a large dark brown moth, measuring
+up to 6 inches across the wings, which are covered with a scroll-work
+pattern of lighter colour. The larvae of these also feed upon the roots
+of trees.</p>
+
+<p>In the <span class="smcap">Cossidae</span> we have a typical goat-moth, <i>Culama
+caliginosa</i>, resembling the English species in form and habits. The
+larva is a short, dull, red, naked grub that feeds in the stem of the
+apple-gum, tunnelling round under the bark until nearly full grown,
+when it bores into the wood and pupates in a cocoon at the end. The
+moth is of a uniform delicate slate-grey, finely marbled with black
+lines all over the broad rounded wings, which are folded downward when
+at rest.</p>
+
+<p>The <span class="smcap">Zeuzeridae</span> comprise some of our giant wood-boring moths;
+some are as large as small birds, with great rounded bodies, and
+grey wings thickly mottled with black, brown and fawn: <i>Zeuzera
+eucalypti</i> has received an unfortunate specific name, for it feeds
+in the larval state in the stems and branches of several different
+species of wattles, and kills a great number of these trees by
+perforating them<span class="pagenum" id="Page_243">[243]</span> with great circular burrows; when ready to pupate,
+it forms a silken bag close to the outer skin of the bark, which has
+been gnawed away so that it can easily push its way out when ready to
+emerge. The moths have the usual brown tint mottled with irregular
+blotches of grey. The rust-coloured wood moth is a much larger species,
+and is commonly known under the name of <i>Z. liturata</i>, but is
+probably identical with <i>Z. cinerens</i>. It measures up to 4¼ inches
+across the wings, and is of a delicate mottled grey and brown tint,
+with the hind wings and central portion of the dorsal surface of the
+abdomen bright chocolate brown. The larvae of this and the following
+species live in the centre of the stems of large forest gums, and are
+said to take a number of years to come to maturity.</p>
+
+<p>Macleay’s wood moth, <i>Zeuzera macleayi</i>, said to be identical with
+Herrick-Schafer’s <i>Eudoxula boisduvalli</i>, has a large cylindrical
+body, and is the giant of the family, measuring up to 10 inches across
+the wings. They are brown thickly mottled with grey scales; when taken
+they are generally found clinging to the tree trunks, upon which each
+female deposits many thousands of small shot-like eggs.</p>
+
+<p>Olliff has given a detailed description of <i>Leto staceyi</i>, and
+an account of a variety (Pro. Linn. Soc. N.S.W. 1887). In a general
+account of these wood-moths (Pro. Linn. Soc. N.S.W. 1894) I recorded a
+number of Thornton’s observations.</p>
+
+<hr class="r25">
+
+<h4>Family 8. Bag Moths.<br>
+<span class="subhed">PSYCHIDAE.</span></h4>
+
+<p>The members of this group are more remarkable in the caterpillar than
+in the moth stage, for as soon as they emerge the larvae construct
+protective caps of silken threads and bits of their food-plant, which
+as they increase in size become regular silken sacks open at the neck,
+through which the head and fore-legs protrude as they crawl about,
+but retract at the least alarm. They take their popular name of “Bag”
+or “Case Moths” from this peculiar habit, and the different species
+construct different forms of bags and ornament them with sticks or
+leaves. In Germany they are called “Sacktragers”; in America are known
+as “Basket Worms”; and the family is fairly represented all over the
+world.</p>
+
+<p>This country is rich in large species, some of which were noticed
+as curiosities at a very early date, and Westwood<span class="pagenum" id="Page_244">[244]</span> described and
+figured most of our bag moths (Proc. Zool. Soc. 1854) under the
+Genus <i>Oiketicus</i>: McCoy in his “Podromus of Natural History of
+Victoria” Decade iv. gave additional notes on the habits of two of
+our common species; and an interesting paper on how they construct
+their portable homes will be found in the “Victorian Naturalist” by
+Hill (1898). The caterpillars themselves are short, naked, dull green
+creatures with stout horny heads, and are apparently so well protected
+from their many enemies that one would hardly expect to find them
+suffer from the attacks of parasites. But they must have some weak
+point in their armour for a very large percentage, even when collected
+and kept in breeding cages, produce only wasp and fly parasites. When
+full grown the caterpillar closes up the neck of its bag and fastens
+it by a stout silken band to a twig before changing into the chrysalid
+state; but while the male turns round and pupates head downward, the
+female remains head up as before, and when she casts her pupal skin
+is an aborted wingless creature, with small head and legs; the body
+simply develops into a great swollen sack of eggs, which hatch out in
+her body, or in the shelter of the cocoon; and the larvae make their
+way out at the open tip of the bag, each attached to a silken thread, a
+squirming mass of hundreds of little black creatures, leaving her only
+a shrivelled skin in the cocoon. The male moth, which is rare, is a
+very active creature, which dashes about as soon as he emerges from the
+pupal case, and damages his wings (even when bred in captivity) before
+he can be caught. He has curious toothed antennae; the head and body
+are thickly clothed with fine hairs; the body has telescopic segments,
+capable of being protracted to double their ordinary length when
+impregnating the female enclosed in her cocoon. The wings are narrow,
+very lightly covered with scales, and without any very distinctive
+pattern.</p>
+
+<p class="p2 smaller center">Plate XXIV.—LEPIDOPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Liparidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>1. <i>Teara contraria</i> (Walker). ♀.</li>
+  <li>2. <i>Teara contraria</i> (Walker). Caterpillar.</li>
+  <li>3. <i>Teara contraria</i> (Walker). ♂.</li>
+  <li class="hangingindent">4. <i>Teara contraria</i> (Walker). Bag shelter among the foliage of <i>Eucalyptus albens</i>.</li>
+</ul>
+</div>
+
+  <div class="figcenter" id="plate24">
+     <p class="p1 sm center"><i>Plate XXIV.—LEPIDOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate24.jpg"
+    alt="">
+  </div>
+
+<p>About 13 species of these moths are described from Australia, of which
+several are very common at times in the bush. Saunders’ Case Moth,
+<i>Metura elongata</i>, is our largest species; the larva constructs
+an elongate silken sack often up to 4 or 5 inches in length, broadest
+in the centre and tapering to both extremities; the outside is covered
+with short lengths of sticks nibbled from the food plant, or picked up
+during its wanderings. On an average these sticks are about as long as
+wooden matches, and are securely attached at irregular distances, the
+lower ones often extending beyond the silken tip. The caterpillar, of
+which only the head, thorax, and fore-legs can be seen, is a stout,
+naked, dull brown grub barred with black and reddish <span class="pagenum" id="Page_245">[245]</span>orange,
+measuring about 2 inches in length. The female moth differs so little
+from the caterpillar that it is hardly worth noticing, but the active
+winged male, with a wing expanse of about 2 inches, has the head and
+thorax thickly clothed with bright reddish orange down, and the dusky
+wings are lightly clothed with fine scales. Though the moth is a
+somewhat rare insect, the bag cocoon can be often found on a twig or
+attached to a fence, for in spite of the large house they carry they
+are great travellers. The Faggot Case-moth, <i>Entometa ignoblis</i>,
+forms a very different kind of portable home; the silken sack is
+covered with a coat of stout sticks which are generally cut from the
+gum trees and laid parallel to each other, and closely fastened to the
+silken surface, so that it reminds one of a bundle of faggots. They
+vary much in size and length; the larger measures up to 3 inches; one
+stick will be often found projecting an inch or more beyond the others;
+this is said to be a resting place for the male moth when seeking the
+enclosed female. She is of the usual obese form; of a general brown
+tint, the head and thorax creamy white spotted with black. The male
+moth with a wing expanse of 1¼ inches is of a uniform brown colour.
+The Leaf Case-moth, <i>Thyridopteryx hubneri</i>, forms a shorter
+oval silken sack averaging about 2½ inches in length and broad in
+proportion, covered with different kinds of leaves, for they feed on
+many shrubs and trees; but the commonest are clothed with bits of gum
+leaves attached only on the upper edge, and might be likened to a rag
+mat. When they infest pine trees in the garden, they are uniformly
+clothed with short lengths of pine needles and have a much neater
+appearance. The caterpillar is a stout black grub with the head and
+thorax dull white, mottled with brown. The male moth is a pretty little
+creature, with reddish brown antennae, the body thickly clothed with
+black down; the wings have very few scales, and are almost transparent,
+with a slight blotch in the centre of the hind pair.</p>
+
+<p>The Ribbed Case-moth, <i>Thyridopteryx herrichii</i>, differs from
+the others in constructing a smooth white silken bag, oval in form,
+angled on the sides, and with a slender tail at the base; and the long
+attenuated neck forms a regular stalk when attached to the twig; it
+measures about 2 inches, and is never covered with sticks or leaves.
+The caterpillar is blackish brown with the head and first thoracic
+segment lighter coloured. The moth is about 1 inch across the wings,
+thickly clothed with black hairs, and a reddish orange spot behind the
+thorax; the wings are semitransparent, with very few scales.</p>
+
+<p><span class="pagenum" id="Page_246">[246]</span></p>
+
+<hr class="r25">
+
+<h4>Family 9. Cup or Slug Moths.<br>
+<span class="subhed">LIMACODIDAE.</span></h4>
+
+  <div class="figcenter" id="fig115" style="max-width: 523px">
+     <img
+    class="p1"
+    src="images/fig115.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 115.</b>—<i>Doratifera vulnerans</i> (Lewin).</p>
+     <p class="p0 smaller center">The “Cup or Slug Moth,” with larva and cup-shaped cocoon.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>These are moderate sized moths with plump bodies thickly clothed with
+shaggy hairs, retracted heads, and toothed antennae. The caterpillars
+are curious short stout slug-like creatures feeding on the surface
+of the foliage; their feet are almost obsolete, while the under
+surface is quite flat, soft and fleshy; the whole body rests on the
+leaf when crawling along like that of a snail. The upper surface is
+saddle-shaped, with the two extremities raised and ornamented with
+fleshy spiny tubercles, with little bunches of sharp retractile spines
+like rosettes, which can be withdrawn into the tubercle or erected at
+will; the spines are sharp and appear to be hollow, and give a smart
+sting if they touch the body; in some of the American species, the
+stinging sensation is so severe as to cause serious swellings. When
+full grown they spin curious egg-shaped, brown, parchment-like cocoons
+attached at the base to the twig, with the apex rounded and forming
+a circular cap or lid, which, closely cemented on, is loosened and
+pushed off by the enclosed moth when she emerges. They do not pupate
+as soon as the<span class="pagenum" id="Page_247">[247]</span> cocoon is finished, but remain for a long time in a
+semi-caterpillar state before the chrysalis is formed.</p>
+
+<hr class="tb">
+
+<p>The Painted Cup Moth, <i>Limacodes longerans</i>, is one of our
+commonest species. The female is about 1¾ inches across the wings;
+has a very large abdomen; is of a general dull brownish tint; the
+head and thorax are slightly coloured with red, and the under surface
+dark brown, the wings chocolate brown, with the outer margins light
+brown. The much smaller male has semitransparent wings, with the head
+and thorax marked with bright red. The larvae feed on eucalypts and
+are of a delicate green colour and of the typical form; about 1 inch
+in length; with four large tubercles at each end carrying a rosette
+of retractile red spines; the centre is marked with red and blue, and
+the outer margins are fringed with short tubercles. They form regular
+oval cocoons generally attached on their sides to the twig or bark.
+The Mottled Cup Moth, <i>Doratifera vulnerans</i>, is another common
+species, the larvae of which sometimes attack the foliage of apricot
+trees. It is a larger slug caterpillar than the last, with a patch of
+bright yellow in the middle of the back. The cocoons are pear-shaped
+with the apex somewhat contracted, showing the lid more distinctly.
+They sometimes swarm over the bush about Sydney N.S. Wales. The moths
+are of a general reddish brown tint with the fore wings marbled in the
+centre with a redder shade; the hind wings are lighter brown; they are
+somewhat smaller than the last species.</p>
+
+<hr class="tb">
+
+<p><i>Doratifera quadriguttata</i> is of a dull reddish tint; the fore
+wings are crossed with a row of 3 darker raised spots, the hind wings
+being much lighter: the female measures about 1¼ inches, the male
+somewhat smaller. The larvae, when young, cluster together up to a
+dozen in number, and feed on the under-side of the leaf, but when full
+grown they scatter about, destroying much of the foliage of the gum
+trees. Numbers were collected near Gosford N.S.W. about the end of
+February. They are short and broad, black, with a pair of dull yellow
+fleshy horns in front, and 4 tubercles surmounted with bunches of
+yellow spines tipped with black at each extremity; the centre of the
+flattened back has rows of short yellow spines with a fringe of similar
+ones round the outer margins. When full grown they form the usual
+egg-shaped brown cocoon.</p>
+
+<hr class="tb">
+
+<p><i>D. acasta</i> is a very similar moth, with a row of 6 or more
+similar spots crossing the fore wings. The larvae feed in the same
+manner, and are very plentiful toward the end of summer in the Bathurst
+district, N.S.W. Rainbow has<span class="pagenum" id="Page_248">[248]</span> figured the larvae of this species in the
+“Records of the Australian Museum” 1904.</p>
+
+<p>The curious warty, pale green, oval, slug-like caterpillar with a
+yellow stripe down the centre of the back that is figured by Scott as
+<i>Apoda xylomeli</i> feeds upon the under surface of the leaves of the
+waratah; and when at rest along the midrib of the leaf, with the yellow
+dorsal stripe in line, in spite of its size it is very hard to detect,
+and is a wonderful instance of protective colouration.</p>
+
+<hr class="r25">
+
+<h4>Family 10. Tiger Moths.<br>
+<span class="subhed">ARCTIIDAE.</span></h4>
+
+<p>This family, including the <span class="smcap">Lithosiidae</span>, known to collectors
+as “Footmen,” is now one of the largest divisions of the moths that
+were once all grouped among the true silkworms. The larvae of most of
+the species are short hairy grubs popularly known as “woolly bears,”
+feeding on all kinds of low plants, and common in our gardens. In this
+country they comprise a number of delicate and often very handsome
+moths of medium size, with moderately long pectinate antennae, the body
+often large, and the wings brightly coloured. The “Footmen” differ from
+the “Tiger” moths in having the fore wings longer, more slender, and
+folded over the shorter, more elongate body; they take their popular
+name from the livery-like pattern of their markings, as the latter take
+theirs from the tiger-like stripes and spots; while others again are
+known as “Ermine” moths from their soft silken wings.</p>
+
+<p>The Genus <i>Tigriodes</i> contains a number of small moths hiding
+under or among foliage and therefore not often noticed. <i>Tigriodes
+alterna</i> is of a uniform yellowish brown tint, with darker brown
+markings upon the thorax and wings, forming zig-zag lines across
+the fore pair, and clouding the hind ones. It measures about 1 inch
+across the wings and ranges from Victoria into New South Wales. <i>T.
+furcifera</i> is slightly smaller, of a bright yellow on the fore
+wings, with three slender parallel stripes separating into finer lines
+at the extremities; the hind pair paler with traces of black lines
+toward the edges; there is a wedge-shaped patch of the same colour
+on the thorax. Another species common about Sydney N.S.W. is <i>T.
+heminephes</i>, pale orange yellow with the apical edges of the wings
+and thorax blotched with blackish brown.</p>
+
+<p><span class="pagenum" id="Page_249">[249]</span></p>
+
+<p>Among the “Footmen” we have in the Genus <i>Spilosoma</i> a number
+of fine white to greyish brown moths, mottled with blackish spots
+and dashes. The Light Ermine, <i>Spilosoma obliqua</i>, is common in
+Victoria and N.S. Wales; it has a wing measurement of 2 inches; is of
+a uniform dull white, lightly mottled over the wings with dark brown
+spots, some of them forming a slender irregular transverse band across;
+the abdomen is red with a dorsal stripe of black dots. <i>Spilosoma
+fulvohirta</i> is about the same size, but much more darkly and
+thickly marked with brown, also forming dark stripes on the thorax.
+<i>Spilosoma fuscinula</i> is a much smaller moth, slightly over 1
+inch across the wings; it has a general rich pink tint, very variably
+spotted and blotched with black; the latter is sometimes quite the
+predominating colour, in others only marking the tips; the hind wings
+are spotted in the centre and on the hind margins only. The larvae are
+short, flattish, hairy grubs of a reddish colour, and feed upon the
+foliage of young gum trees.</p>
+
+  <div class="figcenter" id="fig116_117" style="max-width: 750px">
+     <img
+    class="p1"
+    src="images/fig116_117.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Figs. 116</b> and <b>117</b>.—<i>Spilosoma
+obliqua</i> (Walker).</p>
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>116. The Light Ermine Moth.</li>
+  <li>117. Larva, known as a “Woolly bear.”</li>
+</ul>
+</div>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>The Genus <i>Termissa</i> contains a number of smaller pretty little
+moths flying low and hiding among the foliage; about 10 species are
+well known. <i>Termissa shepherdi</i>, slightly over 1 inch across the
+wings, has the fore pair broad at the tips, is blackish brown, with
+3 irregular yellow transverse bars; the hind pair yellow, with two
+rounded marks on the outer margin. <i>T. nivosa</i> is a smaller moth
+of a delicate creamy white, with the front and outer margins of the
+fore wings delicately edged with dark yellow and black, and with two
+indistinct spots on the front margin; there is a small dot on each hind
+wing. Anderson says about Melbourne<span class="pagenum" id="Page_250">[250]</span> the larvae are to be found under
+the bark of gum trees in August. <i>Clauca rubricosta</i> measures 1
+inch across the wings; is of a general blackish tint with the palpi and
+collar behind the head dull red, a slender costal stripe of reddish
+yellow along the fore wings, and a yellow spot on the centre of the
+inner margin forming a distinctive mark when the wings are folded; the
+hind pair are pale yellow with dark edges. The Genus <i>Mosoda</i>
+contains several moths whose larvae feed upon moss and lichens on the
+surface of the rocks about Sydney. <i>Mosoda anartoides</i>, under
+1 inch across the wings, has the fore pair dark brown, delicately
+mottled; the hind pair dull orange yellow irregularly edged with brown.
+<i>M. consolatrix</i>, a smaller moth, has the fore wings greyish
+mottled brown; the hind pair pale buff. <i>M. jocularis</i> is slightly
+smaller, pale buff yellow; the fore wings tipped and speckled with
+black and the outer tips of the hind pair clouded with brown. The
+Genus <i>Comarchis</i> contains 8 described species, all small moths;
+<i>C. aspectatella</i> is under 1 inch across the wings, the fore pair
+grey barred with yellow, and the hind pair pale ochreous; it is common
+in January on Mt. Kosciusko; <i>Eutane terminalis</i> and <i>Asura
+lydia</i> are two little black moths thickly mottled with dark orange
+yellow forming bars and spots on the fore wings; the hind wings of
+the former are yellow in the centre, thickly margined with black; in
+<i>A. lydia</i> the yellow of the hind wings is divided in the centre
+by a black band. The larvae feed upon moss. The larvae of the Speckled
+Footman (<i>Deiopeia pulchella</i>) feed upon the forget-me-not; it
+is of a bright leaden colour, with a white stripe down the back and
+red spots on the sides of the segments. The moth has a very wide range
+over the world, and has probably spread from Europe. I have generally
+taken these moths on the grassy flats close to the sea shore; it is a
+slender winged creamy white moth, the fore wings mottled with black
+and red spots, and the hind pair irregularly edged with black. <i>Nola
+metallopa</i> is a silvery grey moth with the fore wings marked with
+darker coppery tints. The curious hairy larva feeds upon the foliage of
+young gum trees; when it moults the skin of the head remains attached
+to the hairs above the head, forming a regular crest.</p>
+
+<p>The members of the small family <span class="smcap">Hypsidae</span>, chiefly found in
+the tropics, are represented in this country by 4 genera containing
+about 18 species. They differ from the last in the venation of the hind
+wings, and are medium sized brown or yellow moths.</p>
+
+<p><i>Nyctemera amica</i> is one of our commonest species with a wide
+range from Victoria to Queensland; it may be found<span class="pagenum" id="Page_251">[251]</span> flying about or
+resting on flowers at all times of the year. The larvae, marked with
+black and red and furnished with tufts projecting on either side of the
+head, feed upon the “native ivy” (<i>Senecio scandens</i>). The moth
+is of a general blackish brown tint; the fore-wings are mottled with
+two irregular pale yellow blotches forming a transverse bar toward the
+tips; each of the hind pair has a more regular blotch in the centre.</p>
+
+  <div class="figcenter" id="fig118">
+     <img
+    class="p1"
+    src="images/fig118.jpg"
+     alt="">
+     </div>
+
+  <div class="figcenter" id="fig119">
+     <img
+    class="p1"
+    src="images/fig119.jpg"
+     alt="">
+     </div>
+
+  <div class="figcenter" id="fig120" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig120.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Figs. 118, 119</b> and <b>120</b>.—Life history of
+<i>Nola metallopa</i> (Walker).</p>
+     <p class="p0 smaller center">The Seedling-gum Moth.</p>
+     <p class="p0 smaller center">118. Moth.&emsp;119. Larva. 120.&emsp;Pupa.</p>
+     </div>
+
+<p><span class="pagenum" id="Page_252">[252]</span></p>
+
+<hr class="r25">
+
+<h4>Family 11. Brown Tails.<br>
+<span class="subhed">LIPARIDAE.</span></h4>
+
+<p>These are the “Tussock” moths of America, and the “Vapourers,”
+“Brown-tails,” and “Black-arches” of English collectors; some of
+ours are known as “Bag-shelter moths” from the curious silken bags
+the gregarious larvae spin, in which they shelter during the day and
+come out at night to feed upon the foliage. The typical “Brown-tails”
+are stout, thickset moths with rather long hairy fore-legs generally
+stretched out in front when resting; the antennae are pectinate in both
+sexes, and the abdomen is tipped with tufts of downy hairs; in some
+species the females are wingless. They lay their eggs in clusters on
+the under-side of the leaves, covering them over with a felted mass of
+the hairs from the tip of the abdomen.</p>
+
+<p>The famous “Gypsy Moth,” common in Europe, belongs to this group; it
+was introduced into the State of Massachusetts, where it has multiplied
+so enormously that it has become a regular plague, and though hundreds
+of thousands of dollars have been spent in fighting it, it is still a
+serious pest. <i>Porthesia obsoleta</i>, one of our typical species,
+measures about 1½ inches across the wings, and is pure white with a
+black body tipped with golden brown hairs. It was described by Donovan
+in 1815 in his “Insects of New Holland,” and is more common in Victoria
+than New South Wales. <i>Trichetra marginalis</i> is a moth with a
+wingless female; the male is a little larger than the last species; is
+of a uniform greyish brown colour, with the outer edges of the fore
+wings white, and the hind pair pale brown. The larva feeds upon the
+foliage of gum trees.</p>
+
+<p class="p2 smaller center">Plate XXV.—LEPIDOPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Psychidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li class="hangingindent">1. <i>Entometa ignoblis</i> (Walker). Cocoon of Faggot Case-moth.</li>
+  <li class="hangingindent">2. <i>Entometa ignoblis</i> (Walker). Cocoon made with Cherry stalks.</li>
+  <li>3. <i>Thyridopteryx herrichii</i> (Westwood).</li>
+  <li>4. <i>Metura elongata</i> (Saunders).</li>
+  <li class="hangingindent">5. <i>Thyridopteryx hubneri</i> (Westwood). Cocoon made of gum leaves.</li>
+  <li class="hangingindent">6. <i>Thyridopteryx hubneri</i> (Westwood). Cocoon made of pine needles.</li>
+</ul>
+</div>
+
+  <div class="figcenter" id="plate25">
+     <p class="p1 sm center"><i>Plate XXV.—LEPIDOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate25.jpg"
+    alt="">
+  </div>
+
+<p>The Genus <i>Teara</i> contains over 20 named species of the
+“Bag-shelter Moths,” with gregarious larvae. <i>Teara contraria</i>,
+one of the largest species, measures up to 2½ inches across the wings;
+it is of a general dark brown tint with a small white spot in the
+centre of each wing; the thorax thickly clothed with long lance-shaped
+plumes yellow at the tips; and the abdomen rich orange yellow barred
+with black. The caterpillars are thickly clothed with long hairs,
+and when they take up a position on the branch of their food tree
+(generally a eucalypt or wattle) they spin a silken bag, drawing the
+leaves and twigs together, but not acting like the “Leaf-rollers,” for
+the silk forms a regular felted brown covering which soon becomes full
+of their excrement and cast skins, among which they rest during the
+day. They <span class="pagenum" id="Page_253">[253]</span>trail out at night in a regular procession and often
+strip all the foliage of the tree. When full grown they crawl down the
+trunk and pupate in loose open cocoons (formed from their body hairs)
+buried in the ground, and the large liver-coloured silken bag remains
+long after they have deserted it. This species in some districts
+makes its home upon wattles, but in other localities attacks the
+eucalypts in a similar manner. <i>Teara tristis</i> is not more than
+1¼ inches across the wings, and varies from blackish brown to silvery
+grey; the fore wings are marbled with white and yellow and a light
+circular spot in front; the hind ones are nearly black with a minute
+white spot in the centre; the head and thorax are grey; the abdomen
+black, barred and tipped with orange; it is common in Victoria and
+N.S. Wales, generally clinging to some low bush, and slow and sluggish
+in its movements. <i>Teara melanostica</i> is larger than the last;
+silvery grey, spotted, with the front edge and transverse bar black;
+hind wings yellow edged with brown; head and thorax silvery white,
+hind portion dark brown; abdomen barred, and tipped with yellow. The
+larvae feed upon the leptospermum bushes, and form soft loose cocoons.
+<i>Ptilomacra senex</i> is a large handsome moth about 3 inches across
+the straight, square-cut fore wings; is of a general dark brown colour
+with wavy irregular dark lines and scattered grey scales giving it a
+greyish tint. It is remarkable for its large feathery antennae.</p>
+
+  <div class="figcenter" id="fig121" style="max-width: 443px">
+     <img
+    class="p1"
+    src="images/fig121.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 121.</b>—<i>Apina callisto</i> (Doubleday).</p>
+     <p class="p0 smaller center">The day-flying cut-worm moth.</p>
+     </div>
+
+<p><i>Apina callisto</i> is a brightly mottled yellow and brown moth that
+flies about in the daylight. Its curious hairy larvae feed upon the
+open grass lands, and are often very numerous. It has a wide range over
+Australia.</p>
+
+<p><i>Chelepteryx collesi</i> is one of our largest bat-like moths,
+measuring to 6 inches across the wings; it is of a uniform dark brown
+colour with an irregular marbled pattern upon the wings; but it varies
+much in size and pattern in the sexes. Where common they may be often
+seen fluttering round the street lamps in the suburbs of Sydney,
+N.S.W.<span class="pagenum" id="Page_254">[254]</span> This handsome moth was first taken to England by a Mr. Colles,
+after whom Grey described it (Trans. Ent. Soc. 1835). The caterpillars
+are great, reddish brown creatures, thickly clothed with stout spiny
+bristles, feeding on the small white stemmed eucalypts, and often found
+crawling over the rocks and fences. They spin long silken cocoons, and
+as they pupate force all the body spines through the silk, making the
+cocoon a very awkward thing to handle, for the fine spines are easily
+detached, and sticking into the fingers cause a very unpleasant itching.</p>
+
+  <div class="figcenter" id="fig122" style="max-width: 399px">
+     <img
+    class="p1"
+    src="images/fig122.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 122.</b>—<i>Nyctolemon orontes</i> (Linn.).</p>
+     <p class="p0 smaller center">The great day moth of the Queensland scrubs.</p>
+     <p class="p0 smaller center">(Original drawing, W.W.F.)</p>
+     </div>
+
+<p>The Genus <i>Darala</i> is peculiar to Australia; about 30 species
+have been described; their larvae are short, thick, black, hairy
+caterpillars often found crawling about in the gardens, and
+constructing soft fluffy or white silken cocoons attached to the
+foliage. <i>Darala ocellata</i>, one of our commonest species,
+measures 1½ inches across the wings, and is of a uniform brownish
+fawn colour, with two black spots in the middle of the fore wings and
+a pattern of spots or parallel black lines in the central portion.
+<i>Darala acuta</i> is slightly larger, with very variable markings
+upon a general greyish fawn to dull yellow ground; the fore wings are<span class="pagenum" id="Page_255">[255]</span>
+broad with an acute point at the extremity. The Wattle-moth, <i>Teia
+anartoides</i>, which in the larval state often appears in the orchards
+and destroys the apple-tree foliage, is sometimes very abundant. The
+larvae are short brown hairy grubs with a tuft of hairs standing out
+in front on either side of the head, and several stiff brushes of grey
+hairs upon the centre of the back. The males are much smaller than the
+females, and in the pupal state when hanging up in their loose flimsy
+cocoons can be easily distinguished. The adult female is wingless,
+simply crawling on to the top of her cocoon to lay her eggs and die.
+The male is a handsome little moth about 1 inch across the wings; the
+fore pair are dark brown marbled with slender lines and black spots,
+the hind pair bright yellow surrounded with black, and the outer edges
+yellow; the antennae are large and feather-like.</p>
+
+  <div class="figcenter" id="fig123" style="max-width: 477px">
+     <img
+    class="p1"
+    src="images/fig123.jpg"
+     alt="">
+     <p class="p0 smaller center"> <b>Fig. 123.</b>—<i>Ocinara lewinae</i> (Lewin) and
+Caterpillar.</p>
+     </div>
+
+<p><i>Ocinara lewinae</i> is a handsome light reddish brown moth with
+darker lines running round the wings. It was described by Lewin in
+1803, who figured it in colours and called it the “Hook Tip.” The larva
+is a slender caterpillar covered with fine hairs. They are gregarious,
+and web the leaves of the eucalypts together with a loose, open, silken
+strand.</p>
+
+<p><span class="pagenum" id="Page_256">[256]</span></p>
+
+<hr class="r25">
+
+<h4>Family 12. Silkworm Moths.<br>
+<span class="subhed">BOMBYCIDAE.</span></h4>
+
+<p>In this group I include several families that may be broadly placed
+together as typical silkworm moths. Some writers divide them into three
+families; Packard on the other hand adds a number of other well defined
+groups, such as the Psychidae, Arctiidae, and others, to the Bombycidae.</p>
+
+<p>Typical silkworm moths have thick heavy bodies, with small heads
+furnished with pectinate antennae and an imperfect mouth; the wings
+are large and often falcate. The larvae are usually fleshy thickset
+caterpillars covered with scattered tubercles, and are of somewhat
+sluggish habits; but all form stout silken cocoons. Our silkworm moths
+are more closely related to the Atlas moths of India, Saturnidae, than
+to the silkworm moth of domestic fame, <i>Bombyx mori</i>, which,
+originally a native of China, is now bred and cultivated in many parts
+of the world for commercial silk.</p>
+
+<p><i>Bombyx trimacula</i> measures 1¾ inches across the wings; it is a
+dark brown moth, mottled and marbled with white on the head, thorax,
+and tip of the abdomen, and forming a delicate wavy pattern across
+the fore wings interspersed with some blackish markings; it is found
+in Victoria. <i>Odonestis australasiae</i> has been known under many
+different names: Lewin called it <i>Bombyx nasuta</i>, and his specific
+name was much more appropriate than the former, as it has the head
+produced into a regular point in front. The larger female measures
+about 2 inches across the wings, which are of a uniform dull reddish
+brown colour with faint markings on the fore wings; the hind ones
+are of a lighter tint. The short hairy caterpillars have a tuft of
+hairs standing out on either side of the head; in their natural state
+they feed upon the foliage of the black wattle, forming white silken
+cocoons, attached to the plant. It is sometimes called the “Long-nosed
+Wattle Moth,” and in Victoria is said to turn its attention to the
+apple-tree foliage. <i>Pinara despecta</i> is a large, handsome,
+reddish fawn moth, with fore wings ornamented with several zig-zag
+bands across the centre. It is a thickset moth, often measuring over
+3 inches across the wings. The larva feeds upon the foliage of the
+eucalyptus, and is a very slender caterpillar of a general greyish
+brown tint, with the sides of the body fringed with fine downy hairs,
+and when it is resting the fringes lie along the twig so closely that
+it is very hard to detect. It spins a<span class="pagenum" id="Page_257">[257]</span> large silken cocoon tinted
+with pink, attached to the leaves of the gum trees. <i>Cosmotriche
+exposita</i> is a pretty little thickset moth of a uniform greyish
+brown tint, covered with fine soft downy hairs round the body and hind
+wings; the fore pair are thickly mottled with dark brown; the larger
+female measures about 1½ inches across the wings; the smaller male is a
+much darker brown insect with fine mottled fore wings. The caterpillar
+feeds upon the foliage of the “she-oak” (<i>Casuarina</i>), and is a
+slender greyish creature lightly clothed with grey hairs, marked with
+yellow and carmine on the sides of each segment, and black marks on the
+back. It forms an elongate oval cocoon attached to the twigs.</p>
+
+<p>The second group, <span class="smcap">Notodontidae</span>, are known as “Prominents” to
+English collectors from the curious angular form of the caterpillars,
+though this is not noticeable in our typical forms. The Banksia Moth,
+<i>Danima banksiae</i>, was named by Lewin after its food plant, though
+it feeds equally upon the Hakea bushes. It is a very handsome moth,
+nearly 3 inches across the wings, which are of a general slate brown
+tint; the thorax and tip of abdomen are thickly blotched with white,
+which is also sprinkled over the body and fore wings in the form of
+little white scales; the central portion of the abdomen is orange
+yellow. The caterpillar is a rather slender, cylindrical, ochreous
+brown creature with the tip of the body lead colour, and the whole
+surface irregularly blotched with white spots encircled with black,
+forming irregular bands round each segment. They are generally found
+feeding in groups of three or four, and when disturbed turn both the
+head and tip of the abdomen over the back, and protrude two red fleshy
+filaments from the under-surface of the first segment.</p>
+
+<p>The <span class="smcap">Saturnidae</span> are our most important group for size and
+colour, and an immense fellow, <i>Coxinocera hercules</i>, is found
+in Cape York. Another very beautiful Chinese species, <i>Attacus
+cynthia</i>, which feeds on the foliage of <i>Ailanthus glandulosa</i>,
+has been accidentally introduced into Australia, and is sometimes taken
+about the Sydney gardens.</p>
+
+  <div class="figcenter" id="fig124">
+     <img
+    class="p1"
+    src="images/fig124.jpg"
+     alt="">
+     </div>
+
+  <div class="figcenter" id="fig125" style="max-width: 403px">
+     <img
+    class="p1"
+    src="images/fig125.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Figs. 124</b> and <b>125</b>.—Life history of the
+Australian Silkworm Moth.</p>
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>124. <i>Antheraea eucalypti</i> (Scott). Moth and Cocoon.</li>
+  <li>125. Caterpillar.</li>
+</ul>
+</div>
+     </div>
+
+<p>The Genus <i>Antheraea</i> contains some of our finest moths; others
+are found in Japan and India that yield a strong brown silk. Our
+commonest species, <i>Antheraea eucalypti</i>, is variable both in
+colour and size, ranging from delicate fawn to dull brick red, and is
+from 4 to 5½ inches across the wings, which in the male are smaller
+and narrower behind;<span class="pagenum" id="Page_258">[258]</span> each wing is ornamented with a circular eye-spot
+in the centre, those on the hind pair being larger and ringed with
+black, with narrow irregular dark bands running round or across the
+hind margin. The tip of the fore wings in the smaller males is rounded,
+corrugated, and touched with pink. The large green caterpillar, covered
+with scattered<span class="pagenum" id="Page_259">[259]</span> tubercles tipped with clusters of retractile red and
+blue spines, feeds upon the foliage of eucalypts, but has acquired
+a taste for the foliage of the cultivated pepper tree (<i>Schinus
+mollis</i>). It constructs a stout, hard, dark brown cocoon in which
+it pupates, and is furnished with a curious spine at the base of the
+fore wings, which enables the moth to cut her way out through the
+tough cocoon when ready to emerge. <i>A. helena</i>, very similar in
+general appearance to the former, is slightly larger, with broader
+wings of a more uniform reddish brown colour, without a white mark on
+the fore wings; the inner bands are more irregular and rounded, with
+the parallel bar not continued into the hind wings. <i>A. simplex</i>
+is a smaller species varying in colour from pale yellow to reddish
+brown, with smaller eye-spots, those upon the hind wings somewhat
+oval, broadly marked along the costal nervure; the parallel bar and
+band on each hind wing are very narrow, and both pairs are wrinkled
+at the tips. The black and yellow caterpillars are very common at
+times in the Richmond and Clarence River scrubs, N.S. Wales, and more
+gregarious in their habits, often covering the bushes with their light
+coloured rather flimsy cocoons, which are very subject to the attacks
+of ichneumons. <i>A. janetta</i> is about the same size as <i>A.
+eucalypti</i>, but with flatter broader wings of a much duller reddish
+brown tint without any eye-spots, and only a simple white spot in the
+centre of each of the fore pair; two fine irregular lines run round
+the outer half of both pairs with an extra row of small spots along
+the hind wings. The larva forms a hard shell-like cocoon on the trunks
+of the she-oaks. <i>A. loranthiae</i>, described by Lucas from North
+Queensland, is a large handsome reddish moth, the larvae of which when
+pupating form their cocoons in a mass on the top of a stump or branch.</p>
+
+<hr class="r25">
+
+<h4>Family 13. Loopers.<br>
+<span class="subhed">GEOMETRIDAE.</span></h4>
+
+<p>In this family there are a number of handsome delicate moths with
+slender bodies, large flattened wings often toothed round the edges,
+which when the insects are at rest (usually upon the under surface
+of leaves) are pressed flat and spread out like a fan against the
+surface. The caterpillars are slender cylindrical creatures, green or
+brown in tint and so imitative of the twigs or foliage among which
+they feed, that it is possible to pick off a branch upon which<span class="pagenum" id="Page_260">[260]</span> a
+caterpillar is resting without observing the creature until it moves;
+they are furnished with the usual six legs on the thoracic segments
+close behind the head, and two pairs of abdominal legs near the anal
+claspers, so that they have legs at each end, and when moving along
+they draw the hind portion of the body up to the head before the front
+legs are moved: thus at every step forward the body is arched up into
+a semicircle, from which habit they are popularly known as “Loopers.”
+The best method of collecting the moths and their caterpillars is by
+beating or shaking the low scrub in the early morning; and the latter
+are very easily bred in captivity if supplied with material from their
+food plants. These moths are well represented in Australia; most of the
+earlier species have been described by Walker and Guérin (Proc. Linn.
+Soc. N.S.W.). Meyrick has classified and described a great number of
+species of this family in a series of papers entitled “A Revision of
+Australian Lepidoptera,” which the student will find in the volumes
+dating from 1886 to 1891.</p>
+
+<p>The Genus <i>Euchloris</i> contains a number of beautiful moths with
+delicate pale green wings frequently marbled with white lace-like
+tracery. Meyrick (Proc. Linn. Soc. N.S.W. 1887) lists 43 species; and
+Lower, in his “Catalogue of Victorian Heterocera,” published in the
+“Victorian Naturalist,” lists 15 as Victorian species; but some of
+these have a wide range.</p>
+
+<p><i>Euchloris submissaria</i> measures about 1½ inches across the
+outspread wings; its general colour is rich deep green, with the
+antennae, front margin of each fore wing, outer edges of both pairs of
+wings, a central stripe on the thorax and body, and the legs creamy
+buff white. The caterpillar is of the usual cylindrical form, varying
+from dull buff to light brown, and it feeds upon the foliage of the
+black wattle.</p>
+
+<p><i>Crypsiphona occultaria</i> measures nearly 2 inches across the
+wings, and is of a uniform light greyish brown on the upper surface,
+very finely banded in irregular circles; but the under surface is
+pearly white, spotted on the fore wings with black, crimson and brown;
+the hind ones are banded with brown and crimson. It has a very wide
+range, and has a habit of resting against weather-worn posts and walls,
+its outspread wings matching the colour of its surroundings. The larva
+feeds upon the foliage of the gum trees, and is of a uniform dull green
+tint, striped down the sides, the head pointed in front; the whole
+caterpillar looks wonderfully like a eucalyptus twig.</p>
+
+<p>The Genus <i>Selidosema</i> contains a large number of cosmopolitan<span class="pagenum" id="Page_261">[261]</span>
+species; Meyrick lists 29 species as Australian; they are usually grey
+or brown with darker lines and blotches. <i>Selidosema lyciaria</i>
+is one of our largest species, measuring about 2 inches across the
+wings; is of a uniform brownish grey, with both pairs of wings marbled
+in a regular pattern with black and chocolate brown, and crenulated
+round the edges. The larvae feed upon the black wattle, and vary much
+in colour, from grey to dark brown; the head is curiously notched,
+and there are two little projections upon the back by which they
+can be easily identified. <i>S. excursaria</i> has a range from S.
+Australia to N.S. Wales, and is one of our commonest species; it
+measures 1½ inches across the wings, and is of a uniform dull greyish
+tint, very finely pencilled with darker transverse markings, but is
+somewhat variable in colour. The caterpillars are of a general light
+brown colour, with the sides pencilled with fine parallel white lines
+running down the whole length of the body; they are said to feed upon
+a number of different plants, but are common on the wattles. <i>S.
+canescaria</i>, slightly larger than the last, has a dull grey tint,
+thickly mottled with dark brown wavy lines; it ranges from S. Australia
+to Queensland. Another species, <i>S. acaciaria</i>, is a little
+larger, of somewhat similar colour, with whitish markings; it is common
+in this country, and is also found in India, Ceylon, and S. Africa.</p>
+
+  <div class="figcenter" id="fig126">
+     <img
+    class="p1"
+    src="images/fig126.jpg"
+     alt="">
+     </div>
+
+  <div class="figcenter" id="fig127" style="max-width: 449px">
+     <img
+    class="p1"
+    src="images/fig127.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Figs. 126</b> and <b>127</b>.—The Marbled Looper.</p>
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>126. <i>Lophodes sinistraria</i> (Guérin) ♂.</li>
+  <li>127. <i>Lophodes sinistraria</i> ♀.</li>
+</ul>
+</div>
+     </div>
+
+<p><i>Lophodes sinistraria</i> is slightly over 2 inches in the large
+females; the sexes vary much in size and colour. They are of a general
+dark chocolate brown tint blotched with grey along the front of the
+fore wings, with a distinct row of short grey stripes round the hind
+wings in a line with the dentate<span class="pagenum" id="Page_262">[262]</span> crenulations. It has a wide range
+over Victoria and Eastern Australia. The larvae feed upon the foliage
+of the black wattle, but I have also recorded them damaging the foliage
+of young apricot trees. They are reddish brown caterpillars, covered
+with transverse bands of darker coloured spots, and they measure about
+1½ inches in length.</p>
+
+<p>The Genus <i>Thalaina</i> contains 5 described species, all of which
+are very handsome moths easily separated from the other loopers. <i>T.
+clara</i> measures 1½ inches across the wings; it is of a uniform
+pearly white, with the fore wings marked with regular transverse bands
+of reddish brown forming the letter W when viewed from the side; the
+hind pair have only a blackish blotch on the outer edge. It has a wide
+range, and in the larval state feeds upon wattles. <i>T. inscripta</i>
+is about the same size, with a similar ground colour of white, but the
+markings on the fore-wings form a less perfect W, and there is a row of
+short bars of the same colour round the edges; the hind pair are more
+deeply blotched. It has a wide range from Tasmania over the south and
+eastern portion of Australia. <i>Gastrophora henricaria</i> is a large
+handsome moth, in which the sexes differ both in size and colouration;
+the smaller brown male has bright orange hind wings, and very fine
+feathered antennae; the female has the fore wings mottled but not
+striped. The slender dark brown striped larva, according to Anderson
+(Victorian Naturalist 1902) feeds upon the foliage of eucalyptus.</p>
+
+<hr class="r25">
+
+<h4>Family 14. Cutworm Moths.<br>
+<span class="subhed">NOCTUIDAE.</span></h4>
+
+<p>This from an economic point of view is a very important family, for
+the cut-worms do an immense amount of damage to pasturage and gardens.
+These moths are of medium size with stout bodies; their fore wings
+generally speaking are narrow, stiff, and triangular, with the broader
+rounded hind ones folded beneath; the antennae are only slightly
+toothed in the males of a few species, and the mouth is produced
+into a tubular proboscis with which they can suck the nectar out of
+the flowers. In colouration they vary from bright brown to black, a
+few being marked with white or metallic tints; they are nocturnal in
+their habits, resting under bark, rocks or other sheltered places, and
+at night often flying into the lighted lamps. The larvae, which are
+known as “cut-worms,” “plague caterpillars,” and “army worms,” are
+usually elongate, dull brown, or greenish, naked<span class="pagenum" id="Page_263">[263]</span> caterpillars of a
+uniform thickness with 8 pairs of legs. When full grown they pupate
+underground, forming no regular cocoon, though a few groups form a
+flimsy silken one attached to their food plant.</p>
+
+<p>The world wide Genus <i>Agrotis</i> contains a number of variable forms
+whose larvae are typical “cut-worms,” hiding in the ground or under
+rubbish during the day, and coming out at night to feed. The short
+stout moths have the head scaly; the fore wings black to grey, the hind
+pair always lighter coloured; the antennae of the males are slightly
+pectinate.</p>
+
+  <div class="figcenter" id="fig128" style="max-width: 412px">
+     <img
+    class="p1"
+    src="images/fig128.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 128.</b>—The Bugong Moth, or Plague-Cutworm.</p>
+     <p class="p0 smaller center"><i>Agrotis infusa</i> (Boisd.).</p>
+     </div>
+
+<p>The “Bugong Moth,” <i>Agrotis infusa</i>, has gone under many different
+specific names, and is quite an historical insect. It is a dark brown
+moth, the fore wings marked with two parallel black lines, two dull
+grey spots in the centre and wavy lines at the extremities; the hind
+pair are light brown. These moths frequently appear in immense swarms,
+and take their popular name from the Bugong Mountains among the rocks
+of which they used to congregate in millions; they formed an important
+food supply to the natives who used to sweep them off into their bags,
+and after denuding them of their wings and scales over a small fire,
+pound the bodies (at this time distended with eggs) into a dough or
+paste. Dr. Bennett has given an interesting account of this in his
+“Naturalist in Australia.” A rather curious error regarding this
+Bugong Moth has crept into popular natural history books. In the Rev.
+J. G. Wood’s “Insects Abroad,” he figures and describes a butterfly,
+<i>Euploea hamata</i>, as the Bugong Moth; Aflalo in his “Natural
+History of Australia” makes the same statement, and in a recent
+magazine article on “Insects as Food” Theodore Wood repeats the same
+error.</p>
+
+<p>Scott (Trans. Ent. Soc. N.S.W. 1867) gives an account of an appearance
+of Bugong Moths in Sydney, when they were so numerous one Sunday
+morning at North Shore that the service at St. Thomas’ Church could
+not be held, and<span class="pagenum" id="Page_264">[264]</span> some observant persons counted 80,000 moths on the
+windows. They have appeared at irregular intervals about Sydney and the
+coastal districts in similar swarms, the last time being in 1905.</p>
+
+<p><i>Agrotis breviuscula</i> is a smaller variable species ranging from
+reddish brown to grey; the antennae are long; the fore wings have a
+dark spot of irregular form in the centre, a few fine dots along the
+edge, and a fine line round the tips; the hind wings are light brown.
+<i>Agrotis ypsilon</i> is not unlike the “Bugong Moth” and by some
+writers is considered only a large variety, but it has a distinct mark
+like the Greek letter e in the centre of the fore wings, the tips
+finely marbled with wavy lines; and the light brown hind wings give a
+metallic sheen.</p>
+
+  <div class="figcenter" id="fig129">
+     <img
+    class="p1"
+    src="images/fig129.jpg"
+     alt="">
+     </div>
+
+  <div class="figcenter" id="fig130" style="max-width: 410px">
+     <img
+    class="p1"
+    src="images/fig130.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Figs. 129</b> and <b>130</b>.—The Climbing-Cutworm
+or American Army-worm.</p>
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>129. <i>Leucania unipuncta</i> (Horvath).</li>
+  <li>130. <i>Leucania unipuncta</i>, Larva.</li>
+</ul>
+</div>
+     </div>
+
+<p><i>Leucania unipuncta</i> is one of the most destructive caterpillars
+found in North America, where it is known as the “Army worm,” devouring
+crops, grass, and garden stuff. Though the moth has been known<span class="pagenum" id="Page_265">[265]</span> for
+many years in Australia it was not until 1903–4 that it was observed as
+a plague caterpillar, attacking crops and grass nearly all over Eastern
+Australia. The caterpillars, 1¼ inches long, are dull olive green with
+light stripes down the back and sides. The moth measures 1½ inches
+across the wings, which are of a uniform reddish fawn colour finely
+speckled with little black scales.</p>
+
+<p>The “Boll Worm,” or “Maize Moth,” <i>Heliothis armigera</i>, is another
+cosmopolitan cut-worm which does a great deal of damage to cotton bolls
+and maize; is common in the pea crops, and also damages tomatoes. The
+moth measures about 1 inch across the wings; the fore pair are greyish
+yellow with purplish-brown tints, but are very variable in colouration;
+the hind wings are silvery grey with the apical portions dark brown;
+the latter pair are constant in their markings.</p>
+
+<p>The handsome little moths belonging to the Genus <i>Thalpochares</i>
+are remarkable for their curious plump naked larvae, which feed upon
+different kinds of scale insects, at the same time covering themselves
+with a portable cocoon composed of fragments of the coccids matted
+together with silken strands. <i>Thalpochares coccophaga</i> is a
+pretty creamy winged moth with the basal portion shaded with brown and
+reddish tints, and measures about ¾ of an inch across the wings. The
+larvae feed upon a number of different insects native to the bush,
+and have lately been of some economic value in destroying olive scale
+(<i>Lecanium oleae</i>) in the orchards. Several other species have
+been described with identical habits. <i>Earias fabia</i> is a pest
+of the cotton plant; I have bred numbers obtained in the cotton bolls
+growing at the Hawkesbury College, N.S.W.; the larva is a slender dull
+green grub, which when full grown forms a stout, oval, light brown,
+felted cocoon attached to the dead foliage. The moth is slightly over
+one inch across the wings, which are of a uniform pale yellow colour,
+each with a greenish bar in the centre; the hind pair are lighter. In
+forming such a well-made cocoon this moth seems out of place in the
+Noctuids; and Lower says in his Catalogue, “that some writers refer
+this moth to the <span class="smcap">Bombycina</span>.” Westwood and Swinhoe place it in
+the <span class="smcap">Tortricidae</span>.</p>
+
+<p>The Genus <i>Hadena</i> contains a number of Australian species rather
+more abundant in Tasmania than the mainland; it is another cosmopolitan
+group, found in Europe and America. <i>Hadena expulsa</i>, slightly
+over 1 inch across the wings, has the fore pair of a general grey tint,
+mottled with brown; the hind pair are darkest towards the apex and are
+fringed on the margin with fine white down.</p>
+
+<p><span class="pagenum" id="Page_266">[266]</span></p>
+
+  <div class="figcenter" id="fig131" style="max-width: 356px">
+     <img
+    class="p1"
+    src="images/fig131.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 131.</b>—The Grey-Cutworm Moth.</p>
+     <p class="p0 smaller center"><i>Mamestra ewingii</i> (Westw.).</p>
+     </div>
+
+<p><i>Mamestra ewingii</i> is typical of another large world wide genus.
+Its larvae are among our most destructive cut-worms to crops and grass:
+it is a pale slate-coloured moth, marked with short parallel lines
+of a darker tint on the tips of the wings. <i>Spodoptera exempta</i>
+was figured in the Agricultural Gazette 1898 under the name of
+<i>Phlegetona carbo</i>. It is one of our climbing cut-worms, and in
+that year the caterpillars swarmed all over the Camden and South Coast
+districts of N.S. Wales. They are very active grubs, olive green to
+almost black in colour, striped on the sides with fine yellow lines;
+and when full grown measure 1½ inches in length. The moth is under 1½
+inches across the wings; is of a general dark brown tint, indistinctly
+mottled all over the fore wings with yellowish or sometimes silvery
+grey scales; the hind wings are silvery and semitransparent.</p>
+
+<p><i>Prodenia littoralis</i> is a handsome moth of about the same
+dimensions as the last; the fore wings are dark brown finely striped
+and pencilled with grey lines; the hind pair pearly white. The moth
+often lays her eggs upon the foliage of apple and other trees; the
+young on hatching out feed upon the foliage but afterwards make their
+way to the ground. <i>Plusia verticillata</i> is a species that feeds
+upon the foliage of peas, beans, and potatoes; the slender pale
+green grub differs from the typical “cut-worm” in moving about like
+a “looper,” and when full grown pupates in a flimsy silken cocoon it
+spins upon the under surface of the leaf. The moth, measuring 1½ inches
+across the wings, has the fore pair brown tinted with mauve, marbled
+with a coppery tint, and with two elongate oval spots of silvery white
+scales in the centre of each, and fine lines behind; the hind wings
+are dark brown fringed with grey down. <i>Plusia argentifera</i> is a
+smaller form with a silvery mark in the centre of each fore wing. The
+handsome dark brown caterpillar of <i>Calogramma festiva</i>, which
+was figured by Donovan in his “Insects of New Holland,” feeds upon
+the foliage of the Crinea lilies; they are sometimes plentiful in the
+Botanic Gardens. This moth measures 1½ inches across the wings,<span class="pagenum" id="Page_267">[267]</span> and is
+of a uniform pale creamy-yellow colour, thickly mottled on the base of
+the wings with red and black.</p>
+
+<p>We now come to a curious allied group, the <span class="smcap">Ophiderinae</span>, the
+members of which are known as the “Orange-piercing moths”; they are
+large handsome insects with the head and thorax thickly clothed with
+scales forming a regular crest, and furnished with a proboscis which,
+pointed and barbed at the tip, enables them to thrust it through the
+rind of oranges and other ripe fruit and suck up the juice. Tryon
+has figured and written an interesting account of these moths in the
+Queensland Agricultural Journal Vol. ii. 1898.</p>
+
+  <div class="figcenter" id="fig132" style="max-width: 432px">
+     <img
+    class="p1"
+    src="images/fig132.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 132.</b>—Life History of the Bean Moth,
+<i>Plusia verticillata</i> (Guérin).</p>
+     <p class="p0 smaller center">Showing the half looper form of the caterpillar, and the loose silken
+cocoon of the pupa.</p>
+     </div>
+
+<p><i>Maenas salaminia</i> measures 3½ inches across the wings; the fore
+pair are bright olive green, with a broad stripe of creamy white along
+the anterior margins; the hind wings are an orange yellow colour, and
+each with the margin and centre black. The thorax is bright olive
+green, and the abdomen of an orange yellow colour. It ranges from the
+northern parts of New South Wales to North Queensland, and at Cairns
+I used to capture them at night with a net and bull’s-eye lantern, as
+they hovered round bunches of ripe bananas hanging under the house.
+<i>Othreis fullonica</i>, slightly larger than the last, has the
+fore wings mottled<span class="pagenum" id="Page_268">[268]</span> with grey and brown among the olive green; the
+body and hind wings are of the same rich orange colour as the former
+species, with smaller black markings on the hind margins. This species
+ranges from Queensland to Africa, India, Ceylon, and the New Hebrides.
+<i>Argadesa materna</i> is about the same size, but has lighter
+coloured fore wings, and further distinguished by a much smaller black
+spot in the centre of each hind wing. The caterpillars of these moths
+are large handsome cylindrical creatures with the body humped up at the
+eleventh segment, and two large spots like eyes on either side of the
+body. They feed upon several different creepers in the scrub.</p>
+
+<p>The <span class="smcap">Erebidae</span> contains a number of large dark brown moths often
+curiously mottled with zig-zag lines running round the wings, and a
+dull coloured eye-spot in the centre of each fore wing. Several species
+are common in Australia; they often come into the house at night and
+will be found resting on the ceiling in the morning. One of the largest
+moths known, the great owl moth of Brazil, measuring a foot across the
+wings, belongs to this family. <i>Dasypodia selenophora</i> measures 3
+inches across the wings, and is of a uniform pale chocolate brown tint;
+the outer margins of the wings are finely crenulated and spotted with
+white; the centre of each fore wing has a large irregular eye-spot of
+black, mauve and orange tints. It ranges from Australia to Tasmania and
+New Zealand. <i>D. cymatoides</i>, about the same size, is of a much
+darker brown colour, with less distinct eye-spots, a black transverse
+band behind each white one, and the whole of the inner surface thickly
+covered with zig-zag wavy lines. This species ranges from Sydney to
+North Queensland.</p>
+
+<p><i>Sericea spectans</i> is a slightly larger moth not unlike the last,
+but a little darker, with the transverse band thicker and more blurred,
+and with an eye-spot on each hind as well as each fore wing.</p>
+
+<p class="p2 smaller center">Plate XXVI.—LEPIDOPTERA.</p>
+
+<p class="center smaller">Family Ophiderinae.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>1. <i>Moenas (Ophideres) salaminia</i> (Fabr.).</li>
+  <li>2. <i>Othreis fullonica</i> (Linn.). ♂.</li>
+  <li>4. <i>Othreis fullonica</i> (Linn.). ♀.</li>
+</ul>
+</div>
+
+<p class="center smaller">Family <span class="smcap">Noctuina</span>.</p>
+
+<p class="center smaller">3. <i>Sericea spectans</i> (Guérin).</p>
+
+<p class="center smaller">(Original photo. Burton.)]</p>
+
+  <div class="figcenter" id="plate26">
+     <p class="p1 sm center"><i>Plate XXVI.—LEPIDOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate26.jpg"
+    alt="">
+  </div>
+
+<hr class="r25">
+
+<h4>Family 15. Leaf Rollers.<br>
+<span class="subhed">PYRALIDAE.</span></h4>
+
+<p>These moths are a very interesting division of the smaller lepidoptera
+on account of the habits of their larvae, which live upon the foliage
+of different plants in small communities, matting and drawing the
+leaves together with silken strands and feeding under the shelter thus
+constructed; when ready to pupate they usually curl the remains of
+one of the half-devoured leaves into a flimsy cocoon with a little
+<span class="pagenum" id="Page_269">[269]</span>silk, from which the moth emerges later on in the season.</p>
+
+<p>The majority of these moths are small and unattractive; at the same
+time we have some brightly green and yellow tinted species of medium
+size. The caterpillars are slender naked larvae, often green marked
+with black spots and a few scattered hairs; they are very active and
+drop to the ground whenever disturbed.</p>
+
+<p>These moths are easily separated by specialists from the preceding
+groups by the structure of the nervures of the hind wings. Several
+specialists have undertaken their classification: Meyrick (Trans. Ent.
+Soc. London 1890) placed them as a group containing 8 families: Ragonet
+(Ann. Ent. Soc. France 1890), while restricting them to 2 families,
+made 17 smaller divisions which he called tribes: Lower, who partly
+follows Meyrick, gives 13 families in his “Catalogue”; I simply deal
+with them here as a group, describing a number of typical forms with
+their life histories.</p>
+
+  <div class="figcenter" id="fig133" style="max-width: 418px">
+     <img
+    class="p1"
+    src="images/fig133.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 133.</b>—The Common Flour Moth.</p>
+     <p class="p0 smaller center"><i>Asopia farinalis</i> (Linn.).</p>
+     </div>
+
+<p><i>Margarodes vertonalis</i> is a handsome bright green moth, with
+the margins of the outer edges of both pairs of wings marked with
+dark reddish brown; it measures about 1½ inches across the wings. The
+caterpillars, about an inch in length, are bright green mottled with
+black; the head shining reddish brown. My specimens were collected in
+the Botanical Gardens, Sydney, at the end of January; they were matting
+the tips of the branches of one of the ornamental shrubs (<i>Ochrosia
+moorei</i>) into irregular rounded masses. They pupated a week later
+and emerged before the end of the month.</p>
+
+<p><span class="pagenum" id="Page_270">[270]</span></p>
+
+<p><i>Sceliodes cordalis</i>, measuring slightly over 1 inch across the
+wings, is of a uniform creamy tint; the whole of the fore wings are
+mottled with light brown, the tips blotched with the same colour; and
+the hind pair more spotted; my specimens were bred from the foliage of
+the egg plant.</p>
+
+<p><i>Asopia farinalis</i> is the well known “meal moth” common, in most
+parts of the world; the caterpillars feed upon all kinds of corn, bran,
+pollard, and flour; it mats its food particles together with a silken
+web into a tube in which it hides. The moth is often found upon the
+walls of feed houses, mills, &amp;c., and sometimes comes into the light at
+night. It measures 1 inch across the wings, and has a ground colour of
+yellow buff to dull greyish yellow, blotched with a darker tint at the
+base and tip, the latter marbled with grey; the hind wings are silvery.
+<i>Zinckenia recurvalis</i> is a common little moth about Sydney; it is
+under 1 inch across the wings, which are of a dark brown tint, with a
+white bar traversing the centre of each wing, and with a second white
+spot on each fore wing towards the tip. The caterpillars are sometimes
+found destructive to salt-bush hedges about Sydney by stripping off the
+foliage and causing the bushes to die back.</p>
+
+  <div class="figcenter" id="fig134" style="max-width: 523px">
+     <img
+    class="p1"
+    src="images/fig134.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 134.</b>—<i>Notarcha clytalis</i> (Walker).</p>
+     <p class="p0 smaller center">The Kurrajong Leaf Roller.</p>
+     </div>
+
+<p><i>Notarcha clytalis</i> is a bright yellow moth with an irregular wavy
+line of black crossing the outer portions of the wings, and another
+shorter band near the base of each fore wing. The gregarious<span class="pagenum" id="Page_271">[271]</span> larvae
+are green spotted with black; they roll the leaves on the terminal
+branches of the Kurrajong into regular slender masses up to a foot
+or more in length, in which they finally pupate. It has a wide range
+over the country, rendering these handsome trees very unsightly when
+numerous. The larvae of <i>Godara comalis</i> is a greenish yellow
+caterpillar barred with lighter yellow at the back of each segment, and
+lightly clothed with long brown hairs; it feeds upon the leaves of the
+horse radish and turnip. The moth measures 1 inch across the wings; the
+fore pair are buff irregularly mottled with dark brown; the hind wings
+of a uniform silvery white with a brown patch at the apical margin.</p>
+
+  <div class="figcenter" id="fig135" style="max-width: 267px">
+     <img
+    class="p1"
+    src="images/fig135.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 135.</b>—Nest of <i>Notarcha clytalis</i>
+(Walker).</p>
+     <p class="p0 smaller center">Showing how the caterpillars roll up the foliage.</p>
+     </div>
+
+  <div class="figcenter" id="fig136" style="max-width: 470px">
+     <img
+    class="p1"
+    src="images/fig136.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 136.</b>—<i>Godara comalis</i> (Guérin).</p>
+     <p class="p0 smaller center">The caterpillar of which webs the leaves of the horseradish.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+  <div class="figcenter" id="fig137" style="max-width: 542px">
+     <img
+    class="p1"
+    src="images/fig137.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 137.</b>—<i>Cognogethes punctiferalis</i> (Guérin).</p>
+     <p class="p0 smaller center">The Northern Peach Moth, with damaged peach.</p>
+     </div>
+
+<p><i>Mecyna polygonalis</i> defoliates the tree lucerne (<i>Citysus
+prolifera</i>); I have also bred it from broom bushes in gardens at
+Armidale, N.S.W., and on a native bush (<i>Templetonia</i>) in the
+western plains, so that it has a wide range: Mr. Lyell tells me it is
+very destructive to the foliage<span class="pagenum" id="Page_272">[272]</span> of willows in some parts of Victoria.
+The caterpillars are slender light green creatures spotted with black
+and white shaded with yellow on the sides; when full grown they spin a
+loose silken cocoon. The moth is slightly under 1½ inches across the
+wings; the fore pair are light brown, and the hind pair each blackish
+brown round the outer portion and bright yellow in the centre. The
+two introduced bee moths, <i>Achraea grisella</i> and <i>Galleria
+melonella</i>, belong to a division of this family: the moths lay their
+eggs about the hive, the grubs crawl in and feed upon the wax which
+they mat together with silken web, and if overlooked they<span class="pagenum" id="Page_273">[273]</span> destroy the
+whole of the hive; in the days of the old-fashioned hives they were a
+great source of trouble to bee-keepers, but now with well constructed
+bar-hives they are easily checked. The first named is of a uniform
+brown colour with the fore wings rounded; the second has the wings
+arcuate behind and irregularly mottled.</p>
+
+<p><i>Aphomia latro</i> measures about 1½ inches across its slender
+somewhat pointed fore wings; is of a general buff colour shot with fine
+black spots, and divided down the centre of the fore wings with a broad
+dull white parallel stripe; the hind wings silvery grey. The larvae
+live in small communities feeding upon and matting together the scape
+of the flower stalk of the grass trees, in which they pupate within an
+elongate white silken cocoon.</p>
+
+  <div class="figcenter" id="fig138" style="max-width: 398px">
+     <img
+    class="p1"
+    src="images/fig138.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 138.</b>—<i>Mecyna polygonalis</i> (Hubner).</p>
+     <p class="p0 smaller center">The Native Broom Bush Moth.</p>
+     </div>
+
+<p>The Peach Moth, <i>Conogethes punctiferalis</i>, is a bright yellow
+moth thickly mottled with black spots. The larvae attack peaches when
+ripening, eating and webbing the surface and pupating on the side of
+the stone. It is common in the northern districts of N.S.W.</p>
+
+<p>The “Mediterranean Flour Moth,” <i>Ephestia kuhniella</i>, though not
+an Australian moth, is worthy of note, for it is widely distributed
+over the country, and causes a lot of annoyance by the bad habits of
+its larvae of webbing the<span class="pagenum" id="Page_274">[274]</span> flour into masses with its silken strands.
+Another cosmopolitan moth, <i>Plodia interpunctella</i>, is known in
+America as the “Indian Meal Moth,” though it feeds upon all kinds of
+dried foods; it is a much smaller moth of a general brown tint, the
+apical portion of the wings much darker than the basal part. This moth
+also is very common in Australia.</p>
+
+<hr class="r25">
+
+<h4>Family 16. Bell Moths.<br>
+<span class="subhed">TORTRICIDAE.</span></h4>
+
+<p>These moths have slender bodies; short generally broad fore wings,
+truncate at the extremities; the hind pair also broad; and when they
+are at rest during the day time their wings are folded flat down. The
+costal margins of the fore wings are much rounded when the wings are
+folded, giving a general bell shaped form; from which these moths take
+their popular name. They are sometimes called “leaf twisters” or “leaf
+rollers,” but differ from the true gregarious leaf roller caterpillars
+in seldom matting a number of the leaves together. The caterpillars
+also feed upon seeds.</p>
+
+  <div class="figcenter" id="fig139" style="max-width: 461px">
+     <img
+    class="p1"
+    src="images/fig139.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 139.</b>—<i>Cacaecia postvittana</i> (Walker).</p>
+     <p class="p0 smaller center">The light-brown Apple Moth.</p>
+     </div>
+
+<p>The members of the Genus <i>Cacaecia</i> are interesting insects
+because several have been found attacking fruit in orchards: <i>C.
+postvittana</i>, was recorded by Olliff gnawing in apples like a codlin
+moth. It measures ¾ of an inch across the wings; is of a general
+dull yellow marked with brown, but its colour<span class="pagenum" id="Page_275">[275]</span> and markings are very
+variable. It has a wide range over Tasmania and the eastern coast
+of the mainland into Queensland; and about Sydney the caterpillars
+feed upon half a dozen different common native shrubs. French in his
+Handbook of the Destructive Insects of Victoria Pt. I. 1891 has named
+and figured one, <i>C. responsana</i>, the “Light Brown Apple Moth,”
+as an apple pest in Victoria; this is probably <i>C. postvittana</i>.
+<i>C. Australasiae</i> is a larger species of a dark brown colour;
+the fore wings are lightly mottled or marbled. <i>C. lythrodana</i>
+is a smaller, similar coloured moth, but the colouration is finer.
+<i>Paramorpha aquilina</i> is a tiny, creamy-grey moth not quite ½
+an inch across the wings: in its native state it frequents damp or
+marshy ground, flying low among the herbage. The larva is a short, pale
+green grub that, in several of the orange growing districts, attacks
+the ripening oranges; boring through the skin, it feeds upon the pith
+between the rind and flesh, where it finally pupates and causes the
+orange to turn yellow and drop off.</p>
+
+  <div class="figcenter" id="fig140" style="max-width: 443px">
+     <img
+    class="p1"
+    src="images/fig140.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 140.</b>-<i>Paramorpha aquilina</i> (Meyrick).</p>
+     <p class="p0 smaller center">The Orange-skin Borer.</p>
+     </div>
+
+  <div class="figcenter" id="fig141" style="max-width: 574px">
+     <img
+    class="p1"
+    src="images/fig141.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 141.</b>—Life history of the Lucerne Leaf
+Roller, <i>Tortrix glaphyriana</i> (Meyrick).</p>
+     </div>
+
+<p>The Lucerne Moth, <i>Tortrix glaphyriana</i>, is a small, dark yellow
+moth about ½ an inch across the wings; the fore pair are light buff
+with a silvery tint, blotched with irregular patches of dark brown.
+The caterpillars are dark green with scattered white hairs on the
+segments; they are a regular pest in lucerne paddocks in<span class="pagenum" id="Page_276">[276]</span> the Hunter
+River district, N.S. Wales, feeding upon the lucerne tops and drawing
+them together with silken threads. <i>Arotrophora ombrodelta</i> is a
+handsome little moth which I bred out of the seed pods of <i>Acacia
+farnesiana</i> growing near Lismore, N.S.W.; the yellowish brown
+caterpillar has a pink stripe down the back, and each segment is
+spotted with green; they devour the seeds and then pupate inside the
+pod close to the hole, through which the pupa works its head just
+before the moth is ready to emerge; the anal segments being ringed with
+fine spines enable it to screw right out of the hard pod, so that the
+moth is not damaged. The moth, under 1 inch across the wings, has the
+fore pair chocolate brown, mottled and darkest at the tips; the hind
+pair are brown. Meyrick says that the larva of another species feeds
+enclosed in a short, stiff, silken tube among the leaves of <i>Lomantia
+silarfolia</i>; and a third feeds in the flower cone of our common
+honeysuckle (<i>Banksia serrata</i>). The Codlin Moth, <i>Carpocapsa
+pomonella</i>, the world-wide pest to apple growers, is found in most
+parts of Australia; but though the reddish tinted caterpillar is
+universally known, there are a great many orchardists who do not know
+the moth, though it is easily recognised from all other species<span class="pagenum" id="Page_277">[277]</span> by the
+copper coloured blotch on the apical portion of the fore-wings.</p>
+
+  <div class="figcenter" id="fig142" style="max-width: 465px">
+     <img
+    class="p1"
+    src="images/fig142.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 142.</b>—<i>Cryptophaga unipunctata</i> (Donovan).</p>
+     <p class="p0 smaller center">The Cherry-stem Borer, showing the larva.</p>
+     </div>
+
+<p>We now come to an anomalous group, whose exact place in the
+classification of Lepidoptera has puzzled entomologists, but
+which is usually placed at the end of this family. These are the
+<span class="smcap">Cryptophaginae</span>, whose larvae, naked, slender caterpillars,
+live in shallow chambers or short tunnels in the branches of the
+smaller forest trees. They cover the entrance to their burrow with a
+screen of loose silken web covered with gnawed bark and droppings.
+Resting during the day, they come out at night and, biting off some of
+the leaves, drag them down into the burrow (the ends often sticking out
+through the web) to feed on at their<span class="pagenum" id="Page_278">[278]</span> leisure. When full grown they
+pupate within the burrow. <i>C. unipunctata</i> is a very handsome
+satiny white moth about 1½ inches across the wings; the fore pair each
+have a single black dot in the centre; the abdomen is black fringed
+with yellow hairs forming a tuft at the extremity. In its native state
+the caterpillars feed upon the branches of our common honeysuckle
+(<i>Banksia serrata</i>), but have a very great liking for the branches
+of cherry trees in the orchards; where neglected, they often kill
+large branches by their attacks. <i>C. irrorata</i> is a larger moth,
+measuring up to 2 inches across the wings, the fore pair being very
+broad and square at the extremities; they are of a uniform greyish
+brown, slightly mottled with a darker pattern round the outer margins;
+the hind pair are silvery brown fringed round the edges. The larva
+feeds on the stems of <i>Casuarina</i>. <i>C. rubriginosa</i> is nearly
+as large as the last; the fore wings are reddish brown. There is a
+salmon tint on the thorax extending on to the base of the fore wings;
+the hind wings are brownish yellow. The larvae feed in the stems and
+branches of several species of <i>Acacia</i>.</p>
+
+<hr class="r25">
+
+<h4>Family 17. Grain and Clothes Moths.<br>
+<span class="subhed">MICRO-LEPIDOPTERA.</span></h4>
+
+<p>In concluding the Lepidoptera I place these families, often grouped
+together under the comprehensive term <i>Micro-lepidoptera</i>, in the
+above division. Most of these moths are small, but the group is very
+important in that it contains some of the most destructive pests of
+grain, cloth, &amp;c., and they are world-wide in their range. Meyrick has
+made a special study of these moths, and has classified and described
+an immense number in a series of papers in the Proc. Linn. Soc. N.S.W.
+1878–1904.</p>
+
+<p>The larvae of the different groups are usually slender naked grubs with
+a few scattered hairs, and are sometimes legless; but others again have
+from 14 to 18 pairs of legs. They feed upon all kinds of material,
+sometimes forming tubular cells out of their food, while others move
+about quite freely. The moths may be obtained by beating or shaking
+bushes, or breeding them from the material among which they feed.</p>
+
+<p>The Family <span class="smcap">Oecophoridae</span> is the most extensive in Australia;
+in his first paper on the group in 1883, Meyrick estimated that over
+2,000 species would be discovered, and later in 1889 he had actually
+described 756 species, most of them new. The Genus <i>Philobota</i>
+contains 105 described species,<span class="pagenum" id="Page_279">[279]</span> many of them handsome brightly marked
+little moths. <i>P. arabella</i>, slightly over ¾ of an inch across the
+wings, is of a general greyish brown tint, with the central portions
+of the fore pair pale yellow edged with brown forming wedge-shaped
+patches. <i>P. catascia</i>, slightly larger, has the fore-wings
+silvery white, slightly clouded; the hind ones dull yellow in the
+centre fringed with light brown. <i>P. productella</i> a little
+smaller, is all silvery white, with yellowish tints in the hind pair;
+and <i>P. agnesella</i> is a larger silvery one with a narrow irregular
+dark stripe along the centre of each fore wing from the base to the
+apex. <i>P. gascialis</i>, a very different larger winged form, has the
+fore pair dark orange yellow, each with a broad brown blotch through
+the centre, and tip dark brown; the hind pair dull brown fringed with
+fine plumes. <i>Macrobatha platychroa</i> is under ½ an inch across
+the wings; the fore pair are marked with alternate bars of white and
+black, and the hind pair greyish brown. <i>Heliocausta hemitelis</i>,
+about twice the size, has the fore wings yellow, tipped and blotched
+with purplish brown, the blotch on each hind margin angular; the hind
+wings brown. <i>Zonopetala decisiana</i>, under ½ an inch across the
+wings, has the fore pair white, each with a large brown blotch across
+the centre, and others at the tip, and with a band of the same colour
+across the thorax; the hind wings light buff and fringed with hairs.
+The caterpillar of <i>Ocystola hemicalypta</i> constructs a protective
+covering about as thick and long as a large wax match out of a section
+of a gum twig, in which it lives and feeds after hollowing it out like
+a tube; these curious cocoons are not uncommon in the bush on the
+leaves of eucalypts.</p>
+
+<p>The <span class="smcap">Gelechiadae</span> is another large family recently revised by
+Meyrick (Pro. Linn. Soc. N.S.W. 1904); he says that these moths are not
+so numerous as in Europe, but as they are such small, inconspicuous
+insects there are probably a great number still to be discovered. He
+describes 274 species, of which 207 are new, and 85 of which belong
+to the Genus <i>Protolechia</i>. Several species that infest grain
+belong to this group: <i>Gelechia simplicella</i>, a tiny little brown
+moth, has pointed slender wings, the fore pair nearly black, with a
+very distinctive irregular white bar across each apical half. Meyrick
+has placed it in the Genus <i>Anacampsis</i>; it has a wide range over
+Tasmania and Australia: I have bred it from the foliage of Soy beans,
+which the larvae matted together and seriously damaged. <i>Sitotroga
+cerealella</i> is a tiny yellowish brown moth with pointed wings. It
+has a wide range round the Australian coast, and has been introduced
+from Europe or America with corn upon which the larvae feed. It is
+known as the “Angoumois Grain Moth”<span class="pagenum" id="Page_280">[280]</span> from the province of that name in
+France, where in 1760 it swarmed over the country and nearly caused a
+famine. I have bred it from wheat at Bingara N.S.W.</p>
+
+  <div class="figcenter" id="fig143" style="max-width: 441px">
+     <img
+    class="p1"
+    src="images/fig143.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 143.</b>—<i>Gelechia simplicella</i> (Walker).</p>
+     <p class="p0 smaller center">The Soy-bean Moth.</p>
+     </div>
+
+<p>The <span class="smcap">Elachistidae</span> were described and revised by Meyrick (Pro.
+Linn. Soc. N.S.W. 1897), who lists 254 species, most of which were
+new. He says: “The species of this family are almost all small and
+therefore often neglected by collectors. Larva with 10 prolegs seldom
+almost apodal, usually mining in leaves, or amongst seeds or in stems,
+sometimes case-bearing, rarely amongst spun leaves.”</p>
+
+  <div class="figcenter" id="fig144" style="max-width: 444px">
+     <img
+    class="p1"
+    src="images/fig144.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 144.</b>—<i>Batrachedra sparsella</i> (Walker).</p>
+     <p class="p0 smaller center">The larva of which constructs a web amongst, and feeds on, scale
+insects.</p>
+     </div>
+
+<p>The larvae of the members of the Genus <i>Batrachedra</i>, according to
+Meyrick, feed usually upon seeds. <i>B. arenosella</i>, a small dull
+pale yellow moth with spotted fore wings and grey hind ones, is common
+over Australia, Tasmania, and New Zealand. The larvae web the seeds and
+stalks of sedges together, and form a cocoon among the seeds. I have
+bred a species of <i>Batrachedra</i>, <i>B. sparsella</i>, Walk., but
+can find no record of this species in Meyrick’s list. The larva of this
+moth spins a web on the trunks of trees that<span class="pagenum" id="Page_281">[281]</span> are infested with scale
+insects which they devour, finally forming an elongate cocoon attached
+to the bark; in the orchard they destroy white louse on oranges, and
+San Jose scale on peach trees. <i>Strathmopoda melanochra</i>, a little
+brown moth, has the fore wings dull white with metallic reflections and
+darker markings; the wings are very finely fringed on the hind margins.</p>
+
+<p>The Family <span class="smcap">Plutellidae</span> contains one very destructive little
+pest in the Diamond-backed Cabbage Moth, <i>Plutella cruciferarum</i>;
+the slender green larvae gnaw holes in the leaves and pupate in
+net-like cocoons on the foliage. It has a world-wide range and is very
+common in Australia.</p>
+
+<p>The Family <span class="smcap">Tineidae</span>, containing the clothes moths, is
+defined by Meyrick (Proc. Linn. Soc. N.S.W. 1892) as the rough-headed
+<i>Tineina</i>, with the palpi strongly developed in front of the
+head, and the hind wings usually as broad as the fore wings, sometimes
+narrower but seldom broader. Larva with 16 legs, or legs wanting.</p>
+
+<p>The Genus <i>Xystmatodoma</i> contains 29 species, of which <i>X.
+guildingi</i> is a typical form described by Scott in his “Australian
+Lepidoptera”; it is a slender-winged dull brown moth, the larva of
+which crawls about in a stout silken sack like that of an immature
+case moth, and feeds upon low scrub. <i>Scardia australasialla</i>
+is a handsome little moth, which is figured in Donovan’s “Insects
+of New Holland”; it measures about 1¼ inches across the wings; the
+fore pair are dull brown but so thickly covered with shining white
+to pale yellow spots that it looks very brilliant; the hind pair are
+brown fringed with long plumes. <i>Blabophanes ethelella</i> is about
+¾ of an inch across the wings; the fore pair are dark brown finely
+spotted with white and some have a comparatively large white dot
+in the centre of each wing, the hind margin also edged with white;
+the hind pair light brown. The Genus <i>Tinea</i> is represented by
+a number of both native and introduced species. The common clothes
+moth, <i>Tinea pellionella</i>, is too well known to need description;
+it is world-wide in its range, and lays its eggs upon clothes on
+which the larvae feed and finally use particles to construct their
+cocoons. <i>T. tapetzella</i> feeds among furs and skins. <i>Tineola
+biselliella</i> is a third cosmopolitan species of clothes moth.
+<i>Tinea fuscipunctella</i> feeds upon dried animal matter, refuse
+and such like; it also is world wide in its range. Among our native
+species, <i>T. nectaria</i> is under ½ an inch across the wings; the
+fore pair have the basal two thirds silvery yellow with the tips black;
+the hind pair dull yellow darkest at the tips. Meyrick says that these
+larvae make cases out of eucalyptus leaves, but my specimens were bred
+out of blister-like excrescences or galls upon the leaves of a shrub in
+the<span class="pagenum" id="Page_282">[282]</span> Botanic Gardens Sydney. <i>Thudaca obliquella</i>, about 1 inch
+across the wings, is a beautiful little silvery white moth, with the
+fore wings deep yellow thickly marked with parallel and transverse bars
+of silvery white; the hind pair broad, silvery, lightly clouded, and
+fringed behind with long plumes.</p>
+
+<p>The <span class="smcap">Epipyropidae</span> comprise a small group of moths that have
+been raised to the rank of a family by Perkins (Bulletin I. part 2,
+“Leaf Hoppers and their Natural Enemies,” Hawaii 1905), though it would
+probably be more correct to place them as a sub-family of the Tineidae.
+Sharp (Cambridge Natural History: Insects part II.) places them in
+the <i>Limacodidae</i>. They are small black, grey or brown moths,
+with small eyes; no ocelli; the palpi wanting or very minute, and the
+mouth parts little developed. They have remarkable parasitic habits in
+the caterpillar state living upon the backs of different leaf hoppers
+(<i>Homoptera</i>) and feeding upon the waxy or sugary secretions
+discharged by their hosts. Perkins describes 7 new Australian species,
+which are placed in three genera, based on the neuration of the wings.
+Three species come from Cairns, N. Queensland, and four from the
+neighbourhood of Sydney. <i>Heteropsyche melanochroma</i> measures
+under ½ an inch across the outspread wings and is of a general black or
+fuscous colour with purple tints on the fore wings. Koebele records it
+as common about Sydney, parasitic upon a number of different Fulgorids
+and Jassids.</p>
+
+<p>Rothschild (Novitates Zoologicae 1906) has named another species,
+<i>Epipyrops doddi</i>, after the well known collector, P. F. Dodd, who
+had worked out its life history in North Queensland.</p>
+
+  <div class="figcenter" id="fig145" style="max-width: 463px">
+     <img
+    class="p1"
+    src="images/fig145.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 145.</b>—<i>Plodia interpunctella</i> (Hubner).</p>
+     </div>
+
+<hr class="chap x-ebookmaker-drop">
+
+<div class="chapter">
+<p><span class="pagenum" id="Page_283">[283]</span></p>
+
+<h2>Order VII.—DIPTERA.<br>
+<span class="subhed">Flies.</span></h2></div>
+
+
+<p>House flies are well known to everyone; but as a number of other
+insects belonging to different orders are often called flies, such
+as “saw-flies,” which are Hymenoptera, and “lace-winged flies” and
+“May-flies,” which are Neuroptera, it is advisable to define them.
+Some of the Diptera might be mistaken by a casual observer for
+Hymenoptera which the members of several families often mimic in form
+and colouration, but they can be readily separated by the absence of
+a second pair of wings, which are represented by two little clubbed
+processes, known as balancers, poisers, or halteres. The mouth parts
+are very variable in structure in the different groups, but always
+adapted for piercing or sucking; the eyes are large, often occupying
+the greater part of the head and consisting of an immense number of
+fine facets; the small ocelli are three in number; and the antennae,
+except among midges, are short, composed of few joints, and often
+terminate in a bristle.</p>
+
+<p>The thorax is not so distinctly divided into the three segments
+as in some other insects, nor the parts so well defined as in the
+hymenoptera; the wings, transparent or parchment-like, are seldom
+coloured; the legs, usually not thickened, are furnished with five
+tarsi, and well developed claws, with a small pad under each, known
+as the pulvillus. The abdomen is composed of a variable number of
+segments ranging from four to nine, but in the former case though
+not visible the terminal ones are probably absorbed into the anal
+tube at the extremity. Most diptera are brown, black, or grey, though
+metallic tints predominate in some families; and are clothed with short
+scattered hairs or bristles.</p>
+
+<p>The typical fly larva is an elongated legless maggot with the head
+portion slender, enclosing a pair of black retractile hooked jaws,
+with tracheae opening behind and running through to the broadened anal
+segment where they form small rosette-like processes round the external
+aperture. The eggs are laid in all kinds of decaying vegetable or
+animal matter, with the exception of the few that produce galls, or
+otherwise damage plant tissue; when full grown they change into a hard
+shell-like chrysalis, the tip of which is pushed off by the perfect fly
+when ready to emerge.</p>
+
+<p>Though this country is very rich in Diptera and many<span class="pagenum" id="Page_284">[284]</span> cosmopolitan
+species have been introduced such as the house flies, they have been
+much neglected by Australian collectors and entomologists. The Diptera
+are divided into two large sections, which are further subdivided
+into four main groups, to which a fifth has been lately added for the
+reception of the fleas, which however are often placed by specialists
+in a class by themselves (<i>Siphonaptera</i>). The older writers
+subdivided them into about 70 families but latterly these have been
+reduced, and most of our species will come under about 30 families, of
+which I can only note our most striking representatives.</p>
+
+<p>In 1830 the French naturalist Robineau Desvoidy published his “Essai
+sur les Myodaires,” in which some of our species were described.
