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diff --git a/37823-h/37823-h.htm b/37823-h/37823-h.htm new file mode 100644 index 0000000..c62f8af --- /dev/null +++ b/37823-h/37823-h.htm @@ -0,0 +1,8434 @@ +<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Strict//EN" + "http://www.w3.org/TR/xhtml1/DTD/xhtml1-strict.dtd"> +<html xmlns="http://www.w3.org/1999/xhtml" xml:lang="en" lang="en"> + <head> + <meta http-equiv="Content-Type" content="text/html;charset=ISO-8859-1" /> + <meta http-equiv="Content-Style-Type" content="text/css" /> + <title> + The Project Gutenberg eBook of Neotropical Hylid Frogs Genus Smilisca, by William E. Duellman and Linda Trueb. + </title> + <style type="text/css"> + + p {text-align: justify; text-indent: 1.5em;} + ins {background-color: #e0ffe0; text-decoration: none;} + table {margin-left: auto; margin-right: auto; padding: 7px; text-align: center; + border-collapse: collapse; margin-bottom: 1em;} + .pad7 {padding: 0px 7px;} + .brdbt {border-bottom: solid #000 1px;} + .brdbt2 {border-bottom: solid #000 2px;} + .brdlf {border-left: solid #000 1px;} + .brdtp {border-top: solid #000 1px;} + .brdtp2 {border-top: solid #000 2px;} + .pagenum {position: absolute; left: 92%; text-indent:0; font-size: 0.75em; + text-align: right; color: #b0b0b0;} + .pagenum2 {position: absolute; left: 92%; text-indent:0; + text-align: right; color: #b0b0b0;} + .references {margin: 0.5em 0 0.5em 5.5em; text-indent: -3em;} + .pub_list td {vertical-align: top;} + .vtop {vertical-align: top;} + .center {text-align: center;} + .center_lf {margin-left: 35%; text-align: left;} + .justify {text-align: justify;} + .text_lf {text-align: left;} + .text_rt {text-align: right;} + .smaller {font-size: 0.8em;} + .smcap {font-variant: small-caps;} + .bold {font-weight: bolder;} + .caption1 {font-weight: bold; font-size:2.00em; text-align: center; margin: 1.5em 0;} + .caption2 {font-size:1.50em; text-align: center; margin: 1.5em 0;} + .caption3 {font-size:1.15em; text-align: center; margin: 1em 0;} + .caption3nb {font-size:1.15em; margin: 1em 0;} + .trans_notes {background:#d0d0d0; padding: 7px; border:solid black 1px;} + .species_ref {margin-left: 2.5em; text-indent: -2.5em; margin-top: 1em; + margin-bottom: 1em; text-align: justify;} + .fig_center {margin: auto; text-align: center;} + .fig_caption {text-align: center; margin-bottom:1.5em;} + .book {margin-left: 10%; margin-right: 10%; margin-top: 2em; margin-bottom:2em;} + .trow1 {background-color: #f0ffe0;} + .trow2 {background-color: #ffffff;} + .tbl4 {vertical-align: top; padding:0px 7px; border-left: solid #000 1px; + text-align: left;} + + </style> + </head> +<body> + + +<pre> + +The Project Gutenberg EBook of Neotropical Hylid Frogs, Genus Smilisca, by +William E. Duellman and Linda Trueb + +This eBook is for the use of anyone anywhere at no cost and with +almost no restrictions whatsoever. You may copy it, give it away or +re-use it under the terms of the Project Gutenberg License included +with this eBook or online at www.gutenberg.org + + +Title: Neotropical Hylid Frogs, Genus Smilisca + +Author: William E. Duellman + Linda Trueb + +Release Date: October 22, 2011 [EBook #37823] + +Language: English + +Character set encoding: ISO-8859-1 + +*** START OF THIS PROJECT GUTENBERG EBOOK NEOTROPICAL HYLID FROGS *** + + + + +Produced by Chris Curnow, Tom Cosmas, Joseph Cooper and +the Online Distributed Proofreading Team at +http://www.pgdp.net + + + + + + +</pre> + + +<div class="book"><!-- Begin Book --> +<div class="fig_center" style="width: 239px;"> +<img src="images/cover.jpg" width="239" height="420" alt="" title="" /> +</div> + +<p><span class="pagenum"><a name="Page_281" id="Page_281">[Pg 281]</a></span></p> +<div class="center"> +<div class="smcap">University of Kansas Publications<br /> +Museum of Natural History</div> +<br /> + +Volume 17, No. 7, pp. 281-375, pls. 1-12, 17 figs.<br /> +<br /> +July 14, 1966<br /> +<br /> + +<div class="caption1">Neotropical Hylid Frogs, Genus Smilisca</div> + +<div class="caption3">BY</div> + +<div class="caption2">WILLIAM E. DUELLMAN AND LINDA TRUEB</div> +<br /> + +<div class="smcap">University of Kansas +Lawrence</div> +1966<br /> +<br /> +<br /> +</div> + +<p><span class="pagenum"><a name="Page_282" id="Page_282">[Pg 282]</a></span></p> + +<div class="center"> +<div class="smcap">University of Kansas Publications, Museum of Natural History</div> +<br /> + +Editors: E. Raymond Hall, Chairman, Henry S. Fitch, Frank B. Cross<br /> +<br /> + +Volume 17, No. 7, pp. 281-375, pls. 1-12, 17 figs.<br /> +Published July 14, 1966<br /> + + + +<div class="smcap">University of Kansas</div> +Lawrence, Kansas<br /> +<br /> +<br /> + + +<div class="caption3">PRINTED BY<br /> +ROBERT R. (BOB) SANDERS, STATE PRINTER<br /> +TOPEKA, KANSAS<br /> +1966<br /> +<br /> +<div class="fig_center" style="width: 74px;"> +<img src="images/union_label.png" width="74" height="27" alt="Look for the Union Label" title="Look for the Union Label" /> +</div> +<br /> +31-3430 +</div> +<br /> +<br /> +</div> + +<p><span class="pagenum"><a name="Page_283" id="Page_283">[Pg 283]</a></span></p> +<br /> + +<div class="caption1">Neotropical Hylid Frogs, Genus Smilisca</div> +<br /> +<div class="caption3">BY</div> +<br /> +<div class="caption2">WILLIAM E. DUELLMAN AND LINDA TRUEB</div> +<br /> +<br /> + + +<div class="caption2"><a name="CONTENTS" id="CONTENTS"></a>CONTENTS</div> + +<table width="100%" style="text-align: left;" summary="ToC"> +<tr> + <td> </td> + <td>PAGE</td> +</tr> +<tr> + <td class="smcap"><a href="#INTRODUCTION">Introduction</a></td> + <td class="text_rt">285</td> +</tr> +<tr> + <td> <a href="#Acknowledgments">Acknowledgments</a></td> + <td class="text_rt">286</td> +</tr> +<tr> + <td> <a href="#Materials_and_Methods">Materials and Methods</a></td> + <td class="text_rt">287</td> +</tr> +<tr> + <td class="smcap"><a href="#Genus_Smilisca">Genus Smilisca Cope, 1865</a></td> + <td class="text_rt">287</td> +</tr> +<tr> + <td> <a href="#Key_to_Adults">Key to Adults</a></td> + <td class="text_rt">288</td> +</tr> +<tr> + <td> <a href="#Key_to_Tadpoles">Key to Tadpoles</a></td> + <td class="text_rt">289</td> +</tr> +<tr> + <td class="smcap"><a href="#ACCOUNTS_OF_SPECIES">Accounts of Species</a></td> + <td class="text_rt">289</td> +</tr> +<tr> + <td> <a href="#Genus_Smilisca"><i>Smilisca baudini</i> (Duméril and Bibron)</a></td> + <td class="text_rt">289</td> +</tr> +<tr> + <td> <a href="#Smilisca_cyanosticta"><i>Smilisca cyanosticta</i> (Smith)</a></td> + <td class="text_rt">303</td> +</tr> +<tr> + <td> <a href="#Smilisca_phaeota"><i>Smilisca phaeota</i> (Cope)</a></td> + <td class="text_rt">308</td> +</tr> +<tr> + <td> <a href="#Smilisca_puma"><i>Smilisca puma</i> (Cope)</a></td> + <td class="text_rt">314</td> +</tr> +<tr> + <td> <a href="#Smilisca_sila"><i>Smilisca sila</i> New species</a></td> + <td class="text_rt">318</td> +</tr> +<tr> + <td> <a href="#Smilisca_sordida"><i>Smilisca sordida</i> (Peters)</a></td> + <td class="text_rt">323</td> +</tr> +<tr> + <td class="smcap"><a href="#ANALYSIS_OF_MORPHOLOGICAL_CHARACTERS">Analysis of Morphological Characters</a></td> + <td class="text_rt">330</td> +</tr> +<tr> + <td> <a href="#Osteology">Osteology</a></td> + <td class="text_rt">330</td> +</tr> +<tr> + <td> <a href="#Descriptive_Osteology"><i>Descriptive Osteology of Smilisca baudini</i></a></td> + <td class="text_rt">331</td> +</tr> +<tr> + <td> <a href="#Developmental_Cranial_Morphology"><i>Developmental Cranial Osteology of Smilisca baudini</i></a></td> + <td class="text_rt">333</td> +</tr> +<tr> + <td> <a href="#Comparative_Osteology"><i>Comparative Osteology</i></a></td> + <td class="text_rt">336</td> +</tr> +<tr> + <td> <a href="#Musculature">Musculature</a></td> + <td class="text_rt">341</td> +</tr> +<tr> + <td> <a href="#SKIN">Skin</a></td> + <td class="text_rt">342</td> +</tr> +<tr> + <td> <a href="#Structure"><i>Structure</i></a></td> + <td class="text_rt">342</td> +</tr> +<tr> + <td> <a href="#Biochemical_Variations"><i>Comparative Biochemistry of Proteins</i></a></td> + <td class="text_rt">343</td> +</tr> +<tr> + <td> <a href="#External_Morphological_Characters">External Morphological Characters</a></td> + <td class="text_rt">343</td> +</tr> +<tr> + <td> <a href="#Size_and_Proportions"><i>Size and Proportions</i></a></td> + <td class="text_rt">343</td> +</tr> +<tr> + <td> <a href="#Shape_of_Snout"><i>Shape of Snout</i></a></td> + <td class="text_rt">344</td> +</tr> +<tr> + <td> <a href="#Hands_and_Feet"><i>Hands and Feet</i></a></td> + <td class="text_rt">344</td> +</tr> +<tr> + <td> <a href="#Ontogenetic_Changes"><i>Ontogenetic Changes</i></a></td> + <td class="text_rt">344</td> +</tr> +<tr> + <td> <a href="#Coloration">Coloration</a></td> + <td class="text_rt">344</td> +</tr> +<tr> + <td> <a href="#Metachrosis"><i>Metachrosis</i></a></td> + <td class="text_rt">345</td> +</tr> +<tr> + <td> <a href="#Chromosomes">Chromosomes</a></td> + <td class="text_rt">345</td> +</tr> +<tr> + <td><span class="smcap"><a href="#NATURAL_HISTORY">Natural History</a></span> + <span class="pagenum"><a name="Page_284" id="Page_284">[Pg 284]</a></span></td> + <td class="text_rt">345</td> +</tr> +<tr> + <td> <a href="#Breeding">Breeding</a></td> + <td class="text_rt">345</td> +</tr> +<tr> + <td> <a href="#Time_of_Breeding"><i>Time of Breeding</i></a></td> + <td class="text_rt">345</td> +</tr> +<tr> + <td> <a href="#Breeding_Sites"><i>Breeding Sites</i></a></td> + <td class="text_rt">346</td> +</tr> +<tr> + <td> <a href="#Breeding_Behavior"><i>Breeding Behavior</i></a></td> + <td class="text_rt">346</td> +</tr> +<tr> + <td> <a href="#Breeding_Call"><i>Breeding Call</i></a></td> + <td class="text_rt">351</td> +</tr> +<tr> + <td> <a href="#Eggs">Eggs</a></td> + <td class="text_rt">356</td> +</tr> +<tr> + <td> <a href="#Tadpoles">Tadpoles</a></td> + <td class="text_rt">357</td> +</tr> +<tr> + <td> <a href="#General_Structure"><i>General Structure</i></a></td> + <td class="text_rt">357</td> +</tr> +<tr> + <td> <a href="#Comparison_of_Species"><i>Comparison of Species</i></a></td> + <td class="text_rt">357</td> +</tr> +<tr> + <td> <a href="#Growth_and_Development"><i>Growth and Development</i></a></td> + <td class="text_rt">361</td> +</tr> +<tr> + <td> <a href="#Behavior"><i>Behavior</i></a></td> + <td class="text_rt">365</td> +</tr> +<tr> + <td class="smcap"><a href="#PHYLOGENETIC_RELATIONSHIPS">Phylogenetic Relationships</a></td> + <td class="text_rt">366</td> +</tr> +<tr> + <td> <a href="#Interspecific_Relationships">Interspecific Relationships</a></td> + <td class="text_rt">366</td> +</tr> +<tr> + <td> <a href="#Evolutionary_History">Evolutionary History</a></td> + <td class="text_rt">369</td> +</tr> +<tr> + <td class="smcap"><a href="#SUMMARY_AND_CONCLUSIONS">Summary and Conclusions</a></td> + <td class="text_rt">371</td> +</tr> +<tr> + <td class="smcap"><a href="#LITERATURE_CITED">Literature Cited</a></td> + <td class="text_rt">372</td> +</tr> +</table> +<br /> +<br /> + +<p><span class="pagenum"><a name="Page_285" id="Page_285">[Pg 285]</a></span></p> + +<div class="caption2"><a name="INTRODUCTION" id="INTRODUCTION"></a>INTRODUCTION</div> + +<p>The family Hylidae, as currently recognized, is composed of +about 34 genera and more than 400 species. Most genera (30) and +about 350 species live in the American tropics. <i>Hyla</i> and 10 other +genera inhabit Central America; four of those 10 genera (<i>Gastrotheca</i>, +<i>Hemiphractus</i>, <i>Phrynohyas</i>, and <i>Phyllomedusa</i>) are widely +distributed in South America. The other six genera are either restricted +to Central America or have their greatest differentiation +there. <i>Plectrohyla</i> and <i>Ptychohyla</i> inhabit streams in the highlands +of southern Mexico and northern Central America; <i>Diaglena</i> and +<i>Triprion</i> are casque-headed inhabitants of arid regions in México +and northern Central America. <i>Anotheca</i> is a tree-hole breeder in +cloud forests in Middle America. The genus <i>Smilisca</i> is the most +widespread geographically and diverse ecologically of the Central +American genera.</p> + +<p>The definition of genera in the family Hylidae is difficult owing +to the vast array of species, most of which are poorly known as +regards their osteology, colors in life, and modes of life history. +The genera <i>Diaglena</i>, <i>Triprion</i>, <i>Tetraprion</i>, <i>Osteocephalus</i>, <i>Trachycephalus</i>, +<i>Aparasphenodon</i>, <i>Corythomantis</i>, <i>Hemiphractus</i>, <i>Pternohyla</i>, +and <i>Anotheca</i> have been recognized as distinct from one +another and from the genus <i>Hyla</i> on the basis of various modifications +of dermal bones of the cranium. <i>Phyllomedusa</i> is recognized +on the basis of a vertical pupil and opposable thumb; <i>Plectrohyla</i> +is characterized by the presence of a bony prepollex and the absence +of a quadratojugal. <i>Gastrotheca</i> is distinguished from other +hylids by the presence of a pouch in the back of females. A pair +of lateral vocal sacs behind the angles of the jaws and the well-developed +dermal glands were used by Duellman (1956) to distinguish +<i>Phrynohyas</i> from <i>Hyla</i>. He (1963a) cited the ventrolateral +glands in breeding males as diagnostic of <i>Ptychohyla</i>. Some species +groups within the vaguely defined genus <i>Hyla</i> have equally distinctive +characters. The <i>Hyla septentrionalis</i> group is characterized +by a casque-head, not much different from that in the genus <i>Osteocephalus</i> +(Trueb, MS). Males in the <i>Hyla maxima</i> group have a +protruding bony prepollex like that characteristically found in +<i>Plectrohyla</i>.</p> + +<p>Ontogenetic development, osteology, breeding call, behavior, and +ecology are important in the recognition of species. By utilizing +<span class="pagenum"><a name="Page_286" id="Page_286">[Pg 286]</a></span> +the combination of many morphological and biological factors, the +genus <i>Smilisca</i> can be defined reasonably well as a natural, phyletic +assemblage of species. Because the wealth of data pertaining to +the morphology and biology of <i>Smilisca</i> is lacking for most other +tree frogs in Middle America it is not possible at present to compare +<i>Smilisca</i> with related groups in more than a general way.</p> + +<p><i>Smilisca</i> is an excellent example of an Autochthonous Middle +American genus. As defined by Stuart (1950) the Autochthonous +Middle American fauna originated from "hanging relicts" left in +Central America by the ancestral fauna that moved into South +America and differentiated there at a time when South America +was isolated from North and Middle America. The genus <i>Smilisca</i>, +as we define it, consists of six species, all of which occur in Central +America. One species ranges northward to southern Texas, and +one extends southward on the Pacific lowlands of South America +to Ecuador. We consider the genus <i>Smilisca</i> to be composed of +rather generalized hylids. Consequently, an understanding of the +systematics and zoogeography of the genus can be expected to be +of aid in studying more specialized members of the family.</p> + + +<div class="caption3"><a name="Acknowledgments" id="Acknowledgments"></a> +Acknowledgments</div> + +<div class="smaller"> +<p>Examination of many of the specimens used in our study was possible only +because of the cooperation of the curators of many systematic collections. For +lending specimens or providing working space in their respective institutions +we are grateful to Doris M. Cochran, Alice G. C. Grandison, Jean Guibe, Robert +F. Inger, Günther Peters, Gerald Raun, William J. Riemer, Jay M. Savage, +Hobart M. Smith, Wilmer W. Tanner, Charles F. Walker, Ernest E. Williams, +and Richard G. Zweifel.</p> + +<p>We are indebted to Charles J. Cole and Charles W. Myers for able assistance +in the field. The cooperation of Martin H. Moynihan at Barro Colorado +Island, Charles M. Keenan of Corozal, Canal Zone, and Robert Hunter of San +José, Costa Rica, is gratefully acknowledged. Jay M. Savage turned over to +us many Costa Rican specimens and aided greatly in our work in Costa Rica. +James A. Peters helped us locate sites of collections in Ecuador and Coleman +J. Goin provided a list of localities for the genus in Colombia.</p> + +<p>We especially thank Charles J. Cole for contributing the information on the +chromosomes, and Robert R. Patterson for preparing osteological specimens. +We thank M. J. Fouquette, Jr., who read the section on breeding calls and +offered constructive criticism.