+Between the years 1834 and 1835 Macquart brought out his “Histoire
+naturelle des Insectes Diptères” (forming part of the great French
+work Suites à Buffon), followed (1838–42) by his “Diptères exotiques,
+nouveaux ou peu connus” comprising two volumes and many plates,
+with 5 supplements (1846–55). Walker between 1848 and 1855 compiled
+a “Catalogue of the Diptera of the British Museum” consisting of 7
+volumes; and others are described in his “Diptera Saundersiana” 1856.</p>
+
+<p>In 1864 Dr. Schiner estimated that the number of described Australian
+Diptera was 1056, including those which he described (Diptera des
+Novara), collected by Frauenfeld in the neighbourhood of Sydney during
+the visit of the Austrian Frigate. In a long series of papers reaching
+from 1859 till just before his death in 1892 Bigot described a great
+many species (among them some from Australia) chiefly in the Annales de
+la Societé Entomologique de France.</p>
+
+<p>The only systematic Australian work is Skuse’s “Monograph of the
+Australian Diptera” (Pro. Linn. Soc. N.S.W. 1888–90), which however was
+never completed, dealing only with the <span class="smcap">Nematocera</span> comprising
+the Culicidae, Tipulidae, Cecidomyidae and some of the smaller
+families. There is no complete catalogue of Australian Diptera, but
+I have been greatly assisted in my work on this family through the
+identification of my specimens by Mr. Coquillett of Washington.</p>
+
+<p><span class="pagenum" id="Page_285">[285]</span></p>
+
+<hr class="r25">
+
+<h4>Family 1. Gall-Gnats.<br>
+<span class="subhed">CECIDOMYIDAE.</span></h4>
+
+<p>This is an extensive family of small delicate midges with long slender
+antennae composed of many bead-like segments beautifully feathered with
+whorls of hairs. The abdomen is stout at the base, short and tapering
+to the tip; the legs are long and slender without spurs; the wings are
+clothed with fine hairs that easily rub off, and furnished with very
+few longitudinal veins, and in some genera only one cross nervure.</p>
+
+<p>They are known as “Gall-gnats,” or “Gall-flies,” and though the habits
+of the larvae are very diverse, some living under bark, others in
+animal matter, and a few predaceous or even cannibalistic in their
+habits, the majority of them are found in plant tissue and produce
+malformations or regular well defined galls, often of very remarkable
+structure, upon the foliage or twigs of their food plant.</p>
+
+<p>The egg is deposited in or under the bark, epidermis of the leaf,
+or frequently in the flower buds of plants, the irritation caused
+by the active larvae producing the aborted tissue. These larvae are
+very easily recognised if examined with a lens after they have been
+extracted from the gall, as they are furnished with a “breast bone,”
+an anchor shaped process that stands out very distinctly in the centre
+of the ventral surface and is unknown in the larvae of any other
+gall-producing insect.</p>
+
+<p>Through the discovery of Wagner, a Russian entomologist, that the larva
+of a Cecidomyia produced young; also through the curious exudations of
+the larvae and pupae of others which are sometimes called “flax seed”
+from their shape; and the very destructive habits of several species
+which damage the wheat, like the Hessian Fly in America, this family
+has received a great deal of attention. Over 1,000 species have been
+described from all parts of the world, and Australia is particularly
+rich in these insects. Skuse (Pro. Linn. Soc. N.S.W. 1888 and 1890) has
+described over 100 species and figured some of the most peculiar galls.</p>
+
+<p><i>Cecidomyia frauenfeldi</i> was named by Dr. Schiner after the
+naturalist who collected the galls on <i>Leptospermum</i> in the
+vicinity of Manly, N.S. Wales. These galls are produced upon a leaf-bud
+and consist of a number of rounded leaf-like bracts, not unlike the
+petals of a rose bud; folding over each other, brown in colour,
+soft and loose, and about the shape and size of a small marble. The
+enfolded larva will<span class="pagenum" id="Page_286">[286]</span> be found in the base at the centre, and the gnats
+can be easily bred out in a glass jar. The Acacia Gall-gnat, <i>C.
+acaciae-longifoliae</i>, infests the flowers of this wattle, depositing
+its eggs in such numbers that every tiny seed-pod is produced into a
+contorted mass of finger-like tubes, together forming a rounded base
+attached by a stalk, and each tube containing a larva. This is one of
+our commonest species and the galls can often be collected in numbers
+in the neighbourhood of Sydney.</p>
+
+<p><i>Diplosis frenelae</i> produces very remarkable little light brown
+spherical structures upon the tips of the foliage of the desert
+cypress, about the size of small peas; these when mature split into
+four shell-like sections, quite unlike the usual gall. They are very
+abundant in the early summer upon cypresses in Wagga and the western
+pine scrubs of N.S. Wales. <i>Diplosis paralis</i> forms curious little
+blisters upon the young foliage of <i>Eucalyptus corymbosa</i>, dotting
+the leaves all over with reddish spots with a keyhole-like mark on the
+apex. A third species, <i>D. eucalypti</i>, aborts the young twigs of
+Eucalypts into gouty swellings in which a number of larvae feed and
+pupate.</p>
+
+<p>There are certain red rounded shot-like galls of the Eucalyptus,
+generally several in number on the midrib of the leaf, which, on
+account of the pupal skins always remaining in the holes in the
+sides of the galls through which the flies have escaped, can be
+easily distinguished from many very similar ones that are the work
+of micro-hymenoptera. These are formed by a large stout gnat named
+<i>Hormomyia omalanthi</i> by Skuse, who first obtained specimens from
+galls on the under side of the leaves of <i>Omalanthus populifolius</i>.</p>
+
+<p><i>Lasioptera miscella</i> aborts the leaf stalks of <i>Eucalyptus
+haemastoma</i>, one of our white stemmed gums growing about Botany,
+N.S.W., with its irregular swellings.</p>
+
+<p>I have also bred several undetermined species from galls on the twigs
+of the Weeping Myall, <i>Acacia pendula</i>, and other wattles in the
+western scrubs. There is a rich field awaiting the naturalist who takes
+up the study of the life-history of our Gall-gnats.</p>
+
+<p>Though the Hessian Fly, <i>Cecidomyia destructor</i>, is not known in
+Australia it has been introduced into New Zealand, and in the United
+States of America is one of the most serious pests that the wheat
+farmers have to fight. This gnat deposits her eggs under the sheath
+of the growing wheat stalks; the larva sucks up the sap, so that the
+ear is impoverished and no grain forms in the head; and when they are
+numerous the greater part of the crop is destroyed.</p>
+
+<p><span class="pagenum" id="Page_287">[287]</span></p>
+
+<hr class="r25">
+
+<h4>Family 2. Shade Midges.<br>
+<span class="subhed">MYCETOPHILIDAE.</span></h4>
+
+<p>These small flies, popularly known as “Midges,” are placed by Skuse
+in four well defined families, which I place under the one heading as
+their habits are very similar.</p>
+
+<p>The <span class="smcap">Sciaridae</span> are the typical “Shade midges” infesting forest
+country; their larvae live under dead bark or decomposing leaves and
+are slender, cylindrical, semi-translucent maggots, white or pale
+yellow in colour, with the body composed of 13 segments including the
+head. The perfect insects have moderately long, curved, many jointed
+antennae; two ocelli; long slender legs; and the wings often clouded.
+Skuse has described 42 species in this group, all of which with one
+exception he placed in the typical Genus <i>Sciara</i>; these have the
+wings longer than the abdomen, the surface of them microscopically
+pubescent, and the wing-lobes more or less developed.</p>
+
+<p>The <span class="smcap">Mycetophilidae</span> are popularly known as “Fungus-midges” from
+the fact that the larvae, which are slender white maggots attenuated at
+both extremities, and with horny heads, are often found feeding upon
+the juices of fungi; some spin silken webs under which they live, and
+a few are said to be luminous. They are small flies with beautifully
+marked wings in many species, and have slender antennae; 3 ocelli;
+and a short proboscis; the rather long legs have the coxae elongated
+and are furnished with spurs upon the tibiae; the wings, without a
+discoidal cell, have more veins than those of the Gall-gnats. Walker
+described 4 species (Insecta Saundersiana 1856); to which Skuse added
+31 new species. <i>Lyomya setiosicaudata</i> was described by Skuse
+from the neighbourhood of Sydney in the Genus <i>Acrodicrania</i>, but
+it has an extended range: I have taken it with a sweeping net about
+Inverell N.S. Wales. It measures about ⅙ of an inch in length; has a
+shining head and thorax; abdomen black, and variegated black and yellow
+legs.</p>
+
+<p>The <span class="smcap">Simulidae</span> contains a number of small Diptera abundant
+in Europe and America, where they are known as “Sand-flies,”
+“Black-flies,” or “Buffalo-gnats”; they swarm in the marshy lands of
+the Mississippi where Howard says, “They rival the mosquito in their
+blood-thirsty tendencies, and not only do they attack human-beings,
+but poultry and domestic animals are frequently killed by them.” We
+are fortunate in having very few of these pests; only one species was
+discovered by Skuse, who named it <i>Simulium furiosum</i>, and<span class="pagenum" id="Page_288">[288]</span> says
+it is a rare fly only found in the Gosford district N.S. Wales. These
+flies must not be confounded with the midges known in Australia as
+“Sand-flies,” which are very different insects belonging to the Genus
+<i>Ceratopogon</i>, of the Family Chironomidae.</p>
+
+<p>The <span class="smcap">Bibionidae</span> are medium sized flies with thickset bodies
+somewhat hairy; smoky wings; robust legs; short antennae; and three
+ocelli. The females deposit their eggs in dung or vegetable matter,
+and the maggots have rows of transverse bristles on the segments; and
+traces of eyes can be found in the head segment. The perfect flies
+are sluggish in their movements and are commonly found upon flowers.
+Twelve species have been described from Australia, of which <i>Bibio
+imitator</i> is our commonest species; it is very abundant in the early
+summer upon the flower heads of <i>Astrotricha floccosa</i>, which
+grows in most of the valleys round Sydney; it has a wide range from
+Tasmania northwards in similar forest country. The male is under ½ an
+inch in length and is of a uniform black tint, with the thorax dull
+red; while the larger female is of a uniform reddish brown, and both
+sexes have the typical dark clouded wings.</p>
+
+<p>The South American Genus <i>Plecia</i> is represented by four species,
+two of which I collected in North Queensland. The North American
+Genus <i>Scatopse</i>, the larvae of which breed in all kinds of
+decaying matter and in sewers, is represented by two species, of which
+<i>Scatopse fenestralis</i> is so common about Sydney that Skuse says:
+“In the spring months it is scarcely possible to find a window without
+one or two specimens, while I have frequently seen hundreds swarming on
+the inside of shop windows in the city.”</p>
+
+<hr class="r25">
+
+<h4>Family 3. Mosquitoes.<br>
+<span class="subhed">CULICIDAE.</span></h4>
+
+<p>No insect pests are better known or more world wide in their
+distribution than mosquitoes. As might be expected, they are abundant
+in tropical countries, yet one would hardly expect them to be much of
+an annoyance in the temperate regions. Yet in Lapland, and even farther
+north, they worry the inhabitants and the reindeer all through their
+brief summer.</p>
+
+<p class="p2 smaller center">Plate XXVII.—DIPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Culciidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>1. <i>Culex fatigens</i> (Wiedermann). Larva.</li>
+  <li>2. <i>Culex fatigens</i> (Wiedermann). ♀.</li>
+  <li>3. <i>Culex fatigens</i> (Wiedermann). Wing.</li>
+  <li>4. <i>Anopheles annulipes</i> (Walker). ♀.</li>
+  <li>5. <i>Anopheles annulipes</i> (Walker). Wing.</li>
+</ul>
+</div>
+
+  <div class="figcenter" id="plate27">
+     <p class="p1 sm center"><i>Plate XXVII.—DIPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate27.jpg"
+    alt="">
+  </div>
+
+<p>They are insects with long slender legs; delicate narrow wings folded
+down over an elongate body; the head is provided<span class="pagenum" id="Page_289">[289]</span> with a proboscis
+projecting below. The proboscis is adapted for sucking blood, though
+many of the bush species seldom or never taste blood and obtain their
+nutriment from the sap or moisture upon plants. The male mosquito
+is a more delicate creature than the female, furnished with plumose
+antennae; he does not bite, but hides away in dark sheltered corners
+taking no food in his short life of four or five days, but has a
+low droning hum, noticeable when a number are disturbed. The larger
+females on the other hand swarm into the house, and bite whenever
+they get the chance. She lays her eggs in little boat shaped masses
+of elongate eggs, which within 24 hours give birth to larvae that
+are often called water-fleas or “wrigglers.” Thread-like in form at
+first, the “wriggler” has a rounded ciliate head, and the tip of the
+body is provided with a pair of tubular breathing appendages. They
+move about with a series of jerks, always coming to the surface head
+downward; they increase in size rapidly and in seven or eight days are
+full grown, when they change into pupae, the creatures becoming quite
+different; the head and thorax are drawn up into a rounded mass with
+two trumpet shaped horns, which are its new breathing tubes, rising
+upon the sides. The abdominal segments are short and turn downward;
+and though it does wriggle slightly, it usually rests in an upright
+position floating close to the surface; it remains in this state for
+two or three days, when the pupal skin splits along the top of the
+head, and the perfect insect emerges, using the floating skin as a raft
+from which to rise into the air and fly away.</p>
+
+<p>Only 9 species of mosquitoes had been described from Australia when
+Skuse commenced his work on these insects in the Macleay Museum
+Collections (Pro. Linn. Soc. N.S.W. 1889), where he listed all the
+known species and added 19 new ones. Since then Theobald, in his
+“Monograph of the Culicidae of the World” 1900–1903, with a great deal
+more material to study, revised the genera, made several of Skuse’s
+species synonymous, and described others, bringing our list to about 34
+species.</p>
+
+<p>The typical Genus <i>Culex</i> contains 21 species scattered all over
+Australia; several are cosmopolitan and have been introduced from
+abroad. Our common house mosquito, that appears in the early summer,
+is <i>Culex albo-annulatus</i>, a moderate sized species with the
+reddish thorax densely clothed with brownish golden scales, traversed
+by five very fine lines; it has regularly white banded legs. It was
+described by Macquart in 1732, and ranges from Southern Queensland to
+Sydney, Mittagong, and the Blue Mountains N.S.W. <i>Culex fatigans</i>
+is widely distributed over Australia: <i>C. macleayi</i> and <i>C.
+skusei</i> according to Theobald are only sub-species<span class="pagenum" id="Page_290">[290]</span> or varieties;
+it is one of the cosmopolitan mosquitoes also found in America, Africa
+and Asia, and was probably introduced into this country in the water
+tanks of the old sailing vessels many years ago. After New Year a
+smaller, darker mosquito is the most annoying about Sydney; this has
+been described by Theobald under the name of <i>Culex marinus</i>; its
+larvae were discovered by Dr. Bancroft, Queensland, breeding in salt
+water. It also flourishes freely in any stagnant water left in tanks,
+buckets, or water-holes, and has a wide range down our eastern coast.</p>
+
+<p>Four species of the Genus <i>Anopheles</i> are found in Australia;
+these insects have long palpi with clubbed or spatulate tips, and dark
+spotted wings. <i>Anopheles annulipes</i>, described by Walker, said to
+be identical with Skuse’s <i>A. musivus</i>, is found about Sydney and
+Newcastle N.S.W. ranging northward; the members of this genus are well
+known as the mosquitoes that transmit the germs of malarial fever, and
+have a wide range over the world. The important results that have come
+from the study of the relation of tropical fevers to mosquito bites,
+have led to the collection and description of these insects from all
+quarters of the globe. <i>Mucidus alternans</i>, one of our largest
+species, is thickly clothed with grey and light brown scales and hairs
+which give it a striking appearance. It is a day flying species famous
+for its biting powers; it has a wide range; in the Maitland district
+N.S.W. about the Hexham swamps it is locally known as the “Hexham
+Grey”; in Queensland it is sometimes called the “Scotch Grey.” I have
+also taken it at Bourke on the Darling River N.S.W. Skuse described
+this species as <i>Culex hispidosus</i>, but Westwood’s name, <i>C.
+alternans</i>, has a prior claim.</p>
+
+<p><i>Stegomyia notoscriptus</i> is one of the small dark mosquitoes that
+bite so sharply just at dusk in our gardens around Sydney in midsummer,
+and has a wide range from Adelaide S.A. to Queensland. It belongs to
+the same genus as the dreaded Cuban Yellow-fever Mosquito, <i>Stegomyia
+fasciata</i>, which has been introduced into Hawaii. Theobald has in
+the last volume of his Monograph formed a new Genus <i>Skusea</i> for
+the reception of two Queensland species and a third from Africa.</p>
+
+<p><span class="pagenum" id="Page_291">[291]</span></p>
+
+<hr class="r25">
+
+<h4>Family 4. Sand-flies.<br>
+<span class="subhed">CHIRONOMIDAE.</span></h4>
+
+<p>This group comprises a number of small flies which have the head
+furnished with a fleshy proboscis; the slender antennae adorned with
+fine hairs, thickest upon the male; and the ocelli wanting. Their wings
+are usually narrow; and many of the large species have the general
+appearance of mosquitoes.</p>
+
+<p>The members of this family are very extensive and world-wide in their
+range; the larvae of the typical Genus <i>Chironomus</i> live chiefly
+in stagnant water. They sometimes swarm in such numbers in the North
+American lakes that they form the chief food of the fresh-water fish.
+In England on account of their colour they are known as “blood-worms.”
+Some species live in salt water, and others breed in excrement and
+dung. The perfect insects are easily collected with a sweeping net in
+the vicinity of swamps and watercourses.</p>
+
+<p>Skuse has described 64 species from Australia (Pro. Linn. Soc. N.S.W.
+1889), previous to which only 8 species, described by Messrs. Walker
+and Macquart, had been recorded. The family is divided into a number
+of genera, of which <i>Chironomus</i> includes 21 species of the more
+typical slender-bodied midges, and the Genus <i>Ceratopogon</i> 17
+species of our vicious “Sand-flies.” These pests are also found in
+Great Britain and in North America, ranging as far south as Chili.</p>
+
+<p><i>Ceratopogon molestes</i>, described by Skuse, is our common
+“Sand-fly,” though there are others probably quite as annoying if not
+so abundant. It is a tiny little dark coloured midge, so quiet and
+small that it is usually felt before it is seen. There is another very
+large grey “Sand-fly” I have met with in the interior of N.S. Wales on
+the Darling River that frequents grassy watercourses and flies straight
+at the hands or face like a wasp.</p>
+
+<p>It has been reported from Central Queensland that after the great flood
+and abundant growth of grass (1905) the sand-flies increased in such
+numbers, that they caused the blindness and death of a great number of
+marsupials, through biting them in the eyes.</p>
+
+<p><span class="pagenum" id="Page_292">[292]</span></p>
+
+<hr class="r25">
+
+<h4>Family 5. Crane-flies.<br>
+<span class="subhed">TIPULIDAE.</span></h4>
+
+<p>The Crane-flies or Daddy-longlegs are a large family with long slender
+legs, from which they take their popular names, and might be described
+as exaggerated mosquitoes that do not bite. They have the usual small
+head and long thread-like antennae (in some groups the latter are
+clothed with long hairs, in others short and feathered); in most
+species the ocelli are wanting. The thorax has a V-shaped transverse
+suture, and the well developed wings have a complete venation. They
+are to be found in all situations among low scrub, but prefer the
+shelter of cliffs, or tree trunks in damp gullies, often resting in
+considerable numbers in retired spots during the day, where they can
+easily be captured. They require to be killed and mounted in the place
+of capture to secure good specimens, as their legs drop off very
+readily, and on this account are not a popular group with the ordinary
+collector. The larvae live in the ground or among decaying vegetable
+matter.</p>
+
+<p>They are divided into two large groups, characterised by the
+possession of long or short palpi, the <i>Tipulidae brevipalpi</i> and
+<i>Tipulidae longipalpi</i>; about 20 species had been recorded from
+Australia when Skuse’s Monograph, “Diptera of Australia Pt. VII.” (Pro.
+Linn. Soc. N.S.W. 1889) appeared; in this he added over 80 new species.</p>
+
+<p>The Painted Crane-fly, <i>Gynoplistia bella</i>, described by Walker
+in 1835, is one of our commonest species, frequenting flowers and low
+scrub in the early summer months. It is a very distinctly marked black
+and orange yellow fly, the wings thickly barred and mottled with the
+former colour; and is one of the short-legged species. It has a wide
+range from Western Australia and Tasmania to N.S. Wales; the genus is
+represented by 17 described species in Australia.</p>
+
+<p>The Long-horned Crane-fly, <i>Macromastix costalis</i>, has a wide
+range from Tasmania to Queensland. In the neighbourhood of Sydney they
+are commonly found resting among the low scrub. It has a uniform dull
+brown tint with clear transparent wings, striped along the front margin
+with dull brown, and can be easily recognised from its large size, with
+the long slender antennae three times the length of the wings in the
+male, and its curious darting flight when disturbed. It was described
+by Swederus as <i>Tipula costalis</i> in 1787, and has been renamed
+half a dozen times since. <i>Clytocosmus helmsi</i> was described by
+Skuse from specimens obtained at Mt. Kosciusko; it is a large handsome
+fly with<span class="pagenum" id="Page_293">[293]</span> the stout thickened abdomen black, and bordered or mottled
+along the segments with white; the wings are semitransparent shaded
+with yellow; the head and thorax are reddish yellow.</p>
+
+<p>The Genus <i>Semnotes</i> contains two very large and handsome
+crane-flies, both of which were originally described by Westwood. They
+are giants of the family, with a large thorax, and swollen abdomen
+narrowed slightly into a waist, coming out broad and rounded to the
+tip; the general colour is bright yellow mottled with black, with
+semitransparent wings. <i>Semnotes ducalis</i> has dark markings on
+the wing, and is the rarer species. It is recorded by Westwood from
+North Australia, and by Skuse from Manly, N.S.W. <i>S. imperatoria</i>
+is found in Victoria, about Sydney and the Blue Mountains N.S.W.; it
+is slightly larger than the former, and can be easily distinguished by
+the very long tarsi, the plain wings, and the different markings on the
+body.</p>
+
+<hr class="r25">
+
+<h4>Family 6. Soldier Flies.<br>
+<span class="subhed">STRATIOMYIDAE.</span></h4>
+
+<p>These are flat-bodied flies with narrow strongly veined wings;
+3-jointed antennae; and the pronotum furnished with slender spines.
+Comstock has called them “Soldier Flies” on account of the bright
+coloured stripes with which many species are marked. The larvae of most
+of these flies live in decaying vegetable matter, but some are known to
+be carnivorous in their habits.</p>
+
+<p><i>Neoexaireta spinigera</i> is one of our commonest species, often to
+be found in the early summer months resting on the window pane with
+its broad hind legs flattened out; it is very easily captured. It is
+a slender shining black fly about 1 inch in length, with banded legs;
+the sides of the body fringed with white hairs, and the apical half
+of the wings clouded with black enclosing a small white blotch; the
+pronotum is furnished with four slender spines standing out from the
+hind margin. The larvae are usually found under damp rotting bark or
+decaying vegetable matter, and are elongate flattened brownish and
+distinctly segmented creatures, with narrow horny heads standing out
+in front like a stalk; they are sluggish creatures with very little
+movement. I figured and described a species (doubtfully) under the name
+of <i>Ephippium albitarsis</i> in my “Entomology of the Grass-trees”
+(Pro. Linn. Soc. N.S.W. 1896) with somewhat similar larvae breeding
+in the decaying stems of these trees.<span class="pagenum" id="Page_294">[294]</span> The little black fly measures
+about ⅓ of an inch in length; it has white tarsi and dusky wings; the
+pronotum has the usual short spine on either side; and the legs are
+stout. <i>Odontomyia stylata</i> is an elongate, broad, flattened,
+bronzy green fly with the outer edges of the abdomen light green; and
+the long pointed wings are folded down over the back; the head is very
+broad; the rounded thorax is long, furnished with two small spines
+behind the pronotum, and the abdomen is broadly rounded at the tip. It
+is a common rather large fly about ½ an inch in length, usually found
+resting on foliage in damp places. It has a wide range over Australia.
+In other parts of the world these flies are numerous, and about 1,000
+species of the family have been described.</p>
+
+<hr class="r25">
+
+<h4>Family 7. March Flies.<br>
+<span class="subhed">TABANIDAE.</span></h4>
+
+<p>These flies are large or moderate sized insects, with broad heads
+furnished with a fleshy proboscis well adapted for biting; the
+4-jointed antennae stand out in front of the head and do not terminate
+in a bristle; in the male the large eyes meet in front, but in the
+female are separated; the wings are large, often long, and well adapted
+for flight; the legs moderately stout; and the abdomen long, broad, and
+somewhat flattened.</p>
+
+<p>They are common in the early summer months in open forest country,
+and are popularly known in Australia as “March Flies”; in England and
+America they usually go under the name of “Horse or Gad Flies,” and are
+a great pest to both man and horse; they are so persistent in their
+endeavours to bite and suck up blood that they are very easily captured
+with the hand.</p>
+
+<p>The larvae of <span class="smcap">Tabanidae</span> live in damp earth, or are found in
+water; they are carnivorous, feeding upon larvae and pond snails.
+The flies deposit their eggs in bunches on herbage or low shrubs.
+These flies are very interesting from an economic point of view, for
+they are said to be sometimes responsible for outbreaks of anthrax
+by introducing the bacillus when biting. Some years ago an outbreak
+of malignant pustules on cattle in New Caledonia was said to have
+been traced to an undetermined species of <i>Pangonia</i> (Megnin and
+Germain, Bulletin Soc. Ent. France Vol. viii. ser. 5).</p>
+
+<p>The Genus <i>Pangonia</i> is well represented in this country by<span class="pagenum" id="Page_295">[295]</span> many
+large handsome flies that differ from the typical <i>Tabanus</i> in
+having ocelli, and the third joint of the antennae elongate instead
+of compressed. <i>Pangonia guttata</i> was figured by Donovan in his
+“Insects of New Holland”; it measures over 1 inch in length, and is
+broad in proportion; its general colour is black, clothed with little
+tufts of white downy hairs fringing the thorax in front of the wings,
+and forming a band round the outer edge, with similar spots down the
+centre of the abdominal segments; the under-surface is variegated
+with longer white and black hairs, and the wings are clouded with
+black. This large handsome fly is common in the coastal forests,
+usually found resting on tree trunks in the heat of the day. <i>P.
+rufovittata</i> is a smaller more showy insect of a dull yellow colour.
+The eyes, parallel markings on the thorax, and broad transverse bands
+on the abdomen of black, the alternate abdominal bands of beautiful
+golden hairs, together with the yellow clouded wings, give it a very
+striking appearance; it also has a wide range over Australia, and is
+occasionally taken in the neighbourhood of Sydney. <i>P. auriflus</i>,
+about ½ an inch in length, also black, has the face, front of thorax,
+under-surface and outer margins of the abdomen clothed with silvery
+hairs, while the hind margin of the thorax, a blotch in the centre, and
+the tip of the abdomen are richly coloured with bright yellow hairs.
+<i>P. concolor</i>, a much larger fly, is of a uniform reddish brown
+colour, with black eyes, and mottled wings; <i>P. violacea</i> is a
+small bright metallic violet tinted insect not unlike a blue bottle
+fly, but is easily distinguished when the antennae are examined.</p>
+
+<p>The Genus <i>Tabanus</i> contains many of the typical “March Flies”:
+<i>Tabanus brevidentatus</i> measures ½ an inch in length; is of a
+uniform grey ash colour, with the hind edges of the abdominal segments
+barred with light brown. <i>T. edentulus</i> is a slightly larger,
+darker coloured fly with greyer bands on the body; it is common on
+the slopes of Mt. Kosciusko. <i>T. abstersus</i> is still larger and
+darker, but with the same general colour; the head and under-surface
+are clothed with white hairs; the wings clouded; the base and sides
+of the abdomen reddish brown with the dorsal surface barred with fine
+white hairs. <i>T. sanguinarius</i>, one of the largest species, is
+of a uniform reddish brown, with black eyes; the thorax tinted with
+yellow; and the wings clouded. It has a wide range over Queensland and
+N.S. Wales. <i>Silvius angusta</i> is like a very small specimen of
+<i>Tabanus brevidentatus</i>.</p>
+
+<p>The members of the small Family <span class="smcap">Leptidae</span> are distinguished
+from the preceding one, in having the third joint of the antennae
+simple and furnished with a bristle, and<span class="pagenum" id="Page_296">[296]</span> the tibiae spined. The
+curious looking larvae have the abdomen divided into two points at the
+tip; they live in pits like the ant-lions. <i>Leptis aequalis</i> is a
+greyish looking species about the size of a house fly, with the head
+composed of two large globular eyes touching in the centre; the legs
+are long; the wings smoky; the elongated abdomen rounded at the tip,
+and barred with black; the whole insect clothed with scattered hairs
+standing up thickly on the dorsal surface. These flies are very common
+flying over aphis infested wheat fields; my specimens come from Molong,
+N.S. Wales.</p>
+
+<hr class="r25">
+
+<h4>Family 8. Bee-flies.<br>
+<span class="subhed">BOMBYLIDAE.</span></h4>
+
+<p>These are popularly known as bee-flies, on account of their remarkable
+powers of flight, and hairy appearance. They are all more or less
+clothed with delicate downy hairs, furnished with 3 jointed antennae,
+and slender legs terminating in fine claws.</p>
+
+<p>They frequent flowers, hovering over them like bees; and many species
+have the wings richly marked with black. The life history of our
+species is but little known, but I have bred several out of the
+clay nests of wasps, and two out of lepidopterous pupae (<i>Agrotis
+sp.</i>). A European species is said to drop her eggs upon the
+clay nests of wasps; the newly hatched larva is furnished with a
+boring apparatus in front of its head by means of which it works its
+way through into the chamber; there it undergoes another stage of
+development and emerges from it with a simple sucking mouth to eat
+up the wasp larva. The larva of those attacking the “cut-worms,”
+<i>Agrotis</i>, devours the whole of the moth grub and pupates inside
+the chrysalid skin. The pupa is a very curious looking creature
+enclosed in a dark brown shining skin about ¾ of an inch long, with
+projecting spines on the head and extremity. The body is cylindrical
+with the first 7 segments furnished with a band of rasp-like spines or
+ridges on the dorsal surface, with which it moves round and round when
+touched. <i>Anthrax nigricosta</i> is a handsome little black fly, with
+the head, under surface of the body, and two bands across the abdomen
+fringed with white down. The wings are deeply marked with black on
+the front margin, widest at the base. It measures about ½ an inch in
+length, and comes from Queensland. <i>Comptosia albo-fasciata</i> is a
+large black fly shaded with fine reddish hairs on the dorsal<span class="pagenum" id="Page_297">[297]</span> surface
+of the body; the wings are brown, very long, with white tips; the body
+measures about ¾, and across the outspread wings 1½ inches. <i>Neuria
+quadripennis</i> is a much smaller, but somewhat similar looking fly,
+with the dorsal surface and margins of the body more hairy; each wing
+is darkly clouded, with the base light, and the tip white. Both these
+species are not uncommon in New South Wales.</p>
+
+<p><i>Acreotrichus gibbicornis</i> is a beautiful little black fly with
+brown eyes; not much over ¼ of an inch long; the elongate antennae and
+head are clothed with tufts of black and white down; the rest of the
+body is enveloped in long silvery white down. <i>A. fuscicornis</i>
+is of a rich violet black tint, a yellow line round the hind margin
+of the head, and a broader band round the dorsal margin of the thorax
+of a similar colour; the broad rounded abdomen is lightly banded with
+pubescence. These flies were taken in numbers hovering over the flowers
+of plum-trees in an orchard near Sydney.</p>
+
+<hr class="r25">
+
+<h4>Family 9. Bladder Flies.<br>
+<span class="subhed">ACROCERIDAE.</span></h4>
+
+<p>These are very curious looking flies with such very small round heads,
+that at first sight one would think that they were broken off; but on
+closer examination the little knobs in front will be found to consist
+of two large eyes joining together on the inner edge, with small, 2 or
+3 jointed antennae. Nothing is known about the larval habits of our
+species, but in Europe they are parasitic on spiders or their cocoons.</p>
+
+<p>The members of the Genus <i>Pterodontia</i> have the body inflated
+like a bladder; we have several species in Australia, generally found
+resting on twigs or tree trunks. <i>Pterodontia mellii</i> measures
+under ½ an inch in length; the thorax and body are swollen out like
+a bladder; it is of a general black colour, with a mark on the back,
+the fore legs, and a large blotch on either side of the body bright
+ochreous yellow; but the dark portions are thickly clothed with fine
+black downy hairs like a bumble bee. The wings on account of the
+swollen body look much smaller than they really are. I have specimens
+from Queensland, and Hunter River N.S.W., and they probably have a wide
+range.</p>
+
+<p><i>Panops flavipes</i> is a very curious looking fly from Moruya,
+N.S. Wales, measuring over ½ an inch in length; it is of a general
+dark bronzy black tint thickly clothed with fine<span class="pagenum" id="Page_298">[298]</span> down, silvery on
+the tip of the abdomen. The head is very small, black and shining,
+with the thickened cylindrical antennae standing out in front; the
+thorax, swollen out behind the head, has a large angular white patch
+on either side; the abdomen not quite as thick as the thorax is deeply
+corrugated. The wings have the front half deeply clouded and the hind
+portion transparent.</p>
+
+<p><i>Acrodes fumatus</i> is a much smaller species about ⅕ of an inch
+in length; the head and thorax are black; the bladder shaped abdomen
+is tawny yellow, with parallel stripes of black down the centre and
+sides, and transverse white bars at the apex of each segment. They were
+collected in numbers about Cook’s River, near Sydney.</p>
+
+<hr class="r25">
+
+<h4>Family 10. Mydas Flies.<br>
+<span class="subhed">MYDAIDAE.</span></h4>
+
+<p>These might be called “mimic flies,” because, with their large
+thickened antennae (often swollen out into a compressed club at the
+tips), their broad heads, elongated bodies, and bright variegated black
+and yellow markings, they can be very easily mistaken at first sight
+for Pompilid wasps. The mimicry is further emphasised by the thickened
+spined legs, and coloured wings.</p>
+
+<p>We have a number of species in Australia; they are allied to the
+“Robber-flies” which some of them resemble. The larvae of foreign
+species are predaceous, feeding upon the grubs of various wood-boring
+beetles.</p>
+
+<p><i>Mydas fulvipennis</i> has the greater part of the head, thorax,
+under surface of the abdomen, and thighs black; with the face,
+antennae, legs, wings and rest of the abdomen except two indistinct
+narrow bars, bright reddish yellow. It measures over ¾ of an inch in
+length, and is of the usual elongate robust form with long clubbed
+antennae and thickened legs. My specimens come from Southern Queensland.</p>
+
+<p class="p2 smaller center">Plate XXVIII.—DIPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Muscidae</span>.</p>
+
+<p class="center smaller">1. <i>Chaetogaster violacea</i> (Macq.).</p>
+
+<p class="center smaller">Family <span class="smcap">Tabanidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>&ensp;2. <i>Pangonia guttata</i> (Donov.).</li>
+  <li>&ensp;6. <i>Pangonia auriflus</i> (Donov.).</li>
+  <li>14. <i>Tabanus abstersus</i> (Walk.).</li>
+  <li>&ensp;7. <i>Lamprogaster laeta</i> (Guérin).</li>
+</ul>
+</div>
+
+<p class="center smaller">Family <span class="smcap">Asilidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>&ensp;3. <i>Asilis grandis</i> (Macq.).</li>
+  <li>&ensp;8. <i>Craspedia coriaria</i> (Wied.).</li>
+  <li>12. <i>Phellus glaucus</i> (Walk.).</li>
+  <li>13. <i>Blepharotes splendissima</i> (Wied.).</li>
+</ul>
+</div>
+
+<p class="center smaller">Family <span class="smcap">Diopsidae</span>.</p>
+
+<p class="center smaller">4. <i>Zygotricha sp.</i></p>
+
+<p class="center smaller">Family <span class="smcap">Bombylidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>&ensp;5. <i>Comptosia albo-fasciata</i> (Thomp.).</li>
+  <li>11. <i>Trichophthalma eques</i> (Sch.).</li>
+</ul>
+</div>
+
+<p class="center smaller">Family <span class="smcap">Dexiidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>&ensp;9. <i>Rutilia decora</i> (Guérin).</li>
+  <li>10. <i>Amphibolia fulvipes</i> (Guérin).</li>
+</ul>
+</div>
+
+<p class="center smaller">(Original photo. Burton.)]</p>
+
+  <div class="figcenter" id="plate28">
+     <p class="p1 sm center"><i>Plate XXVIII.—DIPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate28.jpg"
+    alt="">
+  </div>
+
+<hr class="r25">
+
+<h4>Family 11. Robber-flies.<br>
+<span class="subhed">ASILIDAE.</span></h4>
+
+<p>This group is well represented in Australia by some very large handsome
+robber-flies which attack and kill many insects larger than themselves,
+transfixing them with their <span class="pagenum" id="Page_299">[299]</span>horny bayonet-like proboscis. The
+large projecting eyes forming the greater part of the head are well
+separated from the thorax; the three jointed antennae stand out at
+an angle from each other; the legs are long, stout, and covered with
+stiff hairs well adapted for holding their prey; they have more or
+less clouded wings; and a slender, rather cylindrical body tapers to
+a blunt tip in the female, but in the male terminates in a pair of
+pincer-like processes. It is an extensive family, over 3,000 species
+being described from all parts of the world; they are very numerous in
+America, where one is a very serious pest to honey bees. Their larvae
+live in the ground and are predaceous, feeding upon the larvae of other
+insects, particularly those of beetles.</p>
+
+<p>The members of the Genus <i>Dasypogon</i> are small delicate flies that
+cling to grass stalks, and are easily taken with a sweeping net; they
+have the typical form of the family, and their slender bodies taper
+to a point. <i>Laphria diversipes</i> is a common insect about Sydney
+often taken on fences; it is slightly over ½ an inch in length; its
+general colour is black, with stout reddish brown legs variegated with
+black. The head is clothed with stiff grey hairs, the upper surface
+mottled with golden pubescence, and scattered black hairs. <i>Laphria
+rufifemorata</i> is a somewhat large insect from Queensland, with the
+abdomen of a deep metallic blue. <i>Leptogaster geniculatus</i> is a
+remarkably slender bodied fly, about the same length, found about the
+Blue Mountains N.S.W. The head is short but wide across; the thorax
+is oval, and the linear abdomen swells out slightly to the apex; the
+legs are long and slender, the hind pair with the thighs swollen in the
+centre. The general colour is shining black with the legs marked with
+white.</p>
+
+<p>The typical Genus <i>Asilis</i> contains some handsome flies generally
+met with in open forest country: <i>Asilis inglorius</i>, over 1 inch
+in length, has large black eyes; the front of the head is clothed with
+grey bristles; the thorax is olive green, marbled with grey pubescence,
+thickest on the ventral surface; the legs are red, the tarsi black; and
+the wings are clouded with yellow; the abdomen is much elongated to
+the pointed tip, reddish brown, the first 3 segments thickly clothed
+with long, pale, golden, downy hairs, and with the terminal segments
+covered with very short reddish brown hairs. <i>A. plicatus</i> is
+slightly larger, of a general greyish brown tint, with pale reddish
+brown markings on the thorax; the legs are darker brown; the abdomen is
+lightly clothed with fine scattered grey hairs. <i>A. fulvitarsus</i>
+is a much smaller species of a somewhat uniform buff tint, inclined to
+a golden tint on the lower portion of the abdomen;<span class="pagenum" id="Page_300">[300]</span> the face is clothed
+with grey and buff hairs, and the wings are light brown.</p>
+
+<p><i>Blepharotes splendidissma</i> is a very handsome fly with the
+abdomen flattened, broad, and almost heart shaped; it measures nearly
+1½ inches in length, and 2½ across the outspread wings. It is of
+a general black colour with the abdomen of a shining bronzy green
+tint; the face is clothed with yellow bristles; the thorax has grey
+pubescence on the sides, and the outer margins and tip of abdomen are
+fringed with tufts of yellow and black downy hairs. I have frequently
+captured it flying about in the Botanic Gardens, Sydney, in the early
+summer. <i>Phellus glaucus</i> is a very curious fly found in the
+interior of Western Australia; it measures nearly 2 inches from the
+front of the head to the tip of the wings; a great tuft of bright
+yellow hairs stand out in front of the head; it is thickly clothed on
+the under-surface of the head with pale yellow hairs; the legs are
+very stout and hairy, and clothed with black down marked with white
+and large yellow tufts on the hind legs. The abdomen is thickened,
+elongated and broadly rounded to the tip, of a uniform deep metallic
+blue tint, but so thickly clothed with short black down that its rich
+colour is somewhat obscured. <i>Craspedia coriaria</i> is one of our
+largest robber-flies, widely distributed all over the interior of the
+continent; its mouth is produced into a stout pointed awl-like process,
+with which it can pierce the integument of the stoutest insect, and
+it can be often seen flying along with its beak buried in the back of
+a large cockchafer beetle (<i>Anoplognathus</i>), and with its large
+legs clasping its victim as it sucks up its blood. Its general colour
+is black, with the broad, flattened, more elongate abdomen thickly
+clothed with short brick-red hairs; the legs and under surface are very
+hairy, with tufts of stiff black hairs fringing the outer edges of the
+abdominal segments. The wings are opaque and almost black, with an
+expanse of about 3 inches.</p>
+
+<p><i>Saropogon princeps</i>, described by Macquart, has a large reddish
+brown wasp-like form that at first sight might be easily mistaken for
+a Pompilid wasp. It measures 1½ inches in length, with a wing expanse
+of about 3 inches. The head, under-surface, centre of the thorax above,
+the basal segment, and two bands on the abdomen are black; the rest is
+dull red, with the hind margin of the wings hyaline. I have a specimen
+from Mittagong N.S. Wales. <i>Brachyrhopala ruficornis</i> comes from
+Mackay, Queensland, and has a very wasp-like appearance both in the
+colouration and shape of the body. It is under ½ an inch in length
+with the typical robber-fly head and spiny legs, but the abdomen is
+contracted into a cylindrical waist behind the thorax, rounded in the<span class="pagenum" id="Page_301">[301]</span>
+centre, and tapered to the tip. The head and thorax are almost black;
+the hind margin of the latter and legs are dull red; the abdomen is
+dull yellow with the basal segments marked with blackish brown, forming
+two almost confluent bands round the broad centre.</p>
+
+<hr class="r25">
+
+<h4>Family 12. False Robber-flies.<br>
+<span class="subhed">APIOCERIDAE.</span></h4>
+
+<p>These flies are of medium size not unlike <i>Muscidae</i>, with large
+elongated bodies, short antennae, and clear wings. This is a small
+family containing two genera, the species of which are peculiar to
+North America, Chili, and Australia.</p>
+
+<p><i>Apiocera bigotii</i>, described by Macquart, is about ¾ of an
+inch in length; it has a short head not so wide as the thorax, with
+a long projecting proboscis; the elongate broadly rounded thorax is
+truncated behind; the abdomen is broadest in front, rounded, and tapers
+to the tip, which terminates in a tuft of fine spines. The wings are
+somewhat iridescent with reddish veins; the general colour of the fly
+is a dull brown, with white hairs and silvery pubescence clothing the
+hind portion of the head and under-surface of the thorax, and also
+mottling the dorsal surface of the body with grey. Some specimens in my
+possession come from the Shoalhaven district. <i>Apiocera asilica</i>
+described by Westwood is a larger much darker insect, with black hairs
+on the upper surface and grey on the under surface; it ranges from
+Queensland to the Blue Mountains N.S.W.</p>
+
+<hr class="r25">
+
+<h4>Family 13. Big-eyed Flies.<br>
+<span class="subhed">PIPUNCULIDAE.</span></h4>
+
+<p>These are tiny little creatures with very large heads consisting almost
+entirely of two great hemispherical eyes. The short antenna terminates
+in a bristle.</p>
+
+<p>About 80 species had been described, chiefly from Europe, until Perkins
+published the descriptions of 26 species from Australia (Leaf Hoppers
+and their natural enemies Pt. iv. Pipunculidae) Hawaii 1905.</p>
+
+<p>They are remarkable for their habits in the larval state, being
+parasitic upon the larvae and pupae of frog-hoppers, chiefly Jassidae,
+particularly those Homoptera that have<span class="pagenum" id="Page_302">[302]</span> the tip of the abdomen clothed
+with waxy filaments. When full grown the dipterous larvae leave their
+host and bury themselves in the soil, where they pupate. Mr. Koebele
+allowed me to examine the collection he made of these little flies
+before they were described by Mr. Perkins. Many of these he reared from
+infested frog-hoppers in Queensland when studying sugar-cane pests.</p>
+
+<p><i>Pipunculus helluo</i> was observed swarming round the larvae of
+<i>Siphanta</i>, which were abundant on fig trees near Bundaberg
+Queensland; this species was also taken by Koebele near Sydney. <i>P.
+cinerascens</i> is remarkable in the larval form, as it does not fall
+to the ground and pupate in the soil, but forms its puparium upon the
+surface of the living leaves in the open. <i>P. cruciator</i> comes
+from the district of Cairns, N. Queensland.</p>
+
+<hr class="r25">
+
+<h4>Family 14. Hover Flies.<br>
+<span class="subhed">SYRPHIDAE.</span></h4>
+
+<p>Several species are well known and common in gardens, where they
+are popularly known under the name of “Bee” or “Hover Flies” from a
+way they have of poising, apparently motionless, over flowers and
+aphid-infested bushes, for the movement of their wings is so rapid as
+scarcely to be detected. The perfect flies, which among the carnivorous
+species have slender bodies more or less barred or banded with yellow,
+lay their eggs upon aphis-infested plants; the young larvae emerging
+from the white eggs feed exclusively upon aphids and plant lice; the
+full-grown larva is legless, very elongate in form, and has great
+powers for extending and contracting its abdominal segments, so that
+the body, from a rounded mass, can extend into a long and slender form.
+The full-grown larva pupates in an oval hard chrysalid which usually
+falls to the ground.</p>
+
+<p>The typical Genus <i>Syrphus</i> is well represented in Australia by
+several fine species, all of which are aphid eaters, and fly about
+in the bright sunshine but shelter among the foliage at other times;
+whenever aphis appear the syrphid flies soon follow, and I have seen
+them round the aphid-infested briar bushes in countless thousands.
+<i>Syrphus pusillus</i>, figured in the Agricultural Gazette N.S.W.
+1904 under the name of <i>Syrphus viridiceps</i>, is our commonest
+species found upon aphis-infested rose bushes, orchard trees, and
+wheat fields. It measures about ⅓ of an inch in length; has large
+reddish eyes, yellow face, and dull metallic green<span class="pagenum" id="Page_303">[303]</span> thorax with
+yellow scutellum; the darker abdomen is banded with three interrupted
+transverse yellow bands, and smaller marks on the apical segments.
+<i>S. viridiceps</i> is a more slender form, with a green face; the
+whole of the thorax is shining lead colour, with fine yellow bands on
+the abdomen; the legs are dark, and the whole fly is lightly clothed
+with fine hairs. Both these species may be taken on the same bush, and
+both have a very wide range over Australia.</p>
+
+  <div class="figcenter" id="fig146" style="max-width: 431px">
+     <img
+    class="p1"
+    src="images/fig146.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 146.</b>—<i>Syrphus viridiceps</i> (Macquart).</p>
+     <p class="p0 smaller center">A common Hover-fly that destroys rose and peach aphis.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>The Drone or Bee Fly, <i>Eristalis tenax</i>, is another common garden
+fly with a very wide range, and is an introduced European species.
+It measures over ½ an inch in length and is broad in proportion; the
+head and thorax are clothed with yellowish brown down, and the smooth
+shining abdomen is mottled with black and brown. The larvae are dirty
+white maggots with slender rat-tails at the tip of the body, and they
+live in all kinds of rotten or semi-liquid refuse.</p>
+
+<p><i>Helophilus bengalensis</i> is a smaller, robust fly with rounded
+eyes; the thorax is richly barred with parallel grey lines on the
+dorsal surface; and there are two large lunate yellow spots at the
+basal portion of the abdomen. The lower part of the abdomen tapers
+to a rounded tip and is clothed with yellow down. This fly was
+originally described from Bengal by Wiedemann; Schiner has reported
+it from Batavia; my specimens come from Queensland. <i>H. griseus</i>
+was described and its life history given in my “Entomology of
+the Grass-trees” (Pro. Linn. Soc. N.S.W. 1896) under the name of
+<i>Orthoprosopa nigra</i>. The larvae, elongate in form, with a<span class="pagenum" id="Page_304">[304]</span> short
+anal tubular tail, swarm in great numbers between the outer shell and
+the caudex of the dead rotting trunk of the grass-trees among the
+slime and water. They pupate in the damp earth in captivity, forming
+a light brown oval case with the remains of the larval tail shortened
+and retracted. This handsome black fly, over ½ an inch in length, has
+the face and antennae bright yellow; the dorsal surface clothed with
+fine black pubescence; the scutellum smooth and shining; the sides
+fringed with scattered grey hairs; and the wings clouded. There is a
+second species found in similar situations; the larvae have the typical
+slender rat-tails, and when they pupate transform the tail into a
+curved tubular process at the extremity of the chrysalis.</p>
+
+  <div class="figcenter" id="fig147" style="max-width: 258px">
+     <img
+    class="p1"
+    src="images/fig147.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 147.</b>—<i>Eristalis tenax</i> (Linn.).</p>
+     <p class="p0 smaller center">The Drone or Bee-fly; usually found upon flowers.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p><i>Sphiximorpha australis</i>, from Southern Queensland, is a very
+curious broad thickset black and yellow fly, with spatulate tipped
+antennae standing out in front of the two large eyes; the head is
+slightly larger than the thorax, which is stout and thickened; and the
+broad abdomen is rounded at the extremity. The general colour is black,
+with the face, three spots on the sides of the thorax, scutellum,
+apical portion of legs, and two bands on the abdomen rich yellow. The
+wings are clear, except a dark stripe along the front margin. This
+curious fly has a striking resemblance to some of the yellow banded
+mud-nest wasps (<i>Odynerus</i> and <i>Alastor</i>), but the reason for
+their bright colouration and abnormal shape is at present unknown.</p>
+
+<p><span class="pagenum" id="Page_305">[305]</span></p>
+
+<hr class="r25">
+
+<h4>Family 15. Wasp-flies.<br>
+<span class="subhed">CONOPIDAE.</span></h4>
+
+<p>These are handsome flies of moderate size, many of which are very
+wasp-like in the shape of the abdomen and in general colouration; they
+have the proboscis prolonged but usually drawn up and hidden; the
+3-jointed antennae inserted in front of the head are close together at
+the base, with the first joint very short. Comstock says that the larva
+of <i>Conops</i> is a soft whitish 11-jointed flask-shaped grub, with
+a long neck and mouth armed with lips and hooks (mandibles) and two
+lateral elevated plates supporting the two spiracles. It was found by
+Lachat and Audouin living in the body of a <i>Bombus</i>. Most of the
+members of this family are found as parasites upon different bees and
+wasps; the flies deposit their eggs upon the perfect insects; the larva
+bores into the abdomen, feeds upon the contents, and finally pupates in
+the shell of the body. They are considered by most writers to be allied
+to the <i>Syrphidae</i>.</p>
+
+<p>This is a small family in regard to numbers of species, but they
+are widely distributed: Van der Wulp lists 14 species of the Genus
+<i>Conops</i> from South Asia, including the Malay Archipelago (Cat.
+Described Diptera 1896), and others have since been described.</p>
+
+<p><i>Conops pica</i>, described by Macquart from Australia, is found in
+the Mittagong district, N.S.W. It is slightly over ¼ of an inch in
+length; has large lance-tipped antennae standing out in front; a large
+head; the abdomen very slender at the base swelling out to a broadly
+rounded tip, giving it a striking resemblance to the small “mud-nest
+wasps.” This resemblance is further borne out by its general dark brown
+colour marked and banded with yellow, which upon the abdomen forms two
+broad bands, a spot on the sides, and a large rounded blotch on the
+extreme tip; the legs are banded, and the wings are striped in front
+with brown.</p>
+
+<hr class="r25">
+
+<h4>Family 16. Fruit Flies, Leaf Mining Flies, &amp;c.<br>
+<span class="subhed">MUSCIDAE ACALYPTRATA.</span></h4>
+
+<p>Under this heading Sharp places a large division of closely related
+flies comprising 29 families, which he treats in a very brief manner;
+we have a large number of interesting species in some of these families
+that are worthy of<span class="pagenum" id="Page_306">[306]</span> notice, for some of them are very serious pests
+to the gardener and orchardist. Sharp says: “Taken collectively, they
+may be defined as small flies with 3-jointed antennae (frequently
+looking as if only 2-jointed) bearing a bristle that is not terminally
+placed; frequently either destitute of squamae or hairy, these
+imperfectly developed so as not to cover the halteres; and possessing
+a comparatively simple system of neuration, the chief nervures being
+straight, so that consequently few cells are formed.”</p>
+
+<p>The <span class="smcap">Diopsidae</span> comprise in the typical Genus <i>Diopsis</i>
+some very curious looking flies, rather slender in form, with narrow
+wings, and the sides of the head produced into an elongate stalk,
+at the tip of which is placed the rounded eye, reminding one of the
+stalk-eyed crabs. Westwood monographed this genus in the Transactions
+of the Linnean Society 1835, where he figured and described 21 species
+from Africa, India and Java. I have two very fine species from North
+Queensland, belonging to the Genus <i>Zygotricha</i>, and a number
+of allied forms placed in the Genus <i>Achias</i> by Van der Wulp
+(Catalogue of the Described Diptera from South Asia 1896) recorded from
+New Guinea. The Stalk-eyed fly, <i>Zygotricha sp.</i>, measures nearly
+½ an inch in length, with the eyes measuring over ¼ of an inch from tip
+to tip; its general colour is yellowish brown, the face bright yellow;
+eyes black; thorax finely striped with grey; wings mottled; the curious
+angulated abdomen shining with metallic tints, and tipped with stout
+hairs.</p>
+
+<p>The cosmopolitan “Skipper” in cheese, is the larva of <i>Piophila
+casei</i>; it pupates in a slender dark chrysalid; the small slender
+dark fly swarms round over-ripe cheese, fat, and other dried foods.</p>
+
+<p>The little “Fruit Flies” belonging to the <span class="smcap">Drosophilidae</span>,
+sometimes also known as “wine flies” from their habit of swarming round
+the freshly-filled wine casks, lay their eggs in decaying vegetable
+matter; they are often attracted to over-ripe fruit, and by their
+presence sometimes cause it to decay; they are common all over the
+world. The maggots sometimes found among pickles in vinegar and brine
+belong to flies of this group. <i>Drosophila obscura</i>, a tiny light
+brown fly with a dark coloured head, breeds in damaged tomatoes.</p>
+
+  <div class="figcenter" id="fig148" style="max-width: 356px">
+     <img
+    class="p1"
+    src="images/fig148.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 148.</b>—<i>Dacus (Tephritis) tryoni</i>
+(Froggatt). The Queensland Fruit Fly.</p>
+     <p class="p0 smaller center">1. Showing the jaws of the larva; 2. adult fly enlarged; 3. larva; 4.
+chrysalid; 5. tip of the abdomen showing the breathing orifices; 6. fly
+natural size.</p>
+     </div>
+
+<p>The <span class="smcap">Trypetidae</span> comprise the true “fruit flies,” many of them
+very handsome little creatures; some of them form regular galls in the
+twigs of plants; others with their needle-like ovipositors puncture the
+ripening fruit, depositing their eggs beneath the skin; the maggots
+cause the fruit to rot, often before it can be gathered, and thus do a
+great deal of damage in Australian orchards. The Queensland<span class="pagenum" id="Page_307">[307]</span> Fruit-fly,
+<i>Dacus (Tephritis) tryoni</i>, ranges from Queensland (where it
+probably originally infested native bush fruits) into N.S. Wales, and
+is now a serious orchard pest in both States. It is a dull brown insect
+marked with yellow, about the size of a large house fly, with a rather
+wasp-shaped body, and large transparent wings. I have described several
+other allied species coming into Australia from the Islands in damaged
+fruit, “Notes on Fruit-maggot Flies with Descriptions of New Species”
+(Agr. Gazette N.S. Wales 1899). <i>Dacus (Tephritis) psidii</i> was
+bred out of guavas imported from New Caledonia; it is about ¼ of an
+inch in length; is dull yellow, with the thorax distinctly striped,
+and the abdomen black; the transparent wings are thickly mottled with
+brown. Tryon says that it is a common fruit-fly pest in<span class="pagenum" id="Page_308">[308]</span> Queensland,
+damaging bananas and other fruits. <i>Trypeta musae</i> was obtained
+from bananas brought from the New Hebrides: it is a slightly larger
+fly, with the head and thorax dull yellow; it has no distinct dorsal
+stripe on the thorax, and the wings are very thickly mottled. <i>T.
+bicolor</i> is a larger native species with reddish brown head and
+thorax; with black body; with beautifully mottled black wings having
+the base and sides unclouded. I have taken it on the trunks of wattle
+trees near Bathurst, N.S. Wales. The “Mediterranean Fruit Fly,”
+<i>Ceratitis (Halterophora) capitata</i>, first recorded from oranges
+brought from the Azores to London, was described by Macleay in 1826; it
+has a wide range, and was introduced into New South Wales some years
+ago; it is now one of the most serious pests that orchardists have to
+fight. It is a smaller more thickset fly than the Queensland pest,
+with the thorax dark metallic brown, and the wings richly variegated.
+The male is remarkable in having a pair of spatulate hairs, like a
+second pair of antennae, springing out in front between the eyes.
+<i>Trypeta poenia</i> is a tiny little fly with a grey pubescence over
+the thorax and abdomen; the thorax is finely mottled, and the delicate
+wings are very finely but thickly marked with dark brown; I have taken
+this species when beating the low scrub in the western country round
+Condobolin, N.S. Wales. <i>Lonchaea splendida</i> is a very brilliant
+metallic green fly with pale smoky wings; it is smaller than a house
+fly, with a much more elongated body; its larvae infest decaying
+tomatoes, potatoes, egg-fruit and other solanums; it has a wide range
+from the Pacific Islands and New Zealand, over Australia.</p>
+
+<p>The family <span class="smcap">Ortalidae</span> is represented here by a very handsome
+species, <i>Ortalis coerulea</i>; it is about the size of a house
+fly, with deep metallic blue thorax and banded black abdomen; the
+transparent wing is clouded with black at the base and the tip, and
+has a black V-shaped band in the centre. It is very common in summer
+usually resting on the foliage of the grass-trees, and can be easily
+captured with a net. <i>Lamprogaster laeta</i> is another fine species,
+with a wide range from Victoria to Queensland. It measures nearly ½
+an inch from the front of the head to the tip of the body; the large
+semitransparent wings are blotched along the front with black. The
+dorsal surface and curious angular abdomen are deep metallic blue; the
+legs and under-surface reddish brown. I have usually found it on the
+highlands, and it is common on the Blue Mountains N.S.W. in the summer
+months.</p>
+
+<p>The <span class="smcap">Agromyzidae</span> are small yellow flies, sometimes marked with
+green; they puncture the tissue of plants and cause excrescences and
+galls upon the foliage and flower<span class="pagenum" id="Page_309">[309]</span> buds. One tiny species, <i>Agromyza
+sp.</i>, attacks the midrib of the leaves of the “Blood-wood”
+(<i>Eucalyptus corymbosa</i>), common about Sydney; producing soft
+yellow spongy excrescences aborting all the young foliage. <i>A.
+phaseoli</i> is a great pest to the growers of french beans in the
+Gosford district N.S.W.; the fly inserts her eggs in the stem of the
+young plant just above the surface of the ground. It is a tiny black
+fly, with bluish tints on the body. It was described by Coquillett
+(Pro. Linn. Soc. N.S.W. 1899) from specimens I sent to him for
+identification.</p>
+
+  <div class="figcenter" id="fig149" style="max-width: 310px">
+     <img
+    class="p1"
+    src="images/fig149.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 149.</b>—<i>Agromyza phaseoli</i> (Coquillett).</p>
+     <p class="p0 smaller center">The French-bean fly, the larva of which feeds on the stems.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+  <div class="figcenter" id="fig150" style="max-width: 507px">
+     <img
+    class="p1"
+    src="images/fig150.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 150.</b>—<i>Phytomyza affinis</i> (Fallen).</p>
+     <p class="p0 smaller center">An introduced Leaf-mining fly, and a common garden pest.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>The <span class="smcap">Phytomyzidae</span> are small dark coloured flies, whose larvae
+are leaf miners; and several species are well known pests to the
+gardener. <i>Phytomyza affinis</i> breeds in the<span class="pagenum" id="Page_310">[310]</span> winter in the leaves
+of the sow thistle; the next generation swarm on the marguerites,
+sunflowers and many others of the <i>Compositae</i>, thereby causing
+them to wither and fall.</p>
+
+<p>The <span class="smcap">Sapromyzidae</span> contain a great number of small flies which
+are generally met with resting among the foliage when sweeping or
+beating the scrub in the early morning. They seldom have the wings
+spotted, and the abdomen is broader than that of the former group. The
+larvae feed under the bark of trees, or among decaying vegetation.
+<i>Sapromyza fuscicornis</i> is of a uniform pale brownish yellow,
+with dark eyes, and with scattered stout bristles on the thorax; it is
+a large species over ¼ of an inch in length to the tip of the closed
+wings. It has a wide range over Australia. <i>S. decora</i> is a very
+much smaller dark brown fly, with a fine white stripe on each side of
+the thorax extending across the sides of the head above the eyes. It is
+common in summer in the orchards among the orange trees.</p>
+
+<p>In the members of the Genus <i>Celyphus</i> the scutellum is so
+abnormally inflated that it covers all the posterior parts of the body,
+so that these tiny shining black creatures are quite unlike the typical
+Diptera. A dark brown fly about the size of a house fly that has been
+described under the name of <i>Batrachomyia nigritarsis</i> by Skuse,
+is a parasite in the larval state on the back of several of our common
+frogs, where feeding under the skin it forms a regular blister; when
+full grown the larva makes its way through the skin, and pupates in the
+damp soil.</p>
+
+<p>The <span class="smcap">Scatophagidae</span> are slender, elongate, medium sized flies
+that can be bred out of dung or decaying vegetable matter, and are
+found in most parts of the world. <i>Scatophaga guerini</i> measures
+over ⅓ of an inch in length; it is of a dull greyish brown tint, marked
+on the head and thorax with parallel whitish bars, thickly clothed on
+the stout legs with fine hairs; and the long wings are folded over the
+back when at rest. It has a wide range; I have it from Sydney, and have
+bred it from the cylindrical white maggots in “toad-stools” collected
+on the banks of the Darling River, N.S. Wales.</p>
+
+<p>The Genus <i>Nerius</i> (placed by Van der Wulp in the Sub-family
+<span class="smcap">Calobatinae</span>, following the <span class="smcap">Sciomyzinae</span>) is
+represented by two fine species common in North Queensland. They are
+very slender, long-legged flies, with long, straight-veined wings,
+rounded at the extremities, and folded over the narrow pointed abdomen;
+the head, which has a distinct neck, might be described as pear-shaped,
+with short, stout, lance-shaped antennae standing out in front, and
+elongate flattened eyes with a dorsal depression between them; the
+abdomen is elongate, oval; and both species, about the same<span class="pagenum" id="Page_311">[311]</span> size,
+measure ½ an inch in length. <i>Nerius inermis</i>, “the Banana-stalk
+Fly,” is of a uniform dull brown colour, with the dorsal surface of
+the head and thorax striped with white, and the whole of the under
+surface and thighs (except a brown comma-like mark on the sides) white.
+The slender white maggots feed in the ends of the decaying stalks of
+the bunches of Queensland bananas, forming elongate reddish brown
+chrysalids when they pupate; they are easily bred out in captivity.
+This species was originally described from the Nicobar Islands by
+Schiner; and has also been recorded from Celebes and Aroe. <i>N.
+lineolatus</i>, described by Wiedemann from Java, is common in North
+Queensland; it differs from the last species in having the dorsal
+surface more thickly and brightly striped with white, and the legs
+being barred with white.</p>
+
+<hr class="r25">
+
+<h4>Family 17. Anthomyia Flies.<br>
+<span class="subhed">ANTHOMYIDAE.</span></h4>
+
+<p>In general appearance they are very like the house fly, of small size
+and indefinite colour; they differ in the structure of the wings, and
+the eyes of the male are generally large and in contact; the antennae
+are bare or feathered. In their larval habits they vary very much: some
+are simply scavengers; others feed on living vegetation, and like the
+onion and cabbage flies are serious pests; and a few are parasitic. The
+family is a large one, and species are found in most parts of the world.</p>
+
+<p>The common bluish fly resting on the decaying weed, and flying along
+in front when one is walking along the sea shore, belongs to the Genus
+<i>Lispe</i>; it looks like a house fly with longish legs and a pale
+tint.</p>
+
+<p><i>Ophyra analis</i> is a very common inland fly, and may be found
+swarming round dead sheep, or bred from pupae found under carrion
+lying in the bush. It is a shining blue black fly about the size of an
+ordinary house fly, and is lightly clothed with bristles on the sides
+of the thorax; it has a somewhat heart-shaped body, and clear wings.
+A second species, <i>O. nigra</i>, originally described by Wiedemann
+from China, is found in Australia, and is also recorded by Walker from
+the East Indies. It may be found swarming about dead sheep in summer.
+<i>Phoania personata</i> might be taken for a large house fly from the
+regular stripes on the thorax, but it is more thickly clothed with
+bristles, and the abdomen has a deep metallic blue tint. I have bred
+numbers<span class="pagenum" id="Page_312">[312]</span> from larvae pupating in rotting oranges piled on the ground.
+<i>Limnophora ruficoxis</i> is a somewhat smaller fly with the dorsal
+surface of the thorax and abdomen clothed with a dull buff pubescence;
+and the scutellum is smooth and shining. I have specimens from Sydney,
+N.S.W., and Gatton, Queensland.</p>
+
+<hr class="r25">
+
+<h4>Family 18. Parasite Flies.<br>
+<span class="subhed">TACHINIDAE.</span></h4>
+
+<p>This is one of the most useful groups of flies to the agriculturist,
+for nearly all the members deposit their eggs upon the living larvae of
+other insects such as the plant-destroying cut-worms, many different
+moths, and the grubs of our large saw-flies, and immature grasshoppers.
+This is a family of considerable extent, for over 1,000 species have
+been described from America alone, and in Van der Wulp’s Catalogue 187
+species are listed from South Asia, but very little has been done in
+working up the Australian species.</p>
+
+<p>In general appearance they are not unlike large house flies, but more
+bristly; the bristle of the third antennal joint is bare; the posterior
+cell of the wing almost or quite closed, and the large squamae cover
+the halteres. They attach their white eggs to the surface of the
+caterpillar with a gummy secretion, and it is quite common in summer
+time to find caterpillars thus infested, the perfect flies generally
+emerging from the pupal shell of their victim.</p>
+
+<p>The members of the Genus <i>Winthemia</i> are rather large flies,
+parasitic upon the larvae of different moths; several American species
+are great checks upon the increase of the “Army worm” (<i>Leucania
+unipuncta</i>). <i>Winthemia lata</i> measures slightly under ½ an
+inch in length, and is thickset in proportion; it has a silvery face,
+with the brownish thorax covered with short stout bristles on the
+sides; the abdomen is black, with the sides and outer margin of the
+segments blotched with dull yellow; and the whole upper surface is
+lightly clothed with fine bristles. I have bred this fly from our
+Native Silkworm Moth (<i>Antheroea eucalypti</i>), from Lewin’s Moth
+(<i>Ocinaria lewinae</i>), and from an undetermined hawkmoth.</p>
+
+<p>The Genus <i>Miltogramma</i> comprises a number of smaller flies common
+in Europe, which lay their eggs upon the captured prey of the sand
+wasps while the latter are placing them in their burrows in the ground;
+and not only does the parasitic fly larva devour the food supply, but
+also when<span class="pagenum" id="Page_313">[313]</span> that is finished, feeds on the baby wasp. An Indian species
+is parasitic upon one of the large plague locusts. I have a very
+handsome undetermined species from Southern Queensland which has the
+abdomen ringed with bright yellow bands; this would suggest that it
+may deposit its eggs in the underground chambers of a similarly banded
+<i>Bembex</i>. Another much smaller species, not unlike the house fly
+in size and general colouration, has the grey abdomen barred with black.</p>
+
+<hr class="r25">
+
+<h4>Family 19. Metallic Green Flies.<br>
+<span class="subhed">DEXIIDAE.</span></h4>
+
+<p>These flies differ from the Tachinidae, which they otherwise resemble,
+in having longer legs, and the bristle of the antennae pubescent or
+plumose. Australia is rich in large handsome species, often brightly
+marked with metallic tints; they are usually most plentiful in open
+forest country, often resting on tree trunks; when flying round they
+make a loud humming sound. Most of them are parasitic in their habits,
+depositing their eggs upon the larvae of lamellicorn beetles that are
+buried in the ground.</p>
+
+<p><i>Chaetogaster violacea</i> is of the usual thickset form, with a
+broad body and long pointed wings; it measures nearly 1 inch from
+the front of the head to the tips of the folded wings. It is of a
+general dark metallic blue colour, with the dorsal surface of the head
+and thorax marked with grey, and the whole insect is clothed with
+scattered black bristles. The wings are clouded with dull yellow on
+the basal half, giving it a very distinctive appearance. <i>Amphibolia
+fulvipes</i> is another very handsome and smaller fly with a broader
+body than the last, but the wings are shorter and clouded at the base;
+the head and legs are yellow; the rest black, with the thorax spotted
+behind and marked with a row of short broken parallel bars in front;
+the greater part of the abdomen above and below is creamy white mottled
+with seven bilobed blotches of black forming a pattern on the dorsal
+surface. It is found about Sydney and has a wide range on the eastern
+coast.</p>
+
+<p><i>Amenia leonina</i> is about ½ an inch in length with a more rounded
+abdomen. The large head is bright yellow, with the thorax and abdomen
+rich metallic blue; the sides of the thorax and abdomen are marked with
+several white circular dots, the last two on the tip of the abdomen
+very distinct.<span class="pagenum" id="Page_314">[314]</span> It is found in Tasmania, and ranges along the eastern
+coast of the mainland into Queensland.</p>
+
+<p>The typical Genus <i>Rutilia</i> is well represented in Australia by a
+number of large, showy flies rich in metallic tints, and as a general
+rule not so thickly or coarsely clothed with bristles. <i>Rutilia
+formosa</i>, originally described from New Holland by Desvoidy, is not
+uncommon along the eastern coast in the summer months. It measures from
+¾ to 1 inch in length; is of a general rich light metallic blue tint;
+the abdomen indistinctly barred with black is rich metallic coppery
+red, duller in the larger females, which have the abdominal segments
+more hirsute and bristly. The larvae are parasitic upon beetle grubs,
+probably those of the brown cockchafer (<i>Anoplognathus</i>). <i>R.
+decora</i> is about the same size and has much the same habits and
+range. The thorax is rich metallic blue, darker in front, with a row
+of short black bars; the abdomen is black with a double row of bright
+green metallic spots down the centre, the two at the anal tip largest.
+<i>R. vivipara</i> measures about 1 inch in length, with a wing expanse
+of 1½ inches; it is of a general dull greyish brown tint; the abdomen
+is lighter brown, and has a dark line down the centre and the sides and
+tips lightly clothed with grey hairs. <i>R. inornata</i>, about the
+same size as the last species, is a much darker fly; the abdomen is of
+a uniform dull shining black with grey hairs on the sides but none on
+the tip. Both these species have an extended range in forest country.</p>
+
+<p><i>Myocera longipes</i> has the general colouration of a house fly,
+with long, clear wings behind which are large white squamae; and it has
+very long slender legs. It has a curious habit of resting on the tree
+trunks with its long legs spread out in a very characteristic manner.</p>
+
+<p class="p2 smaller center">Plate XXIX.—DIPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Muscidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>1. <i>Lucilia tasmaniensis</i> (Macquart). Large blue-bottle fly.</li>
+  <li>2. <i>Lucilia caesar</i> (Linn.). Introduced sheep fly.</li>
+  <li>3. <i>Lucilia sericata</i> (Meigen). Metallic blue-bottle fly.</li>
+  <li>4. <i>Musca domestica</i> (Linn.). Common house fly.</li>
+  <li>5. <i>Musca corvina</i> (Fabr.). Bush fly.</li>
+</ul>
+</div>
+
+  <div class="figcenter" id="plate29">
+     <p class="p1 sm center"><i>Plate XXIX.—DIPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate29.jpg"
+    alt="">
+  </div>
+
+<hr class="r25">
+
+<h4>Family 20. Flesh Flies.<br>
+<span class="subhed">SARCOPHAGIDAE.</span></h4>
+
+<p>These flies differ from the true house flies in having the bristle
+of the antennae plumose at the base but fine and hair-like at the
+extremity. They lay their eggs or living larvae upon meat or other
+exposed food, and are also known as “Scavenger” flies because they
+frequent evil-smelling places like pig-sties and slaughter-yards. Some
+species are known to deposit their larvae in the nostrils of animals,
+and there are several records of the death of human beings from
+infestation by these maggots.</p>
+
+<p><span class="pagenum" id="Page_315">[315]</span></p>
+
+<p>The typical Genus <i>Sarcophaga</i> is world-wide in its distribution,
+and contains a number of well known species. <i>Sarcophaga
+aurifrons</i> is our commonest species in Australia, and is also found
+in the Malay Archipelago. It is over ⅓ of an inch in length; the front
+of the head is golden; the large eyes deep red; the legs black; and
+the thorax and abdomen black but thickly clothed with silvery grey
+pubescence; the black shows through, forming three black bands on
+the front of the thorax; and the abdomen is mottled with indistinct
+spots. <i>S. frontalis</i> is a slightly larger species with the
+face very bright golden yellow; the black bars on the thorax finer
+and darker; and the abdomen mottled with a more irregular pattern. A
+much smaller species, hardly larger than a house fly, was described
+by Skuse (Agricultural Gazette N.S.W. 1891, p. 251) as a parasite of
+the plague locust; he named it <i>Masicera pachytyli</i>; this fly
+Mr. Coquillett says belongs to the Genus <i>Sarcophaga</i>. I have
+since bred a much larger species from the bodies of locusts in the
+Bombala district, N.S.W. <i>Tachina oedipoda</i>, described by Olliff
+(Agr. Gaz. N.S.W. 1891, p. 769), I am also informed by Mr. Coquillett,
+should be <i>Sarcophaga oedipoda</i>, and is closely allied to <i>S.
+aurifrons</i>: it also is a parasite on the same species of locust.</p>
+
+<hr class="r25">
+
+<h4>Family 21. House Flies.<br>
+<span class="subhed">MUSCIDAE.</span></h4>
+
+<p>This group comprises all the typical house flies, some of which are
+world-wide in their distribution. All of them have the bristle that
+forms the tip of the antennae hairy or plumose, while the abdomen is
+spineless, without bristles except at the extremity.</p>
+
+<p>They deposit their eggs in stable manure or other decaying matter; the
+maggots, developing very rapidly in warm weather, form the usual hard
+parchment-like chrysalids from which the perfect flies emerge. Many
+interesting observations have been lately made on the habits of house
+flies and the danger of their spreading diseases by carrying germs or
+particles of putrid matter upon their feet, and thus contaminating
+food or transferring germs into open wounds; it was proved in the
+Spanish-American war that the swarms of flies had a great deal to do
+with the spread of fever in this manner. <i>Musca domestica</i>, the
+common house fly, is almost world-wide in its distribution, and is the
+chief species<span class="pagenum" id="Page_316">[316]</span> found inside the house. In the larval state it chiefly
+develops in stable manure. It measures about ¼ of an inch in length; is
+of a uniform black tint but is so thickly clothed with grey tomentum
+that it appears to be brown; the eyes are red; the thorax is clothed
+with stiff black bristles, and has four parallel bars down the centre
+of the dorsal surface. The freshly deposited eggs hatch within a day
+or two; the maggots develop within six days, and remain in the pupal
+state for only a few days in the summer; so that it is no wonder that
+they multiply with such marvellous rapidity, particularly when we
+discover that one house fly will lay over 1,000 eggs in the season.
+<i>Musca corvina</i> is a smaller darker tinted species, showing only
+two parallel stripes down the thorax. It is a common bush species and
+a great pest in the bush all through the summer, swarming in countless
+thousands from the eastern coast into the interior. It has a wide
+range over Europe, North America, Ceylon, and the Malay Archipelago.
+<i>Stomoxys calcitrans</i> is of a more brownish tint, with the abdomen
+more flattened, and it differs from the last two species in having a
+well developed biting mouth; this fly is a troublesome pest to horses,
+and will alight on one’s hand and bite quite sharply. It has a wide
+range from Europe across Asia to Ceylon, Java, and Australia.</p>
+
+<p>The Genus <i>Calliphora</i> is well represented by several very
+distinct species of typical “Blow-flies”; but though the common
+European species, <i>Calliphora vomitaria</i>, is said to be common in
+New Zealand I have never taken it in Australia. <i>C. villosa</i> is
+our large common blow-fly; it measures about ½ an inch in length; is
+of a general slate grey colour with the abdomen thickly clothed with
+fine golden pubescence giving it a bright mottled yellow tint. <i>C.
+oceaniae</i> is the smaller blow-fly with a steely blue abdomen, the
+base on either side bearing a dull yellow blotch by which it can be
+easily distinguished. Both these species are found in the bush and in
+the house; they lay their eggs on any food they can gain access to;
+but in the summer, or when they cannot get at food in time, the egg
+is hatched in the body of the mother and dropped as a living maggot.
+Some of the bright metallic species also come in this Genus; <i>C.
+rufifaces</i> is a much smaller bright rich metallic blue fly, with a
+silvery face, red eyes, and white flaps behind the wings; it, and the
+much smaller <i>C. varipes</i> with a yellow face and darker tinted
+body, are common about dead sheep or decaying matter in the interior.</p>
+
+<p class="p2 smaller center">Plate XXX.—DIPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Muscidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>1. <i>Calliphora oceaniae</i> (Desv.). Blue-bodied blow-fly.</li>
+  <li>2. <i>Calliphora oceaniae</i> (Desv.). Maggot.</li>
+  <li>3. Head segment of maggot, showing mouth hooks.</li>
+  <li>4. Anal segment of maggot, showing tubercles.</li>
+  <li>5. Pupa.</li>
+  <li>6. <i>Calliphora villosa</i> (Desv.). Yellow blow-fly.</li>
+</ul>
+</div>
+
+  <div class="figcenter" id="plate30">
+     <p class="p1 sm center"><i>Plate XXX.—DIPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate30.jpg"
+    alt="">
+  </div>
+
+<p><span class="pagenum" id="Page_317">[317]</span></p>
+
+<p><i>Neocalliphora ochracea</i> is somewhat thicker and broader than
+<i>Calliphora villosa</i>, and a much rarer species; it is of a general
+dull reddish brown colour, with the head and thorax darkest.</p>
+
+<p>In the Genus <i>Lucilia</i> we have the typical “Bluebottle” flies,
+which are well represented in this country: <i>Lucilia sericata</i>
+and <i>L. caesar</i>, both of a moderate size and deep metallic green
+and coppery tints, are widely distributed. <i>L. tasmaniensis</i> is a
+larger species, measuring under ½ an inch in length; it is of a uniform
+bright metallic blue, and has a wide range.</p>
+
+<hr class="r25">
+
+<h4>Family 22. Bot-flies.<br>
+<span class="subhed">OESTRIDAE.</span></h4>
+
+<p>The members of this family are well known in most parts of the world
+in the larval state as “bots,” internal parasites in the stomach of
+the horse, in the nostrils of sheep, and the skins of cattle. The life
+history of the common European bot-fly, <i>Gastrophilus equi</i>, is
+well known; the active fly lays her eggs upon the shoulders or jaws
+of the horse, attaching them to the hair by a gummy secretion; the
+horse licking itself transfers the eggs into its mouth, where the
+tiny maggots hatch out and are carried down into the stomach. They
+are provided with a pair of fine curved hooks in front of the head by
+which these little creatures hook themselves into the membrane of the
+stomach, absorbing their nutriment from the liquid with which they
+are surrounded. When fully developed these oval spiny bots detach
+themselves and pass out with the excrement, the maggots at once burying
+themselves in the damp soil and pupating; the perfect fly emerges early
+in February in most parts of N.S. Wales. The flies, about ½ an inch in
+length, have large thickset bodies thickly clothed with short brown
+or golden hairs, giving them the general appearance of a hairy bee;
+the male has a short rounded abdomen; that of the female is greatly
+elongated and usually curled up underneath. There are probably several
+introduced species now common in Australia with a wide range over the
+country. It is remarkable that though they do not bite or sting the
+horses when laying their eggs, yet as soon as the horses hear the loud
+hum of the bot-fly they gallop about and show an inherited fear of this
+pest, which, though it does not kill them, must be a very unpleasant
+parasite when numerous. The members of the Genus <i>Hypoderma</i> are
+a very serious pest in Europe and other countries where they infest
+cattle, and are known both as “warble” or “bot-flies.” The fly lays
+her eggs upon the back of the beast; the tiny larva makes its way
+through the hide, beneath which it lives and feeds<span class="pagenum" id="Page_319">[319]</span> upon the putrid
+matter caused by the irritation of its presence; it finally produces an
+inflamed blister-like swelling or “warble,” eventually working its way
+out through the hide and falling to the ground, where it buries itself
+and pupates. No species have been found in Australia, but in some parts
+of England very serious damage is caused to the health of the beast,
+and the skin by being perforated loses value for making leather.</p>
+
+  <div class="figcenter" id="fig151" style="max-width: 427px">
+     <img
+    class="p1"
+    src="images/fig151.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 151.</b>—<i>Gastrophilus equi</i> (Fabr.).</p>
+     <p class="p0 smaller hangingindent">1 and 2, The introduced Bot-fly, showing dorsal and lateral view
+of female; 3, eggs attached to hairs of horse; 4, egg enlarged
+(the eggs should be more truncate at the tips); 5, larval
+bots attached to piece of the stomach of a horse; 6, bot much
+enlarged; 7, enlarged head of bot showing the mouth hooks.</p>
+     </div>
+
+<p>The Sheep Nostril Fly, <i>Oestrus ovis</i>, has a wide range over the
+world, and was probably introduced into Australia many years ago,
+though it has been noticed only quite recently as a serious pest.
+This fly lays living maggots in the nostril of the unfortunate sheep;
+the maggots work their way up into the frontal sinuses of the head,
+where they remain until fully developed, when they turn downward and
+are usually sneezed out by the sheep in their efforts to get rid of
+the obstruction. The fly is slightly under ½ an inch in length; the
+upper surface of the head and body are grey to dull yellow, spotted or
+mottled with darker tints; the abdomen is yellowish mottled with darker
+markings. It has been found chiefly in the Blue Mountains N.S.W.</p>
+
+<hr class="r25">
+
+<h4>Family 23. Louse or Spider Flies.<br>
+<span class="subhed">HIPPOBOSCIDAE.</span></h4>
+
+<p>These are parasitic Diptera, that having taken to idle and slothful
+habits (though some of them can fly very well), take up their quarters
+among the fur or feathers of different animals and birds, where they
+live and are carried about by their hosts. To suit this method of
+existence they have become quite altered in structure; they have flat
+leathery bodies, and their feet are produced into large pincer-like
+claws which enable them to cling to the skin of their host. Some have
+large wings with stout nervures but very rudimentary venation; a few
+though provided with wings at birth bite them off soon after; and
+others like the well known “sheep tick” are wingless.</p>
+
+<p>As a rule their presence even when numerous does not seem to incommode
+the infested animals after they have become used to them, for the
+wild ponies in the New Forest in England are often covered with the
+horse-fly, <i>Hippobosca equi</i>, and they take no notice of them. Yet
+if one alights upon a horse unaccustomed to the presence of the fly
+he<span class="pagenum" id="Page_320">[320]</span> becomes almost crazy with fright, probably from the pinching or
+tickling sensation produced by their claws.</p>
+
+  <div class="figcenter" id="fig152" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig152.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 152.</b>—<i>Ortholfersia macleayi</i> (Leach).</p>
+     <p class="p0 smaller hangingindent">A parasitic fly that lives upon wallabies. Figured by me as
+<i>Olfersia macleayi</i> (Leach) in the “Agricultural Gazette,” N.S.W.</p>
+     </div>
+
+<p>The Common European Sheep Tick, <i>Melophagus ovinus</i>, was
+introduced at a very early date into this country among the wool on the
+backs of sheep. It is a dark-brown, wingless creature thickly clothed
+with fine hairs, more like a stout-legged spider than a fly in general
+appearance, but it has not the requisite fourth pair of legs. These
+bristly legs are furnished with the usual stout curved claws, between
+which is a slender appendage like a short string, supposed to be used
+to hang on with by coiling it round the wool. From their blood-sucking
+habits and these pincer-like claws, they are very annoying to the sheep
+when numerous.</p>
+
+<p>The Wallaby Louse Fly, <i>Olfersia macleayi</i>, is very common on
+small marsupials in Australia and Tasmania. When the<span class="pagenum" id="Page_321">[321]</span> dogs while
+hunting pull down and kill a wallaby, these flies generally crawl off
+and cling to the dog’s nose, rendering him very unhappy. It is a winged
+form, measuring under ½ an inch to the tip of the folded wings, and
+is of a uniform shining dark brown tint with a greenish shade very
+noticeable in the legs. Speiser (Annals Musei Nationalis Hungarici
+1904) has placed this species in his Genus <i>Ortholfersia</i>.</p>
+
+<p><i>Ornithomyia perfuga</i>, taken on an owl (probably <i>Spiloglaux
+boobook</i>) near Brisbane, has been recently described by Dr. Speiser:
+it is a larger species of a more reddish brown colour. A very fine
+louse fly, also taken in Southern Queensland upon a white hawk,
+measures nearly ¾ of an inch to the tip of the folded wings, and has
+been identified by the same gentleman as <i>Ornithoctona nigricans</i>,
+described originally by Leach. Among the few other species described
+from Australia is one found on our pretty little emu wren, which was
+described by Schiner in the “Zoology of the Voyage of the Novara
+1850” under the name of <i>Ornithomyia stipituri</i>. A number of our
+native birds act as hosts for these curious flies; the fruit pigeons,
+swallows, fly-catchers, and others are known to have them; and when
+they are systematically collected our list will probably be a large one.</p>
+
+<p>The <span class="smcap">Nycteribiidae</span> are another typical family of louse-flies
+found upon different bats, which are very small in comparison with
+the true louse-flies: they are always wingless, and have a world-wide
+distribution. They are reddish brown creatures covered with stout
+spines; the head is buried in the thorax; and the legs, very long and
+slender, terminate in immense pincer-shaped claws. Nearly all our
+bats are more or less infested with these “spider flies,” and several
+species have been described. Rainbow has recently described one under
+the name of <i>Nycteribia pteropus</i> from a flying fox taken at
+Batavia River, N. Australia (Records Australian Museum 1904).</p>
+
+<hr class="r25">
+
+<h4>Family 24. Fleas.<br>
+<span class="subhed">PULICIDAE.</span></h4>
+
+<p>The classification of the fleas has always been a matter of doubt;
+modern entomologists usually place them at the end of the Diptera,
+considering them a group of degraded flies that from their parasitic
+habits have become wingless, and have developed wonderful jumping
+powers; other specialists who have devoted much attention to the
+question<span class="pagenum" id="Page_322">[322]</span> consider them as worthy to rank in an Order, and follow
+Latreille, who called them <span class="smcap">Siphonaptera</span>; other writers, like
+Taschenberg, who wrote his Monograph entitled “Die Flöhe” in 1880,
+formed them into distinct families. The latest revision of the family
+is Baker’s “Revision of American Siphonaptera, &amp;c.” (Smithsonian
+Institute 1904); in this he gives a list of the described species,
+placing them in five families, and records a total of 134 species from
+all parts of the world.</p>
+
+<p>Messrs. Jordan and Rothschild in a “Revision of the Sarcopsyllidae”
+(University of Liverpool 1906) criticise Baker’s classification,
+and reduce the families to four, extending the limits of the Family
+<span class="smcap">Sarcopsyllidae</span>, and adding seven new species.</p>
+
+<p>The flea differs from most other insects in having the whole
+wedge-shaped body vertically flattened. It is admirably adapted for
+crawling through hair or feathers, and the large stout spiny legs are
+well suited for jumping. The head, indistinctly separated from the
+body, is short, furnished with jointed antennae situated above but
+behind the eyes; the mouth is produced into a stout pointed proboscis
+with which it punctures the skin and sucks up the blood of its host.
+They are all of a more or less reddish brown tint, clothed with
+scattered stout bristles, and the abdomen is rounded at the apex; the
+legs are furnished with a pair of tarsal claws. The fact that fleas are
+capable of spreading the germs of plague and even leprosy has caused
+a great deal of attention to be devoted to this group, and they have
+during the last few years been sought for and collected from all parts
+of the world.</p>
+
+<p>Two species are common in the house in Australia, of which the
+“domestic flea,” <i>Pulex irritans</i>, is too well known to need much
+description. They deposit their eggs, which are tiny ribbed crystalline
+spheres (very beautiful objects under the microscope) in the dry dust
+in cracks and crannies in the floor, or in the corners of badly-swept
+rooms. From these eggs hatch out slender, legless, transparent grubs
+with several short bristles on the anal extremity; these grubs feed
+upon the dust and, when full grown, spin a silken tube in which they
+pupate buried in the dust.</p>
+
+<p><i>P. serraticeps</i> is known as the dog and cat flea, though it is
+not uncommon at times in the house where animals are running about; but
+though it sometimes comes on man, it is an accidental infestation, and
+it gets away to its natural host as soon as it can escape. It can be
+easily distinguished from the common house flea by its more elongate
+form, and by the black comb-like spines fringing the back of the head<span class="pagenum" id="Page_323">[323]</span>
+and the first thoracic segment, which are absent in the former.</p>
+
+<p>The Rat and Mouse Flea, <i>P. fasciatus</i>, is a paler coloured, more
+slender flea, also with a very extended range over the world. It is
+notorious as the species that, when living upon plague-infested rats,
+can transmit bubonic plague to man.</p>
+
+<p>Denny (Annals and Mag. Nat. Hist. XII. 1843) has described another
+species, which he placed in this Genus, obtained from Tasmania and
+found upon the <i>Echidna</i>, and which he has called <i>Pulex
+echidnae</i>. About a dozen indigenous species have been recorded from
+Australia.</p>
+
+<p>The Genus <i>Echidnophaga</i> was created by Olliff (Pro. Linn.
+Soc. N.S.W. 1886) to contain a species he described under the name
+of <i>Echidnophaga ambulans</i>; it is remarkable for its very long
+proboscis, and short legs which render it unable to jump. Large
+numbers of this flea were found upon a Porcupine Ant Eater (<i>Echidna
+hystrix</i>) in the Australian Museum. Messrs. Jordan and Rothschild
+in the Revision previously noticed place 8 species in Olliff’s Genus,
+adding two more to the Australian fauna, <i>E. macronychia</i>
+from West Australia found upon a small marsupial (<i>Bettongia
+lesueuri</i>), and <i>E. liopus</i> also from West Australia on
+<i>Echidna aculeata</i>, at the same time recording the last-named
+species upon rats at Agra, India. They give a number of additional
+hosts of <i>E. ambulans</i>, namely: the opossum, several other
+marsupials, and the brown snake; and they extend its range from Sydney
+to West Australia.</p>
+
+<p>The Chicken Flea, <i>E. gallinaceus</i>, which they place in this
+Genus (originally described by Westwood under the generic name
+<i>Sarcopsylla</i>) though it has not been recorded from Australia has
+a range from America, Africa, and Russia to Fiji; it infests a great
+number of both wild and domestic animals and birds.</p>
+
+<p>Skuse (Annals of the Australian Museum 1893) described a very curious
+flea, found in the pouch of a native cat (<i>Dasyurus</i>) which he
+called <i>Stephanocircus dasyuri</i>. I have since had the typical
+legless larvae, found also in the marsupial pouch of the same animal,
+and it is also common upon the bandicoot in Queensland. This flea has
+an elongate body, with the front of the head flattened and fringed with
+fine spines; it has no eyes.</p>
+
+<p>Skuse is said to have described two species belonging to different
+genera as the sexes of his flea; and Rainbow in the same journal
+(Records Aust. Mus. 1905) proposes the name of <i>Ceratophyllus
+rothschildi</i> for the second. Rothschild has described two other
+species in this genus, <i>C. hilli</i> from N.S.<span class="pagenum" id="Page_324">[324]</span> Wales on the native
+cat, and a second, <i>C. woodwardi</i>, from W. Australia.</p>
+
+  <div class="figcenter" id="fig153" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig153.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 153.</b>—<i>Stephanocircus dasyuri</i> (Skuse).</p>
+     <p class="p0 smaller center">Flea of the “Native-cat” and “Bandicoot.”</p>
+     <p class="p0 smaller center">(Original photo. G. Turner.)</p>
+     </div>
+
+<p>Rothschild also describes two other species which he places in Skuse’s
+Genus <i>Stephanocircus</i>, namely <i>S. thomasi</i> (Nov. Zool.
+X. 1903) from Barrow Island N.W. Australia, and <i>S. simsoni</i>
+(Entomologists’ Month. Magazine XVI. 1905), which comes from
+Tasmania, taken upon a native cat, <i>Dasyurus maculatus</i>. In the
+Entomologists’ Monthly Magazine 1906 Rothschild forms a new Genus
+<i>Pygiopsylla</i> for a large Tasmanian flea taken on a native rat
+which he calls <i>Pygiopsylla colossus</i>. He makes <i>Ceratophyllus
+hilli</i> the type of this new genus, in which he also places three
+other Australian species originally described in the latter genus,
+namely: <i>C. woodwardi</i>, <i>rothschildi</i>, and <i>echidnae</i>,
+in the new one.</p>
+<hr class="chap x-ebookmaker-drop">
+
+<div class="chapter">
+<p><span class="pagenum" id="Page_325">[325]</span></p>
+
+<h2>Order VIII.—HEMIPTERA.<br>
+<span class="subhed">Bugs, Frog-hoppers, Scale Insects, &amp;c.</span></h2></div>
+
+
+<p>The structure of the mouth is the distinctive character of the insects
+of this great Order. Instead of the biting jaws (or sucking mouth)
+of many other insects previously described it is produced into a
+slender pointed tube of complicated structure, which usually lies
+along the under-surface of the head and thorax. This beak, called the
+rostrum, consists of a jointed sheath (labium) enclosing hair-like
+setae (mandibles and maxillae). When the insect feeds the sharp tip
+is pressed into its food, and the sap or juice sucked up, not by the
+proboscis-like sheath, but by the delicate enclosed setae. Kirkaldy
+doubts if the sheath “ever even penetrates the tissues, either
+vegetable or animal, unless these be already lacerated by the setae”;
+and it is often used only as a fulcrum to steady their operations.</p>
+
+<p>In the outward appearance (often a deceptive character in
+classification) the members of this group are very dissimilar; probably
+no two insects could be more unlike than the typical plant bug and the
+ordinary scale insect.</p>
+
+<p>They all undergo an incomplete metamorphosis, often changing their
+colours and even shape in the various moults before they are fully
+developed. The eggs of those living upon plants are generally deposited
+in clusters, and these are often very beautiful crystal spheres with
+stellate caps upon the summits. In other groups the eggs are buried
+in the tissue of the food plant or covered with woolly or sticky
+secretions.</p>
+
+<p>They take the name Hemiptera from the structure of the fore wing,
+one half of which is, in the typical bugs, horny and the rest
+semitransparent.</p>
+
+<p>The families of the plant and water bugs are much more closely related
+to each other than to the frog-hoppers, cicades and scale insects;
+and the whole Order has been separated into groups or sub-orders,
+viz., <span class="smcap">Heteroptera</span>; <span class="smcap">Homoptera</span>; <span class="smcap">Anoplura</span>;
+<span class="smcap">Mallophaga</span>.</p>
+
+<p><span class="pagenum" id="Page_326">[326]</span></p>
+
+<h3>Sub-order I. HETEROPTERA.<br>
+<span class="subhed">Bugs.</span></h3>
+
+
+<p>This sub-division contains all the plant, carnivorous, and water bugs,
+which vary in size and shape from the tiny little leaf-infesting forms
+to the great “fish-killer,” <i>Belostoma indicum</i>, found in our
+water-holes.</p>
+
+<p>They are usually furnished with two pairs of wings. The basal portion
+of the front pair is horny and opaque, and the apical half more or less
+transparent; this pair covers the larger hind pair, which, well adapted
+for flight, are folded up beneath when at rest. The members of some
+groups however are apterous.</p>
+
+<p>Many are furnished with glands on the body secreting an offensive,
+buggy-smelling fluid, which they discharge when handled or disturbed.</p>
+
+<p>Some species are serious pests to plant life, and swarm in countless
+thousands over vegetation, sucking up the sap and causing it to wither
+and die in consequence, as in the case of the Chinch Bug of North
+America upon wheat, and the Rutherglen Bug in Australia among field
+crops. Others are predaceous and very useful, destroying great numbers
+of leaf-eating grubs and caterpillars.</p>
+
+<p>These insects are well represented in Australia, and many of the larger
+and more showy ones were collected and described at a very early
+date, and their descriptions are scattered through the pages of many
+scientific journals. Numbers of our species have been described by
+Westwood (Hope Catal. 1837); Dallas (List Hemip. 1851); Walker (Catal.
+Heter. Brit. Museum 1867); Distant (Trans. Ent. Soc. London, 1886,
+etc.); Kirkaldy (The Entomologist); and others in English journals;
+while among the Continental writers Messrs. Stal, Bergroth, Montandon,
+Horvath, and Reuter have been the chief workers.</p>
+
+<p>In 1893 Messrs. Lethierry and Severin commenced a “Catalogue of the
+Described Heteroptera of the World”; three parts were published, but,
+probably owing to the death of Lethierry, it was never completed,
+part three closing with the <span class="smcap">Anthocoridae</span>, and most of the
+aquatic groups are not listed. Dr. Mayr has in his “Monograph of the
+Belostomidae 1871” noted our species.</p>
+
+<p class="p2 smaller center">Plate XXXI.—HEMIPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Pentatomidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>&ensp;1. <i>Biprorulas bibax</i> (Bredden).</li>
+  <li>&ensp;3. <i>Peltophora pedicellata</i> (Kirby).</li>
+  <li>&ensp;4. <i>Chaerocorus paganus</i> (Fabr.).</li>
+  <li>&ensp;7. <i>Plautia affinis</i> (Dallas).</li>
+  <li>&ensp;8. <i>Cuspicona simplex</i> (Walk.).</li>
+  <li>10. <i>Dindymus versicolor</i> (Herr. Sch.).</li>
+  <li>11. <i>Tectocoris lineola</i> (Fabr.).</li>
+  <li>13. <i>Oncoscelis sulciventris</i> (Stal.).</li>
+</ul>
+</div>
+
+<p class="center smaller">Family <span class="smcap">Pyrrhocoridae</span>.</p>
+
+<p class="center smaller">2. <i>Dysdercus sidae</i> (Montrz.).</p>
+
+<p class="center smaller">Family <span class="smcap">Coreidae</span>.</p>
+
+<p class="center smaller">5. <i>Mictis profana</i> (Fabr.).</p>
+
+<p class="center smaller">Family <span class="smcap">Lygaeidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>&ensp;6. <i>Oxycarenus luctuosus</i> (Mont.).</li>
+  <li>12. <i>Oncopeltus quadriguttatus</i> (Fabr.).</li>
+  <li>15. <i>Lygaeus hospes</i> (Fabr.).</li>
+</ul>
+</div>
+
+<p class="center smaller">Family <span class="smcap">Reduviidae</span>.</p>
+
+<p class="center smaller">9. <i>Ptilocnemus femoralis</i> (Horvath).</p>
+
+<p class="center smaller">Family <span class="smcap">Tingidae</span>.</p>
+
+<p class="center smaller">14. <i>Froggattia olivina</i> (Horvath).</p>
+
+  <div class="figcenter" id="plate31">
+     <p class="p1 sm center"><i>Plate XXXI.—HEMIPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate31.jpg"
+    alt="">
+  </div>
+
+<p>The Heteroptera have been divided into about twenty families, chiefly
+defined by the structure of the head and wings; these families are
+again subdivided into a great number of sub-families, many of the more
+important being represented in Australia.</p>
+
+<p><span class="pagenum" id="Page_327">[327]</span></p>
+
+<hr class="r25">
+
+<h4>Family 1. Shield Bugs.<br>
+<span class="subhed">PENTATOMIDAE.</span></h4>
+
+<p>This group comprises many of our largest and most brilliantly marked
+tropical plant bugs, distinguished from all those of other families
+by the remarkable size of the scutellum which frequently covers the
+two pairs of wings and dorsal surface of the abdomen. The majority of
+these insects fly well. The head is usually furnished with 5-jointed
+antennae (though some are restricted to four joints), and two ocelli.
+It is one of the largest groups, and has been divided into fourteen
+sub-families. There are over 4,000 species in the family, and it is
+well represented in Australia. This family is sometimes known under the
+name <span class="smcap">Scutelleridae</span>.</p>
+
+<p>The Cherry Bug, <i>Peltophora pedicillata</i>, is a bright metallic
+green bug mottled with black spots on the back; the greater part of the
+under surface, edges of the thorax, and two blotches at the base of the
+scutellum are bright coral red: it measures ½ an inch in length and is
+broad in proportion. It has a range from New South Wales (where it is
+often found on strong-scented flowering shrubs and has been recorded
+as a cherry pest) to N. Queensland, where it is very abundant on the
+wild fig trees. <i>Tectocoris lineola</i> is so variable in size and
+colouration that it has been described under eight varietal names and
+has an extended range from the north of N.S. Wales through Queensland
+to New Caledonia and China. It has a broad, elongate, convex body of
+a bright orange colour edged on the margins of the body with metallic
+green; the dorsal surface is covered with curious green or blue patches
+reminding one of Chinese letters; sometimes these markings are almost
+absent, in others so confluent that it is more blue than red. Donovan
+named our variety <i>T. banksi</i>, after Sir Joseph Banks, who first
+obtained specimens from Australia. <i>Chaerocoris paganus</i> is under
+½ an inch in length, and of an oval, beetle-like form; its general
+colour is red with dull metallic green forming blotches on the back,
+head, and sides of the thorax. It is very common at times crawling
+about on the rocks and ground about Sydney. <i>C. similis</i> is a
+smaller darker form, only taken about Gunnedah, N.S.W., but it probably
+has a wider range.</p>
+
+<p><i>Philia basalis</i> is one of the common fruit bugs of N. Queensland.
+It is slightly over ½ an inch in length, with elongate convex
+scutellum, and a uniform rich metallic green tint, with a bright
+coral-red spot behind the head and<span class="pagenum" id="Page_328">[328]</span> two similar ones at the base of
+the scutellum; the sides of the abdomen are bright red on the under
+surface. <i>P. senator</i> is a smaller, more variable form, with the
+coral-red markings not so distinct. <i>Philia regia</i>, about the same
+size as the last species, is of a rich coppery-red tint, with the hind
+portion of the back bright yellow, and the ventral surface and legs
+bright green and yellow. Both these species and <i>P. senator</i> are
+found along the Queensland coast.</p>
+
+<p>The Genus <i>Calliphara</i> contains a number of large bugs, elongate
+but broadly rounded in front, with the scutellum forming a complete
+convex shield over the back; 26 species are described ranging from
+China through the Malay Peninsula to Queensland. <i>Calliphara
+imperialis</i> measures over ¾ of an inch in length, and has the whole
+of the dorsal surface, except the tip of the abdomen, bright shining
+red; the under surface, legs, and tip of abdomen are dark metallic
+green. <i>C. billiardierei</i>, about the same size, has the back
+and the under surface of the abdomen (except the tip) red; the head,
+thorax, legs and tip of abdomen deep metallic green with dull purple
+tints. <i>C. cruenta</i> is a much smaller species, the thorax and
+basal half of the back red, shading into purple toward the tip. <i>C.
+nobilis</i> has the head and thorax dark, with the dull red back
+spotted with black. All our species of this genus are found in the
+tropical scrubs of N. Queensland.</p>
+
+<p><i>Cantao parentum</i> measures over an inch in length, and is more
+elongate in form; it is of a uniform dull red tint, with the whole of
+the dorsal surface marked with small irregular black dots; the legs
+and under surface are black. It ranges along the Queensland coast. It
+has been reported to have attacked cherries in Southern Queensland.
+The Genus <i>Testrica</i> contains several little brown bugs, short
+and broad, with the front of the thorax more or less produced into a
+spine, and the extremity of the abdomen broadly rounded. <i>Testrica
+bubala</i> is not more than ⅙ of an inch in length, with the shoulders
+sharply spined; it is found upon the foliage of small gum trees.</p>
+
+<p>The sub-family <span class="smcap">Cydinae</span> contains a number of curious little
+black shining bugs that live on the ground and are often found hiding
+under stones. They are quick and active in their habits, and might
+easily be mistaken for small black beetles. <i>Geobia australis</i>,
+under ¼ of an inch in length, is of a uniform pitch-black colour, with
+the exposed tips of the elytra greyish-brown; it has spiny legs; the
+head is clothed with scattered hairs forming a fringe. <i>Adrissa</i>
+atra is a much larger black bug; it has pitch-coloured elytra with
+brown tips. This common species is found about Sydney under stones and
+rubbish.</p>
+
+<p><span class="pagenum" id="Page_329">[329]</span></p>
+
+<p>In the <span class="smcap">Pentatominae</span> we have a large number of species. They
+are broadest across the base of the thorax, which is sometimes slightly
+angulate; the scutellum is large and angular, occupying the centre
+of the back but not covering the whole of the wing covers. <i>Notius
+depressus</i> measures over ½ an inch in length, and is broad in
+proportion; the general colour is deep blue to purple, the sides of the
+head and thorax and ventral surface marked with yellow. It ranges from
+Tasmania to N.S. Wales.</p>
+
+<p><i>Eumecopus australasiae</i> has a wide range, and is often found
+in wattle scrub resting on tree-trunks. It measures about an inch in
+length, is a very active insect, and flies readily when disturbed.
+Its colour is dull brown, mottled with small dull yellow spots; these
+form several short parallel rows on the pointed head, and there is a
+distinct yellow spot at the apex of the scutellum.</p>
+
+<p>The Genus <i>Poecilometis</i> contains 14 species peculiar to
+Australia. They are of the same general form as the last group,
+are found in similar localities, and are all of a more or less
+reddish-brown tint. <i>Poecilometis histricus</i>, about ¾ of an inch
+in length, is of a light brown colour with ochreous markings. <i>P.
+gravis</i>, found upon wattle scrub, is smaller than the last species
+and is of a more reddish-brown tint. <i>P. strigatus</i>, about ½ an
+inch in length, is of a similar brownish colour.</p>
+
+<p><i>Dictyotus plebejus</i> is one of our commonest little dull brown
+bugs; is about ¼ of an inch in length and nearly as broad as long.
+It has a wide range over Eastern Australia, and is found, often in
+numbers, under stones, dry cowdung, or dead logs. The genus is peculiar
+to Australia, and contains 18 described species.</p>
+
+<p><i>Commius elegans</i> is common on the foliage of the native cherry
+about Mittagong, N.S.W.; it is just under ½ an inch in length; is of
+a general blue black colour with the thorax and under surface yellow
+blotched with black; the sides and apex of the scutellum are edged
+with yellow; and a narrower transverse band of dull white crosses
+the back just below the tip of the scutellum. It has a wide range
+over Australia, and was described by Donovan in 1805. <i>Plautia
+nigripennis</i> is a much smaller plant bug, with the upper surface
+green, and the sides and tips of the elytra reddish brown; it ranges
+up the Queensland coast from the Tweed River, N.S. Wales. <i>P.
+affinis</i> is a pretty little green insect which feeds on rice and
+other plants in the northern district of N.S.W. It measures about ⅓ of
+an inch in length.</p>
+
+<p>The members of the Genus <i>Cuspicona</i> range from India to Australia
+and New Caledonia; eight species are described from Australia.
+<i>Cuspicona simplex</i> is a finely rugose and<span class="pagenum" id="Page_330">[330]</span> green coloured bug
+about ⅓ of an inch in length, with the sides of the thorax produced
+into blunt spines, and the elytra broadly rounded to the tip. It
+infests many field crops and has been reported as doing serious damage
+to growing potatoes. <i>C. thoracica</i> is a small green species,
+with the thorax produced into a stout spine on each side. The head and
+a broad band across the thorax are reddish brown; the margins of the
+thorax and the centre of the scutellum are marked with bright yellow.
+It is common in the eastern coastal districts, and has been found
+feeding on ground crops about Gosford, N.S.W. <i>C. forticornis</i> is
+a larger green species with the thoracic spines red, and the dorsal
+surface thickly and finely punctured. It is common in the northern
+scrubs of N.S. Wales.</p>
+
+<p>The <span class="smcap">Asopinae</span> contains two well known species of Australian
+bugs: <i>Cermatulus nasalis</i> is common on the Richmond and Tweed
+Rivers, N.S.W. It measures slightly over ½ an inch in length, and has
+a somewhat rounded form, with a small projecting head. Specimens vary
+from an olive brown to almost black colour, and are mottled with deep
+red; the upper surface is deeply and closely punctured, and the tips
+of the elytra are metallic bronze. The Vine-moth Bug, <i>Oechalia
+schellembergi</i>, is one of our most interesting species from an
+economic point of view because it preys upon the caterpillar of the
+vine moth (<i>Phalaenides glycine</i>), several species of cut-worm,
+and the larvae of the fig-leaf beetle (<i>Galeruca semipullata</i>).
+They lay their rounded glassy eggs in patches of about a dozen upon the
+foliage, and the freshly emerged bug is dark brown, and flattened in
+form. The adult bug varies very much in size; the largest is about ½ an
+inch in length; it is very finely punctured, and is of a general light
+reddish brown colour mottled with yellow; the sides of the thorax are
+stoutly spined, and the abdomen is rather tapering toward the tip. It
+has a wide range over Australia, and is recorded from New Zealand.</p>
+
+<p>The Spined Orange Bug, <i>Biprorulus bibax</i>, is a well known orange
+pest about Moree and the Tweed and Richmond Rivers, N.S.W. It is a
+handsome bright green bug when alive, but after death usually changes
+to dull yellow; it measures nearly an inch in length and ¾ of an inch
+across from tip to tip of the large thoracic spines; the front of the
+thorax between these stout spines is somewhat depressed; the abdomen is
+broad and rounded, and the dorsal surface finely punctured.</p>
+
+<p>The <span class="smcap">Tessaratominae</span> are usually large insects found upon
+plants, and among them are several destructive species. Among a
+number of hemiptera submitted to D’Horvath for identification were
+two species, viz., <i>Rhoecocoris<span class="pagenum" id="Page_331">[331]</span> (Oncoscelis) sulciventris</i>
+and <i>Stilida indecora</i>, which both in the larval and perfect
+state swarm over the orange orchards in the north of N.S. Wales and,
+by sucking up the sap of the stalks, cause the unripe oranges to
+fall. Their habits and life history being identical, <i>Rhoecocoris
+(Oncoscelis) sulciventris</i>, which was identified by Olliff in the
+Agricultural Gazette N.S.W. 1892, I at first confused with <i>Stilida
+indecora</i> (Ag. Gazette, N.S.W., 1901). <i>S. indecora</i> is of a
+more reddish brown tint than <i>R. sulciventris</i>, with the dorsal
+surface of the thorax not punctured, and the apical areas of elytra
+more bell shaped, while the venation is much finer; while the thorax
+of <i>R. sulciventris</i> is distinctly punctured and the anterior
+edge of the apical area of the elytra is broadly rounded. <i>Oncomeris
+flavicornis</i> is our largest Australian plant bug, over 1½ inches in
+length, of a broad shield shape, over ¾ of an inch across the rounded
+thorax, and of a general dark reddish brown almost black colour on the
+dorsal surface; each elytron is richly marked on the basal half with
+bright yellow, and the apical portion is rich metallic purple. It comes
+from the tropical scrubs of N. Queensland.</p>
+
+<p>In the Sub-family <span class="smcap">Dinidorinae</span> we have <i>Megymenum
+insulare</i>, a typical form very common on the foliage of the low
+scrub of the semi-tropical forests of N.S. Wales and Queensland. It
+is of a general chocolate brown tint, with the inner apical markings
+of the elytra dull white; it measures just under ½ an inch; the sides
+of the head and the front of thorax are furnished with short angular
+spines, which are also present round the outer edge of the abdominal
+segments; and the whole of the dorsal surface is rugose. The immature
+larvae are brown, flattened, and fringed right round with bract-like
+processes.</p>
+
+<hr class="r25">
+
+<h4>Family 2. Gum-tree Bugs.<br>
+<span class="subhed">COREIDAE.</span></h4>
+
+<p>This group contains bugs in which the scutellum does not extend as
+far back as the middle of the body; the head is generally furnished
+with four-jointed antennae inserted above on the sides of the head;
+there are two ocelli; and the sheath of the proboscis consists of four
+segments. Many species have the femora of the hind legs dilated or
+armed with blunt spines. The majority are dull coloured insects that
+have no distinctive common name in Australia, so for<span class="pagenum" id="Page_332">[332]</span> want of better,
+I propose to define them as “Gum-tree bugs,” as many typical forms
+feed upon the young shoots of our gum trees (<i>Eucalyptus</i>). In
+America they are sometimes called “Squash Bugs” from their fondness for
+pumpkin plants. Over 1,500 species have been described and placed in 29
+sub-families; and they are well represented in Australia.</p>
+
+<p>The <span class="smcap">Mictinae</span> are represented by one of our best known
+species, which I called the “Crusader Bug,” <i>Mictis profana</i>. It
+is a somewhat variable elongate insect just under an inch in length,
+of a uniform dull drab-brown, with the inner edge of each elytron
+marked with a dull yellow stripe, which, intersecting each other in
+the centre, produce a distinct cross on the back. The hind legs are
+thickened and the apex of the tibia forms a blunt spine. It has a wide
+range over Australia, and of late years has been found infesting the
+citrus orchards, where it punctures the young shoots and causes them to
+die back.</p>
+
+<p>The Genus <i>Amorbus</i> contains 15 described species peculiar to this
+country, most of which feed upon the foliage of young gum trees and
+give out a very strong odour when touched; the young larval forms are
+often brightly coloured, but in the adult state all these bugs are dull
+brown. <i>Amorbus angustior</i>, under ¾ of an inch in length, has the
+dorsal surface flattened; the abdomen swells out on the sides beyond
+the edge of the folded elytra, and the whole surface is granulated
+or roughened. It is of a uniform chocolate colour with the antennae
+and abdomen rusty red. <i>A. robustus</i> is a much larger species,
+stout in proportion, with the same elongate form, but the edges of the
+abdomen not projecting beyond the wings.</p>
+
+<p><i>Mutusca brevicornis</i> is a very slender brown bug, about ½ an inch
+in length, usually found resting among the grass. The head and thorax
+are elongate, with the former produced in front of the antennae into
+two slender lobes; the elytra are long and slender, and the wings well
+adapted for flight. <i>Riptortus robustus</i> is also an elongate bug,
+but shorter and stouter, with the head short and angular; the thorax is
+short, rounded in front, and produced into a ridge behind, with a stout
+spine on either side. The body is long, constricted in the centre, and
+rounded at the tip: the thighs of the hind legs long, thickened and
+armed with a row of spines along the inner edge. The general colour is
+reddish brown.</p>
+
+<p>The Genus <i>Leptoglossus</i> contains some handsome species which
+are remarkable for having the tibiae of the hind legs dilated into
+leaf-like processes. <i>Leptoglossus membranaceus</i> is an elongate,
+flattened, black bug banded with a slender<span class="pagenum" id="Page_333">[333]</span> red line across the thorax;
+the head is small, projecting in front of the triangular thorax; and
+the shield shaped body comes to a rounded tip. The fore legs are
+slender, but the hind pair are slightly thickened on the thighs and
+roughened on the inner edges; and the tibiae have leaf-like projections
+on either side, giving it a very remarkable appearance. It is common
+in North Queensland and ranges over Africa, India, Ceylon, and the
+Philippines.</p>
+
+<hr class="r25">
+
+<h4>Family 3. Chinch Bugs.<br>
+<span class="subhed">LYGAEIDAE.</span></h4>
+
+<p>This is a family containing about 1,400 described species divided into
+thirteen sub-families, but many of the latter are very restricted
+in their numbers, the majority coming under the typical sub-family
+<span class="smcap">Lygaeinae</span>. Their general characters are similar to those of
+the Coreidae except that the antennae are inserted below the eyes,
+and the head is not so flattened and more angular in front. They are
+smaller bugs of more delicate structure, and their prevailing colours
+are brown or black variegated with red and yellow; some of them, such
+as the Chinch Bug of North America, are very destructive pests. As they
+have no distinctive group name I have adopted Professor Comstock’s name
+of “Chinch Bugs.”</p>
+
+<p>The <span class="smcap">Lygaeinae</span> contain most of the bright coloured species,
+often marked with red; the wing covers are usually of a somewhat
+delicate texture.</p>
+
+<p><i>Astacops laticeps</i>, about ⅓ of an inch in length, is a
+slender black bug with the head and sides of the elytra bright red.
+<i>Scopiastes vitticeps</i>, about the same size, has the head, thorax,
+and sides of the body red. Both these insects are common on the grass
+and field crops on the Northern Rivers of N.S. Wales. <i>Lygaeus
+hospes</i> measures ½ an inch in length, is of the typical elongate
+form, and is black marked with bright red forming a broad indistinct
+cross on the basal portions of the elytra. It has a wide range from
+China and India to Australia and New Caledonia. <i>L. mactans</i> is
+a much smaller insect, with the head, base of thorax, and the greater
+part of each elytron bright red. It has a wide range over Australia,
+and is also recorded from Fiji. <i>L. decoratus</i>, about ½ an inch
+in length, has the whole of the head, thorax, and sides of the elytra
+banded with red and black; it comes from Queensland.</p>
+
+<p>The Cotton Bug, <i>Oncopeltus quadriguttatus</i>, figured in my<span class="pagenum" id="Page_334">[334]</span> notes
+in the Agricultural Gazette 1901, should be according to Horvath <i>O.
+sordidus</i>, Dallas, though the latter name is given as a synonym of
+the first in L. and S.’s Catalogue. It measures ½ an inch in length,
+is of a general black colour, with the head and two depressions in the
+centre of the thorax dull red, and the scutellum and basal half of each
+elytron deep orange red; the abdomen is dull red and clothed with short
+down. They lay their eggs to form a ring round a twig, sometimes as
+many as a hundred in a cluster; the larvae are flat and almost circular
+in form, of a general red colour mottled with metallic blue spots, and
+the legs and antennae are dark coloured. This bug is common on the
+cultivated cotton plants about the Richmond River, and ranges from
+Sydney into Queensland.</p>
+
+<p>The Rutherglen Bug, <i>Nysius vinitor</i>, is one of the most
+destructive plant bugs in Australia; breeding in grass lands, during
+the summer it swarms over all kinds of field crops and fruit trees in
+countless millions, sucking up the sap of both the foliage and fruit.
+It has a very wide range, and takes its popular name from the town
+in Victoria, in which it was first recorded damaging grapes. It is a
+tiny creature, under ⅙ of an inch in length, is dull brown to grey in
+colour with silvery grey wings; it is very active and flies well. It
+is so common that under favourable conditions it might become here as
+serious a pest as the Chinch Bug of North America. The Genus is a very
+extensive one, containing 69 species distributed from Greenland to S.
+America, thus almost world wide in its range.</p>
+
+<p>The Coon Bug, <i>Oxycarenus luctuosus</i>, is a tiny black and white
+bug about the same size, originally described from New Caledonia. It is
+very common, chiefly in the inland districts, swarming over the ground
+in millions. When in the larval state, before the wings are developed,
+its general colour is bright red, and it is then much more noticeable,
+giving the fences on which it rests in the day time a curious blood-red
+tint. So far it has never been recorded as a plant pest, but that is
+probably only because it is chiefly a western species, where little
+fruit is grown.</p>
+
+<p><span class="pagenum" id="Page_335">[335]</span></p>
+
+<hr class="r25">
+
+<h4>Family 4. Fruit Bugs.<br>
+<span class="subhed">PYRRHOCORIDAE.</span></h4>
+
+<p>These bugs differ from the last family only in the fact that they are
+not provided with ocelli. It is a small family containing under 400
+described species, placed in two sub-families.</p>
+
+<p>The <span class="smcap">Larginae</span> contains a number of red coloured bugs, the
+majority of which are confined to South America. The members of the
+Genus <i>Physopelta</i> however belong to the Indian and Malay region;
+and <i>P. famelica</i> ranges from Ceram to Woodlark Island, and down
+the Queensland coast to the Tweed River. It measures under ¾ of an inch
+in length, is of the typical form, and of a general dull red tint, with
+the head, centre of the thorax, and legs dark brown; the centre of the
+scutellum and four spots on the sides of the elytra are black.</p>
+
+<p>The <span class="smcap">Pyrrhocorinae</span> comprise the bulk of this family, which
+are chiefly found in Africa and Asia. The “Harlequin Fruit-bug,”
+<i>Dindymus versicolor</i>, was originally described from Tasmania, but
+has a wide range over Australia. They shelter and breed in the crevices
+on tree trunks, and often damage ripe fruit. It measures slightly over
+½ an inch in length; the under surface is yellowish, with the head and
+thorax blood red, the latter barred with white. The upper surface and
+legs are black, with the greater part of the thorax and basal half of
+the side of each elytron bright red. <i>Dindymus circumcinctus</i> is
+a slightly smaller, much darker species, the red only showing on the
+outer margins of the thorax and elytra. I have specimens collected near
+Sydney.</p>
+
+<p><i>Dysdercus sidae</i> belongs to a genus world wide in its
+distribution, and containing over 50 described species. This species
+is common on the Richmond River N.S.W., frequenting the cultivated
+cotton plants, where it can be seen running over the opening cotton
+bolls, and discolouring them with its excrement in the same manner as
+the “American Cotton Stainer,” <i>Dysdercus suturellus</i>, is reported
+to do in the United States. Our species measures about ½ an inch in
+length; it is red, with the scutellum and a distinct rounded spot in
+the centre of each elytron black. The antennae, eyes, and apical areas
+of the elytra are also black; the front and sides of the thorax marked
+with dull white.</p>
+
+<p><span class="pagenum" id="Page_336">[336]</span></p>
+
+<hr class="r25">
+
+<h4>Family 5. Lace Bugs.<br>
+<span class="subhed">TINGIDAE.</span></h4>
+
+<p>These are all small plant bugs without ocelli; the terminal joint of
+the antennae is swollen or clubbed; the pronotum is large, covering
+the scutellum; the neuration of the elytra is very distinct, forming
+intricate, lace-like patterns; the feet consist of two joints. They
+are true plant-feeding bugs, generally sucking up the sap from the
+under-side of the leaf, and when numerous often become pests. Between
+four and five hundred species of <span class="smcap">Tingidae</span> have been described,
+and are placed in two sub-families. Few species have been recorded from
+Australia, but this is probably not owing to their absence, but because
+collectors are apt to overlook these small creatures.</p>
+
+<p><i>Serenthia pectipennis</i> is a tiny dark brown bug, hardly ½ of an
+inch in length; the oval body is convex, and broadly rounded to the
+apex, with a curious lighter brown pattern on the elytra. It comes from
+Glen Innes, N.S.W.</p>
+
+<p>The Olive-tree Bug, <i>Froggattia olivina</i>, was described from
+specimens sent to Horvath; its native food plant is the wild olive
+(<i>Notalaea longifolia</i>); the larvae infest the under surface
+of the leaves, and cause them to wither and drop off. It has now
+transferred its attention to the cultivated olive, and when numerous
+will almost defoliate the trees; it has a wide range over N.S. Wales,
+but I know no record of it from the other States. It is a slender,
+handsome little dark brown bug, about ⅙ of an inch in length, and has
+typical clubbed antennae. The elytra are swollen out toward the base,
+arcuate on the sides, and rounded at the extremities, with lace-like
+reticulations on the apical areas; the thorax is rounded and convex.</p>
+
+<p><i>Oncophysa vesiculata</i> is another curious little elongate bug,
+about the same length; of a uniform dark brown tint; the upper surface
+is marked with distinct ridges and fine punctures, and a pair of large
+bulbous processes stand up prominently at the base of the elytra. It
+is common about Sydney, where it feeds upon the little native cotton
+bush.</p>
+
+<p class="p2 smaller center">Plate XXXII.—HEMIPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Reduviidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>&ensp;1. <i>Opistoplatys australasiae</i> (Westw.).</li>
+  <li>&ensp;3. <i>Pirates ephippiger</i> (White).</li>
+  <li>&ensp;6. <i>Pristhesancus papuensis</i> (Stal).</li>
+  <li>12. <i>Gminatus nigroscutellatus</i> (Bredden).</li>
+  <li>15. <i>Gardena australis</i> (Horvath).</li>
+</ul>
+</div>
+
+<p class="center smaller">Family <span class="smcap">Pentatomidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>&ensp;2. <i>Cuspicona forticornis</i> (Bredden).</li>
+  <li>&ensp;4. <i>Poecilometis strigatus</i> (Westw.).</li>
+  <li>&ensp;7. <i>Megymenum insulare</i> (Westw.).</li>
+  <li>&ensp;8. <i>Philia basalis</i> (Grey).</li>
+  <li>&ensp;9. <i>Poecilometis histricus</i> (Stal).</li>
+  <li>13. <i>Cermatulus nasalis</i> (Westw.).</li>
+  <li>14. <i>Geobia australis</i> (Erich.).</li>
+  <li>16. <i>Notius depressus</i> (Dall.).</li>
+</ul>
+</div>
+
+<p class="center smaller">Family <span class="smcap">Coreidae</span>.</p>
+
+<p class="center smaller">5. <i>Amorbus robustus</i> (Mayr).</p>
+
+<p class="center smaller">Family <span class="smcap">Galgulidae</span>.</p>
+
+<p class="center smaller">10. <i>Mononyx annulipes</i> (Horvath).</p>
+
+<p class="center smaller">Family <span class="smcap">Pentatomidae</span>.</p>
+
+<p class="center smaller">11. <i>Oechalia schellembergi</i> (Guérin).</p>
+
+  <div class="figcenter" id="plate32">
+     <p class="p1 sm center"><i>Plate XXXII.—HEMIPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate32.jpg"
+    alt="">
+  </div>
+
+<p><span class="pagenum" id="Page_337">[337]</span></p>
+
+<hr class="r25">
+
+<h4>Family 6. Fungus Bugs.<br>
+<span class="subhed">ARADIDAE.</span></h4>
+
+<p>These are dull coloured black or brown bugs of moderate size, with the
+dorsal surface very rugose, and the whole insect thin and flattened,
+admirably adapted to the life it leads hidden under the dead bark on
+tree trunks, their chief food being fungous growths found upon the damp
+bark. Howard calls them “Flat Bark Bugs,” and remarks that they look as
+if they had been stepped upon.</p>
+
+<p>They have the tip of the abdomen exposed, as the elytra are shorter
+than the body, which is also exposed on the sides when the wings are
+folded. Like the Lace-bugs (<i>Tingidae</i>) they have no ocelli, but,
+unlike them, they have the scutellum exposed. This family contains
+about 300 described species, divided into four sub-divisions. Erichson
+has described several from Tasmania (Arch. 1842); Bergroth (Verh. Z. b.
+Ges. Wien 1886) and Walker (Cat. Heter. 1874) others from Australia.</p>
+
+<p>There are a number of undetermined species in our Museum collections,
+most of which are to be found upon fallen timber where the bark is
+rotting and peeling off the trunk.</p>
+
+<hr class="r25">
+
+<h4>Family 7. Water Striders.<br>
+<span class="subhed">HYDROMETRIDAE.</span></h4>
+
+<p>These are aquatic insects, living upon the surface of the water,
+and some are even found on the open ocean, hundreds of miles away
+from land. They, like most other water-dwellers, are covered with a
+velvet-like pubescence; the head is ornamented with large projecting
+eyes; the antennae are four-jointed. They may be wingless; when
+present, the elytra are of a uniform texture. Most of the species are
+furnished with very long legs. The tarsi are two-jointed. About 160
+species are described under four sub-families; only three or four are
+described from Australia; but more from the open waters of the Pacific
+Ocean.</p>
+
+<p>In the genus <i>Gerris</i>, Skuse (Records of the Australian Museum,
+1893) described a species from the waters of Sydney Harbour under the
+name of <i>Gerris australis</i>. It varies from dark shining olive to
+black on the dorsal surface; the ventral surface is yellow with grey
+tints. It is covered with a fine<span class="pagenum" id="Page_338">[338]</span> silvery pubescence, and measures ⅓ of
+an inch in length. <i>Hydrometra strigosa</i>, described by Skuse from
+specimens from the swamps about Botany, N.S.W., is a larger insect, of
+a uniform brownish yellow tint; and it has a more slender shape.</p>
+
+<p><i>Halobates whiteleggi</i> is a small ochreous water-bug about ⅙ of an
+inch in length, and was obtained by Skuse in swarms in the sheltered
+nooks of Sydney Harbour. Another species discovered in Torres Straits
+has been named <i>Hermatabates haddeni</i>, after its discoverer,
+Professor Hadden.</p>
+
+<p>The closely allied small family <span class="smcap">Henicocephalidae</span> consists of a
+single genus, the members of which are widely distributed. We have one
+described from Tasmania by Westwood under the name of <i>Henicocephalus
+tasmanicus</i>. They fly in swarms, dancing in the air together like
+midges. It is noticed they give off a musk-like smell.</p>
+
+<hr class="r25">
+
+<h4>Family 8. Assassin Bugs.<br>
+<span class="subhed">REDUVIIDAE.</span></h4>
+
+<p>This is a large division of the Hemiptera, and its members are
+carnivorous, destroying different kinds of insects, which they impale
+with their beaks, and from which they suck the blood; many can give
+a painful stab with the stout beak if handled carelessly. The head
+is long, narrowed behind, and freely movable; the rostrum or beak is
+short, stout, and is curved under the head, not extending far under
+the thorax; the antennae are long, slender towards the tips; the legs
+are long, slender, and often hairy; the elytron consists of three
+divisions. Some species are wingless. They exhibit much variety in size
+and colouration, and their shape is often adapted to their habits. The
+large immature forms of one undetermined species, found plentifully
+about Maitland, N.S.W., hides in the sand under the shelter of a
+log or stone; each covers its back with bits of sand or dirt, and,
+thus disguised, it lies in wait for its prey. Over 2,000 species are
+described from all parts of the world, and they are grouped into 14
+sub-families.</p>
+
+<p>The <span class="smcap">Emesinae</span> contain a very curious group of slender grey
+bugs with long legs. They might at first sight be mistaken for “daddy
+longlegs” or “crane-flies”; and are found, too, in similar situations,
+viz., resting on tree trunks or under the cover of logs and bark; and
+they probably live chiefly on these long-legged flies. <i>Gardena
+australis</i> is of a uniform brown<span class="pagenum" id="Page_339">[339]</span> tint, mottled on the legs and
+elytra with grey. It is of the usual slender form, with elongate hairy
+legs. It and several similar but undetermined species are common about
+Sydney.</p>
+
+<p><i>Opistoplatys australasiae</i>, representing the small sub-family
+<span class="smcap">Tribelocephalidae</span>, was described and figured by Westwood in
+1859; it is not uncommon on tree trunks about the Richmond River,
+N.S.W. It measures over ½ an inch in length, and is flattened on the
+dorsal surface; the abdomen is elongate, and rounded at the apex; its
+general colour is dull chocolate brown, with the centre of the back
+slightly pubescent.</p>
+
+<p>In the group <span class="smcap">Holoptilinae</span> are some species with feather-like
+hind legs, the tibiae being densely clothed with long dark hairs.
+They are usually found on the trunks of dead trees, under the shelter
+of the drying detached bark, where they are found in all stages of
+development; they probably feed upon the small insects that come
+there for shelter. Horvath has identified those I have sent him as
+<i>Ptilocnemus femoralis</i>, a new species, though there are four
+other species described from Australia. This new species measures over
+⅓ of an inch, and has the head, thorax, and joints of the legs dull
+yellow; the under surface and apical areas of the elytra are marbled
+with black and brown; the antennae, head, thorax and legs are fringed
+with long black hairs, which on the hind tibiae are so thick as to
+give the appearance of a feather or brush. <i>Aradellus cygnalis</i>,
+figured and described by Westwood (Thesaurus Ent. 1874), is also found
+hiding under dead bark on tree trunks. Some specimens were taken at
+Gunnedah, N.S.W., but I also have a closely allied, if not a new
+species, from Bathurst, N.S.W. It measures slightly over ⅙ of an inch
+in length, is of a general blackish brown colour, with yellowish legs,
+and the elytra are black, mottled with blotches of white; the curious
+thickened antennae and legs are fringed with short stout, bristle-like
+hairs.</p>
+
+<p>The <span class="smcap">Acanthaspinae</span> are larger slender-legged bugs, well
+represented in Australia. The genus <i>Sphedanocores</i> contains
+several distinct species with a wide range. <i>S. distinctus</i>
+measures over ¼ of an inch in length, and is mottled and barred with
+dark orange and black; the head is turned downwards and the rostrum
+is stout; the thorax is very rugose. <i>Reduvius personatus</i> is a
+cosmopolitan species that takes up its quarters in the house, covering
+itself with bits of dirt and feeding upon the common bed bug. It is
+recorded both from Australia and Tasmania. The larval form of an allied
+bug has the broad back concave, and covers itself with particles of
+sand; it rests under the shelter of logs and stones where it lurks
+during the day. <i>Reduvius<span class="pagenum" id="Page_340">[340]</span> rivulosus</i> is a large bug measuring ¾
+of an inch in length; it is of a general dull brown colour with the
+elytra mottled with dull yellow, while the whole insect is clothed with
+fine woolly hairs, denser upon the legs. It comes from the Shoalhaven
+district, N.S.W.</p>
+
+<p>The <span class="smcap">Piratinae</span> comprise some of the so-called “Assassin bugs”;
+in colour most of them are dark brown or black, marked with dull
+yellow; they hide under stones in the daytime, and often in summer
+come flying to the lights in the house at night, when, if carelessly
+handled they can inflict a very severe stab with the beak. <i>Pirates
+ephippiger</i> is one of our largest species, measuring over ¾ of an
+inch in length. It is of a uniform dull black, with the stout legs
+reddish brown in colour, and there is a heart-shaped patch of bright
+yellow behind the scutellum. The prothorax is narrow, smooth and
+rounded, with a constriction separating it distinctly from the broader
+mesothorax which is also smooth and rounded. <i>P. flavopictus</i> is
+a very much smaller species, black in colour, with the yellow blotch
+behind the scutellum. The whole insect is clothed with fine hairs. It
+is a common species in New South Wales, and has a wide range over the
+southern part of the continent. Twelve other species of this large
+genus are described from Australia and Tasmania.</p>
+
+<p>The <span class="smcap">Harpactorinae</span> is the largest division of this family, and
+comprises both the large spiny “assassin bugs” that crawl about among
+the foliage or hunt over the tree trunks, and some typical forms, most
+plentiful in tropical countries.</p>
+
+<p><i>Havinthus depressus</i> is a small, flat, dark brown species, under
+½ an inch in length, with the outer margins of the body mottled with
+dull red. <i>H. rufovarius</i> is a larger bug of a general black
+colour, with the head, front of thorax, legs, bases of the elytra, and
+under surface of the abdomen marked with deep red. The body is rugose
+and clothed with short stiff hairs. It has a wide range over Australia;
+and a very large variety, with blood red markings, from Kalgoorlie
+(W.A.), measures over an inch in length.</p>
+
+<p>The members of the Genus <i>Gminatus</i> are peculiar to Australia, and
+are found hunting over tree trunks and flowers. The body is somewhat
+constricted behind the thorax, broadening towards the rounded apex.
+<i>Gminatus nigroscutellatus</i>, over ½ an inch in length, is of a
+general bright red colour, with the legs and scutellum black, and the
+apical areas of the elytra rich metallic bronze. The dorsal surfaces
+of the head and thorax are ornamented with a number of tubercles or
+spines. <i>G. australis</i>, slightly smaller and more slender than
+the previous one, differs in having the head black; the prothorax
+black and furnished with two pairs<span class="pagenum" id="Page_341">[341]</span> of black spines, and the shorter
+spines in the rest of the thorax tipped with black. The Bee Killer,
+<i>Pristhesancus papuensis</i>, is a large brown bug, nearly 1¼ inches
+in length, and thickly clothed with short buff hairs. The outer edge
+of the thorax is produced into erect blunt tubercles, seven in number,
+forming an angle on the outer margins. The dorsal surface of the
+abdomen is very concave; the folded elytra lie sunk well below the
+sides of abdomen, which are flanged and raised.</p>
+
+<p>It has been observed sitting on the tassels of maize cobs, catching and
+sucking the blood out of hive bees as they come for the pollen. It is
+common on the Tweed River, N.S.W., and in Queensland.</p>
+
+<p>The members of the Genus <i>Helonotus</i> are similar large carnivorous
+bugs. Specimens are recorded from Cape York (Queensland), and the
+tropical scrubs of New Guinea.</p>
+
+<hr class="r25">
+
+<h4>Family 9. Bed Bugs.<br>
+<span class="subhed">CIMICIDAE.</span></h4>
+
+<p>The family to which the common bed bug of unsavoury reputation belongs,
+is a very small one, comprising only a few genera and about a dozen
+species. They have no ocelli; the wing cases are short and do not reach
+to the tip of the abdomen; the head is short, with the rostrum when at
+rest fitting into a groove beneath it.</p>
+
+<p><i>Cimex lectularius</i>, the common house bug, is supposed to have
+come originally from Asia into Europe, and thence transported over
+the world. Several other species are found in Europe and America,
+another in India, and indigenous species both in Chili and the Isle
+of Bourbon. A fossil bug has been found in the Lower Tertiary beds
+in Scotland which is said to be very similar if not identical with
+the present household pest. Kirkaldy has recently created the Genus
+<i>Klinophilos</i> to contain our common bed bug, though it has always
+been considered to be Linne’s type of the Genus <i>Cimex</i>.</p>
+
+<hr class="r25">
+
+<h4>Family 10. Leaf Bugs.<br>
+<span class="subhed">CAPSIDAE.</span></h4>
+
+<p>These are all small plant-eating bugs of somewhat delicate structure,
+and form a family of considerable size; over 2,000 species having been
+recorded from all parts of the world.<span class="pagenum" id="Page_342">[342]</span> Several species are well known
+pests in India and Ceylon, and a few in America are said to prey on
+small insects. Very little attention has been paid to the collection of
+these small bugs in this country, but Mr. Kirkaldy informs me that 35
+species have been described from Australia, chiefly by Walker, Reuter,
+Distant and himself.</p>
+
+<p>They have no ocelli; the antenna is four jointed, with the second joint
+usually very long; the scutellum is triangular and very small; the
+elytra and wings are large, the former remarkable for having only two
+cells in each apical area; the female is furnished with a well-defined
+ovipositor. In his “Memoir upon the Rhynchotal family Capsidae” (Trans.
+Ent. Soc. London 1902), Kirkaldy lists 6 described species, and also
+defines 5 new species which were collected at Alexandria, Victoria.
+<i>Eurybrochis zanna</i> is a mottled reddish brown insect, darkest
+towards the extremity, measuring under ¼ of an inch in length, and
+of the usual form. <i>Austomiris viridissimus</i> is a longer, more
+slender bug of a general greenish tint. <i>Zanessa rubrovariegata</i>
+is again a little longer, of a uniform brown tint marked with red on
+the elytra.</p>
+
+<p>Stal (Eugenie’s Resa Novara 1859) described 3 Australian species.</p>
+
+<hr class="r25">
+
+<h4>Family 11. Water Bugs.<br>
+<span class="subhed">CRYPTOCERATA.</span></h4>
+
+<p>The several families included in this group comprise a number of
+aquatic or semi-aquatic bugs.</p>
+
+<p>The <span class="smcap">Galgulidae</span>, known as “Sand-bugs,” are curious little
+creatures distinguished from the others in having ocelli. They are
+very short and broad in form, with projecting eyes, and in general
+appearance each suggests a miniature crab. They have short four jointed
+antennae situated below the eyes, and are furnished with legs well
+adapted for running on the ground. They are found on the edges of
+swamps or creeks, and feed upon different kinds of small insects. In
+colour they are usually of a uniform dull brown to black; the upper
+surface is generally much roughened. Never moving unless touched, they
+trust to their sordid colours to escape detection, for as they match
+the ground so well, they are difficult to find.</p>
+
+<p><i>Mononyx annulipes</i>, one of our commonest species, is about ¼ of
+an inch in length; is of a uniform dirty brown tint, with the legs and
+under surface dull yellow; the body is very rugose and fringed on the
+outer edges with fine bristles.<span class="pagenum" id="Page_343">[343]</span> Montandon has described several other
+Australian species (Bulletin, Societé des Sciences, Roumania, 1899).</p>
+
+<p>The <span class="smcap">Nepidae</span> are popularly known as “water scorpions” on
+account of the curious tail appendages projecting from the tip of the
+abdomen. They live in ponds, and feed upon different water insects,
+attaching their eggs to the leaves of the plants. They have the wing
+covers folded closely over the back protecting the wings from the
+water, and fly rapidly from pool to pool when the water dries up. There
+are many species found in Australia, most of which have a wide range.
+<i>Rantara varipes</i>, under 1 inch in length, has a tail about as
+long again as the body, and is of a light yellowish brown colour. It
+might be likened to a mantis, with its slender form and fore pair of
+legs furnished with spines on the inner edges to hold its prey. The
+other legs are long and slender with curved claws at the extremities.</p>
+
+<p>In the Genus <i>Nepa</i> the insects have the head and body flattened;
+the elytra cover the wings; the abdomen is broadly rounded at the
+extremity, terminating in a pair of long slender bristles. The beak
+curved under the head is large and stout; the eyes are large, the fore
+legs are spined, and the other legs furnished with a pair of slender
+curved claws.</p>
+
+<p><i>Nepa tristis</i>, measuring about 1 inch to the tip of the body, is
+of the usual form and dull brown colour, with the upper surface of the
+abdomen showing bright red when the wings are expanded. It is found in
+the bottom of ponds crawling about among the weeds.</p>
+
+<hr class="r25">
+
+<h4>Family 12. Fish-killers.<br>
+<span class="subhed">BELOSTOMIDAE.</span></h4>
+
+<p>In the typical genus of this family we have some of the largest known
+Hemiptera, measuring up to 3 inches in length and broad in proportion.
+They are aquatic, generally living in still waters, feeding on small
+fish which they capture with their stout spined legs; they play havoc
+with the small fry in a pond, and are popularly known in consequence as
+“Fish-killers.”</p>
+
+<p>The body is broad, but flattened on the dorsal surface, coming to a
+rounded point at the apex; the well developed wings are folded beneath
+the horny elytra; the whole shape being well adapted to the life they
+lead. In summer time they often leave their ponds, and, attracted by
+the light, come flying to the windows.</p>
+
+<p><span class="pagenum" id="Page_344">[344]</span></p>
+
+<p><i>Belostoma indicum</i> has a wide range from Southern India to
+Australia; it measures slightly under 3 inches in length, and is of
+a uniform dark brown colour. The large curved beak bent under the
+head, projecting eyes, and great spined fore legs show its carnivorous
+propensities; the middle and hind legs are fringed with delicate
+swimming hairs, and terminate in a pair of fine claws. Unlike most of
+the other aquatic hemiptera, the abdomen terminates in an oval tip
+without any anal appendages.</p>
+
+<p>Sharp speaking of this family (Insects Pt. II. p. 567) says: “In the
+waters of the warm regions of the continents of both the Old and New
+Worlds they are common insects, but as yet they have not been found in
+Australia.” However, Mayr records it from Australia, “Die Belostomiden
+1871” (Verh. Z. C. Gesell, Wien); and I have a specimen from Port
+Darwin, Northern Territory, and also a number of specimens from
+Southern Queensland.</p>
+
+<p><i>Sphaeroderma equis</i> is a curious oval-shaped water-bug that
+crawls about among the mud and water weeds in water-holes and creeks;
+it has a very wide range, probably all over Australia; the female has
+the curious habit of carrying her eggs stuck upon her back in a regular
+sheet covering the whole of the elytra. It is of a uniform shining
+brown colour, and measures ¾ of an inch in length; the head is smaller
+than that of <i>B. indicum</i>, with the eyes not so prominent and
+angular.</p>
+
+<hr class="r25">
+
+<h4>Family 13. Back-Swimmers.<br>
+<span class="subhed">NOTONECTIDAE.</span></h4>
+
+<p>These water-bugs have oval convex bodies and always swim with the belly
+upwards; their eyes are very large, situated on the sides of the head,
+the latter inserted into the prothorax, which overlaps it. The front
+legs are shortest, the fore tarsi not flattened but furnished with two
+claws. Their bodies are provided with long hairs which enable them to
+carry an air supply about with them. They are very active insects, and
+can be often observed in our water-holes and ponds swimming beneath
+the water, or coming to the surface and raising the tip of the body to
+obtain a fresh supply of air, when they can be easily captured with a
+hand net.</p>
+
+<p>They insert their eggs in the stems of water plants, which the female
+pierces with her sharp ovipositor; and some<span class="pagenum" id="Page_345">[345]</span> European species are known
+to hibernate in the mud at the bottom of the pools and water-holes.</p>
+
+<p>Several species are common in our ponds and creeks, and are savage
+little creatures destroying many other aquatic insects, and even small
+fish.</p>
+
+<p><i>Enithares bergrothi</i> is our common species with a very wide
+range over Australia. In their larval state they are silvery white in
+appearance, but as the elytra develop and cover the back they change to
+dark brown, mottled, shining creatures, with the body measuring about ⅓
+of an inch in length.</p>
+
+<hr class="r25">
+
+<h4>Family 14. Water-Boatmen.<br>
+<span class="subhed">CORIXIDAE.</span></h4>
+
+<p>The members of the family <span class="smcap">Corixidae</span> differ from the
+“Back-swimmers,” though both are often called “Water-Boatmen,” in
+having the fore tarsi flattened, fringed with hairs on the edges, but
+without any claws, while the head overlaps the thorax. They swim the
+opposite way (with the back upwards), and are flattened on the ventral
+surface. One or more species may be often captured with a net in the
+same situations as the members of the former group.</p>
+
+<p><i>Corixa eurynome</i>, described by Kirkaldy, is our common species
+found in creeks and water-holes all over Australia. It measures over
+⅓ of an inch in length, with the scythe-shaped hind legs projecting
+behind; it is of a uniform chocolate brown colour on the dorsal
+surface, except the space between the eyes, which with the legs and
+ventral surface are dull yellow. The large flattened lead-coloured eyes
+are almost triangular.</p>
+
+<p><span class="pagenum" id="Page_346">[346]</span></p>
+
+
+<h3>Sub-Order II.—HOMOPTERA.</h3>
+
+<p>This sub-division was formed to include some families of haustellate
+insects which, though closely related to the true plant bugs, have
+well-defined characteristics that bring them into a natural Sub-Order
+of their own. They all have the typical suctorial mouth, but the front
+of the head is much inflexed so as to be in contact with the coxae. The
+front pair of wings are not true elytra, being generally membranous,
+and are usually referred to as tegmina. Some, like the aphids, have
+both pairs of wings delicate and transparent; while in the scale
+insects, the females are always wingless, and the male is provided
+with a single, imperfectly veined pair only. When at rest, the wings
+in the typical homoptera are folded over the back like a roof, forming
+a ridge. All the families are well represented in Australia, except
+the <i>Aphidae</i>, of which no indigenous species have been recorded,
+the <i>Psyllidae</i> with similar habits taking their place, at any
+rate in our western scrubs. Like true hemiptera, they each undergo an
+incomplete metamorphosis, some moulting many times before the final
+ecdysis; and all feed in the immature and perfect state on the sap of
+plants.</p>
+
+<p>Kirkaldy has recently described about 200 new species of the families
+Fulgoridae, Membracidae, Cercopidae, and Jassidae (Leaf Hoppers and
+their Natural Enemies Bulletin I. pt. IX., Hawaii 1905), collected
+by Messrs. Koebele and Perkins chiefly in Queensland. In his
+classification based on Hanson’s (Ent. Tedssker xi. 1890) he divides
+them into 8 families and creates 76 new genera.</p>
+
+<hr class="r25">
+
+<h4>Family 1. Cicadas.<br>
+<span class="subhed">CICADIDAE.</span></h4>
+
+<p>The most familiar sound in the summer months in Australia, particularly
+along the coastal districts is the harsh, incessant screech of the
+cicadas; the hotter the day the shriller the tone, and from the first
+week in November to the end of January it is more or less constant.
+They are <span class="pagenum" id="Page_347">[347]</span>too well known to need much description, but it might
+be remarked that it is very unfortunate that they are commonly called
+“locusts” for, strictly speaking, the term “locust” should only be
+applied to the short-horned grasshoppers belonging to a different
+order, Family Acridiidae.</p>
+
+<p class="p2 smaller center">Plate XXXIII.—HOMOPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Cicadidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>4. <i>Cyclochila australasiae</i> (Donovan).</li>
+  <li>1. Pupa on emergence from the ground.</li>
+  <li>2. Pupa casting its skin.</li>
+  <li>3. Fore-leg of pupa.</li>
+  <li>5. Ovipositor and sheath separated.</li>
+  <li>6. Side view of ovipositor.</li>
+  <li>7. Ovipositor viewed from above.</li>
+  <li class="hangingindent">8. Cross section of ovipositor, showing cutting saws and egg passages.</li>
+</ul>
+</div>
+
+  <div class="figcenter" id="plate33">
+     <p class="p1 sm center"><i>Plate XXXIII.—HOMOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate33.jpg"
+    alt="">
+  </div>
+
+<p>The head is broad, more or less truncate in front, with prominent
+eyes on the sides, and small gem-like ocelli arranged triangularly on
+the summit; each antenna consists of one stout basal joint surmounted
+with several (usually four) segments forming a bristle. The tegmina or
+fore wings, larger and stouter than the hind pair, are furnished with
+thickened veins, and are frequently mottled with brown, usually forming
+bands or spots on the cross nervures. The swollen fore legs are spined;
+the thorax is well developed; and while the large hollow abdomen of
+the male is pointed at the extremity, that of the female (usually the
+larger insect) is furnished with a horny retractile ovipositor, which
+is adapted for cutting the bark of the twig, wherein she deposits her
+eggs.</p>
+
+<p>The complicated musical apparatus of the male is situated between the
+thorax and base of the abdomen, and consists of a large plate on either
+side attached to, but extending over the basal portion of the abdomen
+(these plates are often called the drums or opercula); beneath in the
+abdomen is a cavity formed into two cells within which are two thin
+glass-like plates called mirrors; above these mirrors are bundles of
+muscles which lead to two membranes formed like kettle-drums; each
+membrane has a concave and a convex surface, the latter folded and full
+of ridges.</p>
+
+<p>Haswell (Pro. Linn. Soc. N.S.W. 1886) describes it thus: “The loud
+shrill note emitted by the insect is the result of a quick succession
+of crackling sounds produced by the movement of the stiff membrane
+with its horny ribs, through the agency of the muscle. Under ordinary
+circumstances, the sounds follow one another with sufficient quickness
+to produce a continuous note, and this is effected not by the
+contraction of the muscle as a whole, but by the successive contraction
+of individual <i>fasciculi</i> (different filaments forming the whole),
+all of which act on the horny plate, and thus the movements of the
+muscle on the tendon during the production of the note resemble those
+of the hammer-board of a piano when a number of keys are being struck
+in quick succession.”</p>
+
+<p>The life history of cicadas has attracted much attention; on first
+emerging from the eggs they might easily be taken for minute shrimps,
+apparently all heads and claws. They cast themselves off the branch
+and, falling to the<span class="pagenum" id="Page_348">[348]</span> ground, burrow into the soil and follow down the
+roots, where they feed upon the sap and undergo a series of moults. We
+do not know the length of time that they take to develop underground,
+but the adults of several of our large species, though each year more
+or less in evidence, appear in greater numbers every third year, so
+that it is probable that three years is about the cycle of their
+subterranean existence. The grotesque pupa burrowing upward when fully
+developed, bores a vertical shaft often several feet long before it
+comes to the surface, when it crawls out and climbs up the nearest tree
+trunk or fence, where it clings till the skin splits down the back, and
+the perfect cicada emerges. The dry brown pupal shells firmly attached
+by the sharp claws remain long after the inmates have departed.</p>
+
+<p>Cicadas are well represented in our insect fauna, a number of large
+handsome species being found along the coastal forest country, and many
+smaller ones in the interior. The large ones attracted the attention of
+collectors at a very early date: Donovan, Leach, and Guérin described
+several, and Walker (British Museum Catalogue, Homoptera 1850) added a
+number of new species from material in the Museum collections, but his
+localities and descriptions are very vague and unsatisfactory. Since
+then Distant between 1882 and the present date has greatly increased
+our list of described species. In 1904 Dr. Goding and I monographed the
+Australian Cicadas (Pro. Linn. Soc. N.S.W.), describing a number of new
+forms, and bringing the number up to 120 species in 18 genera. Last
+year (1906), the Trustees of the British Museum issued a “Synonymic
+Catalogue of Homoptera, Part I., Cicadidae,” compiled by Distant; in
+this a number of alterations in the earlier classification are made,
+as indicated in his recent contributions on this family in “The Annals
+and Magazine of Natural History” 1900–1906. He places them in three
+distinct sub-families which are subdivided into seventeen smaller
+divisions. Many of our species are now placed in other genera.</p>
+
+<p>The sub-family <span class="smcap">Cicadinae</span> contains many of our largest and
+most striking species. Its members have the front edge of the basal
+abdominal segment on each side produced forward in a leaf-like
+expansion, which more or less covers the sound organs.</p>
+
+<p>The genus <i>Thopha</i> contains two very fine species: <i>Thopha
+saccata</i>, “The Double Drummer,” takes its popular name from the
+great size of the opercula projecting on the sides of the thorax. It is
+a reddish brown cicada, its wings marked with brown and black, and it
+measures 5 inches across the outspread wings; it lives in open forest
+country; has a loud, distinct note; and ranges from South<span class="pagenum" id="Page_349">[349]</span> Australia
+to Brisbane. <i>Thopha sessiliba</i> is a somewhat smaller but
+brighter-coloured species ranging northward along the Queensland coast
+from Townsville, and is found in Central Australia at Tennant’s Creek.</p>
+
+  <div class="figcenter" id="fig154" style="max-width: 522px">
+     <img
+    class="p1"
+    src="images/fig154.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 154.</b>—<i>Thopha saccata</i> (Fabr.).</p>
+     <p class="p0 smaller center">The large Cicada called by the children “The Double Drummer.”</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>The Genus <i>Arunta</i> was formed by Distant to contain two Australian
+species, of which <i>Cicada perulata</i> described by Guérin is
+the type. It is a handsome insect, 4 inches across the wings; is
+of a reddish brown tint mottled with lighter colours; the wings
+are unspotted; and the male can be easily recognised by the large
+white frosted opercula. It is not a very common species; it is taken
+sometimes about Sydney.</p>
+
+<p>The next division contains three genera typical of Australian species.
+The Genus <i>Cyclochila</i> until lately contained a single species,
+but Distant has lately described a second from N. Queensland.
+<i>Cyclochila australasiae</i> is our common large green cicada, called
+by the children the “Green Monday.” The whole insect is rich green, the
+colour extending into the nervures of the tegmina; there is a yellow
+variety not so common, called in consequence the “Yellow Monday”: I
+have counted as many as 40 of these fine insects resting on the trunk
+of a small oak-tree in my garden in the early morning.</p>
+
+<p>The Genus <i>Psaltoda</i> contains 7 species peculiar to Australia.
+<i>Psaltoda moerens</i>, our common black cicada, is called the “Red
+Eye” by the Sydney boys on account of the bright colour of the ocelli.
+It measures over 4 inches across the wings, which are mottled with
+black on the tegmina, and marked with the same colour on the wings.
+It frequents the smooth white-stemmed gum trees, and ranges from<span class="pagenum" id="Page_350">[350]</span>
+Brisbane, Queensland to Adelaide, South Australia, and is also found
+in Tasmania. <i>P. harrisi</i> is a smaller and somewhat variable
+form both in size and colour; it varies from black to brown and even
+dull green; the wings are very slightly mottled, and it can be easily
+distinguished from the “Red Eye” by the more distinct silvery patch on
+the sides of the body.</p>
+
+  <div class="figcenter" id="fig155" style="max-width: 507px">
+     <img
+    class="p1"
+    src="images/fig155.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 155.</b>—<i>Psaltoda (cicada) moerens</i>
+(Germer).</p>
+     <p class="p0 smaller center">The Common Black Cicada or “Red Eye.”</p>
+     </div>
+
+<p>The members of the Genus <i>Henicopsaltria</i>, four in number, are
+also peculiar to this country. <i>Henicopsaltria eydouxi</i>, one of
+our commonest species, frequents the trunks of the rough-barked gum
+trees; I have counted over 300 on a single tree on the coast near
+Gosford, N.S.W. It measures nearly 5 inches across the wings; is of
+a general mottled light brown and chestnut colour, with the wings
+infuscated with three zig-zag bands of brown; the opercula are orange
+red. <i>H. fullo</i>, peculiar to W. Australia, is a very distinctive
+blackish coloured species measuring about 3 inches across the wings; it
+can be easily identified by its banded wings and the dorsal surface of
+the abdomen ornamented with a transverse white band about the centre
+of the body. The Genus <i>Macrotristria</i> now contains 7 species;
+most of these were originally described in the Genus <i>Cicada</i>,
+and have representatives in all parts of Australia, two coming from
+W. Australia, and two richly-coloured green species from the tropical
+forests of N. Queensland, while <i>Macrotristria angularis</i>, our
+common, large, dark brown species, variegated with light yellowish
+spots on the head and thorax and with deeply infuscated wings, ranges
+from Adelaide, S.A., to Queensland.</p>
+
+<p>The Sub-family <span class="smcap">Gaeninae</span> contains a number of South American
+and Asiatic cicadas, among them some with very brightly coloured wings.
+Two members of the Genus <i>Tettigia</i> are found in North Queensland
+and North Australia, both<span class="pagenum" id="Page_351">[351]</span> of which were once placed in the genus
+<i>Tibicen</i>; while <i>Tettigia tristigma</i> is the type of the
+Genus <i>Tamasa</i>. The handsome black and yellow mottled <i>Gaeana
+maculata</i>, common in India and China, has been recorded by White
+from Australia, and Goding and I had specimens from the Northern
+Territory of S. Australia, but Distant does not notice this record.</p>
+
+<p>The Sub-family <span class="smcap">Tibicininae</span> have the front edge of the basal
+abdominal segment straight, not produced forward; and the sound
+organs are entirely uncovered. <i>Venustria superba</i> is a curious
+ferruginous insect with rich coppery tints upon the tegmina and wings,
+which comes from North Queensland. Dodd usually collected it in the
+neighbourhood of termite nests.</p>
+
+  <div class="figcenter" id="fig156" style="max-width: 588px">
+     <img
+    class="p1"
+    src="images/fig156.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 156.</b>—<i>Henicopsaltria eydouxi</i> (Guérin).</p>
+     <p class="p0 smaller center">The Mottled Grey Cicada.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>The Genus <i>Abricta</i> now includes most of our species previously
+placed in the Genus <i>Tibicen</i>; thirteen are listed from Australia.
+<i>Abricta curvicosta</i>, one of the largest, measures about 4 inches
+across the wings; is reddish brown with a pale stripe down the centre
+of the prothorax, and three black spots on each of the tegmina. It
+is one of the common species about Sydney, N.S.W., in midsummer, and
+is called the “Floury Miller” on account of the silvery pubescence
+covering the body which makes it look as if it had been dusted with
+flour. <i>A. aurata</i> ranges from Tasmania and Victoria into the
+southern districts of N.S. Wales, and is usually found upon the fern
+trees; it is a smaller darker coloured cicada with a large, sometimes
+double, black spot on each tegmina.</p>
+
+<p>Distant (Pro. Zool. Soc. 1882) described a number of new species
+chiefly obtained from North Queensland; and, finding it difficult
+to give them distinctive specific names that would define their
+peculiarities, he got over the difficulty by naming them after
+Australian explorers. <i>A. willsi</i> is a small species<span class="pagenum" id="Page_352">[352]</span> measuring
+about two inches across the wings, which are marked with two small
+spots, and it can be easily distinguished from all the others by the
+curious rugose yellowish patch on the sides of the prothorax. It has
+a very wide range over N.S. Wales, Queensland, North, and probably W.
+Australia, both along the coast and in the interior.</p>
+
+<p><i>Parnkella muelleri</i> is only about 1½ inches across the wings
+which have two spots on each tegmina, and is of a pale yellow tint.
+It is restricted in its range to North Queensland. The tiny little
+yellowish green cicada found upon the grassy plains of Southern
+Victoria and S. Australia, described as <i>Tibicen infans</i>, is now
+placed in the South African Genus <i>Quintilia</i>.</p>
+
+  <div class="figcenter" id="fig157" style="max-width: 484px">
+     <img
+    class="p1"
+    src="images/fig157.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 157.</b>—<i>Macrotristria (cicada)
+angularis</i> (Germer).</p>
+     <p class="p0 smaller center">The “Fiddler.”</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>The Genus <i>Chlorocysta</i> contains two curious pale green insects
+with vitreous tegmina and wings, the former much more closely
+reticulated than the ordinary cicada, with many cross and parallel
+nervures. The head is small, and the body of the male is swollen and
+cylindrical. <i>Chlorocysta vitripennis</i> was described by Westwood
+(Ann. Nat. Hist. 1851); the larger male measures slightly over 2 inches
+across the wings. The female is greenish or reddish, the abdomen
+conical but not inflated. They frequent low scrub; the southern forms
+found about the Tweed River, N.S.W., are green or yellowish; those from
+North Queensland quite brown. <i>Glaucopsaltria viridis</i>, described
+by Goding and me from S. Queensland, is placed by Distant in this genus.</p>
+
+  <div class="figcenter" id="fig158" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig158.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 158.</b>—Section of stem of eucalyptus, in
+which the Black Cicada (<i>Psaltoda moerens</i>) has laid her eggs.</p>
+     </div>
+
+<p>The Genus <i>Melampsalta</i> contains a great number of our<span class="pagenum" id="Page_353">[353]</span> small
+black or dark brown cicadas often marked with orange red or dull
+yellow. The members of the genus are found over Asia, Africa and
+Europe, over 40 are described from Australia, and 7 from New Zealand.
+Some species are very numerous in early summer, and are known as
+“Squeakers” on account of their musical notes. <i>Melampsalta
+torrida</i>, originally described by Erichson from Tasmania, has a wide
+range round from Queensland to W. Australia. It is almost black, with
+several light marks in the centre of the thorax, and two irregular
+rounded confluent black spots at the tips of the tegmina. It measures
+about two inches across the wings, but is variable both in size and
+in the wing markings. <i>M. abdominalis</i>, about the same size, is
+black, with two lines of reddish yellow on the apical portion of the
+dorsal surface of the abdomen, and the under surface red; when the
+tegmina are closed there is a distinctive opaline mark on either side.
+It is common in S. Australia and<span class="pagenum" id="Page_354">[354]</span> N.S.W. <i>M. eyrei</i> is a much
+smaller species, with the head and thorax black, lined with yellow, and
+the whole of the abdomen except the black tip, bright yellow; it is
+common in N. Queensland.</p>
+
+<p>The members of the Genus <i>Pauropsalta</i> are easily distinguished
+from those of the previous group by having five apical areas in the
+wings, while the former have six. Sixteen species are described from
+Australia. <i>Pauropsalta encaustica</i> is our commonest species with
+a very wide range over Australia; it is of a uniform black tint, with
+faint pale brown marks on the head and prothorax, and an infuscated
+patch on the hind margins of the wings; the abdominal segments are
+finely ringed with white to reddish brown. <i>P. annulata</i> is a
+synonym of this cicada. <i>P. nodicosta</i> is a small brown species
+from Kalgoorlie, W.A., with a curious node in the centre of the costal
+nervure of the tegmina. <i>P. mneme</i>, larger, and broader than <i>P.
+encaustica</i>, has the abdominal segments richly edged with red. It is
+common on the Blue Mountains, N.S.W.</p>
+
+<p>The Genus <i>Cystosoma</i> was created by Westwood (1842) to contain
+the great green “Bladder Cicada” which he called <i>Cystosoma
+saundersi</i>, that at one time was common in the orange orchards
+around Newcastle, N.S.W. Mrs. Ross says it is now common about
+Armidale, N.S.W., on the sweet brier, and I have also had it on willows
+from Glen Innes N.S.W. A second much smaller species, with similar
+opaque green tegmina, <i>C. schmeltzi</i>, ranges up the coast of North
+Queensland.</p>
+
+<p>The two curious hairy brown cicadas belonging to the Genus
+<i>Tettigarcta</i> are restricted in their range. <i>Tettigarcta
+tomentosa</i>, the darkest in tint, has each side of the thorax
+produced into a distinct spine; it is only found in Tasmania. <i>T.
+crinita</i> comes from similar country in the Gippsland forests,
+Victoria; it is not quite so hairy, and has the thorax rounded on the
+outer margin without any spines.</p>
+
+<hr class="r25">
+
+<h4>Family 2. Frog-Hoppers.<br>
+<span class="subhed">CERCOPIDAE.</span></h4>
+
+<p>The members of this family are not very numerous though world-wide in
+their distribution. They are stout, wedge-shaped, elongate insects
+of moderate size; the head is furnished with large flattened eyes
+on the sides; with a few exceptions two ocelli are present on the
+vertex between the eyes; the small, short antennae, composed of two
+bead-shaped<span class="pagenum" id="Page_355">[355]</span> joints surmounted with a bristle, are placed in front
+of and between the eyes. The pronotum is large with the triangular
+scutellum occupying the centre of the back; the tegmina, longer than
+the body, are coriaceous, reticulate, with two long discoidal and five
+or more apical cells. The coxae and femora are short; the posterior
+tibiae are hardly longer than the others, rounded at the base,
+spatulate at the apex, armed on the outer margins with two stout spurs,
+the second twice the length of the first; the tibiae and basal joints
+of the tarsi are terminated with rows of spines.</p>
+
+<p>Most of our known species were described by the French naturalists,
+Amyot &amp; Serville (Annals Soc. Entom. de France 1845); and Walker (Brit.
+Museum Cat. Homoptera 1851); and but little attention has been paid
+to them since. Our most characteristic species belong to the Genus
+<i>Eurymela</i>. Seventeen species are listed by Walker from all parts
+of Australia. They are large, thickset frog-hoppers, with the head
+broad and truncate in front with the face much inflexed; their general
+tint is blue-black with the head and elytra marked with red or white
+bands or spots. They lay their eggs under the bark of young gum trees,
+slitting it in regular rings with their stout ovipositors and leaving
+a white papery substance along the punctures. The young cling to the
+twigs in clusters after they emerge, and they may often be seen in
+different stages of growth upon the same bush. They are very active
+little creatures, creeping round the twig when disturbed, and jumping
+as soon as they are touched. Many of them are much sought after by ants
+which come to them for the honey dew they secrete.</p>
+
+<p><i>Eurymela bicincta</i> measures ½ an inch in length, and is broad in
+proportion; it is of a uniform dark shining blue tint, with the head,
+thorax, and base of the elytra bright red. It has a wide range and may
+often be found in colonies of 30 or 40 clustering together on a gum
+sapling. <i>E. rubrovittata</i> is about the same size; it is black,
+with the under surface, face, and three narrow transverse bands round
+the thorax and elytra bright red. It has a range from Western Australia
+to Queensland. <i>E. speculum</i> is a common species, recorded from
+Tasmania to Queensland; it is of a uniform dark blue-black tint with a
+white patch on either side of the face, and two irregular oval white
+spots on each wing cover. <i>E. pulchra</i> is smaller, with the head
+and thorax marked with red, and two irregular broken bands of white on
+the side of each wing cover.</p>
+
+<p>Five species of the Genus <i>Aphrophora</i> are described by Walker
+from Tasmania and Australia. The members of this genus are known as
+“Cuckoo-spittle Insects” from the<span class="pagenum" id="Page_356">[356]</span> remarkable habit the larvae have of
+enveloping themselves in a mass of frothy liquid, which is supposed to
+be formed to protect their soft bodies from insects that might prey
+upon them; it, however, really makes them very conspicuous objects on
+a twig, and several species of wasps are known in America to drag them
+out of this covering and use them to provision their nests.</p>
+
+<p>Our common “Cuckoo-spittle Insect,” found upon the she-oak (Casuarina),
+ti-tree (Leptospermum), and Melaleuca, is <i>Chalepus teliferus</i>;
+the larvae are pale-brown soft oval creatures, which jump when removed
+from the frothy liquid, and in this liquid they remain enveloped until
+they are ready to emerge. The perfect insect measures under ½ an inch
+in length, is of an elongate boat-shaped form; the head is produced
+in front as a slender process, curved upwards; the tips of the elytra
+come to a compressed point; the general colour is dull reddish brown,
+with the horn on the head ferruginous, and the wing covers mottled on
+the sides with black. A second species, <i>Chalepus pugionatus</i>, has
+been described by Stal from Australia.</p>
+
+<hr class="r25">
+
+<h4>Family 3. Tree-Hoppers.<br>
+<span class="subhed">MEMBRACIDAE.</span></h4>
+
+<p>This is a group of homopterous insects chiefly confined to the tropical
+parts of the world. They are well represented in Australia, though
+we have nothing like the remarkable creatures covered with horns and
+spines found in South America and popularly known in consequence as
+“little devils.” They are remarkable for the wonderful development of
+the prothorax which, projecting in front, often forms a hood above the
+head, so that the latter is much hidden when viewed from above; the
+eyes are globular and project on the sides of the head, and there is
+a pair of ocelli in a line between them; while the short bristle-like
+antennae are well below the eyes on either side of the base of the
+stout rostrum (beak), which at rest is turned down between the legs.
+The abdomen is covered with the wings and parchment-like tegmina,
+the extremities of which come together to form a sharp point. The
+legs are short and stout, without the numerous spines common on the
+“frog-hoppers”; and the tarsi consist of three joints, the first
+longest. They can both fly and jump very well, but trust to the latter
+method to escape from their enemies. They and the members of<span class="pagenum" id="Page_357">[357]</span> allied
+families can be easily collected by shaking or beating low scrub over
+an open umbrella; or can be bred from larval forms on the food plant.</p>
+
+<p>Very little attention had been paid to our tree-hoppers until a few
+years ago when Goding published his “Check List of the Membracidae
+described from Tasmania and Australia” (Pro. Linn. Soc. N.S.W. 1898);
+in this he gives many notes and lists 22 species, chiefly described by
+Walker (Brit. Museum Cat. Homoptera 1851), Fairmaire, in his Review
+of the family in 1846, and Stal in 1869. In 1903 Goding, in the same
+Journal, published a “Monograph of the Australian Membracidae.” In
+this he re-describes all the known, and adds a number of new species
+to our fauna, bringing the list up to a total of 32 described species,
+comprised in 14 genera, grouped in 6 sub-families, based chiefly upon
+the shape and structure of the prothorax.</p>
+
+<p>The Genus <i>Sextius</i> contains five species, in which the prothorax
+is ridged in the centre and produced on either side into a rather short
+acute horn standing out on either side, and with the apical portion
+produced into a keeled spine extending to the tip of the abdomen.
+<i>Sextius virescens</i>, our commonest species, is of a delicate green
+colour, and feeds upon the sap of the black wattle and other species
+of Acacia. In early summer it may be found among the foliage in all
+stages of development; the trees they frequent are frequently infested
+with ants which come to obtain the honey dew. The female slits the bark
+with her ovipositor, and lays the eggs in rows. <i>S. depressus</i>,
+about the same size, slightly over ¼ of an inch in length, ranges
+from Western Australia to Queensland: at Kempsey, N.S.W., I obtained
+specimens on a slender leafed Acacia. It is of similar green colour to
+<i>S. virescens</i>, with the front of the thorax of a lighter tint,
+but the projecting horns are shorter and depressed, and the venation of
+the elytra is much finer. <i>S. australis</i> is about the same size,
+and of a uniform black tint with a patch of bright silvery pubescence
+on the sides of the thorax, which is rounded in front and has very
+short blunt horns. It lives upon the branchlets of a prickly Hakea
+growing about Sydney.</p>
+
+<p><i>Lubra spinicornis</i> is a slightly smaller insect, of a general
+dull brown tint: it has the prothorax produced into two almost erect
+clubbed horns. Specimens have been obtained from Brisbane, Queensland,
+and the northern rivers of New South Wales. <i>Daunus tasmaniae</i> is
+of the same chocolate brown colour; is more robust in proportion. The
+prothorax forms a regular hood swelling out on either side at the base
+of the tegmina, and the projecting horns are curved and deeply ridged,
+and are chisel-shaped at the tips.<span class="pagenum" id="Page_358">[358]</span> It is one of the commonest species
+in Tasmania, and is recorded over a wide area of the eastern mainland
+as far North as Brisbane.</p>
+
+<p><i>Eufroggattia tuberculata</i> is a rare insect usually found resting
+on a twig of a eucalyptus sapling, and is shaped very much like some
+of the small plant bugs belonging to the Genus <i>Testrica</i>; it is
+short and broad in form, with the head exposed; the thorax has short
+blunt horns; and the abdomen is broadly rounded at the apex.</p>
+
+<hr class="r25">
+
+<h4>Family 4. Lantern-flies.<br>
+<span class="subhed">FULGORIDAE.</span></h4>
+
+<p>This is a very difficult family to satisfactorily define, as their
+members are very diverse in general shape and structure, with points of
+resemblance that bring some of the genera very close to the Cercopidae
+(from which however they differ in the shape of the head), while they
+somewhat resemble the Jassidae in the structure of the legs.</p>
+
+<p>The typical forms have the front of the head either produced into a
+lance-shaped structure, or the face and vertex either rounded in front
+or forming an acute angle. The eyes are large and stand out on the
+sides of the head; the ocelli, usually two in number, are situated
+below or near the eyes and are placed in the cavities on the cheeks; in
+a few species there are three ocelli, while in others they are wanting.
+The antennae, situated beneath the eyes, and often very peculiar in
+structure, consist of two short joints surmounted with a bristle.</p>
+
+<p>Many are large handsome insects with bright coloured tegmina and wings;
+others are of delicate green and grey tints, quite moth-like in form,
+but can be easily distinguished by the way they rest with their stiff
+roof-like wings, and by their active jumping habits. The legs are often
+long, and the hind pair are furnished with a few stout spines on the
+tibae, but never thickly spined as in the Jassidae. Many of our larger
+species are found both in the larval and perfect state, on tree trunks.
+A few species are well-known pests and have an extended range beyond
+Australia.</p>
+
+<p>Donovan described and figured several species (Insects of New Holland,
+1815); Westwood figured and described two in his “Monograph of the
+Genus Fulgora” (Trans. Linn. Soc. 1837): but the majority of our
+species are described by Walker (Brit. Mus. Cat. Homoptera, 1851), and
+he also named<span class="pagenum" id="Page_359">[359]</span> others in “Insecta Saundersiana, Homoptera,” 1858, which
+describes the insects in W. W. Saunders’ great collection.</p>
+
+<p><i>Siphanta acuta</i>, better known under the name of <i>Cromna
+acuta</i>, is one of our commonest fulgorids, moth-like in appearance,
+of a pale green colour, with broad square-cut fore wings and a short
+pointed head. It measures about an inch across the outspread wings.
+It has a wide range in Australia; and its pale green fluffy larvae
+feed upon the sap of many plants, and readily jump when touched. It is
+also well known in Hawaii, Sandwich Islands, where it is called the
+“torpedo-bug” from the way it jumps; and it is said to be a pest on the
+coffee plants (Smith Annual Report, Hawaii 1904). A number of species
+of these moth-like forms are described by Walker from Australia and
+Tasmania, and placed in the Genus <i>Bythoscopus</i>, which genus, when
+further studied, will probably be much subdivided.</p>
+
+  <div class="figcenter" id="fig159" style="max-width: 529px">
+     <img
+    class="p1"
+    src="images/fig159.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 159.</b>—<i>Scolypopa (Pochazia) australis.</i></p>
+     <p class="p0 smaller center">The Common Passion-vine Hopper.</p>
+     </div>
+
+<p><i>Pochazia australis</i> measures about ¾ of an inch across the short
+broad fore wings, which are margined and irregularly barred with
+chocolate brown; the head is short and rounded in front. Melichar,
+in his “Monographie der Ricaniiden, Wien,” 1898, places <i>P.