</p> + +<p>Permits for collecting were generously provided by Ing. Rodolfo Hernandez +Corzo in México, Sr. Jorge A. Ibarra in Guatemala, and Ing. Milton Lopez in +Costa Rica. This report was made possible by support from the National +Science Foundation (Grants G-9827 and GB-1441) and the cooperation of the +Museum of Natural History at the University of Kansas. Some of the field +studies were carried out in Panamá under the auspices of a grant from the +National Institutes of Health (NIH GM-12020) in cooperation with the Gorgas +Memorial Laboratory in Panamá.</p> +</div> + +<p><span class="pagenum"><a name="Page_287" id="Page_287">[Pg 287]</a></span></p> + +<div class="caption3"><a name="Materials_and_Methods" id="Materials_and_Methods"></a> +Materials and Methods</div> + +<p>In our study we examined 4151 preserved frogs, 93 skeletal preparations, +88 lots of tadpoles and young, and six lots of eggs. We have collected specimens +in the field of all of the species. Observations on behavior and life history +were begun by the senior author in México in 1956 and completed by us +in Central America in 1964 and 1965.</p> + +<p>Osteological data were obtained from dried skeletons and +<ins title='Correction: was "cleared"'>cleaned</ins> and +stained specimens of all species, plus serial sections of the skull of <i>Smilisca +baudini</i>. Developmental stages to which tadpoles are assigned are in accordance +with the table of development published by Gosner (1960). Breeding +calls were recorded in the field on tape using Magnemite and Uher portable +tape recorders. Audiospectrographs were made by means of a Vibralyzer (Kay +Electric Company). External morphological features were measured in the +manner described by Duellman (1956). In the accounts of the species we +have attempted to give a complete synonymy. At the end of each species +account the localities from which specimens were examined are listed alphabetically +within each state, province, or department, which in turn are listed +alphabetically within each country. The countries are arranged from north +to south. Abbreviations for museum specimens are listed below:</p> + +<table summary="Abbreviations"> +<tr> + <td class="text_lf">AMNH—American Museum of Natural History<br /> + BMNH—British Museum (Natural History)<br /> + BYU—Brigham Young University<br /> + CNHM—Chicago Natural History Museum<br /> + KU—University of Kansas Museum of Natural History<br /> + MCZ—Museum of Comparative Zoology<br /> + MNHN—Museu National d'Histoire Naturelle, Paris<br /> + UF—University of Florida Collections<br /> + UIMNH—University of Illinois Museum of Natural History<br /> + UMMZ—University of Michigan Museum of Zoology<br /> + USC—University of Southern California<br /> + USNM—United States National Museum<br /> + TNHC—Texas Natural History Collection, University of Texas<br /> + ZMB—Zoologisches Museum Berlin</td> +</tr> +</table> +<br /> + + +<div class="caption2"><a name="Genus_Smilisca" id="Genus_Smilisca"></a> +<b>Genus Smilisca</b> Cope, 1865</div> + +<div class="species_ref"><i>Smilisca</i> Cope, Proc. Acad. Nat. Sci. Philadelphia, 17:194, Oct., 1865 [Type +species <i>Smilisca daulinia</i> Cope, 1865 = <i>Hyla baudini</i> Duméril and Bibron, +1841]. Smith and Taylor, Bull. U. S. Natl. Mus., 194:75, June 17, +1948. Starrett, Copeia, 4:300, December 30, 1960. Goin, Ann. Carnegie +Museum, 36:15, July 14, 1961.</div> + +<p><i>Definition.</i>—Medium to large tree frogs having: (1) broad, well ossified +skull (consisting of a minimum amount of cartilage and/or secondarily ossified +cartilage), (2) no dermal co-ossification, (3) quadratojugal and internasal +septum present, (4) large ethmoid, (5) <i>M. depressor mandibulae</i> consisting +of two parts, one arising from dorsal fascia and other from posterior arm of +squamosal, (6) divided <i>M. adductor mandibulae</i>, (7) paired subgular vocal +sacs in males, (8) no dermal appendages, (9) pupil horizontally elliptical +(10) small amounts of amines and other active substances in skin, (11) +chromosome number of N = 12 and 2N = 24, (12) breeding call consisting of +poorly modulated, explosive notes, and (13) 2/3 tooth-rows in tadpoles.</p> + +<p><i>Composition of genus.</i>—As defined here the genus <i>Smilisca</i> contains six +recognizable species. An alphabetical list of the specific and subspecific names +<span class="pagenum"><a name="Page_288" id="Page_288">[Pg 288]</a></span> +that we consider to be applicable to species of <i>Smilisca</i> recognized herein is +given below.</p> + +<table class="center" style="padding:4px;" summary="Proposed Names"> +<tr> + <td class="text_lf">Names proposed</td> + <td> </td> + <td class="text_lf">Valid names</td> +</tr> +<tr> + <td class="text_lf"><i>Hyla baudini</i> Duméril and Bibron, 1841</td> + <td> </td> + <td class="text_lf">= <i>S. baudini</i></td> +</tr> +<tr> + <td class="text_lf"><i>Hyla baudini dolomedes</i> Barbour, 1923</td> + <td> </td> + <td class="text_lf">= <i>S. phaeota</i></td> +</tr> +<tr> + <td class="text_lf"><i>Hyla beltrani</i> Taylor, 1942</td> + <td> </td> + <td class="text_lf">= <i>S. baudini</i></td> +</tr> +<tr> + <td class="text_lf"><i>Hyla gabbi</i> Cope, 1876</td> + <td> </td> + <td class="text_lf">= <i>S. sordida</i></td> +</tr> +<tr> + <td class="text_lf"><i>Hyla labialis</i> Peters, 1863</td> + <td> </td> + <td class="text_lf">= <i>S. phaeota</i></td> +</tr> +<tr> + <td class="text_lf"><i>Hyla manisorum</i> Taylor, 1954</td> + <td> </td> + <td class="text_lf">= <i>S. baudini</i></td> +</tr> +<tr> + <td class="text_lf"><i>Hyla muricolor</i> Cope, 1862</td> + <td> </td> + <td class="text_lf">= <i>S. baudini</i></td> +</tr> +<tr> + <td class="text_lf"><i>Hyla nigripes</i> Cope, 1876</td> + <td> </td> + <td class="text_lf">= <i>S. sordida</i></td> +</tr> +<tr> + <td class="text_lf"><i>Hyla pansosana</i> Brocchi, 1877</td> + <td> </td> + <td class="text_lf">= <i>S. baudini</i></td> +</tr> +<tr> + <td class="text_lf"><i>Hyla phaeota</i> Cope, 1862</td> + <td> </td> + <td class="text_lf">= <i>S. phaeota</i></td> +</tr> +<tr> + <td class="text_lf"><i>Hyla phaeota cyanosticta</i> Smith, 1953</td> + <td> </td> + <td class="text_lf">= <i>S. cyanosticta</i></td> +</tr> +<tr> + <td class="text_lf"><i>Hyla puma</i> Cope, 1885</td> + <td> </td> + <td class="text_lf">= <i>S. puma</i></td> +</tr> +<tr> + <td class="text_lf"><i>Hyla salvini</i> Boulenger, 1882</td> + <td> </td> + <td class="text_lf">= <i>S. sordida</i></td> +</tr> +<tr> + <td class="text_lf"><i>Hyla sordida</i> Peters, 1863</td> + <td> </td> + <td class="text_lf">= <i>S. sordida</i></td> +</tr> +<tr> + <td class="text_lf"><i>Hyla vanvlietii</i> Baird, 1854</td> + <td> </td> + <td class="text_lf">= <i>S. baudini</i></td> +</tr> +<tr> + <td class="text_lf"><i>Hyla vociferans</i> Baird, 1859</td> + <td> </td> + <td class="text_lf">= <i>S. baudini</i></td> +</tr> +<tr> + <td class="text_lf"><i>Hyla wellmanorum</i> Taylor, 1952</td> + <td> </td> + <td class="text_lf">= <i>S. puma</i></td> +</tr> +</table> + +<p><i>Distribution of genus.</i>—Most of lowlands of México and Central America, +in some places to elevations of nearly 2000 meters, southward from southern +Sonora and Río Grande Embayment of Texas, including such continental islands +as Isla Cozumel, México, and Isla Popa and Isla Cebaco, Panamá, to +northern South America, where known from Caribbean coastal regions and +valleys of Río Cauca and Río Magdalena in Colombia, and Pacific slopes of +Colombia and northern Ecuador.</p> + + +<div class="caption2"><a name="Key_to_Adults" id="Key_to_Adults"></a> +Key to Adults</div> +<br /> +<table width="100%" summary="Species Key"> +<tr class="trow1"> + <td class="vtop">1. </td> + <td>Larger frogs ([M] to 76 mm., [F] to 90 mm.) having broad flat heads and a + dark brown or black postorbital mark encompassing tympanum</td> +</tr> +<tr class="trow1"> + <td colspan="2" class="text_rt">2</td> +</tr> +<tr class="trow2"> + <td> </td> + <td>Smaller frogs ([M] to 45 mm., [F] to 64 mm.) having narrower heads and lacking + a dark brown or black postorbital mark encompassing tympanum</td> +</tr> +<tr class="trow2"> + <td colspan="2" class="text_rt">4</td> +</tr> +<tr class="trow1"> + <td class="vtop">2. </td> + <td>Lips barred; flanks cream-colored with bold brown or black mottling in + groin; posterior surfaces of thighs brown with cream-colored flecks</td> +</tr> +<tr class="trow1"> + <td colspan="2" class="text_rt"><a href="#Smilisca_baudini"><i>S. baudini</i>, p. 289</a></td> +</tr> +<tr class="trow2"> + <td> </td> + <td>Lips not barred; narrow white labial stripe present; flanks not cream-colored + with bold brown or black mottling in groin; posterior surfaces of + thighs variable</td> +</tr> +<tr class="trow2"> + <td colspan="2" class="text_rt">3</td> +</tr> +<tr class="trow1"> + <td class="vtop">3. </td> + <td>Flanks and anterior and posterior surfaces of thighs dark brown with + large pale blue spots on flanks and small blue spots on thighs</td> +</tr> +<tr class="trow1"> + <td colspan="2" class="text_rt"><a href="#Smilisca_cyanosticta"><i>S. cyanosticta</i>, p. 303</a></td> +</tr> +<tr class="trow2"> + <td> </td> + <td>Flanks cream-colored with fine black venation; posterior surfaces of + thighs pale brown with or without darker flecks or small cream-colored + spots</td> +</tr> +<tr class="trow2"> + <td colspan="2" class="text_rt"><a href="#Smilisca_phaeota"><i>S. phaeota</i>, p. 308</a></td> +</tr> +<tr class="trow1"> + <td class="vtop">4. </td> + <td>Fingers having only vestige of web; diameter of tympanum two-thirds + that of eye; dorsum pale yellowish tan with pair of broad dark brown + stripes</td> +</tr> +<tr class="trow1"> + <td colspan="2" class="text_rt"><a href="#Smilisca_puma"><i>S. puma</i>, p. 314</a></td> +</tr> +<tr class="trow2"> + <td> </td> + <td>Fingers about one-half webbed; diameter of tympanum about one-half + that of eye; dorsum variously marked with spots or blotches</td> +</tr> +<tr class="trow2"> + <td colspan="2" class="text_rt">5</td> +</tr> +<tr class="trow1"> + <td class="vtop">5. </td> + <td>Snout short, truncate; vocal sacs in breeding males dark gray or brown; + blue spots on flanks and posterior surfaces of thighs</td> +</tr> +<tr class="trow1"> + <td colspan="2" class="text_rt"><a href="#Smilisca_sila"><i>S. sila</i>, p. 318</a></td> +</tr> +<tr class="trow2"> + <td> </td> + <td>Snout long, sloping, rounded; vocal sacs in breeding males white; cream-colored + or pale blue flecks on flanks and posterior surfaces of thighs</td> +</tr> +<tr class="trow2"> + <td colspan="2" class="text_rt"><a href="#Smilisca_sordida"><i>S. sordida</i>, p. 323</a></td> +</tr> +</table> + +<p><span class="pagenum"><a name="Page_289" id="Page_289">[Pg 289]</a></span></p> +<div class="caption3"><a name="Key_to_Tadpoles" id="Key_to_Tadpoles"></a>Key to Tadpoles</div> +<br /> +<table width="100%" summary="Tadpole Key"> +<tr class="trow1"> + <td class="vtop">1. </td> + <td>Pond tadpoles; tail about half again as long as body; mouth anteroventral</td> +</tr> +<tr class="trow1"> + <td colspan="2" class="text_rt">2</td> +</tr> +<tr class="trow2"> + <td> </td> + <td>Stream tadpoles; tail about twice as long as body; mouth ventral</td> +</tr> +<tr class="trow2"> + <td colspan="2" class="text_rt">5</td> +</tr> +<tr class="trow1"> + <td class="vtop">2. </td> + <td>Labial papillae in two rows</td> +</tr> +<tr class="trow1"> + <td colspan="2" class="text_rt">3</td> +</tr> +<tr class="trow2"> + <td> </td> + <td>Labial papillae in one row</td> +</tr> +<tr class="trow2"> + <td colspan="2" class="text_rt">4</td> +</tr> +<tr class="trow1"> + <td class="vtop">3. </td> + <td>First upper tooth row strongly arched medially; third lower tooth row + much shorter than other rows; dorsal fin deepest at about two-thirds + length of tail; tail cream-colored with dense gray reticulations</td> +</tr> +<tr class="trow1"> + <td colspan="2" class="text_rt"><a href="#Smilisca_puma"><i>S. puma</i>, p. 314</a></td> +</tr> +<tr class="trow2"> + <td> </td> + <td>First upper tooth row not arched medially; third lower tooth row nearly + as long as others; dorsal fin deepest at about one-third length of tail; tail + tan with brown flecks and blotches</td> +</tr> +<tr class="trow2"> + <td colspan="2" class="text_rt"><a href="#Smilisca_baudini"><i>S. baudini</i>, p. 289</a></td> +</tr> +<tr class="trow1"> + <td class="vtop">4. </td> + <td>Dorsal fin extending onto body</td> +</tr> +<tr class="trow1"> + <td colspan="2" class="text_rt"><a href="#Smilisca_phaeota"><i>S. phaeota</i>, p. 308</a></td> +</tr> +<tr class="trow2"> + <td> </td> + <td>Dorsal fin not extending onto body</td> +</tr> +<tr class="trow2"> + <td colspan="2" class="text_rt"><a href="#Smilisca_cyanosticta"><i>S. cyanosticta</i>, p. 303</a></td> +</tr> +<tr class="trow1"> + <td class="vtop">5. </td> + <td>Mouth completely bordered by two rows of papillae; inner margin of upper + beak not forming continuous arch with lateral processes; red or reddish + brown markings on tail</td> +</tr> +<tr class="trow1"> + <td colspan="2" class="text_rt"><a href="#Smilisca_sordida"><i>S. sordida</i>, p. 323</a></td> +</tr> +<tr class="trow2"> + <td> </td> + <td>Median part of upper lip bare; rest of mouth bordered by one row of + papillae; inner margin of upper beak forming continuous arch with lateral + processes; dark brown markings on tail</td> +</tr> +<tr class="trow2"> + <td colspan="2" class="text_rt"><a href="#Smilisca_sila"><i>S. sila</i>, p. 318</a></td> +</tr> +</table> +<br /> + +<div class="caption2"><a name="ACCOUNTS_OF_SPECIES" id="ACCOUNTS_OF_SPECIES"></a> +ACCOUNTS OF SPECIES</div> + +<div class="caption3nb"><a name="Smilisca_baudini" id="Smilisca_baudini"></a> +<b>Smilisca baudini</b> (Duméril and Bibron)</div> + +<div class="species_ref"><i>Hyla baudini</i> Duméril and Bibron, Erpétologie général, 8:564, 1841 [Holotype.—MNHN +4798 from "Mexico;" Baudin collector]. Günther, Catalogue +Batrachia Salientia in British Museum, p. 105, 1858. Brocchi, +Mission scientifique au Mexique ..., pt. 3, sec. 2, Études sur les +batrachiens, p. 29, 1881. Boulenger, Catalogue Batrachia Salientia in +British Museum, p. 371, Feb. 1, 1882. Werner, Abhand. Zool.-Bot. +Gesell. Wien., 46:8, Sept. 30, 1896. Günther, Biologia Centrali-Americana: +Reptilia and Batrachia, p. 270, Sept. 1901. Werner, Abhand. +Konigl. Akad. Wiss. Munchen, 22:351, 1903. Cole and Barbour, Bull. +Mus. Comp. Zool., 50(5):154, Nov. 1906. Gadow, Through southern +México, p. 76, 1908. Ruthven, Zool. Jahr. 32(4):310, 1912. Decker, +Zoologica, 2:12, Oct., 1915. Stejneger and Barbour, A checklist of North +American amphibians and reptiles, p. 32, 1917. Noble, Bull. Amer. Mus. +Nat. Hist., 38(10):341, June 20, 1918. Nieden, Das Tierreich, Amphibia, +Anura I, p. 243, June, 1923. Gadow, Jorullo, p. 54, 1930. Dunn +and Emlen, Proc. Acad. Nat. Sci. Philadelphia, 84:24, March 22, 1932. +Kellogg, Bull. U. S. Natl. Mus., 160:160, March 31, 1932. Martin, +Aquarien Berlin, p. 92, 1933. Stuart, Occas. Papers Mus. Zool., Univ. +Michigan, 292:7, June 29, 1934; Misc. Publ. Mus. Zool. Univ. Michigan, +29:38, Oct. 1, 1935. Gaige, Carnegie Inst. Washington, 457:293, Feb. +5, 1936. Gaige, Hartweg, and Stuart, Occas. Papers Mus. Zool. Univ. +Michigan, 360:5, Nov. 20, 1937. Smith, Occas. Papers Mus. Zool. Univ. +Michigan, 388:2, 12, Oct. 31, 1938; Ann. Carnegie Mus., 27:312, March +14, 1939. Taylor, Copeia, 2:98, July 12, 1939. Hartweg and Oliver, +Misc. Publ. Mus. Zool. Univ. Michigan, 47:12, July 13, 1940. Schmidt +and Stuart, Zool. Ser. Field Mus. Nat. Hist., 24(21):238, August 30, +1941. Schmidt, Zool. Ser. Field Mus. Nat. Hist., 22(8):486, Dec. 30, +1941. Wright and Wright, Handbook of frogs and toads, Ed. 2, p. 134, +1942. Stuart, Occas. Papers Mus. Zool. Univ. Michigan, 471:15, May +17, 1943. Bogert and Oliver, Bull. Amer. Mus. Nat. Hist., 83(6):343, +March 30, 1945. Taylor and Smith, Proc. U. S. Natl. Mus., 95(3185): 590, +June 30, 1945. Smith, Ward's Nat. Sci. Bull., 1, p. 3, Sept., 1945. Schmidt +and Shannon, Fieldiana, Zool. Chicago Nat. Hist. Mus., 31(9):67, Feb. +<span class="pagenum"><a name="Page_290" id="Page_290">[Pg 290]</a></span> +20, 1947. Stuart, Misc. Publ. Mus. Zool. Univ. Michigan, 69:26, June +12, 1948. Wright and Wright, Handbook of frogs and toads, Ed. 3, p. +298, 1949. Stuart, Contr. Lab. Vert. Biol. Univ. Michigan, 45:22, May, +1950. Mertens, Senckenbergiana, 33:170, June 15, 1952; Abhand. +Senckenb. Naturf. Gesell., 487:28, Dec. 1, 1952. Schmidt, A checklist +of North American amphibians and reptiles, Ed. 6, p. 69, 1953. Stuart +Contr. Lab. Vert. Biol. Univ. Michigan, 68:46, Nov. 1954. Zweifel and +Norris, Amer. Midl. Nat., 54(1):232, July 1955. Martin, Amer. Nat., +89:356, Dec. 1955. Duellman, Copeia, 1:49, Feb. 21, 1958. Goin, +Herpetologica, 14:119, July 23, 1958. Turner, Herpetologica, 14:192, +Dec. 1, 1958. Conant, A field guide to reptiles and amphibians, p. 284, +1958. Duellman, Univ. Kansas Publ., Mus. Nat. Hist., 13(2):59, Aug. +16, 1960; Univ. Kansas Publ., Mus. Nat. Hist., 15(1): 46, Dec. 20, 1961. +Porter, Herpetologica, 18:165, Oct. 17, 1962.