+australis</i> in the Genus <i>Scolypopa</i>. The larva is a green
+wedge-shaped little creature clothed at the tip of the abdomen with a
+bunch of white filaments. It is a very common insect with a wide range.
+Sometimes it is a pest on passion vines; the eggs are laid in the
+slender tendrils, and the larvae suck up the sap of the stalks. Another
+species is common among the foliage of the silky oak (<i>Grevillia
+robusta</i>) in Southern Queensland.</p>
+
+<p><i>Achilus flammeus</i> has the body and wings of a bright<span class="pagenum" id="Page_360">[360]</span> red colour,
+with the small head showing prominently in front: the broadly rounded
+opaque elytra and wings cover the short body. It measures about an inch
+across the outspread wings. Nothing is known about its habits or life
+history, but in the summer evenings it sometimes comes flying towards
+the light, and can be found on the windows.</p>
+
+<p>The Genus <i>Poeciloptera</i> contains a number of small, short
+broad-winged forms. Donovan figures <i>Poeciloptera modesta</i>, which
+has pink fore wings, each marked with two small red spots, and the hind
+wings have a pale bluish tint.</p>
+
+<p><i>Prolepta dilatata</i> is a typical, dull reddish-brown fulgorid,
+measuring nearly an inch from the tip of the long slender head to the
+extremities of the folded tegmina which are broadest across the tips:
+and the slender prolonged forehead is over two lines in length. This
+insect was described from W. Australia, but it has a wide range and can
+be collected about Sydney. <i>P. obscurata</i> is about the same size,
+more rugose in structure, and with markings of dark brown; the markings
+on the somewhat opaque wings are more distinct, striated and irregular
+than in <i>P. dilatata</i>: it can also be easily recognised by the
+shorter and thicker process on the forehead. It has a wide range over
+Australia.</p>
+
+<p>The Genus <i>Eurybrachys</i> contains a number of short, dark brown
+insects with broad rounded heads; they run about on the trunks of
+trees, jumping at the least alarm. <i>Eurybrachys leucostigma</i> is
+a very stout, broad, dull brown insect, about ¾ of an inch across
+the outspread wings. Some 16 species are described from all parts of
+Australia. The members of the Genera <i>Ledra</i> and <i>Stenocotis</i>
+are broad elongate insects with the front of the head spade-shaped, and
+the convex body tapers to a sharp point. Their larvae are almost as
+flat as a bit of paper. <i>Stenocotis australis</i> is about ¾ of an
+inch in length, and of a dull brown tint.</p>
+
+<hr class="r25">
+
+<h4>Family 5. Leaf-Hoppers.<br>
+<span class="subhed">JASSIDAE.</span></h4>
+
+<p>These insects are minute froghopper-like forms with the head rounded in
+front, and with the body tapering towards the tips of the tegmina. The
+head is large, with the oval or rounded eyes projecting on the sides,
+and with a pair of ocelli situated on the front margin. The antennae,
+bristle-like, of considerable length, are each composed of two short
+cylindrical basal joints with a thread-like terminal<span class="pagenum" id="Page_361">[361]</span> portion, and are
+placed in front and below the eyes. The legs are long, well adapted for
+jumping (their chief means of progression); and the tibiae of the hind
+pair are thickly clothed with stout spines.</p>
+
+<p>Though these insects are very small, many species appear upon crops
+and herbage in such immense numbers that they often do a great deal
+of damage, and are very interesting from an economic standpoint. In
+Japan, for instance, there are several species very serious pests in
+the rice fields; while in North America <i>Erythroneura vitis</i> is a
+well-known pest upon the foliage of vines.</p>
+
+<p>They are abundant on the low scrub and grass lands in this country in
+favourable localities, and may be easily collected with a sweeping
+net, or by shaking the bushes over an open umbrella; yet, probably on
+account of their small size and retiring habits, few specimens are to
+be found even in our Museum collections.</p>
+
+<p>The sugar-cane hopper, <i>Perkinsiella saccharicida</i>, a native of
+Queensland, is a dull brownish yellow hopper with a dark parallel
+stripe down the centre of the basal portions of the tegmina; it
+measures a ¼ of an inch in length. Kirkaldy described it from Hawaii,
+where it has been introduced, and is a serious pest to the sugar-cane.</p>
+
+<p>A very pretty little unidentified species, bright red and yellow, with
+the fore wings marked with dark brown, is common upon the broad soft
+leaves of <i>Eucalyptus robusta</i>, where the curious little larvae
+rest in families of three or four; each is enveloped in white filaments
+which proceed from round the tip of the abdomen. The larvae of another
+species have been observed to form large colonies on the surface of
+the leaves of low eucalyptus bushes on the hills near Capertee N.S.W.
+They suck up the sap, discolouring the centre of the leaves; each
+exudes a globule of liquid from the tip of the abdomen, which they drag
+out into thin threads with their hind legs, to form a spider-web-like
+covering over their bodies, and this web dries soon after the leaves
+are gathered.</p>
+
+<hr class="r25">
+
+<h4>Family 6. Lerp Insects.<br>
+<span class="subhed">PSYLLIDAE.</span></h4>
+
+<p>These are small homoptera, in appearance suggesting miniature cicadas.
+The head is generally broader than long, sometimes deflected and with
+large eyes; the ocelli are three in number, the lateral ones situated
+on the summit of the head close to the hind margins of the eyes, and<span class="pagenum" id="Page_362">[362]</span>
+the central one at the apex of the median suture. The antennae are
+each composed of ten joints, the first two shorter and thicker than
+the following ones, and the terminal joint surmounted with two short
+bristles. The thorax is broad, with well developed tegmina and wings,
+and like the aphids both pairs might properly be called wings. The
+venation is simple, constant, and useful in the work of classification.
+They are formed for jumping, with a spine-like process on the coxa of
+each hind leg, and the apex of the tibiae of the hind legs furnished
+with a row of short fine spines. The tarsi are two jointed, terminating
+in a pair of large claws.</p>
+
+  <div class="figcenter" id="fig160" style="max-width: 556px">
+     <img
+    class="p1"
+    src="images/fig160.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 160.</b>—Diagram of Psylla (<i>Thea opaca</i>) ♀.</p>
+     <p class="p0 smaller center">Showing the structure and venation of the wings.</p>
+     <p class="p0 smaller hangingindent">1<i>a</i>, Face lobes; 2<i>a</i>, prothorax; 3<i>a</i>,
+mesanotum; 4<i>a</i>, dorsulum; 5<i>a</i>, scutellum, tegmina;
+1<i>b</i>, costal nervure; 2<i>b</i>, primary stalk; 3<i>b</i>,
+clavus; 4<i>b</i>, clavical suture; 5<i>b</i>, stalk of
+sub-costa; 6<i>a</i>, stalk of cubitus; 7<i>b</i>, sub-costa;
+8<i>b</i>, lower branch of cubitus; 9<i>b</i>, upper branch of
+cubitus; 10<i>b</i>, lower fork of lower cubitus; 11<i>b</i>,
+stigma; 12<i>b</i>, upper fork of the lower branch of cubitus;
+13<i>b</i>, radius; 14<i>b</i>, lower fork of upper cubitus;
+15<i>b</i>, upper fork of upper cubitus.</p>
+     <p class="p0 smaller hangingindent">3, Genitalia ♂; 4, Genitalia ♀; 5, Head of <i>Spondyliaspis
+eucalypti</i>, showing face lobes.</p>
+     <p class="p0 smaller center">(Pro. Linn. Soc. N.S.W.)</p>
+     </div>
+
+<p>The female lays her eggs in clusters on the twigs or foliage, from
+which the curious, little, large-headed larvae emerge, and, after
+undergoing a series of moults during<span class="pagenum" id="Page_363">[363]</span> which they develop large
+wing-pads on the shoulders and more joints in the antennae, they
+finally come forth, perfect four-winged insects. They take their family
+name from <i>Psylla</i>, a flea, given them by Linnaeus in reference
+to their jumping powers, and their popular name of “Lerp Insects,”
+from the habit of the larvae of many species of forming “lerp scales,”
+shell-like protective coverings formed from exudations from the
+insects. Other species cover themselves with flocculent matter after
+the manner of mealy bugs; and yet another group form regular oval or
+rounded galls on the foliage. They are found in most of the warmer
+parts of the world, and are very numerous in Australia, where they seem
+to take the place of the <span class="smcap">Aphidae</span> to a certain extent; they are
+readily collected in all stages of growth upon their food plant, and
+can be easily bred.</p>
+
+<p>The Sugar lerp, <i>Psylla eucalypti</i>, whose larvae cover the leaves
+of several species of gum trees with their white woolly shells, was
+described by Dobson from Tasmania (Pro. Royal Soc. Van Diemen’s Land,
+1851). It is a slender little green creature with very long face lobes,
+and, when crawling about, turns the tip of its body upwards, so that it
+looks as if it were walking on its head. It is now placed in the Genus
+<i>Spondyliaspis</i>.</p>
+
+<p>In the same year (1851) Walker published his Homoptera (Cat. Brit.
+Museum) in which he recorded 5 species, all from Tasmania; and it was
+not until 1898 that they were again noticed when Maskell described 3
+species from Australia (Trans. N. Zealand Inst.); and Schwarz defined
+another (Pro. Ent. Soc. Washington) in 1897. Between the years 1900 and
+1903 I contributed three papers (Pro. Linn. Soc. N.S.W.) monographing
+our species, in which 64 new species are added to our fauna. I followed
+Low in the classification of the sub-families, adding Scott’s fifth
+division for those with small heads and no face lobes.</p>
+
+<p>In the <span class="smcap">Liviinae</span>, the front of the head is not produced into
+face lobes; the stalk of the cubitus is either shorter, as long as, or
+longer than the lower branch of the cubitus. <i>Crewiis longipennis</i>
+is of a general bright red tint, and is ¼ of an inch in length; it
+ranges from Tasmania to the North of New South Wales. The larva forms
+a rounded pale yellow lerp covered with fine woolly filaments upon
+the leaves of gum trees. <i>Lasiopsylla rotundipennis</i> forms a
+large, flattened, irregularly rounded white scale on the foliage of
+<i>Eucalyptus melliodora</i>, under which the flattened, pale green
+larva hides.</p>
+
+<p>The Sub-family <span class="smcap">Aphalarinae</span> contains a number of small species,
+and the head is produced in front into face lobes, with the stalk of
+the cubitus as long as or longer than the<span class="pagenum" id="Page_364">[364]</span> stalk of the sub-costa. They
+usually form lerp scales; but some are naked, or clothed with soft
+white woolly filaments.</p>
+
+<p>Several species of the Genus <i>Spondyliaspis</i> belong to this group;
+all of them form “sugar lerp scales,” often encrusting all the foliage
+of the young gum trees, and are so abundant that in the Mallee scrub
+country in Victoria and S. Australia the blacks used to collect and
+eat it in quantities, and had a regular “manna harvest.” <i>Cardiaspis
+artifex</i> is a short, reddish yellow insect, the larvae of which form
+beautiful barred shell-like lerps, marked with red and yellow to look
+like delicate fretwork, upon the leaves of <i>Eucalyptus robusta</i>.
+<i>C. tetrix</i> is a pretty pink and grey species found in the Adelong
+district, N.S.W. The larva constructs a most remarkable cage of fine
+red bars, not unlike a lady’s hair net, beneath which the larva crawls
+about freely like a bird in a cage. <i>Rhinocola corniculata</i>
+often covers the leaves of different eucalypts with its elongate,
+opaque, horny, yellow lerps. The test is not unlike that of a large
+<i>Mytilaspis</i> scale, but is open at the broad end through which
+the little larva can creep in and out. It ranges from New South Wales
+to Western Australia. <i>R. eucalypti</i> is a very tiny, little, dark
+brown psylla, the larvae of which cluster at the tips of the foliage of
+young blue gums (<i>Eucalyptus globulus</i>), and cover themselves with
+threads of white flocculent matter. It was described by Maskell from
+New Zealand, but is common both in Tasmania and Australia: it has also
+been introduced into Africa on the same eucalypt.</p>
+
+<p>The larvae of the Genus <i>Thea</i> are curious, broad, flattened
+creatures, with hard integument. They hide under the dead bark on
+the trunks of the white stemmed gums, spreading their white woolly
+secretion around them; the ants look after them, and probably protect
+them from many enemies in return for the “honey dew,” of which
+secretion the ants are very fond. <i>Thea opaca</i> is of a general
+reddish pink colour mottled with brown and black; the wings are
+transparent, with a dark stigma on the fore wing.</p>
+
+<p>The members of the Sub-family <span class="smcap">Psyllinae</span> have the same
+well-defined conical face lobes, but the stalk of the cubitus is
+shorter than the stalk of the sub-costa. The larvae may be quite naked,
+but most of them produce woolly filaments more or less covering them,
+and form no true lerp scales or galls. The typical Genus <i>Psylla</i>
+comprises a number of usually small and somewhat stouter insects, many
+of which cluster in swarms like aphids upon the foliage of wattles
+and other trees. The eggs, larvae, pupae, and perfect insects may
+be found on the same twigs. <i>Psylla acaciae-decurrentis</i> is a
+slender, dark-winged insect remarkable for<span class="pagenum" id="Page_365">[365]</span> the length of its slender
+antennae; it is common upon the black wattle in early summer. <i>P.
+acaciae-baileyanae</i> is a much smaller yellow species with mottled
+wings that often swarms over the cultivated “Cootamundra wattle,”
+and is reported to have destroyed all the flower-buds of this wattle
+in the neighbourhood of Melbourne in 1905. <i>P. capparis</i> is a
+mottled winged species that frequents the foliage of <i>Capparis
+mitchelli</i> in the western scrubs: <i>P. schizoneurodes</i> infests
+the twigs of the allied “Warrior Bush”; the larvae are covered with
+flocculent matter and have a globule of liquid substance at the tip of
+the abdomen; when massed together they look much like “woolly blight”
+on the apple trees. <i>P. sterculiae</i> is a small brownish species,
+found upon the twigs of the Kurrajong, and has a wide range over New
+South Wales.</p>
+
+  <div class="figcenter" id="fig161" style="max-width: 337px">
+     <img
+    class="p1"
+    src="images/fig161.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 161.</b>—<i>Psylla sterculiae</i> (Froggatt).</p>
+     <p class="p0 smaller center">The Kurrajong Twig Psylla.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>Two very curious species are found upon the thick fleshy leaves of our
+native figs, and one, <i>Mycopsylla fici</i>, lays her eggs upon the
+foliage, the squat grey larvae burying their beaks in the leaf cause a
+flow of milky sap, under which they hide in small colonies, and when
+ready to emerge crawl from beneath the viscid mass. Where numerous,
+they cover the foliage with these sticky patches, and cause the leaves
+to fall. The perfect psylla is a handsome, dark-coloured insect with
+long antennae and ample transparent wings.</p>
+
+  <div class="figcenter" id="fig162" style="max-width: 262px">
+     <img
+    class="p1"
+    src="images/fig162.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 162.</b>—<i>Tyora sterculiae</i> (Froggatt).</p>
+     <p class="p0 smaller center">The Star-psylla found on the surface of the leaves of the Kurrajong.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>Sub-family <span class="smcap">Triozinae</span>. The cubitus of the wing has no stalk,
+the veins forking directly from its junction with the sub-costa.
+All our species, with one exception, come into the typical Genus
+<i>Trioza</i>: many of them are gall makers<span class="pagenum" id="Page_366">[366]</span> in the larval state,
+others are naked and cling to the under surface of twigs and leaves.
+The larvae of the gall-makers are broad, oval, flattened creatures,
+covered with a mealy secretion, the outer margin of the dorsal shield
+in each case being fringed with fine regular ciliae. Most of the
+perfect insects are thickset; they range from chestnut brown to reddish
+yellow; and have clear transparent wings. <i>Trioza carnosa</i> makes a
+large, oval, fleshy, brightly tinted gall with an irregular opening at
+the summit, often covering and aborting the foliage of eucalypts about
+Sydney. The larva of <i>T. eucalypti</i> forms a rounded, hard, woody
+gall upon the leaves, without any opening on either side until the gall
+contracts and splits open, when the full grown pupa emerges. <i>T.
+casuarinae</i> is a very pretty little psylla with dark-barred wings,
+and its curious naked fish-like larva clings to the slender foliage of
+the she-oak (<i>Casuarina</i>). <i>T. banksiae</i> has a tiny, naked,
+yellow larva covered with silvery down; it is a rare insect found on
+the under surface of the honeysuckle leaves. Nearly all these species
+have been collected within<span class="pagenum" id="Page_367">[367]</span> a day’s journey from Sydney, but have a
+wide range on the eastern coast.</p>
+
+<p>The Sub-family <span class="smcap">Prionocneminae</span> was formed by Scott for Walker’s
+Genus <i>Tyora</i>, in which I have placed two species. <i>Tyora
+sterculiae</i> is a pale green, aphid-like psylla, with long antennae
+and large transparent wings. The larvae cluster together on the
+leaves of the Kurrajong, forming white patches over the foliage, and
+each larva throws out slender white threads, fringing the tip of the
+abdomen and radiating about the body. <i>T. hibisci</i> is a delicate
+pale green insect which has been taken on the foliage of <i>Hisbiscus
+tiliaceus</i>, about Brisbane, Queensland, and also on a creeper on the
+Tweed River, New South Wales.</p>
+
+<hr class="r25">
+
+<h4>Family 7. Aphids or Plant Lice.<br>
+<span class="subhed">APHIDAE.</span></h4>
+
+<p>These destructive little creatures are well known to gardeners under
+different names, such as “smother or green-fly,” “plant lice,” or
+“blight.” This family contains one of the most destructive and
+widespread pests that ever attacked cultivated plants, namely the vine
+louse (<i>Phylloxera vastatrix</i>), which has destroyed millions of
+pounds’ worth of vines, and has followed its host all over the world.
+Aphids are all small soft-bodied creatures, green, black, or yellow in
+colour; and at least ten introduced species are to be commonly found in
+our gardens and fields; but as far as I know, no indigenous aphid is
+recorded in Australia.</p>
+
+<p>The life history of these insects is very complex; the winter eggs or
+larvae lie dormant during the cold season in crevices on the trunks, or
+hidden underground on the roots of their host plants; but as the warm
+weather approaches they crawl up the trunks, cluster round the opening
+leaf buds, and sticking their sharp beaks into the tissue, suck up the
+sap. These give birth to living larvae which grow very rapidly, and in
+turn (though virgin females) bring forth fresh broods of live larvae
+that in the course of several generations develop two pairs of large
+transparent wings, and consist usually of both sexes, though in some
+species the males are wanting. The last generation fly away in swarms
+but before dying deposit eggs which carry on the cycle of their life
+into the next summer.</p>
+
+<p>The wingless forms are short, stout, rounded creatures with small,
+slightly lobed heads, and rather stout 3 to 7<span class="pagenum" id="Page_368">[368]</span> jointed antennae; the
+legs are well-developed with two-jointed feet. The abdomen often
+swells out into a flask-like shape; it is furnished on the 5th segment
+with a pair of cylindrical tubes called siphons, through which it
+discharges a sweet secretion known as “honey dew”; this liquid is often
+ejected in such quantities on aphis-infested plants that it covers the
+foliage, and attracts the ants, which come and lick up the globules of
+honey-dew on the tips of the siphons, and even caress the aphis with
+their antennae; and therefore in popular works these insects are often
+described as “ants’ cows.”</p>
+
+  <div class="figcenter" id="fig163" style="max-width: 485px">
+     <img
+    class="p1"
+    src="images/fig163.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 163.</b>—<i>Siphonophora rosae</i> (Linn.).</p>
+     <p class="p0 smaller center">The Rose Aphis of the garden.</p>
+     <p class="p0 smaller center">1, Rose buds infested with aphis; 2, larva; 3, winged female aphis.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+  <div class="figcenter" id="fig164" style="max-width: 426px">
+     <img
+    class="p1"
+    src="images/fig164.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 164.</b>—<i>Aphis persicae-niger</i> (Smith).</p>
+     <p class="p0 smaller center">The American Peach Aphis (introduced).</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p>Among the introduced species common in Australia is the Cabbage Aphis,
+<i>Aphis brassicae</i>, a dull green insect covered with a floury
+exudation; it is one of the greatest<span class="pagenum" id="Page_369">[369]</span> pests that the cabbage-growers
+have to deal with, and is always most troublesome in dry weather.
+The Rose Aphis, <i>Siphonophora rosae</i>, is a pale green species
+appearing in the spring on the young buds of the roses, but seldom
+doing very serious damage. The Woolly Aphis, <i>Schizoneura
+lanigera</i>, common both on the roots and branches of apple trees,
+is found in most of our old orchards; the dull blue aphids cluster
+together in colonies with their beaks buried deeply in the bark, and
+the clusters become covered with a mass of soft white flocculent
+exudation, hiding them from view. From the irritation to the plant
+tissue caused by their presence large galls or excrescences appear
+all over the branches. The Peach Aphis, <i>A. persicae-niger</i>, is
+another<span class="pagenum" id="Page_370">[370]</span> common orchard pest which winters on the roots of the peach
+trees: in early summer they commence to spread, and if neglected do a
+great deal of damage to the leaf and flower buds.</p>
+
+<p>The chief work dealing with the systematic classification of plant lice
+is Buckton’s “Monograph of the British Aphidae,” published by the Roy.
+Society, London 1881. A number of new species have been described since
+by American entomologists in bulletins on Economic Zoology.</p>
+
+<hr class="r25">
+
+<h4>Family 8. Snow-Flies.<br>
+<span class="subhed">ALEURODIDAE.</span></h4>
+
+<p>These are all very small delicate creatures; both sexes are furnished
+with two pairs of broad rounded wings with simple parallel veins, and
+are usually thickly covered with a mealy white dust from which they
+take their popular name of “Snow-Flies.” The head is broad, furnished
+with a three-jointed beak enclosing setae; seven-jointed antennae; and
+large reniform eyes, with an ocellus on either side above the eyes.
+The thorax is broad and the abdomen soft and rounded. The tarsi are
+two-jointed terminating in two claws at the extremities.</p>
+
+<p>The female lays her eggs in clusters on the under surface of the
+leaves, where the young larvae later on form regular oval, glassy tests
+of various colours, enclosed in which they feed and finally pupate.
+The adult insects have their short broad wings slightly expanded,
+and cluster together in threes and fours: but the moment their food
+plant is touched they fly out in a little cloud. They can, like the
+scale insects, be very easily introduced into a new country with their
+food plant, and several species, like <i>Aleurodes vaporariorum</i>
+described by Westwood from Europe, have a wide range over America and
+this continent.</p>
+
+<p>The snow-flies are well represented in Australia, and several species
+do a considerable amount of damage to native shrubs, but on account
+of their delicate structure and small size they are difficult to
+collect, and harder to preserve when collected; if mounted on card
+they dry up, with nothing to determine them from but the wings, which
+have very few distinctive characters. The most satisfactory method of
+preserving them, is to drop the live insects into oil of cloves on
+a micro slip, when they usually open their wings and legs, and then
+make, with a little care, very fine objects when mounted in balsam; at
+times, however, the<span class="pagenum" id="Page_371">[371]</span> floury covering floats off the wings and body and
+sometimes clouds the mount.</p>
+
+<p>Maskell has described 8 species from Australia (Trans. N. Zealand
+Inst. 1896); most of these descriptions, however, were based upon the
+larval tests or scales (and not the adult insects) which had been sent
+to him under the idea that they were scale insects; so that whoever
+takes up the study of snow-flies will have to breed them out, to be
+sure of the identity of his species. <i>Aleurodes styphelia</i> forms
+a flattened, oval, black test fringed with white waxy tubes almost
+as long as the encircled larva, scattered about over the leaves of
+<i>Styphelia richei</i>, a common scrub bush about Sydney. <i>Aleurodes
+t-signata</i> forms a spiny black test; and with a second undetermined
+pale yellow species without a marginal fringe, is found about Sydney
+on the foliage of <i>Acacia longifolia</i>. Another species, <i>A.
+banksiae</i>, is found upon both the honeysuckle (<i>Banksia</i>) and
+the bottle brush (<i>Callistemon</i>).</p>
+
+<p>In Maskell’s paper, which is an important contribution to the study of
+these small but very interesting insects, he lists 65 known species
+belonging to the typical Genus <i>Aleurodes</i>; some have since been
+described from America, of which a few have been placed in the Genus
+<i>Aleurodicus</i>, formed by Douglas for those with a distal and basal
+branch on both wings.</p>
+
+<hr class="r25">
+
+<h4>Family 9. Scale Insects.<br>
+<span class="subhed">COCCIDAE.</span></h4>
+
+<p>These insects take their popular name of scale insects from the habit
+that many of the typical species have of protecting themselves, after
+they have settled down on their food plant, by forming a shield or
+scale over their backs under which they feed and produce their eggs or
+living larvae. To form the scale the moulted larval skin, called the
+pellicle, becomes a nucleus in the first place, round which exudations
+are added until the scale insect ceases growing.</p>
+
+<p>The larvae are pale yellow, pink, or dull-red coloured little
+creatures, oval or shield-shape in form, usually fringed round the
+margins of the body with fine filaments, which are often long upon
+the somewhat thickened irregularly-jointed antennae and form longer
+setae upon the tip of the abdomen. They have distinct black eyes,
+well-developed legs; the mouth is pointed and beak-like.<span class="pagenum" id="Page_372">[372]</span> At this stage
+of their existence the sexes do not differ in outward appearance, but
+when they attach themselves to their food plant the males and females
+of the same species often construct scales of very dissimilar form;
+while in others the male scales are simply more elongate than those of
+the female.</p>
+
+<p>The male coccid is a delicate fragile little creature, usually
+microscopic in size, so that, unless bred out in confinement from
+scale-infested foliage, they are seldom seen. He has a well defined
+head rounded behind, furnished with moderately long antennae composed
+of thickened irregularly-jointed segments fringed and surmounted with
+fine filaments. The globular black eyes stand out on the sides of the
+head, but the mouth is aborted so that it cannot feed. The thorax,
+lobed on the dorsal surface, is furnished with a pair of rounded wings
+each with a simple central nervure, but he can fly well in spite of
+their delicate structure. The slender legs are simple, terminating in
+rudimentary hooks; the elongated abdomen is distinctly segmented and
+furnished at the extremity with a pair of long slender white filaments.
+This period of his existence is short: thousands of them perish very
+soon after they leave their scale, and the survivors as soon as they
+have impregnated the female die.</p>
+
+<p>The female coccid as soon as she settles down to suck up the sap
+develops under her protective shield (which, unlike the male, she never
+leaves) into an oval or rounded yellow mass: her legs, antennae, and
+even head become aborted though the segments of the abdomen are well
+defined in most species, and finally she becomes simply a sack of eggs.
+She deposits her eggs under the protection of the shield, in other
+cases the larvae develop within her shrunken dead skin.</p>
+
+<p>The larvae swarm out and spread over plants when, owing to their
+immense numbers sucking up the sap with their sharp beaks, they soon
+injure the tissue and often kill the food plant. Thus from an economic
+point of view the scale insects are one of the most important groups
+of the insect-world that man has to deal with, and thousands of pounds
+are spent in spraying and fumigating cultivated trees to destroy these
+pests. Many species are cosmopolitan in their range and choice of food
+plants, having been introduced all over the world, but Australia has a
+great number of indigenous species, many remarkable for their curious
+habits, particularly those forming solid woody galls on the eucalypts.</p>
+
+<p>The classification of the scale insects is based chiefly upon the
+structure of the adult female coccid, viz.:—Of the spinnerets,
+abdominal cleft, lobes, spines, and anal ring of the<span class="pagenum" id="Page_373">[373]</span> abdomen, and the
+structure and number of joints of the antennae. The shape and structure
+of the puparium or scale, or other secretions are used to separate them
+into the larger sub-divisions.</p>
+
+<p>The greater number of our species were described by Maskell in
+the “Transactions of the New Zealand Institute between the years
+1878–1898,” in which period he added over 100 new species to our list:
+Green (Pro. Linn. Soc. N.S.W. 1900) has described some others; and
+in the same Journal (1882–1898) I dealt with the gall-making coccids
+belonging to the sub-family <span class="smcap">Brachyscelinae</span>. In 1894 Maskell
+issued a “Synoptical List of the Coccidae reported from Australia and
+the Pacific Islands,” in which 180 species were credited to Australia.
+To this Maskell added later a number of new forms; and Fuller others
+from Western Australia (Trans. Ent. Soc. London 1899). In Mrs.
+Fernald’s “Catalogue of the Coccidae of the World” (Hatch Experiment
+Station Bulletin 88, 1903) over 328 species are listed, from this
+country, but there are a considerable number of doubtful species among
+them.</p>
+
+<p>The <span class="smcap">Coccidae</span> have been divided into a number of sub-families:
+I follow Green (Coccidae of Ceylon, 1896), though Mrs. Fernald in
+following Cockerell reverses the families and starts with the mealy
+bugs; I also retain most of the well-known generic names unless there
+is a very valid reason for discarding them, which does not appear to be
+the case in many of Cockerell’s amendments.</p>
+
+<p>The Sub-family <span class="smcap">Diaspinae</span> are known as armoured scales and
+embrace most of the forms which cover themselves with stout horny
+shields (puparia). When adult the female is almost legless, with
+rudimentary antennae, and incapable of movement. The members of the
+Genus <i>Aspidiotus</i> form round scales, and among them are some
+of our worst orchard pests. The introduced species <i>Aspidiotus
+auranti</i>, the Red scale of citrus trees, is now found on many
+garden shrubs. The puparium of the adult female is dull reddish yellow
+with the centre lighter coloured, and the twigs, leaves and fruit of
+neglected trees are often covered with these scales in all stages of
+growth. <i>A. perniciosus</i>, the notorious San José Scale, that
+attacks deciduous fruit-trees in the same manner, is a dull brown
+circular scale; its original home is somewhat doubtful, and though it
+was first recorded as a pest in California, is said to have come from
+China. The scales are much darker than those of the red scale, and
+infest the branches and twigs so thickly that they destroy the bark,
+and whenever they attach themselves to the fruit produce a red spot.
+<i>A. hederi</i> (better known under the name of <i>A. nerii</i>), is a
+pure white scale with a yellow centre;<span class="pagenum" id="Page_374">[374]</span> it has a world-wide range, and
+its range extends far out into our western scrubs, sometimes covering
+the whole of a large tree. <i>A. rossi</i> is a very distinct, round,
+black scale, partial to <i>Euonymus</i> in the garden, and to grass
+trees in the bush. <i>A. ficus</i> is often known as the “Round Scale”
+from its size and regular shape; it is deep chocolate brown in colour,
+common upon palms, and is sometimes found upon oranges coming from the
+Pacific Islands.</p>
+
+<p><i>Fiorinia acaciae</i> covers the stems and twigs of <i>Acacia
+longifolia</i> with its narrow white ribbed scale; it is much longer
+than broad, and is truncate at the extremities; this gives it a very
+distinctive character.</p>
+
+<p>The Genus <i>Diaspis</i> contains a number of delicate, more elongated
+scales, among which is the well known white rose scale <i>Diaspis
+rosae</i>, common in the garden. <i>Poliaspis exocarpi</i> is another
+white scale infesting <i>Oxylobium</i>, <i>Dillwynia</i>, and other
+bush shrubs; the male scales are long, slender, and loosely attached to
+the smaller twigs.</p>
+
+<p>The Genus <i>Chionaspis</i>, containing a number of cosmopolitan and
+indigenous species, has the base of the scale narrow, elongate, but
+broadly rounded at the extremity. <i>Chionaspis xerotides</i> is white,
+common upon the blades of the sedge growing along the sea shore at
+Botany, N.S.W., and has a wide range. <i>C. eugeniae</i> is a larger
+broader scale, variable in size and shape; it infests several native
+shrubs, and a very large form is found on the waratah.</p>
+
+<p><i>Mytilaspis</i> is another world-wide genus, in which the scales are
+attenuated at the base and are oyster-like in shape; <i>Mytilaspis
+pomorum</i> is the common “Mussel” or “Oyster” scale of the apple tree
+found all over the world. <i>M. spinifera</i> is a handsome, broad,
+white scale common on the weeping myall (<i>Acacia pendula</i>),
+growing in the interior. <i>M. striata</i> is a very slender form of
+scale that has had to adapt its shape to the slender foliage of the
+Casuarina which it infests. <i>M. acaciae</i> is a grey species that
+clusters thickly together in masses like the apple scale, covering the
+stems of several different species of Acacias in the bush with its
+stout irregular scales.</p>
+
+<p class="p2 smaller center">Plate XXXIV.—HOMOPTERA.</p>
+
+<p class="center smaller">Family <b>Coccidae</b>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>1. <i>Apiomorpha urnalis</i> (Tepper).</li>
+  <li>2. <i>Frenchia semiocculta</i> (Mask.).</li>
+  <li>4. <i>Frenchia casuarinae</i> (Mask.).</li>
+  <li class="hangingindent">3. Galls of Buprestid beetles (<i>Ethon corpulentum</i>, Bohem.).</li>
+</ul>
+</div>
+
+  <div class="figcenter" id="plate34">
+     <p class="p1 sm center"><i>Plate XXXIV.—HOMOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate34.jpg"
+    alt="">
+  </div>
+
+<p>In the Sub-family <span class="smcap">Lecaniinae</span> the female coccids are active or
+stationary; naked or covered with some secretion; sometimes without
+legs; the abdomen marked with a median cleft and furnished with two
+dorsal lobes. Several species of the tropical Genus <i>Ceroplastes</i>
+are found about Sydney, where they were introduced into the gardens at
+a very early date, and have since spread into the orchards and bush.
+The Indian wax-scale, <i>Ceroplastes ceriferus</i>, covers orchard
+trees, and bush and garden shrubs with its irregular rounded masses
+of greasy white matter that protect the <span class="pagenum" id="Page_375">[375]</span>liver-coloured coccids
+beneath. <i>C. rubens</i> is a smaller and more regularly rounded dull
+red scale, the enveloping material forming a hard waxy shell.</p>
+
+<p>The members of the Genus <i>Ctenochiton</i> are chiefly confined to
+New Zealand, but two fine species have been described from Australia.
+<i>Ctenochiton eucalypti</i> comes from the Newcastle district,
+N.S.W., where it infests the leaves of gum saplings. The scales of
+the sexes differ very much; those of the male are slender, white, and
+glassy, while those of the female are broad and dark coloured. <i>C.
+rhizophorae</i> comes from Queensland, where it is found upon the
+mangrove. The beautiful, brittle, glass-like scales of <i>Inglisia
+foraminifer</i> and <i>I. fossilis</i>, are often very plentiful in the
+interior on low scrub trees.</p>
+
+  <div class="figcenter" id="fig165_166" style="max-width: 536px">
+     <img
+    class="p1"
+    src="images/fig165_166.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Figs. 165</b> and <b>166</b>.—Scale Insects.</p>
+     <p class="p0 smaller center">165. <i>Icerya purchasi</i> (Maskell).</p>
+     <p class="p0 smaller center">The Cottony-cushion or Fluted Scale of the orange tree.</p>
+     <p class="p0 smaller center">166. <i>Ceroplastus ceriferus</i> (Anderson).</p>
+     <p class="p0 smaller center">The introduced Indian Wax Scale of citrus trees, etc.</p>
+     </div>
+
+<p>In the Genus <i>Ceronema</i>, the males form delicate angulated<span class="pagenum" id="Page_376">[376]</span>
+scales, but the females are clothed with a woolly secretion.
+<i>Ceronema banksiae</i> is a somewhat rare scale found on the foliage
+of the banksia; it has the secretion upon the dorsal surface, formed
+into a distinct rib down the centre. <i>C. caudata</i> is a large
+species with a white woolly covering, a large filament towards the apex
+forming a large loop rising above the back like a handle. It has a wide
+range from the South Coast of N.S.W. to North Queensland, and about
+Bulli, N.S.W., is found on gum trees.</p>
+
+<p>The Genus <i>Lecanium</i> (which has been cut up into a number of
+new genera) contains many distinct species peculiar to our fauna.
+<i>Lecanium tesselatum</i>, a flattened species with crenulated
+margins, and common on palms in the gardens, and <i>L. oleae</i>,
+known as “black bug” or “olive scale” by the orchardists, are both
+introduced species: <i>L. patersoni</i> is a slender form found upon
+the foliage of <i>Patersonia glabrata</i> growing about Sydney. <i>L.
+scrobiculata</i> is a bright, shining, convex, dark brown scale
+infesting several species of acacias; and <i>L. mirificum</i>, one of
+the largest, is found in the interior upon <i>Acacia pendula</i>. The
+curious coccid, <i>Cryptes (Lecanium) baccatum</i>, covers the twigs of
+several acacias, among them the common black wattle in the vicinity of
+Sydney. At first dull white, they swell out into rounded bead-shaped,
+blue sacks, so close together that they encrust the whole of the
+infested twig; when adult they turn dull brown.</p>
+
+<p>The Sub-family <span class="smcap">Dactylopinae</span> contains most of the well-known
+“mealy bugs”; they are soft bodied creatures in the earlier stages of
+their existence, and many species are able to move about until their
+latter days; instead of forming a separate scale like the first group,
+they cover themselves with white, woolly, mealy, cottony, or waxy
+secretions.</p>
+
+<p>The members of the Genus <i>Asterolecanium</i> are represented
+in Australia by the introduced “oak scale” <i>Asterolecanium
+quercicola</i>, a typical form which, half buried in the infested bark
+at the tips of the branches, is covered with a waxy, greenish yellow,
+rounded scale; when numerous it causes the tips of the branches to
+die back. <i>A. acaciae</i>, when numerous, aborts the bark and twigs
+of <i>Acacia longifolia</i> and is covered with dull brown and white
+shields; and with <i>A. stypheliae</i>, with its raised, shining, oval,
+bright yellow tests, found on a number of different shrubs, are both
+native species with a very wide range over Australia.</p>
+
+<p>The Genus <i>Rhizococcus</i> is represented by 8 species, found
+chiefly upon the twigs of wattles (<i>Acacia</i>) and she-oaks
+(<i>Casuarina</i>); and the cosmopolitan Genus <i>Eriococcus</i> by
+17 species. Several species of <i>Eriococcus</i> enclosed in their
+egg-shaped, white-felted sacks are very common in the forest,<span class="pagenum" id="Page_377">[377]</span>
+clustering over and often killing the young trees. <i>Eriococcus
+coriaceous</i> varies from white to yellow in colour; the sacs are
+oval, with a distinct anal opening on the summit; they infest the
+foliage and twigs of many young Eucalypts. <i>E. paradoxus</i> is a
+somewhat larger, sticky insect; they mass together in regular lumps on
+the twigs of the same trees: while <i>E. eucalypti</i>, as far as my
+experience goes, is never found on gum trees, as its name implies, but
+upon the prickly twigs of <i>Bursaria spinosa</i>, and its sacs are
+more depressed and have a browner tint.</p>
+
+  <div class="figcenter" id="fig167" style="max-width: 263px">
+     <img
+    class="p1"
+    src="images/fig167.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 167.</b>—<i>Eriococcus coriaceous</i> (Maskell).</p>
+     <p class="p0 smaller center">The Eucalyptus scale. Natural size and enlarged.</p>
+     <p class="p0 smaller center">(Original photo. T. Kirk).</p>
+     </div>
+
+<p><span class="pagenum" id="Page_378">[378]</span></p>
+
+<p>The typical <i>Dactylopius</i> are free-moving insects, often crawling
+about until their final stage, when they become covered or surrounded
+with flocculent woolly matter. <i>Dactylopius albizziae</i> is common
+on the black wattle, and is sometimes a pest in wattle plantations;
+it is a blackish-blue berry-shaped coccid surrounded with and lightly
+clothed on portions of the dorsal surface with white mealy and woolly
+filaments. <i>D. aurilanatus</i> is chiefly confined to the branchlets
+of <i>Araucaria bidwilli</i>, or “Bunya Bunya.” It is very abundant at
+times on these trees in the Sydney gardens, and is easily recognised
+by the broad lines of sulphur-yellow meal or down across the dorsal
+surface. <i>D. lobulatus</i> is an oval coccid, hiding under loose bark
+on the trunks of the blue gum, <i>Eucalyptus globulus</i>; it is so
+thickly clothed with white mealy secretion forming filaments round the
+edges that its form and colour are quite hidden.</p>
+
+<p>In the Genus <i>Ripersia</i> the species have a world-wide range; they
+are curious wrinkled naked coccids, but are sometimes more or less
+enveloped in a white covering; they lead an underground existence on
+the roots of grass and plants: a single species is recorded by Maskell
+from S. Australia on the roots of a <i>Leptospermum</i>. The curious
+<i>Antonina australis</i> is an underground coccid which infests the
+roots of the Nut-grass, <i>Cyperus rotundus</i>, and was described by
+Green (Pro. Linn. Soc. N.S.W. 1904) from specimens obtained in the
+Hunter River district, N.S.W., where it was so plentiful that in the
+dry seasons it killed a great deal of this sedge. The adult female is a
+rounded black smooth shining creature about ⅛ of an inch in diameter,
+enveloped in a coat of white woolly secretion, from which it can be
+easily removed. The legs and antennae are aborted, but the segmental
+divisions of the abdomen remain, and the tip is produced into two
+irregular roughened tubercles, joined at the base with a tuft of stout
+bristle-like hairs.</p>
+
+<p class="p2 smaller center">Plate XXXVI.—HOMOPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Coccidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>1. <i>Tachardia australis</i> (Froggatt). On Melaleuca.</li>
+  <li>2. <i>Tachardia australis</i> (Froggatt). Male and female tests.</li>
+  <li>3. <i>Tachardia australis</i> (Froggatt). Female coccid.</li>
+  <li>4. <i>Tachardia decorella</i> (Maskell). On Eucalyptus.</li>
+  <li>5. <i>Tachardia decorella</i> (Maskell). Female in test.</li>
+  <li>6. <i>Tachardia decorella</i> (Maskell). Female exposed.</li>
+  <li>7. <i>Tachardia decorella</i> (Maskell). Larva.</li>
+</ul>
+</div>
+
+  <div class="figcenter" id="plate36">
+     <p class="p1 sm center"><i>Plate XXXVI.—HOMOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate36.jpg"
+    alt="">
+  </div>
+
+<p>The Sub-family <span class="smcap">Tachardiinae</span> contains a number of remarkable
+species, some of considerable commercial value on account of the
+resinous secretion they encrust themselves with; this secretion is
+known as lac, and is used for making varnish. The typical female is
+an irregular wrinkled fleshy mass with a pair of tubular appendages
+on the back. These appendages were supposed at one time to be used
+for producing the lac, but Green considers them to be breathing
+structures. Five species are described from Australia, of which
+<i>Tachardia australis</i> is so thickly encrusted with reddish brown
+lac, that it might be of some commercial value in the future; it is
+very plentiful upon Melaleuca bushes near Maryborough, Queensland,
+but was described by me from specimens obtained on a small shrub,
+<i>Beyeria viscosa</i>, <span class="pagenum" id="Page_379">[379]</span>at Gunnedah, N.S.W. <i>T. decorella</i> is
+enclosed in a very dainty, flattened, ribbed, cushion-like mass of dull
+slate-coloured lac; it is found on a number of different trees, among
+them the water gums (<i>Eugenia smithii</i>); and I have also found it
+on the desert cypress (<i>Callitris</i>) in the interior.</p>
+
+  <div class="figcenter" id="fig168" style="max-width: 389px">
+     <img
+    class="p1"
+    src="images/fig168.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 168.</b>—<i>Antonina australis</i> (Green).</p>
+     <p class="p0 smaller center">The Nut-grass Coccid.</p>
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>1. Nut-grass showing coccid upon the roots.</li>
+  <li class="hangingindent">2. Adult female coccid removed from enveloping cover (enlarged).</li>
+</ul>
+</div>
+     </div>
+
+<p>The Sub-family <span class="smcap">Idiococciinae</span> comprises a number of very
+curious coccids, some of which are naked; some form waxy tests;
+while others are enveloped in woody galls. Maskell, who created this
+division, says they are separated from the <span class="smcap">Monophlebiinae</span>
+by the absence of anal tubercles and the antennae, and from the
+<span class="smcap">Brachysceliinae</span> by the absence of anal appendages. The members
+of the Genus<span class="pagenum" id="Page_380">[380]</span> <i>Sphaerococcus</i> number 21 described species, all but
+two of which are peculiar to Australia; some form galls, others waxy
+tests. <i>Sphaerococcus pirogallus</i> cover the whole of the tips of
+the bushes of <i>Leptospermum flavescens</i> with its curious little
+pear-shaped galls. At first pink or red, these galls are dull brown
+when full grown, and have an aperture on the side of the stalk, and
+the coccid within is attached to a saucer-like rim on the roof of the
+apex. This is one of the commonest galls about Sydney; acres of these
+low bushes often have the whole of their foliage covered with masses
+of these small galls. <i>S. melaleucae</i> does not form a gall, but
+surrounds itself with a dark waxy secretion like the lac insect; both
+scales and twigs are often blackened with smut or fumagine. <i>L.
+leptospermi</i> forms a swelling in the twig which looks as if the
+tissue had risen over it like a blister and then split down the middle,
+exposing the dorsal surface. <i>S. froggatti</i> is very common on the
+tips of Melaleuca bushes growing about Sydney; the dull red coccid
+is clothed with white secretion resting in an excrescence fringed
+with slender, reddish brown finger-like processes curling over in an
+irregular protective gall. <i>S. socialis</i> produces a very curious
+greyish globular gall with no opening on the outside, and measures up
+to ½ an inch in diameter. Maskell says: “The outer surface is formed
+of very closely imbracted scales, which are apparently aborted and
+coalesced leaves of the tree”; the interior is of a loose structure
+containing several female coccids, and a few males. It was collected by
+Lea near Geraldton, W. Australia.</p>
+
+<p>The Genus <i>Cylindrococcus</i> contains 3 species which form curious
+cone-like galls upon the twigs of the She-oak, <i>Casuarina</i>.
+<i>Cylindrococcus spiniferus</i> varies much in size and shape. They
+are often very numerous, covering the whole of the bush with their
+curious, rough, bracteate galls, which are rounded at the base and
+taper to the extremity. The female, a cylindrical, dull red creature,
+is enclosed in an elongate, thin tube, which occupies the centre of the
+gall; this tube is attached at the base of the gall and is surrounded
+with the bracts. Some of the typical forms might be easily mistaken for
+seed cones. <i>C. amplior</i>, which is a more solitary species, forms
+a solid seed-shaped gall with the base set in a bract like the calyx
+of a flower, and the whole might be likened to an unopened bud. It is
+found in South Australia and the north-western parts of Victoria.</p>
+
+<p class="p2 smaller center">Plate XXXV.—HOMOPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Coccidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>1. <i>Apiomorpha duplex</i> (Schr.). ♀ Gall.</li>
+  <li>2. <i>Sphaerococcus leptospermi</i> (Mask.). ♀ Galls.</li>
+  <li>3. <i>Cylindrococcus spiniferus</i> (Mask.). ♀ Galls.</li>
+</ul>
+</div>
+
+  <div class="figcenter" id="plate35">
+     <p class="p1 sm center"><i>Plate XXXV.—HOMOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate35.jpg"
+    alt="">
+  </div>
+
+<p>The Sub-family <span class="smcap">Brachysceliinae</span> contains some of the most
+remarkable insects in our fauna. They were first noticed by Schrader
+(Trans. Ent. Soc. N.S.W. 1862), who described and figured a number of
+our commonest species <span class="pagenum" id="Page_381">[381]</span>and their galls; to these I have added a
+number of new species (Pro. Linn. Soc. N.S.W. 1892–1898). They are all
+gall makers; the beautiful little larva born in the gall is usually
+yellow, oval, flattened, and fringed round the margin with short glassy
+filaments. In most species the full-grown female has antennae and legs
+aborted, and becomes simply a sac of eggs and liquid matter enclosed in
+a leathery skin, and is furnished with horny tail appendages.</p>
+
+<p>The Genus <i>Frenchia</i> was formed by Maskell for a species,
+<i>Frenchia casuarinae</i>, which forms a gall like a stout blunt
+thorn; it is about the thickness of a slate pencil and has a small
+opening at the apex. These twig-like galls spring directly from the
+branch of the infested <i>Casuarina</i>, while the aborted tissue at
+the base swells out like a blister. The slender, attenuated, red female
+coccid rests head downward with the tail reaching up to the apical
+orifice of the gall. A second species, <i>F. semiocculta</i>, forms
+a raised swelling on the twigs of <i>Casuarina</i>, with a cleft in
+the centre, thus forming two lobes. The first is common in Tasmania,
+Victoria, and N.S. Wales; the latter was collected at Manly, near
+Sydney.</p>
+
+<p>Schrader called the next Genus <i>Brachyscelis</i>, but Rubasmann
+finding the name preoccupied changed it to <i>Apiomorpha</i>; over 30
+species are given in Mrs. Fernald’s Catalogue, but there are several
+species described both by Rubasmann and Tepper that were described from
+variable or aborted galls that may prove to be synonyms. The female is
+remarkable for forming a stout woody gall, sometimes sessile, sometimes
+springing from a stalk; it encloses an oval cell with a circular or
+transverse aperture at the apex of the gall, through which the male
+impregnates her by means of his long slender abdomen. The young larvae
+are hatched within its shelter, and crawl out to reach their food
+plant. The female is a top-shaped (turbinate) creature encased in a
+leathery skin, more or less clothed with fine hairs, enveloped in a
+mealy secretion, with rows of fine spines on the dorsal surface of the
+abdominal segments, and the body terminating in two horny tails (anal
+appendages). The head is merged into the thoracic portion, and has the
+ventral surface wrinkled and bearing a rudimentary mouth; the antennae
+and legs are aborted. The only distinct specific characters are the
+dorsal spines and the form of the anal appendages. The males are
+delicate two-winged insects, with long antennae, slender legs, and the
+body very long and attenuated, ornamented with two fine filaments. They
+either form single short tubular galls on the leaves, or form masses of
+the same tubular galls; or they are placed in rows enfolded in a hood
+growing from the side<span class="pagenum" id="Page_382">[382]</span> of the female gall like a small cockscomb. All
+the members of this genus are confined to the eucalypts.</p>
+
+<p><i>Apiomorpha duplex</i> is the largest insect-gall in the world.
+Springing directly from the twig, it swells out into a stout four-sided
+gall, 1½ inches in diameter, 3 inches in length; beyond this the apex
+of the gall is produced into two stout flattened appendages extending
+another 9 inches. The enclosed female coccid measures up to 1½ inches.
+<i>A. munita</i> forms an angulated gall rounded at the base, with each
+angle on the apex furnished with a slender curled horn, but it is very
+variable both in form and size. <i>A. pileata</i> is an egg-shaped
+gall, with the apex truncate and forming two lips, the apical orifice
+forming a keyhole-like slit between them. We have two varieties of
+this gall, which in their immature state have a membranous tailed
+cap covering the apex which dries and falls off as the gall matures,
+leaving the apical orifice exposed. <i>A. pomiformis</i> is shaped like
+and about the size and shape of a small apple, with the apical orifice
+situated in a depression in the centre. It is a North Australian
+form, and is also found on stunted gums in the interior. Specimens
+of a large gall received from Tennant’s Creek, Central Australia,
+with the enclosed coccid, show that the structure of the coccid is
+very different from the <i>Apiomorpha</i> the anal extremity being
+thimble-shaped, fitting against the apical orifice, so it will require
+to be placed in a new genus. <i>A. dipsaciformis</i> is an oval gall
+covered with curled filaments like a “teasel.” In the group in which
+the male galls are formed on the side of the oval female gall, <i>A.
+pharatrata</i> is a typical form; the female gall is oval, overshadowed
+with the mushroom-shaped mass of coalesced tubular galls growing out
+near the apex.</p>
+
+<p>The female coccids of the Genus <i>Opisthoscelis</i>, as they change
+from the larval stage, lose almost every vestige of the first two
+pairs of legs, while the hind pair are produced into long attenuated
+appendages, which in some species (when enclosed in the gall) curve
+round over the back like hairs; the whole insect is rounded or
+top-shaped, with a peg-shaped anal appendage. Thirteen species are
+described, all of which produce galls upon different species of
+eucalypts. <i>Opisthoscelis subrotunda</i> is our commonest species;
+the solid fleshy galls, about the size of a pea, often cover and abort
+much of the foliage of the infested tree. The short rounded coccid fits
+tightly to the cavity, and the opening, closed by the tip of the anal
+peg, is on the under side of the leaf. Schrader has described the male
+galls of this species, which are probably very rare, and I have never
+been able to discover them.</p>
+
+<p>The short, slender, reddish, tubular galls of <i>O.<span class="pagenum" id="Page_383">[383]</span> spinosa</i> are
+as plentiful as the curious thorn-shaped female galls, which latter
+have the opening at the tip, and are common on the foliage of the
+large-leaved ironbark, <i>Eucalyptus siderophloia</i>, growing around
+Sydney. The female coccid, in this and several of the other gall-making
+coccids with the spine or thorn-shaped structure, is firmly attached to
+the sides and base of the cavity, and is difficult to remove without
+damage. The galls of the Genus <i>Ascelis</i> are often dissimilar in
+form; that of <i>Ascelis praemollis</i> is rounded, with the opening
+on the under side of the leaf, and except for the shape of the scar
+and larger size might without close examination be taken for that of
+<i>Opisthoscelis subrotunda</i>; but the enclosed insect is a very
+different looking creature; it is simply an irregular jelly-like mass,
+with a short peg-like structure rising from what looks to be the back,
+but is the tip of the abdomen; this structure is produced into three
+finger-like projections, which, holding a lump of gummy substance, plug
+up the basal opening in the gall. <i>A. schraderi</i>, which forms a
+circular, flattened, blister-like gall in the tissue of the leaves of
+<i>Eucalyptus corymbosa</i>, is more flattened, with the anal tail
+truncate at the apex, without the curious finger-like appendages, and
+the anal aperture as fine as a pin prick is on the upper surface of the
+leaf.</p>
+
+<p>I have gone somewhat extensively into the description of these
+gall-making coccids, owing to the fact that they form such remarkable
+structures, and differ from all other solid galls in the fact that
+they are formed by the larvae and are not the result of eggs deposited
+beneath the plant tissue. Specialists in the study of vegetable growths
+may find some key to the mystery of gall development in this fact.</p>
+
+<p>The <span class="smcap">Monophlebiinae</span> comprises a number of large “mealy bugs,”
+so called because they form no protective scale, but are simply clothed
+with a mealy secretion, fine filaments or masses of felted wool. The
+females are often of considerable size, and during the greater part of
+their existence are capable of crawling about, but when adult and about
+to lay their eggs they often become fixed to the food plant. The males
+are of the usual two-winged type with long antennae and the tip of the
+abdomen fringed with fine filaments. This division has been cut up into
+a number of sub-families by Cockerell, and these divisions are given
+in Mrs. Fernald’s Catalogue, but here I propose to place them together
+under the one sub-family.</p>
+
+<p><span class="pagenum" id="Page_384">[384]</span></p>
+
+  <div class="figcenter" id="fig169" style="max-width: 261px">
+     <img
+    class="p1"
+    src="images/fig169.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 169.</b>—<i>Pulvinaria maskelli</i> (Olliff).</p>
+     <p class="p0 smaller center">The Saltbush Mealy Bug of the interior.</p>
+     <p class="p0 smaller hangingindent"><i>a</i>, Male; <i>b</i>, Showing the male enclosed in pupal test;
+<i>c</i>, Larva; <i>d</i>, Ventral view of adult female.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p><i>Monophlebus crawfordi</i> is one of our largest species; the female
+measures about 1 inch in length and is broad in proportion; she is dull
+orange yellow marked with parallel bars of purple, and fringed round
+the edges with fine hairs; and is of a general flattened, broad, oval
+form, with the dorsal surface distinctly segmented. She is generally
+found<span class="pagenum" id="Page_385">[385]</span> clinging to the stem of a smooth-barked eucalyptus tree,
+sometimes half hidden under a bit of loose bark and surrounded with
+white mealy secretion. When egg-laying she sometimes produces a great
+quantity of fine curled cottony filaments forming a mass much larger
+than the original size of her body, under which the eggs are deposited.</p>
+
+<p>The Genus <i>Callipappus</i> contains 6 Australian species; the females
+are flattened, oval, irregularly segmented coccids of a dull brown
+to purplish red tint, which are usually found crawling about on tree
+trunks. <i>Callipappus australe</i> was described by Maskell (Pro.
+Linn. Soc. N.S.W. 1890) under the generic name of <i>Coelostoma</i>,
+a group confined to N. Zealand. The male is a beautiful two-winged
+insect of a general deep red colour, the wings rose-pink, and the tip
+of the abdomen clothed with a large bunch of silky white filaments like
+a tuft of spun glass; from this latter character it has received the
+fanciful but rather appropriate name of the “Bird of Paradise Fly.” The
+female is of an oval, flattened form about an inch in length; the body
+is irregularly segmented and lightly clothed with flakes of a mealy
+secretion. When depositing her eggs, generally on the trunk of a tree,
+she becomes attached to the bark with a patch of silk on the ventral
+surface of the body; the body swells irregularly, the extremities of
+the abdomen shrink and turn upwards, the whole body later becoming
+simply a dry shell. Guérin described a species, <i>C. westwoodi</i>,
+from West Australia; and Fuller a few years ago re-described this and
+named two new species.</p>
+
+<p><i>Icerya purchasi</i>, known as the “Fluted or Cottony Cushion Scale,”
+was first described from New Zealand, but had been a well-known pest to
+the citrus orchards in California many years before it was discovered
+in New Zealand. The adult female is a very distinctive red coccid with
+black legs and antennae, and a dull red body with the thoracic portion
+flattened and fringed with hairs. She produces a quantity of felted
+woolly filaments forming a mass completely covering the abdomen, which
+is marked with well-defined parallel furrows and ridges; under this
+secretion the eggs are deposited. This scale is found upon several
+species of wattles (<i>Acacia</i>) in the neighbourhood of Sydney, and
+on the roses in the gardens. It does little or no harm in Australia,
+as it is very much affected by different species of parasites. Several
+other species placed by Maskell in this Genus have been removed.
+<i>Palaeococcus nudata</i> is one that he described from Australia
+on verbenas and cosmos. I found it to be very abundant on red clover
+in the Lismore district, N.S. Wales; it is a smaller oval species
+uniformly clothed with mealy secretion. <i>P. rosae</i>, described by
+Riley as <i>Icerya<span class="pagenum" id="Page_387">[387]</span> rosae</i>, the “Floridian Scale,” is a convex dull
+brown shining coccid with the outer margin fringed with short white
+tufts. Though originally described as a rose pest in Florida it is
+found upon <i>Hakea</i> and <i>Grevillea</i> bushes in the vicinity of
+Sydney.</p>
+
+  <div class="figcenter" id="fig170">
+     <img
+    class="p1"
+    src="images/fig170.jpg"
+     alt="">
+     </div>
+
+  <div class="figcenter" id="fig171">
+     <img
+    class="p1"
+    src="images/fig171.jpg"
+     alt="">
+
+  <div class="figcenter" id="fig172" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig172.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Figs. 170–172.</b>—Mealy Bugs.</p>
+     <p class="p0 smaller center">170. <i>Callipappus (Coelostoma) australe</i> (Maskell). ♂.</p>
+     <p class="p0 smaller center">The “Bird of Paradise Fly.”</p>
+     <p class="p0 smaller center">171. <i>Callipappus australe.</i> ♀.</p>
+     <p class="p0 smaller center">172. <i>Callipappus australe.</i> ♀. After egg laying.</p>
+     </div>
+
+  <div class="figcenter" id="fig173" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig173.jpg"
+     alt="">
+     <p class="p0 smaller center">173. <i>Monophlebus crawfordi</i> (Maskell). ♀.</p>
+     </div>
+
+  <div class="figcenter" id="fig174" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig174.jpg"
+     alt="">
+     <p class="p0 smaller center">174. <i>Monophlebus crawfordi</i>, when she is laying her eggs, which
+she covers with felted fluted wool.</p>
+     <p class="p0 smaller center">(“Agricultural Gazette,” N.S.W.)</p>
+     </div>
+
+<p><span class="pagenum" id="Page_388">[388]</span></p>
+
+
+<h3>Sub-Order III. ANOPLURA.<br>
+<span class="subhed">Sucking Lice.</span></h3></div>
+
+<p>These insects are wingless, with a more or less thin integument.
+The rather complicated sucking mouth is furnished with hooks; the
+thoracic segments are indistinctly divided, and the foot terminates
+in a single stout claw. They were usually placed at the end of
+the <span class="smcap">Hemiptera</span> in the Order <span class="smcap">Parasita</span>; but later
+investigators consider them so very closely allied to the true bugs
+that they are here placed as a Sub-Order. Burmeister called them
+<span class="smcap">Pediculina</span>.</p>
+
+<hr class="r25">
+
+<h4>Family 1. Sucking Lice.<br>
+<span class="subhed">PEDICULIDAE.</span></h4>
+
+<p>These are purely parasitic upon animals, and derive their food from the
+blood of their hosts, which they obtain by puncturing the skin with
+their tubular sucking mouth. It is not an extensive family, containing
+only about 40 described species included in 6 genera, and they are
+widely distributed over the world.</p>
+
+<p>Three species are known to live upon the clothes and skin of unclean
+men, the eggs of which, known as nits, are attached to the hairs of
+the animal or man infested. From their repulsive habits lice are not
+popular insects even for entomologists to take up. Nothing is known
+about those infesting the natives of Australia, though it is believed
+that the different races of man, particularly savage tribes, are
+infested with distinct species of these parasites.</p>
+
+<p>The common head louse, <i>Pediculus capitis</i>, is confined to the
+fine hairs of the head, seldom or never going on the coarser hair
+of the body; the pale-coloured eggs are glued to the hairs, from
+which emerge larvae closely resembling the adults. <i>Pediculus
+vestimenti</i> lives in the clothes of unclean persons, only coming
+on the skin to suck up blood; it differs merely in being darker
+and broader in general appearance. The Crab-louse, <i>Phthirius
+inguinalis</i>, is a very short-bodied creature which clings with
+its large claws to the stouter hairs of the body. In ancient
+times all these were very common, and a loathsome disease called
+<i>Phthiriasis</i> was said to be due to them. The domestic animals,
+hogs, cattle, horses, &amp;c., are infested with distinct species.</p>
+
+<p><span class="pagenum" id="Page_389">[389]</span></p>
+
+
+<h3>Sub-Order IV. MALLOPHAGA.<br>
+<span class="subhed">Biting Lice.</span></h3>
+
+<p>The classification in which this group should be placed is not yet
+definitely settled; Sharp places them in the Order <span class="smcap">Neuroptera</span>
+between the <span class="smcap">Psocidae</span> and the <span class="smcap">Termitidae</span>:
+Cholodkovsky combines them with the sucking lice and creates a new
+Order, <span class="smcap">Pseudorhynchota</span> (Zool. Anz. xxvii. 1903); while
+Kellogg has given them the rank of an Order under the group name
+<span class="smcap">Mallophaga</span>.</p>
+
+<p>They are certainly not lace-wings in the strict sense of the word;
+and their habits are so similar to those of the preceding division
+that I propose to place them as the fourth group of the Order
+<span class="smcap">Hemiptera</span>.</p>
+
+<p>They consist of biting lice infesting animals and birds, and feed
+chiefly upon the hair, feathers, scales, or excretions of their hosts
+by means of stout biting jaws, but are also said to be furnished with
+an apparatus enabling them sometimes to suck up the blood. They all
+have flattened bodies encased in horny integument, lightly clothed
+with stout hairs; the antenna contains from 3 to 5 short joints, and
+the eyes when visible are situated behind the antennae; the thorax is
+narrow, apparently composed of two divisions; the short stout legs
+are provided with 1 or 2 fine claws well adapted to their parasitic
+habits. The wings are wanting, and the oval abdomen contains from 9 to
+10 segments. They attach their eggs to the hairs or feathers of their
+hosts, and the larvae develop upon the body.</p>
+
+<p>Though some members of the group might be confounded with the
+<span class="smcap">Anoplura</span>, they are easily distinguished from them by the
+structure of the mouth, and the different shaped claws at the
+extremity of the tarsi. While the sucking lice are always confined to
+a particular host, the biting lice are not so exclusive, for the same
+species may be found upon several dissimilar birds or animals, and it
+is not uncommon for several distinct species to infest the same host.</p>
+
+<p>A number of European writers have studied and described these parasitic
+creatures; Denny (Monographia Anoplurorum Britanniae 1842) described
+all the British species, which he illustrated with coloured plates:
+Piaget’s “Le Pediculines,” Leyden 1880, is a more important work, and
+was followed by a supplement in 1885; the first contains a description
+of all the species known up to that date, and the second adds 100 new
+species which he had examined. Taschenberg in<span class="pagenum" id="Page_390">[390]</span> 1882 published a fine
+Monograph, which however was never completed.</p>
+
+<p>In America the chief writers have been Osborn and Kellogg; the
+first in Bulletin 7, Division of Entomology U.S. 1891, dealing with
+“Insects affecting domestic animals, Chapter v., Mallophaga,” figures
+and describes a large number, among them some new species. Kellogg
+describes a great many new species (New Mallophaga i., ii., iii.,
+1886–89, Proceedings California Academy of Sciences, Vol. vi.),
+and also gives a great deal of information about the structure and
+classification of these insects. He says: “I propose therefore, in
+the light of the present position of the Mallophaga as an independent
+order of insects, to rank the Nitzschian families as sub-orders, the
+Nitzschian genera as families, and the Nitzschian sub-genera, the
+genera of the present day writers, as genera.”</p>
+
+<p>In this classification two sub-orders are created, <span class="smcap">Ischnocera</span>,
+containing two families, viz.: <span class="smcap">Trichodectidae</span>, in which the
+members have 3 jointed antennae and tarsi with one claw, and found
+upon animals; and <span class="smcap">Philopteridae</span>, lice with five jointed
+antennae and two tarsal claws, which infest birds. The second
+sub-order, <span class="smcap">Amblycera</span>, also comprises two families, viz.:
+<span class="smcap">Gyropidae</span>, with four jointed antennae and one tarsal claw,
+infesting animals; and second the <span class="smcap">Liotheidae</span>, with four
+jointed antennae and two tarsal claws, chiefly found upon birds, but in
+Australia also found upon marsupials.</p>
+
+<p>There are about 1,000 species of these lice described from all parts of
+the world, but the genera are few in number. Very little work has been
+done in Australia on the Mallophaga: Piaget described a species on the
+wombat for which he created the Genus <i>Boopia</i>, naming it <i>B.
+tarsata</i> (1880). In his Supplement (1885) he described a second on
+the red kangaroo as <i>Boopia grandis</i>; and others on Australian
+birds, among them <i>Menopon infumatum</i> on the “Laughing Jackass,”
+and <i>Menopon pallipes</i> on the “Swamp Quail.”</p>
+
+<p>In 1902 (Victorian Naturalist) Messrs. Le Souëf and Buller published
+two papers dealing with these parasites; the first entitled
+“Descriptions of some Mallophaga on Australian Birds,” and a second
+“Descriptions of some new Mallophaga from Marsupials,” illustrated
+with drawings. They describe the kangaroo louse, <i>Heterodoxus
+macropus</i>, as common upon wallabies and kangaroos in most parts of
+Australia. The female is a pale chestnut-coloured insect about 1½ lines
+in length, with the typical conical blunt head, 4-jointed antenna,
+and elongate oval abdomen fringed with hairs, and barred with black
+between the segments. The Genus <i>Boopia</i> contains the wombat louse
+described by Piaget, and three<span class="pagenum" id="Page_391">[391]</span> other species found on wallabies. A
+fifth species, <i>Latumcephalum macropus</i>, is also parasitic upon
+wallabies. The Native Companion or Australian Crane is infested by
+a species described by these writers under the name of <i>Lipeurus
+giganteum</i>; it is of a uniform dull white colour, with an angular
+head, and measures ¼ of an inch in length. Three species are found upon
+the Lyre-bird, namely: <i>Lipeurus menura</i>, <i>Nirmus menura</i>,
+and <i>Menopon menura</i>. The white ibis has a distinct species, and
+another is found upon the sulphur-crested cockatoo. The emu is the host
+of an elongate dark-coloured species measuring up to 2 lines in length;
+the “Apostle Bird” and the “Rosella” parrot have each a distinct
+parasite.</p>
+
+  <div class="figcenter" id="fig175" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig175.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 175.</b>—The Kangaroo Louse.</p>
+     <p class="p0 smaller center"><i>Heterodoxus macropus</i> (Le Souëf and Bullen).</p>
+     <p class="p0 smaller center">(Drawn from the type W.W.F.)</p>
+     </div>
+
+<p>When these insects are carefully collected probably our fauna will be
+found to be rich in curious and interesting forms, judging from the
+number of undetermined species in my own collections. They can be very
+easily collected in small spirit tubes as soon as the animal or bird
+is shot, but like the “Louse-flies” they soon leave the dead body, and
+all sportsmen know this to their cost when carrying their game any
+distance.</p>
+<hr class="chap x-ebookmaker-drop">
+
+<div class="chapter">
+<p><span class="pagenum" id="Page_392">[392]</span></p>
+
+<h2>Order IX.—THYSANOPTERA.</h2>
+</div>
+
+
+<p>These insects are often called <span class="smcap">Physapoda</span> in allusion to
+their bladder-shaped feet; but though some are wingless, the name
+<span class="smcap">Thysanoptera</span> seems much more suitable, for all the typical
+forms have both pairs of wings beautifully fringed with hair-like
+filaments, hence the name “fringe-wings.”</p>
+
+<p>Thrips have few affinities with any of the other orders, and their
+exact position in any system of classification has puzzled most
+entomologists. The remarkable structure of the mouth, which has
+been studied by Messrs. Jordan and Garman, appears to consist of a
+compound of biting jaws and a sucking style. Uzel has figured it
+in his “Monographie der Ordnung Thysanoptera” 1905, but the exact
+manner in which they take their food is not yet clearly understood.
+The integument is very thick and opaque, and the head comes to a
+cone-shaped point at the mouth adjacent, to the ventral surface of the
+sternum, so that the complicated structure of the mouth is difficult to
+study. The eggs are laid upon the food plant, and the young undergoing
+a series of moults resemble the adult in general form, and the
+distinction between the larval and pupal forms, though noticeable, is
+very slight.</p>
+
+<p>The members of this Order sometimes appear in immense swarms and do a
+great amount of damage to cultivated plants and field crops. They are
+widely distributed over the world, and many species are cosmopolitan,
+having been spread with the introduction of their food plants. The
+group is well represented in Australia by many remarkable and striking
+species, some of which form distinct galls. This Order contains the
+single family <span class="smcap">Thripidae</span>.</p>
+
+<hr class="r25">
+
+<h4>Family 1. Thrips.<br>
+<span class="subhed">THRIPIDAE.</span></h4>
+
+<p>These are elongate, black, or brown, with 6 to 9 jointed antennae
+standing out in front of the head; large eyes; with ocelli (usually
+absent in the wingless forms). The elongate head comes to a cone-shaped
+point at the extremity; the mouth consists of a pair of jaws with a
+pointed style between<span class="pagenum" id="Page_393">[393]</span> them. The thorax, as broad or slightly
+broader than the body, is elongate, and furnished in the typical forms
+with two pairs of delicate oar-shaped wings with a simple medium
+parallel vein in the centre of each fore wing, and both pairs fringed
+with delicate feather-like filaments; both pairs are attached at
+the base to the dorsal surface of the thorax, and when at rest are
+folded down the centre of the back. The legs are short and simple, but
+sometimes the thighs of the front pair are thickened; the tarsi consist
+of two short simple joints, the last bladder-shaped. The abdomen is
+slender and is rounded at the extremity, and in one division ends in a
+slender tubular process. Most of them are minute creatures; the giant
+among them comes from Australia, but this only measures ½ an inch in
+length. Though most species are vegetarian in their habits, feeding
+upon the surface of plants or the pollen of flowers, a few are said to
+devour mites and other tiny creatures.</p>
+
+<p class="p2 smaller center">Plate XXXVII.—THYSANOPTERA.</p>
+
+<p class="center smaller">Family <span class="smcap">Thripidae</span>.</p>
+
+<div class="parent">
+<ul class="left smaller" style="margin-top: 0em">
+  <li>1. <i>Idolothrips spectrum</i> (Haliday). Giant thrips.</li>
+  <li>2. <i>Thrips tabaci</i> (Lindeman). Rose and Onion thrips.</li>
+  <li>3. <i>Kladothrips rugosus</i> (Froggatt). Gall thrips.</li>
+  <li>4. <i>Kladothrips rugosus</i> (Froggatt). Larva.</li>
+  <li class="hangingindent">5. 5<i>a</i>. 5<i>b</i>. Various stages of galls (<i>K. rugosus</i>) on Acacia foliage.</li>
+</ul>
+</div>
+
+  <div class="figcenter" id="plate37">
+     <p class="p1 sm center"><i>Plate XXXVII.—THYSANOPTERA.</i></p>
+    <img
+    class="p0"
+    src="images/plate37.jpg"
+    alt="">
+  </div>
+
+<p>In Uzel’s Monograph only 135 species are catalogued, half of which are
+European. Haliday (Entomological Magazine 1836) divided all the known
+species into two groups or sub-families, viz.: <i>Terebrantia</i>, in
+which the females have an external toothed ovipositor (including all
+the typical European forms); and the <i>Tubulifera</i>, in which the
+ovipositor is hidden and the tip of the abdomen is produced into an
+elongated tubular process (most of our indigenous species fall into
+this latter group).</p>
+
+<p><i>Heliothrips haemorrphoidalis</i>, an introduced species, is our
+commonest thrips, and is world-wide in its range. It measures about
+¹⁄₁₆ of an inch in length, is stout in proportion; has the head and
+thorax rugose, and is of a uniform black tint with very light-coloured
+wings. It not only infests and damages a great number of garden plants,
+but is spreading to our native bushes, for I have taken them on young
+eucalypts far away from any gardens. The Giant Thrips, <i>Idolothrips
+spectrum</i>, was described by Haliday from specimens collected by
+Charles Darwin in 1836; he described the sexes as different species;
+and a smaller dark variety was given a third specific name. It is a
+very common insect in Eastern N.S.W., hiding among the foliage of dead
+eucalypts; when disturbed it runs about with its wings and elongated
+body turned upward in the manner of a small “rove beetle.” It has an
+extended range from Tasmania to Southern Queensland. I recorded its
+life-history (Pro. Linn. Soc. N.S.W. 1904), where the different stages
+of development are figured. Its large size, long antennae, elongated
+neck-like prothorax, and red spined abdominal segments and tubular
+appendage are very distinctive characters.</p>
+
+<p>The most remarkable <span class="smcap">Thripidae</span> however are those that<span class="pagenum" id="Page_394">[394]</span> infest
+many of our forest shrubs, such as <i>Acacia</i>, <i>Hakea</i>,
+<i>Callistemon</i>, and other scrub trees in Central Australia. These
+live in galls which they produce by puncturing the edges of the young
+leaves and causing them to curl over; or by attacking the leaf buds
+and aborting the tips of the twigs into irregular masses of thin
+woody galls; or again, the leaf is pierced from the under side by the
+female thrips, causing the leaf to blister on the upper surface, which
+gradually expands into an oval or rounded gall as large as a small
+marble, and into which most of the leaf is often absorbed, leaving
+only the leaf stalk and the tip, which forms a short tail curving
+up from the basal scar. Many of these galls are closely packed with
+small semitransparent larvae and pupae in all stages of development,
+the offspring of the single female thrips that first caused the gall.
+Noting this remarkable habit of Australian thrips, so different from
+that of all other known species, I forwarded specimens and galls to
+Dr. Sharp, who notes the fact in the Cambridge Nat. Hist.: Insects.
+It seems apparently to be a case of the survival of the fittest, for
+in the dry intense summer heat of the interior these delicate insects
+could not live on the outer surface of the foliage, while, enclosed in
+these galls, they can survive the hottest and driest season. Species
+of gall-making thrips have been recorded recently from Java. Uzel
+described one of these gall-making species, <i>Phloeothrips tepperi</i>
+(Acta Societatis Entomologicae Bohemiae 1905) from specimens obtained
+in S. Australia by Tepper, and which form oval galls upon the “Mulga,”
+<i>Acacia aneura</i>. This species is also common in the western parts
+of N.S. Wales upon the same tree, which also bears two other distinct
+thrips galls.</p>
+
+<p>I have figured a remarkable rugose gall, obtained near Tamworth,
+N.S. Wales, upon a short-leaved acacia (Agricultural Gazette N.S.W.
+1906); the maker of this gall will not fit into any known genus, and
+therefore I propose for it the name of <i>Kladothrips rugosus</i>. It
+has an elongate rounded head, with the thighs of the fore-legs greatly
+thickened and the apex of the tibia produced into two blunt claws.</p>
+<hr class="chap x-ebookmaker-drop">
+
+<div class="chapter">
+<p><span class="pagenum" id="Page_395">[395]</span></p>
+
+<h2 class="smaller">THE COLLECTION AND PRESERVATION OF INSECTS.</h2>
+</div>
+
+
+<p>A collector’s outfit will vary considerably in different kinds of
+country, and depend to a certain extent upon the particular group of
+insects he is interested in. But there are some things he will require
+on every tramp through the bush. For general collecting the first
+thing needed is a strong leather bag; a large-sized school bag that
+can be slung over the shoulder is preferred by some entomologists, as
+it leaves their hands free; others carry a hand-bag; but a combination
+of both, with handle and also swivels to which a shoulder strap can
+be attached, is sometimes used, so that it can be carried either way.
+I prefer the hand-bag, though it has its disadvantages, and one is
+that when shaking or sweeping the scrub it is apt to be left behind,
+and time spent in returning for it; and if the scrub is thick, may
+have to be searched for. The bag should not be too big, for in a long
+day’s tramp it becomes a burden, and if string and paper be carried,
+galls, infested twigs, and foliage can always be made up into a bundle
+and attached to the bag when an extra good find has been made. Some
+collectors have the bag divided into compartments or pockets, which are
+very handy at times for bottles and tubes, but it must be borne in mind
+that every piece of leather adds weight.</p>
+
+<p>With regard to nets, they must be adapted for the work they are to do;
+and first in importance comes the butterfly net. If one is in camp
+a simple net can be constructed with a ring of stout fencing wire,
+fashioned into a circle with the two ends bent down for about six
+inches, and tightly lashed to a straight sapling about eight feet in
+length; round the ring is sewn a strip of stout calico, to which is
+attached a mosquito net bag about 18 inches long, tapering to a rounded
+tip, and about 15 inches in diameter; this net is however a fixture and
+cannot be taken to pieces and folded up for travelling. Where nets can
+be obtained from dealers’ shops, there are some very neat and handy
+ones for packing up in small compass, such as the three fold net. The
+handle, like an ordinary light walking stick, is fitted at the end with
+a tubular Y; the base of the Y fits on to the handle, and the arm on
+either side receives the ends of the cane ring; the cane is shod with
+brass and jointed in three places, and there is a sheath to draw over
+each joint to form the ring; the net is then slipped on. A short stick
+is handy for many things; but when necessary a long sapling can be cut
+for a net-stick.</p>
+
+<p><span class="pagenum" id="Page_396">[396]</span></p>
+
+  <div class="figcenter" id="fig176" style="max-width: 288px">
+     <img
+    class="p1"
+    src="images/fig176.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 176.</b>—Collecting Net for Butterflies showing the
+ring fitted into ferrule; and folded up.</p>
+     </div>
+
+<p>For catching wasps, flies, and other small insects a little hand-net
+about nine inches in diameter, made of mosquito net and a bit of
+fencing wire, is much more handy than the large butterfly net. When
+dragging water-holes or creeks a bag of cheese-cloth placed on the
+butterfly net ring will be found very serviceable, and will stand
+much rough use. A stout umbrella will be found one of the most useful
+collecting appliances when hunting in scrub or forest country. If
+the bushes are beaten or shaken with one hand while holding the open
+umbrella below them, the collector will be surprised at the number
+of fine things, large and small, that come tumbling down into the
+umbrella, including many that he would never see otherwise. In the
+dry western scrubs I find the early hours of morning between daylight
+and eight o’clock to be the best time for beating and shaking, as
+everything that falls then is more or less torpid; later in the
+day they begin to get very active and fly off when disturbed. Some
+collectors go to the trouble of having a special umbrella made of white
+material or lined with calico, so that the fallen insects can be more
+easily noticed, but the advantage is slight. Mr. Masters suggests the
+use of a<span class="pagenum" id="Page_397">[397]</span> sheet spread under the bushes, and the whole tree beaten and
+shaken. This method in suitable country has its advantages.</p>
+
+<p>The killing bottles come next in importance, and the first and most
+commonly used is the cyanide bottle. An empty 1 oz. quinine bottle
+makes one of a very serviceable size, but any other light wide-mouthed
+bottle will answer the purpose. Place a piece of cyanide of potassium
+about 1½ inches square and ½ an inch in thickness at the bottom of the
+bottle, and then pour in enough liquid plaster of Paris to embed and
+cover it; drain off any surplus moisture with blotting paper; and when
+the plaster is set hard, close the bottle with a tight-fitting cork.
+It is an advantage to coat the top of the cork with red sealing-wax,
+so that if it is dropped or left behind, the bright cork will make
+it more conspicuous. Young collectors may get the insects covered
+with particles of damp plaster and perhaps spoilt; to prevent this,
+the plaster should be covered with scraps of paper, moss, dry grass,
+or some such material, to absorb the moisture and keep the specimens
+clean. The dead insects should always be turned out of the cyanide
+killing bottle on returning from a day’s hunt, for if kept long in the
+bottle they will often become more or less discoloured.</p>
+
+  <div class="figcenter" id="fig177" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig177.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 177.</b>—Glass-bottomed Box, handy for catching
+small moths.</p>
+     </div>
+
+<p>A killing bottle favoured by museum and professional collectors is a
+similar bottle, but, instead of using cyanide, a pad of cotton wool is
+placed in the bottom, on to which some chloroform is poured to charge
+the bottle. But when collecting is brisk and the cork constantly being
+taken out for fresh captures, the chloroform evaporates, and the bottle
+must be re-charged at intervals. When one is collecting different kinds
+of small specimens it is advisable to carry several small tubes charged
+with chloroform, and if a circular pad of blotting paper be carefully
+cut and pressed down on the wadding, the little creatures will not
+get their legs and antennae tangled in the fibre of the cotton. If<span class="pagenum" id="Page_398">[398]</span>
+delicate winged insects remain long in the moist atmosphere of the
+tube, their wings stick to the sides or curl up, so that it is wise
+to turn them out every now and then into pill boxes carried for the
+purpose, and any special treasures should be rolled up in soft paper.
+At one time most English entomologists used chopped laurel leaves in
+the bottle instead of cyanide; this foliage gives off a certain amount
+of hydrocyanic acid vapour, sufficient to kill insects, at the same
+time keeping them clean and relaxed so that they are easily mounted.</p>
+
+  <div class="figcenter" id="fig178" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig178.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 178.</b>—Killing Bottle</p>
+     <p class="p0 smaller center">In which a piece of cyanide of potassium is placed, and then covered
+with plaster of Paris.</p>
+     </div>
+
+<p>The collector’s bag should contain several empty tins of all shapes
+and sizes, to carry the hundred and one things found in a day’s
+collecting, such as live larvae, cocoons, galls, eggs, &amp;c. When hunting
+for small moths the lepidopterist always carries a pocket full of
+small glass-bottomed boxes; the glassed portion is used to slip over
+the resting moth, which, when disturbed, at once flies upward to the
+glass, and the lid of the box is slipped under. These delicate little
+creatures are taken home alive, and can be killed in a jar and mounted
+while quite fresh. A stock of small tubes containing methylated spirit
+can be packed in one of the empty tins; these are very necessary to
+keep separate from one another specimens of ants, termites, or other
+insects<span class="pagenum" id="Page_399">[399]</span> taken direct from their nests. On a long trip one also wants
+a larger bottle or jar of spirit in which scorpions, millepedes,
+centipedes, and such-like creatures can be stored.</p>
+
+  <div class="figcenter" id="fig179" style="max-width: 250px">
+     <img
+    class="p1"
+    src="images/fig179.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 179.</b>—Chloroform Tube, used for killing
+small, delicate insects.</p>
+     </div>
+
+  <div class="figcenter" id="fig180" style="max-width: 353px">
+     <img
+    class="p1"
+    src="images/fig180.jpg"
+     alt="">
+     <p class="p0 smaller center"><b>Fig. 180.</b>—Butterfly set upon corked and grooved board to
+show the process of mounting.</p>
+     </div>
+
+<p>When timber is found infested with beetle or moth larvae, it should be
+secured and brought home, where it can be placed in a tin trunk, glass
+jar, or proper breeding cage and the perfect insects bred out. When
+engaged at this very profitable work a small hatchet and hand saw are
+needed to cut the branches. At all times a stout old butcher’s-knife
+should be among the kit, as it is useful for digging round the roots of
+trees and under logs, tearing bark off tree trunks, and if it be jagged
+on one edge will make a rough saw. A newspaper or two is handy for many
+things, among others to make envelopes in which to place butterflies.</p>
+
+<p><span class="pagenum" id="Page_400">[400]</span></p>
+
+<p>Specimens collected in camp must be kept in good condition until
+they can be properly mounted at home; in a dry country this is not
+difficult, but in the wet season in a semi-tropical climate both
+botanical and entomological specimens are very liable to damage.</p>
+
+<p>Most collectors put all the hard-bodied insects such as beetles
+into a wide-mouthed jar of methylated spirits, where they will keep
+indefinitely, but any beetles that are clothed with fine hairs or
+floury pubescence should be carefully pinned in a box, and, unless very
+large, will dry quickly. Some entomologists place their captures of
+this kind in clear carbolised sawdust in tins or jars: I have packed
+small specimens in circular tins in the following manner:—First a
+layer of camphor covered with a circular sheet of blotting paper
+fitting close into the tin, then the insects fresh from the killing
+tubes, and after sprinkling the insects with camphor a layer of
+blotting paper, and so on. Thus many thousands of micro-coleoptera,
+hemiptera, &amp;c., could be securely packed and added to day by day until
+the tin was full, when a wad of cotton wool was placed on the last
+sheet of paper, and the tin put aside or posted to its destination.</p>
+
+<p>With regard to butterflies, the collector can generally see whether
+they are good or damaged specimens as soon as they are taken out
+of the net; if the latter, he should let them go (unless unique or
+rare forms), for an imperfect or rubbed butterfly is comparatively
+valueless. If it be a perfect specimen, the wings should be folded
+together over the back, and a sharp nip on the thorax between the
+fingers will kill it in a moment. Each specimen should be placed in a
+folded paper envelope, made by crossfolding an oblong piece of soft
+paper in the shape of a triangle and folding down the overlapping
+edges. Packed side by side, a square tin will hold hundreds of these
+paper envelopes, which can be stored in this manner indefinitely
+or till the collector is ready to relax and set them. Thousands of
+butterflies are sent in these papers from all parts of the world to
+London for sale, and are usually disposed of at so much per hundred.</p>
+
+<p>Moths cannot well be treated in this manner on account of the
+thickness of their bodies and the looseness of the scales upon
+their wings; they have therefore to be pinned in a corklined box as
+they are collected, but later on can be relaxed and their wings set
+as with the butterflies. When we come to the tiny moths known as
+<span class="smcap">Micro-lepidoptera</span>, we find they require special treatment, and
+most lepidopterists take a box fitted with narrow setting boards, when
+out for a few days, and set their captures every evening<span class="pagenum" id="Page_401">[401]</span> before they
+become stiff, for otherwise many make very unsatisfactory specimens.</p>
+
+<p>In collecting <span class="smcap">Hymenoptera</span> the different groups need special
+treatment; and where there are several sexes dissimilar in size and
+structure they should be carefully kept together. Ants are always best
+collected from their nest, and a number of specimens of the different
+sexes secured and placed in a tube of methylated spirits. The locality
+and date should be written with a hard lead pencil upon a slip of paper
+and placed in the tube with them. A series can afterwards be sorted
+out and mounted, the large ones on pins and the smaller on gummed
+card. Wasps should be pinned, and when the forms with wingless females
+(Thynnidae and Mutillidae) are obtained <i>in copula</i>, a very common
+state in midsummer, they should be captured and killed together and
+the paired insects mounted with a check mark on each pin beside the
+locality and date label, so that no mistake can be made as to their
+identity.</p>
+
+<p>The bulk of the <span class="smcap">Hemiptera</span> will with their hard integument
+carry well in spirit or carbolised sawdust. Some of the more delicate
+of the <span class="smcap">Homoptera</span>, such as the Psyllidae, Aphidae, and Coccidae
+(Scale insects), should be collected with their food plant. They
+can be obtained in various stages of their development; the perfect
+insects can be bred in confinement upon their food plants. They
+should be mounted on card when fresh, but, if not, can be placed in
+the camphor tin or even a dry tube plugged with cotton wool, but if
+the tube be corked they will spoil, owing to the moisture generated
+within the tube. In the case of scale insects, portions of the leaves,
+bark, or twigs infested with the tests of the injects can be cut
+to a uniform size and mounted with gum or small pin on card, and
+if mounted carefully make very neat specimens. Many of the larger
+<span class="smcap">Homoptera</span>, such as cicadas, fulgorids and frog-hoppers, can be
+mounted, with the wings outspread, but should not go into spirits.</p>
+
+<p><span class="smcap">Orthoptera</span>, particularly the large phasmids, are very
+unsatisfactory creatures to deal with when captured; often too large
+to go into a killing bottle, they have to be brought into camp alive.
+If a female, it may be kept a while to lay its eggs, as they are very
+interesting objects. The eggs can be mounted on card or placed in a
+small pill box and pinned beside the insect in the box. These insects,
+as well as all large grasshoppers, should be cut down the abdomen on
+the under side and the contents removed with forceps; a little paris
+green should then be sprinkled inside or some weak corrosive sublimate
+applied with a brush; then<span class="pagenum" id="Page_402">[402]</span> a wad of cotton wool should be pushed
+into the cavity to give shape to the empty body when it dries. In the
+case of the larger cockroaches, which are often very brittle when
+cleaned and dried, a bit of sheet cork instead of cotton wool can be
+shaped for a false body, coated with gum and slipped in; when pinned
+through the cork it makes a very firm specimen. Some collectors mount
+their grasshoppers and other orthoptera with the wings outspread, and
+as show specimens they look best, but take up a great deal of room;
+others mount the wings on one side, and leave the others folded down in
+their natural condition in repose, so that some idea is given of the
+natural form, and the outspread wings can also be examined for specific
+differences. In collecting phasmids and stick insects for transmission
+by post or packing in small space, the best plan is to get a slender
+stick and lay the insect along it with outstretched legs and folded
+wings, and then wind soft worsted thread round it from end to end; it
+can be unwound and mounted properly when received at its destination.
+Orthoptera should not be put into spirit with other specimens, as they
+lose their colour, become soft, and break up easily; they will however
+travel well in a 5 per cent. solution of formalin; this has a hardening
+effect and only alters the colour slightly unless the insects are kept
+in it for a considerable time. If kept in formalin for say a week and
+then packed in sawdust they will not rot or spoil as they often do when
+killed and packed before they are dried.</p>
+
+<p><span class="smcap">Neuroptera</span> are delicate creatures, and many of them keep
+best if killed and placed in papers as in the case of butterflies,
+unless there is room to pin them in a store box. The bodies of the
+dragon-flies rot very quickly and break off very easily; if carefully
+handled they can be placed <i>alive</i> in papers with their wings
+folded over their backs, and will remain alive for several days, long
+enough to travel a considerable distance by post when dispatched direct
+to a specialist, who will then receive them with their natural colours.
+If kept in the store box it is advisable to impale the slender body
+with a bristle or grass stem, inserting it at the front of the thorax
+and pushing it through to the tip of the abdomen, but not far enough to
+injure the anal appendages. Many specimens can be pinned in the store
+boxes with the wings closed, and relaxed and mounted with outspread
+wings months afterwards.</p>
+
+<p><span class="smcap">Diptera</span> is another group that requires delicate manipulation,
+particularly such species as “daddy-long-legs” (<i>Tipulidae</i>),
+mosquitoes (<i>Culicidae</i>), &amp;c. When Skuse was collecting he always
+carried a pocket-box containing pinned card slips of various lengths,
+and a tube of gum, and, after<span class="pagenum" id="Page_403">[403]</span> killing the insects in a chloroform
+tube, he mounted them at once while they were flexible and the legs not
+detached. Theobald mounts his mosquitoes on fine pins, which are pushed
+from beneath through a circular piece of cardboard (these circular
+cards are stamped out with a wad-cutter); the legs are spread out and
+an ordinary pin pushed through the circle to pin them in a cabinet. The
+larger flies are pinned dry in the ordinary manner, and the smaller
+ones are carded.</p>
+
+<hr class="tb">
+
+<p><span class="smcap">Animal parasites</span>, which belong to quite a number of groups,
+are obtained on the live birds or mammals as soon as they are shot.
+When the animals are dead the parasites leave the bodies as soon as
+they begin to get cold. They should be transferred at once to small
+spirit tubes, in which should also be placed a slip of paper upon which
+is written in lead pencil the name of the mammal or bird upon which it
+was taken, the date of capture, and the locality.</p>
+
+<hr class="tb">
+
+<p><span class="smcap">Lamp and Night Collecting.</span>—In suitable localities a great
+haul of insects can often be obtained on a warm sultry summer night by
+laying a sheet on the ground with a powerful lamp on it and hanging
+another sheet behind the lamp; the insects are attracted to the light,
+and falling on the sheet are then easily captured. In camp many fine
+insects may be obtained round the lamp or camp fire; and during the wet
+seasons in North Queensland and the north coast of Australia I have
+taken many rare insects in this manner.</p>
+
+<p><span class="smcap">Sugaring</span> is greatly practised in Europe; a suitable spot in a
+forest being chosen, a mixture of sugar and beer that have been boiled
+together is smeared upon the tree trunks and fences; at night-fall the
+ground is visited with a bull’s-eye lantern, and the insects (moths
+chiefly) that come to feed are captured, sometimes in great numbers.
+This has been tried by our collectors in Australia; but I have never
+had any success myself nor heard of anyone here who has had better
+fortune.</p>
+
+<p><span class="smcap">Trapping.</span>—When settled down in a fixed collecting camp many
+beetles and other insects can be obtained by trapping. If in brush or
+forest land a number of empty jam or milk tins with the tops cut neatly
+off are buried, with the edges level with the surface of the ground,
+many carnivorous ground beetles tumble in, and will be found there on
+going round in the morning. If a bone or bit of meat be placed at the
+bottom of the trap, it often attracts certain beetles that feed on
+such food. In the same manner a dead bird or small animal half buried
+in the ground, or placed under a sheet of bark or log, will prove an
+attractive bait<span class="pagenum" id="Page_404">[404]</span> for the burying beetles and other curious and often
+rare species; a dead animal should therefore be always investigated by
+the beetle hunter, as it often hides entomological treasures.</p>
+
+<p>Fallen timber always has a great attraction for all bark-feeding
+weevils, longicorns, and other small wood-borers that come to it as
+soon as the bark begins to wither. Here also come Cleridae, Antribidae
+and other carnivorous beetles to feed upon the smaller wood-borers, and
+many an hour can be profitably spent over a large fallen tree or bit of
+brush a few days after it has been chopped down, particularly in the
+tropical scrubs. Slicing the bark of living trees that exude any sap,
+and letting the bark hang down, attracts insects that feed on the sap
+or take shelter under loose bark; a number of such blazed tree trunks
+round a camp is a great source of revenue, particularly in the summer.</p>
+
+<p>There are many other devices that the collector will only gain by
+experience in the field, which will enable him to obtain many curious
+specimens that a novice would never find.</p>
+
+<p><span class="smcap">Mounting, Setting, and Storing.</span>—Having collected specimens,
+the next question is the storage of the insects. All entomological
+specimens (other than those kept in spirit tubes) must be preserved
+in close-fitting boxes lined with cork, linoleum, or other suitable
+substance, and the lining covered with clean white paper pasted over
+it. Many different kinds of store boxes are used by entomologists who
+cannot afford the luxury of cabinets; most of them are made of deal,
+with hinges in the centre; the two sides of the box fold together,
+fitting closely over a rim along the inner edge of one half; and they
+are fastened with two hooks on the outside. These English boxes made of
+light pine can be obtained in Sydney; they fit beautifully and are much
+lighter than the local ones made of kauri, but are slightly dearer. To
+make a useful store box, nail down the lid of a large-sized cigar box
+(cleaning, sandpapering, and varnishing it); cut the box through the
+centre with a fine saw, and then fit a projecting rim into one half
+with wood from another cigar box, so that the two halves fit close
+together over the rim without needing catches. This is handy only for a
+temporary store box, as it is rather difficult to get the two halves to
+fit accurately, and when made is rather small and deep.</p>
+
+<p>Specimens should be pinned or mounted on cards on a uniform plan;
+nothing looks worse than insects mounted in different styles. Except
+the smaller specimens, beetles and other insects should be pinned, and
+the most serviceable pins are perhaps Kirby, Beard and Co.’s Nos. 1
+and 5,<span class="pagenum" id="Page_405">[405]</span> though there are several useful intermediate sizes. When an
+insect is too delicate to pin with either of these, mount it on card,
+for more insects are lost or damaged through mounting with slender
+pins that refuse to stick into the cork, and curl up or buckle in the
+middle, than in any other manner. There are however many professional
+naturalists who always use the soft, slender, very fine, Continental
+pins, but they require very delicate handling, and are not suitable
+for the general collector. There is a great difference of opinion as
+to how insects should be set and pinned; many, particularly English
+naturalists, advocate low setting, while most of our collectors set all
+insects high, as the insects when thus pinned are raised well above
+the bottom of the box, and their legs and antennae are not so liable
+to get broken; all mites, dust and dirt will be noticed at once; and
+the name affixed beneath can be read without removing the insect. In
+the case of low setting, the insects are resting on the floor of the
+box; they are liable to damage with the least bump; anthrenus and mites
+can feed away under cover without being seen until the remains of the
+infested specimen fall apart; the insect has to be lifted up every time
+to see its name; while the locality and date-label is always liable to
+fall off. My standard height (first suggested to me by Mr. Masters to
+use when working in the Macleay Museum, Sydney) is the lid of a wax
+matchbox, which is about ¾ of an inch. A small hole is pierced through
+the centre of the lid; the beetle is placed on the top of the lid, and
+the pin pressed through it and the hole in the lid until the point
+touches the table beneath. The pin, in the case of a beetle, should
+be pushed through the upper half of the elytron (wing cover) on the
+right-hand side when the head is facing the same way as the person
+mounting, the pin coming out on the under surface between the middle
+and hind legs. The antennae and legs may be arranged with pins, but,
+during the season in Australia, insects are so plentiful that there is
+not always time to more than roughly open them out.</p>
+
+<p>In the case of insects too small to pin, they are carded. Sheets of
+the best white cardboard (little thicker than that of a visiting card)
+are cut into neat strips of uniform width and length for different
+specimens. No. 1 pins are run through the cards at one end to bring
+the under side of the card the same height up the pin as the under
+surface of the directly pinned insect. To give the little card mounts
+a finished appearance the card used in my collections is ruled with a
+double line of red ink, the first thick and the inner line fine; each
+strip of card is cut along the thick red line, and the pin is pushed
+through the red band. Where one has<span class="pagenum" id="Page_406">[406]</span> more than a single specimen, two
+or more can be mounted side by side on the same card, with their legs
+and antennae neatly set out, one with the dorsal surface uppermost,
+and the second one gummed with the reverse side upward, so that the
+specific characters of both sides of the insect can be examined without
+having to remove the specimen from the card.</p>
+
+<p>Moths, butterflies, cicadas, lace-wings and other large winged insects
+when fresh, or after they have been relaxed, are pinned down on setting
+boards; the body should rest in the parallel groove down the centre
+of the board, and the wings should be opened out and strapped down on
+either side with braces of paper or cardboard. The wings should be
+expanded in a natural manner, and so that the whole of the venation
+and beauty of the wings are shown. A setting board is simply a strip
+of soft pine wood with two sheets of cork gummed on the upper surface,
+with a groove between them to receive the body; fine white paper is
+pasted over the whole of the board. They are made of various sizes to
+suit both large and small moths. Most of the old setting boards had the
+cork rounded so that the wings drooped downwards; afterwards many used
+them with the outer side turning upward so that the wings were raised
+at the extremities; those in general use now are perfectly flat.</p>
+
+<p>All these insects are easily relaxed by placing them between damp
+blotting paper on the top of some wet sand in a plate, and covering
+them over with a bell glass or similar vessel; within twenty-four hours
+they are limp enough to be pinned and their wings opened out without
+any danger.</p>
+
+<p><span class="smcap">Numbering and Labelling.</span>—Every specimen, as soon as it is
+mounted, should have a small label attached to the pin; this can be
+written with a fine-pointed pen on small slips of paper as distinctly
+as possible, with the exact locality in which the insect was collected,
+the date of capture, the name or initials of the collector, and the
+food plant when known. It is however sometimes better to pin a second
+slip below for the food plant and a distinctive catalogue number. Every
+young naturalist starting a collection should have consecutive numbers
+on each series of specimens he collects, and keep a note-book or stock
+register, in which to enter any information about the insect bearing
+the number. These notes in the course of time will become more and
+more valuable, and give an added value to the collection. Many young
+naturalists may think of labels only as a record of the collector’s
+name, but the locality and food plant are the important points, and to
+the working entomologist a collection of Australian insects<span class="pagenum" id="Page_407">[407]</span> without
+any such records have lost half their value. The label is placed on the
+top of the matchbox lid, and the pin bearing the specimen is pushed
+through to bring the label about halfway between the specimen and the
+point of the pin, which allows of the label being easily read, and when
+uniformly placed adds to the neat appearance of the collection. I have
+mentioned a matchbox lid as a standard height for mounting specimens,
+but when constantly at work something more solid is required. Take a
+small block of soft deal wood about 4 inches in length by 2 in width,
+and just under ¾ of an inch in height; bore two or three holes through
+it at one end, tack a sheet of white cardboard over the top, and above
+this at one end tack a slip of cork 1½ inches in width; then make holes
+through the cardboard above the holes bored in the deal block, and you
+have an excellent mounting table to work upon.</p>
+
+<p>An entomologist does not require much apparatus after his boxes and
+setting boards, but one indispensable article is a pair of strong
+entomological forceps with curved tips; the curved extremities allow of
+the pin being gripped below the insect when fixing it in or lifting it
+out of the box. These in the hands of an expert are as good as an extra
+pair of fingers, both for moving about specimens and picking up pins.
+A second fine-pointed pair of forceps is useful for handling specimens
+when mounting, or for picking up small active insects under logs and
+stones. Two needles mounted in pen handles are invaluable for arranging
+the legs and antennae when being set. Fine-pointed paint brushes for
+cleaning dust and dirt from the insects are used; and a pair of pointed
+scissors are necessary for opening the large-bodied insects, cutting
+mounting cards, labels and such-like. A pocket lens should be always
+at hand, for without it one loses half the beauty and details of
+structure, and it would often be difficult to classify the specimens.
+Later on, the entomologist will find a dissecting microscope, which
+leaves both hands free to work, an indispensable part of his outfit.
+A bottle of gum is another requisite, and different recipes are given
+in manuals on the subject; at one time a mixture of tragacanth gum was
+generally used, but the great objection to its use is that, though very
+fine and transparent, it is very difficult to remove from the specimen
+when necessary to remount or to detach it for examination. The mixture
+now generally used is made of clean lumps of gum arabic dissolved in
+water to the consistency of thin honey, with a little ground lump sugar
+added; a few drops of carbolic acid are added, which, though apt to
+discolour it if much is used, will keep the mixture sweet, and prevents
+mould getting on the specimens. The gum should always<span class="pagenum" id="Page_408">[408]</span> be kept corked
+to prevent dust being introduced, which would show very readily on the
+mount.</p>
+
+<hr class="tb">
+
+<p><span class="smcap">Care of Collections.</span>—After the collections are formed, the
+insects pinned, labelled, and placed in their natural groups, one’s
+work is by no means finished; thousands of valuable specimens, and
+even types, have been irretrievably damaged or completely destroyed
+from want of a little care in preserving them from mites and museum
+beetles (<i>Anthrenus</i>). The specimens may be perfectly clean and
+stored in close-fitting boxes, and yet later may become infested, by
+the addition of specimens that have been in an infested collection.
+It is advisable to keep a receiving box in which to place exchanged
+specimens for some time before setting out in the collections; as
+a general rule a collector eagerly adds any new specimen to his
+collections, and so at the same time may introduce <i>Anthrenus</i>,
+often in the egg state, whose little hairy larvae will rapidly
+destroy his insects. Some collectors contend that they can preserve
+their specimens from the attacks of museum pests by dipping them in
+a very weak solution of corrosive sublimate in spirits of wine; but
+this can only be effectively done in the case of beetles and other
+hard-bodied creatures, for it must be remembered that this chemical
+is apt to affect the metallic and bright-coloured tints of the
+specimens, and will even corrode the pins. Camphor and napthaline kept
+in a muslin bag or cell in the corner of the insect box will poison
+the air and certainly kill all mites, and will keep some pests out;
+but <i>Anthrenus</i> are able to live in this poisoned atmosphere,
+and will still carry on the work of destruction. Having once found
+<i>Anthrenus</i> among the specimens, no time should be lost before
+destroying them: a wad of cotton wool should be pinned in the corner of
+the box, and chloroform or bisulphide of carbon poured over it, and the
+box kept closed for about twenty-four hours, when it should be again
+opened, all dead <i>Anthrenus</i> shaken out, the remains of damaged
+insects removed, and the most injured specimens (if common) burnt.
+Another method when <i>Anthrenus</i> are found is, to hold the open box
+or drawer in front of the fire for a few moments, when the pests, even
+if feeding within the insects, will wriggle out and can be destroyed.
+When once a box has been infested it will require constant attention
+for months after.</p>
+
+<p><span class="smcap">Mould</span> is also difficult to get rid of when once it appears
+in a box. If all insects are well dried before they are placed in the
+boxes, and the boxes kept in a dry place, there should be no mould
+among the contents, but if a few damp or mould-infested insects be
+placed in a clean box the mould may spread and eventually affect the
+whole collection,<span class="pagenum" id="Page_409">[409]</span> especially if the room is inclined to be damp. When
+mould appears, the affected insects should be cleaned with a brush
+dipped in benzine, and a few drops of carbolic acid should be poured on
+a piece of cotton wool in the box.</p>
+
+<p><span class="smcap">Grease</span> is often a great trouble to the collector. Many of the
+large wood-moths, particularly the bodies, sometimes get into a very
+bad state if not cleaned out thoroughly; and also on old specimens of
+beetles the grease develops verdigris, corroding the pins. Soaking all
+such specimens in benzine will soften the grease so that it can be
+rubbed off with a soft brush.</p>
+
+
+<hr class="chap x-ebookmaker-drop">
+
+<div class="chapter">
+<h2 class="smaller">MUSEUM COLLECTIONS AND TYPES.</h2>
+</div>
+
+
+<p>The type of a species is the actual specimen from which the published
+description has been drawn up by the entomologist; and the care and
+safe custody of such types should be the aim of every naturalist and
+museum curator. In the case of insects, they are often such delicate
+creatures that the type is very easily destroyed or damaged, either by
+careless handling, bad storage, or from the attacks of museum mites and
+pests; and at the present time, since many insect types have been thus
+lost or destroyed, often doubt exists as to which particular insect
+in the group is the species defined by the author, especially where
+the written description, as in many cases, is brief or incomplete.
+Many large private collections have been made by entomologists in
+which there are numbers of types either described by the owner, or of
+specimens he has obtained and submitted to specialists. Some of these
+collections have afterwards been broken up, sold, and distributed, so
+that it is now very difficult to trace the whereabouts of many types
+that do exist. Every year brings more independent entomologists into
+the ranks of the describers, so that our insects are being described
+in all parts of the world; and though the importance of types is much
+better understood than it used to be, the ultimate resting place of
+many of these types is very uncertain.</p>
+
+<p>The proper place for every type is in the cabinet of some accredited
+museum, though unfortunately there are some museums where the
+collections of insects are no safer than they are in private hands,
+either from want of proper storage or the lack of a special curator.
+Yet if it were an understood thing that the types of each specialist
+would be placed in the museum of his country, there would be some hope
+of them being available for the use of future students.</p>
+
+<p><span class="pagenum" id="Page_410">[410]</span></p>
+
+<p>The drawbacks to such a disposal of types are that most entomologists
+when they monograph a group intend to follow up the work as new
+material comes to hand, which occurs when through their publications
+collectors begin to forward specimens for identification; so that the
+types are often required by entomologists for supplementary papers.</p>
+
+<p>Again, each insect as soon as it becomes a type has a certain
+commercial value, and as most naturalists are poor men, this enhanced
+value is a consideration, and it would be hardly fair to expect them
+to give away valuable assets. The best way to get over the difficulty
+would be for each museum to have a sum of money put aside to purchase
+all types at a certain fixed rate, and with an understanding that no
+types go out of their native country before they have been submitted to
+the museum authorities.</p>
+
+<p>It is very unfortunate that many of the early and most prolific writers
+never definitely marked their type-specimen when it was described,
+simply returning it to the cabinet with the new name either on the pin
+or below it; and where there has been a series of the same species, and
+some assistant affixed the names, the recognised type may be a co-type.
+Co-types are very valuable when they are determined by the describer
+from the same species, but some writers have the bad habit of treating
+co-types as types, which leads to much distrust and confusion.</p>
+
+<p>Every type should if pinned have a second label besides the ordinary
+label placed well up on the pin, and bearing the word “type,” with the
+date, initials of the author, and name of the insect on the reverse
+side, so that as long as the specimen is in existence there can be no
+doubt as to it being a type.</p>
+
+<p>I therefore propose in the following pages to give some brief notes
+upon our Museum Collections, with reference to the types they contain;
+and also to refer to those types in private collections. To work out
+the location of the Australian type-specimens and collections in
+British and foreign museums would require a book to itself, but the
+destination of a few types of the more important collections can be
+indicated.</p>
+
+<p>Through the kindness of the Curators of the different Australian
+Museums and many interested friends, I have been enabled to gather much
+valuable information about the early collections made in Australia, and
+their final destinations.</p>
+
+<p><span class="smcap">The Macleay Museum</span>, Sydney, contains the finest general
+collection of Australian insects that exists, and is rich in types;
+it also contains a large series of insects from all parts of the
+world, among which are some historical<span class="pagenum" id="Page_411">[411]</span> specimens. Unfortunately here
+also the types of many species cannot be distinguished from their
+co-types, as they bear no distinctive type-labels. The entomological
+collections of the Macleay Museum are the accumulated gatherings
+of three distinguished naturalists. It was originally commenced by
+Alexander Macleay, who, when he left England to come to Sydney in
+1825, had one of the finest and most extensive collections of insects
+at that time in the possession of any private individual. He added to
+this many Australian species, some of which still bear his labels. His
+son, William Sharp Macleay, inherited this collection on the death of
+his father in 1848, and added to it, bequeathing it to his cousin, Sir
+William Macleay, on his death in 1865. Sir William Macleay, to whom
+the foundation of the Macleay Museum as a general zoological museum
+is due, began to accumulate insects in 1861, when Mr. Masters went to
+Port Denison, Queensland, to collect for him; Masters afterwards went
+on several extended collecting expeditions in Queensland, South and
+Western Australia, and the specimens collected by him were chiefly
+described by Macleay, though the actual types of many of the insects
+were in the early days placed in the Australian Museum, Sydney. The
+types of those collected by me at Cairns, N. Queensland, in 1886, and
+at King’s Sound, N.W. Australia, 1887–8, are in the Macleay Museum,
+also the other Macleay types described in the Proceedings of the
+Linnean Society of N.S.W., except a few that are said to be in the
+Brisbane Museum. Mr. Lea informs me that some of Bates’ types of the
+<i>Tenebrionidae</i> are in the Macleay Collections. The types of all
+the <i>Staphylinidae</i> loaned for description to Olliff are in this
+Museum; the others described by Olliff are in the Australian Museum. In
+the Macleay Museum are also Skuse’s types of Australian <i>Diptera</i>,
+as described in the Proceedings of the Linnean Society of N.S.W.,
+and which are distinctly marked and mounted, and in a fine state of
+preservation. Lea’s type-specimens of <i>Coleoptera</i>, described from
+unique specimens in this museum on loan, are in this museum; while all
+his other types, with the exception of a few in the National Museum in
+Melbourne, are in his own collections. Dr. Jefferis Turner informs me
+that a few of Meyrick’s type of <i>Micro-lepidoptera</i> are in the
+Macleay Museum; but Mr. Masters and I examined a number that Meyrick
+named for Macleay, and there is nothing to indicate that there are any
+types among the specimens.</p>
+
+<p>Two specimens of Sawflies (<i>Tenthredinidae</i>) described by me,
+and most of the types of the <i>Cicadidae</i> described by Dr. Goding
+and myself (with the exception of those types derived from specimens
+loaned from the Victorian and Adelaide<span class="pagenum" id="Page_412">[412]</span> Museums and returned thereto)
+are in this museum collection; also Marsham’s types of <i>Notoclea</i>
+(<i>Paropsis</i>), containing many of our commonest species as
+described in the Proceedings of the Linnean Society of London in 1818,
+are in this collection, and also, it is said, some of Boisduval’s types.</p>
+
+<p><span class="smcap">The Australian Museum</span>, Sydney, was founded in 1836 and
+incorporated by Act of Council in 1853. The first collection of insects
+was made by Mr. Roach of Petty’s Hotel about 1835, who presented it to
+the Government; they were exhibited in the “Round House” near Circular
+Quay, where they were placed in charge of W. S. Wall, afterwards the
+first Curator of the Australian Museum.</p>
+
+<p>The types now in the collections contain Macleay’s Gayndah Collection
+obtained by G. Masters, and described by Sir William Macleay in the
+Transactions of the Entomological Society of N.S. Wales. Some of
+Macleay’s <i>Coleoptera</i> from Port Denison, and South and West
+Australian specimens also collected by Masters are said to be in the
+Australian Museum, but a number of the latter are said by Mr. Masters
+to be in the Macleay Museum.</p>
+
+<p>Macleay never affixed a type-label to his specimen, and if there were a
+series of the same species he never indicated the type, so that it is
+only where there was a single specimen that we can be positive which
+specimen is the type; and further confusion arises as he presented many
+specimens to the Australian Museum from his own collections. Scott’s
+Lepidoptera (still kept as a separate collection) comprise the types
+described by him, and are the identical butterflies and moths figured
+in his work, “Australian Lepidoptera,” 1864.</p>
+
+<p>Olliff’s types of <i>Coleoptera</i> and <i>Lepidoptera</i> described
+while he was the museum entomologist are in the museum collections,
+with the exception of the <i>Staphylinidae</i> previously mentioned and
+a few others described from Macleay Museum specimens, one or two types
+that went to Jansen, London, in whose collection they are now said to
+be, and two butterfly types said to be in South Africa.</p>
+
+<p>King’s types of <i>Coleoptera</i>, collected by himself, and which he
+described in the Transactions of the Entomological Society of N.S.W.,
+were purchased by the Trustees of this museum after his death. Many
+of the smaller ones are mounted in balsam on glass slips; others are
+pinned and carded; and though some of the types have vanished owing to
+insect pests, they are on the whole in fairly good condition.</p>
+
+<p>Types of all the specimens described by both Skuse and Rainbow in the
+Records of the Australian Museum are in<span class="pagenum" id="Page_413">[413]</span> the collections; and also
+one of G. A. Waterhouse’s types (<i>Lepidoptera</i>) and a number of
+Sloane’s type <i>Carabidae</i>.</p>
+
+<p><span class="smcap">The National Museum</span>, Melbourne, was formed early in 1854, and
+temporarily housed in the Melbourne University buildings in August,
+1856, under the charge of the late Director, Professor (afterwards) Sir
+Frederick McCoy. The old museum situated in the University grounds was
+completed early in 1864, and the collections placed in it in March of
+that year.</p>
+
+<p>The Entomological Collection was commenced about 1861 by the late
+William Kershaw, under whose charge it was placed with other of the
+zoological collections until his retirement in August, 1891. He was
+succeeded by his son, J. A. Kershaw, who is the present Curator of the
+Zoological Collections.</p>
+
+<p>In the formation of the entomological collections no professional
+collectors were engaged, but specimens were obtained by purchase,
+exchange and donation from various sources. By the latter the Messrs.
+Kershaw were probably the largest contributors.</p>
+
+<p>The collection of general entomological specimens from all parts of the
+world is an extensive one occupying 31 cabinets. It contains several
+well-known collections, of which the most important is the “Curtis
+Collection of British Insects,” which was purchased by the National
+Museum authorities in 1863. It occupies 5 large mahogany cabinets, four
+of which contain British Insects of all orders, among them many of
+Curtis’ types (described in his work on British Insects); and the fifth
+cabinet of 50 drawers contains a general collection of exotic insects.
+Nothing has been removed from this collection, which is in an excellent
+state of preservation, and remains exactly as Curtis left it 45 years
+ago. Curtis’ MS. Register or Catalogue of this collection, comprising
+4 quarto volumes, is also the property of the National Museum. Some
+interesting notes on the Curtis Collection were published by J. J.
+Walker, R.N., in the Entomological Monthly Magazine, 1904.</p>
+
+<p>The “Howett Collection” made by Dr. Howett, consisting of Australian
+Coleoptera, was bequeathed to the Melbourne University by its founder,
+with a condition that it must be kept intact, and nothing added to,
+or taken from it. It was handed over to the National Museum by the
+University authorities in April, 1904, on loan, together with Dr.
+Howett’s library of entomological works. This collection is contained
+in 10 cabinets, and includes a large number of types of Australian
+insects, principally those of Count Castelnau, in whose handwriting
+many of the labels attached to the insects are written.</p>
+
+<p><span class="pagenum" id="Page_414">[414]</span></p>
+
+<p>Another large and valuable collection is that of the late Count
+Castelnau, embracing his general collection of Coleoptera. It occupies
+5 large cabinets containing about 200 drawers. The specimens are all
+mounted on uniformly sized pieces of papered cork, and in a great many
+instances a species not in the collection is represented by a carded
+figure.</p>
+
+<p><span class="smcap">The South Australian Museum</span>, Adelaide.—Mr. F. Waterhouse was
+the first Curator. It contains the following: Messrs. Kreusler and
+Odewahn’s joint collection of Coleoptera, named by Pascoe, and Mr. E.
+Guest’s <i>Micro-lepidoptera</i> named by Meyrick; these were both
+purchased for the museum, but the types in these collections are not
+noted by any special reference.</p>
+
+<p>A large portion of Tepper’s original collection before 1883, and some
+of F. Waterhouse’s specimens, were also added to the collection.</p>
+
+<p>A comparatively large number, but a small proportion of the whole of
+the Rev. Thos. Blackburn’s types of <i>Coleoptera</i>, are in this
+museum. A number of Mr. O. Lower’s types of <i>Lepidoptera</i> are
+also deposited here; and also all or nearly all of Mr. Tepper’s types,
+described chiefly in the Transactions of the Royal Society of S.
+Australia.</p>
+
+<p>The Kreusler and Odewahn Collection was formed between the years 1855
+and 1875, and consists chiefly of Coleoptera collected about Gawler and
+Blanchtown, on the Murray River, S.A. Messrs. Schulz, Bathurst, Jung
+and O. and P. Tepper collected about Lyndoch, South Para River, and
+P. Tepper later on about the Lower Murray plains, Ardrossan, Yorke’s
+Peninsula and the Mount Lofty Ranges. Messrs. C. A. and G. M. Wilson
+also collected extensively in the early days. All these collectors
+exchanged specimens and forwarded S. Australian insects to Europe and
+England, while the Messrs. Tepper sold to Berlin a large collection
+chiefly of <i>Coleoptera</i> in 1868.</p>
+
+<p><span class="smcap">The Queensland Museum</span>, Brisbane, is not rich in types, but
+contains a large collection of Queensland and New Guinea insects of
+considerable value; but the specimens, from want of funds and a special
+custodian, are stowed away, and not arranged in any particular order.</p>
+
+<p>The types contained in the large collection of Miskin’s Lepidoptera,
+purchased some years ago by the museum authorities; a few types
+created by Dr. Jefferis Turner; and others by Lower, are all in this
+collection. I understand that there are also in this collection some
+Australian and New Guinea types created by Mr. Tryon.</p>
+
+<p>The following notes on the Australian types that are to be found in
+British and other collections, furnished by Mr.<span class="pagenum" id="Page_415">[415]</span> J. J. Walker, R.N.,
+of Oxford, and Dr. D. Sharp, of Cambridge, are very interesting. Mr.
+Walker says: “The Hope Collection (made by the Rev. F. W. Hope and
+bequeathed to the University of Oxford at his decease about 1861), in
+combination with that of the late Prof. J. O. Westwood, forms the basis
+of the now very extensive collections of insects in the University
+Museum. You may safely assume that <i>all</i> Hope’s Australian types,
+and the majority of those described by Westwood, are at Oxford. We have
+no fewer than 55 types of the Genus <i>Stigmodera</i> alone described
+by Hope. We also have a large number of insects from the collection of
+the late W. W. Saunders, chiefly <i>Lepidoptera</i>, <i>Heterocera</i>,
+<i>Hymenoptera</i>, <i>Orthoptera</i>, &amp;c., and these include many
+types described by F. Smith, Walker, and others. The majority of
+Walker’s types (such as they are) are in the National Collection,
+which in 1896 was enriched by the purchase of Pascoe’s collection of
+Coleoptera, including at least 2,000 type-specimens, with a large
+number of Australian species among them.”</p>
+
+<p>Dr. Sharp says: “We have no Australian types in the Cambridge
+Museum, and my own collection, containing the types of many species
+of Australian Coleoptera, was transferred to the British Museum a
+few weeks ago. The rest of my collections are also there except
+the Lamellicorns; these were sold by me many years ago to Mr. Rene
+Oberthier, of Rennes, and the types of the Australian Lamellicorns I
+described are consequently with him. Though Westwood’s collections
+are at Oxford, many things that he described from the British Museum
+Collections are in the British Museum. Most of Newman’s types are I
+believe in the British Museum. Castelnau’s Collection was sent from
+Australia to Paris about 40 years ago and sold there; the Carabidae
+were purchased by the Genoa Museum, and they have the types. The
+Lamellicorns were purchased by Von Lansberg, and subsequently sold
+by him to R. Oberthier. The Stapylinidae and Dytiscidae I bought
+and are now with the rest at the British Museum. R. Oberthier also
+possesses the Thomson types. The Cetoniidae of Janson are still in his
+possession. Edward Saunders’ collection of Buprestidae was purchased
+by the British Museum, and they have also acquired the Kerremans’
+Collection of Buprestidae.”</p>
+
+<hr class="tb">
+
+<p>Among the many collections of Australian insects that contain types,
+the following might be noticed:—</p>
+
+<div class="blockquot">
+
+<p><span class="smcap">Blackburn.</span>—Coleoptera; a very large collection
+containing many types created and described by the Rev. T.
+Blackburn, of Adelaide, S. Australia, who informs me that “A few
+of the types are in Mr. C. French’s collection, a comparatively
+large number (but small in proportion to the whole) are<span class="pagenum" id="Page_416">[416]</span> in the
+South Australian Museum.” The rest are in his own collections.</p>
+
+<p><span class="smcap">Lea.</span>—Coleoptera: Another extensive collection from
+all parts of Australia and Tasmania is that of Mr. A. M. Lea,
+Hobart, containing a great number of the owner’s type specimens.
+A few of Mr. Lea’s types are in the Macleay and National
+Museums; one or two in Mr. A. Simson’s collection in Launceston;
+and others are in Mr. French’s collection in Melbourne.</p>
+
+<p><span class="smcap">Sloane.</span>—Coleoptera: This collection consists chiefly
+of Cicindelidae and Carabidae, and contains nearly all the
+types created and described by the owner, Mr. T. G. Sloane,
+Moorila, N.S. Wales. Some of his types however are in the Lea
+Collection; others in French’s; one in Mr. F. Taylor’s (Sydney),
+and a few, as previously mentioned, are in the Australian Museum
+collections.</p>
+
+<p><span class="smcap">French.</span>—Coleoptera: The owner, Mr. C. French,
+Melbourne, has never described any species himself; but his
+present collection, of which the Scaritidae is a very important
+part, contains many types described by other entomologists.
+During the last twenty years French made and bought several
+large collections of beetles, which he informs me have been
+dispersed in the following manner. “My first collection went
+to Leyden purchased by Count Lansberg. My second collection
+also to Leyden purchased by Van de Poll.” Among the collections
+he purchased were Atwell’s W. Australian beetles, the Diggles
+Collection, and the last of the Du Boulay’s Coleoptera.</p>
+
+<p><span class="smcap">Lyell.</span>—Lepidoptera: The owner, Mr. G. Lyell, Gisborne,
+Victoria, has one of the finest general collections of
+Lepidoptera in Australia; it contains a number of types of both
+Messrs. Lower and Turner, and also one of his own types.</p>
+
+<p><span class="smcap">Lower.</span>—Lepidoptera: This contains the majority of the
+types created by the owner, Mr. O. Lower, Broken Hill, New South
+Wales.</p>
+
+<p><span class="smcap">Lucas.</span>—Lepidoptera: This is a general collection
+containing most of the types created by the owner, Dr. Lucas,
+Brisbane, Queensland.</p>
+
+<p><span class="smcap">Meyrick.</span>—Lepidoptera: This is an immense collection of
+Micro-lepidoptera chiefly, containing many thousands of types
+created by Mr. E. Meyrick, Wilts., England.</p>
+
+<p><span class="smcap">Turner.</span>—Lepidoptera: This collection is located in
+Brisbane, Queensland, and is the property of Dr. Jefferis
+Turner. It contains most of the owner’s types, but some of his
+types<span class="pagenum" id="Page_417">[417]</span> are in the Lyell, Illidge, and Retter collections, and
+the Queensland Museum.</p>
+
+<p><span class="smcap">Waterhouse.</span>—Lepidoptera: This collection comprises a
+very extensive series of Australian butterflies, in which are
+nearly all the types of the owner, Mr. G. A. Waterhouse, Sydney.</p>
+
+<p><span class="smcap">Froggatt.</span>—Miscellaneous: It contains all the
+owner’s types of Psyllidae, Termitidae, Neuroptera, most of
+the Coccidae, and a few of Hymenoptera and Diptera. It also
+contains many co-types of Prof. Forel’s Formicidae, Dr. Andre’s
+Mutillidae, and Dr. Horvath’s Hemiptera.</p>
+
+<p><span class="smcap">Illidge.</span>—Miscellaneous: I do not think that Mr.
+Illidge, of Brisbane, Queensland, has created any types, but his
+collection contains types, chiefly of Lepidoptera, described by
+Dr. Lucas and Dr. Turner.</p>
+
+<p><span class="smcap">Carter.</span>—Coleoptera: This is one of the latest
+collections of Australian beetles, and belongs to Mr. H. J.
+Carter, Sydney. He has described a few Tenebrionidae, the types
+of which are in this collection.</p>
+
+<p><span class="smcap">Maskell.</span>—Coccidae: This collection (Coccidae,
+Psyllidae and Aleurodidae), made by the late Mr. W. M. Maskell,
+New Zealand, contains a very valuable series of his types of
+Coccidae, Psyllidae and Aleurodidae from Australia. It was, on
+the owner’s death, sold to the New Zealand Government.</p>
+</div>
+<hr class="chap x-ebookmaker-drop">
+
+<div class="chapter">
+<p><span class="pagenum" id="Page_418">[418]</span></p>
+
+<h2 class="smaller">PUBLICATIONS DEALING WITH AUSTRALIAN ENTOMOLOGY.</h2>
+</div>
+
+
+<p>In making out a bibliography of books and the more important
+papers on our insects, it is impossible to notice the hundreds of
+scientific papers scattered through English and foreign proceedings
+and transactions of learned Societies. There are, however, a number
+of books describing Australian insects which do not come under this
+category that an Australian entomologist may yet want to know something
+about. Like all such lists, this must be more or less incomplete, but
+it may give the student some idea of where and what to look for.</p>
+
+
+<p class="p-left p1">“<span class="smcap">Agricultural Gazette of New South Wales.</span>”</p>
+
+<p>Commenced in 1890 on the creation of the Department of Agriculture, it
+contains many papers on Australian Entomology, with descriptions of new
+species by Messrs. Olliff, Fuller, and Froggatt.</p>
+
+
+<p class="p1 p-left"><span class="smcap">Anderson, E. and Spry, F. P.</span></p>
+
+<p>Victorian Butterflies, and how to collect them, Part I., complete with
+index, Melbourne 1893. Victorian Butterflies, Part II., 1894. A useful
+little work published in pamphlet form, 130 pages, illustrated with a
+number of very good wood-cuts.</p>
+
+
+<p class="p1 p-left"><span class="smcap">Australian Museum, Records of.</span></p>
+
+<p>Commenced in 1890–91, Vols. I.-VI. (1905), Sydney; issued in numbered
+pamphlet form at irregular intervals. Among other scientific
+descriptions are papers on entomology by both Messrs. Skuse and Rainbow.</p>
+
+
+<p class="p1 p-left"><span class="smcap">Bennett, Dr. G.</span></p>
+
+<p>“Gatherings of a Naturalist in Australia,” London 1860. Among general
+natural history there is a considerable amount of information on our
+insects.</p>
+
+
+<p class="p1 p-left"><span class="smcap">Brenchley, J. L.</span></p>
+
+<p>“Jottings during the Cruise of H.M.S. Curaçoa among the South Sea
+Islands in 1865,” London 1873. Natural History Notes, Insects, p. 456.
+Among the insects described and figured in colours are Australian
+Hymenoptera and Lepidoptera.</p>
+
+
+<p class="p1 p-left"><span class="smcap">Donovan, E.</span></p>
+
+<p class="p-left">Insects of New Holland, London 1825.</p>
+
+<p>This rare work contains the original descriptions, accompanied by
+very fine coloured plates, of a number of our<span class="pagenum" id="Page_419">[419]</span> common insects of all
+orders. The specimens from which the drawings were made were chiefly
+collected by Sir Joseph Banks. A copy of this book is in the library of
+the Linnean Society of N.S. Wales, and another in the Public Library,
+Sydney.</p>
+
+
+<p class="p1 p-left"><span class="smcap">Entomological Society of N.S. Wales (Transactions).</span></p>
+
+<p class="p-left">Vols. I.-II., 1866–1873, Sydney.</p>
+
+<p>These Transactions contain a number of papers by Macleay, Scott, King
+and Schrader, with original descriptions of new species.</p>
+
+
+<p class="p1 p-left"><span class="smcap">Fabricius, J. C.</span></p>
+
+<p class="p-left">Systema Entomologiae, 1775.</p>
+
+<p>He described a number of Australian insects from the Banksian Cabinet.
+These had been collected by Sir Joseph Banks and Dr. Solander during
+Cook’s voyages. The collections were afterwards presented to the
+British Museum.</p>
+
+
+<p class="p1 p-left"><span class="smcap">French, C.</span></p>
+
+<p class="p-left">Handbook of the Destructive Insects of Victoria.</p>
+
+<p>Part I., 1891; Part II., 1893; Part III., 1900; Melbourne. Each part
+is complete in itself, containing many coloured plates and popular
+descriptions of injurious insects.</p>
+
+
+<p class="p1 p-left"><span class="smcap">Gray, G. R.</span></p>
+
+<p class="hangingindent">The Entomology of Australia, Part I. Monograph of the Family
+Phasmidae, 1833; British Museum.</p>
+
+<p>This contains coloured plates and descriptions of all our known species
+up to that date.</p>
+
+
+<p class="p1 p-left"><span class="smcap">Griffiths, Edward.</span></p>
+
+<p>The Animal Kingdom. Insecta, Vol. I., 1832; Vol. II., 1844. With
+supplementary additions to each order by Griffiths and Pidgeon, and
+notices of new genera and species by Gray, with 132 plates. A number of
+Australian species are described, and some figured.</p>
+
+
+<p class="p1 p-left"><span class="smcap">Horn Expedition</span> (edited by Prof. Baldwin Spencer).</p>
+
+<p class="p-left">Part II., Zoology, 1896.</p>
+
+<p>In this are a number of papers on the insects collected by the members
+of the Horn Exploring Expedition in Central Australia. Blackburn and
+Sloane described Coleoptera; Lower, Lepidoptera; Tepper, Orthoptera;
+Kirby and Froggatt, Hymenoptera.</p>
+
+
+<p class="p1 p-left"><span class="smcap">Kirby, W.</span></p>
+
+<p class="hangingindent">“Descriptions of several new species of Insects collected in
+New Holland by Robert Brown.” (Linnean Transactions, Vol. XII.,
+1818.)</p>
+
+<p><span class="pagenum" id="Page_420">[420]</span></p>
+
+<p>These insects were collected during Flinders’ voyage. Thirty-three
+species are described, and thirteen figured on plate 23.</p>
+
+
+<p class="p1 p-left"><span class="smcap">Kirby, W.</span></p>
+
+<p class="hangingindent">“A Century of Insects.” (Linnean Transactions, Vol. XII., 1818.)</p>
+
+<p>In this paper he described 17 new species, and made 4 new genera.</p>
+
+
+<p class="p1 p-left"><span class="smcap">Leach, Dr. W. E.</span></p>
+
+<p class="hangingindent">“Zoological Miscellanies.” “Being descriptions of new and
+interesting animals, illustrated with coloured figures drawn
+from Nature by R. P. Noddes.” 3 Vols., London. Vol. I., 1814;
+Vol. II., 1815; Vol. III., 1817.</p>
+
+<p>A number of Australian insects are figured and described for the first
+time in these volumes.</p>
+
+
+<p class="p1 p-left"><span class="smcap">Lewin, John W.</span></p>
+
+<p class="hangingindent">“Podromus, etc. Natural History of Lepidopterous Insects of N.S.
+Wales. Collected, engraved, and faithfully painted by J. W.
+Lewin.” London 1805.</p>
+
+<p>A manuscript copy of this work with the original coloured drawings by
+Lewin entitled “Insects of Australia,” 1803, is in the library of the
+Linnean Society of N.S. Wales.</p>
+
+
+<p class="p1 p-left"><span class="smcap">Linnean Society of N.S. Wales, Proceedings.</span></p>
+
+<p>Commencing in 1871, an annual volume of four parts has been published
+every year since. These proceedings contain a great number of
+entomological papers by the leading entomologists of Australasia, among
+which are Messrs. Macleay, Meyrick, Olliff, Blackburn, Sloane, Skuse,
+Masters, Froggatt, Lea, Lower, Turner, and Waterhouse.</p>
+
+
+<p class="p1 p-left"><span class="smcap">Macleay, W. S.</span></p>
+
+<p>“Catalogue of Insects collected by Captain King, R.N.; 192 species of
+Annulosa; (188 insects and 4 arachnida) pages 438–469.” Eighty-one of
+the species are new. This is an appendix to Captain Phillip King’s
+“Narrative of a Survey of the Intertropical and Western Coasts of
+Australia performed between the years 1818 and 1822.” 2 Vols., London,
+1827.</p>
+
+
+<p class="p1 p-left"><span class="smcap">Marsham, Thos.</span></p>
+
+<p>“Description of Notoclea, a new genus of Coleopterous Insects from New
+Holland.” (Transactions Linnean Society, Vol. IX., p. 283, pls. 24–25,
+1818.) These insects are now placed in the Genus <i>Paropsis</i>. They
+were probably collected in the vicinity of Sydney.</p>
+
+<p><span class="pagenum" id="Page_421">[421]</span></p>
+
+
+<p class="p1 p-left"><span class="smcap">Mccoy, F.</span></p>
+
+<p>“Podromus of Zoology of Victoria,” Decade I.-XX., 1878–1890. In these
+memoirs of the National Museum of Victoria, McCoy figured and described
+a number of Australian insects.</p>
+
+
+<p class="p1 p-left"><span class="smcap">Masters, G.</span></p>
+
+<p>“Catalogue of the Described Coleoptera of Australia,” Parts I.-VII.
+(Proceedings of the Linnean Society N.S. Wales, Vol. X., 1885; Vol.
+II., new series, 1887.) Though this originally appeared in the
+proceedings of this Society, so many sets of reprints have been sold
+that it may be classed as a separate work. Two supplements have since
+been published (Pro. Linn. Soc. N.S.W.), but they only deal with the
+first families.</p>
+
+
+<p class="p1 p-left"><span class="smcap">Miskin, W. H.</span></p>
+
+<p>“Synonymical Catalogue of the Lepidoptera, Rhopalocera (Butterflies) of
+Australia, with full Bibliographical references, including descriptions
+of new species.” Annals of the Queensland Museum, No. 1, Brisbane 1891.</p>
+
+
+<p class="p1 p-left"><span class="smcap">New Zealand Institute, Transactions.</span></p>
+
+<p>The publication of the Transactions of this Society commenced in 1867,
+and are published annually.</p>
+
+<p>The most important articles dealing with Australian entomology are
+those of the late W. M. Maskell on Australian Coccidae, which commenced
+in 1889 and continued till his death in 1898.</p>
+
+
+<p class="p1 p-left"><span class="smcap">Olliff, A. Sidney.</span></p>
+
+<p class="hangingindent">“Australian Butterflies. A brief account of the native families,
+with a chapter on collecting and preserving insects, with
+numerous wood-cuts.”</p>
+
+<p>A pamphlet published by the Natural History Association of N.S. Wales;
+Sydney 1889. This is now offered for sale by the N.S.W. Naturalists’
+Club, Sydney.</p>
+
+
+<p class="p1 p-left"><span class="smcap">Royal Society of South Australia, Transactions.</span></p>
+
+<p>The Transactions commenced in 1878, and are published annually.</p>
+
+<p>They contain a number of entomological papers by Blackburn and by Lea
+(Coleoptera), Tepper (Orthoptera), Lower (Lepidoptera), and other
+writers.</p>
+
+
+<p class="p1 p-left"><span class="smcap">Scott, A. W.</span></p>
+
+<p>“Australian Lepidoptera and their transformations,” Vol. I., published
+by the author; London, 1864; 9 plates; Vol. II., Parts 1–2. Edited
+and revised by A. S. Olliff and Mrs. Forde. This was published by the
+Trustees of the Australian Museum, who purchased the drawings and
+MS. from the Scott family. There is still a considerable amount of
+unpublished<span class="pagenum" id="Page_422">[422]</span> MS. and drawings in the possession of the Trustees.</p>
+
+
+<p class="p1 p-left"><span class="smcap">Schreibers, C.</span></p>
+
+<p>“Descriptions of some singular Coleopterous Insects.” (Linnean
+Transactions, Vol. VI., p. 185, pls. 19–21, 1802.) Among these are a
+number of large showy Australian beetles. Their exact localities are
+not known.</p>
+
+
+<p class="p1 p-left"><span class="smcap">Tryon, H.</span></p>
+
+<p>“Report on Insect and Fungus Pests.” (Queensland Department of
+Agriculture, Report I., 1889.) In this important report on injurious
+insects a few new species are described, and the habits and life
+histories of many well-known species given.</p>
+
+
+<p class="p1 p-left">“<span class="smcap">Victorian Naturalist, The.</span>”</p>
+
+<p>The Journal and Magazine of the Field Naturalists’ Club of Victoria.
+The first volume was issued in 1884–85. A number of original
+descriptions of insects, catalogues, and notes in general are given
+in the pages of this Journal by Messrs. Kershaw, Lower, Lyell,
+Billinghurst, and others.</p>
+
+
+<p class="p1 p-left"><span class="smcap">Westwood, Prof. J. O.</span></p>
+
+<p>“Thesaurus Entomologicus Oxoniensis,” Oxford, 1875. “Illustrations of
+new, rare, or interesting insects for the most part contained in the
+Collections presented to the University of Oxford by the Rev. T. W.
+Hope. With 40 coloured plates and with drawings by the author.” Among
+these are some original descriptions of Australian species.</p>
+
+<p>“Arcana Entomologica,” London 1841–5, 2 vols. Among other exotic forms
+this describes a number of Australian species and some are illustrated
+by means of coloured plates.</p>
+
+
+<p class="p1 p-left"><span class="smcap">Waterhouse, G. A.</span></p>
+
+<p>“Catalogue of the Rhopalocera of Australia.” “Memoirs of the New South
+Wales Naturalists’ Club,” No. I., 1903. This pamphlet brings the list
+of Australian butterflies up to date.</p>
+
+
+<p class="p1 p-left"><span class="smcap">White, Adam.</span></p>
+
+<p>“Notes on some Insects from King George’s Sound.” This is an appendix
+to Captain Gray’s “Travels in N.W. and West Australia,” Vol. II.,
+1841. This contains the original descriptions of a number of insects
+collected by Captain Gray and numerous wood-cuts.</p>
+
+
+<p class="p1 p-left"><span class="smcap">Zoological Record.</span></p>
+
+<p>Commencing in 1864, the Insecta was edited at first by Dallas,
+afterwards by Rye, and is now edited by Sharp. Contains a list of all
+genera and species of insects described during each year. All the
+Australian species described since 1864 are listed.</p>
+<hr class="chap x-ebookmaker-drop">
+
+<div class="chapter">
+<p><span class="pagenum" id="Page_423">[423]</span></p>
+
+<h2>ADDENDA.</h2>
+</div>
+
+
+<p>The following books and papers dealing with Australian insects have
+been overlooked, or have appeared since this book has been in course of
+preparation.</p>
+
+<p class="hangingindent">(1) A Synonymic Catalogue of Orthoptera, Vol. II. Orthoptera
+Saltatoria, Part I. Achetidae and Phascognuridae 1906. W. F.
+Kirby.</p>
+
+<p class="hangingindent">This is the second volume of the Catalogue already noticed on
+page 14, and deals with crickets and long-horned grasshoppers.
+A few alterations are made, viz.: <i>Gryllus servillei</i>,
+Sauss., is a synonym of <i>Gryllus commodus</i>, Walker; and
+the species of Ephippitytha 32-guttata figured by me in the
+Agricultural Gazette, N.S.W., 1904, is, Kirby says, a new
+species which he calls <i>E. froggatti</i>.</p>
+
+<p class="hangingindent">(2) “A Revision of the Cicindelidae (Coleoptera) of Australia,”
+by T. G. Sloane (Pro. Linn. Soc. N.S.W. 1906). In this paper all
+the species formerly placed in the Genus <i>Tetracha</i> are now
+placed in the Genus <i>Megacephala</i>. In a supplementary paper
+in the same volume Sloane records <i>Tricondyla aptera</i>,
+Oliver, a tree hunting tiger beetle described from New Guinea as
+also a native of Cape York, North Queensland.</p>
+
+<p class="hangingindent">(3) “Notes on the Genus Leptops, with descriptions of new
+species,” by A. M. Lea (Annales Soc. Ent. Belg. 1906). This is a
+typical group of Australian weevils. The author notices all the
+described species, and describes 27 new ones.</p>
+
+<p class="hangingindent">(4) “A list of the Libellulidae (Dragon Flies) of Australia,” by
+J. G. O. Tepper (Trans. Roy. Soc. S. Aust. 1899). This paper,
+based upon a collection of dragon flies sent to France to Rene
+Martin, for identification, gives a quantity of information
+about the names and distribution of Australian species.</p>
+
+<p class="hangingindent">(5) “Les Odonates du Continent Australien,” by Rene Martin
+(Memoires Soc. Zool. France, 1901). This is a very fine paper on
+the dragon flies recorded from Australia.</p>
+
+<p><span class="pagenum" id="Page_424">[424]</span></p>
+
+<p class="hangingindent">(6) Descriptions of new dragon flies. In the Proceedings of the
+Linnean Society N.S.W. 1906, R. J. Tillyard has contributed four
+papers, in which a number of described species are identified
+and recorded for the first time from Australia; while a number
+of new species have been figured and described.</p>
+
+<p class="hangingindent">(7) “A Revision of the Thynnidae,” by Roland C. Turner (Pro.
+Linn. Soc. N.S.W. 1907). This is part I. of an important
+Monograph of these remarkable flower wasps peculiar in
+having wingless females. The author in this paper deals with
+the Sub-family <i>Diamminae</i> and part of the Sub-family
+<i>Thynninae</i>, describing a number of new species.</p>
+
+<p class="hangingindent">(8) On page 382 a very large gall is mentioned formed by a
+coccid obtained from Tennant’s Creek, Central Australia. This
+insect will probably come in the Genus Cystococcus formed by
+Fuller (Trans. Ent. Soc. London 1899), for the reception of a
+species he called <i>Cystococcus echiniformis</i>.</p>
+
+<hr class="chap x-ebookmaker-drop">
+
+<div class="chapter">
+<p><span class="pagenum" id="Page_425">[425]</span></p>
+
+<h2>INDEX.</h2>
+</div>
+
+<ul>
+  <li class="i1"><i>Abispa ephippium</i>,
+    <a href="#Page_111">111</a></li>
+
+  <li class="i1"><i>Abispa splendida</i>,
+    <a href="#Page_111">111</a></li>
+
+  <li class="i1">Abricta,
+    <a href="#Page_351">351</a></li>
+
+  <li class="i1"><i>Abricta curvicosta</i>,
+    <a href="#Page_357">357</a></li>
+
+  <li class="i1"><i>Abricta aurata</i>,
+    <a href="#Page_357">357</a></li>
+
+  <li class="i1"><i>Abricta willsi</i>,
+    <a href="#Page_357">357</a></li>
+
+  <li class="i1">Acacia gall gnat,
+    <a href="#Page_286">286</a></li>
+
+  <li class="i1">Acanthaspinae,
+    <a href="#Page_339">339</a></li>
+
+  <li class="i1"><i>Acantholepis bosii</i>,
+    <a href="#Page_96">96</a></li>
+
+  <li class="i1"><i>Acantholophus echinatus</i>,
+    <a href="#Page_184">184</a></li>
+
+  <li class="i1">Achias,
+    <a href="#Page_306">306</a></li>
+
+  <li class="i1"><i>Achilus flammeus</i>,
+    <a href="#Page_359">359</a></li>
+
+  <li class="i1"><i>Achraea grisella</i>,
+    <a href="#Page_272">272</a></li>
+
+  <li class="i1"><i>Acraea andromacha</i>,
+    <a href="#Page_215">215</a></li>
+
+  <li class="i1">Acraeinae,
+    <a href="#Page_215">215</a></li>
+
+  <li class="i1"><i>Acreotrichus gibbicornis</i>,
+    <a href="#Page_297">297</a></li>
+
+  <li class="i1"><i>Acreotrichus fuscicornis</i>,
+    <a href="#Page_297">297</a></li>
+
+  <li class="i1">Acridiidae,
+    <a href="#Page_40">40</a></li>
+
+  <li class="i1"><i>Acridium maculicollis</i>,
+    <a href="#Page_42">42</a></li>
+
+  <li class="i1"><i>Acridopeza reticulata</i>,
+    <a href="#Page_46">46</a></li>
+
+  <li class="i1">Acroceridae,
+    <a href="#Page_297">297</a></li>
+
+  <li class="i1"><i>Acrodes fumatus</i>,
+    <a href="#Page_298">298</a></li>
+
+  <li class="i1">Acrodicrania,
+    <a href="#Page_287">287</a></li>
+
+  <li class="i1"><i>Acrophylla titan</i>,
+    <a href="#Page_35">35</a></li>
+
+  <li class="i1"><i>Actinus macleayi</i>,
+    <a href="#Page_137">137</a></li>
+
+  <li class="i1">Addenda,
+    <a href="#Page_423">423</a></li>
+
+  <li class="i1">Adelium,
+    <a href="#Page_174">174</a></li>
+
+  <li class="i1">Adelotopus,
+    <a href="#Page_129">129</a></li>
+
+  <li class="i1">Admirals,
+    <a href="#Page_214">214</a></li>
+
+  <li class="i1"><i>Adrissa atra</i>,
+    <a href="#Page_328">328</a></li>
+
+  <li class="i1">Aenictus,
+    <a href="#Page_93">93</a></li>
+
+  <li class="i1"><i>Aeschna brevistyla</i>,
+    <a href="#Page_53">53</a></li>
+
+  <li class="i1"><i>Aeschna flindersensis</i>,
+    <a href="#Page_9">9</a></li>
+
+  <li class="i1">Aeschnidae,
+    <a href="#Page_53">53</a></li>
+
+  <li class="i1"><i>Aesernoides nigrofasciatus</i>,
+    <a href="#Page_202">202</a></li>
+
+  <li class="i1">Agathes,
+    <a href="#Page_87">87</a></li>
+
+  <li class="i1"><i>Agarista agricola</i>,
+    <a href="#Page_234">234</a></li>
+
+  <li class="i1"><i>Agarista glycine</i>,
+    <a href="#Page_230">230</a></li>
+
+  <li class="i1"><i>Agarista lewinii</i>,
+    <a href="#Page_234">234</a></li>
+
+  <li class="i1">Agaristidae,
+    <a href="#Page_233">233</a></li>
+
+  <li class="i1"><i>Agrianome spinicollis</i>,
+    <a href="#Page_191">191</a></li>
+
+  <li class="i1">Agrionidae,
+    <a href="#Page_51">51</a>,
+    <a href="#Page_53">53</a></li>
+
+  <li class="i1"><i>Agromyza phaseoli</i>,
+    <a href="#Page_309">309</a></li>
+
+  <li class="i1"><i>Agromyza sp.</i>,
+    <a href="#Page_309">309</a></li>
+
+  <li class="i1">Agromyzidae,
+    <a href="#Page_308">308</a></li>
+
+  <li class="i1"><i>Agrotis infusa</i>,
+    <a href="#Page_263">263</a></li>
+
+  <li class="i1"><i>Agrotis breviuscula</i>,
+    <a href="#Page_264">264</a></li>
+
+  <li class="i1"><i>Agrotis ypsilon</i>,
+    <a href="#Page_264">264</a></li>
+
+  <li class="i1">Agrotis (destroyed by bee fly),
+    <a href="#Page_296">296</a></li>
+
+  <li class="i1"><i>Agrypnus mastersi</i>,
+    <a href="#Page_166">166</a></li>
+
+  <li class="i1">Alastor,
+    <a href="#Page_112">112</a></li>
+
+  <li class="i1">Alastor (parasite on),
+    <a href="#Page_88">88</a></li>
+
+  <li class="i1">Alastor (mimicry of),
+    <a href="#Page_304">304</a></li>
+
+  <li class="i1"><i>Alaus gibboni</i>,
+    <a href="#Page_166">166</a></li>
+
+  <li class="i1"><i>Alaus sericeus</i>,
+    <a href="#Page_166">166</a></li>
+
+  <li class="i1">Alder Flies,
+    <a href="#Page_55">55</a></li>
+
+  <li class="i1"><i>Alectoria superba</i>,
+    <a href="#Page_46">46</a></li>
+
+  <li class="i1">Aleochara,
+    <a href="#Page_136">136</a></li>
+
+  <li class="i1"><i>Aleurodes styphelia</i>,
+    <a href="#Page_371">371</a></li>
+
+  <li class="i1"><i>Aleurodes t-signata</i>,
+    <a href="#Page_371">371</a></li>
+
+  <li class="i1"><i>Aleurodes banksiae</i>,
+    <a href="#Page_371">371</a></li>
+
+  <li class="i1"><i>Aleurodes vaporariorum</i>,
+    <a href="#Page_371">371</a></li>
+
+  <li class="i1">Aleurodicus,
+    <a href="#Page_371">371</a></li>
+
+  <li class="i1">Aleurodidae,
+    <a href="#Page_370">370</a></li>
+
+  <li class="i1"><i>Allecula subsulcata</i>,
+    <a href="#Page_175">175</a></li>
+
+  <li class="i1"><i>Allomachilus froggatti</i>,
+    <a href="#Page_12">12</a></li>
+
+  <li class="i1">Amarygmus,
+    <a href="#Page_174">174</a></li>
+
+  <li class="i1">Ambrosia beetle,
+    <a href="#Page_178">178</a></li>
+
+  <li class="i1">Amblycera,
+    <a href="#Page_390">390</a></li>
+
+  <li class="i1"><i>Amenia leonina</i>,
+    <a href="#Page_313">313</a></li>
+
+  <li class="i1"><i>Ammophila instabilis</i>,
+    <a href="#Page_107">107</a></li>
+
+  <li class="i1"><i>Ammophila suspiciosa</i>,
+    <a href="#Page_107">107</a></li>
+
+  <li class="i1"><i>Amorbus angustior</i>,
+    <a href="#Page_332">332</a></li>
+
+  <li class="i1"><i>Amorbus robustus</i>,
+    <a href="#Page_332">332</a></li>
+
+  <li class="i1"><i>Amphibolia fulvipes</i>,
+    <a href="#Page_313">313</a></li>
+
+  <li class="i1">Amycterinae,
+    <a href="#Page_184">184</a></li>
+
+  <li class="i1"><i>Amycterus draco</i>,
+    <a href="#Page_184">184</a></li>
+
+  <li class="i1">Anacampsis,
+    <a href="#Page_279">279</a></li>
+
+  <li class="i1"><i>Ananca puncta</i>,
+    <a href="#Page_177">177</a></li>
+
+  <li class="i1"><i>Anastatus pipunculi</i>,
+    <a href="#Page_79">79</a></li>
+
+  <li class="i1"><i>Ancylotropis waterhousei</i>,
+    <a href="#Page_180">180</a></li>
+
+  <li class="i1">Andrenidae,
+    <a href="#Page_114">114</a></li>
+
+  <li class="i1">Angoumois grain-moth,
+    <a href="#Page_279">279</a></li>
+
+  <li class="i1"><i>Anilicus semiflavus</i>,
+    <a href="#Page_167">167</a></li>
+
+  <li class="i1">Animated stick,
+    <a href="#Page_36">36</a></li>
+
+  <li class="i1"><i>Anisolabis colossea</i>,
+    <a href="#Page_16">16</a></li>
+
+  <li class="i1"><i>Anisolabis tasmanica</i>,
+    <a href="#Page_16">16</a></li>
+
+  <li class="i1">Anisopteridae,
+    <a href="#Page_51">51</a></li>
+
+  <li class="i1">Anobiums,
+    <a href="#Page_169">169</a></li>
+
+  <li class="i1"><i>Anobium paniceum</i>,
+    <a href="#Page_170">170</a></li>
+
+  <li class="i1"><i>anomalon</i>,
+    <a href="#Page_85">85</a></li>
+
+  <li class="i1"><i>Anopheles annulipes</i>,
+    <a href="#Page_290">290</a></li>
+
+  <li class="i1"><i>Anoplognathus analis</i>,
+    <a href="#Page_159">159</a></li>
+
+  <li class="i1"><i>Anoplognathus porosus</i>,
+    <a href="#Page_158">158</a></li>
+
+  <li class="i1"><i>Anoplognathus velutinus</i>,
+    <a href="#Page_158">158</a></li>
+
+  <li class="i1"><i>Anoplognathus viridaeneus</i>,
+    <a href="#Page_158">158</a></li>
+
+  <li class="i1"><i>Anoplostethus opalinus</i>,
+    <a href="#Page_159">159</a></li>
+
+  <li class="i1">Anoplura,
+    <a href="#Page_325">325</a>,
+    <a href="#Page_388">388</a></li>
+
+  <li class="i1"><i>Anostosoma australasiae</i>,
+    <a href="#Page_47">47</a></li>
+
+  <li class="i1"><i>Anostosoma crinaceus</i>,
+    <a href="#Page_47">47</a></li>
+
+  <li class="i1">Ants,
+    <a href="#Page_68">68</a>,
+    <a href="#Page_91">91</a></li>
+
+  <li class="i1">Ant-beetles,
+    <a href="#Page_138">138</a></li>
+
+  <li class="i1">Ant nest beetles,
+    <a href="#Page_139">139</a></li>
+
+  <li class="i1">Ant-lions,
+    <a href="#Page_57">57</a></li>
+
+  <li class="i1">Ant weevils,
+    <a href="#Page_188">188</a></li>
+
+  <li class="i1"><i>Antheraea eucalypti</i>,
+    <a href="#Page_257">257</a>,
+    <a href="#Page_258">258</a></li>
+
+  <li class="i1"><i>Antheraea helena</i>,
+    <a href="#Page_259">259</a></li>
+
+  <li class="i1"><i>Antheraea janetta</i>,
+    <a href="#Page_259">259</a></li>
+
+  <li class="i1"><i>Antheraea loranthiae</i>,
+    <a href="#Page_259">259</a></li>
+
+  <li class="i1"><i>Antheraea simplex</i>,
+    <a href="#Page_259">259</a></li>
+
+  <li class="i1">Anthicidae,
+    <a href="#Page_176">176</a></li>
+
+  <li class="i1">Anthomyia flies,
+    <a href="#Page_311">311</a></li>
+
+  <li class="i1">Anthomyidae,
+    <a href="#Page_311">311</a></li>
+
+  <li class="i1">Anthophila,
+    <a href="#Page_114">114</a></li>
+
+  <li class="i1">Anthophora,
+    <a href="#Page_117">117</a></li>
+
+  <li class="i1"><i>Anthrax nigricosta</i>,
+    <a href="#Page_296">296</a></li>
+
+  <li class="i1"><i>Anthrenus museorum</i>,
+    <a href="#Page_149">149</a></li>
+
+  <li class="i1"><i>Anthrenus nigricans</i>,
+    <a href="#Page_149">149</a></li>
+
+  <li class="i1"><i>Anthrenus varius</i>,
+    <a href="#Page_149">149</a></li>
+
+  <li class="i1">Anthribidae,
+    <a href="#Page_180">180</a></li>
+
+  <li class="i1"><i>Antiphorus gilberti</i>,
+    <a href="#Page_133">133</a></li>
+
+  <li class="i1"><i>Antonina australis</i>,
+    <a href="#Page_378">378</a>,
+    <a href="#Page_379">379</a></li>
+
+  <li class="i1"><i>Apate collaris</i>,
+    <a href="#Page_172">172</a></li>