</div> + +<div class="species_ref"><i>Hyla vanvlietii</i> Baird, Proc. Acad. Nat. Sci. Philadelphia, 7:61, April 27, +1854 [Holotype.—USNM 3256 from Brownsville, Cameron County, +Texas; S. Van Vliet collector]. Baird, United States and Mexican boundary +survey, 2:29, 1859. Smith and Taylor, Univ. Kansas Sci. Bull., 33:361, +March 20, 1950. Cochran, Bull. U. S. Natl. Mus., 220:60, 1961.</div> + +<div class="species_ref"><i>Hyla vociferans</i> Baird, United States and Mexican boundary survey, 2:35 +1859 [<i>nomen nudum</i>]. Diáz de León, Indice de los batracios que se +encuentran en la República Mexicana, p. 20, June 1904.</div> + +<div class="species_ref"><i>Hyla muricolor</i> Cope, Proc. Acad. Nat. Sci. Philadelphia, 14(9):359, 1862 +[Holotype.—USNM 25097 from Mirador, Veracruz, México; Charles +Sartorius collector]. Smith and Taylor, Univ. Kansas Sci. Bull., 33:349, +March 20, 1950. Cochran, Bull. U. S. Natl. Mus., 220:56, 1961.</div> + +<div class="species_ref"><i>Smilisca daulinia</i> Cope, Proc. Acad. Nat. Sci. Philadelphia, 17:194, Oct. +1865 [Holotype.—"skeleton in private anatomical museum of Hyrtl, Professor +of Anatomy in the University of Vienna"]. Smith and Taylor, Univ. +Kansas Sci. Bull., 33:347, March 20, 1950.</div> + +<div class="species_ref"><i>Smilisca daudinii</i> [lapsus for <i>baudini</i>], Cope, Proc. Acad. Nat. Sci. Philadelphia, +23, pt. 2:205, 1871.</div> + +<div class="species_ref"><i>Smilisca baudini</i>, Cope, Bull. U. S. Nat. Mus., 1:31, 1875; Jour. Acad. Nat. +Sci. Philadelphia, 8, pt. 2:107, 1876; Proc. Amer. Philos. Soc., 18:267, +August 11, 1879. Yarrow, Bull. U. S. Nat. Mus., 24:176, July 1, 1882. +Cope, Bull. U. S. Nat. Mus., 32:13, 1887; Bull. U. S. Nat. Mus., 34:379, +April 9, 1889. Dickerson, The frog book, p. 151, July, 1906. Smith and +Taylor, Univ. Kansas Sci. Bull., 33:442, March 20, 1950; Taylor, U. Kan. +Sc. Bull., 34:802, Feb. 15, 1952; Univ. Kansas Sci. Bull., 35:794, July 1, +1952. Brattstrom, Herpetologica, 8(3):59, Nov. 1, 1952. Taylor, U. Kan. +Sci. Bull., 35:1592, Sept. 10, 1953. Peters, Occas. Papers Mus. Zool. +Univ. Michigan, 554:7, June 23, 1954. Duellman, Occas. Papers Mus. +Zool. Univ. Michigan, 560:8, Oct. 22, 1954. Chrapliwy and Fugler, +Herpetologica, 11:122, July 15, 1955. Smith and Van Gelder, Herpetologica, +11:145, July 15, 1955. Lewis and Johnson, Herpetologica, 11:178, +Nov. 30, 1955. Martin, Misc. Publ. Mus. Zool. Univ. Michigan, 101:53, +April 15, 1958. Stuart, Contr. Lab. Vert. Biol. Univ. Michigan, 75:17, +June, 1958. Minton and Smith, Herpetologica, 17:74, July 11, 1961. Nelson +and Hoyt, Herpetologica, 17:216, Oct. 9, 1961. Holman, Copeia, 2:256, +July 20, 1962. Stuart, Misc. Publ. Mus. Zool. Univ. Michigan, 122:41, +April 2, 1963. Maslin, Herpetologica, 19:124, July 3, 1963. Holman +and Birkenholz, Herpetologica, 19:144, July 3, 1963. Duellman, Univ. +Kansas Publ. Mus. Nat. Hist., 15(5):228, Oct. 4, 1963. Zweifel, Copeia, +1:206, March 26, 1964. Duellman and Klaas, Copeia, 2:313, June 30, +1964. Davis and Dixon, Herpetologica, 20:225, January 25, 1965. Neill, +Bull. Florida State Mus., 9:89, April 9, 1965.</div> + +<div class="species_ref"><i>Hyla pansosana</i> Brocchi, Bull. Soc. Philom., ser. 7, 1:125, 1877 [Holotype.—MNHN +6313 from Panzós, Alta Verapaz, Guatemala; M. Bocourt collector]; +Mission scientifique au Mexique ..., pt. 3, sec. 2, Études +sur les batrachiens, p. 34, 1881.</div> + +<p><span class="pagenum"><a name="Page_291" id="Page_291">[Pg 291]</a></span></p> +<div class="species_ref"><i>Hyla baudini baudini</i>, Stejneger and Barbour, A checklist of North American +amphibians and reptiles, Ed. 3, p. 34, 1933. Wright and Wright, Handbook +of frogs and toads, p. 110, 1933. Stejneger and Barbour, A checklist +of North American amphibians and reptiles, Ed. 4, p. 39, 1939; A +checklist of North American amphibians and reptiles, Ed. 5, p. 49, 1943. +Smith and Laufe, Trans. Kansas Acad. Sci., 48(3):328, Dec. 19, 1945. +Peters, Nat. Hist. Misc., 143:7, March 28, 1955.</div> + +<div class="species_ref"><i>Hyla beltrani</i> Taylor, Univ. Kansas Sci. Bull. 28(14):306, Nov. 15, 1942 +[Holotype.—UIMNH 25046 (formerly EHT-HMS 29563) from Tapachula, +Chiapas, México; A. Magaña collector]. Smith and Taylor, Bull. +U. S. Natl. Mus. 194:87, June 17, 1948; Univ. Kansas Sci. Bull, 33:326, +March 20, 1950. Smith, Illinois Biol. Mono., 32:23, May, 1964.</div> + +<div class="species_ref"><i>Smilisca baudini baudini</i>, Smith, Jour. Washington Acad. Sci., 37(11):408, +Nov. 15, 1947. Smith and Taylor, Bull. U. S. Natl. Mus., 194:75, June +17, 1948; Univ. Kansas Sci. Bull., 33:347, March 20, 1950. Brown, +Baylor Univ. Studies, p. 68, 1950. Smith, Smith, and Werler, Texas +Jour. Sci., 4(2):254, June 30, 1952. Smith and Smith, Anales Inst. Biol., +22(2):561, Aug. 7, 1952. Smith and Darling, Herpetologica, 8(3):82, +Nov. 1, 1952. Davis and Smith, Herpetologica, 8(4):148, Jan. 30, 1953. +Neill and Allen, Publ. Res. Div. Ross Allen's Reptile Inst., 2(1):26, Nov. +10, 1959. Maslin, Univ. Colorado Studies, Biol. Series, 9:4, Feb. 1963. +Holman, Herpetologica, 20:48, April 17, 1964.</div> + +<div class="species_ref"><i>Hyla manisorum</i> Taylor, Univ. Kansas Sci. Bull., 36:630, June 1, 1954 +[Holotype.—KU 34927 from Batán, Limón Province, Costa Rica; Edward +H. Taylor collector]. Duellman and Berg, Univ. Kansas Publ. Mus. +Nat. Hist, 15(4):193, Oct. 26, 1962.</div> + +<p><i>Diagnosis.</i>—Size large ([M] 76 mm., [F] 90 mm.); skull noticeably wider than +long, having small frontoparietal fontanelle (roofed with bone in large individuals); +postorbital processes long, pointed, curving along posterior border of +orbit; squamosal large, contacting maxillary; tarsal fold strong, full length of +tarsus; inner metatarsal tubercle large, high, elliptical; hind limbs relatively +short, tibia length less than 55 per cent snout-vent length; lips strongly barred +with brown and creamy tan; flanks pale cream with bold brown or black +reticulations in groin; posterior surfaces of thighs brown with cream-colored +flecks; dorsal surfaces of limbs marked with dark brown transverse bands. +(Foregoing combination of characters distinguishing <i>S. baudini</i> from any other +species in genus.)</p> + +<p><i>Description and Variation.</i>—Considerable variation in size, and in certain +proportions and structural characters was observed; variation in some characters +seems to show geographic trends, whereas variation in other characters +apparently is random. Noticeable variation is evident in coloration, but this +will be discussed later.</p> + +<p>In order to analyze geographic variation in size and proportions, ten adult +males from each of 14 samples from various localities throughout the range of +the species were measured. Snout-vent length, length of the tibia in relation +to snout-vent length, and relative size of the tympanum to the eye are the only +measurements and proportions that vary noticeably (Table 1). The largest +specimens are from southern Sinaloa; individuals from the Atlantic lowlands +of Alta Verapaz in Guatemala, Honduras, and Costa Rica are somewhat smaller, +and most specimens from the Pacific lowlands of Central America are slightly +smaller than those from the Atlantic lowlands. The smallest males are from +the Atlantic lowlands of México, including Tamaulipas, Veracruz, the Yucatán +Peninsula, and British Honduras.</p> + +<p><span class="pagenum"><a name="Page_292" id="Page_292">[Pg 292]</a></span></p> + +<table width="80%" summary="Geographic Variations"> +<tr> + <td colspan="4" class="smcap">Table 1.—Geographic Variation in Size + and Proportions in Males of Smilisca baudini. (Means in Parentheses Below + Observed Ranges; Data Based <ins title='Correction: was "of"'>on</ins> + 10 Specimens From Each Locality.)</td> +</tr> +<tr> + <td class="brdtp2 brdbt smcap pad7">Locality</td> + <td class="brdtp2 brdbt brdlf pad7">Snout-vent<br />length</td> + <td class="brdtp2 brdbt brdlf pad7">Tibia length/<br />snout-vent</td> + <td class="brdtp2 brdbt brdlf pad7">Tympanum/<br />eye</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf">Southern Sinaloa</td> + <td class="brdlf">62.3-75.9</td> + <td class="brdlf">43.2-46.7</td> + <td class="brdlf">84.2-94.4</td> +</tr> +<tr> + <td> </td> + <td class="brdlf">(68.6)</td> + <td class="brdlf">(44.9)</td> + <td class="brdlf">(87.8</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf">Ocotito, Guerrero</td> + <td class="brdlf">55.6-64.0</td> + <td class="brdlf">46.1-51.2</td> + <td class="brdlf">66.7-82.8</td> +</tr> +<tr> + <td> </td> + <td class="brdlf">(58.7)</td> + <td class="brdlf">(47.8)</td> + <td class="brdlf">(74.6)</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf">Pochutla, Oaxaca</td> + <td class="brdlf">56.1-65.1</td> + <td class="brdlf">44.7-49.4</td> + <td class="brdlf">73.0-84.2</td> +</tr> +<tr> + <td> </td> + <td class="brdlf">(60.2)</td> + <td class="brdlf">(47.5)</td> + <td class="brdlf">(77.4)</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf">San Salvador, El Salvador</td> + <td class="brdlf">57.0-68.0</td> + <td class="brdlf">42.1-46.1</td> + <td class="brdlf">74.6-83.3</td> +</tr> +<tr> + <td> </td> + <td class="brdlf">(62.1)</td> + <td class="brdlf">(44.9)</td> + <td class="brdlf">(77.6)</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf">Managua, Nicaragua</td> + <td class="brdlf">52.9-63.6</td> + <td class="brdlf">45.6-49.4</td> + <td class="brdlf">73.7-89.7</td> +</tr> +<tr> + <td> </td> + <td class="brdlf">(57.3)</td> + <td class="brdlf">(47.5)</td> + <td class="brdlf">(79.4)</td> +</tr> +<tr> + <td class="text_lf">Esparta, Costa Rica</td> + <td class="brdlf">57.6-66.0</td> + <td class="brdlf">44.6-49.3</td> + <td class="brdlf">65.5-83.6</td> +</tr> +<tr> + <td> </td> + <td class="brdlf">(61.3)</td> + <td class="brdlf">(47.3)</td> + <td class="brdlf">(75.2)</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf">Ciudad Victoria, Tamaulipas</td> + <td class="brdlf">50.6-56.9</td> + <td class="brdlf">44.5-48.7</td> + <td class="brdlf">67.2-84.3</td> +</tr> +<tr> + <td> </td> + <td class="brdlf">(53.7)</td> + <td class="brdlf">(46.6)</td> + <td class="brdlf">(73.9)</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf">Córdoba, Veracruz</td> + <td class="brdlf">53.8-63.4</td> + <td class="brdlf">43.9-48.4</td> + <td class="brdlf">66.1-75.9</td> +</tr> +<tr> + <td> </td> + <td class="brdlf">(57.5)</td> + <td class="brdlf">(45.6)</td> + <td class="brdlf">(70.0)</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf">Isla del Carmen, Campeche</td> + <td class="brdlf">47.3-56.6</td> + <td class="brdlf">44.7-48.9</td> + <td class="brdlf">61.5-72.6</td> +</tr> +<tr> + <td> </td> + <td class="brdlf">(50.9)</td> + <td class="brdlf">(47.6)</td> + <td class="brdlf">(65.7)</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf">Chichén-Itzá, Yucatán</td> + <td class="brdlf">49.6-57.1</td> + <td class="brdlf">45.2-53.4</td> + <td class="brdlf">62.7-80.7</td> +</tr> +<tr> + <td> </td> + <td class="brdlf">(53.8)</td> + <td class="brdlf">(49.5)</td> + <td class="brdlf">(72.6)</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf">British Honduras</td> + <td class="brdlf">49.0-59.6</td> + <td class="brdlf">47.5-50.7</td> + <td class="brdlf">67.9-76.8</td> +</tr> +<tr> + <td> </td> + <td class="brdlf">(54.9)</td> + <td class="brdlf">(49.1)</td> + <td class="brdlf">(72.2)</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf">Chinajá, Guatemala</td> + <td class="brdlf">56.8-67.6</td> + <td class="brdlf">47.0-51.0</td> + <td class="brdlf">70.0-82.</td> +</tr> +<tr> + <td> </td> + <td class="brdlf">(63.2)</td> + <td class="brdlf">(49.5)</td> + <td class="brdlf">(73.6</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf">Atlantidad, Honduras</td> + <td class="brdlf">52.5-65.1</td> + <td class="brdlf">49.8-53.6</td> + <td class="brdlf">56.1-76.5</td> +</tr> +<tr> + <td> </td> + <td class="brdlf">(57.6)</td> + <td class="brdlf">(51.5)</td> + <td class="brdlf">(67.0)</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf">Limón, Costa Rica</td> + <td class="brdlf">57.7-71.3</td> + <td class="brdlf">50.4-52.3</td> + <td class="brdlf">63.9-73.0</td> +</tr> +<tr> + <td class="brdbt"> </td> + <td class="brdlf brdbt">(62.4)</td> + <td class="brdlf brdbt">(51.2)</td> + <td class="brdlf brdbt">(68.5)</td> +</tr> +</table> + +<p>The ratio of the tibia to the snout-vent length varies from 42.1 to 53.6 in +the 14 samples analyzed. The average ratio in samples from the Pacific lowlands +varies from 44.9 in Sinaloa and El Salvador to 47.8 in Guerrero; on the +Gulf lowlands of México the average ratio varies from 45.6 in Veracruz to 47.6 +on Isla del Carmen, Campeche. Specimens from the Yucatán Peninsula and +the Caribbean lowlands have relatively longer legs; the variation in average +ratios ranges from 49.1 in British Honduras to 51.2 in Costa Rica and 51.5 in +Honduras.</p> + +<p>Specimens from southern Sinaloa are outstanding in the large size of the +<span class="pagenum"><a name="Page_293" id="Page_293">[Pg 293]</a></span> +tympanum; the tympanum/eye ratio varies from 84.2 to 94.4 (average 87.8). +In most other samples the variation in average ratios ranges from 72.2 to 79.3, +but specimens from Veracruz have an average ratio of 70.0; Campeche, 65.7; +Honduras, 67.0; and Limón, Costa Rica, 68.5.</p> + +<p>No noticeable geographic trends in size and proportions are evident. Specimens +from southern Sinaloa are extreme in their large size, relatively short +tibia, and large tympani, but in size and relative length of the tibia the Sinaloan +frogs are approached by specimens from such far-removed localities as +San Salvador, El Salvador, and Chinajá, Guatemala. Frogs from the Caribbean +lowlands of Honduras and Costa Rica are relatively large and have relatively +long tibiae and small tympani.</p> + +<p>The inner metatarsal tubercle is large and high and its shape varies. The +tubercle is most pronounced in specimens from northwestern México, Tamaulipas, +and the Pacific lowlands of Central America. Possibly the large tubercle +is associated with drier habitats, where perhaps the frogs use the tubercles for +digging.</p> + +<p>The ground color of <i>Smilisca baudini</i> is pale green to brown dorsally and +white to creamy yellow ventrally. The dorsum is variously marked with dark +brown or dark olive-green spots or blotches (Pl. 6A). In most specimens a +dark interorbital bar extends across the head to the lateral edges of the eyelid; +usually this bar is connected medially to a large dorsal blotch. There is no +tendency for the markings on the dorsum to form transverse bands or longitudinal +bars. In specimens from the southern part of the range the dorsal +dark markings are often fragmented into small spots, especially posteriorly. +The limbs are marked by dark transverse bands, usually three on the forearm, +three on the thigh, and three or four on the shank. Transverse bands also +are present on the tarsi and proximal segments of the fingers and toes. The +webbing on the hands and feet is pale grayish brown. The loreal region and +upper lip are pale green or tan; the lip usually is boldly marked with broad +vertical dark brown bars, especially evident is the bar beneath the eye. A +dark brown or black mark extends from the tympanum to a point above the +insertion of the forearm; in some specimens this black mark is narrow or indistinct, +but in most individuals it is quite evident. The flanks are pale gray +to creamy white with brown or black mottling, which sometimes forms reticulations +enclosing white spots. The anterior surfaces of the thighs usually are +creamy white with brown mottling, whereas the posterior surfaces of the thighs +usually are brown with small cream-colored flecks. A distinct creamy white +anal stripe usually is present. Usually, there are no white stripes on the outer +edges of the tarsi and forearms. In breeding males the throat is gray.