+
+  <li class="i1"><i>Apanteles antipoda</i>,
+    <a href="#Page_87">87</a></li>
+
+  <li class="i1"><i>Apanteles australasiae</i>,
+    <a href="#Page_87">87</a></li>
+
+  <li class="i1">Aphalarinae,
+    <a href="#Page_363">363</a></li>
+
+  <li class="i1"><i>Aphanasium australe</i>,
+    <a href="#Page_193">193</a></li>
+
+  <li class="i1">Aphanomerus,
+    <a href="#Page_80">80</a></li>
+
+  <li class="i1">Aphidae,
+    <a href="#Page_367">367</a></li>
+
+  <li class="i1">Aphids,
+    <a href="#Page_367">367</a></li>
+
+  <li class="i1"><i>Aphis brassicae</i>,
+    <a href="#Page_368">368</a></li>
+
+  <li class="i1"><i>Aphis persicae-niger</i>,
+    <a href="#Page_369">369</a></li>
+
+  <li class="i1">Aphis lions,
+    <a href="#Page_64">64</a></li>
+
+  <li class="i1"><i>Aphomia latro</i>,
+    <a href="#Page_273">273</a></li>
+
+  <li class="i1"><i>Aphrophora chalipus</i>,
+    <a href="#Page_355">355</a></li>
+
+  <li class="i1">Apidae,
+    <a href="#Page_114">114</a></li>
+
+  <li class="i1"><i>Apina callisto</i>,
+    <a href="#Page_253">253</a></li>
+
+  <li class="i1">Apioceridae,
+    <a href="#Page_301">301</a></li>
+
+  <li class="i1"><i>Apiocera bigotti</i>,
+    <a href="#Page_301">301</a></li>
+
+  <li class="i1"><i>Apiocera asilica</i>,
+    <a href="#Page_301">301</a></li>
+
+  <li class="i1"><i>Apiomorpha duplex</i>,
+    <a href="#Page_382">382</a></li>
+
+  <li class="i1"><i>Apiomorpha munita</i>,
+    <a href="#Page_382">382</a></li>
+
+  <li class="i1"><i>Apiomorpha pileata</i>,
+    <a href="#Page_382">382</a></li>
+
+  <li class="i1"><i>Apiomorpha pharatrata</i>,
+    <a href="#Page_382">382</a></li>
+
+  <li class="i1"><i>Apiomorpha dipsaciformis</i>,
+    <a href="#Page_382">382</a></li>
+
+  <li class="i1"><i>Apiomorpha pomiformis</i>,
+    <a href="#Page_382">382</a></li>
+
+  <li class="i1">Apis,
+    <a href="#Page_114">114</a></li>
+
+  <li class="i1"><i>Apoda xylomeli</i>,
+    <a href="#Page_248">248</a></li>
+
+  <li class="i1"><i>Appias (Tachyris) ega</i>,
+    <a href="#Page_224">224</a></li>
+
+  <li class="i1">Aptera,
+    <a href="#Page_1">1</a>,
+    <a href="#Page_10">10</a></li>
+
+  <li class="i1"><i>Apterygida arachidis</i>,
+    <a href="#Page_16">16</a></li>
+
+  <li class="i1">Arachnidae,
+    <a href="#Page_1">1</a></li>
+
+  <li class="i1">Arachnidae,
+    <a href="#Page_337">337</a></li>
+
+  <li class="i1"><i>Aradellus cygnalis</i>,
+    <a href="#Page_339">339</a></li>
+
+  <li class="i1"><i>Archimantis armatus</i>,
+    <a href="#Page_34">34</a></li>
+
+  <li class="i1"><i>Archimantis latistylus</i>,
+    <a href="#Page_32">32</a></li>
+
+  <li class="i1"><i>Archimantis montrosa</i>,
+    <a href="#Page_34">34</a></li>
+
+  <li class="i1">Arctiidae,
+    <a href="#Page_248">248</a></li>
+
+  <li class="i1"><i>Argadesa materna</i>,
+    <a href="#Page_268">268</a></li>
+
+  <li class="i1"><i>Argynnis inconstans</i>,
+    <a href="#Page_216">216</a></li>
+
+  <li class="i1"><i>Aridaeus thoracicus</i>,
+    <a href="#Page_196">196</a></li>
+
+  <li class="i1">Army worm,
+    <a href="#Page_262">262</a>,
+    <a href="#Page_264">264</a></li>
+
+  <li class="i1"><i>Arotrophora ombrodelta</i>,
+    <a href="#Page_276">276</a></li>
+
+  <li class="i1"><i>Arsipoda macleayi</i>,
+    <a href="#Page_204">204</a></li>
+
+  <li class="i1">Arthopoda,
+    <a href="#Page_1">1</a></li>
+
+  <li class="i1"><i>Arthropterus brevis</i>,
+    <a href="#Page_139">139</a></li>
+
+  <li class="i1"><i>Arthropterus humeralis</i>,
+    <a href="#Page_139">139</a></li>
+
+  <li class="i1"><i>Articerus curvicornis</i>,
+    <a href="#Page_138">138</a></li>
+
+  <li class="i1"><i>Arunta perulata</i>,
+    <a href="#Page_349">349</a></li>
+
+  <li class="i1">Ascalaphides,
+    <a href="#Page_58">58</a></li>
+
+  <li class="i1"><i>Ascelis praemollis</i>,
+    <a href="#Page_383">383</a></li>
+
+  <li class="i1"><i>Ascelis schraderi</i>,
+    <a href="#Page_383">383</a></li>
+
+  <li class="i1">Asilidae,
+    <a href="#Page_298">298</a></li>
+
+  <li class="i1"><i>Asilis fulvitarsus</i>,
+    <a href="#Page_299">299</a></li>
+
+  <li class="i1"><i>Asilis inglorius</i>,
+    <a href="#Page_299">299</a></li>
+
+  <li class="i1"><i>Asilis plicatus</i>,
+    <a href="#Page_299">299</a></li>
+
+  <li class="i1"><i>Asopia farinalis</i>,
+    <a href="#Page_270">270</a></li>
+
+  <li class="i1">Asopinae,
+    <a href="#Page_330">330</a></li>
+
+  <li class="i1"><i>Aspidiotus auranti</i>,
+    <a href="#Page_373">373</a></li>
+
+  <li class="i1"><i>Aspidiotus ficus</i>,
+    <a href="#Page_374">374</a></li>
+
+  <li class="i1"><i>Aspidiotus hederi</i>,
+    <a href="#Page_373">373</a></li>
+
+  <li class="i1"><i>Aspidiotus nerii</i>,
+    <a href="#Page_373">373</a></li>
+
+  <li class="i1"><i>Aspidiotus perniciosus</i>,
+    <a href="#Page_373">373</a></li>
+
+  <li class="i1"><i>Aspidiotus rossi</i>,
+    <a href="#Page_374">374</a></li>
+
+  <li class="i1"><i>Aspidomorpha deusta</i>,
+    <a href="#Page_206">206</a></li>
+
+  <li class="i1">Assassin bug,
+    <a href="#Page_338">338</a></li>
+
+  <li class="i1"><i>Astacops laticeps</i>,
+    <a href="#Page_333">333</a></li>
+
+  <li class="i1"><i>Asterolecanium acaciae</i>,
+    <a href="#Page_376">376</a></li>
+
+  <li class="i1"><i>Asterolecanium quercicola</i>,
+    <a href="#Page_376">376</a></li>
+
+  <li class="i1"><i>Asterolecanium styphelia</i>,
+    <a href="#Page_376">376</a></li>
+
+  <li class="i1"><i>Asura lydia</i>,
+    <a href="#Page_250">250</a></li>
+
+  <li class="i1"><i>Atalophlebia australasica</i>,
+    <a href="#Page_54">54</a></li>
+
+  <li class="i1"><i>Ateleopterus longiceps</i>,
+    <a href="#Page_82">82</a></li>
+
+  <li class="i1"><i>Aterpus cultratus</i>,
+    <a href="#Page_185">185</a></li>
+
+  <li class="i1"><i>Ateuchus sacer</i>,
+    <a href="#Page_153">153</a></li>
+
+  <li class="i1">Atlas moths,
+    <a href="#Page_231">231</a></li>
+
+  <li class="i1"><i>Atractus viridis</i>,
+    <a href="#Page_175">175</a></li>
+
+  <li class="i1"><i>Atractus viriscens</i>,
+    <a href="#Page_175">175</a></li>
+
+  <li class="i1"><i>Atrastemorpha crenaticeps</i>,
+    <a href="#Page_43">43</a></li>
+
+  <li class="i1"><i>Attacus cynthia</i>,
+    <a href="#Page_257">257</a></li>
+
+  <li class="i1">Atyphella,
+    <a href="#Page_168">168</a></li>
+
+  <li class="i1"><i>Axionicus insignis</i>,
+    <a href="#Page_188">188</a></li>
+
+  <li class="i1">Auger beetles,
+    <a href="#Page_171">171</a></li>
+
+  <li class="i1"><i>Aulacocyclus kaupi</i>,
+    <a href="#Page_153">153</a></li>
+
+  <li class="i1"><i>Aulacus apicalis</i>,
+    <a href="#Page_84">84</a>,
+    <a href="#Page_89">89</a></li>
+
+  <li class="i1"><i>Aulacophora olivieri</i>,
+    <a href="#Page_205">205</a></li>
+
+  <li class="i1"><i>Aulicus instabilis</i>,
+    <a href="#Page_168">168</a></li>
+
+  <li class="i1"><i>Austomiris viridissimus</i>,
+    <a href="#Page_342">342</a></li>
+
+  <li class="i1">Australian Fritillary,
+    <a href="#Page_216">216</a></li>
+
+  <li class="i1">Australian Mantidae,
+    <a href="#Page_33">33</a></li>
+
+  <li class="i1">Australian Museum,
+    <a href="#Page_412">412</a></li>
+
+  <li class="i1">Austrogomphus,
+    <a href="#Page_54">54</a></li>
+</ul>
+
+<ul>
+  <li class="i1">Bacillus,
+    <a href="#Page_35">35</a></li>
+
+  <li class="i1">Back-swimmers,
+    <a href="#Page_344">344</a></li>
+
+  <li class="i1">Bacon beetles,
+    <a href="#Page_148">148</a></li>
+
+  <li class="i1"><i>Badamia exclamationis</i>,
+    <a href="#Page_228">228</a></li>
+
+  <li class="i1">Bag moths,
+    <a href="#Page_243">243</a></li>
+
+  <li class="i1"><i>Balaninus amoenus</i>,
+    <a href="#Page_188">188</a></li>
+
+  <li class="i1">Banana-stalk fly,
+    <a href="#Page_311">311</a></li>
+
+  <li class="i1">Banksia beetle,
+    <a href="#Page_162">162</a></li>
+
+  <li class="i1">Banksia moth,
+    <a href="#Page_257">257</a></li>
+
+  <li class="i1">Bark beetles,
+    <a href="#Page_146">146</a></li>
+
+  <li class="i1">Basket worms,
+    <a href="#Page_243">243</a></li>
+
+  <li class="i1"><i>Bassus laetatorius</i>,
+    <a href="#Page_85">85</a></li>
+
+  <li class="i1"><i>Batocera frenchi</i>,
+    <a href="#Page_198">198</a></li>
+
+  <li class="i1"><i>Batocera sapho</i>,
+    <a href="#Page_198">198</a></li>
+
+  <li class="i1"><i>Batrachedra arenosella</i>,
+    <a href="#Page_280">280</a></li>
+
+  <li class="i1"><i>Batrachedra sparsella</i>,
+    <a href="#Page_280">280</a></li>
+
+  <li class="i1"><i>Batrachomyia nigritarsis</i>,
+    <a href="#Page_310">310</a></li>
+
+  <li class="i1">Bay shelter moths,
+    <a href="#Page_252">252</a></li>
+
+  <li class="i1">Bed bugs,
+    <a href="#Page_341">341</a></li>
+
+  <li class="i1">Bee flies,
+    <a href="#Page_296">296</a></li>
+
+  <li class="i1">Bees,
+    <a href="#Page_68">68</a>,
+    <a href="#Page_114">114</a></li>
+
+  <li class="i1">Beetles,
+    <a href="#Page_121">121</a></li>
+
+  <li class="i1">Bell moths,
+    <a href="#Page_274">274</a></li>
+
+  <li class="i1"><i>Belenois java</i>,
+    <a href="#Page_223">223</a></li>
+
+  <li class="i1">Belostomidae,
+    <a href="#Page_343">343</a></li>
+
+  <li class="i1"><i>Belostoma indicum</i>,
+    <a href="#Page_344">344</a></li>
+
+  <li class="i1"><i>Belus bidentatus</i>,
+    <a href="#Page_187">187</a></li>
+
+  <li class="i1"><i>Belus plagiatus</i>,
+    <a href="#Page_187">187</a></li>
+
+  <li class="i1"><i>Belus semipunctata</i>,
+    <a href="#Page_187">187</a></li>
+
+  <li class="i1">Bembecides,
+    <a href="#Page_109">109</a></li>
+
+  <li class="i1"><i>Bembex tridentifera</i>,
+    <a href="#Page_109">109</a></li>
+
+  <li class="i1"><i>Bembex vespiformis</i>,
+    <a href="#Page_109">109</a></li>
+
+  <li class="i1"><i>Bembidium ocellatum</i>,
+    <a href="#Page_132">132</a></li>
+
+  <li class="i1">Bent-wing moth,
+    <a href="#Page_241">241</a></li>
+
+  <li class="i1">Bethyllides,
+    <a href="#Page_81">81</a></li>
+
+  <li class="i1">Bibionidae,
+    <a href="#Page_288">288</a></li>
+
+  <li class="i1"><i>Bibio imitator</i>,
+    <a href="#Page_288">288</a></li>
+
+  <li class="i1"><i>Bidessus bistrigatus</i>,
+    <a href="#Page_133">133</a></li>
+
+  <li class="i1">Big-eyed flies,
+    <a href="#Page_301">301</a></li>
+
+  <li class="i1"><i>Biprorulus bibax</i>,
+    <a href="#Page_330">330</a></li>
+
+  <li class="i1">Bird of Paradise fly,
+    <a href="#Page_385">385</a></li>
+
+  <li class="i1">Bird-winged butterfly,
+    <a href="#Page_225">225</a></li>
+
+  <li class="i1">Biscuit weevil,
+    <a href="#Page_169">169</a></li>
+
+  <li class="i1">Biting lice,
+    <a href="#Page_389">389</a></li>
+
+  <li class="i1"><i>Bittacus australis</i>,
+    <a href="#Page_56">56</a></li>
+
+  <li class="i1"><i>Blabophanes ethelella</i>,
+    <a href="#Page_281">281</a></li>
+
+  <li class="i1">Black-arches,
+    <a href="#Page_252">252</a></li>
+
+  <li class="i1">Black cicada,
+    <a href="#Page_353">353</a></li>
+
+  <li class="i1">Black flies,
+    <a href="#Page_287">287</a></li>
+
+  <li class="i1">Black orchard-butterfly,
+    <a href="#Page_226">226</a></li>
+
+  <li class="i1">Black-wattle Blue,
+    <a href="#Page_221">221</a></li>
+
+  <li class="i1">Bladder cicadas,
+    <a href="#Page_354">354</a></li>
+
+  <li class="i1">Bladder flies,
+    <a href="#Page_297">297</a></li>
+
+  <li class="i1">Blastophaginae,
+    <a href="#Page_68">68</a>,
+    <a href="#Page_77">77</a></li>
+
+  <li class="i1"><i>Blatta orientalis</i>,
+    <a href="#Page_17">17</a></li>
+
+  <li class="i1">Blattidae,
+    <a href="#Page_14">14</a>,
+    <a href="#Page_17">17</a></li>
+
+  <li class="i1"><i>Blepegens aruspex</i>,
+    <a href="#Page_174">174</a></li>
+
+  <li class="i1"><i>Blepharotes splendidissima</i>,
+    <a href="#Page_300">300</a></li>
+
+  <li class="i1">Blight,
+    <a href="#Page_367">367</a></li>
+
+  <li class="i1">Blister beetle,
+    <a href="#Page_177">177</a></li>
+
+  <li class="i1">Blister leaf sawfly,
+    <a href="#Page_73">73</a></li>
+
+  <li class="i1">Bloodworms,
+    <a href="#Page_291">291</a></li>
+
+  <li class="i1">Blues,
+    <a href="#Page_219">219</a></li>
+
+  <li class="i1">Blue ant,
+    <a href="#Page_102">102</a></li>
+
+  <li class="i1">Bluebottle fly,
+    <a href="#Page_317">317</a></li>
+
+  <li class="i1">Blue-eyed butterfly,
+    <a href="#Page_217">217</a></li>
+
+  <li class="i1">Blue-mountain locust,
+    <a href="#Page_41">41</a></li>
+
+  <li class="i1"><i>Bolboceras probiscidium</i>,
+    <a href="#Page_154">154</a></li>
+
+  <li class="i1"><i>Bolboceras sloanei</i>,
+    <a href="#Page_154">154</a></li>
+
+  <li class="i1">Bollworm,
+    <a href="#Page_265">265</a></li>
+
+  <li class="i1">Bombardier beetle,
+    <a href="#Page_128">128</a></li>
+
+  <li class="i1">Bombus,
+    <a href="#Page_114">114</a></li>
+
+  <li class="i1">Bombycidae,
+    <a href="#Page_256">256</a></li>
+
+  <li class="i1">Bombylidae,
+    <a href="#Page_296">296</a></li>
+
+  <li class="i1"><i>Bombyx mori</i>,
+    <a href="#Page_256">256</a></li>
+
+  <li class="i1"><i>Bombyx nasuta</i>,
+    <a href="#Page_256">256</a></li>
+
+  <li class="i1"><i>Bombyx trimaculata</i>,
+    <a href="#Page_256">256</a></li>
+
+  <li class="i1">Book lice,
+    <a href="#Page_30">30</a></li>
+
+  <li class="i1"><i>Boopia tarsata</i>,
+    <a href="#Page_390">390</a></li>
+
+  <li class="i1"><i>Boopia grandis</i>,
+    <a href="#Page_390">390</a></li>
+
+  <li class="i1">Boreus,
+    <a href="#Page_56">56</a></li>
+
+  <li class="i1">Bostrychidae,
+    <a href="#Page_171">171</a></li>
+
+  <li class="i1"><i>Bostrychus gibbicollis</i>,
+    <a href="#Page_171">171</a></li>
+
+  <li class="i1"><i>Bostrychus cylindricus</i>,
+    <a href="#Page_171">171</a></li>
+
+  <li class="i1"><i>Bostrychopsis jesuita</i>,
+    <a href="#Page_171">171</a></li>
+
+  <li class="i1">Botany Bay diamond beetle,
+    <a href="#Page_185">185</a></li>
+
+  <li class="i1">Bot flies,
+    <a href="#Page_317">317</a></li>
+
+  <li class="i1">Bothrideres,
+    <a href="#Page_146">146</a></li>
+
+  <li class="i1"><i>Brachypeplus binotatus</i>,
+    <a href="#Page_143">143</a></li>
+
+  <li class="i1"><i>Brachyrhopala ruficornis</i>,
+    <a href="#Page_300">300</a></li>
+
+  <li class="i1">Brachyscelid galls (home of weevils),
+    <a href="#Page_182">182</a>,
+    <a href="#Page_188">188</a></li>
+
+  <li class="i1">Brachysceliinae,
+    <a href="#Page_77">77</a>,
+    <a href="#Page_380">380</a></li>
+
+  <li class="i1"><i>Brachyscelis crispa</i>,
+    <a href="#Page_76">76</a></li>
+
+  <li class="i1"><i>Brachyscelis pileata</i>,
+    <a href="#Page_76">76</a></li>
+
+  <li class="i1">Braconidae,
+    <a href="#Page_85">85</a>,
+    <a href="#Page_236">236</a></li>
+
+  <li class="i1"><i>Bracon limbatus</i>,
+    <a href="#Page_86">86</a></li>
+
+  <li class="i1">Brenthidae,
+    <a href="#Page_179">179</a></li>
+
+  <li class="i1"><i>Brontes lucius</i>,
+    <a href="#Page_147">147</a></li>
+
+  <li class="i1"><i>Brontes militaris</i>,
+    <a href="#Page_147">147</a></li>
+
+  <li class="i1"><i>Brontispa froggatti</i>,
+    <a href="#Page_206">206</a></li>
+
+  <li class="i1">Brown leaf-winged butterfly,
+    <a href="#Page_216">216</a></li>
+
+  <li class="i1">Brown tails,
+    <a href="#Page_252">252</a></li>
+
+  <li class="i1">Brush-footed butterfly,
+    <a href="#Page_214">214</a></li>
+
+  <li class="i1"><i>Bryachus squamicollis</i>,
+    <a href="#Page_185">185</a></li>
+
+  <li class="i1">Buffalo gnats,
+    <a href="#Page_287">287</a></li>
+
+  <li class="i1">Bugong moth,
+    <a href="#Page_263">263</a></li>
+
+  <li class="i1">Bugs,
+    <a href="#Page_325">325</a>,
+    <a href="#Page_326">326</a></li>
+
+  <li class="i1">Bulldog ants,
+    <a href="#Page_92">92</a></li>
+
+  <li class="i1">Buprestidae,
+    <a href="#Page_162">162</a></li>
+
+  <li class="i1">Burnet moths,
+    <a href="#Page_236">236</a></li>
+
+  <li class="i1">Burying beetles,
+    <a href="#Page_140">140</a></li>
+
+  <li class="i1">Butterfly moths,
+    <a href="#Page_232">232</a></li>
+
+  <li class="i1">Butterflies,
+    <a href="#Page_212">212</a></li>
+
+  <li class="i1">Butterfly envelope,
+    <a href="#Page_400">400</a></li>
+
+  <li class="i1">Byrrhidae,
+    <a href="#Page_149">149</a></li>
+
+  <li class="i1">Bythoscopus,
+    <a href="#Page_359">359</a></li>
+</ul>
+
+<ul>
+  <li class="i1"><i>Cacaecia australasiae</i>,
+    <a href="#Page_275">275</a></li>
+
+  <li class="i1"><i>Cacaecia lythrodana</i>,
+    <a href="#Page_275">275</a></li>
+
+  <li class="i1"><i>Cacaecia postvittana</i>,
+    <a href="#Page_274">274</a></li>
+
+  <li class="i1"><i>Cacaecia responsana</i>,
+    <a href="#Page_275">275</a></li>
+
+  <li class="i1"><i>Cacochroa gymnopleura</i>,
+    <a href="#Page_161">161</a></li>
+
+  <li class="i1">Caddis flies,
+    <a href="#Page_66">66</a></li>
+
+  <li class="i1">Cadelle,
+    <a href="#Page_144">144</a>,
+    <a href="#Page_145">145</a></li>
+
+  <li class="i1"><i>Cadmus litigiosus</i>,
+    <a href="#Page_202">202</a></li>
+
+  <li class="i1"><i>Cadmus rubiginosus</i>,
+    <a href="#Page_202">202</a></li>
+
+  <li class="i1"><i>Caedicia valida</i>,
+    <a href="#Page_47">47</a></li>
+
+  <li class="i1"><i>Calandra granaria</i>,
+    <a href="#Page_189">189</a></li>
+
+  <li class="i1"><i>Calandra orizae</i>,
+    <a href="#Page_189">189</a></li>
+
+  <li class="i1"><i>Callipappus australe</i>,
+    <a href="#Page_385">385</a></li>
+
+  <li class="i1"><i>Callipappus westwoodi</i>,
+    <a href="#Page_385">385</a></li>
+
+  <li class="i1"><i>Calliphara billiardierei</i>,
+    <a href="#Page_328">328</a></li>
+
+  <li class="i1"><i>Calliphara cruenta</i>,
+    <a href="#Page_328">328</a></li>
+
+  <li class="i1"><i>Calliphara imperialis</i>,
+    <a href="#Page_328">328</a></li>
+
+  <li class="i1"><i>Calliphara nobilis</i>,
+    <a href="#Page_328">328</a></li>
+
+  <li class="i1"><i>Calliphora oceaniae</i>,
+    <a href="#Page_316">316</a></li>
+
+  <li class="i1"><i>Calliphora rufifaces</i>,
+    <a href="#Page_316">316</a></li>
+
+  <li class="i1"><i>Calliphora varipes</i>,
+    <a href="#Page_316">316</a></li>
+
+  <li class="i1"><i>Calliphora villosa</i>,
+    <a href="#Page_316">316</a></li>
+
+  <li class="i1"><i>Calliphora vomitaria</i>,
+    <a href="#Page_316">316</a></li>
+
+  <li class="i1"><i>Calloodes grayanus</i>,
+    <a href="#Page_158">158</a></li>
+
+  <li class="i1">Calobatinae,
+    <a href="#Page_310">310</a></li>
+
+  <li class="i1"><i>Coloderma regalis</i>,
+    <a href="#Page_165">165</a></li>
+
+  <li class="i1"><i>Calogramma festiva</i>,
+    <a href="#Page_266">266</a></li>
+
+  <li class="i1"><i>Calomela paralis</i>,
+    <a href="#Page_203">203</a>,
+    <a href="#Page_204">204</a></li>
+
+  <li class="i1"><i>Calosoma schayeri</i>,
+    <a href="#Page_126">126</a></li>
+
+  <li class="i1"><i>Calotermes longiceps</i>,
+    <a href="#Page_24">24</a></li>
+
+  <li class="i1"><i>Camponotinae</i>,
+    <a href="#Page_96">96</a></li>
+
+  <li class="i1"><i>Camponotus claripes</i>,
+    <a href="#Page_98">98</a></li>
+
+  <li class="i1"><i>Camponotus inflatus</i>,
+    <a href="#Page_97">97</a></li>
+
+  <li class="i1"><i>Camponotus intrepidus</i>,
+    <a href="#Page_97">97</a></li>
+
+  <li class="i1"><i>Camponotus nigriceps</i>,
+    <a href="#Page_97">97</a></li>
+
+  <li class="i1"><i>Candalides absimilis</i>,
+    <a href="#Page_220">220</a></li>
+
+  <li class="i1"><i>Cantao parentum</i>,
+    <a href="#Page_328">328</a></li>
+
+  <li class="i1">Cantharidae,
+    <a href="#Page_177">177</a></li>
+
+  <li class="i1">Capsidae,
+    <a href="#Page_341">341</a></li>
+
+  <li class="i1">Carabidae,
+    <a href="#Page_126">126</a></li>
+
+  <li class="i1"><i>Cardiaspis artifex</i>,
+    <a href="#Page_364">364</a></li>
+
+  <li class="i1"><i>Cardiaspis tetrix</i>,
+    <a href="#Page_364">364</a></li>
+
+  <li class="i1"><i>Cardiothorax howitti</i>,
+    <a href="#Page_174">174</a></li>
+
+  <li class="i1">Care of Collections,
+    <a href="#Page_408">408</a></li>
+
+  <li class="i1"><i>Carenum bonelli</i>,
+    <a href="#Page_130">130</a></li>
+
+  <li class="i1">Carnivorous ground beetles,
+    <a href="#Page_126">126</a></li>
+
+  <li class="i1">Carnivorous weevils,
+    <a href="#Page_180">180</a></li>
+
+  <li class="i1">Carpenter bees,
+    <a href="#Page_116">116</a></li>
+
+  <li class="i1"><i>Carpocapsa pomonella</i>,
+    <a href="#Page_276">276</a></li>
+
+  <li class="i1"><i>Carpophagus banksiae</i>,
+    <a href="#Page_201">201</a></li>
+
+  <li class="i1"><i>Carpophilus aterrimus</i>,
+    <a href="#Page_144">144</a></li>
+
+  <li class="i1"><i>Carpophilus pilipennis</i>,
+    <a href="#Page_144">144</a></li>
+
+  <li class="i1">Case moths,
+    <a href="#Page_243">243</a></li>
+
+  <li class="i1">Cassidides,
+    <a href="#Page_206">206</a></li>
+
+  <li class="i1">Castelnaudia,
+    <a href="#Page_131">131</a></li>
+
+  <li class="i1"><i>Castelnaudia imperiale</i>,
+    <a href="#Page_132">132</a></li>
+
+  <li class="i1"><i>Castelnaudia renardi</i>,
+    <a href="#Page_132">132</a></li>
+
+  <li class="i1">Castniidae,
+    <a href="#Page_232">232</a></li>
+
+  <li class="i1"><i>Catadromus australis</i>,
+    <a href="#Page_131">131</a>,
+    <a href="#Page_127">127</a></li>
+
+  <li class="i1"><i>Catadromus lacordairei</i>,
+    <a href="#Page_131">131</a></li>
+
+  <li class="i1"><i>Catasarcus spinipennis</i>,
+    <a href="#Page_182">182</a></li>
+
+  <li class="i1"><i>Catopsilia (Callidryas) pomona</i>,
+    <a href="#Page_225">225</a></li>
+
+  <li class="i1">Cave locust,
+    <a href="#Page_48">48</a></li>
+
+  <li class="i1">Cecidomyia,
+    <a href="#Page_81">81</a></li>
+
+  <li class="i1"><i>Cecidomyia destructor</i>,
+    <a href="#Page_286">286</a></li>
+
+  <li class="i1"><i>Cecidomyia acaciae-longifoliae</i>,
+    <a href="#Page_286">286</a></li>
+
+  <li class="i1"><i>Cecidomyia frauenfeldi</i>,
+    <a href="#Page_285">285</a></li>
+
+  <li class="i1">Cecidomyidae,
+    <a href="#Page_285">285</a></li>
+
+  <li class="i1">Celyphus,
+    <a href="#Page_310">310</a></li>
+
+  <li class="i1">Centipedes,
+    <a href="#Page_1">1</a></li>
+
+  <li class="i1">Cephidae,
+    <a href="#Page_70">70</a></li>
+
+  <li class="i1"><i>Cephalodesmius armiger</i>,
+    <a href="#Page_153">153</a></li>
+
+  <li class="i1"><i>Ceraegidion horrens</i>,
+    <a href="#Page_197">197</a></li>
+
+  <li class="i1">Cerambycidae,
+    <a href="#Page_190">190</a></li>
+
+  <li class="i1">Cerambycinae,
+    <a href="#Page_192">192</a></li>
+
+  <li class="i1"><i>Ceraphron niger</i>,
+    <a href="#Page_80">80</a></li>
+
+  <li class="i1">Cerapterus,
+    <a href="#Page_139">139</a></li>
+
+  <li class="i1"><i>Ceratitis (Halterophora) capitata</i>,
+    <a href="#Page_308">308</a></li>
+
+  <li class="i1"><i>Ceratognathus froggatti</i>,
+    <a href="#Page_152">152</a></li>
+
+  <li class="i1"><i>Ceratophyllus hilli</i>,
+    <a href="#Page_324">324</a></li>
+
+  <li class="i1"><i>Ceratophyllus rothschildi</i>,
+    <a href="#Page_323">323</a></li>
+
+  <li class="i1"><i>Ceratophyllus woodwardi</i>,
+    <a href="#Page_324">324</a></li>
+
+  <li class="i1"><i>Ceratopogon molestes</i>,
+    <a href="#Page_291">291</a></li>
+
+  <li class="i1">Cerceris,
+    <a href="#Page_109">109</a></li>
+
+  <li class="i1">Cercopidae,
+    <a href="#Page_354">354</a></li>
+
+  <li class="i1"><i>Cermatulus nasalis</i>,
+    <a href="#Page_330">330</a></li>
+
+  <li class="i1"><i>Ceroplastes ceriferus</i>,
+    <a href="#Page_374">374</a>,
+    <a href="#Page_375">375</a></li>
+
+  <li class="i1"><i>Ceroplastes rubens</i>,
+    <a href="#Page_375">375</a></li>
+
+  <li class="i1"><i>Ceronema banksiae</i>,
+    <a href="#Page_376">376</a></li>
+
+  <li class="i1"><i>Ceronema caudata</i>,
+    <a href="#Page_376">376</a></li>
+
+  <li class="i1"><i>Cethosia cydippe</i>,
+    <a href="#Page_215">215</a></li>
+
+  <li class="i1">Cetonides,
+    <a href="#Page_160">160</a></li>
+
+  <li class="i1"><i>Chaerocampa celerio</i>,
+    <a href="#Page_237">237</a></li>
+
+  <li class="i1"><i>Chaerocampa erotus</i>,
+    <a href="#Page_238">238</a></li>
+
+  <li class="i1"><i>Chaerocampa oldenlandi</i>,
+    <a href="#Page_237">237</a></li>
+
+  <li class="i1"><i>Chaerocampa scrofa</i>,
+    <a href="#Page_238">238</a></li>
+
+  <li class="i1"><i>Chaerocoris paganus</i>,
+    <a href="#Page_327">327</a></li>
+
+  <li class="i1"><i>Chaerocoris similis</i>,
+    <a href="#Page_327">327</a></li>
+
+  <li class="i1"><i>Chaetogaster violacea</i>,
+    <a href="#Page_313">313</a></li>
+
+  <li class="i1">Chafer beetles,
+    <a href="#Page_153">153</a></li>
+
+  <li class="i1"><i>Chalcerinys eximia</i>,
+    <a href="#Page_78">78</a></li>
+
+  <li class="i1">Chalcididae,
+    <a href="#Page_74">74</a>,
+    <a href="#Page_78">78</a></li>
+
+  <li class="i1"><i>Chalcis phya</i>,
+    <a href="#Page_75">75</a></li>
+
+  <li class="i1"><i>Chalcis vicaria</i>,
+    <a href="#Page_75">75</a></li>
+
+  <li class="i1"><i>Chalcophora farinosa</i>,
+    <a href="#Page_163">163</a></li>
+
+  <li class="i1"><i>Chalcophora vittata</i>,
+    <a href="#Page_163">163</a></li>
+
+  <li class="i1"><i>Chalcopterus variabilis</i>,
+    <a href="#Page_174">174</a></li>
+
+  <li class="i1"><i>Chalepus pugionatus</i>,
+    <a href="#Page_356">356</a></li>
+
+  <li class="i1"><i>Chalepus teliferus</i>,
+    <a href="#Page_356">356</a></li>
+
+  <li class="i1"><i>Charaxes sempronius</i>,
+    <a href="#Page_217">217</a></li>
+
+  <li class="i1"><i>Chartopteryx childreni</i>,
+    <a href="#Page_174">174</a></li>
+
+  <li class="i1"><i>Chasmoptera hutti</i>,
+    <a href="#Page_59">59</a></li>
+
+  <li class="i1"><i>Chauliodes guttatus</i>,
+    <a href="#Page_55">55</a></li>
+
+  <li class="i1"><i>Chelepteryx collesi</i>,
+    <a href="#Page_253">253</a></li>
+
+  <li class="i1">Cherry bug,
+    <a href="#Page_327">327</a></li>
+
+  <li class="i1"><i>Cherrus ebeninus</i>,
+    <a href="#Page_182">182</a></li>
+
+  <li class="i1">Chicken flea,
+    <a href="#Page_323">323</a></li>
+
+  <li class="i1">Chinch bug,
+    <a href="#Page_333">333</a></li>
+
+  <li class="i1"><i>Chionaspis xerotides</i>,
+    <a href="#Page_374">374</a></li>
+
+  <li class="i1"><i>Chionaspis eugeniae</i>,
+    <a href="#Page_374">374</a></li>
+
+  <li class="i1">Chironomidae,
+    <a href="#Page_291">291</a></li>
+
+  <li class="i1"><i>Chironomus venerabilis</i>,
+    <a href="#Page_9">9</a></li>
+
+  <li class="i1"><i>Chlaenius laeteviridis</i>,
+    <a href="#Page_131">131</a></li>
+
+  <li class="i1"><i>Chlaenius maculifera</i>,
+    <a href="#Page_131">131</a></li>
+
+  <li class="i1"><i>Chlaenius marginatus</i>,
+    <a href="#Page_131">131</a></li>
+
+  <li class="i1"><i>Chlaenius puncticeps</i>,
+    <a href="#Page_131">131</a></li>
+
+  <li class="i1"><i>Chlorocysta vitripennis</i>,
+    <a href="#Page_352">352</a></li>
+
+  <li class="i1">Chloroform tube,
+    <a href="#Page_399">399</a></li>
+
+  <li class="i1"><i>Chortoicetes pusilla</i>,
+    <a href="#Page_42">42</a></li>
+
+  <li class="i1"><i>Chortoicetes terminifera</i>,
+    <a href="#Page_42">42</a></li>
+
+  <li class="i1">Chrysididae,
+    <a href="#Page_87">87</a></li>
+
+  <li class="i1">Chrysis,
+    <a href="#Page_88">88</a></li>
+
+  <li class="i1"><i>Chrysolophus spectabilis</i>,
+    <a href="#Page_185">185</a></li>
+
+  <li class="i1">Chrysomelidae,
+    <a href="#Page_200">200</a></li>
+
+  <li class="i1">Chrysomelides,
+    <a href="#Page_202">202</a></li>
+
+  <li class="i1">Chrysophides,
+    <a href="#Page_64">64</a></li>
+
+  <li class="i1"><i>Chrysopa ramburii</i>,
+    <a href="#Page_65">65</a></li>
+
+  <li class="i1"><i>Cicada lowei</i>,
+    <a href="#Page_9">9</a></li>
+
+  <li class="i1">Cicadas,
+    <a href="#Page_346">346</a></li>
+
+  <li class="i1">Cicadidae,
+    <a href="#Page_346">346</a></li>
+
+  <li class="i1">Cicadinae,
+    <a href="#Page_348">348</a></li>
+
+  <li class="i1">Cicindelidae,
+    <a href="#Page_124">124</a></li>
+
+  <li class="i1"><i>Cicindela circumcincta</i>,
+    <a href="#Page_125">125</a></li>
+
+  <li class="i1"><i>Cicindela ypsilon</i>,
+    <a href="#Page_125">125</a></li>
+
+  <li class="i1"><i>Cicindela tenuicollis</i>,
+    <a href="#Page_125">125</a></li>
+
+  <li class="i1">Cigarette beetle,
+    <a href="#Page_169">169</a></li>
+
+  <li class="i1"><i>Cimex lectularius</i>,
+    <a href="#Page_341">341</a></li>
+
+  <li class="i1">Cimicidae,
+    <a href="#Page_341">341</a></li>
+
+  <li class="i1">Cioidae,
+    <a href="#Page_170">170</a></li>
+
+  <li class="i1"><i>Cirphula pyrocnemis</i>,
+    <a href="#Page_43">43</a></li>
+
+  <li class="i1"><i>Cisseis leucosticta</i>,
+    <a href="#Page_165">165</a></li>
+
+  <li class="i1"><i>Cisseis maculata</i>,
+    <a href="#Page_165">165</a></li>
+
+  <li class="i1"><i>Cisseis 12-maculata</i>,
+    <a href="#Page_165">165</a></li>
+
+  <li class="i1"><i>Cisseis similis</i>,
+    <a href="#Page_165">165</a></li>
+
+  <li class="i1">Cistelidae,
+    <a href="#Page_175">175</a></li>
+
+  <li class="i1"><i>Cizara ardenia</i>,
+    <a href="#Page_237">237</a></li>
+
+  <li class="i1">Classification,
+    <a href="#Page_1">1</a></li>
+
+  <li class="i1"><i>Clauca rubricosta</i>,
+    <a href="#Page_250">250</a></li>
+
+  <li class="i1">Clear-winged Hawk-moth,
+    <a href="#Page_237">237</a></li>
+
+  <li class="i1"><i>Clemacantha regale</i>,
+    <a href="#Page_39">39</a></li>
+
+  <li class="i1">Cleptes,
+    <a href="#Page_88">88</a></li>
+
+  <li class="i1">Cleridae,
+    <a href="#Page_168">168</a></li>
+
+  <li class="i1"><i>Cleromorpha novemguttatus</i>,
+    <a href="#Page_168">168</a></li>
+
+  <li class="i1">Click beetles,
+    <a href="#Page_166">166</a></li>
+
+  <li class="i1"><i>Clivina australasiae</i>,
+    <a href="#Page_131">131</a></li>
+
+  <li class="i1"><i>Clivina basalis</i>,
+    <a href="#Page_131">131</a></li>
+
+  <li class="i1">Clivinides,
+    <a href="#Page_130">130</a></li>
+
+  <li class="i1">Clothes moths,
+    <a href="#Page_278">278</a></li>
+
+  <li class="i1">Club-horned Water-beetles,
+    <a href="#Page_135">135</a></li>
+
+  <li class="i1"><i>Clytocosmus helmsi</i>,
+    <a href="#Page_292">292</a></li>
+
+  <li class="i1"><i>Clytus curtisi</i>,
+    <a href="#Page_196">196</a></li>
+
+  <li class="i1"><i>Cnecosa fulvida</i>,
+    <a href="#Page_147">147</a></li>
+
+  <li class="i1">Coccidae,
+    <a href="#Page_371">371</a>,
+    <a href="#Page_373">373</a></li>
+
+  <li class="i1">Coccinellidae,
+    <a href="#Page_207">207</a></li>
+
+  <li class="i1"><i>Coccinella repanda</i>,
+    <a href="#Page_209">209</a></li>
+
+  <li class="i1">Cockchafer beetles,
+    <a href="#Page_157">157</a></li>
+
+  <li class="i1">Cockroaches,
+    <a href="#Page_17">17</a></li>
+
+  <li class="i1">Codlin moth,
+    <a href="#Page_276">276</a></li>
+
+  <li class="i1"><i>Coelioxys albolineata</i>,
+    <a href="#Page_119">119</a></li>
+
+  <li class="i1"><i>Coelocyba viridilincata</i>,
+    <a href="#Page_79">79</a></li>
+
+  <li class="i1">Coelostoma,
+    <a href="#Page_385">385</a></li>
+
+  <li class="i1"><i>Coequosa australasiae</i>,
+    <a href="#Page_238">238</a></li>
+
+  <li class="i1"><i>Coequosa triangularis</i>,
+    <a href="#Page_238">238</a></li>
+
+  <li class="i1">Coleoptera,
+    <a href="#Page_1">1</a>,
+    <a href="#Page_121">121</a></li>
+
+  <li class="i1">Collection of Insects,
+    <a href="#Page_395">395</a></li>
+
+  <li class="i1">Collector’s bag,
+    <a href="#Page_398">398</a></li>
+
+  <li class="i1">Collecting net,
+    <a href="#Page_396">396</a></li>
+
+  <li class="i1">Collembola,
+    <a href="#Page_10">10</a></li>
+
+  <li class="i1">Colletes,
+    <a href="#Page_114">114</a></li>
+
+  <li class="i1">Coloburiscus,
+    <a href="#Page_55">55</a></li>
+
+  <li class="i1">Colydidae,
+    <a href="#Page_146">146</a></li>
+
+  <li class="i1"><i>Colymbetes lanceolatus</i>,
+    <a href="#Page_134">134</a></li>
+
+  <li class="i1"><i>Comarchis aspectatella</i>,
+    <a href="#Page_250">250</a></li>
+
+  <li class="i1">Comb-horned beetles,
+    <a href="#Page_138">138</a></li>
+
+  <li class="i1"><i>Commius elegans</i>,
+    <a href="#Page_329">329</a></li>
+
+  <li class="i1"><i>Comptosia albo-fasciata</i>,
+    <a href="#Page_296">296</a></li>
+
+  <li class="i1">Connecting-link moths,
+    <a href="#Page_232">232</a></li>
+
+  <li class="i1"><i>Conogethes punctiferalis</i>,
+    <a href="#Page_273">273</a></li>
+
+  <li class="i1"><i>Conops pica</i>,
+    <a href="#Page_305">305</a></li>
+
+  <li class="i1">Conopidae,
+    <a href="#Page_305">305</a></li>
+
+  <li class="i1">Convolvulus Hawk-moth,
+    <a href="#Page_238">238</a></li>
+
+  <li class="i1">Coon bug,
+    <a href="#Page_334">334</a></li>
+
+  <li class="i1"><i>Copelatus acuductus</i>,
+    <a href="#Page_134">134</a></li>
+
+  <li class="i1">Coppers,
+    <a href="#Page_219">219</a></li>
+
+  <li class="i1">Coprides,
+    <a href="#Page_153">153</a></li>
+
+  <li class="i1">Coptotermes,
+    <a href="#Page_26">26</a></li>
+
+  <li class="i1"><i>Coptotermes (Termes) lacteus</i>,
+    <a href="#Page_22">22</a></li>
+
+  <li class="i1">Cordiceps,
+    <a href="#Page_242">242</a></li>
+
+  <li class="i1">Cordus hospes,
+    <a href="#Page_174">174</a></li>
+
+  <li class="i1">Coreidae,
+    <a href="#Page_331">331</a></li>
+
+  <li class="i1"><i>Corixa eurynome</i>,
+    <a href="#Page_345">345</a></li>
+
+  <li class="i1">Corixidae,
+    <a href="#Page_345">345</a></li>
+
+  <li class="i1"><i>Coryphistes cyanopterus</i>,
+    <a href="#Page_43">43</a></li>
+
+  <li class="i1"><i>Cosmotriche exposita</i>,
+    <a href="#Page_257">257</a></li>
+
+  <li class="i1"><i>Cosmozosteria coolgardiensis</i>,
+    <a href="#Page_18">18</a></li>
+
+  <li class="i1">Cossidae,
+    <a href="#Page_242">242</a></li>
+
+  <li class="i1">Cotton bug,
+    <a href="#Page_333">333</a></li>
+
+  <li class="i1">Cottony Cushion Scale,
+    <a href="#Page_77">77</a>,
+    <a href="#Page_385">385</a></li>
+
+  <li class="i1">Cow ants,
+    <a href="#Page_98">98</a></li>
+
+  <li class="i1"><i>Coxinocera hercules</i>,
+    <a href="#Page_257">257</a></li>
+
+  <li class="i1">Crabs,
+    <a href="#Page_1">1</a></li>
+
+  <li class="i1">Crabro,
+    <a href="#Page_109">109</a></li>
+
+  <li class="i1">Crabronides,
+    <a href="#Page_109">109</a></li>
+
+  <li class="i1">Crane-flies,
+    <a href="#Page_292">292</a></li>
+
+  <li class="i1"><i>Craspedia coriaria</i>,
+    <a href="#Page_300">300</a></li>
+
+  <li class="i1"><i>Cremastogaster fusca</i>,
+    <a href="#Page_94">94</a></li>
+
+  <li class="i1"><i>Cremastogaster pallipes</i>,
+    <a href="#Page_94">94</a></li>
+
+  <li class="i1"><i>Cremastogaster ruficeps</i>,
+    <a href="#Page_95">95</a></li>
+
+  <li class="i1"><i>Creophilus erythrocephalus</i>,
+    <a href="#Page_137">137</a></li>
+
+  <li class="i1">Crested locust,
+    <a href="#Page_44">44</a></li>
+
+  <li class="i1"><i>Crewiis longipennis</i>,
+    <a href="#Page_363">363</a></li>
+
+  <li class="i1">Crickets,
+    <a href="#Page_48">48</a></li>
+
+  <li class="i1">Crimson-winged butterfly,
+    <a href="#Page_215">215</a></li>
+
+  <li class="i1"><i>Croce attenuata</i>,
+    <a href="#Page_59">59</a></li>
+
+  <li class="i1"><i>Crocisa albo-maculata</i>,
+    <a href="#Page_118">118</a></li>
+
+  <li class="i1"><i>Crocisa lamprosoma</i>,
+    <a href="#Page_118">118</a></li>
+
+  <li class="i1"><i>Crocisa nitidula</i>,
+    <a href="#Page_118">118</a></li>
+
+  <li class="i1"><i>Cruria donovani</i>,
+    <a href="#Page_234">234</a></li>
+
+  <li class="i1">Crusader bug,
+    <a href="#Page_332">332</a></li>
+
+  <li class="i1">Crustacea,
+    <a href="#Page_1">1</a></li>
+
+  <li class="i1"><i>Crypsiphona occultaria</i>,
+    <a href="#Page_260">260</a></li>
+
+  <li class="i1"><i>Cryptes (Lecanium) baccatum</i>,
+    <a href="#Page_376">376</a></li>
+
+  <li class="i1">Cryptocephalides,
+    <a href="#Page_201">201</a></li>
+
+  <li class="i1">Cryptocerata,
+    <a href="#Page_342">342</a></li>
+
+  <li class="i1"><i>Cryptocephalus scabrosus</i>,
+    <a href="#Page_202">202</a></li>
+
+  <li class="i1"><i>Cryptocephalus viridinitens</i>,
+    <a href="#Page_202">202</a></li>
+
+  <li class="i1"><i>Cryptolaemus montrouzieri</i>,
+    <a href="#Page_211">211</a></li>
+
+  <li class="i1">Cryptophagidae,
+    <a href="#Page_147">147</a></li>
+
+  <li class="i1">Cryptophaginae,
+    <a href="#Page_277">277</a></li>
+
+  <li class="i1"><i>Cryptophaga irrorata</i>,
+    <a href="#Page_278">278</a></li>
+
+  <li class="i1"><i>Cryptophaga rubriginosa</i>,
+    <a href="#Page_278">278</a></li>
+
+  <li class="i1"><i>Cryptophaga unipunctata</i>,
+    <a href="#Page_277">277</a></li>
+
+  <li class="i1"><i>Ctenochiton eucalypti</i>,
+    <a href="#Page_375">375</a></li>
+
+  <li class="i1"><i>Ctenochiton rhizophorae</i>,
+    <a href="#Page_375">375</a></li>
+
+  <li class="i1"><i>Cubicorrhynchus morosus</i>,
+    <a href="#Page_184">184</a></li>
+
+  <li class="i1">Cucujidae,
+    <a href="#Page_146">146</a></li>
+
+  <li class="i1">Cuckoo-spittle insects,
+    <a href="#Page_355">355</a></li>
+
+  <li class="i1">Cuckoo wasps,
+    <a href="#Page_87">87</a></li>
+
+  <li class="i1"><i>Culama caliginosa</i>,
+    <a href="#Page_242">242</a></li>
+
+  <li class="i1"><i>Culex albo-annulatus</i>,
+    <a href="#Page_289">289</a></li>
+
+  <li class="i1"><i>Culex alternans</i>,
+    <a href="#Page_290">290</a></li>
+
+  <li class="i1"><i>Culex fatigans</i>,
+    <a href="#Page_289">289</a></li>
+
+  <li class="i1"><i>Culex hispidosus</i>,
+    <a href="#Page_290">290</a></li>
+
+  <li class="i1"><i>Culex macleayi</i>,
+    <a href="#Page_289">289</a></li>
+
+  <li class="i1"><i>Culex marinus</i>,
+    <a href="#Page_290">290</a></li>
+
+  <li class="i1"><i>Culex skusei</i>,
+    <a href="#Page_289">289</a></li>
+
+  <li class="i1">Culicidae,
+    <a href="#Page_288">288</a></li>
+
+  <li class="i1">Cup moth,
+    <a href="#Page_246">246</a></li>
+
+  <li class="i1"><i>Cupha prosope</i>,
+    <a href="#Page_215">215</a></li>
+
+  <li class="i1">Cupnia,
+    <a href="#Page_50">50</a></li>
+
+  <li class="i1">Curculionidae,
+    <a href="#Page_181">181</a></li>
+
+  <li class="i1"><i>Cuspicona forticornis</i>,
+    <a href="#Page_330">330</a></li>
+
+  <li class="i1"><i>Cuspicona thoracica</i>,
+    <a href="#Page_330">330</a></li>
+
+  <li class="i1"><i>Cuspicona simplex</i>,
+    <a href="#Page_329">329</a></li>
+
+  <li class="i1">Cutworm moth,
+    <a href="#Page_262">262</a></li>
+
+  <li class="i1"><i>Cybister gayndahensis</i>,
+    <a href="#Page_134">134</a></li>
+
+  <li class="i1"><i>Cybister granulatus</i>,
+    <a href="#Page_134">134</a></li>
+
+  <li class="i1"><i>Cybister tripunctatus</i>,
+    <a href="#Page_134">134</a></li>
+
+  <li class="i1">Cydinae,
+    <a href="#Page_328">328</a></li>
+
+  <li class="i1"><i>Cylindrococcus amplior</i>,
+    <a href="#Page_380">380</a></li>
+
+  <li class="i1"><i>Cylindrococcus spiniferus</i>,
+    <a href="#Page_380">380</a></li>
+
+  <li class="i1"><i>Cyclochila australasiae</i>,
+    <a href="#Page_349">349</a></li>
+
+  <li class="i1">Cynipidae,
+    <a href="#Page_73">73</a></li>
+
+  <li class="i1"><i>Cynthia ada</i>,
+    <a href="#Page_215">215</a></li>
+
+  <li class="i1"><i>Cyria imperialis</i>,
+    <a href="#Page_162">162</a></li>
+
+  <li class="i1"><i>Cyrtacanthacris exacta</i>,
+    <a href="#Page_40">40</a>,
+    <a href="#Page_43">43</a></li>
+
+  <li class="i1"><i>Cystosoma saundersi</i>,
+    <a href="#Page_354">354</a></li>
+
+  <li class="i1"><i>Cystosoma schmeltzi</i>,
+    <a href="#Page_354">354</a></li>
+</ul>
+
+<ul>
+  <li class="i1">Dactylopinae,
+    <a href="#Page_376">376</a></li>
+
+  <li class="i1"><i>Dactylopius albizziae</i>,
+    <a href="#Page_378">378</a></li>
+
+  <li class="i1"><i>Dactylopius aurilanatus</i>,
+    <a href="#Page_378">378</a></li>
+
+  <li class="i1"><i>Dactylopius lobulatus</i>,
+    <a href="#Page_378">378</a></li>
+
+  <li class="i1"><i>Dacus (Tephrites) psidii</i>,
+    <a href="#Page_307">307</a></li>
+
+  <li class="i1"><i>Dacus (Tephrites) tryoni</i>,
+    <a href="#Page_307">307</a></li>
+
+  <li class="i1">Danainae,
+    <a href="#Page_214">214</a></li>
+
+  <li class="i1"><i>Danais archippus</i>,
+    <a href="#Page_214">214</a></li>
+
+  <li class="i1"><i>Danais hamata</i>,
+    <a href="#Page_215">215</a></li>
+
+  <li class="i1"><i>Danais menippe</i>,
+    <a href="#Page_214">214</a></li>
+
+  <li class="i1"><i>Danais petilia</i>,
+    <a href="#Page_214">214</a></li>
+
+  <li class="i1"><i>Danima banksiae</i>,
+    <a href="#Page_257">257</a></li>
+
+  <li class="i1"><i>Danis taygetus</i>,
+    <a href="#Page_220">220</a></li>
+
+  <li class="i1"><i>Darala acuta</i>,
+    <a href="#Page_254">254</a></li>
+
+  <li class="i1"><i>Darala ocellata</i>,
+    <a href="#Page_254">254</a></li>
+
+  <li class="i1">Dark-winged Ichneumons,
+    <a href="#Page_84">84</a></li>
+
+  <li class="i1"><i>Dasypodia cymatoides</i>,
+    <a href="#Page_268">268</a></li>
+
+  <li class="i1"><i>Dasypodia selenophora</i>,
+    <a href="#Page_268">268</a></li>
+
+  <li class="i1">Dasypogon,
+    <a href="#Page_299">299</a></li>
+
+  <li class="i1"><i>Daunus tasmaniae</i>,
+    <a href="#Page_357">357</a></li>
+
+  <li class="i1">Day moths,
+    <a href="#Page_233">233</a></li>
+
+  <li class="i1"><i>Deiopeia pulchella</i>,
+    <a href="#Page_250">250</a></li>
+
+  <li class="i1"><i>Delias aganippe</i>,
+    <a href="#Page_224">224</a></li>
+
+  <li class="i1"><i>Delias argenthona</i>,
+    <a href="#Page_224">224</a></li>
+
+  <li class="i1"><i>Delias harpalyce</i>,
+    <a href="#Page_224">224</a></li>
+
+  <li class="i1"><i>Delias mysis</i>,
+    <a href="#Page_224">224</a></li>
+
+  <li class="i1"><i>Delias nigrina</i>,
+    <a href="#Page_224">224</a></li>
+
+  <li class="i1">Demoiselles,
+    <a href="#Page_51">51</a></li>
+
+  <li class="i1"><i>Depsages granulosa</i>,
+    <a href="#Page_200">200</a></li>
+
+  <li class="i1"><i>Dermestes cadaverinus</i>,
+    <a href="#Page_148">148</a></li>
+
+  <li class="i1"><i>Dermestes lardarius</i>,
+    <a href="#Page_149">149</a></li>
+
+  <li class="i1"><i>Dermestes vulpinus</i>,
+    <a href="#Page_148">148</a></li>
+
+  <li class="i1">Dermestidae,
+    <a href="#Page_148">148</a></li>
+
+  <li class="i1">Desert cockroaches,
+    <a href="#Page_19">19</a></li>
+
+  <li class="i1">Devil’s Coach-horse,
+    <a href="#Page_137">137</a></li>
+
+  <li class="i1">Devil’s Darning Needles,
+    <a href="#Page_51">51</a></li>
+
+  <li class="i1">Dexiidae,
+    <a href="#Page_313">313</a></li>
+
+  <li class="i1"><i>Diadoxus erythrurus</i>,
+    <a href="#Page_163">163</a></li>
+
+  <li class="i1"><i>Diadoxus scalaris</i>,
+    <a href="#Page_163">163</a></li>
+
+  <li class="i1">Diagram of dragon-fly,
+    <a href="#Page_52">52</a></li>
+
+  <li class="i1">Diagram of bee, fore wing of,
+    <a href="#Page_69">69</a></li>
+
+  <li class="i1">Diagram of grasshopper,
+    <a href="#Page_40">40</a></li>
+
+  <li class="i1">Diagram of grasshopper, mouth parts,
+    <a href="#Page_13">13</a></li>
+
+  <li class="i1">Diagram of hawkmoth, head of,
+    <a href="#Page_230">230</a></li>
+
+  <li class="i1">Diagram of moth, wings of,
+    <a href="#Page_231">231</a></li>
+
+  <li class="i1">Diagram of psylla,
+    <a href="#Page_362">362</a></li>
+
+  <li class="i1">Diagram of termite, head of worker,
+    <a href="#Page_22">22</a></li>
+
+  <li class="i1">Diagram of wasp, head of,
+    <a href="#Page_68">68</a></li>
+
+  <li class="i1">Diagram of wasp, thorax of,
+    <a href="#Page_68">68</a></li>
+
+  <li class="i1">Diagram of water beetle,
+    <a href="#Page_122">122</a></li>
+
+  <li class="i1"><i>Diamma bicolor</i>,
+    <a href="#Page_102">102</a></li>
+
+  <li class="i1">Diamond-backed Cabbage Moth,
+    <a href="#Page_281">281</a></li>
+
+  <li class="i1"><i>Diaphonia dorsalis</i>,
+    <a href="#Page_162">162</a></li>
+
+  <li class="i1"><i>Diaphonia olliffiana</i>,
+    <a href="#Page_162">162</a></li>
+
+  <li class="i1">Diaspinae,
+    <a href="#Page_373">373</a></li>
+
+  <li class="i1"><i>Diaspis rosae</i>,
+    <a href="#Page_374">374</a></li>
+
+  <li class="i1"><i>Dictyotus plebejus</i>,
+    <a href="#Page_329">329</a></li>
+
+  <li class="i1"><i>Didymuria violescens</i>,
+    <a href="#Page_37">37</a></li>
+
+  <li class="i1"><i>Dielis formosa</i>,
+    <a href="#Page_104">104</a></li>
+
+  <li class="i1"><i>Dielis 7-cincta</i>,
+    <a href="#Page_104">104</a></li>
+
+  <li class="i1">Digger beetles,
+    <a href="#Page_153">153</a></li>
+
+  <li class="i1"><i>Dilochrosis atripennis</i>,
+    <a href="#Page_160">160</a></li>
+
+  <li class="i1">Dinadorinae,
+    <a href="#Page_331">331</a></li>
+
+  <li class="i1"><i>Dindymus circumcinctus</i>,
+    <a href="#Page_335">335</a></li>
+
+  <li class="i1"><i>Dindymus versicolor</i>,
+    <a href="#Page_335">335</a></li>
+
+  <li class="i1"><i>Dinoura auriventris</i>,
+    <a href="#Page_77">77</a>,
+    <a href="#Page_78">78</a></li>
+
+  <li class="i1">Diopsidae,
+    <a href="#Page_306">306</a></li>
+
+  <li class="i1">Diopsis,
+    <a href="#Page_306">306</a></li>
+
+  <li class="i1"><i>Diphucephala aurulenta</i>,
+    <a href="#Page_156">156</a></li>
+
+  <li class="i1"><i>Diphucephala rufipes</i>,
+    <a href="#Page_156">156</a></li>
+
+  <li class="i1"><i>Diphucephala colaspidoides</i>,
+    <a href="#Page_156">156</a></li>
+
+  <li class="i1"><i>Diplacodes (Diplax) bipunctata</i>,
+    <a href="#Page_53">53</a></li>
+
+  <li class="i1">Diplax,
+    <a href="#Page_52">52</a></li>
+
+  <li class="i1"><i>Diplax rubra</i>,
+    <a href="#Page_52">52</a></li>
+
+  <li class="i1">Diploptera,
+    <a href="#Page_110">110</a></li>
+
+  <li class="i1"><i>Diplosis eucalypti</i>,
+    <a href="#Page_286">286</a></li>
+
+  <li class="i1"><i>Diplosis frenelae</i>,
+    <a href="#Page_286">286</a></li>
+
+  <li class="i1"><i>Diplosis paralis</i>,
+    <a href="#Page_286">286</a></li>
+
+  <li class="i1">Diptera,
+    <a href="#Page_1">1</a>,
+    <a href="#Page_4">4</a>,
+    <a href="#Page_283">283</a></li>
+
+  <li class="i1"><i>Discolia soror</i>,
+    <a href="#Page_103">103</a></li>
+
+  <li class="i1"><i>Distichocera macleayi</i>,
+    <a href="#Page_195">195</a></li>
+
+  <li class="i1"><i>Distichocera maculicollis</i>,
+    <a href="#Page_195">195</a></li>
+
+  <li class="i1">Distribution,
+    <a href="#Page_4">4</a></li>
+
+  <li class="i1"><i>Distypsidera flavicans</i>,
+    <a href="#Page_125">125</a></li>
+
+  <li class="i1">Ditropidus,
+    <a href="#Page_201">201</a></li>
+
+  <li class="i1"><i>Doleschallia australis</i>,
+    <a href="#Page_216">216</a></li>
+
+  <li class="i1">Dolichoderinae,
+    <a href="#Page_95">95</a></li>
+
+  <li class="i1"><i>Dolichoderus doriae</i>,
+    <a href="#Page_95">95</a></li>
+
+  <li class="i1"><i>Doratifera acasta</i>,
+    <a href="#Page_247">247</a></li>
+
+  <li class="i1"><i>Doratifera quadriguttata</i>,
+    <a href="#Page_247">247</a></li>
+
+  <li class="i1"><i>Doratifera vulnerans</i>,
+    <a href="#Page_84">84</a>,
+    <a href="#Page_246">246</a>,
+    <a href="#Page_247">247</a></li>
+
+  <li class="i1">Dorylinae,
+    <a href="#Page_93">93</a></li>
+
+  <li class="i1"><i>Doticus pestilans</i>,
+    <a href="#Page_181">181</a></li>
+
+  <li class="i1">Double Drummer,
+    <a href="#Page_348">348</a></li>
+
+  <li class="i1">Dragon flies,
+    <a href="#Page_51">51</a></li>
+
+  <li class="i1"><i>Drepanopteryx binocula</i>,
+    <a href="#Page_64">64</a></li>
+
+  <li class="i1"><i>Drepanopteryx instabilis</i>,
+    <a href="#Page_64">64</a></li>
+
+  <li class="i1">Dried-apple beetle,
+    <a href="#Page_181">181</a></li>
+
+  <li class="i1">Drone fly,
+    <a href="#Page_303">303</a></li>
+
+  <li class="i1"><i>Drosophila obscura</i>,
+    <a href="#Page_306">306</a></li>
+
+  <li class="i1">Drosophilidae,
+    <a href="#Page_306">306</a></li>
+
+  <li class="i1">Dryinidae,
+    <a href="#Page_82">82</a></li>
+
+  <li class="i1">Dryinids,
+    <a href="#Page_78">78</a></li>
+
+  <li class="i1"><i>Drypta australis</i>,
+    <a href="#Page_127">127</a></li>
+
+  <li class="i1">Dung beetles,
+    <a href="#Page_153">153</a></li>
+
+  <li class="i1">Dusky Delias,
+    <a href="#Page_224">224</a></li>
+
+  <li class="i1">Dynastides,
+    <a href="#Page_159">159</a></li>
+
+  <li class="i1"><i>Dysdercus sidae</i>,
+    <a href="#Page_335">335</a></li>
+
+  <li class="i1"><i>Dysdercus suturellus</i>,
+    <a href="#Page_335">335</a></li>
+
+  <li class="i1">Dytiscidae,
+    <a href="#Page_133">133</a></li>
+</ul>
+
+<ul>
+  <li class="i1"><i>Earias fabia</i>,
+    <a href="#Page_265">265</a></li>
+
+  <li class="i1">Ears of locusts,
+    <a href="#Page_40">40</a></li>
+
+  <li class="i1">Earwigs,
+    <a href="#Page_15">15</a></li>
+
+  <li class="i1"><i>Ecelonerus albopictus</i>,
+    <a href="#Page_180">180</a></li>
+
+  <li class="i1"><i>Echidnophaga ambulans</i>,
+    <a href="#Page_323">323</a></li>
+
+  <li class="i1"><i>Echidnophaga gallinaceus</i>,
+    <a href="#Page_323">323</a></li>
+
+  <li class="i1"><i>Echidnophaga liopus</i>,
+    <a href="#Page_323">323</a></li>
+
+  <li class="i1"><i>Echidnophaga macronychia</i>,
+    <a href="#Page_323">323</a></li>
+
+  <li class="i1"><i>Ecphantus quadrilobis</i>,
+    <a href="#Page_44">44</a></li>
+
+  <li class="i1"><i>Ectatomma metallicum</i>,
+    <a href="#Page_93">93</a></li>
+
+  <li class="i1"><i>Ectocemus pterygorrhinus</i>,
+    <a href="#Page_180">180</a></li>
+
+  <li class="i1">Ectrepes,
+    <a href="#Page_170">170</a></li>
+
+  <li class="i1"><i>Edusa distincta</i>,
+    <a href="#Page_202">202</a></li>
+
+  <li class="i1">Elachistidae,
+    <a href="#Page_280">280</a></li>
+
+  <li class="i1"><i>Elaphodes tigrinus</i>,
+    <a href="#Page_201">201</a></li>
+
+  <li class="i1">Elateridae,
+    <a href="#Page_166">166</a></li>
+
+  <li class="i1">Elephant beetle,
+    <a href="#Page_186">186</a></li>
+
+  <li class="i1">Elmis,
+    <a href="#Page_150">150</a></li>
+
+  <li class="i1"><i>Elodina angulipennis</i>,
+    <a href="#Page_223">223</a></li>
+
+  <li class="i1">Embiidae,
+    <a href="#Page_28">28</a></li>
+
+  <li class="i1">Emesinae,
+    <a href="#Page_338">338</a></li>
+
+  <li class="i1">Emperors,
+    <a href="#Page_214">214</a></li>
+
+  <li class="i1">Encyrtinae,
+    <a href="#Page_78">78</a></li>
+
+  <li class="i1"><i>Enithares bergrothi</i>,
+    <a href="#Page_345">345</a></li>
+
+  <li class="i1"><i>Enteles ocellatus</i>,
+    <a href="#Page_189">189</a></li>
+
+  <li class="i1"><i>Enteles vigorsi</i>,
+    <a href="#Page_189">189</a></li>
+
+  <li class="i1"><i>Entometa ignoblis</i>,
+    <a href="#Page_245">245</a></li>
+
+  <li class="i1"><i>Ephedrus persicae</i>,
+    <a href="#Page_86">86</a></li>
+
+  <li class="i1"><i>Ephemera culleni</i>,
+    <a href="#Page_9">9</a></li>
+
+  <li class="i1">Ephemeridae,
+    <a href="#Page_54">54</a></li>
+
+  <li class="i1"><i>Ephestia kuhniella</i>,
+    <a href="#Page_273">273</a></li>
+
+  <li class="i1"><i>Ephippitytha quadrigessimaguttatus</i>,
+    <a href="#Page_47">47</a></li>
+
+  <li class="i1"><i>Ephippitytha 32-guttata</i>,
+    <a href="#Page_47">47</a></li>
+
+  <li class="i1"><i>Ephippium albitarsis</i>,
+    <a href="#Page_293">293</a></li>
+
+  <li class="i1">Ephutermorpha,
+    <a href="#Page_99">99</a></li>
+
+  <li class="i1"><i>Epilachna guttatopustulata</i>,
+    <a href="#Page_208">208</a></li>
+
+  <li class="i1"><i>Epilachna 28-punctata</i>,
+    <a href="#Page_208">208</a></li>
+
+  <li class="i1">Epipyropidae,
+    <a href="#Page_282">282</a></li>
+
+  <li class="i1"><i>Epipyrops doddi</i>,
+    <a href="#Page_282">282</a></li>
+
+  <li class="i1"><i>Episcaphula pictipennis</i>,
+    <a href="#Page_206">206</a></li>
+
+  <li class="i1"><i>Epithora dorsalis</i>,
+    <a href="#Page_193">193</a></li>
+
+  <li class="i1">Erebidae,
+    <a href="#Page_268">268</a></li>
+
+  <li class="i1"><i>Eretes australis</i>,
+    <a href="#Page_134">134</a></li>
+
+  <li class="i1"><i>Eriococcus coriaceous</i>,
+    <a href="#Page_211">211</a>,
+    <a href="#Page_377">377</a></li>
+
+  <li class="i1"><i>Eriococcus eucalypti</i>,
+    <a href="#Page_377">377</a></li>
+
+  <li class="i1"><i>Eriococcus paradoxus</i>,
+    <a href="#Page_377">377</a></li>
+
+  <li class="i1"><i>Eristalis tenax</i>,
+    <a href="#Page_303">303</a>,
+    <a href="#Page_304">304</a></li>
+
+  <li class="i1">Ermine moths,
+    <a href="#Page_248">248</a></li>
+
+  <li class="i1">Erotylidae,
+    <a href="#Page_206">206</a></li>
+
+  <li class="i1"><i>Erynnus sperthias</i>,
+    <a href="#Page_228">228</a></li>
+
+  <li class="i1"><i>Erythroneura vitis</i>,
+    <a href="#Page_361">361</a></li>
+
+  <li class="i1"><i>Ethemaia sellata</i>,
+    <a href="#Page_184">184</a></li>
+
+  <li class="i1"><i>Ethon affinis</i>,
+    <a href="#Page_165">165</a></li>
+
+  <li class="i1"><i>Ethon corpulentus</i>,
+    <a href="#Page_165">165</a></li>
+
+  <li class="i1"><i>Ethon marmoreum</i>,
+    <a href="#Page_165">165</a></li>
+
+  <li class="i1">Eucalyptus scale,
+    <a href="#Page_377">377</a></li>
+
+  <li class="i1"><i>Euchloris submissaria</i>,
+    <a href="#Page_260">260</a></li>
+
+  <li class="i1"><i>Euchromia creusa</i>,
+    <a href="#Page_235">235</a></li>
+
+  <li class="i1">Eucnemidae,
+    <a href="#Page_165">165</a></li>
+
+  <li class="i1"><i>Eudoxula boisduvalli</i>,
+    <a href="#Page_243">243</a></li>
+
+  <li class="i1"><i>Eufroggattia tuberculata</i>,
+    <a href="#Page_358">358</a></li>
+
+  <li class="i1"><i>Eumecopus australasiae</i>,
+    <a href="#Page_329">329</a></li>
+
+  <li class="i1"><i>Eumenes arcuatus</i>,
+    <a href="#Page_111">111</a></li>
+
+  <li class="i1"><i>Eumenes bicincta</i>,
+    <a href="#Page_110">110</a></li>
+
+  <li class="i1"><i>Eumenes latreillei</i>,
+    <a href="#Page_111">111</a></li>
+
+  <li class="i1"><i>Eumenes servillei</i>,
+    <a href="#Page_111">111</a></li>
+
+  <li class="i1">Eumenidae,
+    <a href="#Page_110">110</a></li>
+
+  <li class="i1">Eumolpides,
+    <a href="#Page_202">202</a></li>
+
+  <li class="i1">Eupelminae,
+    <a href="#Page_79">79</a></li>
+
+  <li class="i1"><i>Eupelmus antipoda</i>,
+    <a href="#Page_77">77</a></li>
+
+  <li class="i1"><i>Euploea corinna</i>,
+    <a href="#Page_215">215</a></li>
+
+  <li class="i1"><i>Euploea hamata</i>,
+    <a href="#Page_263">263</a></li>
+
+  <li class="i1"><i>Eupoecila australasiae</i>,
+    <a href="#Page_161">161</a></li>
+
+  <li class="i1"><i>Euponera lutea</i>,
+    <a href="#Page_93">93</a></li>
+
+  <li class="i1"><i>Eurhamphus fasciculatus</i>,
+    <a href="#Page_186">186</a></li>
+
+  <li class="i1"><i>Eurhynchus acanthopterus</i>,
+    <a href="#Page_187">187</a></li>
+
+  <li class="i1"><i>Eurybrachys leucostigma</i>,
+    <a href="#Page_360">360</a></li>
+
+  <li class="i1"><i>Eurybrochis zanna</i>,
+    <a href="#Page_342">342</a></li>
+
+  <li class="i1"><i>Eurycus cressida</i>,
+    <a href="#Page_227">227</a></li>
+
+  <li class="i1"><i>Euryischia lestophoni</i>,
+    <a href="#Page_77">77</a></li>
+
+  <li class="i1"><i>Eurymela bicincta</i>,
+    <a href="#Page_355">355</a></li>
+
+  <li class="i1"><i>Eurymela pulchra</i>,
+    <a href="#Page_355">355</a></li>
+
+  <li class="i1"><i>Eurymela rubrovittata</i>,
+    <a href="#Page_355">355</a></li>
+
+  <li class="i1"><i>Eurymela speculum</i>,
+    <a href="#Page_355">355</a></li>
+
+  <li class="i1"><i>Eurynassa australis</i>,
+    <a href="#Page_191">191</a></li>
+
+  <li class="i1"><i>Eurynassa odewahni</i>,
+    <a href="#Page_191">191</a></li>
+
+  <li class="i1">Euryopsis,
+    <a href="#Page_73">73</a></li>
+
+  <li class="i1">Eurys,
+    <a href="#Page_73">73</a></li>
+
+  <li class="i1"><i>Euryscaphus lobicollis</i>,
+    <a href="#Page_130">130</a></li>
+
+  <li class="i1"><i>Euryscaphus titanus</i>,
+    <a href="#Page_130">130</a></li>
+
+  <li class="i1">Euryspa,
+    <a href="#Page_206">206</a></li>
+
+  <li class="i1"><i>Eurytoma binotata</i>,
+    <a href="#Page_75">75</a></li>
+
+  <li class="i1"><i>Eurytoma eucalypti</i>,
+    <a href="#Page_75">75</a></li>
+
+  <li class="i1"><i>Euschemon rafflesiae</i>,
+    <a href="#Page_232">232</a></li>
+
+  <li class="i1"><i>Eusthenia spectabilis</i>,
+    <a href="#Page_50">50</a></li>
+
+  <li class="i1"><i>Eusthenia thalea</i>,
+    <a href="#Page_50">50</a></li>
+
+  <li class="i1"><i>Eutane terminalis</i>,
+    <a href="#Page_250">250</a></li>
+
+  <li class="i1">Eutermes,
+    <a href="#Page_24">24</a></li>
+
+  <li class="i1"><i>Eutermes fumigatus</i>,
+    <a href="#Page_28">28</a></li>
+
+  <li class="i1"><i>Eutermes fumipennis</i>,
+    <a href="#Page_27">27</a>,
+    <a href="#Page_28">28</a></li>
+
+  <li class="i1"><i>Eutermes pyriformis</i>,
+    <a href="#Page_27">27</a></li>
+
+  <li class="i1"><i>Eutermes triodiae</i>,
+    <a href="#Page_28">28</a></li>
+
+  <li class="i1"><i>Eutoma tinctilatum</i>,
+    <a href="#Page_129">129</a></li>
+
+  <li class="i1"><i>Eutrichopidia latina</i>,
+    <a href="#Page_234">234</a></li>
+
+  <li class="i1"><i>Evania princeps</i>,
+    <a href="#Page_89">89</a></li>
+
+  <li class="i1">Evaniidae,
+    <a href="#Page_88">88</a></li>
+
+  <li class="i1"><i>Exoneura bicolor</i>,
+    <a href="#Page_116">116</a></li>
+
+  <li class="i1"><i>Exoneura froggatti</i>,
+    <a href="#Page_116">116</a></li>
+
+  <li class="i1"><i>Extatosoma tiaratum</i>,
+    <a href="#Page_38">38</a></li>
+</ul>
+
+<ul>
+  <li class="i1">Faggot case-moth,
+    <a href="#Page_245">245</a></li>
+
+  <li class="i1">False Click beetles,
+    <a href="#Page_165">165</a></li>
+
+  <li class="i1">False Robber flies,
+    <a href="#Page_301">301</a></li>
+
+  <li class="i1">Feather horns,
+    <a href="#Page_167">167</a></li>
+
+  <li class="i1">Feronides,
+    <a href="#Page_131">131</a></li>
+
+  <li class="i1">Fiddler,
+    <a href="#Page_161">161</a></li>
+
+  <li class="i1">Fig-leaf beetle,
+    <a href="#Page_205">205</a>,
+    <a href="#Page_330">330</a></li>
+
+  <li class="i1"><i>Figulus regularis</i>,
+    <a href="#Page_152">152</a></li>
+
+  <li class="i1"><i>Fiorinia acaciae</i>,
+    <a href="#Page_374">374</a></li>
+
+  <li class="i1">Fire-fly beetles,
+    <a href="#Page_167">167</a></li>
+
+  <li class="i1">Fish-killers,
+    <a href="#Page_343">343</a></li>
+
+  <li class="i1">Flat Bark-beetles,
+    <a href="#Page_337">337</a></li>
+
+  <li class="i1">Fleas,
+    <a href="#Page_321">321</a></li>
+
+  <li class="i1">Flea beetles,
+    <a href="#Page_204">204</a></li>
+
+  <li class="i1">Flesh flies,
+    <a href="#Page_314">314</a></li>
+
+  <li class="i1">Flies,
+    <a href="#Page_283">283</a></li>
+
+  <li class="i1">Floridian Scale,
+    <a href="#Page_387">387</a></li>
+
+  <li class="i1">Floury Miller,
+    <a href="#Page_351">351</a></li>
+
+  <li class="i1">Flower wasps,
+    <a href="#Page_100">100</a>,
+    <a href="#Page_105">105</a></li>
+
+  <li class="i1">Fluted Cushion-scale,
+    <a href="#Page_385">385</a></li>
+
+  <li class="i1">Foenus,
+    <a href="#Page_89">89</a></li>
+
+  <li class="i1">Footmen,
+    <a href="#Page_248">248</a></li>
+
+  <li class="i1">Forest Ladies,
+    <a href="#Page_31">31</a></li>
+
+  <li class="i1"><i>Forficula auricularia</i>,
+    <a href="#Page_17">17</a></li>
+
+  <li class="i1">Forficulidae,
+    <a href="#Page_14">14</a>,
+    <a href="#Page_15">15</a></li>
+
+  <li class="i1">Formica,
+    <a href="#Page_96">96</a></li>
+
+  <li class="i1"><i>Formia purpurea</i>,
+    <a href="#Page_96">96</a></li>
+
+  <li class="i1">Formicidae,
+    <a href="#Page_4">4</a>,
+    <a href="#Page_91">91</a></li>
+
+  <li class="i1">Fossil Insects,
+    <a href="#Page_9">9</a></li>
+
+  <li class="i1">Fossil Phasmidae,
+    <a href="#Page_35">35</a></li>
+
+  <li class="i1"><i>Frenchia casuarinae</i>,
+    <a href="#Page_381">381</a></li>
+
+  <li class="i1"><i>Frenchia semiocculta</i>,
+    <a href="#Page_381">381</a></li>
+
+  <li class="i1">Fritillaries,
+    <a href="#Page_216">216</a></li>
+
+  <li class="i1"><i>Froggattia olivina</i>,
+    <a href="#Page_336">336</a></li>
+
+  <li class="i1">Frog-hoppers,
+    <a href="#Page_325">325</a>,
+    <a href="#Page_354">354</a></li>
+
+  <li class="i1">Fruit beetles,
+    <a href="#Page_143">143</a></li>
+
+  <li class="i1">Fruit bugs,
+    <a href="#Page_335">335</a></li>
+
+  <li class="i1">Fruit flies,
+    <a href="#Page_306">306</a></li>
+
+  <li class="i1">Fulgoridae,
+    <a href="#Page_82">82</a>,
+    <a href="#Page_358">358</a></li>
+
+  <li class="i1">Fungus beetles,
+    <a href="#Page_206">206</a></li>
+
+  <li class="i1">Fungus bugs,
+    <a href="#Page_337">337</a></li>
+
+  <li class="i1">Fungus midges,
+    <a href="#Page_287">287</a></li>
+</ul>
+
+<ul>
+  <li class="i1">Gadfly,
+    <a href="#Page_294">294</a></li>
+
+  <li class="i1">Gaeninae,
+    <a href="#Page_350">350</a></li>
+
+  <li class="i1">Galgulidae,
+    <a href="#Page_342">342</a></li>
+
+  <li class="i1">Gall flies,
+    <a href="#Page_81">81</a>,
+    <a href="#Page_285">285</a>,
+    <a href="#Page_73">73</a></li>
+
+  <li class="i1">Gall gnats,
+    <a href="#Page_285">285</a></li>
+
+  <li class="i1">Gall wasps,
+    <a href="#Page_74">74</a></li>
+
+  <li class="i1"><i>Galleria melonella</i>,
+    <a href="#Page_272">272</a></li>
+
+  <li class="i1"><i>Galleruca semipullata</i>,
+    <a href="#Page_205">205</a></li>
+
+  <li class="i1"><i>Galleruca</i> (destroyed by bug),
+    <a href="#Page_330">330</a></li>
+
+  <li class="i1">Gallerucides,
+    <a href="#Page_204">204</a></li>
+
+  <li class="i1"><i>Gardena australis</i>,
+    <a href="#Page_338">338</a></li>
+
+  <li class="i1"><i>Gastrophilus equi</i>,
+    <a href="#Page_317">317</a></li>
+
+  <li class="i1"><i>Gastrophora henricaria</i>,
+    <a href="#Page_262">262</a></li>
+
+  <li class="i1"><i>Gastropsis (Oestropsis) pubescens</i>,
+    <a href="#Page_116">116</a></li>
+
+  <li class="i1"><i>Gelechia simplicella</i>,
+    <a href="#Page_279">279</a>,
+    <a href="#Page_280">280</a></li>
+
+  <li class="i1">Gelechiadae,
+    <a href="#Page_279">279</a></li>
+
+  <li class="i1"><i>Geobia australis</i>,
+    <a href="#Page_328">328</a></li>
+
+  <li class="i1">Geometridae,
+    <a href="#Page_259">259</a></li>
+
+  <li class="i1">Georyssidae,
+    <a href="#Page_150">150</a></li>
+
+  <li class="i1"><i>Georyssus australis</i>,
+    <a href="#Page_150">150</a></li>
+
+  <li class="i1"><i>Geoscapheus giganteus</i>,
+    <a href="#Page_19">19</a></li>
+
+  <li class="i1"><i>Gerris australis</i>,
+    <a href="#Page_337">337</a></li>
+
+  <li class="i1">Giant thrips,
+    <a href="#Page_393">393</a></li>
+
+  <li class="i1"><i>Gibbium scotias</i>,
+    <a href="#Page_169">169</a></li>
+
+  <li class="i1">Glass collecting box,
+    <a href="#Page_397">397</a></li>
+
+  <li class="i1"><i>Glaucopsaltria (Chlorocysta) viridis</i>,
+    <a href="#Page_352">352</a></li>
+
+  <li class="i1"><i>Glenurus circuitor</i>,
+    <a href="#Page_58">58</a></li>
+
+  <li class="i1"><i>Glenurus erythrocephalus</i>,
+    <a href="#Page_58">58</a></li>
+
+  <li class="i1"><i>Glenurus fundatus</i>,
+    <a href="#Page_58">58</a></li>
+
+  <li class="i1"><i>Glenurus falsus</i>,
+    <a href="#Page_58">58</a></li>
+
+  <li class="i1"><i>Glenurus pulchellus</i>,
+    <a href="#Page_58">58</a></li>
+
+  <li class="i1"><i>Glenurus striola</i>,
+    <a href="#Page_58">58</a></li>
+
+  <li class="i1">Glow-worms,
+    <a href="#Page_167">167</a></li>
+
+  <li class="i1"><i>Glycyphana brunnipes</i>,
+    <a href="#Page_162">162</a></li>
+
+  <li class="i1"><i>Gminatus australis</i>,
+    <a href="#Page_340">340</a></li>
+
+  <li class="i1"><i>Gminatus nigroscutellatus</i>,
+    <a href="#Page_340">340</a></li>
+
+  <li class="i1"><i>Godara comalis</i>,
+    <a href="#Page_271">271</a></li>
+
+  <li class="i1">Gold beetles,
+    <a href="#Page_151">151</a></li>
+
+  <li class="i1"><i>Goniaea australasiae</i>,
+    <a href="#Page_43">43</a></li>
+
+  <li class="i1"><i>Goniozus antipodum</i>,
+    <a href="#Page_82">82</a></li>
+
+  <li class="i1">Gonipterinae,
+    <a href="#Page_184">184</a></li>
+
+  <li class="i1"><i>Gonipterus gibberus</i>,
+    <a href="#Page_185">185</a></li>
+
+  <li class="i1"><i>Gonotopus australis</i>,
+    <a href="#Page_82">82</a></li>
+
+  <li class="i1">Gorytes,
+    <a href="#Page_108">108</a></li>
+
+  <li class="i1">Grain moth,
+    <a href="#Page_278">278</a></li>
+
+  <li class="i1">Grass-tree weevil,
+    <a href="#Page_189">189</a></li>
+
+  <li class="i1">Grease on insects,
+    <a href="#Page_409">409</a></li>
+
+  <li class="i1">Great Brown Phasma,
+    <a href="#Page_35">35</a></li>
+
+  <li class="i1">Great Striped Locust,
+    <a href="#Page_43">43</a></li>
+
+  <li class="i1">Green Tree-ant (host of butterflies),
+    <a href="#Page_96">96</a></li>
+
+  <li class="i1">Green-head Ant,
+    <a href="#Page_93">93</a></li>
+
+  <li class="i1">Green fly,
+    <a href="#Page_367">367</a></li>
+
+  <li class="i1">Green lace-wing,
+    <a href="#Page_65">65</a></li>
+
+  <li class="i1">Green Monday,
+    <a href="#Page_349">349</a></li>
+
+  <li class="i1">Green Foresters,
+    <a href="#Page_236">236</a></li>
+
+  <li class="i1">Gregarious Phasmids,
+    <a href="#Page_36">36</a></li>
+
+  <li class="i1">Grey Cutworm moth,
+    <a href="#Page_266">266</a></li>
+
+  <li class="i1">Gryllidae,
+    <a href="#Page_48">48</a></li>
+
+  <li class="i1"><i>Gryllotalpa coarctata</i>,
+    <a href="#Page_48">48</a></li>
+
+  <li class="i1"><i>Gryllus servillei</i>,
+    <a href="#Page_48">48</a></li>
+
+  <li class="i1">Gum-tree bugs,
+    <a href="#Page_331">331</a></li>
+
+  <li class="i1"><i>Gymnoplistia bella</i>,
+    <a href="#Page_292">292</a></li>
+
+  <li class="i1">Gypsy moth,
+    <a href="#Page_252">252</a></li>
+
+  <li class="i1">Gyrinidae,
+    <a href="#Page_134">134</a></li>
+
+  <li class="i1">Gyropidae,
+    <a href="#Page_390">390</a></li>
+</ul>
+
+<ul>
+  <li class="i1"><i>Hadena expulsa</i>,
+    <a href="#Page_265">265</a></li>
+
+  <li class="i1">Hairy Flower-wasps,
+    <a href="#Page_102">102</a></li>
+
+  <li class="i1">Hair-streaks,
+    <a href="#Page_219">219</a></li>
+
+  <li class="i1"><i>Halictus floralis</i>,
+    <a href="#Page_116">116</a></li>
+
+  <li class="i1"><i>Halictus bicingulatus</i>,
+    <a href="#Page_116">116</a></li>
+
+  <li class="i1"><i>Halobates whiteleggi</i>,
+    <a href="#Page_338">338</a></li>
+
+  <li class="i1">Halticides,
+    <a href="#Page_204">204</a></li>
+
+  <li class="i1"><i>Haplonyx centralis</i>,
+    <a href="#Page_188">188</a></li>
+
+  <li class="i1">Harpactorinae,
+    <a href="#Page_340">340</a></li>
+
+  <li class="i1">Harpalus,
+    <a href="#Page_131">131</a></li>
+
+  <li class="i1"><i>Hasora hurama</i>,
+    <a href="#Page_229">229</a></li>
+
+  <li class="i1"><i>Hasora discolor</i>,
+    <a href="#Page_229">229</a></li>
+
+  <li class="i1">Hatchet-bodied wasp,
+    <a href="#Page_88">88</a></li>
+
+  <li class="i1"><i>Havinthus depressus</i>,
+    <a href="#Page_340">340</a></li>
+
+  <li class="i1"><i>Havinthus rufovarius</i>,
+    <a href="#Page_340">340</a></li>
+
+  <li class="i1">Hawk moths,
+    <a href="#Page_236">236</a></li>
+
+  <li class="i1"><i>Hebecerus australis</i>,
+    <a href="#Page_198">198</a></li>
+
+  <li class="i1"><i>Hebecerus crocogaster</i>,
+    <a href="#Page_198">198</a></li>
+
+  <li class="i1"><i>Hebecerus marginicollis</i>,
+    <a href="#Page_198">198</a></li>
+
+  <li class="i1"><i>Hectarthrum brevifossum</i>,
+    <a href="#Page_146">146</a></li>
+
+  <li class="i1"><i>Hecatesia fenestrata</i>,
+    <a href="#Page_235">235</a></li>
+
+  <li class="i1"><i>Helaeus subserratus</i>,
+    <a href="#Page_173">173</a></li>
+
+  <li class="i1"><i>Heliocausta hemitelis</i>,
+    <a href="#Page_279">279</a></li>
+
+  <li class="i1"><i>Heliothis armigera</i>,
+    <a href="#Page_265">265</a></li>
+
+  <li class="i1"><i>Heliothrips haemorrphoidalis</i>,
+    <a href="#Page_393">393</a></li>
+
+  <li class="i1">Helonotus,
+    <a href="#Page_341">341</a></li>
+
+  <li class="i1"><i>Helophilus bengalensis</i>,
+    <a href="#Page_303">303</a></li>
+
+  <li class="i1"><i>Helophilus griseus</i>,
+    <a href="#Page_303">303</a></li>
+
+  <li class="i1"><i>Helluo costatus</i>,
+    <a href="#Page_127">127</a>,
+    <a href="#Page_128">128</a></li>
+
+  <li class="i1"><i>Hemaris kingi</i>,
+    <a href="#Page_237">237</a></li>
+
+  <li class="i1"><i>Hemaris hylas</i>,
+    <a href="#Page_237">237</a></li>
+
+  <li class="i1"><i>Hemaris janus</i>,
+    <a href="#Page_237">237</a></li>
+
+  <li class="i1">Hemerobiidae,
+    <a href="#Page_47">47</a>,
+    <a href="#Page_57">57</a></li>
+
+  <li class="i1">Hemerobiides,
+    <a href="#Page_59">59</a></li>
+
+  <li class="i1"><i>Hemianax papuensis</i>,
+    <a href="#Page_53">53</a></li>
+
+  <li class="i1">Hemimeridae,
+    <a href="#Page_14">14</a></li>
+
+  <li class="i1">Hemiptera,
+    <a href="#Page_32">32</a></li>
+
+  <li class="i1">Henicocephalidae,
+    <a href="#Page_338">338</a></li>
+
+  <li class="i1"><i>Henicocephalus tasmanicus</i>,
+    <a href="#Page_338">338</a></li>
+
+  <li class="i1"><i>Henicopsaltria eydouxi</i>,
+    <a href="#Page_350">350</a>,
+    <a href="#Page_351">351</a></li>
+
+  <li class="i1"><i>Henicopsaltria fullo</i>,
+    <a href="#Page_350">350</a></li>
+
+  <li class="i1">Hepialidae,
+    <a href="#Page_239">239</a></li>
+
+  <li class="i1"><i>Hepialus australasiae</i>,
+    <a href="#Page_240">240</a></li>
+
+  <li class="i1"><i>Hepialus lewini</i>,
+    <a href="#Page_240">240</a></li>
+
+  <li class="i1"><i>Hepialus exima</i>,
+    <a href="#Page_241">241</a></li>
+
+  <li class="i1"><i>Hepialus ramseyi</i>,
+    <a href="#Page_241">241</a></li>
+
+  <li class="i1"><i>Hermatobates haddeni</i>,
+    <a href="#Page_338">338</a></li>
+
+  <li class="i1">Hesperidae,
+    <a href="#Page_227">227</a></li>
+
+  <li class="i1"><i>Hesperilla picta</i>,
+    <a href="#Page_227">227</a></li>
+
+  <li class="i1"><i>Hesperilla ornata</i>,
+    <a href="#Page_228">228</a></li>
+
+  <li class="i1">Hessian fly,
+    <a href="#Page_286">286</a></li>
+
+  <li class="i1"><i>Hesthesis cingulata</i>,
+    <a href="#Page_194">194</a></li>
+
+  <li class="i1"><i>Hesthesis ferruginea</i>,
+    <a href="#Page_194">194</a></li>
+
+  <li class="i1"><i>Hesthesis vigilans</i>,
+    <a href="#Page_194">194</a></li>
+
+  <li class="i1"><i>Hestiochora bicolor</i>,
+    <a href="#Page_236">236</a></li>
+
+  <li class="i1">Heterocera,
+    <a href="#Page_212">212</a>,
+    <a href="#Page_230">230</a></li>
+
+  <li class="i1">Heterocerus,
+    <a href="#Page_151">151</a></li>
+
+  <li class="i1">Heteroceridae,
+    <a href="#Page_151">151</a></li>
+
+  <li class="i1">Heteromera,
+    <a href="#Page_144">144</a></li>
+
+  <li class="i1"><i>Heterodoxus macropus</i>,
+    <a href="#Page_390">390</a>,
+    <a href="#Page_391">391</a></li>
+
+  <li class="i1"><i>Heterognathus carinatus</i>,
+    <a href="#Page_140">140</a></li>
+
+  <li class="i1"><i>Heteronympha merope</i>,
+    <a href="#Page_218">218</a></li>
+
+  <li class="i1"><i>Heteronympha mirifica</i>,
+    <a href="#Page_218">218</a></li>
+
+  <li class="i1">Heteroptera,
+    <a href="#Page_325">325</a>,
+    <a href="#Page_326">326</a></li>
+
+  <li class="i1"><i>Heteropsyche melanochroma</i>,
+    <a href="#Page_282">282</a></li>
+
+  <li class="i1">Hexham Grey,
+    <a href="#Page_290">290</a></li>
+
+  <li class="i1"><i>Hippobosca equi</i>,
+    <a href="#Page_319">319</a></li>
+
+  <li class="i1">Hippoboscidae,
+    <a href="#Page_319">319</a></li>
+
+  <li class="i1">Hispides,
+    <a href="#Page_206">206</a></li>
+
+  <li class="i1">Histeridae,
+    <a href="#Page_141">141</a></li>
+
+  <li class="i1"><i>Hololepta sidnensis</i>,
+    <a href="#Page_141">141</a></li>
+
+  <li class="i1">Holopetilinae,
+    <a href="#Page_339">339</a></li>
+
+  <li class="i1">Homalosoma,
+    <a href="#Page_131">131</a></li>
+
+  <li class="i1">Homalota,
+    <a href="#Page_136">136</a></li>
+
+  <li class="i1"><i>Homocerus fossulatus</i>,
+    <a href="#Page_180">180</a></li>
+
+  <li class="i1">Homoptera,
+    <a href="#Page_346">346</a>,
+    <a href="#Page_325">325</a></li>
+
+  <li class="i1">Honeypot ants,
+    <a href="#Page_97">97</a></li>
+
+  <li class="i1">Hooktip moth,
+    <a href="#Page_255">255</a></li>
+
+  <li class="i1"><i>Hoplastinus viridipennis</i>,
+    <a href="#Page_205">205</a></li>
+
+  <li class="i1"><i>Hormomyia omalanthi</i>,
+    <a href="#Page_286">286</a></li>
+
+  <li class="i1">Horned butterfly,
+    <a href="#Page_219">219</a></li>
+
+  <li class="i1">Horse fly,
+    <a href="#Page_294">294</a></li>
+
+  <li class="i1">Horse-stinger,
+    <a href="#Page_51">51</a></li>
+
+  <li class="i1">Host of weevil,
+    <a href="#Page_188">188</a></li>
+
+  <li class="i1">Host of clerids,
+    <a href="#Page_188">188</a></li>
+
+  <li class="i1">Host of Megalyra,
+    <a href="#Page_90">90</a></li>
+
+  <li class="i1">House fly,
+    <a href="#Page_315">315</a></li>
+
+  <li class="i1">Hover fly,
+    <a href="#Page_302">302</a></li>
+
+  <li class="i1">Hummingbird beetle,
+    <a href="#Page_237">237</a></li>
+
+  <li class="i1">Hunting beetle,
+    <a href="#Page_168">168</a></li>
+
+  <li class="i1"><i>Hyalopteryx australis</i>,
+    <a href="#Page_42">42</a></li>
+
+  <li class="i1"><i>Hydrometra strigosa</i>,
+    <a href="#Page_338">338</a></li>
+
+  <li class="i1">Hydrometridae,
+    <a href="#Page_337">337</a></li>
+
+  <li class="i1">Hydrophilidae,
+    <a href="#Page_135">135</a></li>
+
+  <li class="i1"><i>Hydrophilus albipes</i>,
+    <a href="#Page_136">136</a></li>
+
+  <li class="i1"><i>Hydrophilus latipalpus</i>,
+    <a href="#Page_136">136</a></li>
+
+  <li class="i1"><i>Hydroporus collaris</i>,
+    <a href="#Page_133">133</a></li>
+
+  <li class="i1">Hydrusa,
+    <a href="#Page_235">235</a></li>
+
+  <li class="i1"><i>Hylaeoides concinnus</i>,
+    <a href="#Page_115">115</a></li>
+
+  <li class="i1"><i>Hylesinus fici</i>,
+    <a href="#Page_178">178</a></li>
+
+  <li class="i1"><i>Hylesinus porcatus</i>,
+    <a href="#Page_178">178</a></li>
+
+  <li class="i1">Hymenoptera,
+    <a href="#Page_68">68</a></li>
+
+  <li class="i1"><i>Hypaulax tenuistriata</i>,
+    <a href="#Page_174">174</a></li>
+
+  <li class="i1"><i>Hyperion schroetteri</i>,
+    <a href="#Page_127">127</a>,
+    <a href="#Page_129">129</a></li>
+
+  <li class="i1">Hypoderma,
+    <a href="#Page_317">317</a></li>
+
+  <li class="i1"><i>Hypodiranchris aphidis</i>,
+    <a href="#Page_74">74</a></li>
+
+  <li class="i1"><i>Hypolimnas bolina</i>,
+    <a href="#Page_217">217</a></li>
+
+  <li class="i1">Hypsidae,
+    <a href="#Page_250">250</a></li>
+</ul>
+
+
+<ul>
+  <li class="i1"><i>Ialmenus evagoras</i>,
+    <a href="#Page_221">221</a></li>
+
+  <li class="i1"><i>Ialmenus ictinus</i>,
+    <a href="#Page_222">222</a></li>
+
+  <li class="i1"><i>Ialmenus myrsilius</i>,
+    <a href="#Page_222">222</a></li>
+
+  <li class="i1">Icaria,
+    <a href="#Page_112">112</a></li>
+
+  <li class="i1"><i>Icaria gregaria</i>,
+    <a href="#Page_113">113</a></li>
+
+  <li class="i1"><i>Icerya purchasi</i>,
+    <a href="#Page_77">77</a>,
+    <a href="#Page_210">210</a>,
+    <a href="#Page_375">375</a>,
+    <a href="#Page_379">379</a></li>
+
+  <li class="i1"><i>Icerya rosae</i>,
+    <a href="#Page_385">385</a></li>
+
+  <li class="i1">Ichneumonidae,
+    <a href="#Page_83">83</a></li>
+
+  <li class="i1"><i>Idarnis australis</i>,
+    <a href="#Page_78">78</a></li>
+
+  <li class="i1">Idiococciinae,
+    <a href="#Page_379">379</a></li>
+
+  <li class="i1"><i>Idolothrips spectrum</i>,
+    <a href="#Page_393">393</a></li>
+
+  <li class="i1">Imperial Blue,
+    <a href="#Page_221">221</a></li>
+
+  <li class="i1">Imperial Swallowtail,
+    <a href="#Page_226">226</a></li>
+
+  <li class="i1">Inchmen Ants,
+    <a href="#Page_92">92</a></li>
+
+  <li class="i1">Indian-meal moth,
+    <a href="#Page_274">274</a></li>
+
+  <li class="i1"><i>Inglisia foraminifer</i>,
+    <a href="#Page_375">375</a></li>
+
+  <li class="i1"><i>Inglisia fossilis</i>,
+    <a href="#Page_375">375</a></li>
+
+  <li class="i1">Insecta,
+    <a href="#Page_1">1</a></li>
+
+  <li class="i1">Inqualines,
+    <a href="#Page_73">73</a></li>
+
+  <li class="i1"><i>Iotherium metallicum</i>,
+    <a href="#Page_191">191</a></li>
+
+  <li class="i1"><i>Iridomyrmex detectus</i>,
+    <a href="#Page_93">93</a>,
+    <a href="#Page_95">95</a></li>
+
+  <li class="i1"><i>Iridomyrmex nitidus</i> (beetles in nest of),
+    <a href="#Page_140">140</a></li>
+
+  <li class="i1"><i>Iridomyrmex rufoniger</i>,
+    <a href="#Page_96">96</a></li>
+
+  <li class="i1"><i>Iridomyrmex domesticus</i>,
+    <a href="#Page_96">96</a></li>
+
+  <li class="i1"><i>Iridomyrmex sanguineus</i>,
+    <a href="#Page_96">96</a></li>
+
+  <li class="i1">Ironbark beetle,
+    <a href="#Page_173">173</a></li>
+
+  <li class="i1">Ischnocera,
+    <a href="#Page_390">390</a></li>
+
+  <li class="i1"><i>Ischnura delicata</i>,
+    <a href="#Page_54">54</a></li>
+
+  <li class="i1"><i>Ischnura heterosticta</i>,
+    <a href="#Page_53">53</a></li>
+
+  <li class="i1"><i>Ithystenus hollandiae</i>,
+    <a href="#Page_180">180</a></li>
+</ul>
+
+<ul>
+  <li class="i1">Jassidae,
+    <a href="#Page_82">82</a>,
+    <a href="#Page_360">360</a></li>
+
+  <li class="i1">Jassid, forming web,
+    <a href="#Page_361">361</a></li>
+
+  <li class="i1">Jewel beetle,
+    <a href="#Page_162">162</a></li>
+
+  <li class="i1"><i>Julodimorpha bakewelli</i>,
+    <a href="#Page_163">163</a></li>
+
+  <li class="i1">Jumper ant,
+    <a href="#Page_92">92</a></li>
+
+  <li class="i1"><i>Junonia villida</i>,
+    <a href="#Page_216">216</a></li>
+
+  <li class="i1"><i>Junonia albi-cincta</i>,
+    <a href="#Page_216">216</a></li>
+</ul>
+
+<ul>
+  <li class="i1">Kangaroo beetle,
+    <a href="#Page_201">201</a></li>
+
+  <li class="i1">Killing bottle,
+    <a href="#Page_397">397</a></li>
+
+  <li class="i1">King beetle,
+    <a href="#Page_158">158</a></li>
+
+  <li class="i1"><i>Kladothrips rugosus</i>,
+    <a href="#Page_394">394</a></li>
+
+  <li class="i1">Klinophilos,
+    <a href="#Page_341">341</a></li>
+
+  <li class="i1">Kurrajong weevils,
+    <a href="#Page_189">189</a></li>
+</ul>
+
+<ul>
+  <li class="i1">Labelling,
+    <a href="#Page_406">406</a></li>
+
+  <li class="i1"><i>Labia grandis</i>,
+    <a href="#Page_16">16</a></li>
+
+  <li class="i1"><i>Labidura riparia</i>,
+    <a href="#Page_15">15</a></li>
+
+  <li class="i1"><i>Labidura truncata</i>,
+    <a href="#Page_16">16</a></li>
+
+  <li class="i1">Lace bugs,
+    <a href="#Page_336">336</a></li>
+
+  <li class="i1">Lace-wings,
+    <a href="#Page_57">57</a></li>
+
+  <li class="i1">Lace-winged insects,
+    <a href="#Page_49">49</a></li>
+
+  <li class="i1">Lac insects,
+    <a href="#Page_378">378</a></li>
+
+  <li class="i1"><i>Lacon caliginosus</i>,
+    <a href="#Page_166">166</a></li>
+
+  <li class="i1">Lady-bird beetles,
+    <a href="#Page_207">207</a></li>
+
+  <li class="i1"><i>Laemossacus electilis</i>,
+    <a href="#Page_188">188</a></li>
+
+  <li class="i1"><i>Lagria grandis</i>,
+    <a href="#Page_175">175</a></li>
+
+  <li class="i1">Lagriidae,
+    <a href="#Page_175">175</a></li>
+
+  <li class="i1">Lamiinae,
+    <a href="#Page_196">196</a></li>
+
+  <li class="i1">Lamp collecting,
+    <a href="#Page_403">403</a></li>
+
+  <li class="i1"><i>Lamprima insularis</i>,
+    <a href="#Page_152">152</a></li>
+
+  <li class="i1"><i>Lamprima latreillei</i>,
+    <a href="#Page_152">152</a></li>
+
+  <li class="i1"><i>Lamprima rutilans</i>,
+    <a href="#Page_152">152</a></li>
+
+  <li class="i1"><i>Lamprocolletes plumosus</i>,
+    <a href="#Page_115">115</a></li>
+
+  <li class="i1"><i>Lamprogaster laeta</i>,
+    <a href="#Page_308">308</a></li>
+
+  <li class="i1"><i>Lamprolina perplexa</i>,
+    <a href="#Page_203">203</a></li>
+
+  <li class="i1">Lampyridae,
+    <a href="#Page_9">9</a></li>
+
+  <li class="i1">Lampyrides,
+    <a href="#Page_167">167</a></li>
+
+  <li class="i1">Lance-headed grasshopper,
+    <a href="#Page_47">47</a></li>
+
+  <li class="i1">Lantern fly,
+    <a href="#Page_358">358</a></li>
+
+  <li class="i1"><i>Laphria diversipes</i>,
+    <a href="#Page_299">299</a></li>
+
+  <li class="i1"><i>Laphria rufifemorata</i>,
+    <a href="#Page_299">299</a></li>
+
+  <li class="i1">Large green leaf grasshopper,
+    <a href="#Page_47">47</a></li>
+
+  <li class="i1">Large plague locust,
+    <a href="#Page_42">42</a></li>
+
+  <li class="i1">Large parasitic wasp,
+    <a href="#Page_83">83</a></li>
+
+  <li class="i1">Larginae,
+    <a href="#Page_335">335</a></li>
+
+  <li class="i1">Larrides,
+    <a href="#Page_108">108</a></li>
+
+  <li class="i1"><i>Lasioderma serricorne</i>,
+    <a href="#Page_169">169</a></li>
+
+  <li class="i1"><i>Lasiopsylla rotundipennis</i>,
+    <a href="#Page_363">363</a></li>
+
+  <li class="i1"><i>Lasioptera miscella</i>,
+    <a href="#Page_286">286</a></li>
+
+  <li class="i1">Lathradidae,
+    <a href="#Page_148">148</a></li>
+
+  <li class="i1"><i>Latumcephalum macropus</i>,
+    <a href="#Page_391">391</a></li>
+
+  <li class="i1">Leaf Hoppers,
+    <a href="#Page_360">360</a>,
+    <a href="#Page_366">366</a></li>
+
+  <li class="i1">Leaf case-moth,
+    <a href="#Page_245">245</a></li>
+
+  <li class="i1">Leaf bugs,
+    <a href="#Page_341">341</a></li>
+
+  <li class="i1">Leaf Rollers,
+    <a href="#Page_268">268</a></li>
+
+  <li class="i1">Leaf-mining fly,
+    <a href="#Page_305">305</a></li>
+
+  <li class="i1">Lecaniinae,
+    <a href="#Page_374">374</a></li>
+
+  <li class="i1"><i>Lecanium mirificum</i>,
+    <a href="#Page_376">376</a></li>
+
+  <li class="i1"><i>Lecanium patersonia</i>,
+    <a href="#Page_376">376</a></li>
+
+  <li class="i1"><i>Lecanium tesselatum</i>,
+    <a href="#Page_376">376</a></li>
+
+  <li class="i1"><i>Lecanium scrobiculata</i>,
+    <a href="#Page_376">376</a></li>
+
+  <li class="i1">Ledra,
+    <a href="#Page_360">360</a></li>
+
+  <li class="i1"><i>Leis conformis</i>,
+    <a href="#Page_208">208</a></li>
+
+  <li class="i1"><i>Lemidia hilaris</i>,
+    <a href="#Page_169">169</a></li>
+
+  <li class="i1"><i>Lemodes coccinea</i>,
+    <a href="#Page_176">176</a></li>
+
+  <li class="i1"><i>Lemodes splendens</i>,
+    <a href="#Page_176">176</a></li>
+
+  <li class="i1"><i>Leperina decorata</i>,
+    <a href="#Page_145">145</a></li>
+
+  <li class="i1"><i>Lepidoderma albo-hirtum</i>,
+    <a href="#Page_157">157</a></li>
+
+  <li class="i1"><i>Lepidoderma albo-hirtum</i> (parasite of),
+    <a href="#Page_105">105</a></li>
+
+  <li class="i1">Lepidoptera,
+    <a href="#Page_5">5</a>,
+    <a href="#Page_212">212</a></li>
+
+  <li class="i1"><i>Lepisma cursitans</i>,
+    <a href="#Page_12">12</a></li>
+
+  <li class="i1"><i>Lepisma longicaudata</i>,
+    <a href="#Page_12">12</a></li>
+
+  <li class="i1"><i>Lepisma producta</i>,
+    <a href="#Page_12">12</a></li>
+
+  <li class="i1"><i>Lepisma saccharina</i>,
+    <a href="#Page_11">11</a></li>
+
+  <li class="i1"><i>Lepolexis rapae</i>,
+    <a href="#Page_87">87</a></li>
+
+  <li class="i1">Leptidae,
+    <a href="#Page_295">295</a></li>
+
+  <li class="i1"><i>Leptis aequalis</i>,
+    <a href="#Page_296">296</a></li>
+
+  <li class="i1"><i>Leptocerus magnus</i>,
+    <a href="#Page_67">67</a></li>
+
+  <li class="i1"><i>Liptocerus oppositus</i>,
+    <a href="#Page_67">67</a></li>
+
+  <li class="i1"><i>Leptogaster geniculatus</i>,
+    <a href="#Page_299">299</a></li>
+
+  <li class="i1"><i>Leptoglossus membranaceus</i>,
+    <a href="#Page_332">332</a></li>
+
+  <li class="i1"><i>Leptomyrmex erythrocephalus</i>,
+    <a href="#Page_95">95</a></li>
+
+  <li class="i1"><i>Leptops hopei</i>,
+    <a href="#Page_183">183</a></li>
+
+  <li class="i1"><i>Leptops tribulus</i>,
+    <a href="#Page_183">183</a></li>
+
+  <li class="i1">Lerp Insects,
+    <a href="#Page_361">361</a></li>
+
+  <li class="i1"><i>Lestes analis</i>,
+    <a href="#Page_53">53</a></li>
+
+  <li class="i1"><i>Lestis aerata</i>,
+    <a href="#Page_117">117</a></li>
+
+  <li class="i1"><i>Lestis bombylans</i>,
+    <a href="#Page_117">117</a></li>
+
+  <li class="i1"><i>Leto staceyi</i>,
+    <a href="#Page_241">241</a>,
+    <a href="#Page_243">243</a></li>
+
+  <li class="i1"><i>Leucaspis australis</i>,
+    <a href="#Page_75">75</a></li>
+
+  <li class="i1"><i>Leucaspis darlingi</i>,
+    <a href="#Page_75">75</a></li>
+
+  <li class="i1"><i>Leucaspis gigas</i>,
+    <a href="#Page_75">75</a></li>
+
+  <li class="i1">Lewin’s wood-moth,
+    <a href="#Page_240">240</a></li>
+
+  <li class="i1">Libellulidae,
+    <a href="#Page_51">51</a></li>
+
+  <li class="i1"><i>Libythea nicevillei</i>,
+    <a href="#Page_219">219</a></li>
+
+  <li class="i1">Libytheidae,
+    <a href="#Page_219">219</a></li>
+
+  <li class="i1">Light brown Apple Moth,
+    <a href="#Page_275">275</a></li>
+
+  <li class="i1">Light Ermine Moth,
+    <a href="#Page_249">249</a></li>
+
+  <li class="i1">Limacodes,
+    <a href="#Page_84">84</a></li>
+
+  <li class="i1"><i>Limacodes longerans</i>,
+    <a href="#Page_247">247</a></li>
+
+  <li class="i1">Limacodidae,
+    <a href="#Page_246">246</a>,
+    <a href="#Page_282">282</a></li>
+
+  <li class="i1"><i>Limnophora ruficornis</i>,
+    <a href="#Page_312">312</a></li>
+
+  <li class="i1">Liotheidae,
+    <a href="#Page_390">390</a></li>
+
+  <li class="i1"><i>Liparetrus marginipennis</i>,
+    <a href="#Page_157">157</a></li>
+
+  <li class="i1"><i>Liparidae</i>,
+    <a href="#Page_252">252</a></li>
+
+  <li class="i1"><i>Lipeurus giganteum</i>,
+    <a href="#Page_391">391</a></li>
+
+  <li class="i1"><i>Lipeurus menura</i>,
+    <a href="#Page_391">391</a></li>
+
+  <li class="i1"><i>Liphyra brassolis</i>,
+    <a href="#Page_222">222</a></li>
+
+  <li class="i1">Lipura,
+    <a href="#Page_10">10</a></li>
+
+  <li class="i1">Lispe,
+    <a href="#Page_311">311</a></li>
+
+  <li class="i1"><i>Lissapterus howittanus</i>,
+    <a href="#Page_152">152</a></li>
+
+  <li class="i1">Lithosiidae,
+    <a href="#Page_248">248</a></li>
+
+  <li class="i1"><i>Litochrus palmerstoni</i>,
+    <a href="#Page_142">142</a></li>
+
+  <li class="i1">Little Devils,
+    <a href="#Page_356">356</a></li>
+
+  <li class="i1">Liviinae,
+    <a href="#Page_363">363</a></li>
+
+  <li class="i1"><i>Lixus mastersi</i>,
+    <a href="#Page_185">185</a></li>
+
+  <li class="i1"><i>Locusta danica</i>,
+    <a href="#Page_41">41</a></li>
+
+  <li class="i1"><i>Locusta vigentissima</i>,
+    <a href="#Page_47">47</a></li>
+
+  <li class="i1">Locustidae,
+    <a href="#Page_46">46</a></li>
+
+  <li class="i1"><i>Lomaptera cinnamea</i>,
+    <a href="#Page_160">160</a></li>
+
+  <li class="i1"><i>Lomaptera duboulayi</i>,
+    <a href="#Page_160">160</a></li>
+
+  <li class="i1"><i>Lomaptera wallacei</i>,
+    <a href="#Page_160">160</a></li>
+
+  <li class="i1"><i>Lonchaea splendida</i>,
+    <a href="#Page_308">308</a></li>
+
+  <li class="i1">Longicorns,
+    <a href="#Page_190">190</a></li>
+
+  <li class="i1">Long-horned Crane-fly,
+    <a href="#Page_292">292</a></li>
+
+  <li class="i1">Long-horned Locust,
+    <a href="#Page_43">43</a>,
+    <a href="#Page_46">46</a></li>
+
+  <li class="i1">Long-nosed Wattle-moth,
+    <a href="#Page_256">256</a></li>
+
+  <li class="i1">Long-tailed Wasps,
+    <a href="#Page_90">90</a></li>
+
+  <li class="i1">Loopers,
+    <a href="#Page_259">259</a></li>
+
+  <li class="i1"><i>Lophocaters pusillus</i>,
+    <a href="#Page_144">144</a></li>
+
+  <li class="i1"><i>Lophodes sinistraria</i>,
+    <a href="#Page_261">261</a></li>
+
+  <li class="i1">Louse flies,
+    <a href="#Page_319">319</a></li>
+
+  <li class="i1">Lourie’s Ringbarkers,
+    <a href="#Page_37">37</a></li>
+
+  <li class="i1"><i>Lubra spinicornis</i>,
+    <a href="#Page_357">357</a></li>
+
+  <li class="i1">Lucanidae,
+    <a href="#Page_151">151</a></li>
+
+  <li class="i1">Lucerne moth,
+    <a href="#Page_275">275</a></li>
+
+  <li class="i1"><i>Lucia lucanus</i>,
+    <a href="#Page_221">221</a></li>
+
+  <li class="i1"><i>Lucia pyrodiscus</i>,
+    <a href="#Page_221">221</a></li>
+
+  <li class="i1"><i>Lucilia caesar</i>,
+    <a href="#Page_317">317</a></li>
+
+  <li class="i1"><i>Lucilia serricata</i>,
+    <a href="#Page_317">317</a></li>
+
+  <li class="i1"><i>Lucilia tasmaniensis</i>,
+    <a href="#Page_317">317</a></li>
+
+  <li class="i1"><i>Luciola flavicollis</i>,
+    <a href="#Page_168">168</a></li>
+
+  <li class="i1">Lycaenidae,
+    <a href="#Page_219">219</a></li>
+
+  <li class="i1"><i>Lyctus brunneus</i>,
+    <a href="#Page_170">170</a></li>
+
+  <li class="i1">Lygaeidae,
+    <a href="#Page_330">330</a></li>
+
+  <li class="i1">Lygaeninae,
+    <a href="#Page_333">333</a></li>
+
+  <li class="i1"><i>Lygaeus decoratus</i>,
+    <a href="#Page_333">333</a></li>
+
+  <li class="i1"><i>Lygaeus hospes</i>,
+    <a href="#Page_333">333</a></li>
+
+  <li class="i1"><i>Lygaeus mactans</i>,
+    <a href="#Page_333">333</a></li>
+
+  <li class="i1"><i>Lygesis mendica</i>,
+    <a href="#Page_193">193</a>,
+    <a href="#Page_195">195</a></li>
+
+  <li class="i1"><i>Lyomya setioscaudata</i>,
+    <a href="#Page_287">287</a></li>
+</ul>
+
+<ul>
+  <li class="i1">Macleay’s butterfly,
+    <a href="#Page_226">226</a></li>
+
+  <li class="i1">Macleay Museum,
+    <a href="#Page_410">410</a></li>
+
+  <li class="i1"><i>Macrobatha platychroa</i>,
+    <a href="#Page_279">279</a></li>
+
+  <li class="i1">Macroglossa,
+    <a href="#Page_237">237</a></li>
+
+  <li class="i1"><i>Macromastix costalis</i>,
+    <a href="#Page_292">292</a></li>
+
+  <li class="i1"><i>Macrones rufus</i>,
+    <a href="#Page_194">194</a></li>
+
+  <li class="i1"><i>Macrogyrus canaliculatus</i>,
+    <a href="#Page_135">135</a></li>
+
+  <li class="i1"><i>Macrogyrus oblongus</i>,
+    <a href="#Page_135">135</a></li>
+
+  <li class="i1"><i>Macrogyrus paradoxus</i>,
+    <a href="#Page_135">135</a></li>
+
+  <li class="i1"><i>Macropanesthia muelleri</i>,
+    <a href="#Page_19">19</a></li>
+
+  <li class="i1"><i>Macropanesthia rhinoceros</i>,
+    <a href="#Page_19">19</a></li>
+
+  <li class="i1"><i>Macroporus howitti</i>,
+    <a href="#Page_133">133</a></li>
+
+  <li class="i1"><i>Macrosila casuarina</i>,
+    <a href="#Page_238">238</a></li>
+
+  <li class="i1"><i>Macrotoma servilis</i>,
+    <a href="#Page_191">191</a></li>
+
+  <li class="i1"><i>Macrotristia angularis</i>,
+    <a href="#Page_350">350</a></li>
+
+  <li class="i1"><i>Maechidius tibialis</i>,
+    <a href="#Page_156">156</a></li>
+
+  <li class="i1"><i>Maenas salamina</i>,
+    <a href="#Page_267">267</a></li>
+
+  <li class="i1">Magnetic Ant-nest,
+    <a href="#Page_24">24</a></li>
+
+  <li class="i1">Maize moth,
+    <a href="#Page_265">265</a></li>
+
+  <li class="i1">Malacodermidae,
+    <a href="#Page_167">167</a></li>
+
+  <li class="i1">Mallophaga,
+    <a href="#Page_325">325</a>,
+    <a href="#Page_389">389</a></li>
+
+  <li class="i1"><i>Mamestra ewingii</i>,
+    <a href="#Page_266">266</a></li>
+
+  <li class="i1">Manna,
+    <a href="#Page_364">364</a></li>
+
+  <li class="i1">Mantidae,
+    <a href="#Page_14">14</a>,
+    <a href="#Page_31">31</a></li>
+
+  <li class="i1">Mantids,
+    <a href="#Page_31">31</a></li>
+
+  <li class="i1"><i>Mantis carolina</i>,
+    <a href="#Page_31">31</a></li>
+
+  <li class="i1"><i>Mantis religiosa</i>,
+    <a href="#Page_31">31</a></li>
+
+  <li class="i1">Mantispa,
+    <a href="#Page_31">31</a>,
+    <a href="#Page_59">59</a></li>
+
+  <li class="i1">Mantispides,
+    <a href="#Page_59">59</a></li>
+
+  <li class="i1"><i>Mantispa biseriata</i>,
+    <a href="#Page_59">59</a></li>
+
+  <li class="i1"><i>Mantispa strigipes</i>,
+    <a href="#Page_59">59</a></li>
+
+  <li class="i1">March fly,
+    <a href="#Page_294">294</a></li>
+
+  <li class="i1"><i>Margarodes vertonalis</i>,
+    <a href="#Page_269">269</a></li>
+
+  <li class="i1">Masaridae,
+    <a href="#Page_113">113</a></li>
+
+  <li class="i1"><i>Masicera pachytyli</i>,
+    <a href="#Page_315">315</a></li>
+
+  <li class="i1">Mason wasp (parasite on),
+    <a href="#Page_88">88</a></li>
+
+  <li class="i1">Mason wasps,
+    <a href="#Page_110">110</a></li>
+
+  <li class="i1">Mastotermes,
+    <a href="#Page_24">24</a></li>
+
+  <li class="i1"><i>Mastotermes darwiniensis</i>,
+    <a href="#Page_20">20</a>,
+    <a href="#Page_24">24</a></li>
+
+  <li class="i1">May-flies,
+    <a href="#Page_54">54</a></li>
+
+  <li class="i1">Mealworm beetles,
+    <a href="#Page_172">172</a></li>
+
+  <li class="i1">Meat ant,
+    <a href="#Page_95">95</a></li>
+
+  <li class="i1"><i>Mecyna polygonalis</i>,
+    <a href="#Page_271">271</a></li>
+
+  <li class="i1"><i>Mecynodera coxalgica</i>,
+    <a href="#Page_201">201</a></li>
+
+  <li class="i1">Mediterranean Flour Moth,
+    <a href="#Page_273">273</a></li>
+
+  <li class="i1">Mediterranean Fruit Fly,
+    <a href="#Page_308">308</a></li>
+
+  <li class="i1"><i>Megacephala cylindrica</i>,
+    <a href="#Page_124">124</a></li>
+
+  <li class="i1"><i>Megacephala frenchi</i>,
+    <a href="#Page_124">124</a></li>
+
+  <li class="i1"><i>Megachile blackburni</i>,
+    <a href="#Page_118">118</a></li>
+
+  <li class="i1"><i>Megachile chrysopyga</i>,
+    <a href="#Page_119">119</a></li>
+
+  <li class="i1"><i>Megachile monstrosa</i>,
+    <a href="#Page_118">118</a></li>
+
+  <li class="i1"><i>Megachile mystacea</i>,
+    <a href="#Page_118">118</a></li>
+
+  <li class="i1"><i>Megachile pictiventris</i>,
+    <a href="#Page_118">118</a></li>
+
+  <li class="i1">Megalyridae,
+    <a href="#Page_90">90</a></li>
+
+  <li class="i1"><i>Megalyra shuckardi</i>,
+    <a href="#Page_90">90</a></li>
+
+  <li class="i1"><i>Megalyra fasciipennis</i>,
+    <a href="#Page_90">90</a></li>
+
+  <li class="i1"><i>Megalyra melanoptera</i>,
+    <a href="#Page_90">90</a></li>
+
+  <li class="i1">Megastigmus,
+    <a href="#Page_75">75</a></li>
+
+  <li class="i1"><i>Megastigmus brachyscelides</i>,
+    <a href="#Page_76">76</a></li>
+
+  <li class="i1"><i>Megastigmus iamenus</i>,
+    <a href="#Page_76">76</a></li>
+
+  <li class="i1"><i>Megastigmus asteri</i>,
+    <a href="#Page_76">76</a></li>
+
+  <li class="i1"><i>Megastigmus brachychitoni</i>,
+    <a href="#Page_76">76</a>,
+    <a href="#Page_79">79</a></li>
+
+  <li class="i1"><i>Megymenum insulare</i>,
+    <a href="#Page_331">331</a></li>
+
+  <li class="i1"><i>Melampsalta eyrei</i>,
+    <a href="#Page_354">354</a></li>
+
+  <li class="i1"><i>Melampsalta abdominalis</i>,
+    <a href="#Page_353">353</a></li>
+
+  <li class="i1"><i>Melampsalta torrida</i>,
+    <a href="#Page_353">353</a></li>
+
+  <li class="i1">Melipona,
+    <a href="#Page_120">120</a></li>
+
+  <li class="i1">Mellifera,
+    <a href="#Page_114">114</a></li>
+
+  <li class="i1"><i>Melobasis splendida</i>,
+    <a href="#Page_163">163</a></li>
+
+  <li class="i1">Melonthides,
+    <a href="#Page_156">156</a></li>
+
+  <li class="i1"><i>Melophagus ovinus</i>,
+    <a href="#Page_320">320</a></li>
+
+  <li class="i1">Membracidae,
+    <a href="#Page_356">356</a></li>
+
+  <li class="i1"><i>Menopon infumatum</i>,
+    <a href="#Page_390">390</a></li>
+
+  <li class="i1"><i>Menopon menura</i>,
+    <a href="#Page_391">391</a></li>
+
+  <li class="i1"><i>Menopon pallipes</i>,
+    <a href="#Page_390">390</a></li>
+
+  <li class="i1">Meranoplus,
+    <a href="#Page_93">93</a></li>
+
+  <li class="i1"><i>Meranoplus oceanicus</i>,
+    <a href="#Page_94">94</a></li>
+
+  <li class="i1"><i>Meranoplus pubescens</i>,
+    <a href="#Page_94">94</a></li>
+
+  <li class="i1"><i>Merimna atrata</i>,
+    <a href="#Page_160">160</a></li>
+
+  <li class="i1"><i>Mesetia amoena</i>,
+    <a href="#Page_180">180</a></li>
+
+  <li class="i1"><i>Mesostenus albopictus</i>,
+    <a href="#Page_84">84</a></li>
+
+  <li class="i1"><i>Mesostigmodera typica</i>,
+    <a href="#Page_9">9</a></li>
+
+  <li class="i1">Metallic-green fly,
+    <a href="#Page_313">313</a></li>
+
+  <li class="i1"><i>Metriorrhynchus rufipennis</i>,
+    <a href="#Page_167">167</a></li>
+
+  <li class="i1"><i>Metura elongata</i>,
+    <a href="#Page_244">244</a></li>
+
+  <li class="i1"><i>Microbracon thalpocharis</i>,
+    <a href="#Page_87">87</a></li>
+
+  <li class="i1"><i>Microchaetes sphaericus</i>,
+    <a href="#Page_150">150</a></li>
+
+  <li class="i1">Micro-hymenoptera,
+    <a href="#Page_73">73</a>,
+    <a href="#Page_81">81</a></li>
+
+  <li class="i1">Micro-lepidoptera,
+    <a href="#Page_278">278</a></li>
+
+  <li class="i1"><i>Micromus australis</i>,
+    <a href="#Page_66">66</a></li>
+
+  <li class="i1"><i>Micropoecila cincta</i>,
+    <a href="#Page_161">161</a></li>
+
+  <li class="i1"><i>Microtragus mormon</i>,
+    <a href="#Page_196">196</a></li>
+
+  <li class="i1">Mictinae,
+    <a href="#Page_332">332</a></li>
+
+  <li class="i1"><i>Mictis profana</i>,
+    <a href="#Page_332">332</a></li>
+
+  <li class="i1"><i>Miletus delicia</i>,
+    <a href="#Page_220">220</a></li>
+
+  <li class="i1"><i>Miletus ignita</i>,
+    <a href="#Page_220">220</a></li>
+
+  <li class="i1">Millipedes,
+    <a href="#Page_1">1</a></li>
+
+  <li class="i1">Miltogramma,
+    <a href="#Page_312">312</a></li>
+
+  <li class="i1">Mimic Beetles,
+    <a href="#Page_141">141</a></li>
+
+  <li class="i1">Mites,
+    <a href="#Page_1">1</a></li>
+
+  <li class="i1">Monarch,
+    <a href="#Page_214">214</a></li>
+
+  <li class="i1">Mole Cricket,
+    <a href="#Page_48">48</a></li>
+
+  <li class="i1"><i>Monochirus multispinosus</i>,
+    <a href="#Page_206">206</a></li>
+
+  <li class="i1">Monocrepidus,
+    <a href="#Page_167">167</a></li>
+
+  <li class="i1"><i>Monohammus holotephrus</i>,
+    <a href="#Page_197">197</a></li>
+
+  <li class="i1"><i>Monohammus ovinus</i>,
+    <a href="#Page_197">197</a></li>
+
+  <li class="i1"><i>Monolepta rosae</i>,
+    <a href="#Page_205">205</a></li>
+
+  <li class="i1"><i>Monomorium pharaonis</i>,
+    <a href="#Page_94">94</a></li>
+
+  <li class="i1"><i>Monomorium rubriceps</i>,
+    <a href="#Page_94">94</a></li>
+
+  <li class="i1"><i>Mononyx annulipes</i>,
+    <a href="#Page_342">342</a></li>
+
+  <li class="i1">Monophlebiinae,
+    <a href="#Page_379">379</a>,
+    <a href="#Page_383">383</a></li>
+
+  <li class="i1"><i>Monophlebus crawfordi</i>,
+    <a href="#Page_383">383</a>,
+    <a href="#Page_387">387</a></li>
+
+  <li class="i1"><i>Monopseudopsis inscriptus</i>,
+    <a href="#Page_67">67</a></li>
+
+  <li class="i1">Mordellidae,
+    <a href="#Page_176">176</a></li>
+
+  <li class="i1"><i>Mordella leucosticta</i>,
+    <a href="#Page_177">177</a></li>
+
+  <li class="i1"><i>Mordella limbata</i>,
+    <a href="#Page_177">177</a></li>
+
+  <li class="i1"><i>Mosoda anartoides</i>,
+    <a href="#Page_250">250</a></li>
+
+  <li class="i1"><i>Mosoda consolatrix</i>,
+    <a href="#Page_250">250</a></li>
+
+  <li class="i1"><i>Mosoda jocularis</i>,
+    <a href="#Page_250">250</a></li>
+
+  <li class="i1">Mosquitoes,
+    <a href="#Page_288">288</a></li>
+
+  <li class="i1">Moths,
+    <a href="#Page_212">212</a>,
+    <a href="#Page_230">230</a></li>
+
+  <li class="i1">Mottled Yellows,
+    <a href="#Page_223">223</a></li>
+
+  <li class="i1">Mottled Cup-moth,
+    <a href="#Page_247">247</a></li>
+
+  <li class="i1">Mould on insects,
+    <a href="#Page_408">408</a></li>
+
+  <li class="i1">Mound Ant,
+    <a href="#Page_95">95</a></li>
+
+  <li class="i1">Mountain Grasshopper,
+    <a href="#Page_46">46</a></li>
+
+  <li class="i1">Mounting insects,
+    <a href="#Page_404">404</a></li>
+
+  <li class="i1">Mouse flea,
+    <a href="#Page_323">323</a></li>
+
+  <li class="i1"><i>Mucidus alternans</i>,
+    <a href="#Page_290">290</a></li>
+
+  <li class="i1">Mud Daubers,
+    <a href="#Page_107">107</a>,
+    <a href="#Page_110">110</a></li>
+
+  <li class="i1">Mud nest wasps,
+    <a href="#Page_107">107</a>,
+    <a href="#Page_108">108</a>,
+    <a href="#Page_111">111</a></li>
+
+  <li class="i1"><i>Musca corvina</i>,
+    <a href="#Page_316">316</a></li>
+
+  <li class="i1"><i>Musca domestica</i>,
+    <a href="#Page_315">315</a></li>
+
+  <li class="i1">Muscidae,
+    <a href="#Page_315">315</a></li>
+
+  <li class="i1"><i>Muscidae acalyptrata</i>,
+    <a href="#Page_305">305</a></li>
+
+  <li class="i1">Museum collections,
+    <a href="#Page_409">409</a></li>
+
+  <li class="i1">Museum beetles,
+    <a href="#Page_149">149</a></li>
+
+  <li class="i1">Musical apparatus of cicada,
+    <a href="#Page_347">347</a></li>
+
+  <li class="i1"><i>Mutilla cordata</i>,
+    <a href="#Page_99">99</a></li>
+
+  <li class="i1"><i>Mutilla ferruginata</i>,
+    <a href="#Page_100">100</a></li>
+
+  <li class="i1"><i>Mutilla quadrisignata</i>,
+    <a href="#Page_100">100</a></li>
+
+  <li class="i1"><i>Mutilla rugicollis</i>,
+    <a href="#Page_99">99</a></li>
+
+  <li class="i1">Mutillidae,
+    <a href="#Page_5">5</a>,
+    <a href="#Page_68">68</a>,
+    <a href="#Page_98">98</a></li>
+
+  <li class="i1"><i>Mutusca brevicornis</i>,
+    <a href="#Page_332">332</a></li>
+
+  <li class="i1"><i>Mycalesis terminus</i>,
+    <a href="#Page_218">218</a></li>
+
+  <li class="i1">Mycetophagidae,
+    <a href="#Page_148">148</a>,
+    <a href="#Page_287">287</a></li>
+
+  <li class="i1">Mycetophilidae,
+    <a href="#Page_287">287</a></li>
+
+  <li class="i1"><i>Mycopsylla fici</i>,
+    <a href="#Page_365">365</a></li>
+
+  <li class="i1">Mydas flies,
+    <a href="#Page_298">298</a></li>
+
+  <li class="i1"><i>Mydas fulvipennis</i>,
+    <a href="#Page_298">298</a></li>
+
+  <li class="i1">Mydaidae,
+    <a href="#Page_298">298</a></li>
+
+  <li class="i1"><i>Myllocerus carinatus</i>,
+    <a href="#Page_182">182</a></li>
+
+  <li class="i1"><i>Myocera longipes</i>,
+    <a href="#Page_314">314</a></li>
+
+  <li class="i1">Myriapoda,
+    <a href="#Page_1">1</a></li>
+
+  <li class="i1"><i>Myrmacicelus formicarius</i>,
+    <a href="#Page_187">187</a>,
+    <a href="#Page_188">188</a></li>
+
+  <li class="i1">Mymaridae,
+    <a href="#Page_79">79</a></li>
+
+  <li class="i1">Mymarinae,
+    <a href="#Page_81">81</a></li>
+
+  <li class="i1"><i>Myrmecia albo-cincta</i>,
+    <a href="#Page_92">92</a></li>
+
+  <li class="i1"><i>Myrmecia forficata</i>,
+    <a href="#Page_92">92</a></li>
+
+  <li class="i1"><i>Myrmecia gulosa</i>,
+    <a href="#Page_92">92</a></li>
+
+  <li class="i1"><i>Myrmecia tarsata</i>,
+    <a href="#Page_92">92</a></li>
+
+  <li class="i1">Myrmeleonides,
+    <a href="#Page_57">57</a></li>
+
+  <li class="i1">Myrmicinae,
+    <a href="#Page_93">93</a></li>
+
+  <li class="i1"><i>Mytilaspis acaciae</i>,
+    <a href="#Page_374">374</a></li>
+
+  <li class="i1"><i>Mytilaspis pomorum</i>,
+    <a href="#Page_374">374</a></li>
+
+  <li class="i1"><i>Mytilaspis striata</i>,
+    <a href="#Page_374">374</a></li>
+
+  <li class="i1"><i>Mytilaspis spinifera</i>,
+    <a href="#Page_374">374</a></li>
+</ul>
+
+<ul>
+  <li class="i1"><i>Nascio parryi</i>,
+    <a href="#Page_163">163</a></li>
+
+  <li class="i1"><i>Natalis porcata</i>,
+    <a href="#Page_168">168</a></li>
+
+  <li class="i1">National Museum,
+    <a href="#Page_413">413</a></li>
+
+  <li class="i1"><i>Necrobia rufipes</i>,
+    <a href="#Page_169">169</a></li>
+
+  <li class="i1"><i>Necrodes osculans</i>,
+    <a href="#Page_140">140</a></li>
+
+  <li class="i1">Nematocera,
+    <a href="#Page_284">284</a></li>
+
+  <li class="i1">Nemobius,
+    <a href="#Page_48">48</a></li>
+
+  <li class="i1">Nemopterides,
+    <a href="#Page_59">59</a></li>
+
+  <li class="i1"><i>Neocalliphora ochracea</i>,
+    <a href="#Page_316">316</a></li>
+
+  <li class="i1"><i>Neoexaireta spinigera</i>,
+    <a href="#Page_293">293</a></li>
+
+  <li class="i1"><i>Nepa tristis</i>,
+    <a href="#Page_343">343</a></li>
+
+  <li class="i1"><i>Nepidae</i>,
+    <a href="#Page_343">343</a></li>
+
+  <li class="i1"><i>Neptis shepherdi</i>,
+    <a href="#Page_217">217</a></li>
+
+  <li class="i1"><i>Nerius inermis</i>,
+    <a href="#Page_310">310</a></li>
+
+  <li class="i1"><i>Nerius lineolatus</i>,
+    <a href="#Page_310">310</a></li>
+
+  <li class="i1"><i>Netrocoryne repanda</i>,
+    <a href="#Page_227">227</a></li>
+
+  <li class="i1"><i>Neuria quadripennis</i>,
+    <a href="#Page_297">297</a></li>
+
+  <li class="i1">Neuroptera,
+    <a href="#Page_49">49</a></li>
+
+  <li class="i1">Night collecting,
+    <a href="#Page_403">403</a></li>
+
+  <li class="i1"><i>Nirmus menura</i>,
+    <a href="#Page_391">391</a></li>
+
+  <li class="i1"><i>Nisotra submetallica</i>,
+    <a href="#Page_204">204</a></li>
+
+  <li class="i1">Nitidulidae,
+    <a href="#Page_143">143</a></li>
+
+  <li class="i1">Noctuidae,
+    <a href="#Page_262">262</a></li>
+
+  <li class="i1"><i>Nola metallopa</i>,
+    <a href="#Page_250">250</a>,
+    <a href="#Page_251">251</a></li>
+
+  <li class="i1"><i>Nomia australica</i>,
+    <a href="#Page_116">116</a></li>
+
+  <li class="i1"><i>Notarcha clytalis</i>,
+    <a href="#Page_270">270</a></li>
+
+  <li class="i1"><i>Notius depressus</i>,
+    <a href="#Page_329">329</a></li>
+
+  <li class="i1">Notodontidae,
+    <a href="#Page_257">257</a></li>
+
+  <li class="i1"><i>Notonomus australasiae</i>,
+    <a href="#Page_132">132</a></li>
+
+  <li class="i1">Notonectidae,
+    <a href="#Page_344">344</a></li>
+
+  <li class="i1"><i>Novius cardinalis</i>,
+    <a href="#Page_210">210</a></li>
+
+  <li class="i1">Numbering specimens,
+    <a href="#Page_406">406</a></li>
+
+  <li class="i1"><i>Nyctalemon orontes</i>,
+    <a href="#Page_232">232</a>,
+    <a href="#Page_254">254</a></li>
+
+  <li class="i1"><i>Nycteribia pteropus</i>,
+    <a href="#Page_321">321</a></li>
+
+  <li class="i1">Nycteribiidae,
+    <a href="#Page_321">321</a></li>
+
+  <li class="i1"><i>Nyctemera amica</i>,
+    <a href="#Page_250">250</a></li>
+
+  <li class="i1">Nymphalidae,
+    <a href="#Page_214">214</a></li>
+
+  <li class="i1">Nymphalinae,
+    <a href="#Page_215">215</a></li>
+
+  <li class="i1"><i>Nymphes myrmeleonides</i>,
+    <a href="#Page_61">61</a></li>
+
+  <li class="i1"><i>Nysius vinitor</i>,
+    <a href="#Page_334">334</a></li>
+
+  <li class="i1">Nyssonides,
+    <a href="#Page_108">108</a></li>
+</ul>
+
+<ul>
+  <li class="i1"><i>Ocinara lewinae</i>,
+    <a href="#Page_255">255</a></li>
+
+  <li class="i1"><i>Ocystola hamicalypta</i>,
+    <a href="#Page_279">279</a></li>
+
+  <li class="i1">Odonata,
+    <a href="#Page_51">51</a></li>
+
+  <li class="i1"><i>Odonestes australasiae</i>,
+    <a href="#Page_256">256</a></li>
+
+  <li class="i1"><i>Odontomachus ruficeps</i>,
+    <a href="#Page_93">93</a></li>
+
+  <li class="i1"><i>Odontomyia stylata</i>,
+    <a href="#Page_294">294</a></li>
+
+  <li class="i1">Odynerus, Mimic of,
+    <a href="#Page_116">116</a>,
+    <a href="#Page_304">304</a></li>
+
+  <li class="i1">Odynerus, Parasite on,
+    <a href="#Page_88">88</a></li>
+
+  <li class="i1"><i>Odynerus bicolor</i>,
+    <a href="#Page_111">111</a></li>
+
+  <li class="i1"><i>Odynerus nigro-cinctus</i>,
+    <a href="#Page_112">112</a></li>
+
+  <li class="i1"><i>Oechalia schellembergi</i>,
+    <a href="#Page_330">330</a></li>
+
+  <li class="i1">Oecophoridae,
+    <a href="#Page_278">278</a></li>
+
+  <li class="i1"><i>Oecophylla smaragdina</i>,
+    <a href="#Page_96">96</a></li>
+
+  <li class="i1"><i>Oedaleus senegalensis</i>,
+    <a href="#Page_41">41</a></li>
+
+  <li class="i1">Oedemeridae,
+    <a href="#Page_177">177</a></li>
+
+  <li class="i1">Oestridae,
+    <a href="#Page_317">317</a></li>
+
+  <li class="i1"><i>Oestrus ovis</i>,
+    <a href="#Page_319">319</a></li>
+
+  <li class="i1"><i>Ogyris abrota</i>,
+    <a href="#Page_221">221</a></li>
+
+  <li class="i1">Oiketicus,
+    <a href="#Page_244">244</a></li>
+
+  <li class="i1">Oil beetle,
+    <a href="#Page_177">177</a></li>
+
+  <li class="i1"><i>Olfersia macleayi</i>,
+    <a href="#Page_320">320</a></li>
+
+  <li class="i1"><i>Oligotoma agilis</i>,
+    <a href="#Page_29">29</a></li>
+
+  <li class="i1"><i>Oligotoma gurneyi</i>,
+    <a href="#Page_29">29</a></li>
+
+  <li class="i1">Olive-tree bug,
+    <a href="#Page_336">336</a></li>
+
+  <li class="i1"><i>Oncomeris flavicornis</i>,
+    <a href="#Page_331">331</a></li>
+
+  <li class="i1"><i>Oncopeltus quadriguttatus</i>,
+    <a href="#Page_333">333</a></li>
+
+  <li class="i1"><i>Oncopeltus sordidus</i>,
+    <a href="#Page_334">334</a></li>
+
+  <li class="i1"><i>Oncophysa versiculata</i>,
+    <a href="#Page_336">336</a></li>
+
+  <li class="i1"><i>Onthophagus cuniculus</i>,
+    <a href="#Page_154">154</a></li>
+
+  <li class="i1"><i>Onthophagus granulatus</i>,
+    <a href="#Page_154">154</a></li>
+
+  <li class="i1"><i>Onthophagus kershawi</i>,
+    <a href="#Page_154">154</a></li>
+
+  <li class="i1"><i>Onthophagus pentacanthus</i>,
+    <a href="#Page_154">154</a></li>
+
+  <li class="i1"><i>Onthophagus rufosignatus</i>,
+    <a href="#Page_154">154</a></li>
+
+  <li class="i1">Onychophora,
+    <a href="#Page_1">1</a></li>
+
+  <li class="i1"><i>Ootetrastichus beatus</i>,
+    <a href="#Page_79">79</a></li>
+
+  <li class="i1"><i>Ophelosia crawfordi</i>,
+    <a href="#Page_82">82</a></li>
+
+  <li class="i1">Ophiderinae,
+    <a href="#Page_267">267</a></li>
+
+  <li class="i1"><i>Ophidius histrio</i>,
+    <a href="#Page_167">167</a></li>
+
+  <li class="i1">Ophion,
+    <a href="#Page_84">84</a></li>
+
+  <li class="i1">Ophioninae,
+    <a href="#Page_84">84</a></li>
+
+  <li class="i1"><i>Ophyra analis</i>,
+    <a href="#Page_311">311</a></li>
+
+  <li class="i1"><i>Ophyra nigra</i>,
+    <a href="#Page_311">311</a></li>
+
+  <li class="i1"><i>Opisthoscelis spinosa</i>,
+    <a href="#Page_383">383</a></li>
+
+  <li class="i1"><i>Opisthoscelis subrotunda</i>,
+    <a href="#Page_382">382</a></li>
+
+  <li class="i1"><i>Opistoplatys australasiae</i>,
+    <a href="#Page_339">339</a></li>
+
+  <li class="i1">Orange-piercing moth,
+    <a href="#Page_267">267</a></li>
+
+  <li class="i1"><i>Orcus chalybeus</i>,
+    <a href="#Page_210">210</a></li>
+
+  <li class="i1"><i>Orcus bilunulatus</i>,
+    <a href="#Page_210">210</a></li>
+
+  <li class="i1"><i>Orcus australasiae</i>,
+    <a href="#Page_210">210</a></li>
+
+  <li class="i1"><i>Ornithoctona nigricans</i>,
+    <a href="#Page_321">321</a></li>
+
+  <li class="i1"><i>Ornithomyia perfuga</i>,
+    <a href="#Page_321">321</a></li>
+
+  <li class="i1"><i>Ornithomyia stipituri</i>,
+    <a href="#Page_321">321</a></li>
+
+  <li class="i1">Ornithoptera,
+    <a href="#Page_225">225</a></li>
+
+  <li class="i1"><i>Ornithoptera richmondia</i>,
+    <a href="#Page_225">225</a></li>
+
+  <li class="i1"><i>Ornithoptera (Cassandra) euphorion</i>,
+    <a href="#Page_225">225</a></li>
+
+  <li class="i1">Ortalidae,
+    <a href="#Page_308">308</a></li>
+
+  <li class="i1"><i>Ortalis coerulea</i>,
+    <a href="#Page_308">308</a></li>
+
+  <li class="i1"><i>Orthetrum nigrifrons</i>,
+    <a href="#Page_53">53</a></li>
+
+  <li class="i1"><i>Orthetrum villosovittatum</i>,
+    <a href="#Page_53">53</a></li>
+
+  <li class="i1"><i>Orthodera ministralis</i>,
+    <a href="#Page_32">32</a></li>
+
+  <li class="i1"><i>Orthodera prasina</i>,
+    <a href="#Page_32">32</a></li>
+
+  <li class="i1">Ortholfersia,
+    <a href="#Page_320">320</a>,
+    <a href="#Page_321">321</a></li>
+
+  <li class="i1">Orthoptera,
+    <a href="#Page_2">2</a>,
+    <a href="#Page_13">13</a></li>
+
+  <li class="i1"><i>Orthoprosopa nigra</i>,
+    <a href="#Page_303">303</a></li>
+
+  <li class="i1"><i>Orthorrhinus klugi</i>,
+    <a href="#Page_186">186</a></li>
+
+  <li class="i1"><i>Orthorrhinus cylindrirostris</i>,
+    <a href="#Page_186">186</a></li>
+
+  <li class="i1"><i>Oryctes barbarossa</i>,
+    <a href="#Page_159">159</a></li>
+
+  <li class="i1">Oryssida,
+    <a href="#Page_70">70</a></li>
+
+  <li class="i1">Oryssus,
+    <a href="#Page_70">70</a></li>
+
+  <li class="i1"><i>Oryssus queenslandicus</i>,
+    <a href="#Page_71">71</a></li>
+
+  <li class="i1">Osmia,
+    <a href="#Page_114">114</a></li>
+
+  <li class="i1"><i>Osmylus tenui</i>,
+    <a href="#Page_64">64</a></li>
+
+  <li class="i1"><i>Othreis fullonica</i>,
+    <a href="#Page_267">267</a></li>
+
+  <li class="i1"><i>Oxycarenus luctuosus</i>,
+    <a href="#Page_334">334</a></li>
+
+  <li class="i1"><i>Oxyops concreta</i>,
+    <a href="#Page_185">185</a></li>
+</ul>
+
+<ul>
+  <li class="i1"><i>Pachycondyla piliventris</i>,
+    <a href="#Page_93">93</a></li>
+
+  <li class="i1"><i>Pachydissils sericus</i>,
+    <a href="#Page_192">192</a></li>
+
+  <li class="i1">Pachyrhamma,
+    <a href="#Page_48">48</a></li>
+
+  <li class="i1"><i>Paederus cruenticollis</i>,
+    <a href="#Page_137">137</a></li>
+
+  <li class="i1">Painted Crane-fly,
+    <a href="#Page_292">292</a></li>
+
+  <li class="i1">Painted Cup-moth,
+    <a href="#Page_247">247</a></li>
+
+  <li class="i1">Painted Daymoth,
+    <a href="#Page_234">234</a></li>
+
+  <li class="i1">Painted Delias,
+    <a href="#Page_224">224</a></li>
+
+  <li class="i1">Painted Gauzewing,
+    <a href="#Page_227">227</a></li>
+
+  <li class="i1">Painted Lady,
+    <a href="#Page_216">216</a></li>
+
+  <li class="i1"><i>Palacolycus problematicus</i>,
+    <a href="#Page_9">9</a></li>
+
+  <li class="i1"><i>Palaecoccus nudata</i>,
+    <a href="#Page_385">385</a></li>
+
+  <li class="i1"><i>Palaecoccus rosae</i>,
+    <a href="#Page_385">385</a></li>
+
+  <li class="i1"><i>Palengenia papuana</i>,
+    <a href="#Page_54">54</a></li>
+
+  <li class="i1">Palpicorna,
+    <a href="#Page_135">135</a></li>
+
+  <li class="i1"><i>Pamborus alternans</i>,
+    <a href="#Page_126">126</a></li>
+
+  <li class="i1"><i>Pamborus viridis</i>,
+    <a href="#Page_126">126</a></li>
+
+  <li class="i1"><i>Pamphila augiades</i>,
+    <a href="#Page_228">228</a></li>
+
+  <li class="i1"><i>Panesthia laevicollis</i>,
+    <a href="#Page_18">18</a></li>
+
+  <li class="i1"><i>Pangonia auriflus</i>,
+    <a href="#Page_295">295</a></li>
+
+  <li class="i1"><i>Pangonia concolor</i>,
+    <a href="#Page_295">295</a></li>
+
+  <li class="i1"><i>Pangonia guttata</i>,
+    <a href="#Page_295">295</a></li>
+
+  <li class="i1"><i>Pangonia rufovittata</i>,
+    <a href="#Page_295">295</a></li>
+
+  <li class="i1"><i>Pangonia violacea</i>,
+    <a href="#Page_295">295</a></li>
+
+  <li class="i1">Panorpa,
+    <a href="#Page_56">56</a></li>
+
+  <li class="i1">Panorpidae,
+    <a href="#Page_56">56</a></li>
+
+  <li class="i1"><i>Panops flavipes</i>,
+    <a href="#Page_297">297</a></li>
+
+  <li class="i1">Paper-nest wasps,
+    <a href="#Page_112">112</a></li>
+
+  <li class="i1"><i>Papilio aegeus</i>,
+    <a href="#Page_226">226</a></li>
+
+  <li class="i1"><i>Papilio erectheus</i>,
+    <a href="#Page_77">77</a>,
+    <a href="#Page_226">226</a></li>
+
+  <li class="i1"><i>Papilio macleayanus</i>,
+    <a href="#Page_226">226</a></li>
+
+  <li class="i1"><i>Papilio sarpedon</i>,
+    <a href="#Page_226">226</a></li>
+
+  <li class="i1"><i>Papilio sthenelus</i>,
+    <a href="#Page_226">226</a></li>
+
+  <li class="i1">Papilionidae,
+    <a href="#Page_225">225</a></li>
+
+  <li class="i1"><i>Paracephala cyaneipennis</i>,
+    <a href="#Page_165">165</a></li>
+
+  <li class="i1"><i>Paracolletes crassipes</i>,
+    <a href="#Page_116">116</a></li>
+
+  <li class="i1"><i>Paragia bicolor</i>,
+    <a href="#Page_114">114</a></li>
+
+  <li class="i1"><i>Paragia decipiens</i>,
+    <a href="#Page_114">114</a></li>
+
+  <li class="i1"><i>Paragryllacris combusta</i>,
+    <a href="#Page_47">47</a></li>
+
+  <li class="i1"><i>Paramorpha aquilina</i>,
+    <a href="#Page_275">275</a></li>
+
+  <li class="i1">Parapison,
+    <a href="#Page_108">108</a></li>
+
+  <li class="i1">Parasita,
+    <a href="#Page_388">388</a></li>
+
+  <li class="i1">Parasite flies,
+    <a href="#Page_312">312</a></li>
+
+  <li class="i1">Parasite wasps,
+    <a href="#Page_74">74</a></li>
+
+  <li class="i1">Parnidae,
+    <a href="#Page_150">150</a></li>
+
+  <li class="i1"><i>Parnkella muelleri</i>,
+    <a href="#Page_352">352</a></li>
+
+  <li class="i1"><i>Paroplites australis</i>,
+    <a href="#Page_191">191</a></li>
+
+  <li class="i1"><i>Paropsis alternata</i>,
+    <a href="#Page_203">203</a></li>
+
+  <li class="i1"><i>Paropsis immaculata</i>,
+    <a href="#Page_204">204</a>,
+    <a href="#Page_205">205</a></li>
+
+  <li class="i1"><i>Paropsis liturata</i>,
+    <a href="#Page_204">204</a></li>
+
+  <li class="i1"><i>Paropsis pictipennis</i>,
+    <a href="#Page_204">204</a></li>
+
+  <li class="i1"><i>Paropsis variolosa</i>,
+    <a href="#Page_203">203</a></li>
+
+  <li class="i1">Paroxypilus,
+    <a href="#Page_34">34</a></li>
+
+  <li class="i1"><i>Parroa noctis</i>,
+    <a href="#Page_131">131</a></li>
+
+  <li class="i1">Passalides,
+    <a href="#Page_152">152</a></li>
+
+  <li class="i1"><i>Pauropsalta annulata</i>,
+    <a href="#Page_354">354</a></li>
+
+  <li class="i1"><i>Pauropsalta encaustica</i>,
+    <a href="#Page_354">354</a></li>
+
+  <li class="i1"><i>Pauropsalta mneme</i>,
+    <a href="#Page_354">354</a></li>
+
+  <li class="i1"><i>Pauropsalta nodicosta</i>,
+    <a href="#Page_354">354</a></li>
+
+  <li class="i1">Paussilidae,
+    <a href="#Page_138">138</a></li>
+
+  <li class="i1">Paussus,
+    <a href="#Page_138">138</a></li>
+
+  <li class="i1">Paussili,
+    <a href="#Page_139">139</a></li>
+
+  <li class="i1">Peach Aphis,
+    <a href="#Page_369">369</a></li>
+
+  <li class="i1">Peach Moth,
+    <a href="#Page_273">273</a></li>
+
+  <li class="i1">Pediculidae,
+    <a href="#Page_388">388</a></li>
+
+  <li class="i1">Pediculina,
+    <a href="#Page_388">388</a></li>
+
+  <li class="i1"><i>Pediculus capitis</i>,
+    <a href="#Page_388">388</a></li>
+
+  <li class="i1"><i>Pediculus vestimenti</i>,
+    <a href="#Page_388">388</a></li>
+
+  <li class="i1"><i>Pelectomoides conicollis</i>,
+    <a href="#Page_177">177</a></li>
+
+  <li class="i1"><i>Pelopaeus laetus</i>,
+    <a href="#Page_107">107</a></li>
+
+  <li class="i1"><i>Peltophora pedicellata</i>,
+    <a href="#Page_327">327</a></li>
+
+  <li class="i1">Pentatomidae,
+    <a href="#Page_327">327</a></li>
+
+  <li class="i1"><i>Penthea sannio</i>,
+    <a href="#Page_199">199</a></li>
+
+  <li class="i1"><i>Penthea saundersi</i>,
+    <a href="#Page_199">199</a></li>
+
+  <li class="i1"><i>Penthea vermicularia</i>,
+    <a href="#Page_199">199</a></li>
+
+  <li class="i1"><i>Pentodon australis</i>,
+    <a href="#Page_158">158</a>,
+    <a href="#Page_159">159</a></li>
+
+  <li class="i1"><i>Pepsis australis</i>,
+    <a href="#Page_106">106</a></li>
+
+  <li class="i1"><i>Perga cameronii</i>,
+    <a href="#Page_72">72</a></li>
+
+  <li class="i1"><i>Perga dorsalis</i>,
+    <a href="#Page_72">72</a></li>
+
+  <li class="i1"><i>Perga kirbyi</i>,
+    <a href="#Page_72">72</a></li>
+
+  <li class="i1"><i>Perga lewisi</i>,
+    <a href="#Page_72">72</a></li>
+
+  <li class="i1">Perilampinae,
+    <a href="#Page_76">76</a></li>
+
+  <li class="i1">Peripatus,
+    <a href="#Page_1">1</a></li>
+
+  <li class="i1"><i>Periplaneta americana</i>,
+    <a href="#Page_17">17</a></li>
+
+  <li class="i1"><i>Periplaneta australasiae</i>,
+    <a href="#Page_17">17</a></li>
+
+  <li class="i1"><i>Perissops ocellatus</i>,
+    <a href="#Page_188">188</a></li>
+
+  <li class="i1"><i>Perkinsiella saccharicida</i>,
+    <a href="#Page_361">361</a></li>
+
+  <li class="i1">Perla,
+    <a href="#Page_50">50</a></li>
+
+  <li class="i1">Perlidae,
+    <a href="#Page_50">50</a></li>
+
+  <li class="i1"><i>Petalura gigantea</i>,
+    <a href="#Page_53">53</a></li>
+
+  <li class="i1">Petiolata,
+    <a href="#Page_73">73</a></li>
+
+  <li class="i1">Petioliventris,
+    <a href="#Page_70">70</a></li>
+
+  <li class="i1">Phalacridae,
+    <a href="#Page_142">142</a></li>
+
+  <li class="i1"><i>Phalacrognathus muelleri</i>,
+    <a href="#Page_152">152</a></li>
+
+  <li class="i1"><i>Phalaenoides tristifica</i>,
+    <a href="#Page_234">234</a></li>
+
+  <li class="i1"><i>Phalaenoides (Agarista) glycinae</i>,
+    <a href="#Page_233">233</a></li>
+
+  <li class="i1"><i>Phalaenoides</i> (destroyed by bug),
+    <a href="#Page_330">330</a></li>
+
+  <li class="i1"><i>Phaolus macleayi</i>,
+    <a href="#Page_191">191</a></li>
+
+  <li class="i1"><i>Phaonia personata</i>,
+    <a href="#Page_311">311</a></li>
+
+  <li class="i1">Phasmidae,
+    <a href="#Page_14">14</a>,
+    <a href="#Page_34">34</a></li>
+
+  <li class="i1"><i>Pheidole anthracina</i>,
+    <a href="#Page_94">94</a></li>
+
+  <li class="i1"><i>Pheidole bos</i>,
+    <a href="#Page_94">94</a></li>
+
+  <li class="i1"><i>Phellus glaucus</i>,
+    <a href="#Page_300">300</a></li>
+
+  <li class="i1"><i>Pheropsophus verticalis</i>,
+    <a href="#Page_128">128</a></li>
+
+  <li class="i1">Philanthides,
+    <a href="#Page_108">108</a></li>
+
+  <li class="i1">Philanthus,
+    <a href="#Page_109">109</a></li>
+
+  <li class="i1"><i>Philia basalis</i>,
+    <a href="#Page_327">327</a></li>
+
+  <li class="i1"><i>Philia regia</i>,
+    <a href="#Page_328">328</a></li>
+
+  <li class="i1"><i>Philia senator</i>,
+    <a href="#Page_328">328</a></li>
+
+  <li class="i1"><i>Philobota agnesella</i>,
+    <a href="#Page_279">279</a></li>
+
+  <li class="i1"><i>Philobota arabella</i>,
+    <a href="#Page_279">279</a></li>
+
+  <li class="i1"><i>Philobota catascia</i>,
+    <a href="#Page_279">279</a></li>
+
+  <li class="i1"><i>Philobota gascialis</i>,
+    <a href="#Page_279">279</a></li>
+
+  <li class="i1"><i>Philobota productella</i>,
+    <a href="#Page_279">279</a></li>
+
+  <li class="i1"><i>Philomastix glaber</i>,
+    <a href="#Page_73">73</a></li>
+
+  <li class="i1">Philophloeus,
+    <a href="#Page_129">129</a></li>
+
+  <li class="i1">Philopteridae,
+    <a href="#Page_390">390</a></li>
+
+  <li class="i1"><i>Philoscaphus tuberculatus</i>,
+    <a href="#Page_130">130</a></li>
+
+  <li class="i1"><i>Philotarsus froggatti</i>,
+    <a href="#Page_30">30</a></li>
+
+  <li class="i1"><i>Phloeothrips tepperi</i>,
+    <a href="#Page_394">394</a></li>
+
+  <li class="i1">Phoracantha attacked by parasite,
+    <a href="#Page_168">168</a></li>
+
+  <li class="i1">Phoracantha, Parasite of,
+    <a href="#Page_90">90</a></li>
+
+  <li class="i1"><i>Phoracantha recurva</i>,
+    <a href="#Page_90">90</a>,
+    <a href="#Page_168">168</a></li>
+
+  <li class="i1"><i>Phoracantha semipunctata</i>,
+    <a href="#Page_193">193</a></li>
+
+  <li class="i1"><i>Phoracantha tricuspis</i>,
+    <a href="#Page_193">193</a></li>
+
+  <li class="i1">Phthiriasis,
+    <a href="#Page_388">388</a></li>
+
+  <li class="i1"><i>Phthirius inquinalis</i>,
+    <a href="#Page_388">388</a></li>
+
+  <li class="i1"><i>Phylacteophaga eucalypti</i>,
+    <a href="#Page_73">73</a></li>
+
+  <li class="i1"><i>Phyllocharis cyanicornis</i>,
+    <a href="#Page_202">202</a></li>
+
+  <li class="i1"><i>Phyllocharis cyanipes</i>,
+    <a href="#Page_203">203</a></li>
+
+  <li class="i1"><i>Phyllodromia germanica</i>,
+    <a href="#Page_18">18</a></li>
+
+  <li class="i1"><i>Phyllotocus macleayi</i>,
+    <a href="#Page_155">155</a>,
+    <a href="#Page_156">156</a></li>
+
+  <li class="i1"><i>Phyllotocus marginatus</i>,
+    <a href="#Page_156">156</a></li>
+
+  <li class="i1"><i>Phylloxera vastatrix</i>,
+    <a href="#Page_367">367</a></li>
+
+  <li class="i1">Physapoda,
+    <a href="#Page_392">392</a></li>
+
+  <li class="i1"><i>Physopelta famelica</i>,
+    <a href="#Page_335">335</a></li>
+
+  <li class="i1">Phytiphaga,
+    <a href="#Page_70">70</a></li>
+
+  <li class="i1"><i>Phytomyza affinis</i>,
+    <a href="#Page_80">80</a>,
+    <a href="#Page_309">309</a></li>
+
+  <li class="i1">Phytomyzidae,
+    <a href="#Page_309">309</a></li>
+
+  <li class="i1"><i>Pielus hyalinatus</i>,
+    <a href="#Page_242">242</a></li>
+
+  <li class="i1"><i>Pielus imperialis</i>,
+    <a href="#Page_242">242</a></li>
+
+  <li class="i1">Pieridae,
+    <a href="#Page_223">223</a></li>
+
+  <li class="i1"><i>Pieris teutonia</i>,
+    <a href="#Page_223">223</a></li>
+
+  <li class="i1"><i>Piesarthrius marginellus</i>,
+    <a href="#Page_193">193</a></li>
+
+  <li class="i1"><i>Piesarthrius</i>, Parasites of,
+    <a href="#Page_89">89</a></li>
+
+  <li class="i1">Pill beetle,
+    <a href="#Page_150">150</a></li>
+
+  <li class="i1"><i>Pimpla intricatoria</i>,
+    <a href="#Page_84">84</a></li>
+
+  <li class="i1"><i>Pinara despecta</i>,
+    <a href="#Page_256">256</a></li>
+
+  <li class="i1">Pine-scrub beetle,
+    <a href="#Page_163">163</a></li>
+
+  <li class="i1">Pink-winged Tryxalid,
+    <a href="#Page_43">43</a></li>
+
+  <li class="i1">Pintails,
+    <a href="#Page_176">176</a></li>
+
+  <li class="i1"><i>Piophila casei</i>,
+    <a href="#Page_306">306</a></li>
+
+  <li class="i1">Pipunculidae,
+    <a href="#Page_301">301</a></li>
+
+  <li class="i1"><i>Pipunculus cinerascens</i>,
+    <a href="#Page_79">79</a></li>
+
+  <li class="i1"><i>Pipunculus cruciator</i>,
+    <a href="#Page_302">302</a></li>
+
+  <li class="i1"><i>Pipunculus helluo</i>,
+    <a href="#Page_302">302</a></li>
+
+  <li class="i1"><i>Pirates ephippiger</i>,
+    <a href="#Page_340">340</a></li>
+
+  <li class="i1"><i>Pirates flavopictus</i>,
+    <a href="#Page_340">340</a></li>
+
+  <li class="i1">Piratinae,
+    <a href="#Page_340">340</a></li>
+
+  <li class="i1"><i>Pison decipiens</i>,
+    <a href="#Page_108">108</a></li>
+
+  <li class="i1"><i>Pison spinolae</i>,
+    <a href="#Page_108">108</a></li>
+
+  <li class="i1">Plague caterpillars,
+    <a href="#Page_262">262</a></li>
+
+  <li class="i1">Plant-eating beetle,
+    <a href="#Page_200">200</a></li>
+
+  <li class="i1">Plant lice,
+    <a href="#Page_367">367</a></li>
+
+  <li class="i1"><i>Platisus integricollis</i>,
+    <a href="#Page_147">147</a></li>
+
+  <li class="i1"><i>Platynectis 10-punctata</i>,
+    <a href="#Page_133">133</a></li>
+
+  <li class="i1"><i>Platysoma strongulatum</i>,
+    <a href="#Page_142">142</a></li>
+
+  <li class="i1"><i>Plautia affinis</i>,
+    <a href="#Page_329">329</a></li>
+
+  <li class="i1"><i>Plautia nigripennis</i>,
+    <a href="#Page_329">329</a></li>
+
+  <li class="i1">Plecia,
+    <a href="#Page_288">288</a></li>
+
+  <li class="i1"><i>Plectrotarsus gravenorsti</i>,
+    <a href="#Page_67">67</a></li>
+
+  <li class="i1"><i>Pleistodontes froggatti</i>,
+    <a href="#Page_78">78</a></li>
+
+  <li class="i1"><i>Pleistodontes imperialis</i>,
+    <a href="#Page_78">78</a></li>
+
+  <li class="i1"><i>Plodia interpunctella</i>,
+    <a href="#Page_274">274</a></li>
+
+  <li class="i1"><i>Plusia argentifera</i>,
+    <a href="#Page_266">266</a></li>
+
+  <li class="i1"><i>Plusia venicillata</i>,
+    <a href="#Page_266">266</a>,
+    <a href="#Page_267">267</a></li>
+
+  <li class="i1"><i>Plutella cruciferarum</i>,
+    <a href="#Page_281">281</a></li>
+
+  <li class="i1">Plutellidae,
+    <a href="#Page_281">281</a></li>
+
+  <li class="i1"><i>Pocadius pilistriatus</i>,
+    <a href="#Page_143">143</a>,
+    <a href="#Page_144">144</a></li>
+
+  <li class="i1"><i>Pochazia australis</i>,
+    <a href="#Page_359">359</a></li>
+
+  <li class="i1"><i>Podacanthus typhon</i>,
+    <a href="#Page_36">36</a></li>
+
+  <li class="i1"><i>Podacanthus wilkinsoni</i>,
+    <a href="#Page_37">37</a></li>
+
+  <li class="i1"><i>Podalirius cingulatus</i>,
+    <a href="#Page_118">118</a></li>
+
+  <li class="i1"><i>Podalirius aeruginosus</i>,
+    <a href="#Page_118">118</a></li>
+
+  <li class="i1"><i>Podalirius emendatus</i>,
+    <a href="#Page_118">118</a></li>
+
+  <li class="i1"><i>Podalirius pulcher</i>,
+    <a href="#Page_118">118</a></li>
+
+  <li class="i1"><i>Podomyrma adelaidae</i>,
+    <a href="#Page_94">94</a></li>
+
+  <li class="i1"><i>Podomyrma bimaculata</i>,
+    <a href="#Page_94">94</a></li>
+
+  <li class="i1"><i>Podomyrma gratiosa</i>,
+    <a href="#Page_94">94</a></li>
+
+  <li class="i1"><i>Poecilometis gravis</i>,
+    <a href="#Page_329">329</a></li>
+
+  <li class="i1"><i>Poecilometis histricus</i>,
+    <a href="#Page_329">329</a></li>
+
+  <li class="i1"><i>Poecilometis strigatus</i>,
+    <a href="#Page_329">329</a></li>
+
+  <li class="i1"><i>Poeciloptera modesta</i>,
+    <a href="#Page_360">360</a></li>
+
+  <li class="i1"><i>Poliaspis exocarpi</i>,
+    <a href="#Page_374">374</a></li>
+
+  <li class="i1">Policemen flies,
+    <a href="#Page_108">108</a></li>
+
+  <li class="i1"><i>Polistes humilis</i>,
+    <a href="#Page_113">113</a></li>
+
+  <li class="i1"><i>Polistes tasmaniensis</i>,
+    <a href="#Page_112">112</a></li>
+
+  <li class="i1"><i>Polistes tepidus</i>,
+    <a href="#Page_113">113</a></li>
+
+  <li class="i1"><i>Polistes variabilis</i>,
+    <a href="#Page_112">112</a></li>
+
+  <li class="i1"><i>Polyclonus atratus</i>,
+    <a href="#Page_73">73</a></li>
+
+  <li class="i1"><i>Polygommatus boeticus</i>,
+    <a href="#Page_221">221</a></li>
+
+  <li class="i1"><i>Polyrhachis ammon</i>,
+    <a href="#Page_98">98</a></li>
+
+  <li class="i1"><i>Polyrhachis ornata</i>,
+    <a href="#Page_98">98</a></li>
+
+  <li class="i1"><i>Polyrhachis semi-aurata</i>,
+    <a href="#Page_98">98</a></li>
+
+  <li class="i1"><i>Polyrhachis turneri</i>,
+    <a href="#Page_98">98</a></li>
+
+  <li class="i1"><i>Polystigma punctata</i>,
+    <a href="#Page_161">161</a></li>
+
+  <li class="i1"><i>Polystigma octopunctata</i>,
+    <a href="#Page_161">161</a></li>
+
+  <li class="i1"><i>Polyzosteria mitchellii</i>,
+    <a href="#Page_19">19</a></li>
+
+  <li class="i1"><i>Polyzosteria limbata</i>,
+    <a href="#Page_18">18</a></li>
+
+  <li class="i1"><i>Polyzosteria pubescens</i>,
+    <a href="#Page_18">18</a></li>
+
+  <li class="i1">Pompilidae,
+    <a href="#Page_105">105</a></li>
+
+  <li class="i1">Pompilus,
+    <a href="#Page_106">106</a></li>
+
+  <li class="i1">Ponera,
+    <a href="#Page_93">93</a></li>
+
+  <li class="i1">Ponerinae,
+    <a href="#Page_92">92</a></li>
+
+  <li class="i1">Porina,
+    <a href="#Page_240">240</a></li>
+
+  <li class="i1"><i>Porismus strigatus</i>,
+    <a href="#Page_63">63</a></li>
+
+  <li class="i1"><i>Porthesia obsoleta</i>,
+    <a href="#Page_252">252</a></li>
+
+  <li class="i1">Powderpost beetles,
+    <a href="#Page_170">170</a></li>
+
+  <li class="i1">Praying Mantis,
+    <a href="#Page_31">31</a></li>
+
+  <li class="i1">Preservation of Insects,
+    <a href="#Page_395">395</a></li>
+
+  <li class="i1">Prioninae,
+    <a href="#Page_190">190</a></li>
+
+  <li class="i1">Prionocneminae,
+    <a href="#Page_367">367</a></li>
+
+  <li class="i1"><i>Pristhesancus papuensis</i>,
+    <a href="#Page_341">341</a></li>
+
+  <li class="i1">Privet Hawk-moth,
+    <a href="#Page_238">238</a></li>
+
+  <li class="i1">Procris,
+    <a href="#Page_236">236</a></li>
+
+  <li class="i1">Proctotrypidae,
+    <a href="#Page_81">81</a></li>
+
+  <li class="i1"><i>Prodenia littoralis</i>,
+    <a href="#Page_266">266</a></li>
+
+  <li class="i1"><i>Prolepta dilatata</i>,
+    <a href="#Page_360">360</a></li>
+
+  <li class="i1"><i>Prolepta obscurata</i>,
+    <a href="#Page_360">360</a></li>
+
+  <li class="i1"><i>Promecoderus concolor</i>,
+    <a href="#Page_131">131</a></li>
+
+  <li class="i1">Prominents,
+    <a href="#Page_257">257</a></li>
+
+  <li class="i1"><i>Prosayleus phytolymus</i>,
+    <a href="#Page_3">3</a></li>
+
+  <li class="i1"><i>Prosopis metallica</i>,
+    <a href="#Page_115">115</a></li>
+
+  <li class="i1"><i>Prosopis vidua</i>,
+    <a href="#Page_115">115</a></li>
+
+  <li class="i1">Protolechia,
+    <a href="#Page_279">279</a></li>
+
+  <li class="i1"><i>Protoparce convolvuli</i>,
+    <a href="#Page_238">238</a>,
+    <a href="#Page_239">239</a></li>
+
+  <li class="i1"><i>Psalidura elongata</i>,
+    <a href="#Page_184">184</a></li>
+
+  <li class="i1"><i>Psaltoda harrisi</i>,
+    <a href="#Page_350">350</a></li>
+
+  <li class="i1"><i>Psaltoda moerens</i>,
+    <a href="#Page_349">349</a></li>
+
+  <li class="i1">Pselaphidae,
+    <a href="#Page_138">138</a></li>
+
+  <li class="i1"><i>Pselaphus lineatus</i>,
+    <a href="#Page_138">138</a></li>
+
+  <li class="i1"><i>Pseudalmenus myrsilus</i>,
+    <a href="#Page_222">222</a></li>
+
+  <li class="i1">Pseudomorphides,
+    <a href="#Page_129">129</a></li>
+
+  <li class="i1">Pseudo-Neuroptera,
+    <a href="#Page_49">49</a></li>
+
+  <li class="i1">Pseudorhynchota,
+    <a href="#Page_389">389</a></li>
+
+  <li class="i1"><i>Pseudorhynchus lessonii</i>,
+    <a href="#Page_47">47</a></li>
+
+  <li class="i1">Psocidae,
+    <a href="#Page_30">30</a></li>
+
+  <li class="i1">Psychidae,
+    <a href="#Page_243">243</a></li>
+
+  <li class="i1"><i>Psychopsis insolens</i>,
+    <a href="#Page_62">62</a></li>
+
+  <li class="i1"><i>Psychopsis illidgi</i>,
+    <a href="#Page_62">62</a></li>
+
+  <li class="i1"><i>Psychopsis coelivagus</i>,
+    <a href="#Page_62">62</a></li>
+
+  <li class="i1"><i>Psychopsis meyricki</i>,
+    <a href="#Page_62">62</a></li>
+
+  <li class="i1"><i>Psychopsis mimica</i>,
+    <a href="#Page_61">61</a></li>
+
+  <li class="i1"><i>Psylla acaciae-baileyanae</i>,
+    <a href="#Page_365">365</a></li>
+
+  <li class="i1"><i>Psylla capparis</i>,
+    <a href="#Page_365">365</a></li>
+
+  <li class="i1"><i>Psylla schizoneuroides</i>,
+    <a href="#Page_365">365</a></li>
+
+  <li class="i1"><i>Psylla sterculiae</i>,
+    <a href="#Page_365">365</a></li>
+
+  <li class="i1"><i>Psylla acaciae-decurrentis</i>,
+    <a href="#Page_364">364</a></li>
+
+  <li class="i1"><i>Psylla eucalypti</i>,
+    <a href="#Page_362">362</a></li>
+
+  <li class="i1">Psyllidae,
+    <a href="#Page_4">4</a>,
+    <a href="#Page_361">361</a></li>
+
+  <li class="i1">Psyllinae,
+    <a href="#Page_364">364</a></li>
+
+  <li class="i1"><i>Pterodontia mellii</i>,
+    <a href="#Page_297">297</a></li>
+
+  <li class="i1"><i>Pterohelaeus piceus</i>,
+    <a href="#Page_173">173</a></li>
+
+  <li class="i1"><i>Pteromalus puparum</i>,
+    <a href="#Page_77">77</a></li>
+
+  <li class="i1"><i>Pterygogramma acuminata</i>,
+    <a href="#Page_79">79</a></li>
+
+  <li class="i1"><i>Pterygophorus cinctus</i>,
+    <a href="#Page_72">72</a></li>
+
+  <li class="i1"><i>Pterygophorus interruptus</i>,
+    <a href="#Page_73">73</a></li>
+
+  <li class="i1"><i>Ptilocnemus femoralis</i>,
+    <a href="#Page_339">339</a></li>
+
+  <li class="i1"><i>Ptilomacra senex</i>,
+    <a href="#Page_253">253</a></li>
+
+  <li class="i1">Ptinidae,
+    <a href="#Page_169">169</a></li>
+
+  <li class="i1"><i>Ptomaphila lachrymosa</i>,
+    <a href="#Page_140">140</a></li>
+
+  <li class="i1">Publications dealing with Entomology,
+    <a href="#Page_418">418</a></li>
+
+  <li class="i1"><i>Pulex echnidae</i>,
+    <a href="#Page_323">323</a></li>
+
+  <li class="i1"><i>Pulex fasciatus</i>,
+    <a href="#Page_323">323</a></li>
+
+  <li class="i1"><i>Pulex irritans</i>,
+    <a href="#Page_323">323</a></li>
+
+  <li class="i1"><i>Pulex serraticeps</i>,
+    <a href="#Page_322">322</a></li>
+
+  <li class="i1">Pulicidae,
+    <a href="#Page_321">321</a></li>
+
+  <li class="i1"><i>Pulvinaria maskelli</i>,
+    <a href="#Page_384">384</a></li>
+
+  <li class="i1">Pumpkin beetle,
+    <a href="#Page_204">204</a></li>
+
+  <li class="i1"><i>Purpuricenus quadrinotatus</i>,
+    <a href="#Page_196">196</a></li>
+
+  <li class="i1"><i>Pygiopsylla colossus</i>,
+    <a href="#Page_324">324</a></li>
+
+  <li class="i1">Pyralidae,
+    <a href="#Page_268">268</a></li>
+
+  <li class="i1"><i>Pyrameis cardui</i>,
+    <a href="#Page_216">216</a></li>
+
+  <li class="i1"><i>Pyrameis kershawi</i>,
+    <a href="#Page_216">216</a></li>
+
+  <li class="i1"><i>Pyrameis itea</i>,
+    <a href="#Page_216">216</a></li>
+
+  <li class="i1">Pyrochroidae,
+    <a href="#Page_176">176</a></li>
+
+  <li class="i1">Pyrrhocoridae,
+    <a href="#Page_335">335</a></li>
+
+  <li class="i1">Pyrrhocorinae,
+    <a href="#Page_335">335</a></li>
+</ul>
+
+<ul>
+  <li class="i1"><i>Quedius luridipennis</i>,
+    <a href="#Page_137">137</a></li>
+
+  <li class="i1">Queensland Elephant-beetle,
+    <a href="#Page_159">159</a></li>
+
+  <li class="i1">Queensland Fruit-fly,
+    <a href="#Page_207">207</a></li>
+
+  <li class="i1">Queensland Museum,
+    <a href="#Page_414">414</a></li>
+
+  <li class="i1">Queen Termite,
+    <a href="#Page_23">23</a></li>
+
+  <li class="i1"><i>Quintilia (Tibicen) infans</i>,
+    <a href="#Page_352">352</a></li>
+</ul>
+
+<ul>
+  <li class="i1"><i>Rantara varipes</i>,
+    <a href="#Page_343">343</a></li>
+
+  <li class="i1">Rat fleas,
+    <a href="#Page_323">323</a></li>
+
+  <li class="i1">Rear-horses,
+    <a href="#Page_31">31</a></li>
+
+  <li class="i1">Red-eyed Cicadas,
+    <a href="#Page_349">349</a></li>
+
+  <li class="i1">Red-legged Ham-beetle,
+    <a href="#Page_169">169</a></li>
+
+  <li class="i1">Red-legged locust,
+    <a href="#Page_43">43</a></li>
+
+  <li class="i1">Reduviidae,
+    <a href="#Page_338">338</a></li>
+
+  <li class="i1"><i>Reduvius personatus</i>,
+    <a href="#Page_339">339</a></li>
+
+  <li class="i1"><i>Reduvius rivulosus</i>,
+    <a href="#Page_339">339</a></li>
+
+  <li class="i1">Reproductive organs of locust,
+    <a href="#Page_41">41</a></li>
+
+  <li class="i1"><i>Repsimus aeneus</i>,
+    <a href="#Page_157">157</a></li>
+
+  <li class="i1"><i>Rhadinosomtis lacordairei</i> (parasite in brachyscelid gall),
+    <a href="#Page_182">182</a></li>
+
+  <li class="i1">Rhagigaster,
+    <a href="#Page_102">102</a></li>
+
+  <li class="i1"><i>Rhantus pubescens</i>,
+    <a href="#Page_134">134</a></li>
+
+  <li class="i1">Rhapidians,
+    <a href="#Page_56">56</a></li>
+
+  <li class="i1"><i>Rhinocola corniculata</i>,
+    <a href="#Page_364">364</a></li>
+
+  <li class="i1"><i>Rhinocola eucalypti</i>,
+    <a href="#Page_364">364</a></li>
+
+  <li class="i1"><i>Rhinotermes intermedius</i>,
+    <a href="#Page_25">25</a></li>
+
+  <li class="i1">Rhinoterminae,
+    <a href="#Page_24">24</a></li>
+
+  <li class="i1"><i>Rhinotia hoemoptera</i>,
+    <a href="#Page_183">183</a>,
+    <a href="#Page_187">187</a></li>
+
+  <li class="i1"><i>Rhipidocera mystacina</i>,
+    <a href="#Page_167">167</a></li>
+
+  <li class="i1">Rhipidoceridae,
+    <a href="#Page_167">167</a></li>
+
+  <li class="i1">Rhipidiphoridae,
+    <a href="#Page_176">176</a></li>
+
+  <li class="i1"><i>Rhisobius ventralis</i>,
+    <a href="#Page_211">211</a></li>
+
+  <li class="i1">Rhizococcus,
+    <a href="#Page_376">376</a></li>
+
+  <li class="i1">Rhizopertha,
+    <a href="#Page_171">171</a></li>
+
+  <li class="i1"><i>Rhoetocoris (Oncoscelis) sulciventris</i>,
+    <a href="#Page_330">330</a></li>
+
+  <li class="i1">Rhopalocera,
+    <a href="#Page_213">213</a></li>
+
+  <li class="i1"><i>Rhynchium superbum</i>,
+    <a href="#Page_111">111</a></li>
+
+  <li class="i1"><i>Rhynchium mirabile</i>,
+    <a href="#Page_111">111</a></li>
+
+  <li class="i1"><i>Rhyothemus graphiptera</i>,
+    <a href="#Page_52">52</a></li>
+
+  <li class="i1"><i>Rhyparida didyma</i>,
+    <a href="#Page_202">202</a></li>
+
+  <li class="i1">Rhysodidae,
+    <a href="#Page_146">146</a></li>
+
+  <li class="i1"><i>Rhysodes lignarius</i>,
+    <a href="#Page_146">146</a></li>
+
+  <li class="i1"><i>Rhyssa semipunctata</i>,
+    <a href="#Page_84">84</a></li>
+
+  <li class="i1"><i>Rhyssonotus nebulosus</i>,
+    <a href="#Page_151">151</a></li>
+
+  <li class="i1"><i>Rhytiphora argus</i>,
+    <a href="#Page_200">200</a></li>
+
+  <li class="i1">Ribbed case-moth,
+    <a href="#Page_245">245</a></li>
+
+  <li class="i1">Ridge-backed grasshopper,
+    <a href="#Page_43">43</a></li>
+
+  <li class="i1">Ringed moths,