</p> + +<p>Most variation in coloration does not seem to be correlated with geography. +The lips are strongly barred in specimens from throughout the range of the +species, except that in some specimens from southern Nicaragua and Costa +Rica the lips are pale and in some specimens the vertical bars are indistinct. +Six specimens from 7.3 kilometers southwest of Matatán, Sinaloa, are distinctively +marked. The dorsum is uniformly grayish green with the only dorsal +marks being on the tarsi; canthal and post-tympanic dark marks absent. A +broad white labial stripe is present and interrupted by a single vertical dark +mark below the eye. A white stripe is present on the outer edge of the foot. +The flanks and posterior surfaces of the thighs are creamy white, boldly marked +with black. Two specimens from Alta Verapaz, Guatemala (CNHM 21006 +<span class="pagenum"><a name="Page_294" id="Page_294">[Pg 294]</a></span> +from Cobán and UMMZ 90908 from Finca Canihor), are distinctive in having +many narrow transverse bands on the limbs and fine reticulations on the flanks. +Two specimens from Limón Province, Costa Rica (KU 34927 from Batán and +36789 from Suretka), lack a dorsal pattern; instead these specimens are nearly +uniform brown above and have only a few small dark brown spots on the back +and lack transverse bands on the limbs. The post-tympanic dark marks and +dark mottling on the flanks are absent. Specimens lacking the usual dorsal +markings are known from scattered localities on the Caribbean lowlands from +Guatemala to Costa Rica.</p> + +<p>The coloration in life is highly variable; much of the apparent variation is +due to metachrosis, for individuals of <i>Smilisca baudini</i> are capable of undergoing +drastic and rapid change in coloration. When active at night the frogs +usually are pale bright green with olive-green markings, olive-green with brown +markings, or pale brown with dark brown markings. The dark markings on +the back and dorsal surfaces of the limbs are narrowly outlined by black. The +pale area below the eye and just posterior to the broad suborbital dark bar is +creamy white, pale green, or ashy gray in life. The presence of this mark is +an excellent character by which to identify juveniles of the species. The flanks +are creamy yellow, or yellow with brown or black mottling. In most individuals +the belly is white, but in specimens from southern El Petén and northern +Alta Verapaz, Guatemala, the belly is yellow, especially posteriorly. The iris +varies from golden bronze to dull bronze with black reticulations, somewhat +darker ventrally.</p> + +<p><i>Natural History.</i>—Throughout most of its range <i>Smilisca baudini</i> occurs in +sub-humid habitats; consequently the activity is controlled by the seasonal nature +of the rainfall and usually extends from May or June through September. +Throughout México and Central America the species is known to call and +breed in June, July, and August. Several records indicate that the breeding +season in Central America is more lengthy. Gaige, Hartweg, and Stuart +(1937:4) noted gravid females collected at El Recreo, Nicaragua, in August +and September. Schmidt (1941:486) reported calling males in February in +British Honduras. Stuart (1958:17) stated that tadpoles were found in mid-February, +juveniles in February and March and half-grown individuals from +mid-March to mid-May at Tikal, El Petén, Guatemala. Stuart (1961:74) +reported juveniles from Tikal in July, and that individuals were active at night +when there had been light rain in the dry season in February and March in +El Petén, Guatemala. <i>Smilisca baudini</i> seeks daytime retreats in bromeliads, +elephant-ear plants (<i>Xanthosoma</i>), and beneath bark or in holes in trees. By +far the most utilized retreat in the dry season in parts of the range is beneath +the outer sheaths of banana plants. Large numbers of these frogs were found +in banana plants at Cuautlapan, Veracruz, in March, 1956, in March and December, +1959.</p> + +<p>Large breeding congregations of this frog are often found at the time of +the first heavy rains in the wet season. Gadow (1908:76) estimated 45,000 +frogs at one breeding site in Veracruz. In the vicinity of Tehuantepec, Oaxaca, +large numbers of individuals were found around rain pools and roadside ditches +in July, 1956, and July, 1958; large concentrations were found near Chinajá, +Guatemala, in June, 1960, and near Esparta, Costa Rica in July, 1961. Usually +males call from the ground at the edge of the water or not infrequently +sit in shallow water, but sometimes males call from bushes and low trees +<span class="pagenum"><a name="Page_295" id="Page_295">[Pg 295]</a></span> +around the water. Stuart (1935:38) recorded individuals calling and breeding +throughout the day at La Libertad, Guatemala. <i>Smilisca baudini</i> usually +is absent from breeding congregations of hylids; frequently <i>S. baudini</i> breeds +alone in small temporary pools separated from large ponds where numerous +other species are breeding. In Guerrero and Oaxaca, México, <i>S. baudini</i> breeds +in the same ponds with <i>Rhinophrynus dorsalis</i>, <i>Bufo marmoreus</i>, <i>Engystomops +pustulosus</i>, and <i>Diaglena reticulata</i>, and in the vicinity of Esparta, Costa Rica, +<i>S. baudini</i> breeds in ponds with <i>Bufo coccifer</i>, <i>Hyla staufferi</i>, and <i>Phrynohyas +venulosa</i>. In nearly all instances the breeding sites of <i>S. baudini</i> are shallow, +temporary pools.</p> + +<p>The breeding call of <i>Smilisca baudini</i> consists of a series of short explosive +notes. Each note has a duration of 0.09 to 0.13 seconds; two to 15 notes make +up a call group. Individual call groups are spaced from about 15 seconds to +several minutes apart. The notes are moderately high-pitched and resemble +"wonk-wonk-wonk." Little vibration is discernible in the notes, which have +140 to 195 pulses per second and a dominant frequency of 2400 to 2725 cycles +per second (Pl. 10A).</p> + +<p>The eggs are laid as a surface film on the water in temporary pools. The +only membrane enclosing the individual eggs is the vitelline membrane. In +ten eggs (KU 62154 from San Salvador, El Salvador) the average diameter +of the embryos in first cleavage is 1.3 mm. and of the vitelline membranes, +1.5 mm. Hatchling tadpoles have body lengths of 2.6 to 2.7 mm. and total +lengths of 5.1 to 5.4 mm. The body and caudal musculature is brown; the +fins are densely flecked with brown. The gills are long and filamentous. +Growth and development of tadpoles are summarized in Table 9.</p> + +<p>A typical tadpole in stage 30 of development (KU 60018 from Chinajá, +Alta Verapaz, Guatemala) has a body length of 8.7 mm., a tail length of +13.6 mm., and a total length of 22.3 mm.; body slightly wider than deep; +snout rounded dorsally and laterally; eyes widely separated, directed dorsolaterally; +nostril about midway between eye and tip of snout; mouth anteroventral; +spiracle sinistral, located about midway on length of body and slightly +below midline; anal tube dextral; caudal musculature slender, slightly curved +upward distally; dorsal fin extending onto body, deepest at about one-third +length of tail; depth of dorsal fin slightly more than that of ventral fin at mid-length +of tail; dorsal part of body dark brown; pale crescent-shaped mark on +posterior part of body; ventral surfaces transparent with scattered brown pigment +ventrolaterally, especially below eye; caudal musculature pale tan with +a dark brown longitudinal streak on middle of anterior one-third of tail; dorsum +of anterior one-third of tail dark brown; brown flecks and blotches on +rest of caudal musculature, on all of dorsal fin, and on posterior two-thirds of +ventral fin; iris bronze in life (Fig. 11). Mouth small; median third of upper +lip bare; rest of mouth bordered by two rows of conical papillae; lateral fold +present; tooth rows 2/3; two upper rows about equal in length; second row +broadly interrupted medially, three lower rows complete, first and second equal +in length, slightly shorter than upper rows; third lower row shortest; first upper +row sharply curved anteriorly in midline; upper beak moderately deep, forming +a board arch with slender lateral processes; lower beak more slender, +broadly V-shaped; both beaks bearing blunt serrations (Fig. 15A).</p> + +<p>In tadpoles having fully developed mouthparts the tooth-row formula of +2/3 is invariable, but the coloration is highly variable. The color and pattern +<span class="pagenum"><a name="Page_296" id="Page_296">[Pg 296]</a></span> +described above is about average. Some tadpoles are much darker, such as +those from 11 kilometers north of Vista Hermosa, Oaxaca, (KU 87639-44), +3.5 kilometers east of Yokdzonot, Yucatán (KU 71720), and 4 kilometers west-southwest +Puerto Juárez, Quintana Roo, México (KU 71721), whereas others, +notably from 17 kilometers northeast of Juchatengo, Oaxaca, México (KU +87645), are much paler and lack the dark markings on the caudal musculature. +The variation in intensity of pigmentation possibly can be correlated with environmental +conditions, especially the amount of light. In general, tadpoles +that were found in open, sunlit pools are pallid by comparison with those from +shaded forest pools. These subjective comparisons were made with preserved +specimens; detailed comparative data on living tadpoles are not available.</p> + +<p>The relative length and depth of the tail are variable; in some individuals +the greatest depth of the tail is about at mid-length of the tail, whereas in +most specimens the tail is deepest at about one-third its length. The length +of the tail relative to the total length is usually 58 to 64 per cent in tadpoles in +stages 29 and 30 of development. In some individuals the tail is about 70 +per cent of the total length. On the basis of the material examined, these +variations in proportions do not show geographical trends. Probably the proportions +are a reflection of crowding of the tadpoles in the pools where they +are developing or possibly due to water currents or other environmental factors.</p> + +<p>Stuart (1948:26) described and illustrated the tadpole of <i>Smilisca baudini</i> +from Finca Chejel, Alta Verapaz, Guatemala. The description and figures +agree with ours, except that the first lower tooth row does not have a sharp +angle medially in Stuart's figure. He (1948:27) stated that color in tadpoles +from different localities probably varies with soil color and turbidity of water. +Maslin (1963:125) described and illustrated tadpoles of <i>S. baudini</i> from Pisté, +Yucatán, México. These specimens are heavily pigmented like specimens that +we have examined from the Yucatán Peninsula and from other places in the +range of the species. Maslin stated that the anal tube is median in the specimens +that he examined; we have not studied Maslin's specimens, but all tadpoles +of <i>Smilisca</i> that we have examined have a dextral anal tube.</p> + +<div class="smaller"> +<p>Newly metamorphosed young have snout-vent lengths of 12.0 to 15.5 mm. +(average 13.4 in 23 specimens). The largest young are from La Libertad, +El Petén, Guatemala; these have snout-vent lengths of 14.0 to 15.5 mm. (average +14.5 in five specimens). Young from 11 kilometers north of Vista Hermosa, +Oaxaca, México, are the smallest and have snout-vent lengths of 12.0 to 12.5 +mm. (average 12.3 in three specimens). Recently metamorphosed young +usually are dull olive green above and white below; brown transverse bands +are visible on the hind limbs. The labial markings characteristic of the adults +are represented only by a creamy white suborbital spot, which is a good diagnostic +mark for young of this species. In life the iris is pale gold.</p> +</div> + +<p><i>Remarks</i>: The considerable variation in color and the extensive geographic +distribution of <i>Smilisca baudini</i> have resulted in the proposal of eight specific +names for the frogs that we consider to represent one species. Duméril and +Bibron (1841:564) proposed the name <i>Hyla baudini</i> for a specimen (MNHN +4798) from México. Smith and Taylor (1950:347) restricted the type locality +to Córdoba, Veracruz, México, an area where the species occurs in abundance. +Baird (1854:61) named <i>Hyla vanvlieti</i> from Brownsville, Texas, and (1859:35) +labelled the figures of <i>Hyla vanvlieti</i> [= <i>Hyla baudini</i>] on plate 38 as <i>Hyla +vociferans</i>, a <i>nomen nudum</i>. Cope (1862:359) named <i>Hyla muricolor</i> from +Mirador, Veracruz, México, and (1865:194) used the name <i>Smilisca daulinia</i> +for a skeleton that he employed as the basis for the cranial characters diagnostic +of the genus <i>Smilisca</i>, as defined by him. Although we cannot be certain, Cope +apparently inadvertently used <i>daulinia</i> for <i>baudini</i>, just as he used <i>daudinii</i> for +<i>baudini</i> (1871:205). Brocchi (1877:125) named <i>Hyla pansosana</i> from Panzos, +Alta Verapaz, Guatemala.</p> + + +<div class="caption2">PLATE 1</div> + +<div class="fig_center" style="width: 414px;"> +<img src="images/plate_1.png" width="414" height="640" alt="" title="" /> +<div class="fig_caption">Dorsal views of skulls of young <i>Smilisca baudini</i>: (A) recently metamorphosed +young (KU 60026), snout-vent length 12.6 mm. ×23; (B) young (KU 85438), +snout-vent length 32.1 mm. ×9.</div> +</div> +<br /> + +<div class="caption2">PLATE 2</div> + +<div class="fig_center" style="width: 372px;"> +<img src="images/plate_2.png" width="372" height="632" alt="" title="" /> +<div class="fig_caption">Skull of adult female <i>Smilisca baudini</i> (KU 68184): (A) Dorsal; +(B) Ventral. ×4.5.</div> +</div> +<br /> + +<div class="caption2">PLATE 3</div> + +<div class="fig_center" style="width: 356px;"> +<img src="images/plate_3.png" width="356" height="502" alt="" title="" /> +<div class="fig_caption">Skull of adult female <i>Smilisca baudini</i> (KU 68184): (A) Lateral; +(B) Dorsal view of left mandible; (C) Posterior. ×4.5.</div> +</div> +<br /> + +<div class="caption2">PLATE 4</div> + +<div class="fig_center" style="width: 374px;"> +<img src="images/plate_4.png" width="374" height="632" alt="" title="" /> +<div class="fig_caption">Palmar views of right hands of <i>Smilisca</i>: (A) <i>S. baudini</i> (KU +87177); (B) <i>S. phaeota</i> (KU 64276); (C) <i>S. cyanosticta</i> (KU +87199); (D) <i>S. sordida</i> (KU 91761); (E) <i>S. puma</i> (KU 91716), +and (F) <i>S. sila</i> (KU 77408). ×3.</div> +</div> +<br /> + +<div class="caption2">PLATE 5</div> + +<div class="fig_center" style="width: 390px;"> +<img src="images/plate_5.png" width="390" height="625" alt="" title="" /> +<div class="fig_caption">Ventral aspect of right feet of <i>Smilisca</i>: (A) <i>S. baudini</i> (KU 87177); (B) +<i>S. phaeota</i> (KU 64276); (C) <i>S. cyanosticta</i> (KU 87199); (D) <i>S. sordida</i> +(KU 91761); (E) <i>S. puma</i> (KU 91716), and (F) <i>S. sila</i> (KU 77408). ×3.</div> +</div> +<br /> + +<div class="caption2">PLATE 6</div> + +<div class="fig_center" style="width: 405px;"> +<img src="images/plate_6.png" width="405" height="620" alt="" title="" /> +<div class="fig_caption">Living <i>Smilisca</i>: (A) <i>S. baudini</i> (UMMZ 115179) from 1.7 km. W +Xicotencatl, Tamaulipas, México; (B) <i>S. cyanosticta</i> (UMMZ 118163) +from Volcán San Martín, Veracruz, México; (C) <i>S. phaeota</i> (KU 64282) +from Barranca del Río Sarapiquí, Heredia Prov., Costa Rica. All approx. +nat. size.</div> +</div> +<br /> + +<div class="caption2">PLATE 7</div> + +<div class="fig_center" style="width: 343px;"> +<img src="images/plate_7.png" width="343" height="591" alt="" title="" /> +<div class="fig_caption">Living <i>Smilisca</i>: (A) <i>S. puma</i> (KU 65307) from 5.9 km. +W. Puerto Viejo, Heredia Prov., Costa Rica; (B) <i>S. +sila</i> (KU 77407) from Finca Palosanto, 6 km. WNW El +Volcán, Chiriquí, Panamá; (C) <i>S. sordida</i> (KU 64257) +from 20 km. WSW San Isidro el General, San José +Prov., Costa Rica. All approx. nat. size.</div> +</div> +<br /> + +<div class="caption2">PLATE 8</div> + +<div class="fig_center" style="width: 424px;"> +<img src="images/plate_8_fig1.png" width="424" height="296" alt="" title="" /> +<div class="fig_caption"><span class="smcap">Fig.</span> 1. Breeding site of <i>Smilisca baudini</i>, 4 km. WNW of Esparta, Puntarenas +Prov., Costa Rica.</div> +</div> +<br /> + +<div class="fig_center" style="width: 423px;"> +<img src="images/plate_8_fig2.png" width="423" height="290" alt="" title="" /> +<div class="fig_caption"><span class="smcap">Fig.</span> 2. Breeding site of <i>Smilisca phaeota</i>, Puerto Viejo, Heredia Prov., Costa +Rica.</div> +</div> +<br /> + +<div class="caption2">PLATE 9</div> + +<div class="fig_center" style="width: 442px;"> +<img src="images/plate_9_fig1.png" width="442" height="305" alt="" title="" /> +<div class="fig_caption"><span class="smcap">Fig.</span> 1. Breeding site of <i>Smilisca puma</i>, 7.5 km. W of Puerto Viejo, Heredia +Prov., Costa Rica.</div> +</div> +<br /> + +<div class="fig_center" style="width: 439px;"> +<img src="images/plate_9_fig2.png" width="439" height="301" alt="" title="" /> +<div class="fig_caption"><span class="smcap">Fig.</span> 2. Breeding site of <i>Smilisca sordida</i>, Río La Vieja, 30 km. E of Palmar +Norte, Puntarenas Prov., Costa Rica.</div> +</div> +<br /> + +<div class="caption2">PLATE 10</div> + +<div class="fig_center" style="width: 466px;"> +<img src="images/plate_10.png" width="466" height="645" alt="" title="" /> +<div class="fig_caption">Audiospectrographs and sections of breeding calls of <i>Smilisca</i>: (A) <i>S. baudini</i> +(KU Tape No. 74); (B) <i>S. cyanosticta</i> (KU Tape No. 373); (C) <i>S. phaeota</i> +(KU Tape No. 79).</div> +</div> +<br /> + +<div class="caption2">PLATE 11</div> + +<div class="fig_center" style="width: 451px;"> +<img src="images/plate_11.png" width="451" height="642" alt="" title="" /> +<div class="fig_caption">Audiospectrographs and sections of breeding calls of <i>Smilisca</i>: (A) <i>S. puma</i> +(KU Tape No. 382); (B) <i>S. sila</i> (KU Tape No. 385); (C) <i>S. sordida</i> +(KU Tape No. 398).</div> +</div> +<br /> + +<div class="caption2">PLATE 12</div> + +<div class="fig_center" style="width: 513px;"> +<img src="images/plate_12.png" width="513" height="587" alt="" title="" /> +<div class="fig_caption">Lateral views of the heads of <i>Smilisca</i>: (A) <i>S. baudini</i> (KU 87177); (B) +<i>S. sordida</i> (KU 91765); (C) <i>S. phaeota</i> (KU 64276); (D) <i>S. puma</i> (KU +91716); (E) <i>S. cyanosticta</i> (KU 87199); (F) <i>S. sila</i> (KU 77408). ×3.2.</div> +</div> +<br /> + +<p><span class="pagenum"><a name="Page_297" id="Page_297">[Pg 297]</a></span></p> + +<p>Aside from the skeleton referred to as <i>Smilisca daulinia</i> by Cope (1865:194), +we have examined each of the types of the species synonymized with <i>S. +baudini</i>. All unquestionably are representatives of <i>S. baudini</i>.</p> + +<p>Taylor (1942:306) named <i>Hyla beltrani</i> from Tapachula, Chiapas. This +specimen (UIMNH 25046) is a small female (snout-vent length, 44 mm.) of +<i>S. baudini</i>. Taylor (1954:630) named <i>Hyla manisorum</i> from Batán, Limón, +Costa Rica. The type (KU 34927) is a large female (snout-vent length, +75.3 mm.) <i>S. baudini</i>. In this specimen and a male from Suretka, Costa Rica, +the usual dorsal color pattern is absent, but the distinctive curved supraorbital +processes, together with other structural features, show that the two specimens +are <i>S. baudini</i>.</p> + +<p><i>Hyla baudini dolomedes</i> Barbour (1923:11), as shown by Dunn (1931a:413), +was based on a specimen of <i>Smilisca phaeota</i> from Río Esnápe, Darién, +Panamá.</p> + +<div class="fig_center" style="width: 539px;"> +<a name="Fig_1" id="Fig_1"></a> +<img src="images/fig_1.png" width="539" height="397" alt="" title="" /> +<div class="fig_caption"><span class="smcap">Fig. 1.</span> Map +showing locality records for <i>Smilisca baudini</i>.</div> +</div> + +<p><i>Distribution</i>.—<i>Smilisca baudini</i> inhabits lowlands and foothills usually covered +by xerophytic vegetation or savannas, but in the southern part of its +range <i>baudini</i> inhabits tropical evergreen forest. The species ranges throughout +the Pacific and Atlantic lowlands of México from southern Sonora and the +Río Grande embayment of Texas southward to Costa Rica, where on the +Pacific lowlands the range terminates at the southern limits of the arid tropical +forest in the vicinity of Esparta; on the Caribbean lowlands the distribution +<span class="pagenum"><a name="Page_298" id="Page_298">[Pg 298]</a></span> +seems to be discontinuous southward to Suretka (Fig. 1). Most localities +where the species has been collected are at elevations of less than 1000 meters. +Three localities are notably higher; calling males were found at small temporary +ponds in pine-oak forest at Linda Vista, 2 kilometers northwest of +Pueblo Nuevo Solistahuacán, Chiapas, elevation 1675 meters, and 10 kilometers +northwest of Comitán, Chiapas, at an elevation of 1925 meters. Tadpoles and +metamorphosing young were obtained from a pond in arid scrub forest, 17 +kilometers northeast of Juchatengo, Oaxaca, elevation 1600 meters. Stuart +(1954:46) recorded the species at elevations up to 1400 meters in the south-eastern +highlands of Guatemala.</p> + +<p><i>Specimens examined.</i>—3006, as follows: <span class="smcap">United States:</span> <span class="smcap">Texas</span>: Cameron +County, Brownsville, CNHM 5412-3, 6869, UMMZ 54036, USNM 3256.</p> + +<p><span class="smcap">Mexico:</span> <b>Campeche:</b> Balchacaj, CNHM 102285, 102288, 102291, 102311, +UIMNH 30709-22, 30726; Champotón, UMMZ 73172 (2), 73176, 73180; 16 +km. E Champotón, UMMZ 73181; 5 km. S Champotón, KU 71369-75; 9 km. +S Champotón, KU 71367-8; 10.5 km. S Champotón, KU 71365-6, 71722 (tadpoles), +71723 (yg.); 24 km. S Champotón, UMMZ 73177 (2); Chuina, KU 75101-3; +Ciudad del Carmen, UIMNH 30703-8; Dzibalchén, KU 75413-31; Encarnación, +CNHM 102282, 102289, 102294-5, 102300, 102306-8, 102312, 102314, +102316-7, 102319, 102322, UIMNH 30727-40, 30836-7; 1 km. W Escárcega, +KU 71391-6; 6 km. W Escárcega, KU 71397-403; 7.5 km. W Escárcega, KU +71376-89; 14 km. W Escárcega, KU 71390; 13 km. W, 1 km. N Escárcega, +KU 71404; 3 km. N Hopelchén, KU 75410-11; 2 km. NE Hopelchén, KU +75412; Matamoras, CNHM 36573; Pitál, UIMNH 30741; 1 km. SW Puerto +Real, Isla del Carmen, KU 71345-64; San José Carpizo, UMMZ 99879; Tres +Brazos, CNHM 102284, UIMNH 30723-5; Tuxpeña Camp, UMMZ 73239.</p> + +<p><b>Chiapas:</b> Acacoyagua, USNM 114487-92; 2 km. W Acacoyagua, USNM +114493-4; 5 km. E Arroyo Minas, UIMNH 9533-7; Berriozabal, UMMZ +119186 (7); Chiapa de Corzo, UMMZ 119185 (2); Cintalapa, UIMNH 50077; +Colonia Soconusco, USNM 114495-9; 5 km. W Colonia Soconusco, UMMZ +87885 (7); Comitán, UMMZ 94438; 10 km. NW Comitán, KU 57185; El +Suspiro, UMMZ 118819 (11); Escuintla, UMMZ 88271 (7), 88278, 88327, +109233; 6 km. NE Escuintla, UMMZ 87856 (26); 3 km. E Finca Juárez, +UIMNH 9538; Finca Prussia, UMMZ 95167; Honduras, UMMZ 94434-7; +La Grada, UMMZ 87862; 21 km. S La Trinitaria, UIMNH 9540-1; 14.4 km. +SW Las Cruces, KU 64239-44; Palenque, UIMNH 49286, USNM 114473-84; +2 km. NW Pueblo Nuevo Solistahuacán, KU 57182-4, UMMZ 119948 (8), +121514; 1.3 km. N Puerto Madero, KU 57186-9; 4 km. N Puerto Madero, +KU 57190-1; 8 km. N Puerto Madero, UMMZ 118379 (2); 12 km. N Puerto +Madero, KU 57192; 17.6 km. N Puerto Madero, UMMZ 118378; Rancho +Monserrata, UIMNH 9531-2, UMMZ 102266-7; Region Soconusco, UIMNH +33542-56; San Bartola, UIMNH 9519-30; San Gerónimo, UIMNH 30804; +San Juanito, USNM 114485-6; San Ricardo, CNHM 102406; Solosuchiapa, +KU 75432-3; Tapachula, CNHM 102208, 102219, 102239, 102405, UIMNH +25046, 30802-3; Tonolá, AMNH 531, CNHM 102232, 102416, UIMNH +30805-9, USNM 46760; Tuina, KU 41593 (skeleton); Tuxtla Gutierrez, CNHM +102231, 102248; 6 km. E Tuxtla Gutierrez, UIMNH 9539; 10 km. E Tuxtla +Gutierrez, UMMZ 119949.</p> + +<p><b>Chihuahua:</b> 2.4 km. SW Toquina, KU 47226-7; Riito, KU 47228.</p> + +<p><b>Coahuila:</b> mountain near Saltillo, UIMNH 30833-4.</p> + +<p><b>Colima:</b> No specific locality, <ins title='Correction: was "CNMH"'>CNHM</ins> 1632; Colima, AMNH 510-11; Hacienda +Albarradito, UMMZ 80029 (2); Hacienda del Colomo, AMNH 6208; Los +Mezcales, UMMZ 80028; Manzanillo, AMNH 6207, 6209; Paso del Río, +CNHM 102207, 102229-30, UIMNH 30819-21, UMMZ 110875 (3); Periquillo, +UMMZ 80025 (3), 80026 (14); 1.6 km. SW Pueblo Juárez, UMMZ 115564; +Queseria, CNHM 102204, 102216-7, 102224, UIMNH 30816-8, UMMZ 80023 +(7), 80024 (7); Santiago, UMMZ 80027; 7.2 km. SW Tecolapa, UMMZ 115184.</p> + +<p><span class="pagenum"><a name="Page_299" id="Page_299">[Pg 299]</a></span> +<b>Guerrero:</b> Acahuizotla, UF 1338 (2), 1339-40, UMMZ 119182 (2), 119184; +3 km. S <ins title='Correction: was "Acahuitzotla"'>Acahuizotla</ins>, KU 87183-7; Acapulco, AMNH 55276, UMMZ 121879 +(4), USNM 47909; 3 km. N Acapulco, UMMZ 110127; 8 km. NW Acapulco, +UF 11203 (7); 27 km. NE Acapulco, UIMNH 26597-610; Agua del Obispo, +CNHM 102214, 102290, 102293, 102310, 102413, KU 60413, 87180-2, UIMNH +30764-6; Atoyca, KU 87175-8; Buena Vista, CNHM 102279, 102304, 102313, +102315, UIMNH 30774; Caculutla, KU 87179; 20 km. S Chilpancingo, CNHM +102242, 102401, 102410-1, 102415; Colonia Buenas Aires, UMMZ 119189; +El Limoncito, CNHM 102292, 102303, 102321, 102414; El Treinte, CNHM +102212, 102221, 102237, 102240-1, UIMNH 30783-5, USNM 114508-10; +Laguna Coyuca, UMMZ 80960 (2); 3 km. N Mazatlán, UIMNH 30777-9; 9 km. +S Mazatlán, CNHM 102209, 102215, 102234, 102246, UIMNH 30781-2; +Mexcala, CNHM 102399, 102403, 102409, 106539-40, UIMNH 30775-6; +Ocotito, KU 60414-23; 5.4 km. N Ocotito, UMMZ 119181 (4); 1.6 km. N +Organos, UIMNH 30752-63; Palo Blanco, CNHM 102283, 102286, 102305, +102320, 102404, UIMNH 30767-70; Pie de la Cuesta, AMNH 55275, 59202-5; +Puerto Marquéz, AMNH 59200-1 (13); 5.6 km. S San Andreas de la Cruz, +KU 87173-4; San Vincente, KU 87172; Zaculapán, UMMZ 119183.</p> + +<p><b>Hidalgo:</b> Below Tianguistengo, CNHM 102318.</p> + +<p><b>Jalisco:</b> Atenqueque, KU 91435-6; 5 km. NE Autlán, UIMNH 30810; 5 +km. E Barro de Navidad, UMMZ 110900; Charco Hondo, UMMZ 95247; +Puerto Vallarta, UIMNH 41346; between La Huerta and Tecomates, KU +91437; 3 km. SE La Resolana, KU 27619, 27620 (skeleton); 11 km. S, 1.6 km. +E Yahualica, KU 29039; Zapotilitic, CNHM 102238.</p> + +<p><b>Michoacán:</b> Aguililla, UMMZ 119179 (5); Apatzingán, CNHM 38766-90, +KU 69101 (skeleton); 7 km. E Apatzingán, UMMZ 112843; 11 km. E Apatzingán, +UMMZ 112841 (3); 27 km. S Apatzingán, KU 37621-3; 1.6 km. N +Arteaga, UMMZ 119180; Charapendo, UMMZ 112840; Coahuayana, UMMZ +104458; El Sabino, CNHM 102205-6, 102210-1, 102220, 102228, 102233, +UIMNH 30822-3; La Placita, UMMZ 104456; La Playa, UMMZ 105163; 30 +km. E Nueva Italia, UMMZ 120255 (2); 4 km. S Nueva Italia, UMMZ 112842; +Ostula, UMMZ 104457 (4); Salitre de Estopilas, UMMZ 104459; San José de la +Montaña, UMMZ 104461 (2); 11 km. S Tumbiscatio, KU 37626; 12 km. S +Tzitzio, UMMZ 119178.</p> + +<p><b>Morelos:</b> 3.5 km. W Cuautlixco, KU 87188-90; 1 km. NE Puente de Ixtla, +KU 60393-4; 20 km. S Puente de Ixtla, CNHM 102400, UIMNH 30832; +Tequesquitengo, AMNH 52036-9.</p> + +<p><b>Nayarit:</b> 3 km. S Acaponeta, UMMZ 123030 (4); 56 km. S Esquinapa +(Sinaloa), KU 73909; Jesús María, AMNH 58239; San Blas, KU 28087, 37624, +62360-2, USNM 51408; 8.6 km. E San Blas, UMMZ 115185; Tepic, UIMNH +30812-5; 4 km. E Tuxpan, KU 67786; 11 km. SE Tuxpan, UIMNH 7329-31, +7335-59.</p> + +<p><b>Nuevo León:</b> Galeana, CNHM 34389; Salto de Cola de Caballo, CNHM +30628-31, 30632 (40), 30633-7, 34454-67.</p> + +<p><b>Oaxaca:</b> 11 km. S Candelaria, UIMNH 9515-8; Cerro San Pedro, 24 km. +SW Tehuantepec, UMMZ 82156; Chachalapa, KU 38199; 8 km. S Chiltepec, +KU 87191; 12 km. S Chivela, UMMZ 115182; Coyul, USNM 114512; Garza +Mora, UIMNH 40967-8; Juchatengo, KU 87193; 17 km. NE Juchatengo, KU +87645 (tadpoles), 87646 (young); Juchitán, USNM 70400; Lagartero, UIMNH +9514; Matías Romero, AMNH 52143-5; 25 km. N Matías Romero, KU 33822-8; +7 km. S Matías Romero, UIMNH 42703; Mirador, AMNH 6277, 13832-9, +13842-55; Mira León, 1.6 km. N Huatulco, UIMNH 9503-4; Mixtequillo, +AMNH 13924; Pochutla, KU 57167-81, UIMNH 9505-13; Quiengola, AMNH +51817, 52146; Río del Corte, UIMNH 48677; Río Mono Blanco, UIMNH +36831; Río Sarabia, 5 km. N Sarabia, UMMZ 115180 (4); 2.5 km. N Salina +Cruz, KU 57165-6; San Antonio, UIMNH 37286; 5 km. NNW San Gabriel +Mixtepec, KU 87192; San Pedro del Istmo, UIMNH 37197; Santo Domingo, +USNM 47120-2; 3.7 km. N Sarabia, UMMZ 115181 (3); Tapanatepec, KU +37793 (skeleton), 37794, UIMNH 9542, UMMZ 115183; between Tapanatepec +<span class="pagenum"><a name="Page_300" id="Page_300">[Pg 300]</a></span> +and Zanatepec, UIMNH 42704-25; Tecuane, UMMZ 82163 (3); Tehuantepec, +AMNH 52625, 52639, 53470, UMMZ 82157-8, 82159 (9), 82160 (4), 82161 +(8), 82162 (12), 112844-5, 118703, USNM 10016, 30171-4, 30188; 4.5 km. W +Tehuantepec, KU 59801-12 (skeletons), 69102-3 (skeletons); 10 km. S Tehuantepec, +KU 57163-4; Temazcal, USC 8243 (3); 3 km. S Tolocita, KU 39666-9; +Tolosa, AMNH 53605; Tuxtepec, UMMZ 122098 (2); 2 km. S Valle Nacional, +KU 87194-5; 11 km. N Vista Hermosa, KU 87196, 87639-41 (tadpoles), 87642-3 +(young), 87644 (tadpoles); Yetla, KU 87197.</p> + +<p><b>Puebla:</b> 16 km. SW Mecatepec (Veracruz), UIMNH 3657-8; San Diego, +AMNH 57714, USNM 114511; Vegas de Suchil, AMNH 57712; Villa Juárez, +UF 11205.</p> + +<p><b>Quintana Roo:</b> Cóba, CNHM 26937; Esmeralda, UMMZ 113551; 4 km. +NNE Felipe Carrillo Puerto, KU 71417-8; Pueblo Nuevo X-Can, KU 71405; +10 km. ENE Pueblo Nuevo X-Can, KU 71406; 4 km. WSW Puerto Juárez, +KU 71407-11, 71721 (tadpoles); 12 km. W Puerto Juárez, KU 71412-6; San +Miguel, Isla de Cozumel, UMMZ 78542 (6), 78543 (10), 78544 (2); 3.5 km. N +San Miguel, Isla de Cozumel, KU 71419-22; 10 km. E San Miguel, Isla de +Cozumel, UMMZ 78541; Telantunich, CNHM 26950.</p> + +<p><b>San Luis Potosí:</b> Ciudad Valles, AMNH 57776-81 (12), CNHM 37193, +102297, KU 23705; 21 km. N Ciudad Valles, UMMZ 118377; 6 km. E Ciudad +Valles, UF 3524; 24 km. E Ciudad Valles, UF 7340 (2); 5 km. S Ciudad Valles, +UIMNH 30751; 16 km. S Ciudad Valles, AMNH 52953; 30 km. S Ciudad +Valles, CNHM 102394, 102402, 102412, UIMNH 30749-50; 63 km. S Ciudad +Valles, UIMNH 19247-58; Pujal, UMMZ 99872 (2); Río Axtla, near Axtla, +AMNH 53211-5, 59516, KU 23706; Tamazunchale, AMNH 52675, CNHM +39621-2, 102226, 102281, UF 7615 (2), UIMNH 26596, UMMZ 99506 (9), +118701 (2), USNM 114468; 17 km. N Tamazunchale, UIMNH 3659; 2.4 km. S +Tamazunchale, AMNH 57743; 17 km. E Tamuin, UF 11202 (2); Xilitla, +UIMNH 19259-60.</p> + +<p><b>Sinaloa:</b> 8 km. N. Carrizalejo, KU 78133; 4 km. NE Concordia, KU 73914; +5 km. SW Concordia, KU 75438-9; 6 km. E Cosalá, KU 73910; Costa Rica, +16 km. S. Culiacán, UIMNH 34887-9; 51 km. SSE Culiacán, KU 37792; El +Dorado, KU 60392; 1.6 km. NE El Fuerte, CNHM 71468; Isla Palmito del +Verde, middle, KU 73916-7; 21 km. NNE Los Mochis, UIMNH 40536-7; +Matatán, KU 73913; 7.3 km. SW Matatán, KU 78464, 78466-70; Mazatlán, +AMNH 12562, UMMZ 115197 (3); 57 km. N Mazatlán, UIMNH 38364; +Plomosas, USNM 47439-40; Presidio, UIMNH 30811, USNM 14082; Rosario, +KU 73911-2; 5 km. E Rosario, UIMNH 7360-76; 8 km. SSE Rosario, KU 37625; +5 km. SW San Ignacio, KU 78465; 1.6 km. ENE San Lorenzo, KU 47917-24; +Teacapán, Isla Palmito del Verde, KU 73915; 9.6 km. NNW Teacapán, KU +91410; Villa Unión, KU 78471; 9 km. NE Villa Unión, KU 75434-7; 1 km. +W Villa Unión, AMNH 59284.</p> + +<p><b>Sonora:</b> Guiracoba, AMNH 51225-38 (25).</p> + +<p><b>Tabasco:</b> 4 km. NE Comalcalco, AMNH 60313; Teapa, UMMZ 119943; +5 km. N Teapa, UMMZ 119940, 119944, 122997 (2); 10 km. N Teapa, UMMZ +119187, 119188 (2); 13 km. N Teapa, UMMZ 119941 (2), 119945 (3), 120254 +(2); 21 km. N Teapa, UMMZ 119942, 119947; 29 km. N Teapa, UMMZ 119946 +(11); Tenosique, USNM 114505-7.