+    <a href="#Page_235">235</a></li>
+
+  <li class="i1">Ringed sawfly,
+    <a href="#Page_72">72</a></li>
+
+  <li class="i1">Ripersia,
+    <a href="#Page_378">378</a></li>
+
+  <li class="i1"><i>Riptortus robustus</i>,
+    <a href="#Page_332">332</a></li>
+
+  <li class="i1">Robber-flies,
+    <a href="#Page_298">298</a></li>
+
+  <li class="i1"><i>Rosenbergia megacephala</i>,
+    <a href="#Page_198">198</a></li>
+
+  <li class="i1">Rose-chafer beetles,
+    <a href="#Page_160">160</a></li>
+
+  <li class="i1">Rose-winged locust,
+    <a href="#Page_42">42</a></li>
+
+  <li class="i1">Round Scale,
+    <a href="#Page_374">374</a></li>
+
+  <li class="i1">Round fungus beetle,
+    <a href="#Page_141">141</a></li>
+
+  <li class="i1">Rove beetle,
+    <a href="#Page_136">136</a></li>
+
+  <li class="i1">Ruby Eye,
+    <a href="#Page_64">64</a></li>
+
+  <li class="i1">Ruby Wasp,
+    <a href="#Page_87">87</a></li>
+
+  <li class="i1">Rutelides,
+    <a href="#Page_157">157</a></li>
+
+  <li class="i1">Rutherglen bug,
+    <a href="#Page_334">334</a></li>
+
+  <li class="i1"><i>Rutila decora</i>,
+    <a href="#Page_314">314</a></li>
+
+  <li class="i1"><i>Rutilia formosa</i>,
+    <a href="#Page_314">314</a></li>
+
+  <li class="i1"><i>Rutilia inornata</i>,
+    <a href="#Page_314">314</a></li>
+
+  <li class="i1"><i>Rutilia vivipara</i>,
+    <a href="#Page_314">314</a></li>
+</ul>
+
+<ul>
+  <li class="i1">Sacktragers,
+    <a href="#Page_243">243</a></li>
+
+  <li class="i1">Sacred beetle,
+    <a href="#Page_153">153</a></li>
+
+  <li class="i1"><i>Sagra papuana</i>,
+    <a href="#Page_201">201</a></li>
+
+  <li class="i1">Sagrides,
+    <a href="#Page_201">201</a></li>
+
+  <li class="i1"><i>Salius (Priocnemus) bicolor</i>,
+    <a href="#Page_105">105</a>,
+    <a href="#Page_106">106</a></li>
+
+  <li class="i1">Sand bugs,
+    <a href="#Page_342">342</a></li>
+
+  <li class="i1">Sand flies,
+    <a href="#Page_287">287</a>,
+    <a href="#Page_291">291</a></li>
+
+  <li class="i1">Sand wasps,
+    <a href="#Page_105">105</a></li>
+
+  <li class="i1"><i>Saprinus laetus</i>,
+    <a href="#Page_142">142</a></li>
+
+  <li class="i1"><i>Sapromyza decora</i>,
+    <a href="#Page_310">310</a></li>
+
+  <li class="i1"><i>Sapromyza fuscicornis</i>,
+    <a href="#Page_310">310</a></li>
+
+  <li class="i1">Sapromyzidae,
+    <a href="#Page_310">310</a></li>
+
+  <li class="i1"><i>Saragus floccosus</i>,
+    <a href="#Page_173">173</a></li>
+
+  <li class="i1"><i>Sarcophaga aurifrons</i>,
+    <a href="#Page_315">315</a></li>
+
+  <li class="i1"><i>Sarcophaga frontalis</i>,
+    <a href="#Page_315">315</a></li>
+
+  <li class="i1"><i>Sarcophaga oedipoda</i>,
+    <a href="#Page_315">315</a></li>
+
+  <li class="i1">Sarcophagidae,
+    <a href="#Page_314">314</a></li>
+
+  <li class="i1">Sarcopsyllidae,
+    <a href="#Page_322">322</a></li>
+
+  <li class="i1"><i>Saropogon princeps</i>,
+    <a href="#Page_300">300</a></li>
+
+  <li class="i1"><i>Sartellus signatus</i>,
+    <a href="#Page_137">137</a></li>
+
+  <li class="i1">Saturnidae,
+    <a href="#Page_257">257</a></li>
+
+  <li class="i1">Satyrinae,
+    <a href="#Page_217">217</a></li>
+
+  <li class="i1">Saunders’ Case-moth,
+    <a href="#Page_244">244</a></li>
+
+  <li class="i1">Sawflies,
+    <a href="#Page_71">71</a></li>
+
+  <li class="i1">Scale Insects,
+    <a href="#Page_325">325</a>,
+    <a href="#Page_371">371</a></li>
+
+  <li class="i1">Scaphididae,
+    <a href="#Page_141">141</a></li>
+
+  <li class="i1"><i>Scaphidium punctipenne</i>,
+    <a href="#Page_141">141</a></li>
+
+  <li class="i1">Scarabaeidae,
+    <a href="#Page_153">153</a></li>
+
+  <li class="i1"><i>Scardia australasialla</i>,
+    <a href="#Page_281">281</a></li>
+
+  <li class="i1">Scaritides,
+    <a href="#Page_129">129</a></li>
+
+  <li class="i1"><i>Scatophaga guerinii</i>,
+    <a href="#Page_310">310</a></li>
+
+  <li class="i1">Scatophagidae,
+    <a href="#Page_310">310</a></li>
+
+  <li class="i1"><i>Scatopse fenestralis</i>,
+    <a href="#Page_288">288</a></li>
+
+  <li class="i1"><i>Sceleocantha glabricollis</i>,
+    <a href="#Page_190">190</a></li>
+
+  <li class="i1"><i>Sceliodes cordalis</i>,
+    <a href="#Page_270">270</a></li>
+
+  <li class="i1"><i>Schizoneura lanigera</i>,
+    <a href="#Page_369">369</a></li>
+
+  <li class="i1">Schizorrhina,
+    <a href="#Page_160">160</a></li>
+
+  <li class="i1">Sciaridae,
+    <a href="#Page_287">287</a></li>
+
+  <li class="i1">Sciomyzinae,
+    <a href="#Page_310">310</a></li>
+
+  <li class="i1"><i>Scolia fulva</i>,
+    <a href="#Page_103">103</a></li>
+
+  <li class="i1"><i>Scolia radula</i>,
+    <a href="#Page_103">103</a></li>
+
+  <li class="i1">Scoliidae,
+    <a href="#Page_102">102</a></li>
+
+  <li class="i1">Scolypopa,
+    <a href="#Page_359">359</a></li>
+
+  <li class="i1">Scolytidae,
+    <a href="#Page_178">178</a></li>
+
+  <li class="i1"><i>Scopiastes vitticeps</i>,
+    <a href="#Page_333">333</a></li>
+
+  <li class="i1"><i>Scopodes sigillatus</i>,
+    <a href="#Page_128">128</a></li>
+
+  <li class="i1">Scorpions,
+    <a href="#Page_1">1</a></li>
+
+  <li class="i1">Scorpion flies,
+    <a href="#Page_56">56</a></li>
+
+  <li class="i1">Scotch Greys,
+    <a href="#Page_290">290</a></li>
+
+  <li class="i1">Scydmaenidae,
+    <a href="#Page_139">139</a></li>
+
+  <li class="i1"><i>Scymnus vagans</i>,
+    <a href="#Page_211">211</a></li>
+
+  <li class="i1"><i>Scymnus notiscens</i>,
+    <a href="#Page_211">211</a></li>
+
+  <li class="i1"><i>Selidosema acaciaria</i>,
+    <a href="#Page_261">261</a></li>
+
+  <li class="i1"><i>Selidosema canescaria</i>,
+    <a href="#Page_261">261</a></li>
+
+  <li class="i1"><i>Selidosema excursaria</i>,
+    <a href="#Page_261">261</a></li>
+
+  <li class="i1"><i>Selidosema lyciaria</i>,
+    <a href="#Page_261">261</a></li>
+
+  <li class="i1"><i>Semnotus ducalis</i>,
+    <a href="#Page_293">293</a></li>
+
+  <li class="i1"><i>Semnotus imperatoria</i>,
+    <a href="#Page_293">293</a></li>
+
+  <li class="i1"><i>Sericea spectans</i>,
+    <a href="#Page_268">268</a></li>
+
+  <li class="i1"><i>Serenthea pectipennis</i>,
+    <a href="#Page_336">336</a></li>
+
+  <li class="i1">Sessiliventris,
+    <a href="#Page_70">70</a></li>
+
+  <li class="i1">Setting insects,
+    <a href="#Page_399">399</a></li>
+
+  <li class="i1">Setting board,
+    <a href="#Page_399">399</a></li>
+
+  <li class="i1"><i>Sextius australis</i>,
+    <a href="#Page_357">357</a></li>
+
+  <li class="i1"><i>Sextius depressus</i>,
+    <a href="#Page_357">357</a></li>
+
+  <li class="i1"><i>Sextius virescens</i>,
+    <a href="#Page_357">357</a></li>
+
+  <li class="i1">Shade Midges,
+    <a href="#Page_287">287</a></li>
+
+  <li class="i1">Sheep-nostril Fly,
+    <a href="#Page_319">319</a></li>
+
+  <li class="i1">Sheep tick,
+    <a href="#Page_319">319</a></li>
+
+  <li class="i1">She-oak Hawk-moth,
+    <a href="#Page_238">238</a></li>
+
+  <li class="i1">Shield bugs,
+    <a href="#Page_327">327</a></li>
+
+  <li class="i1">Shining wasps,
+    <a href="#Page_113">113</a></li>
+
+  <li class="i1">Short-horned Grasshopper,
+    <a href="#Page_40">40</a></li>
+
+  <li class="i1">Sialidae,
+    <a href="#Page_55">55</a></li>
+
+  <li class="i1"><i>Sierola antipoda</i>,
+    <a href="#Page_82">82</a></li>
+
+  <li class="i1">Silkworm Moths,
+    <a href="#Page_256">256</a></li>
+
+  <li class="i1">Silly Ants,
+    <a href="#Page_95">95</a></li>
+
+  <li class="i1"><i>Silphomorpha colymbetoides</i>,
+    <a href="#Page_129">129</a></li>
+
+  <li class="i1"><i>Silphomorpha nitiduloides</i>,
+    <a href="#Page_129">129</a></li>
+
+  <li class="i1">Silphidae,
+    <a href="#Page_140">140</a></li>
+
+  <li class="i1">Silver-fish,
+    <a href="#Page_11">11</a></li>
+
+  <li class="i1"><i>Silvius angusta</i>,
+    <a href="#Page_295">295</a></li>
+
+  <li class="i1"><i>Sima laeviceps</i>,
+    <a href="#Page_95">95</a></li>
+
+  <li class="i1">Simulidae,
+    <a href="#Page_287">287</a></li>
+
+  <li class="i1"><i>Simulum furiosum</i>,
+    <a href="#Page_287">287</a></li>
+
+  <li class="i1"><i>Siphanta acuta</i>,
+    <a href="#Page_359">359</a></li>
+
+  <li class="i1">Siphonaptera,
+    <a href="#Page_284">284</a>,
+    <a href="#Page_322">322</a></li>
+
+  <li class="i1"><i>Siphonophora rosae</i>,
+    <a href="#Page_369">369</a></li>
+
+  <li class="i1"><i>Sirex australis</i>,
+    <a href="#Page_71">71</a></li>
+
+  <li class="i1">Siricidae,
+    <a href="#Page_71">71</a></li>
+
+  <li class="i1"><i>Sitodrepa (Anobium) panicea</i>,
+    <a href="#Page_170">170</a></li>
+
+  <li class="i1"><i>Sitotroga cerealella</i>,
+    <a href="#Page_279">279</a></li>
+
+  <li class="i1">Skippers,
+    <a href="#Page_227">227</a></li>
+
+  <li class="i1">Skippers (in cheese),
+    <a href="#Page_306">306</a></li>
+
+  <li class="i1">Skusea,
+    <a href="#Page_290">290</a></li>
+
+  <li class="i1">Slender weevils,
+    <a href="#Page_179">179</a></li>
+
+  <li class="i1">Slug moth,
+    <a href="#Page_246">246</a></li>
+
+  <li class="i1">Small green grasshopper,
+    <a href="#Page_47">47</a></li>
+
+  <li class="i1">Small Ichneumon,
+    <a href="#Page_85">85</a></li>
+
+  <li class="i1">Small plague locust,
+    <a href="#Page_42">42</a></li>
+
+  <li class="i1">Smaller sand wasps,
+    <a href="#Page_106">106</a></li>
+
+  <li class="i1">Smotherfly,
+    <a href="#Page_367">367</a></li>
+
+  <li class="i1"><i>Smynthurus lutus</i>,
+    <a href="#Page_11">11</a></li>
+
+  <li class="i1"><i>Smynthurus viridis</i>,
+    <a href="#Page_10">10</a></li>
+
+  <li class="i1">Snake flies,
+    <a href="#Page_55">55</a></li>
+
+  <li class="i1">Snout beetles,
+    <a href="#Page_181">181</a></li>
+
+  <li class="i1">Snow flies,
+    <a href="#Page_287">287</a>,
+    <a href="#Page_370">370</a></li>
+
+  <li class="i1">Social wasps,
+    <a href="#Page_112">112</a></li>
+
+  <li class="i1">Soldier beetles,
+    <a href="#Page_168">168</a></li>
+
+  <li class="i1">Soldier flies,
+    <a href="#Page_293">293</a></li>
+
+  <li class="i1">Solitary ants,
+    <a href="#Page_98">98</a></li>
+
+  <li class="i1">Solitary wasps,
+    <a href="#Page_110">110</a></li>
+
+  <li class="i1">Soothsayers,
+    <a href="#Page_31">31</a></li>
+
+  <li class="i1">Sound organs of locust,
+    <a href="#Page_40">40</a></li>
+
+  <li class="i1">South Australian Museum,
+    <a href="#Page_414">414</a></li>
+
+  <li class="i1">Speckled Footmen,
+    <a href="#Page_250">250</a></li>
+
+  <li class="i1">Speckled green grasshopper,
+    <a href="#Page_47">47</a></li>
+
+  <li class="i1"><i>Sphaerococcus froggatti</i>,
+    <a href="#Page_380">380</a></li>
+
+  <li class="i1"><i>Sphaerococcus leptospermi</i>,
+    <a href="#Page_380">380</a></li>
+
+  <li class="i1"><i>Sphaerococcus melaleuca</i>,
+    <a href="#Page_380">380</a></li>
+
+  <li class="i1"><i>Sphaerococcus pirogallis</i>,
+    <a href="#Page_380">380</a></li>
+
+  <li class="i1"><i>Sphaerococcus socialis</i>,
+    <a href="#Page_380">380</a></li>
+
+  <li class="i1"><i>Sphaeroderma equis</i>,
+    <a href="#Page_344">344</a></li>
+
+  <li class="i1">Sphecius,
+    <a href="#Page_108">108</a></li>
+
+  <li class="i1"><i>Sphedanocoris distinctus</i>,
+    <a href="#Page_339">339</a></li>
+
+  <li class="i1">Sphegidae,
+    <a href="#Page_106">106</a></li>
+
+  <li class="i1">Sphegides,
+    <a href="#Page_107">107</a></li>
+
+  <li class="i1"><i>Sphex opulenta</i>,
+    <a href="#Page_107">107</a></li>
+
+  <li class="i1"><i>Sphex vestita</i>,
+    <a href="#Page_107">107</a></li>
+
+  <li class="i1"><i>Sphinctomyrmex froggatti</i>,
+    <a href="#Page_93">93</a></li>
+
+  <li class="i1"><i>Sphinctomyrmex hednigae</i>,
+    <a href="#Page_93">93</a></li>
+
+  <li class="i1">Sphingidae,
+    <a href="#Page_236">236</a></li>
+
+  <li class="i1"><i>Sphinx ligustri</i>,
+    <a href="#Page_238">238</a></li>
+
+  <li class="i1"><i>Sphiximorpha australis</i>,
+    <a href="#Page_304">304</a></li>
+
+  <li class="i1">Spiders,
+    <a href="#Page_1">1</a></li>
+
+  <li class="i1">Spider flies,
+    <a href="#Page_319">319</a></li>
+
+  <li class="i1">Spiloglaux boobook (host of lousefly),
+    <a href="#Page_321">321</a></li>
+
+  <li class="i1"><i>Spilopyra sumptuosa</i>,
+    <a href="#Page_202">202</a></li>
+
+  <li class="i1"><i>Spilosoma fulvohirta</i>,
+    <a href="#Page_249">249</a></li>
+
+  <li class="i1"><i>Spilosoma fuscinula</i>,
+    <a href="#Page_249">249</a></li>
+
+  <li class="i1"><i>Spilosoma obliqua</i>,
+    <a href="#Page_249">249</a></li>
+
+  <li class="i1">Spined orange-bug,
+    <a href="#Page_330">330</a></li>
+
+  <li class="i1">Spined green leaf insect,
+    <a href="#Page_38">38</a></li>
+
+  <li class="i1">Spondyliaspis,
+    <a href="#Page_362">362</a></li>
+
+  <li class="i1"><i>Spondyliaspis eucalypti</i>,
+    <a href="#Page_362">362</a></li>
+
+  <li class="i1">Spondyliaspis (food of ants),
+    <a href="#Page_95">95</a></li>
+
+  <li class="i1">Spotted Ichneumon,
+    <a href="#Page_94">94</a></li>
+
+  <li class="i1">Spotted black Ichneumon,
+    <a href="#Page_94">94</a></li>
+
+  <li class="i1">Spring-tails,
+    <a href="#Page_10">10</a></li>
+
+  <li class="i1">Squash bugs,
+    <a href="#Page_332">332</a></li>
+
+  <li class="i1">Stag beetles,
+    <a href="#Page_151">151</a></li>
+
+  <li class="i1">Staphylinidae,
+    <a href="#Page_136">136</a></li>
+
+  <li class="i1"><i>Stegomyia notoscriptus</i>,
+    <a href="#Page_290">290</a></li>
+
+  <li class="i1"><i>Stegomyia fasciata</i>,
+    <a href="#Page_290">290</a></li>
+
+  <li class="i1">Steel-blue sawfly,
+    <a href="#Page_72">72</a></li>
+
+  <li class="i1">Stem saw-flies,
+    <a href="#Page_70">70</a></li>
+
+  <li class="i1"><i>Stenocotis australis</i>,
+    <a href="#Page_360">360</a></li>
+
+  <li class="i1"><i>Stephanocircus dasyuri</i>,
+    <a href="#Page_323">323</a></li>
+
+  <li class="i1"><i>Stephanocircus simsoni</i>,
+    <a href="#Page_323">323</a></li>
+
+  <li class="i1"><i>Stephanocircus thomasi</i>,
+    <a href="#Page_323">323</a></li>
+
+  <li class="i1"><i>Stibopteryx costalis</i>,
+    <a href="#Page_59">59</a></li>
+
+  <li class="i1">Stick insects,
+    <a href="#Page_34">34</a></li>
+
+  <li class="i1">Stigmodera,
+    <a href="#Page_5">5</a></li>
+
+  <li class="i1"><i>Stigmodera fortnumi</i>,
+    <a href="#Page_164">164</a></li>
+
+  <li class="i1"><i>Stigmodera gratiosa</i>,
+    <a href="#Page_164">164</a></li>
+
+  <li class="i1"><i>Stigmodera heros</i>,
+    <a href="#Page_164">164</a></li>
+
+  <li class="i1"><i>Stigmodera grandis</i>,
+    <a href="#Page_164">164</a></li>
+
+  <li class="i1"><i>Stigmodera jacquinoti</i>,
+    <a href="#Page_164">164</a></li>
+
+  <li class="i1"><i>Stigmodera pascoei</i>,
+    <a href="#Page_164">164</a></li>
+
+  <li class="i1"><i>Stigmodera thoracica</i>,
+    <a href="#Page_164">164</a></li>
+
+  <li class="i1"><i>Stigmodera tibialis</i>,
+    <a href="#Page_164">164</a></li>
+
+  <li class="i1"><i>Stigmodera variabilis</i>,
+    <a href="#Page_164">164</a></li>
+
+  <li class="i1"><i>Stigmodera macularia</i>,
+    <a href="#Page_164">164</a></li>
+
+  <li class="i1"><i>Stibula pedunculatus</i>,
+    <a href="#Page_76">76</a></li>
+
+  <li class="i1"><i>Stilbum splendidum</i>,
+    <a href="#Page_88">88</a></li>
+
+  <li class="i1"><i>Stilbum amethystinum</i>,
+    <a href="#Page_88">88</a></li>
+
+  <li class="i1"><i>Stilida indecora</i>,
+    <a href="#Page_331">331</a></li>
+
+  <li class="i1">Stinging caterpillars,
+    <a href="#Page_84">84</a></li>
+
+  <li class="i1"><i>Stizus pectoralis</i>,
+    <a href="#Page_108">108</a></li>
+
+  <li class="i1"><i>Stomoxys calcitrans</i>,
+    <a href="#Page_316">316</a></li>
+
+  <li class="i1">Stone flies,
+    <a href="#Page_50">50</a></li>
+
+  <li class="i1">Storing collections,
+    <a href="#Page_404">404</a></li>
+
+  <li class="i1"><i>Strathmopoda melanochra</i>,
+    <a href="#Page_281">281</a></li>
+
+  <li class="i1">Stratiomyidae,
+    <a href="#Page_293">293</a></li>
+
+  <li class="i1">Striped Delias,
+    <a href="#Page_224">224</a></li>
+
+  <li class="i1"><i>Stropis maculosa</i>,
+    <a href="#Page_44">44</a></li>
+
+  <li class="i1"><i>Strongylurus thoracicus</i>,
+    <a href="#Page_193">193</a></li>
+
+  <li class="i1">Structure,
+    <a href="#Page_6">6</a></li>
+
+  <li class="i1">Structure of wings (Hymenoptera),
+    <a href="#Page_69">69</a></li>
+
+  <li class="i1">Structure of head and thorax,
+    <a href="#Page_68">68</a></li>
+
+  <li class="i1">Sucking lice,
+    <a href="#Page_388">388</a></li>
+
+  <li class="i1">Sugar ants,
+    <a href="#Page_97">97</a></li>
+
+  <li class="i1">Sugar lerp,
+    <a href="#Page_363">363</a></li>
+
+  <li class="i1">Sugaring,
+    <a href="#Page_403">403</a></li>
+
+  <li class="i1"><i>Suphalasca sabulosa</i>,
+    <a href="#Page_58">58</a></li>
+
+  <li class="i1">Swallow Tails,
+    <a href="#Page_225">225</a></li>
+
+  <li class="i1">Sycoryctes,
+    <a href="#Page_78">78</a></li>
+
+  <li class="i1"><i>Syllitus grammicus</i>,
+    <a href="#Page_193">193</a></li>
+
+  <li class="i1"><i>Symphyletes neglectus</i>,
+    <a href="#Page_198">198</a></li>
+
+  <li class="i1"><i>Symphyletes nigrovirens</i>,
+    <a href="#Page_198">198</a></li>
+
+  <li class="i1"><i>Symphyletes solandri</i>,
+    <a href="#Page_199">199</a></li>
+
+  <li class="i1"><i>Symphyletes vestigialis</i>,
+    <a href="#Page_199">199</a>,
+    <a href="#Page_200">200</a></li>
+
+  <li class="i1"><i>Synemon sophia</i>,
+    <a href="#Page_232">232</a></li>
+
+  <li class="i1"><i>Synemon hesperoides</i>,
+    <a href="#Page_232">232</a></li>
+
+  <li class="i1"><i>Synlestes weyersii</i>,
+    <a href="#Page_53">53</a></li>
+
+  <li class="i1">Syntomidae,
+    <a href="#Page_235">235</a></li>
+
+  <li class="i1"><i>Syntomis annulata</i>,
+    <a href="#Page_235">235</a></li>
+
+  <li class="i1"><i>Syntomis aperta</i>,
+    <a href="#Page_235">235</a></li>
+
+  <li class="i1">Syrphid flies,
+    <a href="#Page_85">85</a></li>
+
+  <li class="i1">Syrphidae,
+    <a href="#Page_302">302</a></li>
+
+  <li class="i1"><i>Syrphus pusillus</i>,
+    <a href="#Page_302">302</a></li>
+
+  <li class="i1"><i>Syrphus viridiceps</i>,
+    <a href="#Page_302">302</a>,
+    <a href="#Page_303">303</a></li>
+</ul>
+
+<ul>
+  <li class="i1">Tabanidae,
+    <a href="#Page_294">294</a></li>
+
+  <li class="i1"><i>Tabanus abstersus</i>,
+    <a href="#Page_295">295</a></li>
+
+  <li class="i1"><i>Tabanus brevidentatus</i>,
+    <a href="#Page_295">295</a></li>
+
+  <li class="i1"><i>Tabanus edentulus</i>,
+    <a href="#Page_295">295</a></li>
+
+  <li class="i1"><i>Tabanus sanguinarius</i>,
+    <a href="#Page_295">295</a></li>
+
+  <li class="i1"><i>Tachardia australis</i>,
+    <a href="#Page_378">378</a></li>
+
+  <li class="i1"><i>Tachardia decorella</i>,
+    <a href="#Page_379">379</a></li>
+
+  <li class="i1">Tachardiinae,
+    <a href="#Page_378">378</a></li>
+
+  <li class="i1"><i>Tachina oedipoda</i>,
+    <a href="#Page_315">315</a></li>
+
+  <li class="i1">Tachinidae,
+    <a href="#Page_312">312</a></li>
+
+  <li class="i1">Tachytes,
+    <a href="#Page_108">108</a></li>
+
+  <li class="i1">Tailed Emperor,
+    <a href="#Page_217">217</a></li>
+
+  <li class="i1"><i>Talaurinus tuberculatus</i>,
+    <a href="#Page_184">184</a></li>
+
+  <li class="i1">Tamasa,
+    <a href="#Page_351">351</a></li>
+
+  <li class="i1"><i>Tapinoma minutum</i>,
+    <a href="#Page_96">96</a></li>
+
+  <li class="i1"><i>Tapinoma melanocephalum</i>,
+    <a href="#Page_96">96</a></li>
+
+  <li class="i1"><i>Tarsostenus zonatus</i>,
+    <a href="#Page_169">169</a></li>
+
+  <li class="i1"><i>Teara contraria</i>,
+    <a href="#Page_252">252</a></li>
+
+  <li class="i1"><i>Teara melanosticta</i>,
+    <a href="#Page_253">253</a></li>
+
+  <li class="i1"><i>Teara tristis</i>,
+    <a href="#Page_253">253</a></li>
+
+  <li class="i1"><i>Tectocoris lineola</i>,
+    <a href="#Page_327">327</a></li>
+
+  <li class="i1"><i>Tectocoris banksi</i>,
+    <a href="#Page_327">327</a></li>
+
+  <li class="i1"><i>Teia anartaides</i>,
+    <a href="#Page_255">255</a></li>
+
+  <li class="i1"><i>Telephorus pulchellus</i>,
+    <a href="#Page_168">168</a></li>
+
+  <li class="i1"><i>Temnoplectron rotundum</i>,
+    <a href="#Page_154">154</a></li>
+
+  <li class="i1"><i>Tenebrio molitor</i>,
+    <a href="#Page_175">175</a></li>
+
+  <li class="i1">Tenebrionidae,
+    <a href="#Page_172">172</a>,
+    <a href="#Page_175">175</a></li>
+
+  <li class="i1"><i>Tenodera australasiae</i>,
+    <a href="#Page_34">34</a></li>
+
+  <li class="i1">Tenthredinidae,
+    <a href="#Page_71">71</a></li>
+
+  <li class="i1"><i>Tepperia sterculiae</i>,
+    <a href="#Page_188">188</a></li>
+
+  <li class="i1">Terebranti,
+    <a href="#Page_70">70</a></li>
+
+  <li class="i1">Terebrantia,
+    <a href="#Page_393">393</a></li>
+
+  <li class="i1"><i>Terias hecabe</i>,
+    <a href="#Page_223">223</a></li>
+
+  <li class="i1"><i>Terias smilax</i>,
+    <a href="#Page_223">223</a></li>
+
+  <li class="i1">Termes lacteus (host of lamellicorn beetle),
+    <a href="#Page_157">157</a></li>
+
+  <li class="i1"><i>Termes perniger</i>,
+    <a href="#Page_25">25</a></li>
+
+  <li class="i1"><i>Termes meridionalis</i>,
+    <a href="#Page_26">26</a></li>
+
+  <li class="i1"><i>Termes krisiformis</i>,
+    <a href="#Page_27">27</a></li>
+
+  <li class="i1"><i>Termes rubriceps</i>,
+    <a href="#Page_26">26</a></li>
+
+  <li class="i1"><i>Termissa nivosa</i>,
+    <a href="#Page_249">249</a></li>
+
+  <li class="i1"><i>Termissa shepherdi</i>,
+    <a href="#Page_249">249</a></li>
+
+  <li class="i1">Termitarium,
+    <a href="#Page_23">23</a></li>
+
+  <li class="i1">Termites,
+    <a href="#Page_21">21</a></li>
+
+  <li class="i1">Termitidae,
+    <a href="#Page_20">20</a></li>
+
+  <li class="i1">Termitinae,
+    <a href="#Page_25">25</a></li>
+
+  <li class="i1">Tessaratominae,
+    <a href="#Page_330">330</a></li>
+
+  <li class="i1"><i>Testrica bubula</i>,
+    <a href="#Page_328">328</a></li>
+
+  <li class="i1"><i>Tetracha australis</i>,
+    <a href="#Page_124">124</a></li>
+
+  <li class="i1"><i>Tetracha australasiae</i>,
+    <a href="#Page_125">125</a></li>
+
+  <li class="i1"><i>Tetracha hopei</i>,
+    <a href="#Page_125">125</a></li>
+
+  <li class="i1"><i>Tetralobus cunninghami</i>,
+    <a href="#Page_166">166</a></li>
+
+  <li class="i1">Tetrastichinae,
+    <a href="#Page_79">79</a></li>
+
+  <li class="i1"><i>Tetrastichodes froggatti</i>,
+    <a href="#Page_77">77</a></li>
+
+  <li class="i1">Tetrasticus,
+    <a href="#Page_77">77</a></li>
+
+  <li class="i1"><i>Tettigarcta crinita</i>,
+    <a href="#Page_354">354</a></li>
+
+  <li class="i1"><i>Tettigarcta tomentosa</i>,
+    <a href="#Page_354">354</a></li>
+
+  <li class="i1"><i>Tettigia tristigma</i>,
+    <a href="#Page_351">351</a></li>
+
+  <li class="i1"><i>Thalaina clara</i>,
+    <a href="#Page_262">262</a></li>
+
+  <li class="i1"><i>Thalaina inscriptum</i>,
+    <a href="#Page_262">262</a></li>
+
+  <li class="i1"><i>Thallis janthina</i>,
+    <a href="#Page_206">206</a></li>
+
+  <li class="i1"><i>Thalpochares coccophaga</i>,
+    <a href="#Page_87">87</a>,
+    <a href="#Page_265">265</a></li>
+
+  <li class="i1"><i>Thaumasura femor-rubra</i>,
+    <a href="#Page_77">77</a></li>
+
+  <li class="i1"><i>Thaumasura terebrator</i>,
+    <a href="#Page_76">76</a></li>
+
+  <li class="i1"><i>Thea opaca</i>,
+    <a href="#Page_362">362</a>,
+    <a href="#Page_364">364</a></li>
+
+  <li class="i1"><i>Thea galbula</i>,
+    <a href="#Page_209">209</a></li>
+
+  <li class="i1"><i>Thopha saccata</i>,
+    <a href="#Page_348">348</a></li>
+
+  <li class="i1"><i>Thopha sessiliba</i>,
+    <a href="#Page_349">349</a></li>
+
+  <li class="i1">Thread-winged Nemopteron,
+    <a href="#Page_60">60</a></li>
+
+  <li class="i1">Thrips,
+    <a href="#Page_392">392</a></li>
+
+  <li class="i1">Thripidae,
+    <a href="#Page_4">4</a>,
+    <a href="#Page_392">392</a></li>
+
+  <li class="i1"><i>Thudaca obliquella</i>,
+    <a href="#Page_282">282</a></li>
+
+  <li class="i1"><i>Thyada barbicornis</i>,
+    <a href="#Page_198">198</a></li>
+
+  <li class="i1">Thynnidae,
+    <a href="#Page_4">4</a>,
+    <a href="#Page_68">68</a>,
+    <a href="#Page_100">100</a></li>
+
+  <li class="i1"><i>Thynnus brenchleyi</i>,
+    <a href="#Page_101">101</a></li>
+
+  <li class="i1"><i>Thynnus flavilabris</i>,
+    <a href="#Page_101">101</a></li>
+
+  <li class="i1"><i>Thynnus leachellus</i>,
+    <a href="#Page_101">101</a></li>
+
+  <li class="i1"><i>Thynnus variabilis</i>,
+    <a href="#Page_101">101</a></li>
+
+  <li class="i1"><i>Thyridopteryx herrichii</i>,
+    <a href="#Page_245">245</a></li>
+
+  <li class="i1"><i>Thyridopteryx hubneri</i>,
+    <a href="#Page_245">245</a></li>
+
+  <li class="i1">Thysanoptera,
+    <a href="#Page_392">392</a></li>
+
+  <li class="i1">Thysanura,
+    <a href="#Page_11">11</a></li>
+
+  <li class="i1">Tibicen,
+    <a href="#Page_351">351</a></li>
+
+  <li class="i1">Tibicinae,
+    <a href="#Page_351">351</a></li>
+
+  <li class="i1">Ticks,
+    <a href="#Page_1">1</a></li>
+
+  <li class="i1">Tiger beetles,
+    <a href="#Page_124">124</a></li>
+
+  <li class="i1">Tiger moths,
+    <a href="#Page_248">248</a></li>
+
+  <li class="i1"><i>Tigriodes alterna</i>,
+    <a href="#Page_248">248</a></li>
+
+  <li class="i1"><i>Tigriodes furcifera</i>,
+    <a href="#Page_248">248</a></li>
+
+  <li class="i1"><i>Tigriodes heminephes</i>,
+    <a href="#Page_248">248</a></li>
+
+  <li class="i1"><i>Tinea nectaria</i>,
+    <a href="#Page_281">281</a></li>
+
+  <li class="i1"><i>Tinea fuscipunctella</i>,
+    <a href="#Page_281">281</a></li>
+
+  <li class="i1"><i>Tinea pellionella</i>,
+    <a href="#Page_281">281</a></li>
+
+  <li class="i1"><i>Tinea tapetzella</i>,
+    <a href="#Page_281">281</a></li>
+
+  <li class="i1">Tineidae,
+    <a href="#Page_281">281</a></li>
+
+  <li class="i1">Tineina,
+    <a href="#Page_281">281</a></li>
+
+  <li class="i1">Tingidae,
+    <a href="#Page_336">336</a></li>
+
+  <li class="i1">Tinted Delias,
+    <a href="#Page_224">224</a></li>
+
+  <li class="i1"><i>Tipula costalis</i>,
+    <a href="#Page_292">292</a></li>
+
+  <li class="i1"><i>Tipulidae brevipalpi</i>,
+    <a href="#Page_292">292</a></li>
+
+  <li class="i1"><i>Tipulidae longipalpi</i>,
+    <a href="#Page_292">292</a></li>
+
+  <li class="i1"><i>Tisiphone abeona</i>,
+    <a href="#Page_218">218</a></li>
+
+  <li class="i1"><i>Tomoxia flavicans</i>,
+    <a href="#Page_177">177</a></li>
+
+  <li class="i1">Torpedo bug,
+    <a href="#Page_359">359</a></li>
+
+  <li class="i1">Tortricidae,
+    <a href="#Page_274">274</a></li>
+
+  <li class="i1"><i>Tortrix glaphyriana</i>,
+    <a href="#Page_75">75</a>,
+    <a href="#Page_275">275</a></li>
+
+  <li class="i1"><i>Trachelizus howitti</i>,
+    <a href="#Page_179">179</a></li>
+
+  <li class="i1"><i>Tragocerus lepidopterus</i>,
+    <a href="#Page_196">196</a></li>
+
+  <li class="i1"><i>Tragocerus spencei</i>,
+    <a href="#Page_196">196</a></li>
+
+  <li class="i1"><i>Tranes sparsus</i>,
+    <a href="#Page_187">187</a></li>
+
+  <li class="i1"><i>Tranes xanthorrhoeae</i>,
+    <a href="#Page_187">187</a></li>
+
+  <li class="i1"><i>Trapesites iacchus</i>,
+    <a href="#Page_228">228</a></li>
+
+  <li class="i1"><i>Trapezites symmomus</i>,
+    <a href="#Page_228">228</a></li>
+
+  <li class="i1">Trapping,
+    <a href="#Page_403">403</a></li>
+
+  <li class="i1">Tree-hoppers,
+    <a href="#Page_356">356</a></li>
+
+  <li class="i1">Tribelocephalidae,
+    <a href="#Page_339">339</a></li>
+
+  <li class="i1"><i>Trichaulax philipsii</i>,
+    <a href="#Page_161">161</a></li>
+
+  <li class="i1"><i>Trichaulax marginipennis</i>,
+    <a href="#Page_162">162</a></li>
+
+  <li class="i1"><i>Trichetra marginalis</i>,
+    <a href="#Page_252">252</a></li>
+
+  <li class="i1"><i>Trichilogaster maideni</i>,
+    <a href="#Page_80">80</a></li>
+
+  <li class="i1"><i>Trichilogaster a-longifoliae</i>,
+    <a href="#Page_80">80</a></li>
+
+  <li class="i1"><i>Trichilogaster pendulae</i>,
+    <a href="#Page_80">80</a></li>
+
+  <li class="i1">Trichodectidae,
+    <a href="#Page_390">390</a></li>
+
+  <li class="i1">Trichoptera,
+    <a href="#Page_66">66</a></li>
+
+  <li class="i1">Trichopterygidae,
+    <a href="#Page_141">141</a></li>
+
+  <li class="i1"><i>Trichosternus renardi</i>,
+    <a href="#Page_127">127</a></li>
+
+  <li class="i1"><i>Trichoxenia cineraria</i>,
+    <a href="#Page_75">75</a></li>
+
+  <li class="i1"><i>Trichoxenia labyrinthica</i>,
+    <a href="#Page_75">75</a></li>
+
+  <li class="i1">Trictena,
+    <a href="#Page_242">242</a></li>
+
+  <li class="i1"><i>Trigona canifrons</i>,
+    <a href="#Page_120">120</a></li>
+
+  <li class="i1"><i>Trigona carbonaria</i>,
+    <a href="#Page_119">119</a></li>
+
+  <li class="i1"><i>Trigonotarsus rugosus</i>,
+    <a href="#Page_189">189</a></li>
+
+  <li class="i1"><i>Trioza carnosa</i>,
+    <a href="#Page_366">366</a></li>
+
+  <li class="i1"><i>Trioza casuarinae</i>,
+    <a href="#Page_366">366</a></li>
+
+  <li class="i1"><i>Trioza banksiae</i>,
+    <a href="#Page_366">366</a></li>
+
+  <li class="i1"><i>Trioza eucalypti</i>,
+    <a href="#Page_366">366</a></li>
+
+  <li class="i1">Triozinae,
+    <a href="#Page_365">365</a></li>
+
+  <li class="i1"><i>Trogodendron fasciculatum</i>,
+    <a href="#Page_169">169</a></li>
+
+  <li class="i1"><i>Trogoderma froggatti</i>,
+    <a href="#Page_149">149</a></li>
+
+  <li class="i1"><i>Trogoderma apicipenne</i>,
+    <a href="#Page_149">149</a></li>
+
+  <li class="i1"><i>Trogosita mauritanica</i>,
+    <a href="#Page_144">144</a></li>
+
+  <li class="i1">Trogositidae,
+    <a href="#Page_144">144</a></li>
+
+  <li class="i1">Troides,
+    <a href="#Page_225">225</a></li>
+
+  <li class="i1">Trombiididae,
+    <a href="#Page_98">98</a></li>
+
+  <li class="i1"><i>Tropidoderus childreni</i>,
+    <a href="#Page_37">37</a></li>
+
+  <li class="i1"><i>Tropidoderus decipiens</i>,
+    <a href="#Page_38">38</a></li>
+
+  <li class="i1"><i>Tropidoderus iodomus</i>,
+    <a href="#Page_38">38</a></li>
+
+  <li class="i1"><i>Tropidoderus rhodomus</i>,
+    <a href="#Page_37">37</a></li>
+
+  <li class="i1"><i>Trox australasiae</i>,
+    <a href="#Page_155">155</a></li>
+
+  <li class="i1"><i>Trox dohrni</i>,
+    <a href="#Page_155">155</a></li>
+
+  <li class="i1"><i>Trypeta bicolor</i>,
+    <a href="#Page_308">308</a></li>
+
+  <li class="i1"><i>Trypeta musae</i>,
+    <a href="#Page_308">308</a></li>
+
+  <li class="i1"><i>Trypeta poenia</i>,
+    <a href="#Page_308">308</a></li>
+
+  <li class="i1">Trypetidae,
+    <a href="#Page_306">306</a></li>
+
+  <li class="i1"><i>Tryxalis rafflesii</i>,
+    <a href="#Page_43">43</a></li>
+
+  <li class="i1">Tubulifera,
+    <a href="#Page_393">393</a></li>
+
+  <li class="i1">Tussock Moths,
+    <a href="#Page_252">252</a></li>
+
+  <li class="i1"><i>Tyora hibisci</i>,
+    <a href="#Page_367">367</a></li>
+
+  <li class="i1"><i>Tyora sterculiae</i>,
+    <a href="#Page_367">367</a></li>
+
+  <li class="i1">Types,
+    <a href="#Page_409">409</a></li>
+</ul>
+
+<ul>
+  <li class="i1"><i>Uracanthus cryptophagus</i>,
+    <a href="#Page_193">193</a>,
+    <a href="#Page_195">195</a></li>
+
+  <li class="i1"><i>Uracanthus triangularis</i>,
+    <a href="#Page_193">193</a></li>
+
+  <li class="i1">Urania,
+    <a href="#Page_232">232</a></li>
+
+  <li class="i1">Uraniidae,
+    <a href="#Page_232">232</a></li>
+</ul>
+
+<ul>
+  <li class="i1">Vapourers,
+    <a href="#Page_252">252</a></li>
+
+  <li class="i1"><i>Vedalia cardinalis</i>,
+    <a href="#Page_210">210</a></li>
+
+  <li class="i1">Velvet mites,
+    <a href="#Page_98">98</a></li>
+
+  <li class="i1"><i>Venustria superba</i>,
+    <a href="#Page_351">351</a></li>
+
+  <li class="i1"><i>Verania frenata</i>,
+    <a href="#Page_209">209</a></li>
+
+  <li class="i1">Vespa,
+    <a href="#Page_112">112</a></li>
+
+  <li class="i1">Vespidae,
+    <a href="#Page_112">112</a></li>
+
+  <li class="i1">Vine-moth bug,
+    <a href="#Page_330">330</a></li>
+</ul>
+
+<ul>
+  <li class="i1">Walking Straw,
+    <a href="#Page_36">36</a></li>
+
+  <li class="i1">Warble-flies,
+    <a href="#Page_317">317</a></li>
+
+  <li class="i1">Wasps,
+    <a href="#Page_68">68</a></li>
+
+  <li class="i1">Wasp flies,
+    <a href="#Page_305">305</a></li>
+
+  <li class="i1">Water beetles,
+    <a href="#Page_133">133</a></li>
+
+  <li class="i1">Water boatmen,
+    <a href="#Page_345">345</a></li>
+
+  <li class="i1">Water bugs,
+    <a href="#Page_342">342</a></li>
+
+  <li class="i1">Water fleas,
+    <a href="#Page_289">289</a></li>
+
+  <li class="i1">Water moths,
+    <a href="#Page_66">66</a></li>
+
+  <li class="i1">Water scorpions,
+    <a href="#Page_343">343</a></li>
+
+  <li class="i1">Water striders,
+    <a href="#Page_337">337</a></li>
+
+  <li class="i1">Wattle-pig,
+    <a href="#Page_183">183</a></li>
+
+  <li class="i1">Web-spinners,
+    <a href="#Page_28">28</a></li>
+
+  <li class="i1">Weevils,
+    <a href="#Page_181">181</a></li>
+
+  <li class="i1">Whirligig beetles,
+    <a href="#Page_134">134</a></li>
+
+  <li class="i1">Whistling moths,
+    <a href="#Page_234">234</a></li>
+
+  <li class="i1">White ants,
+    <a href="#Page_20">20</a></li>
+
+  <li class="i1">Whites,
+    <a href="#Page_223">223</a></li>
+
+  <li class="i1">Wine flies,
+    <a href="#Page_306">306</a></li>
+
+  <li class="i1"><i>Winthemia lata</i>,
+    <a href="#Page_312">312</a></li>
+
+  <li class="i1">Wireworms,
+    <a href="#Page_166">166</a></li>
+
+  <li class="i1">Wood ants,
+    <a href="#Page_98">98</a></li>
+
+  <li class="i1">Woodborers,
+    <a href="#Page_178">178</a></li>
+
+  <li class="i1">Wood moths,
+    <a href="#Page_231">231</a>,
+    <a href="#Page_239">239</a></li>
+
+  <li class="i1">Woolly Aphids,
+    <a href="#Page_369">369</a></li>
+
+  <li class="i1">Woolly Bears,
+    <a href="#Page_248">248</a></li>
+
+  <li class="i1">Wrigglers,
+    <a href="#Page_289">289</a></li>
+</ul>
+
+<ul>
+  <li class="i1"><i>Xantholinus erythrocephalus</i>,
+    <a href="#Page_137">137</a></li>
+
+  <li class="i1"><i>Xenica achanta</i>,
+    <a href="#Page_219">219</a></li>
+
+  <li class="i1"><i>Xenica correae</i>,
+    <a href="#Page_219">219</a></li>
+
+  <li class="i1"><i>Xenica fulva</i>,
+    <a href="#Page_219">219</a></li>
+
+  <li class="i1"><i>Xyleborus solidus</i>,
+    <a href="#Page_178">178</a></li>
+
+  <li class="i1">Xylocopa,
+    <a href="#Page_116">116</a></li>
+
+  <li class="i1"><i>Xylocopa aestuans</i>,
+    <a href="#Page_117">117</a></li>
+
+  <li class="i1"><i>Xylocopa bryorum</i>,
+    <a href="#Page_117">117</a></li>
+
+  <li class="i1"><i>Xylonychus eucalypti</i>,
+    <a href="#Page_157">157</a></li>
+
+  <li class="i1"><i>Xylotrupes australicus</i>,
+    <a href="#Page_159">159</a></li>
+
+  <li class="i1"><i>Xystmatodoma guildingi</i>,
+    <a href="#Page_281">281</a></li>
+</ul>
+
+<ul>
+  <li class="i1">Yellows,
+    <a href="#Page_223">223</a></li>
+
+  <li class="i1">Yellow-fever mosquito,
+    <a href="#Page_290">290</a></li>
+
+  <li class="i1">Yellow Monday,
+    <a href="#Page_349">349</a></li>
+
+  <li class="i1">Yellow-tinted Delias,
+    <a href="#Page_224">224</a></li>
+
+  <li class="i1">Yellow-winged locust,
+    <a href="#Page_41">41</a></li>
+
+  <li class="i1"><i>Ypthima arctous</i>,
+    <a href="#Page_218">218</a></li>
+</ul>
+
+<ul>
+  <li class="i1"><i>Zanessa rubrovariegata</i>,
+    <a href="#Page_342">342</a></li>
+
+  <li class="i1">Zelotypia,
+    <a href="#Page_241">241</a></li>
+
+  <li class="i1"><i>Zenithicola australis</i>,
+    <a href="#Page_169">169</a></li>
+
+  <li class="i1"><i>Zenithicola obesus</i>,
+    <a href="#Page_169">169</a></li>
+
+  <li class="i1"><i>Zeuzera cinerens</i>,
+    <a href="#Page_243">243</a></li>
+
+  <li class="i1"><i>Zeuzera eucalypti</i>,
+    <a href="#Page_242">242</a></li>
+
+  <li class="i1"><i>Zeuzera liturata</i>,
+    <a href="#Page_243">243</a></li>
+
+  <li class="i1"><i>Zeuzera macleayi</i>,
+    <a href="#Page_243">243</a></li>
+
+  <li class="i1">Zeuzeridae,
+    <a href="#Page_242">242</a></li>
+
+  <li class="i1"><i>Zinckenia recurvalis</i>,
+    <a href="#Page_270">270</a></li>
+
+  <li class="i1"><i>Zonitis bipartita</i>,
+    <a href="#Page_177">177</a></li>
+
+  <li class="i1"><i>Zonitis brevicornis</i>,
+    <a href="#Page_177">177</a></li>
+
+  <li class="i1"><i>Zonopetala decisiana</i>,
+    <a href="#Page_279">279</a></li>
+
+  <li class="i1"><i>Zopherosis georgii</i>,
+    <a href="#Page_173">173</a></li>
+
+  <li class="i1">Zygaenidae,
+    <a href="#Page_236">236</a></li>
+
+  <li class="i1">Zygopteridae,
+    <a href="#Page_51">51</a></li>
+
+  <li class="i1">Zygotricha,
+    <a href="#Page_306">306</a></li>
+
+  <li class="i1"><i>Zygrita diva</i>,
+    <a href="#Page_200">200</a></li>
+</ul>
+
+  <div class="figcenter">
+    <img
+    class="p2"
+    src="images/signet.jpg"
+    alt="">
+  </div>
+
+<p class="transnote">Transcriber’s Notes:<br>
+<br>
+1. Obvious printers’, punctuation and spelling errors have been
+corrected silently.<br>
+<br>
+2. Some hyphenated and non-hyphenated versions of the same words have
+been retained as in the original.</p>
+
+
+<div style='text-align:center'>*** END OF THE PROJECT GUTENBERG EBOOK 76505 ***</div>
+</body>
+</html>
+
diff --git a/76505-h/images/a0050_ill.jpg b/76505-h/images/a0050_ill.jpg
new file mode 100644
index 0000000..947cb3a
--- /dev/null
+++ b/76505-h/images/a0050_ill.jpg
diff --git a/76505-h/images/cover.jpg b/76505-h/images/cover.jpg
new file mode 100644
index 0000000..ab24293
--- /dev/null
+++ b/76505-h/images/cover.jpg
diff --git a/76505-h/images/fig1.jpg b/76505-h/images/fig1.jpg
new file mode 100644
index 0000000..6212355
--- /dev/null
+++ b/76505-h/images/fig1.jpg
diff --git a/76505-h/images/fig10.jpg b/76505-h/images/fig10.jpg
new file mode 100644
index 0000000..8571c94
--- /dev/null
+++ b/76505-h/images/fig10.jpg
diff --git a/76505-h/images/fig100.jpg b/76505-h/images/fig100.jpg
new file mode 100644
index 0000000..f90017c
--- /dev/null
+++ b/76505-h/images/fig100.jpg
diff --git a/76505-h/images/fig101.jpg b/76505-h/images/fig101.jpg
new file mode 100644
index 0000000..3f0865e
--- /dev/null
+++ b/76505-h/images/fig101.jpg
diff --git a/76505-h/images/fig102.jpg b/76505-h/images/fig102.jpg
new file mode 100644
index 0000000..9ddc853
--- /dev/null
+++ b/76505-h/images/fig102.jpg
diff --git a/76505-h/images/fig103.jpg b/76505-h/images/fig103.jpg
new file mode 100644
index 0000000..01f926c
--- /dev/null
+++ b/76505-h/images/fig103.jpg
diff --git a/76505-h/images/fig104.jpg b/76505-h/images/fig104.jpg
new file mode 100644
index 0000000..85e5190
--- /dev/null
+++ b/76505-h/images/fig104.jpg
diff --git a/76505-h/images/fig105.jpg b/76505-h/images/fig105.jpg
new file mode 100644
index 0000000..8f29e80
--- /dev/null
+++ b/76505-h/images/fig105.jpg
diff --git a/76505-h/images/fig106.jpg b/76505-h/images/fig106.jpg
new file mode 100644
index 0000000..43c9ed2
--- /dev/null
+++ b/76505-h/images/fig106.jpg
diff --git a/76505-h/images/fig107_108.jpg b/76505-h/images/fig107_108.jpg
new file mode 100644
index 0000000..a38e5ec
--- /dev/null
+++ b/76505-h/images/fig107_108.jpg
diff --git a/76505-h/images/fig109.jpg b/76505-h/images/fig109.jpg
new file mode 100644
index 0000000..47fc939
--- /dev/null
+++ b/76505-h/images/fig109.jpg
diff --git a/76505-h/images/fig11.jpg b/76505-h/images/fig11.jpg
new file mode 100644
index 0000000..b593d36
--- /dev/null
+++ b/76505-h/images/fig11.jpg
diff --git a/76505-h/images/fig110.jpg b/76505-h/images/fig110.jpg
new file mode 100644
index 0000000..21506a0
--- /dev/null
+++ b/76505-h/images/fig110.jpg
diff --git a/76505-h/images/fig111.jpg b/76505-h/images/fig111.jpg
new file mode 100644
index 0000000..86bb439
--- /dev/null
+++ b/76505-h/images/fig111.jpg
diff --git a/76505-h/images/fig112.jpg b/76505-h/images/fig112.jpg
new file mode 100644
index 0000000..c9e8e8a
--- /dev/null
+++ b/76505-h/images/fig112.jpg
diff --git a/76505-h/images/fig113.jpg b/76505-h/images/fig113.jpg
new file mode 100644
index 0000000..336fc28
--- /dev/null
+++ b/76505-h/images/fig113.jpg
diff --git a/76505-h/images/fig114.jpg b/76505-h/images/fig114.jpg
new file mode 100644
index 0000000..0ec4694
--- /dev/null
+++ b/76505-h/images/fig114.jpg
diff --git a/76505-h/images/fig115.jpg b/76505-h/images/fig115.jpg
new file mode 100644
index 0000000..3a6f3f3
--- /dev/null
+++ b/76505-h/images/fig115.jpg
diff --git a/76505-h/images/fig116_117.jpg b/76505-h/images/fig116_117.jpg
new file mode 100644
index 0000000..7140bad
--- /dev/null
+++ b/76505-h/images/fig116_117.jpg
diff --git a/76505-h/images/fig118.jpg b/76505-h/images/fig118.jpg
new file mode 100644
index 0000000..50d2b6c
--- /dev/null
+++ b/76505-h/images/fig118.jpg
diff --git a/76505-h/images/fig119.jpg b/76505-h/images/fig119.jpg
new file mode 100644
index 0000000..50aac2c
--- /dev/null
+++ b/76505-h/images/fig119.jpg
diff --git a/76505-h/images/fig12.jpg b/76505-h/images/fig12.jpg
new file mode 100644
index 0000000..6fde67a
--- /dev/null
+++ b/76505-h/images/fig12.jpg
diff --git a/76505-h/images/fig120.jpg b/76505-h/images/fig120.jpg
new file mode 100644
index 0000000..d0b988c
--- /dev/null
+++ b/76505-h/images/fig120.jpg
diff --git a/76505-h/images/fig121.jpg b/76505-h/images/fig121.jpg
new file mode 100644
index 0000000..5e5d4d0
--- /dev/null
+++ b/76505-h/images/fig121.jpg
diff --git a/76505-h/images/fig122.jpg b/76505-h/images/fig122.jpg
new file mode 100644
index 0000000..1677171
--- /dev/null
+++ b/76505-h/images/fig122.jpg
diff --git a/76505-h/images/fig123.jpg b/76505-h/images/fig123.jpg
new file mode 100644
index 0000000..83793ee
--- /dev/null
+++ b/76505-h/images/fig123.jpg
diff --git a/76505-h/images/fig124.jpg b/76505-h/images/fig124.jpg
new file mode 100644
index 0000000..a53338b
--- /dev/null
+++ b/76505-h/images/fig124.jpg
diff --git a/76505-h/images/fig125.jpg b/76505-h/images/fig125.jpg
new file mode 100644
index 0000000..2df61d5
--- /dev/null
+++ b/76505-h/images/fig125.jpg
diff --git a/76505-h/images/fig126.jpg b/76505-h/images/fig126.jpg
new file mode 100644
index 0000000..84abb21
--- /dev/null
+++ b/76505-h/images/fig126.jpg
diff --git a/76505-h/images/fig127.jpg b/76505-h/images/fig127.jpg
new file mode 100644
index 0000000..ad8d5d8
--- /dev/null
+++ b/76505-h/images/fig127.jpg
diff --git a/76505-h/images/fig128.jpg b/76505-h/images/fig128.jpg
new file mode 100644
index 0000000..028ad50
--- /dev/null
+++ b/76505-h/images/fig128.jpg
diff --git a/76505-h/images/fig129.jpg b/76505-h/images/fig129.jpg
new file mode 100644
index 0000000..a701cfd
--- /dev/null
+++ b/76505-h/images/fig129.jpg
diff --git a/76505-h/images/fig13.jpg b/76505-h/images/fig13.jpg
new file mode 100644
index 0000000..f666a9f
--- /dev/null
+++ b/76505-h/images/fig13.jpg
diff --git a/76505-h/images/fig130.jpg b/76505-h/images/fig130.jpg
new file mode 100644
index 0000000..ff5a838
--- /dev/null
+++ b/76505-h/images/fig130.jpg
diff --git a/76505-h/images/fig131.jpg b/76505-h/images/fig131.jpg
new file mode 100644
index 0000000..665f4b9
--- /dev/null
+++ b/76505-h/images/fig131.jpg
diff --git a/76505-h/images/fig132.jpg b/76505-h/images/fig132.jpg
new file mode 100644
index 0000000..6d13c8d
--- /dev/null
+++ b/76505-h/images/fig132.jpg
diff --git a/76505-h/images/fig133.jpg b/76505-h/images/fig133.jpg
new file mode 100644
index 0000000..1354912
--- /dev/null
+++ b/76505-h/images/fig133.jpg
diff --git a/76505-h/images/fig134.jpg b/76505-h/images/fig134.jpg
new file mode 100644
index 0000000..0213d8c
--- /dev/null
+++ b/76505-h/images/fig134.jpg
diff --git a/76505-h/images/fig135.jpg b/76505-h/images/fig135.jpg
new file mode 100644
index 0000000..c1ac3e7
--- /dev/null
+++ b/76505-h/images/fig135.jpg
diff --git a/76505-h/images/fig136.jpg b/76505-h/images/fig136.jpg
new file mode 100644
index 0000000..b101db4
--- /dev/null
+++ b/76505-h/images/fig136.jpg
diff --git a/76505-h/images/fig137.jpg b/76505-h/images/fig137.jpg
new file mode 100644
index 0000000..1912192
--- /dev/null
+++ b/76505-h/images/fig137.jpg
diff --git a/76505-h/images/fig138.jpg b/76505-h/images/fig138.jpg
new file mode 100644
index 0000000..251365b
--- /dev/null
+++ b/76505-h/images/fig138.jpg
diff --git a/76505-h/images/fig139.jpg b/76505-h/images/fig139.jpg
new file mode 100644
index 0000000..843e2a5
--- /dev/null
+++ b/76505-h/images/fig139.jpg
diff --git a/76505-h/images/fig14.jpg b/76505-h/images/fig14.jpg
new file mode 100644
index 0000000..1022447
--- /dev/null
+++ b/76505-h/images/fig14.jpg
diff --git a/76505-h/images/fig140.jpg b/76505-h/images/fig140.jpg
new file mode 100644
index 0000000..d8656ac
--- /dev/null
+++ b/76505-h/images/fig140.jpg
diff --git a/76505-h/images/fig141.jpg b/76505-h/images/fig141.jpg
new file mode 100644
index 0000000..b28a8a1
--- /dev/null
+++ b/76505-h/images/fig141.jpg
diff --git a/76505-h/images/fig142.jpg b/76505-h/images/fig142.jpg
new file mode 100644
index 0000000..afa7970
--- /dev/null
+++ b/76505-h/images/fig142.jpg
diff --git a/76505-h/images/fig143.jpg b/76505-h/images/fig143.jpg
new file mode 100644
index 0000000..6b3a3d8
--- /dev/null
+++ b/76505-h/images/fig143.jpg
diff --git a/76505-h/images/fig144.jpg b/76505-h/images/fig144.jpg
new file mode 100644
index 0000000..b2bda01
--- /dev/null
+++ b/76505-h/images/fig144.jpg
diff --git a/76505-h/images/fig145.jpg b/76505-h/images/fig145.jpg
new file mode 100644
index 0000000..a88622f
--- /dev/null
+++ b/76505-h/images/fig145.jpg
diff --git a/76505-h/images/fig146.jpg b/76505-h/images/fig146.jpg
new file mode 100644
index 0000000..a7a6669
--- /dev/null
+++ b/76505-h/images/fig146.jpg
diff --git a/76505-h/images/fig147.jpg b/76505-h/images/fig147.jpg
new file mode 100644
index 0000000..5cdc1e3
--- /dev/null
+++ b/76505-h/images/fig147.jpg
diff --git a/76505-h/images/fig148.jpg b/76505-h/images/fig148.jpg
new file mode 100644
index 0000000..a13d313
--- /dev/null
+++ b/76505-h/images/fig148.jpg
diff --git a/76505-h/images/fig149.jpg b/76505-h/images/fig149.jpg
new file mode 100644
index 0000000..fdbd5ba
--- /dev/null
+++ b/76505-h/images/fig149.jpg
diff --git a/76505-h/images/fig15.jpg b/76505-h/images/fig15.jpg
new file mode 100644
index 0000000..f3030b9
--- /dev/null
+++ b/76505-h/images/fig15.jpg
diff --git a/76505-h/images/fig150.jpg b/76505-h/images/fig150.jpg
new file mode 100644
index 0000000..5aedbd3
--- /dev/null
+++ b/76505-h/images/fig150.jpg
diff --git a/76505-h/images/fig151.jpg b/76505-h/images/fig151.jpg
new file mode 100644
index 0000000..830821a
--- /dev/null
+++ b/76505-h/images/fig151.jpg
diff --git a/76505-h/images/fig152.jpg b/76505-h/images/fig152.jpg
new file mode 100644
index 0000000..c38f961
--- /dev/null
+++ b/76505-h/images/fig152.jpg
diff --git a/76505-h/images/fig153.jpg b/76505-h/images/fig153.jpg
new file mode 100644
index 0000000..57bd067
--- /dev/null
+++ b/76505-h/images/fig153.jpg
diff --git a/76505-h/images/fig154.jpg b/76505-h/images/fig154.jpg
new file mode 100644
index 0000000..2703c4e
--- /dev/null
+++ b/76505-h/images/fig154.jpg
diff --git a/76505-h/images/fig155.jpg b/76505-h/images/fig155.jpg
new file mode 100644
index 0000000..a8e2c2d
--- /dev/null
+++ b/76505-h/images/fig155.jpg
diff --git a/76505-h/images/fig156.jpg b/76505-h/images/fig156.jpg
new file mode 100644
index 0000000..026729f
--- /dev/null
+++ b/76505-h/images/fig156.jpg
diff --git a/76505-h/images/fig157.jpg b/76505-h/images/fig157.jpg
new file mode 100644
index 0000000..834c56e
--- /dev/null
+++ b/76505-h/images/fig157.jpg
diff --git a/76505-h/images/fig158.jpg b/76505-h/images/fig158.jpg
new file mode 100644
index 0000000..eae552a
--- /dev/null
+++ b/76505-h/images/fig158.jpg
diff --git a/76505-h/images/fig159.jpg b/76505-h/images/fig159.jpg
new file mode 100644
index 0000000..507fece
--- /dev/null
+++ b/76505-h/images/fig159.jpg
diff --git a/76505-h/images/fig16.jpg b/76505-h/images/fig16.jpg
new file mode 100644
index 0000000..41a962a
--- /dev/null
+++ b/76505-h/images/fig16.jpg
diff --git a/76505-h/images/fig160.jpg b/76505-h/images/fig160.jpg
new file mode 100644
index 0000000..074258d
--- /dev/null
+++ b/76505-h/images/fig160.jpg
diff --git a/76505-h/images/fig161.jpg b/76505-h/images/fig161.jpg
new file mode 100644
index 0000000..392e3ca
--- /dev/null
+++ b/76505-h/images/fig161.jpg
diff --git a/76505-h/images/fig162.jpg b/76505-h/images/fig162.jpg
new file mode 100644
index 0000000..93b9e7d
--- /dev/null
+++ b/76505-h/images/fig162.jpg
diff --git a/76505-h/images/fig163.jpg b/76505-h/images/fig163.jpg
new file mode 100644
index 0000000..6a0be15
--- /dev/null
+++ b/76505-h/images/fig163.jpg
diff --git a/76505-h/images/fig164.jpg b/76505-h/images/fig164.jpg
new file mode 100644
index 0000000..e713a81
--- /dev/null
+++ b/76505-h/images/fig164.jpg
diff --git a/76505-h/images/fig165_166.jpg b/76505-h/images/fig165_166.jpg
new file mode 100644
index 0000000..4d3e417
--- /dev/null
+++ b/76505-h/images/fig165_166.jpg
diff --git a/76505-h/images/fig167.jpg b/76505-h/images/fig167.jpg
new file mode 100644
index 0000000..902cc96
--- /dev/null
+++ b/76505-h/images/fig167.jpg
diff --git a/76505-h/images/fig168.jpg b/76505-h/images/fig168.jpg
new file mode 100644
index 0000000..a0b3b20
--- /dev/null
+++ b/76505-h/images/fig168.jpg
diff --git a/76505-h/images/fig169.jpg b/76505-h/images/fig169.jpg
new file mode 100644
index 0000000..51769c9
--- /dev/null
+++ b/76505-h/images/fig169.jpg
diff --git a/76505-h/images/fig170.jpg b/76505-h/images/fig170.jpg
new file mode 100644
index 0000000..1d609ad
--- /dev/null
+++ b/76505-h/images/fig170.jpg
diff --git a/76505-h/images/fig171.jpg b/76505-h/images/fig171.jpg
new file mode 100644
index 0000000..5880ee7
--- /dev/null
+++ b/76505-h/images/fig171.jpg
diff --git a/76505-h/images/fig172.jpg b/76505-h/images/fig172.jpg
new file mode 100644
index 0000000..bec043f
--- /dev/null
+++ b/76505-h/images/fig172.jpg
diff --git a/76505-h/images/fig173.jpg b/76505-h/images/fig173.jpg
new file mode 100644
index 0000000..7427f43
--- /dev/null
+++ b/76505-h/images/fig173.jpg
diff --git a/76505-h/images/fig174.jpg b/76505-h/images/fig174.jpg
new file mode 100644
index 0000000..8d53ab8
--- /dev/null
+++ b/76505-h/images/fig174.jpg
diff --git a/76505-h/images/fig175.jpg b/76505-h/images/fig175.jpg
new file mode 100644
index 0000000..fefb684
--- /dev/null
+++ b/76505-h/images/fig175.jpg
diff --git a/76505-h/images/fig176.jpg b/76505-h/images/fig176.jpg
new file mode 100644
index 0000000..9549928
--- /dev/null
+++ b/76505-h/images/fig176.jpg
diff --git a/76505-h/images/fig177.jpg b/76505-h/images/fig177.jpg
new file mode 100644
index 0000000..de28716
--- /dev/null
+++ b/76505-h/images/fig177.jpg
diff --git a/76505-h/images/fig178.jpg b/76505-h/images/fig178.jpg
new file mode 100644
index 0000000..25a07ad
--- /dev/null
+++ b/76505-h/images/fig178.jpg
diff --git a/76505-h/images/fig179.jpg b/76505-h/images/fig179.jpg
new file mode 100644
index 0000000..d1277ba
--- /dev/null
+++ b/76505-h/images/fig179.jpg
diff --git a/76505-h/images/fig17_18.jpg b/76505-h/images/fig17_18.jpg
new file mode 100644
index 0000000..85dccee
--- /dev/null
+++ b/76505-h/images/fig17_18.jpg
diff --git a/76505-h/images/fig180.jpg b/76505-h/images/fig180.jpg
new file mode 100644
index 0000000..7df988b
--- /dev/null
+++ b/76505-h/images/fig180.jpg
diff --git a/76505-h/images/fig19.jpg b/76505-h/images/fig19.jpg
new file mode 100644
index 0000000..17c0ed8
--- /dev/null
+++ b/76505-h/images/fig19.jpg
diff --git a/76505-h/images/fig2.jpg b/76505-h/images/fig2.jpg
new file mode 100644
index 0000000..8867ac2
--- /dev/null
+++ b/76505-h/images/fig2.jpg
diff --git a/76505-h/images/fig20.jpg b/76505-h/images/fig20.jpg
new file mode 100644
index 0000000..8a91dba
--- /dev/null
+++ b/76505-h/images/fig20.jpg
diff --git a/76505-h/images/fig21.jpg b/76505-h/images/fig21.jpg
new file mode 100644
index 0000000..526772d
--- /dev/null
+++ b/76505-h/images/fig21.jpg
diff --git a/76505-h/images/fig22.jpg b/76505-h/images/fig22.jpg
new file mode 100644
index 0000000..d9edee3
--- /dev/null
+++ b/76505-h/images/fig22.jpg
diff --git a/76505-h/images/fig23.jpg b/76505-h/images/fig23.jpg
new file mode 100644
index 0000000..33470f8
--- /dev/null
+++ b/76505-h/images/fig23.jpg
diff --git a/76505-h/images/fig24.jpg b/76505-h/images/fig24.jpg
new file mode 100644
index 0000000..b665f85
--- /dev/null
+++ b/76505-h/images/fig24.jpg
diff --git a/76505-h/images/fig25.jpg b/76505-h/images/fig25.jpg
new file mode 100644
index 0000000..66a3150
--- /dev/null
+++ b/76505-h/images/fig25.jpg
diff --git a/76505-h/images/fig26.jpg b/76505-h/images/fig26.jpg
new file mode 100644
index 0000000..ac9156f
--- /dev/null
+++ b/76505-h/images/fig26.jpg
diff --git a/76505-h/images/fig27_28.jpg b/76505-h/images/fig27_28.jpg
new file mode 100644
index 0000000..ee4df46
--- /dev/null
+++ b/76505-h/images/fig27_28.jpg
diff --git a/76505-h/images/fig29.jpg b/76505-h/images/fig29.jpg
new file mode 100644
index 0000000..5936f78
--- /dev/null
+++ b/76505-h/images/fig29.jpg
diff --git a/76505-h/images/fig3.jpg b/76505-h/images/fig3.jpg
new file mode 100644
index 0000000..841a1c0
--- /dev/null
+++ b/76505-h/images/fig3.jpg
diff --git a/76505-h/images/fig30.jpg b/76505-h/images/fig30.jpg
new file mode 100644
index 0000000..cce6cc5
--- /dev/null
+++ b/76505-h/images/fig30.jpg
diff --git a/76505-h/images/fig31.jpg b/76505-h/images/fig31.jpg
new file mode 100644
index 0000000..e5e4cbe
--- /dev/null
+++ b/76505-h/images/fig31.jpg
diff --git a/76505-h/images/fig32.jpg b/76505-h/images/fig32.jpg
new file mode 100644
index 0000000..68bb4ad
--- /dev/null
+++ b/76505-h/images/fig32.jpg
diff --git a/76505-h/images/fig33.jpg b/76505-h/images/fig33.jpg
new file mode 100644
index 0000000..4ac64a4
--- /dev/null
+++ b/76505-h/images/fig33.jpg
diff --git a/76505-h/images/fig34.jpg b/76505-h/images/fig34.jpg
new file mode 100644
index 0000000..fe219f4
--- /dev/null
+++ b/76505-h/images/fig34.jpg
diff --git a/76505-h/images/fig35.jpg b/76505-h/images/fig35.jpg
new file mode 100644
index 0000000..bf76cf6
--- /dev/null
+++ b/76505-h/images/fig35.jpg
diff --git a/76505-h/images/fig36.jpg b/76505-h/images/fig36.jpg
new file mode 100644
index 0000000..12bb5ec
--- /dev/null
+++ b/76505-h/images/fig36.jpg
diff --git a/76505-h/images/fig37.jpg b/76505-h/images/fig37.jpg
new file mode 100644
index 0000000..9b47bd1
--- /dev/null
+++ b/76505-h/images/fig37.jpg
diff --git a/76505-h/images/fig38.jpg b/76505-h/images/fig38.jpg
new file mode 100644
index 0000000..eed9fe7
--- /dev/null
+++ b/76505-h/images/fig38.jpg
diff --git a/76505-h/images/fig39.jpg b/76505-h/images/fig39.jpg
new file mode 100644
index 0000000..bee280c
--- /dev/null
+++ b/76505-h/images/fig39.jpg
diff --git a/76505-h/images/fig4.jpg b/76505-h/images/fig4.jpg
new file mode 100644
index 0000000..c255906
--- /dev/null
+++ b/76505-h/images/fig4.jpg
diff --git a/76505-h/images/fig40.jpg b/76505-h/images/fig40.jpg
new file mode 100644
index 0000000..4b7d767
--- /dev/null
+++ b/76505-h/images/fig40.jpg
diff --git a/76505-h/images/fig41.jpg b/76505-h/images/fig41.jpg
new file mode 100644
index 0000000..9cfdf4a
--- /dev/null
+++ b/76505-h/images/fig41.jpg
diff --git a/76505-h/images/fig42.jpg b/76505-h/images/fig42.jpg
new file mode 100644
index 0000000..d242744
--- /dev/null
+++ b/76505-h/images/fig42.jpg
diff --git a/76505-h/images/fig43.jpg b/76505-h/images/fig43.jpg
new file mode 100644
index 0000000..1772f51
--- /dev/null
+++ b/76505-h/images/fig43.jpg
diff --git a/76505-h/images/fig44.jpg b/76505-h/images/fig44.jpg
new file mode 100644
index 0000000..163b321
--- /dev/null
+++ b/76505-h/images/fig44.jpg
diff --git a/76505-h/images/fig45.jpg b/76505-h/images/fig45.jpg
new file mode 100644
index 0000000..2ea5df2
--- /dev/null
+++ b/76505-h/images/fig45.jpg
diff --git a/76505-h/images/fig46.jpg b/76505-h/images/fig46.jpg
new file mode 100644
index 0000000..5d9c04e
--- /dev/null
+++ b/76505-h/images/fig46.jpg
diff --git a/76505-h/images/fig47.jpg b/76505-h/images/fig47.jpg
new file mode 100644
index 0000000..54b933a
--- /dev/null
+++ b/76505-h/images/fig47.jpg
diff --git a/76505-h/images/fig48.jpg b/76505-h/images/fig48.jpg
new file mode 100644
index 0000000..6f39c43
--- /dev/null
+++ b/76505-h/images/fig48.jpg
diff --git a/76505-h/images/fig49.jpg b/76505-h/images/fig49.jpg
new file mode 100644
index 0000000..dc21b70
--- /dev/null
+++ b/76505-h/images/fig49.jpg
diff --git a/76505-h/images/fig50.jpg b/76505-h/images/fig50.jpg
new file mode 100644
index 0000000..43e63ae
--- /dev/null
+++ b/76505-h/images/fig50.jpg
diff --git a/76505-h/images/fig51.jpg b/76505-h/images/fig51.jpg
new file mode 100644
index 0000000..aaaecb1
--- /dev/null
+++ b/76505-h/images/fig51.jpg
diff --git a/76505-h/images/fig52.jpg b/76505-h/images/fig52.jpg
new file mode 100644
index 0000000..f98d350
--- /dev/null
+++ b/76505-h/images/fig52.jpg
diff --git a/76505-h/images/fig53.jpg b/76505-h/images/fig53.jpg
new file mode 100644
index 0000000..c5261b1
--- /dev/null
+++ b/76505-h/images/fig53.jpg
diff --git a/76505-h/images/fig54.jpg b/76505-h/images/fig54.jpg
new file mode 100644
index 0000000..22c7ecf
--- /dev/null
+++ b/76505-h/images/fig54.jpg
diff --git a/76505-h/images/fig55.jpg b/76505-h/images/fig55.jpg
new file mode 100644
index 0000000..30be51d
--- /dev/null
+++ b/76505-h/images/fig55.jpg
diff --git a/76505-h/images/fig56_59.jpg b/76505-h/images/fig56_59.jpg
new file mode 100644
index 0000000..b46c85f
--- /dev/null
+++ b/76505-h/images/fig56_59.jpg
diff --git a/76505-h/images/fig5_6.jpg b/76505-h/images/fig5_6.jpg
new file mode 100644
index 0000000..71552c9
--- /dev/null
+++ b/76505-h/images/fig5_6.jpg
diff --git a/76505-h/images/fig60.jpg b/76505-h/images/fig60.jpg
new file mode 100644
index 0000000..9cbffb9
--- /dev/null
+++ b/76505-h/images/fig60.jpg
diff --git a/76505-h/images/fig61.jpg b/76505-h/images/fig61.jpg
new file mode 100644
index 0000000..a0b06e9
--- /dev/null
+++ b/76505-h/images/fig61.jpg
diff --git a/76505-h/images/fig62.jpg b/76505-h/images/fig62.jpg
new file mode 100644
index 0000000..93b88dc
--- /dev/null
+++ b/76505-h/images/fig62.jpg
diff --git a/76505-h/images/fig63.jpg b/76505-h/images/fig63.jpg
new file mode 100644
index 0000000..792c9a5
--- /dev/null
+++ b/76505-h/images/fig63.jpg
diff --git a/76505-h/images/fig64_65.jpg b/76505-h/images/fig64_65.jpg
new file mode 100644
index 0000000..1007b11
--- /dev/null
+++ b/76505-h/images/fig64_65.jpg
diff --git a/76505-h/images/fig66.jpg b/76505-h/images/fig66.jpg
new file mode 100644
index 0000000..56e93f2
--- /dev/null
+++ b/76505-h/images/fig66.jpg
diff --git a/76505-h/images/fig67.jpg b/76505-h/images/fig67.jpg
new file mode 100644
index 0000000..3760c1b
--- /dev/null
+++ b/76505-h/images/fig67.jpg
diff --git a/76505-h/images/fig68_69.jpg b/76505-h/images/fig68_69.jpg
new file mode 100644
index 0000000..93d2d42
--- /dev/null
+++ b/76505-h/images/fig68_69.jpg
diff --git a/76505-h/images/fig7.jpg b/76505-h/images/fig7.jpg
new file mode 100644
index 0000000..98daa43
--- /dev/null
+++ b/76505-h/images/fig7.jpg
diff --git a/76505-h/images/fig70.jpg b/76505-h/images/fig70.jpg
new file mode 100644
index 0000000..1e46bec
--- /dev/null
+++ b/76505-h/images/fig70.jpg
diff --git a/76505-h/images/fig71_72.jpg b/76505-h/images/fig71_72.jpg
new file mode 100644
index 0000000..4efec0c
--- /dev/null
+++ b/76505-h/images/fig71_72.jpg
diff --git a/76505-h/images/fig73.jpg b/76505-h/images/fig73.jpg
new file mode 100644
index 0000000..04339ba
--- /dev/null
+++ b/76505-h/images/fig73.jpg
diff --git a/76505-h/images/fig74.jpg b/76505-h/images/fig74.jpg
new file mode 100644
index 0000000..5210215
--- /dev/null
+++ b/76505-h/images/fig74.jpg
diff --git a/76505-h/images/fig75.jpg b/76505-h/images/fig75.jpg
new file mode 100644
index 0000000..7ec877a
--- /dev/null
+++ b/76505-h/images/fig75.jpg
diff --git a/76505-h/images/fig76.jpg b/76505-h/images/fig76.jpg
new file mode 100644
index 0000000..b738e58
--- /dev/null
+++ b/76505-h/images/fig76.jpg
diff --git a/76505-h/images/fig77.jpg b/76505-h/images/fig77.jpg
new file mode 100644
index 0000000..46430c8
--- /dev/null
+++ b/76505-h/images/fig77.jpg
diff --git a/76505-h/images/fig78.jpg b/76505-h/images/fig78.jpg
new file mode 100644
index 0000000..695c3f0
--- /dev/null
+++ b/76505-h/images/fig78.jpg
diff --git a/76505-h/images/fig79.jpg b/76505-h/images/fig79.jpg
new file mode 100644
index 0000000..411009c
--- /dev/null
+++ b/76505-h/images/fig79.jpg
diff --git a/76505-h/images/fig8.jpg b/76505-h/images/fig8.jpg
new file mode 100644
index 0000000..1131591
--- /dev/null
+++ b/76505-h/images/fig8.jpg
diff --git a/76505-h/images/fig80.jpg b/76505-h/images/fig80.jpg
new file mode 100644
index 0000000..f3c7ef5
--- /dev/null
+++ b/76505-h/images/fig80.jpg
diff --git a/76505-h/images/fig81.jpg b/76505-h/images/fig81.jpg
new file mode 100644
index 0000000..311aca5
--- /dev/null
+++ b/76505-h/images/fig81.jpg
diff --git a/76505-h/images/fig82.jpg b/76505-h/images/fig82.jpg
new file mode 100644
index 0000000..a745e2a
--- /dev/null
+++ b/76505-h/images/fig82.jpg
diff --git a/76505-h/images/fig83_84.jpg b/76505-h/images/fig83_84.jpg
new file mode 100644
index 0000000..e58e94a
--- /dev/null
+++ b/76505-h/images/fig83_84.jpg
diff --git a/76505-h/images/fig85.jpg b/76505-h/images/fig85.jpg
new file mode 100644
index 0000000..b168d80
--- /dev/null
+++ b/76505-h/images/fig85.jpg
diff --git a/76505-h/images/fig86.jpg b/76505-h/images/fig86.jpg
new file mode 100644
index 0000000..c6aa25d
--- /dev/null
+++ b/76505-h/images/fig86.jpg
diff --git a/76505-h/images/fig87.jpg b/76505-h/images/fig87.jpg
new file mode 100644
index 0000000..4c41cfd
--- /dev/null
+++ b/76505-h/images/fig87.jpg
diff --git a/76505-h/images/fig88.jpg b/76505-h/images/fig88.jpg
new file mode 100644
index 0000000..7cfa311
--- /dev/null
+++ b/76505-h/images/fig88.jpg
diff --git a/76505-h/images/fig89.jpg b/76505-h/images/fig89.jpg
new file mode 100644
index 0000000..6be9608
--- /dev/null
+++ b/76505-h/images/fig89.jpg
diff --git a/76505-h/images/fig9.jpg b/76505-h/images/fig9.jpg
new file mode 100644
index 0000000..9a3a8ff
--- /dev/null
+++ b/76505-h/images/fig9.jpg
diff --git a/76505-h/images/fig90.jpg b/76505-h/images/fig90.jpg
new file mode 100644
index 0000000..595f223
--- /dev/null
+++ b/76505-h/images/fig90.jpg
diff --git a/76505-h/images/fig91.jpg b/76505-h/images/fig91.jpg
new file mode 100644
index 0000000..f02af18
--- /dev/null
+++ b/76505-h/images/fig91.jpg
diff --git a/76505-h/images/fig92.jpg b/76505-h/images/fig92.jpg
new file mode 100644
index 0000000..7eacdac
--- /dev/null
+++ b/76505-h/images/fig92.jpg
diff --git a/76505-h/images/fig93.jpg b/76505-h/images/fig93.jpg
new file mode 100644
index 0000000..a651982
--- /dev/null
+++ b/76505-h/images/fig93.jpg
diff --git a/76505-h/images/fig94.jpg b/76505-h/images/fig94.jpg
new file mode 100644
index 0000000..222efa3
--- /dev/null
+++ b/76505-h/images/fig94.jpg
diff --git a/76505-h/images/fig95.jpg b/76505-h/images/fig95.jpg
new file mode 100644
index 0000000..b7c321d
--- /dev/null
+++ b/76505-h/images/fig95.jpg
diff --git a/76505-h/images/fig96.jpg b/76505-h/images/fig96.jpg
new file mode 100644
index 0000000..69ecaf4
--- /dev/null
+++ b/76505-h/images/fig96.jpg
diff --git a/76505-h/images/fig97.jpg b/76505-h/images/fig97.jpg
new file mode 100644
index 0000000..a03cd33
--- /dev/null
+++ b/76505-h/images/fig97.jpg
diff --git a/76505-h/images/fig98.jpg b/76505-h/images/fig98.jpg
new file mode 100644
index 0000000..7b6ba20
--- /dev/null
+++ b/76505-h/images/fig98.jpg
diff --git a/76505-h/images/fig99.jpg b/76505-h/images/fig99.jpg
new file mode 100644
index 0000000..8be67c4
--- /dev/null
+++ b/76505-h/images/fig99.jpg
diff --git a/76505-h/images/plate1.jpg b/76505-h/images/plate1.jpg
new file mode 100644
index 0000000..9dacb15
--- /dev/null
+++ b/76505-h/images/plate1.jpg
diff --git a/76505-h/images/plate10.jpg b/76505-h/images/plate10.jpg
new file mode 100644
index 0000000..71c89fc
--- /dev/null
+++ b/76505-h/images/plate10.jpg
diff --git a/76505-h/images/plate11.jpg b/76505-h/images/plate11.jpg
new file mode 100644
index 0000000..9cad3a2
--- /dev/null
+++ b/76505-h/images/plate11.jpg
diff --git a/76505-h/images/plate12.jpg b/76505-h/images/plate12.jpg
new file mode 100644
index 0000000..1ec5b6f
--- /dev/null
+++ b/76505-h/images/plate12.jpg
diff --git a/76505-h/images/plate13.jpg b/76505-h/images/plate13.jpg
new file mode 100644
index 0000000..d8f7a8d
--- /dev/null
+++ b/76505-h/images/plate13.jpg
diff --git a/76505-h/images/plate14.jpg b/76505-h/images/plate14.jpg
new file mode 100644
index 0000000..32f6312
--- /dev/null
+++ b/76505-h/images/plate14.jpg
diff --git a/76505-h/images/plate15.jpg b/76505-h/images/plate15.jpg
new file mode 100644
index 0000000..4e773f7
--- /dev/null
+++ b/76505-h/images/plate15.jpg
diff --git a/76505-h/images/plate16.jpg b/76505-h/images/plate16.jpg
new file mode 100644
index 0000000..0069b7c
--- /dev/null
+++ b/76505-h/images/plate16.jpg
diff --git a/76505-h/images/plate17.jpg b/76505-h/images/plate17.jpg
new file mode 100644
index 0000000..327ad2d
--- /dev/null
+++ b/76505-h/images/plate17.jpg
diff --git a/76505-h/images/plate18.jpg b/76505-h/images/plate18.jpg
new file mode 100644
index 0000000..073c09a
--- /dev/null
+++ b/76505-h/images/plate18.jpg
diff --git a/76505-h/images/plate19.jpg b/76505-h/images/plate19.jpg
new file mode 100644
index 0000000..892b9ec
--- /dev/null
+++ b/76505-h/images/plate19.jpg
diff --git a/76505-h/images/plate2.jpg b/76505-h/images/plate2.jpg
new file mode 100644
index 0000000..6e334ab
--- /dev/null
+++ b/76505-h/images/plate2.jpg
diff --git a/76505-h/images/plate20.jpg b/76505-h/images/plate20.jpg
new file mode 100644
index 0000000..b976af0
--- /dev/null
+++ b/76505-h/images/plate20.jpg
diff --git a/76505-h/images/plate21.jpg b/76505-h/images/plate21.jpg
new file mode 100644
index 0000000..6af9ac6
--- /dev/null
+++ b/76505-h/images/plate21.jpg
diff --git a/76505-h/images/plate22.jpg b/76505-h/images/plate22.jpg
new file mode 100644
index 0000000..046e776
--- /dev/null
+++ b/76505-h/images/plate22.jpg
diff --git a/76505-h/images/plate23.jpg b/76505-h/images/plate23.jpg
new file mode 100644
index 0000000..66ff556
--- /dev/null
+++ b/76505-h/images/plate23.jpg
diff --git a/76505-h/images/plate24.jpg b/76505-h/images/plate24.jpg
new file mode 100644
index 0000000..c5fa63d
--- /dev/null
+++ b/76505-h/images/plate24.jpg
diff --git a/76505-h/images/plate25.jpg b/76505-h/images/plate25.jpg
new file mode 100644
index 0000000..4ffc92d
--- /dev/null
+++ b/76505-h/images/plate25.jpg
diff --git a/76505-h/images/plate26.jpg b/76505-h/images/plate26.jpg
new file mode 100644
index 0000000..0863c93
--- /dev/null
+++ b/76505-h/images/plate26.jpg
diff --git a/76505-h/images/plate27.jpg b/76505-h/images/plate27.jpg
new file mode 100644
index 0000000..8b20ffb
--- /dev/null
+++ b/76505-h/images/plate27.jpg
diff --git a/76505-h/images/plate28.jpg b/76505-h/images/plate28.jpg
new file mode 100644
index 0000000..c12eaad
--- /dev/null
+++ b/76505-h/images/plate28.jpg
diff --git a/76505-h/images/plate29.jpg b/76505-h/images/plate29.jpg
new file mode 100644
index 0000000..a4cb15d
--- /dev/null
+++ b/76505-h/images/plate29.jpg
diff --git a/76505-h/images/plate3.jpg b/76505-h/images/plate3.jpg
new file mode 100644
index 0000000..7e872d0
--- /dev/null
+++ b/76505-h/images/plate3.jpg
diff --git a/76505-h/images/plate30.jpg b/76505-h/images/plate30.jpg
new file mode 100644
index 0000000..11f1cfb
--- /dev/null
+++ b/76505-h/images/plate30.jpg
diff --git a/76505-h/images/plate31.jpg b/76505-h/images/plate31.jpg
new file mode 100644
index 0000000..0ec1bb1
--- /dev/null
+++ b/76505-h/images/plate31.jpg
diff --git a/76505-h/images/plate32.jpg b/76505-h/images/plate32.jpg
new file mode 100644
index 0000000..57486ec
--- /dev/null
+++ b/76505-h/images/plate32.jpg
diff --git a/76505-h/images/plate33.jpg b/76505-h/images/plate33.jpg
new file mode 100644
index 0000000..8f4bf1e
--- /dev/null
+++ b/76505-h/images/plate33.jpg
diff --git a/76505-h/images/plate34.jpg b/76505-h/images/plate34.jpg
new file mode 100644
index 0000000..b665345
--- /dev/null
+++ b/76505-h/images/plate34.jpg
diff --git a/76505-h/images/plate35.jpg b/76505-h/images/plate35.jpg
new file mode 100644
index 0000000..dd381eb
--- /dev/null
+++ b/76505-h/images/plate35.jpg
diff --git a/76505-h/images/plate36.jpg b/76505-h/images/plate36.jpg
new file mode 100644
index 0000000..300a284
--- /dev/null
+++ b/76505-h/images/plate36.jpg
diff --git a/76505-h/images/plate37.jpg b/76505-h/images/plate37.jpg
new file mode 100644
index 0000000..4ee136a
--- /dev/null
+++ b/76505-h/images/plate37.jpg
diff --git a/76505-h/images/plate4.jpg b/76505-h/images/plate4.jpg
new file mode 100644
index 0000000..3d0d9ea
--- /dev/null
+++ b/76505-h/images/plate4.jpg
diff --git a/76505-h/images/plate5.jpg b/76505-h/images/plate5.jpg
new file mode 100644
index 0000000..3206d14
--- /dev/null
+++ b/76505-h/images/plate5.jpg
diff --git a/76505-h/images/plate6.jpg b/76505-h/images/plate6.jpg
new file mode 100644
index 0000000..763c268
--- /dev/null
+++ b/76505-h/images/plate6.jpg
diff --git a/76505-h/images/plate7.jpg b/76505-h/images/plate7.jpg
new file mode 100644
index 0000000..c6ec7d8
--- /dev/null
+++ b/76505-h/images/plate7.jpg
diff --git a/76505-h/images/plate8.jpg b/76505-h/images/plate8.jpg
new file mode 100644
index 0000000..e586b96
--- /dev/null
+++ b/76505-h/images/plate8.jpg
diff --git a/76505-h/images/plate9.jpg b/76505-h/images/plate9.jpg
new file mode 100644
index 0000000..0b03da6
--- /dev/null
+++ b/76505-h/images/plate9.jpg
diff --git a/76505-h/images/signet.jpg b/76505-h/images/signet.jpg
new file mode 100644
index 0000000..8a91ce0
--- /dev/null
+++ b/76505-h/images/signet.jpg
diff --git a/76505-h/images/title.jpg b/76505-h/images/title.jpg
new file mode 100644
index 0000000..3ec88b7
--- /dev/null
+++ b/76505-h/images/title.jpg
author	pgww <pgww@lists.pglaf.org>	2025-07-15 16:22:01 -0700
committer	pgww <pgww@lists.pglaf.org>	2025-07-15 16:22:01 -0700
commit	c557f721e1ffdf30b60c1c0ea6752ac6b8a404bd (patch)
tree	5c3a9341d054d2ed840d5bebcf6af660589decd0 /76505-h