</p> + +<p><b>Tamaulipas:</b> Acuña, UMMZ 99864; 5 km. S Acuña, UMMZ 101180; 13 +km. N Antiguo Morelos, UIMNH 40532-5; 3 km. S Antiguo Morelos, UF +11204; 3 km. NE Chamal, UMMZ 102867; 1.6 km. E Chamal, UMMZ 110734; +Ciudad Mante, UMMZ 80957, 80958 (3), 106400 (3); 16 km. N Ciudad Victoria, +CNHM 102408; 34 km. NE Ciudad Victoria, KU 60395-411; 8.8 km. S Ciudad +Victoria, UIMNH 19261-3; 11 km. W Ciudad Victoria, UIMNH 30924; 16 +km. W Ciudad Victoria, UIMNH 30825; 3 km. W El Carizo, UMMZ 111279; +Gómez Farías, UMMZ 110837-8; 8 km. NE Gómez Farías, UMMZ 102265, +102916 (4), 102917, 104110 (5), 105493, 110836 (2), 111274-7; 8 km. NW +Gómez Farías, UMMZ 101178 (7), 101179 (3), 101362-3, 101364 (2), 108799 +(2), 110129, 111278, 111280; 8 km. W Gómez Farías, UMMZ 102859 (2); 16 +km. W Gonzales, KU 37795-6; Jiménez, KU 60412; La Clementina, 6 km. +<span class="pagenum"><a name="Page_301" id="Page_301">[Pg 301]</a></span> +W Forlan, USNM 106244; Limón, UIMNH 30831; Llera, USNM 140137-40; +3 km. E Llera, UIMNH 16858; 21 km. S Llera, UIMNH 30828-9; 23 km. +S Llera, UIMNH 30830; 11 km. SW Ocampo, UMMZ 118956; 22 km. W, 5 km. +S Piedra, KU 37568-71; Rio Sabinas, UMMZ 97976; 5 km. W San Gerardo, +UMMZ 110733 (2); Santa Barbara, UMMZ 111272-3; Villagrán, CNHM 102280, +102287, 102299, 102309, UIMNH 30826-7; 1.7 km. W Xicotencatl, UMMZ +115179.</p> + +<p><b>Veracruz:</b> 1.6 km. NW Acayucan, UMMZ 115189; 28.5 km. SE Alvarado, +UMMZ 119933; 2.4 km. SSW Amatitlán, UMMZ 115195; Barranca Metlac, +UIMNH 38365; Boca del Río, UIMNH 26619-30, UMMZ 74954 (9); 16 km. +S Boca del Río, UIMNH 26631; between Boca del Río and Anton Lizardo, +UIMNH 42701; Canadá, CNHM 102397; Catemaco, UMMZ 118702 (4); +Ciudad Alemán, UMMZ 119608 (3); Córdoba, CNHM 38665-7, USNM 30410-3; +5.2 km. ESE Córdoba, KU 71423-35, 89924 (skeleton); 7 km. ESE Córdoba, +UMMZ 115176 (4); Cosamaloapan, UMMZ 115193 (2); Coyame, UIMNH +36853-6, 38366, UMMZ 111461 (3), 111462-3; 1 km. SE Coyame, UMMZ +121202 (3); Cuatotolapam, UMMZ 41625-39; Cuautlapan, CNHM 38664, +70591-600, 102218, 102398, KU 26300, 26302, 26309, 26312-3, 26315-6, 26321, +26336, 26339, 26347 (skeleton), 26354, 55614-21 (skeletons), UIMNH 11236-67, +11269-71, 11273, 26611-8, 30792-5, UMMZ 85466 (6), 115173 (25), 115175 +(7), USNM 114433-57; Dos Ríos, CNHM 39623; 5 km. ENE El Jobo, KU +23843, 23845, 23847; 6.2 km. E Encero, UIMNH 30835; Escamilo, CNHM +102298, UIMNH 30788; 1 km. N Fortín, UF 11201; 4 km. SW Huatusco, +UMMZ 115177; 1 km. SW Huatusco, UMMZ 123119; 10 km. SE Hueyapan, +UMMZ 115190; 20 km. S Jesús Carranza, KU 23844, 23846, 27399; 38 km. +SE Jesús Carranza, KU 23417; Laguna Catemaco, UMMZ 119932 (62); 1.6 +km. N La Laja, UIMNH 3651; La Oaxaqueña, AMNH 43930-1; 17 km. E +Martínez de la Torre, UIMNH 36630-2; 6.2 km. W Martínez de la Torre, +UIMNH 3652-4; Minatitlán, AMNH 52141-2; Mirador, USNM 25097-8, +115178; 6 km. S Monte Blanco, UF 11200 (4); 21 km. E Nanchital, UMMZ +123004; 2 km. S Naranja, UMMZ 115188 (3); 1.6 km. NE Novillero, UMMZ +115194 (2); 3 km. NE Novillero, UMMZ 115196; 5.2 km. NE Novillero, +UMMZ 115192 (4); 6 km. NE Novillero, UMMZ 115191; 5 km. N Nuevo +Colonia, UMMZ 105066; Orizaba, USNM 16563-6; 4 km. NE Orizaba, UMMZ +120251 (2); Panuco, UMMZ 118922; Paraje Nuevo, UMMZ 85465 (2), 85467 +(35), 85468 (36); Paso del Macho, UIMNH 49281; Paso de Talaya, Jicaltepec, +USNM 32365, 84420; Pérez, CNHM 1686 (5); 20 km. N Piedras Negras, Río +Blanco, KU 23708; Plan del Río, KU 26310, 26333-5, 26345, 26354, UMMZ +102069, 102070 (5); Potrero, UIMNH 49282-5, UMMZ 88799, 88805, 88806 +(2), USNM 32391-5; Potrero Viejo, CNHM 102296, KU 26301, 26304-5, +26307-8, 26311, 26317-20, 26323-25, 26326-8 (skeletons), 26329-31, 26332 +(skeleton), 26337-8, 26340-4, 26346, 26348, 26351, 26353, 27400-12, UIMNH +30800, UMMZ 88800 (2), 88802 (15), 88803 (9), 88804, USNM 114458-67; 5 +km. S Potrero Viejo, KU 26303, 26314, 26322; Puente Nacional, UIMNH +21783-8; 3 km. N Rinconada, UMMZ 122099 (5); Río de las Playas, USNM +118635-6; Río Seco, UMMZ 88801 (9); Rodriguez Clara, CNHM 102225; San +Andrés Tuxtla, CNHM 102213, 102222, 102227, 102247, UIMNH 30789-91; +10 km. NW San Andrés Tuxtla, UMMZ 119935; 13.4 km. NW San Andrés +Tuxtla, UMMZ 119939 (2); 19.8 km. NW San Andrés Tuxtla, UMMZ 119938; +27.2 km. NW San Andrés Tuxtla, UMMZ 119936 (6); 48 km. NW San Andrés +Tuxtla, UMMZ 119937; 4 km. W San Andrés Tuxtla, UMMZ 115187; 37.4 +km. S San Andrés Tuxtla, UMMZ 119934 (12); 15 km. ESE San Juan de la +Punta, KU 23707; San Lorenzo, USNM 123508-12; 3 km. SW San Marcias +KU 23841; 1.5 km. S Santa Rosa, UIMNH 42702; 2 km. S Santiago Tuxtla, +UMMZ 121201 (4); Sauzel, UMMZ 121239; 14 km. E Suchil, UIMNH 46880; +15 km. S Tampico (Tamaulipas), UMMZ 103322 (4); 4 km. N Tapalapan, +UMMZ 115186 (2); Tecolutla, UIMNH 42677-700; 16 km. NW Tehuatlán, +UIMNH 3660-3; 5 km. S Tehuatlán, KU 23842; Teocelo, KU 26306; Tierra +Colorado, CNHM 102393, 102395-6, UIMNH 30789-91; Veracruz, AMNH +6301-4, 59398-402, UIMNH 30801, UMMZ 115174, 122060 (2); 24 km. W +Veracruz, CNHM 104570-2.</p> + +<p><span class="pagenum"><a name="Page_302" id="Page_302">[Pg 302]</a></span> +<b>Yucatán:</b> No specific locality, CNHM 548, 49067, USNM 32298; Chichén-Itzá, +CNHM 20636, 26938-49, 36559-62, UIMNH 30742-6, UMMZ 73173 +(6), 73174 (14), 73175 (14), 73178-9, 76171, 83107 (2), 83108, 83109 (2), 83915 +(30), USNM 72744; 9 km. E Chichén-Itzá, KU 71438-9; 12 km. E Chichén-Itzá, +KU 71440; Mérida, CNHM 40659-66, UIMNH 30747-8, UMMZ 73182; +6 km. S Mérida, KU 75194; 8.8 km. SE Ticul, UMMZ 114296; Valladolid, +CNHM 26934-6; Xcalah-op, CNHM 53906-14; 3.5 km. E Yokdzonot, KU +71441-3, 71720 (tadpoles).</p> + +<p><span class="smcap">British Honduras:</span> Belize, CNHM 4153, 4384-5, 4387, UMMZ 75310, +USNM 26065; Bokowina, CNHM 49064-5; Cocquercote, UMMZ 75331 (2); +Cohune Ridge, UMMZ 80738 (15); Double Falls, CNHM 49066; El Cayo, +UMMZ 75311; 6 km. S El Cayo, MCZ 37856; Gallon Jug, MCZ 37848-55; +Manatee, CNHM 4264-7; Mountain Pine Ridge, MCZ 37857-8; San Augustin, +UMMZ 80739; San Pedro, Columbia, MCZ 37860-2; Valentin, UMMZ 80735 +(4), 80736 (2), 80737 (2); 5 km. S Waha Loaf Creek, MCZ 37859.</p> + +<p><span class="smcap">Guatemala:</span> <b>Alta Verapaz:</b> 5.1 km. NE Campur, KU 68464 (tadpoles), +67465 (young); 28.3 km. NE Campur, KU 64203-22, 68183-4 (skeletons); +Chamá, MCZ 15792-3, UMMZ 90895 (7), 90896 (5), 90897 (29), 90898 (12), +90899; Chinajá, KU 55939-41, 57193-8, 60018-20 (tadpoles), 60021 (eggs), +60022 (tadpoles); Cobán, CNHM 21006; Cubilquitz, UMMZ 90902 (10); Finca +Canihor, UMMZ 90908; Finca Chicoyou, KU 57246-8, 60026 (young), 64202, +68466-7 (tadpoles); Finca Los Alpes, KU 64197-201, 68463 (tadpoles); Finca +Los Pinales, UMMZ 90903 (2); Finca Tinajas, BYU 16031; Finca Volcán, +UMMZ 90905 (4), 90906-7; Panzos, MNHN 6313, UMMZ 90904; Samac, +UMMZ 90900; Samanzana, UMMZ 90901 (6).</p> + +<p><b>Baja Verapaz:</b> Chejel, UMMZ 90909 (7), 90910 (3); San Gerónimo, UMMZ +84076 (16).</p> + +<p><b>Chiquimula:</b> 1.6 km. SE Chiquimula, UMMZ 98112; Esquipulas, UMMZ +106793 (28).</p> + +<p><b>El Petén:</b> 20 km. NNW Chinajá (Alta Verapaz), KU 57199-240; Flores, +UMMZ 117985; La Libertad, KU 60024 (young), UMMZ 75313-20, 75323 +(2), 75324 (7), 75325 (13), 75326 (2), 75327 (11), 75328 (12), 75329 (2); 3 km. +SE La Libertad, KU 57243-4; 13 km. S La Libertad, MCZ 21458 (2); Pacomon, +USNM 71334; Piedras Negras, USNM 114469-71; Poptún, UMMZ 120475; +Poza de la Jicotea, USNM 114672; Ramate-Yaxha trail, UMMZ 75321; Río de +la Pasión between Sayaxché and Subín, KU 57151; Río San Román, 16 km. +NNW Chinajá (Alta Verapaz), KU 55942-6; Sacluc, USNM 25131; Sayaxché, +KU 57144-5; Tikal, UMMZ 117983 (7), 117984 (5), 117993 (5), 120474 (5); +Toocog, KU 57241-2, 60023 (young), 60025 (young); Uaxactún, UMMZ +70401-3; Yaxha, UMMZ 75322; 19 km. E Yaxha, UMMZ 75330 (4).</p> + +<p><b>El Quiché:</b> Finca Tesoro, UMMZ 89166 (3), 90549 (tadpoles).</p> + +<p><b>Escuintla:</b> Río Guacalate, Masagua, USNM 125239; Tiquisate, UMMZ +98262 (7).</p> + +<p><b>Guatemala:</b> 16 km. NE Guatemala, KU 43545-53.</p> + +<p><b>Huehuetenango:</b> Finca San Rafael, 16 km. SE Barillas, CNHM 40912-6; +45 km. WNW Huehuetenango, KU 64223-4; Jacaltenango, UMMZ 120080 +(6), 120081 (14), 120082 (13).</p> + +<p><b>Izabál:</b> 2 km. SW Puerto Matías de Gálvez, KU 60027-8 (tadpoles); Quiriguá, +CNHM 20587, UMMZ 70060.</p> + +<p><b>Jalapa:</b> Jalapa, UMMZ 98109, 106792 (11).</p> + +<p><b>Jutiapa:</b> Finca La Trinidad, UMMZ 107728 (10); Jutiapa, UMMZ 106789; +1.6 km. SE Mongoy, KU 43069; Santa Catarina Mita, UMMZ 106790.</p> + +<p><b>Progreso:</b> Finca Los Leones, UMMZ 106791.</p> + +<p><b>Quetzaltenango:</b> Coatepeque, AMNH 62204.</p> + +<p><b>Retalhueleu:</b> Casa Blanca, UMMZ 107725 (18); Champerico, UMMZ +107726 (3).</p> + +<p><b>San Marcos:</b> Talisman Bridge, USNM 128056-7.</p> + +<p><span class="pagenum"><a name="Page_303" id="Page_303">[Pg 303]</a></span> +<b>Santa Rosa:</b> Finca La Guardiana, UMMZ 107727 (6); Finca La Gloria, +UMMZ 107724 (6); 1.6 km. WSW El Molino, KU 43065-8.</p> + +<p><span class="smcap">El Salvador:</span> <b>La Libertad:</b> 16 km. NW Santa Tecla, KU 43542-4. +<b>Morazán:</b> Divisadero, USNM 73284. <b>San Salvador:</b> San Salvador, CNHM +65087-99, KU 61955-88, 62138-9 (skeletons), 62154 (eggs), 62155-60 (tadpoles), +68462 (tadpoles), UMMZ 117586 (3), 118380 (3), USNM 140278.</p> + +<p><span class="smcap">Honduras:</span> State unknown: Guaimas, UMMZ 58391. <b>Atlantidad:</b> Isla de +Roatán, CNHM 34551-4; La Ceiba, USNM 64985, 117589-91; Lancetilla, +MCZ 16207-11; Tela, MCZ 15774-5, 28080, UMMZ 58418, USNM 82173-4. +<b>Choluteca:</b> 1.5 km. NW Choluteca, KU 64228-32; 10 km. NW Choluteca, KU +64233; 10 km. E Choluteca, KU 64226-7; 12 km. E Choluteca, KU 64225; 5 +km. S Choluteca, USC 2700 (2). <b>Colón:</b> Bambú, UF 320; Belfate, AMNH +45692-5; Patuca, USNM 20261. <b>Comayagua:</b> La Misión, 3.5 leagues N +Siguatepeque, MCZ 26424-5. <b>Copán:</b> Copán, UMMZ 83026 (2). <b>Cortés:</b> +Cofradía, AMNH 45345-6; Hacienda Santa Ana, CNHM 4724-31; Lago de +Yojoa, MCZ 26410-1; Río Lindo, AMNH 54972. <b>El Paraiso:</b> El Volcán, MCZ +26436. <b>Francisco Morazán:</b> Tegucigalapa, BYU 18301-4, 18837-41, MCZ +26395-7, USNM 60499. <b>Gracias A Dios:</b> Río Segovia, MCZ 24543. <b>Santa +Barbara:</b> Santa Barbara, USNM 128062-5.</p> + +<p><span class="smcap">Nicaragua:</span> <b>Chinandega:</b> 4 km. N, 2 km. W Chichigalpa, KU 85385; +Chinandega, MCZ 2632; Río Tama, USNM 40022; San Antonio, KU 84944-9 +(skeletons), 85386-403. <b>Chontales:</b> 1 km. NE Acoyapa, KU 64234. <b>Estelí:</b> +Finca Daraili, 5 km. N, 15 km. E Condega, KU 85404-8; Finca Venecia, 7 +km. N, 16 km. E Condega, KU 85409. <b>León:</b> 1.6 km. ENE Poneloya, KU +43084-5. <b>Managua:</b> Managua, USNM 79989-90; 8 km. NW Managua, KU +43094-110; 20 km. NE Managua, KU 85412; 21 km. NE Managua, KU +85413-4; 5 km. SW Managua, KU 43086-93; 2 km. N Sabana Grande, KU +85411; 3 km. N Sabana Grande, KU 43070-8; 20 km. S, 0.5 km. W Tipitapa, +KU 85410. <b>Matagalpa:</b> Guasqualie, UMMZ 116493; Matagalpa, UMMZ +116492; 19 km. N Matagalpa, UMMZ 116494. <b>Río San Juan:</b> Greytown, +USNM 19585-6, 19767-8. <b>Rivas:</b> Javillo, UMMZ 123001; Moyogalpa, Isla +Ometepe, KU 85428-37, 87706 (tadpoles); Peñas Blancas, KU 85417; Río +Javillo, 3 km. N, 4 km. W Sapoá, KU 85418-20, 85438 (skeleton); 13.1 km. +SE Rivas, KU 85415; 14.8 km. SE Rivas, KU 85421-3; 11 km. S, 3 km. E +Rivas, KU 85416; 16 km. S Rivas, MCZ 29009-10; 7.7 km. NE San Juan del +Sur, KU 85426-7; 16.5 km. NE San Juan del Sur, KU 85424-5, 87705 (young); +5 km. SE San Pablo, KU 43079-83. <b>Zelaya:</b> Cooley, AMNM 7063-8, 8019-20, +8022, 8034-5; Cukra, AMNH 8016-7; Musahuas, Río Huaspuc, AMNH 58428-31; +11 km. NW Rama, Río Siquia, UMMZ 79708, 79709 (5), 79710 (2); Río +Escondido, USNM 19766, 20701; Río Siquia at Río Mico, UMMZ 79707 (10); +Sioux Plantation, AMNH 7058-61, 8023-33.</p> + +<p><span class="smcap">Costa Rica:</span> <b>Alajuela:</b> Los Chiles, AMNH 54639; Orotina, MCZ 7960-1; +San Carlos, USNM 29991. <b>Guanacaste:</b> La Cruz, USC 8232 (3); 4.3 km. NE +La Cruz, UMMZ 123002; 18.4 km. S La Cruz, USC 8136; 23.5 km. S La Cruz, +USC 8094 (4); 3 km. W La Cruz, USC 8233 (4); 2 km. NE Las Cañas, KU +64235-7; Las Huecas, UMMZ 71212-3; Liberia, KU 36787, USC 8161; 11.5 +km. N Liberia, USC 8149; 13 km. N Liberia, USC 8139; 22.4 km. N Liberia, +USC 8126; 8 km. NNW Liberia, KU 64238; 8.6 km. ESE Playa del Coco, +USC 8137; 21.8 km. ESE Playa del Coco, USC 8138; Río Piedra, 1.6 km. W +Bagaces, USC 7027; Río Bebedero, 5 km. S Bebedero, KU 64158; 5 km. NE +Tilarán, KU 36782-6. <b>Heredia:</b> 13 km. SW Puerto Viejo, KU 64142-6. +<b>Limón:</b> Batán, KU 34927; Guacimo, USC 621; Pandora, USC 505 (3); Suretka, +KU 36788-9; Tortugero, UF 7697, 10540-2. <b>Puntarenas:</b> Barranca, CNHM +35254-6; 15 km. WNW Barranca, KU 64155-7, UMMZ 118381; 18 km. WNW +Barranca, UMMZ 118382 (4); 4 km. WNW Esparta, KU 64159-96, 68178-82 +(skeletons); 19 km. NW Esparta, KU 64147-54.</p> + + +<div class="caption3nb"><a name="Smilisca_cyanosticta" id="Smilisca_cyanosticta"></a> +<b>Smilisca cyanosticta</b> (Smith), new combination</div> + +<div class="species_ref"><i>Hyla phaeota</i>, Taylor, Univ. Kansas Sci. Bull., 28(5):80, May 15, 1942. +Taylor and Smith, Proc. U. S. Natl. Mus., 95(3185):589, June 30, 1945.</div> + +<p><span class="pagenum"><a name="Page_304" id="Page_304">[Pg 304]</a></span></p> + +<div class="species_ref"><i>Hyla phaeota <ins title='Correction: was "cyanostica"'>cyanosticta</ins></i> Smith, Herpetologica, 8:150, Jan. 30, 1953 [Holotype.—USNM +111147 from Piedras Negras, El Petén, Guatemala; Hobart +M. Smith collector]. Shannon and Werler, Trans. Kansas Acad. Sci., +58:386, Sept. 24, 1955. Poglayen and Smith, Herpetologica, 14:11, April +25, 1958. Cochran, Bull. U. S. Natl. Mus., 220:57, 1961. Smith, Illinois +Biol. Mono., 32:25, May, 1964.</div> + +<div class="species_ref"><i>Smilisca phaeota cyanosticta</i>, Stuart, Misc. Publ. Mus. Zool. Univ. Michigan, +122:42, April 2, 1963. Duellman, Univ. Kansas Publ. Mus. Nat. Hist., +15(5):229, Oct. 4, 1963.</div> + +<p><i>Diagnosis.</i>—Size moderately large ([M] 56.0 mm., [F] 70.0 mm.); skull as +long as wide; frontoparietal fontanelle large; narrow supraorbital flanges having +irregular margins anteriorly; large squamosal not in contact with maxillary; +tarsal fold moderately wide, full length of tarsus; inner metatarsal tubercle +moderately large, low, flat, elliptical; hind limbs relatively long; tibia usually +more than 52 per cent of snout-vent length; labial stripe silvery-white; lips +lacking vertical bars; loreal region pale green; pale bronze-colored stripe from +nostril along edge of eyelid to point above tympanum narrow, bordered below +by narrow dark brown stripe from nostril to eye, and broad dark brown +postorbital mark encompassing tympanum and terminating above insertion of +arm; flanks, dark brown with large pale blue spots; anterior and posterior +surfaces of thighs dark brown with small pale blue spots on thighs. (Foregoing +combination of characters distinguishing <i>S. cyanosticta</i> from any other species +in genus.)</p> + +<p><i>Description and Variation.</i>—The largest males are from Piedras Negras, El +Petén, Guatemala, and they average 52.5 mm. in snout-vent length whereas +males from Los Tuxtlas, Veracruz, average 50.6 mm. and those from northern +Oaxaca 50.3 mm. The smallest breeding male has a snout-vent length of 44.6 +mm. The average ratio of tibia length to snout-vent length is 54.8 per cent +in males from Piedras Negras, and 56.4 and 56.3 per cent in males from Los +Tuxtlas and Oaxaca, respectively. The only other character showing noticeable +geographic variation is the size of the tympanum. The average ratio of the +diameter of the tympanum to the diameter of the eye is 76.3 per cent in males +from Piedras Negras, 71.8 from Oaxaca, and 66.9 from Los Tuxtlas.</p> + +<p>The dorsal ground color of <i>Smilisca cyanosticta</i> is pale green to tan and +the venter is creamy white. The dorsum is variously marked with dark olive-green +or dark brown spots or blotches (Pl. 6B). An interorbital dark bar +usually is present. The most extensive dark area is a V-shaped mark in the +occipital region with the anterior branches not reaching the eyelids; this mark +is continuous, by means of a narrow mid-dorsal mark, with an inverted V-shaped +mark in the sacral region. In many specimens this dorsal marking is +interrupted, resulting in irregular spots. In some specimens the dorsum is +nearly uniform pale green or tan with a few small, dark spots. The hind limbs +are marked by dark transverse bands, usually three or four each on the thigh +and shank, and two or three on the tarsus. The webbing on the feet is brown. +The loreal region is pale green, bordered above by a narrow, dark brown +canthal stripe extending from the nostril to the orbit, which is bordered above +by a narrow, bronze-colored stripe extending from the nostril along the edge +of the eyelid to a point above the tympanum. The upper lip is white. A +broad dark brown mark extends posteriorly from the orbit and encompasses the +tympanum to a point above the insertion of the forelimb. The flanks are dark +brown with many pale blue, rounded spots, giving the impression of a pale +<span class="pagenum"><a name="Page_305" id="Page_305">[Pg 305]</a></span> +blue ground color with dark brown mottling enclosing spots. The anterior +and posterior surfaces of the thighs are dark brown with many small pale +blue spots. The inner surfaces of the shank and tarsus are colored like the +posterior surfaces of the thighs. Pale blue spots are usually present on the +proximal segments of the second and third toes. A distinct white stripe is +present on the outer edge of the tarsus and fifth toe; on the tarsus the white +stripe is bordered below by dark brown. A white stripe also is present on the +outer edge of the forearm and fourth finger. The anal region is dark brown, +bordered above by a narrow transverse white stripe. The throat in breeding +males is dark, grayish brown with white flecks.</p> + +<p>No geographic variation in the dorsal coloration is evident. Specimens from +the eastern part of the range (Piedras Negras and Chinajá, Guatemala) have +bold, dark reticulations on the flanks enclosing large pale blue or pale green +spots, which fade to tan in preservative. Specimens from Oaxaca and Veracruz +characteristically have finer dark reticulations on the flanks enclosing smaller +blue spots; in many of these specimens the ventrolateral spots are smallest and +are white.</p> + +<p>All living adults are easily recognized by the presence of pale, usually blue, +spots on the flanks and thighs. Individuals under cover by day have a tan +dorsum with dark brown markings. A hiding individual at Chinajá, Alta +Verapaz, <ins title='Correction: was "Quatemala"'>Guatemala</ins> (KU 55936), had a pale tan dorsum when found; later +the dorsal color changed to chocolate brown. A pale green patch was present +below the eye; the spots on the posterior surfaces of the thighs were pale blue, +and those on the flanks were yellowish green. A calling male obtained 10 +kilometers north-northwest of Chinajá (KU 55934) was reddish brown when +found at night; later the dorsal color changed to pale tan. A green patch below +the eye was persistent. Usually these frogs are green at night. The coloration +of an adult male (KU 87201) from 11 kilometers north of Vista Hermosa, +Oaxaca, México, was typical: "When calling dorsum pale green; later changed +to dull olive-green. Flanks dark brown with pale blue spots in axilla and +groin and bluish white flecks on mid-flank. Anterior and posterior surfaces of +thighs, inner surfaces of shanks, and median dorsal surfaces of tarsi dark brown +with blue spots. Canthal and postorbital stripes dark chocolate brown; labial +stripe creamy white. Forearm, tarsal, and anal stripes pale cream-color. +Throat dark brown with yellow flecks; belly and ventral surfaces of limbs +creamy buff; webs pinkish tan; iris deep bronze, brown below pupil." (Duellman, +field notes, June 24, 1964.)</p> + +<p>Some individuals have both green and brown coloration in life. An individual +obtained at night on the south slope of Volcán San Martin, Veracruz, +México, had a pale tan dorsum changing peripherally to pale green. The +dorsal markings were dark brown and dark olive-green.</p> + +<p>In contrast to the color-changes noted above, the labial region below the +eye is always pale green, and pale spots are always present on the flanks and +thighs in adults. The iris is invariably golden or bronze above and darker, +usually brown, below. Minute black flecks are present on the iris, and in some +individuals these flecks are so numerous that the eye appears gray.</p> + +<p>Recently metamorphosed young have pale tan flanks, and the posterior surfaces +of the thighs are orange-yellow; pale spots are absent. A juvenile (KU +55935) from Chinajá, Alta Verapaz, Guatemala, having a snout-vent length +of 35.0 mm. was pale yellowish tan above with olive-green markings; the +flanks were dark brown with pale blue spots, and the anterior and posterior +<span class="pagenum"><a name="Page_306" id="Page_306">[Pg 306]</a></span> +surfaces of the thighs were uniform bright tomato red. A juvenile (UMMZ +121298), 18.6 mm. in snout-vent length, from the southeast slope of Volcán +San Martín, Veracruz, México, had pale tan flanks lacking blue spots, but had +red thighs. Apparently the ontogenetic changes in coloration proceed as follows: +(1) flanks pale tan and thighs orange-yellow, both lacking spots, (2) +flanks pale tan and thighs red, both lacking spots, (3) flanks dark brown with +blue spots and thighs red, lacking spots, and (4) flanks and thighs dark brown, +both having pale blue spots.</p> + +<p><i>Natural History.</i>—<i>Smilisca cyanosticta</i> inhabits humid tropical forest and +cloud forest from the lowlands to elevations of about 1200 meters in Los Tuxtlas +and to about 900 meters in northern Oaxaca. In these moist environments +the frogs apparently are active throughout the year. Active individuals have +been obtained in January, July, and August in Los Tuxtlas, Veracruz, in June +and July in northern Oaxaca, in February and March at Chinajá, Guatemala, +and Taylor and Smith reported (1945:589) activity in May at Piedras Negras, +Guatemala. Calling males were observed as follows; in a rain barrel 11 kilometers +north of Vista Hermosa, Oaxaca, México, on June 23-28, 1964; in a quiet +pool in a stream 8 kilometers south of Yetla, Oaxaca, México, in July, 1963 +(Dale L. Hoyt, personal communication); in and near springs flowing into a +stream at Dos Amates, Veracruz, México, on August 4, 1959 (Douglas Robinson, +personal communication); and in a water-filled depression in a log 10 +kilometers west-northwest of Chinajá, Guatemala, on March 13, 1960. Taylor +and Smith (1945:589) reported that individuals were found at night on the +ground at the edge of temporary pools at Piedras Negras, Guatemala, on May +28-29, 1939. A clasping pair was found on a rock at the edge of a small +stream on the south slope of Volcán San Martín, Veracruz, México, on July 11, +1959 (Douglas Robinson, personal communication).</p> + +<p>Only one individual has been observed in a tree at night. In the daytime, +individuals were found in elephant ear plants (<i>Xanthosoma</i>) at Chinajá, +Guatemala.</p> + +<p>The breeding call consists of one or two moderately short notes that are +lower pitched than those of <i>S. baudini</i>, but higher pitched than those of <i>S. +phaeota</i>. Each note has a duration of 0.25 to 0.45 seconds and is repeated at +intervals of one-half minute to several minutes. Each note is a vibrant +"waunk," having 110 to 180 pulses per second and dominant frequency of +1600 to 2100 cycles per second (Pl. 10B).</p> + +<p>Apparently the eggs are deposited as loose clumps in the water. In eggs +in the yolk plug stage of development, the diameter of the embryo is about +2.3 mm.; that of the outer envelope is 4.0 mm. Hatchling tadpoles have total +lengths of 5.8 to 6.5 mm. and body lengths of 2.8 to 3.1 mm. The external +gills are moderately long, slender, and filamentous; the yolk sac is still moderately +large. The body and anterior part of the caudal musculature are dark +brown; posteriorly the caudal musculature is pale brown. The caudal fins are +creamy tan. The oral discs are large and ovoid. The growth of the tadpole +is summarized in Table 10.</p> + +<p>A typical tadpole in stage 30 of development (KU 87652 from 11 km. +N Vista Hermosa, Oaxaca, México) can be described as follows:</p> + +<p>Body length 9.5 mm.; tail length 15.5 mm.; total length 25.0 mm.; body +slightly wider than deep; snout rounded laterally, broadly ovoid dorsally; eyes +widely separated, directed dorsolaterally; nostril about midway between eye +<span class="pagenum"><a name="Page_307" id="Page_307">[Pg 307]</a></span> +and tip of snout; mouth anteroventral; spiracle sinistral, slightly posterior to +midpoint of body and slightly below midline; anal tube dextral; caudal +musculature slender, barely curved upward distally; dorsal fin not extending +onto body, depth of dorsal fin slightly more than that of ventral fin on mid-length +of tail; dorsal part of body dark brown; ventral surfaces transparent, +lacking pigment; posterior edge of body pale cream-color; caudal musculature +creamy white with interconnected brown spots; caudal fins transparent with +small brown blotches on dorsal fin and posterior half of ventral fin; iris coppery +bronze in life (Fig. 12). Mouth small, median part of upper lip bare; rest +of mouth bordered by single row of bluntly rounded papillae; lateral fold +present; tooth rows 2/3; all tooth-rows approximately equal in length; second +upper row broadly interrupted medially; other rows complete; upper beak +moderately deep, forming broad arch with slender lateral processes; lower beak +slender, broadly V-shaped; both beaks finely serrate (Fig. 15C).</p> + +<p>All tadpoles having fully developed mouth parts have 2/3 tooth rows. Little +variation is noticeable in coloration. In many specimens the posterior edge +of the body is dark brown instead of pale cream-color. Mottling is rather +dense on the caudal fins in all specimens; in some individuals pigment is concentrated +along the anterior one-third of the lateral groove. In life the body +is dark brown with greenish gold flecks ventrally; the caudal musculature is +gray.</p> + +<p>In each of two recently metamorphosed young the snout-vent length is 14.0 +mm. Coloration of young in life (KU 87653 from 11 km. N Vista Hermosa, +Oaxaca, México): "Dorsum pale tan with dark brown markings. Thighs +orange-yellow; labial stripe white; iris bronze" (Duellman, field notes, July 10, +1964.)</p> + +<p><i>Remarks.</i>—Smith (1953:150) named <i>cyanosticta</i> as a subspecies of <i>Hyla +phaeota</i>. The differences in cranial characters and certain external characters +between <i>phaeota</i> and <i>cyanosticta</i> indicate that they are distinct species. Furthermore, +a gap of about 350 kilometers exists between the known geographic +ranges of the two kinds.</p> + +<p><i>Distribution.</i>—<i>Smilisca <ins title='Correction: was "cyanostica"'>cyanosticta</ins></i> inhabits wet forests on the Atlantic slope +of southern México and northern Central America from northern Oaxaca and +southern Veracruz through northern Chiapas in México and into El Petén and +northern Alta Verapaz in Guatemala (Fig. 2). Apparently the range is discontinuous, +for in southern México the species is found in cloud forest at +elevations of 830 to 900 meters on the northern slopes of the Sierra de Juárez. +In the Sierra de Los Tuxtlas in southern Veracruz the species is found in wet +forest at elevations of 300 to 1200 meters, but is absent in the intervening +lowlands characterized by drier forest. In the west forests of northern Alta +Verapaz and El Petén, Guatemala, the species is found at low elevations.</p> + +<div class="smaller"> +<p><i>Specimens examined.</i>—78, as follows: <span class="smcap">Mexico</span>: <b>Chiapas</b>: Monte Libano, +MCZ 28271-9; 8 km. N San Fernando, 24 km. NE Tuxtla Gutierrez, UIMNH +41588. <b>Oaxaca</b>: 11 km. N Vista Hermosa, KU 84918-20 (skeletons), 87198-212, +87647 (eggs), 87648-52 (tadpoles), 87653 (young), UIMNH 57199-201; 8 km. +S Yetla, KU 87213, UMMZ 124838 (8). <b>Veracruz</b>: Coyame, UMMZ 111459-60; +between Coyame and Tebanco, UMMZ 121198; Dos Amates, UMMZ +121297; between Laguna de Catemaco and Volcán San Martín, UMMZ +121200; Volcán San Martín, UIMNH 35403-4, 35408-12, UMMZ 118163; SE +slope Volcán San Martín, UMMZ 121199, 121295 (2), 121296, 121298.</p> + +<p><span class="smcap">Guatemala</span>: <b>Alta Verapaz</b>: Chinajá, KU 55935-7, 55938 (skeleton). <b>El</b></p> +</div> + +<p><span class="pagenum"><a name="Page_308" id="Page_308">[Pg 308]</a></span> +<b>Petén</b>: 10 km. NNW Chinajá (Alta Verapaz), KU 55934; Piedras Negras, +CNHM 99006-7, 99227, UIMNH 28853, USNM 111139-41, 111143-7; 8 km. +S Piedras Negras, CNHM 99008; Semicoch, USNM 35907.</p> + +<div class="fig_center" style="width: 516px;"> +<a name="Fig_2" id="Fig_2"></a> +<img src="images/fig_2.png" width="516" height="546" alt="" title="" /> +<div class="fig_caption"><span class="smcap">Fig. 2.</span> Map showing locality records for <i>Smilisca cyanosticta</i> (triangles) +and <i>Smilisca phaeota</i> (circles).</div> +</div> + + +<div class="caption3nb"><a name="Smilisca_phaeota" id="Smilisca_phaeota"></a> +<b>Smilisca phaeota</b> (Cope)</div> + +<div class="species_ref"><i>Hyla phaeota</i> Cope, Proc. Acad. Nat. Sci. Philadelphia, 14 (9):358, 1862 +[Holotype.—USNM 4347 from Turbo, Colombia; J. Cassin collector]. +Boulenger, Catalogue Batrachia Salientia in British Museum, p. 402, +Feb. 1, 1882. Werner, Sitzungsb. Akad. Wiss. München, 27:215, 1897. +Günther, Biologia Centrali-Americana: Reptilia and Batrachia, p. 269, +Sept. 1901. Nieden, Das Tierreich, Amphibia, Anura I, p. 261, June +1923. Dunn, Occas. Papers Boston Soc. Nat. Hist., 5:413, Oct. 10, 1931. +Gaige, Hartweg, and Stuart, Occas. Papers Mus. Zool. Univ. Michigan, +357:4, Oct. 26, 1937. Cooper, Copeia, 2:122, June 30, 1944. Breder, +Bull. Amer. Mus. Nat. Hist., 86(6):416, Aug. 26, 1946. Smith and +Taylor, Bull. U.S. Natl. Mus., 194:88, June 17, 1948; Univ. Kansas +Sci. Bull, 33:364, March 20, 1950. Taylor, Univ. Kansas Sci. Bull., +35(1):837, July 1, 1952. Brattstrom and Howell, Herpetologica, 10:117, +<span class="pagenum2"><a name="Page_309" id="Page_309">[Pg 309]</a></span> +Aug. 1, 1954. Goin, Herpetologica, 14:120, July 23, 1958. Cochran, +Bull. U.S. Natl. Mus., 220:57, 1961.</div> + +<div class="species_ref"><i>Hyla labialis</i> Peters, Monats. Konigl. Akad. Wissen. Berlin, p. 463, 1863 +[Holotype.—ZMB 4913 from "region of Bogotá," Colombia]; Monats. +Konigl. Akad. Wissen. Berlin, p. 618, Oct. 16, 1873. Boulenger, Catalogue +Batrachia and Salientia in British Museum, p. 397, Feb. 1, 1882.</div> + +<div class="species_ref"><i>Hyla baudini dolomedes</i> Barbour, Occas. Papers Mus. Zool. Univ. Michigan, +129:11, Jan. 25, 1923 [Holotype.—MCZ 8539 from Río Esnápe, Sambú +Valley, Darién, Panamá; Barbour and Brooks collectors]. Barbour and +Loveridge, Bull. Mus. Comp. Zool. Harvard, 69:278, June, 1929.</div> + +<div class="species_ref"><i>Hyla phaeota phaeota</i>, Smith, Herpetologica, 8:152, Jan. 30, 1953. Minton +and Smith, Herpetologica, 16:103, June 17, 1960.</div> + +<div class="species_ref"><i>Smilisca phaeota</i>, Starrett, Copeia, 4:303, +Dec. 30, 1960.</div> + +<p><i>Diagnosis.</i>—Size large ([M] 65 mm., [F] 78 mm.); skull as long as wide, lacking +frontoparietal fontanelle; large supraorbital flanges having straight edges +and extending posterolaterally; large squamosal not in contact with maxillary; +tarsal fold moderately wide, full length of tarsus; inner metatarsal tubercle +moderately large, low, flat, elliptical; hind limbs relatively long, tibia averaging +more than 53 per cent of snout-vent length; labial stripe silvery white; lips +lacking vertical bars; loreal region pale green; dark brown or black tympanic +mark dispersing into brown venated pattern on flanks; posterior surfaces of +thighs pale brown, with or without darker flecks or small cream-colored flecks. +(Foregoing combination of characters distinguishing <i>S. phaeota</i> from any other +species in genus.)</p> + +<table width="80%" summary="Geographic Variations"> +<tr> + <td colspan="4" class="smcap">Table 2.—Geographic Variation in Size and + Proportions in Males of Smilisca phaeota. (Means in Parentheses Below Observed Ranges; + Data Based of Ten Specimens From Each Locality.)</td> +</tr> +<tr> + <td class="brdtp2 brdbt smcap pad7">Locality</td> + <td class="brdtp2 brdbt brdlf pad7">Snout-vent<br />length</td> + <td class="brdtp2 brdbt brdlf pad7">Head width/<br />snout-vent length</td> + <td class="brdtp2 brdbt brdlf pad7">Interorbital distance/<br />head width</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf">Bonanza, Nicaragua</td> + <td class="brdlf">40.8-47.7</td> + <td class="brdlf">34.1-38.0</td> + <td class="brdlf">31.0-36.1</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> (43.7)</td> + <td class="brdlf"> (36.3)</td> + <td class="brdlf"> (35.4)</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf">Heredia Prov., Costa Rica</td> + <td class="brdlf">46.3-59.0</td> + <td class="brdlf">32.5-36.0</td> + <td class="brdlf">30.5-39.6</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> (51.7)</td> + <td class="brdlf"> (35.0)</td> + <td class="brdlf"> (34.7)</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf">Puntarenas Prov., Costa Rica</td> + <td class="brdlf">53.6-64.9</td> + <td class="brdlf">32.6-36.1</td> + <td class="brdlf">31.0-38.0</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> (61.4)</td> + <td class="brdlf"> (34.5)</td> + <td class="brdlf"> (34.4)</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf">Canal Zone, Panamá</td> + <td class="brdlf">52.4-65.5</td> + <td class="brdlf">33.5-37.6</td> + <td class="brdlf">31.3-37.2</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> (56.5)</td> + <td class="brdlf"> (35.6)</td> + <td class="brdlf"> (34.7)</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf">Río Quesada, Colombia</td> + <td class="brdlf">52.6-61.0</td> + <td class="brdlf">33.1-37.1</td> + <td class="brdlf">30.1-33.9</td> +</tr> +<tr> + <td class="brdbt"> </td> + <td class="brdbt brdlf"> (56.0)</td> + <td class="brdbt brdlf"> (35.0)</td> + <td class="brdbt brdlf"> (32.1)</td> +</tr> +</table> + +<p><i>Description and Variation.</i>—For the purposes of analyzing geographic variation +in size and proportions, measurements were taken on ten adult males from +each of five samples throughout the range of the species. Aside from the data +summarized in Table 2, the average ratio of tibia length to snout-vent length +is noticeably less in Colombian specimens (53.4 per cent, as compared with +54.8 to 57.8 per cent in the other samples) and the ratio of head length to +<span class="pagenum"><a name="Page_310" id="Page_310">[Pg 310]</a></span> +snout-vent length is noticeably less in Costa Rican specimens (33.5 per cent +as compared with 34.9 to 35.1 per cent in the other samples). Also, specimens +from Heredia Province, Costa Rica, have a relatively smaller tympanum (62.7 +to 80.4 [mean 68.4] per cent of the diameter of the eye, as compared with +means of 74.0 to 77.9 per cent in the other samples).</p> + +<p>Two populations are distinctive as regards the size of adult males. Specimens +from the northern Caribbean lowlands of Nicaragua (Bonanza, the +northernmost locality for the species) are remarkably small. Males having +snout-vent lengths of between 40 and 43 mm. were breeding; the largest male +found had a snout-vent length of 47.7 mm. The other extreme in size is attained +in specimens from the Pacific lowlands of eastern Costa Rica and western +Panamá, where most breeding males have snout-vent lengths of more than +55 mm.; the largest male had a snout-vent length of 64.9 mm.</p> + +<p>The rather striking differences in size among certain samples and the minor +differences in proportions among other samples show no geographic trends. +Instead, the variations apparently are random among the samples. The data +presented here possibly are the results of inadequate sampling, but more likely +reflect actual differences in the populations.</p> + +<p>The dorsal ground color of <i>Smilisca phaeota</i> is pale green to tan; the venter +is creamy white. The dorsum is variously marked with dark olive-green or +dark brown spots or blotches (Pl. 6C). A dark interorbital bar is usually +present. Usually a large dark dorsal mark extends from the occiput to the +sacral region, but in many individuals this blotch is replaced by two or three +dark marks. The dorsal markings are irregular in shape and do not tend to +form transverse bands or longitudinal bars. The hind limbs are marked by +dark transverse bands, usually four or five on the thigh, five or six on the shank, +and four on the tarsus. Two or three narrow bands are usually present on the +proximal part of the fourth toe. The webbing on the feet is brown. The +loreal region is pale green, bordered above by a narrow dark brown canthal +stripe extending from the nostril to the orbit. The upper lip is silvery white. +A broad dark brown or black mark extends posteriorly from the orbit, encompassing +the tympanum, to a point above the insertion of the forelimb. The +flanks are pale green or pale tan and marked with a fine dark brown or black +venation. The anterior surfaces of the thighs usually are pale brown or grayish +tan, sometimes having small, indistinct darker flecks. The posterior surfaces +of the thighs are similarly colored, but in most specimens small but distinct +dark flecks are present; in some specimens small cream-colored spots are also +present on the posterior surfaces of the thighs. A distinct, narrow creamy white +anal stripe usually is present. A distinct white stripe is present on the +outer edge of the tarsus and fifth toe; on the tarsus the white stripe is bordered +below by dark brown. A white stripe also is present on the outer edge of the +forearm and fourth finger. In breeding males the throat is dark gray.</p> + +<p>Little geographic variation in color or pattern is evident. Few, if any, +specimens from the Pacific lowlands of South America are green in life. (We +have seen no living individuals from South America.) Some living individuals +from Costa Rica and all those seen alive from Nicaragua have a tint of pale +blue on the flanks. In some specimens the dorsal pattern is so faint as to be +barely discernible, whereas in most specimens the pattern is bold.</p> + +<p>The coloration in the living frogs is highly variable due to extreme metachrosis. +Individuals of this species are capable of changing the dorsal coloration +<span class="pagenum"><a name="Page_311" id="Page_311">[Pg 311]</a></span> +from green to brown in a short period of time. Both green and brown +individuals have been found active at night. Usually those individuals found +hiding by day are brown. One individual from Finca La Sumbadora, Panamá +(now KU 91914), was kept alive in the laboratory for nearly one month. This +individual usually was pale green with tan dorsal markings at night and tan +with pale green markings by day. On occasion the pale green dorsal markings +were boldly outlined by bright dark green.</p> + +<p>In living individuals from throughout the range of the species the iris +is a bronze color, darkest medially with fine black reticulations.</p> + +<p><i>Natural History.</i>—<i>Smilisca phaeota</i> inhabits humid lowland tropical forest +and seldom ascends the foothills to more than 1,000 meters. The rather +equable climatic conditions, especially more or less evenly distributed rainfall +throughout the year, permit this frog to be active most of the year. Dunn +(1931:413) reported males calling on Barro Colorado Island, Panamá, in February +and in July, and Breder (1946:416) noted calling individuals in the +Chucanaque drainage of Darién, Panamá in January, March, July, August and +October and in Costa Rica in April through August inclusively. Calling males +were found at Bonanza, Nicaragua in March and in July.</p> + +<p>At all times of year the usual daytime retreats for these frogs are near water; +the frogs have been found in elephant ear plants (<i>Xanthosoma</i>) and in bromeliads; +occasional individuals have been found sitting on shaded branches of +bushes and trees. None has been observed on the ground or beneath ground-cover +by day.</p> + +<p>The length of the breeding season cannot be determined definitely. The +earliest date on which eggs have been found is May 23; Gaige, Hartweg, and +Stuart (1937:5) reported a gravid female taken at El Recreo, Nicaragua, in +September, and we have a gravid female taken at Almirante, Panamá, in +March.</p> + +<p>Males usually call from secluded spots at the edge of water. All calling +males that we observed were on the ground within a few centimeters of the +water. The males usually are hidden beneath an overhanging leaf or some +other cover; they definitely do not sit in the open like <i>Smilisca baudini</i>. Most +calling males and clasping pairs have been found at the edges of small pools +or shallow ditches, although occasional individuals are found at the edges of +large ponds or streams.</p> + +<p>The breeding call consists of one or two moderately short, low-pitched notes +(duration 0.33 to 0.42 seconds), repeated at intervals of about 20 seconds to +several minutes. Each note is a low, vibrant "wauk," having 100 to 130 pulses +per second and a dominant frequency of 330 to 420 cycles per second (Pl. 10C).</p> + +<p>The eggs are deposited in loose clumps amidst vegetation in the water. +Hatchling tadpoles have total lengths of 8.7 to 10.6 mm., and body lengths +of 4.1 to 4.5 mm. The external gills are long and filamentous, and the yolk +sac is large. The head and caudal musculature are dark brownish black, and +the caudal fins are gray. The oral discs are large and roughly circular. The +growth and development of the tadpoles are summarized in table 11 and +figure 16.</p> + +<p>A typical tadpole in stage 30 of development (KU 68482 from the Río +Chitaría, Cartago Province, Costa Rica) may be described as follows: body +length 9.7 mm.; tail length 14.6 mm.; total length 24.3 mm.; body as wide +as deep; snout rounded dorsally and laterally; eyes widely separated, directed +<span class="pagenum"><a name="Page_312" id="Page_312">[Pg 312]</a></span> +dorsolaterally; nostril about midway between eye and tip of snout; mouth +anteroventral; spiracle sinistral, about midway on length of body and slightly +below midline; anal tube dextral; caudal musculature slender, curved upward +distally; dorsal fin extending onto body; depth of dorsal fin slightly less than +that of ventral fin at mid-length of tail; dorsal part of body pale brown; ventral +surfaces transparent with scattered pigment; pale cream-colored, crescent-shaped +mark on posterior edge of body; caudal musculature pale creamy tan +with scattered pale brown spots; caudal fins transparent with scattered small +brown blotches on dorsal and ventral fins; iris pale bronze in life (Fig. 13); +mouth small; median part of upper lip bare; rest of mouth bordered by one +row of pointed papillae; lateral fold present; tooth-rows 2/3, first upper row +longest; second upper row slightly shorter, broadly interrupted medially; three +lower rows complete, equal in length, slightly shorter than second upper row; +upper beak moderately deep, forming broad arch with slender lateral processes; +lower beak slender, broadly V-shaped; both beaks serrate (Fig. 15E).</p> + +<p>In tadpoles having fully developed mouthparts the tooth-row formula of +2/3 is invariable. The pale crescent-shaped mark on the posterior part of the +body curves anterodorsally on the dorsal surface of the body. These marks +in dorsal view give the appearance of a pair of short, pale stripes on the posterior +part of the body. Most specimens from Costa Rica have the pale coloration +like that described above, but some individuals (notable KU 87683 from +Guápiles, Costa Rica, KU 87707 from Finca Tepeyac, Nicaragua, and KU 87708 +from Bonanza, Nicaragua) have much more pigment. In these specimens +the same color pattern obtains as in the pallid individuals, but the pigmentation +is dense. This is especially noticeable on the tail.</p> + +<p>Recently metamorphosed young have snout-vent lengths of 12.7 to 16.7 mm. +(average, 14.3 mm. in eleven specimens). Coloration of young in life (KU +68484 from Río Chitaría, Cartago Province, Costa Rica): "Dorsum pale tan; +side of head and flanks darker brown, separated from tan dorsum by an +indistinct cream stripe. Limbs pale yellow; thighs flecked with brown; shank +and tarsus yellowish tan with indistinct brown bars. Soles of feet brown. Belly +white; throat dusty cream flecked with silvery white. Upper lip silvery white. +Iris bright gold with black flecks. Heels, tarsal and anal stripes white" (Duellman, +field notes, May 23, 1961).</p> + +<p><i>Remarks.</i>—Peters (1863:463) named <i>Hyla labialis</i> from the "region of +Bogotá, Colombia", but in 1873 regarded his new species as identical with +<i>Hyla phaeota</i> Cope, 1862, from Turbo, Colombia. The name <i>Hyla labialis</i> +has been used for frogs from the northern Andes in Colombia (see Dunn, +1944:72, and Stebbins and Hendrickson, 1959:522, for discussion of nomenclature). +Rivero (1961:131) used the name <i>Hyla vilsoniana</i> Cope, 1899, for +the frogs from the northern Andes previously referred to <i>Hyla labialis</i>. A +review of the nomenclature and taxonomy of these frogs, which superficially +resemble <i>Smilisca</i> but are unrelated, is beyond the scope of the present study.</p> + +<p><i>Hyla baudini dolomedes</i> Barbour, 1923, is based on a small <i>Smilisca phaeota</i> +(MCZ 8539) having a snout-vent length of 45.5 mm. Dunn (1931a:413) +placed <i>dolomedes</i> in the synonymy of <i>Smilisca phaeota</i>. We have examined +the holotype of <i>dolomedes</i> and agree with Dunn's assignment.</p> + +<p>Smith (1953:150) described <i>Hyla phaeota cyanosticta</i> from Guatemala. +Our studies on the external morphology, coloration, and especially the cranial +osteology provide evidence that <i>cyanosticta</i> is a species distinct from <i>phaeota</i>.</p> + +<p><span class="pagenum"><a name="Page_313" id="Page_313">[Pg 313]</a></span> +<i>Distribution.</i>—<i>Smilisca phaeota</i> inhabits humid tropical forests from northeastern +Nicaragua southward on the Caribbean lowlands to elevations of about +1000 meters and on the Pacific lowlands of Costa Rica, exclusive of the arid +regions of Guanacaste, throughout the lowlands of Panamá, exclusive of the +savannas of the Pacific lowland and the Azuero Peninsula, and southward on +the Pacific slopes of South America through Colombia to west-central Ecuador; +also the valleys of the Río Cauca and Río Magdalena in Colombia (Fig. 2).</p> + +<div class="smaller"> +<p><i>Specimens examined.</i>—528, as follows: <span class="smcap">Nicaragua</span>: <b><ins title='Correction: was "Matagalapa"'>Matagalpa</ins></b>: Finca +Tepeyac, 10 km. N, 9 km. E Matagalpa, KU 85439, 87707 (tadpoles); Matagalpa, +MCZ 3546-7, UMMZ 92367; 19 km. N Matagalpa, UMMZ 116495-6. +Zelaya: Bonanza, KU 84854-62, 84950-2 (skeletons), 85440-50, 87708-9 (tadpoles); +Cukra, AMNH 80618; Río Mico, 16 km. E Recreo, UMMZ 79711 (6), +79712 (4); junction Río Mico and Río Siguia, UMMZ 79713 (10); Río Siguia, +11 km. NW Rama, UMMZ 79714 (14), 79715 (11), 79716 (21), 79717, 79718 (3).</p> + +<p><span class="smcap">Costa Rica</span>: <b>Alajuela</b>: Cinchona, KU 32255, 64286-8; 5 km. S Ciudad +Quesada, USC 8077; Laguna Monte Alegre, KU 64289-90; Las Playuelas, 11 +km. S Los Chiles, USC 7216; San Carlos, USNM 29961.</p> + +<p><b>Cartago</b>: Moravia de Turrialba, KU 32212-47, 37133-5, 41093 (skeleton), +64280-1, USC 7243 (3); Peralta, KU 32271-2; Río Chitaría, 3 km. NNE Pavones, +KU 64273-9, 68477 (eggs), 68478-83 (tadpoles), 68484 (young); Río +Reventazón, MCZ 29196-203, UMMZ 117677 (9); Turrialba, KU 25720-2, +32209-11, 32266-8, 32273-4, 37136-67, 41090-2 (skeletons), 64270-2, MCZ +29221, 29222 (tadpoles), 29269-70, USNM 29934.</p> + +<p><b>Guanacaste</b>: Tilarán, KU 36805-7; 8 km. NE Tilarán, KU 36803-4.</p> + +<p><b>Heredia</b>: Barranca del Río Sarapiquí below Isla Bonita, KU 64282-3; Cariblanco, +KU 32256-60, 41094 (skeleton), 64284, MCZ 7967; Isla Bonita, KU +32250-4; 4.2 km. W Puerto Viejo, KU 64285, 68485; 7.5 km. W Puerto Viejo, +KU 68486; 1 km. S Puerto Viejo, KU 86518.</p> + +<p><b>Limón</b>: Bambú, USC 7182 (4); Batán, UMMZ 118582; Coén, MCZ 9825; +La Lola, KU 32262-4, UF 4029, UMMZ 117678 (3); Los Diamantes, CNHM +101295-8, KU 25723-4, 32265, 64267-9; Pandora, UMMZ 122650 (2), USC +7188 (3), 7190; Puerto Limón, KU 32261; Río Larí at Río Dipari, 21 km. SW +Amubre, USC 7177; Río Toro Amarillo, 7 km. W Guápiles, KU 86519, 87683 +(tadpoles); Suretka, KU 36808-10, 37168.</p> + +<p><b>Puntarenas</b>: Agua Buena, KU 36790; 1.6 km. E Buenos Aires, UMMZ +117578; 3 km. NW Buenos Aires, KU 64304; 4 km. N, 15 km. W Dominical, +KU 68491-2 (tadpoles); Esparta, MCZ 8029-30, 8032; Golfito, KU 32270; 6 +km. E Golfito, KU 84999-500 (skeletons); Gromaco, UMMZ 123677 (4); Palmar, +KU 32269; 4 km. ESE Palmar Sur, KU 64305-6; 5.6 km. SE Palmar Sur, +KU 68489 (tadpoles); 7.0 km. SE Palmar Sur, KU 68490 (young); 8.5 km. SE +Piedras Blancas, KU 64292-303; Quebrada Boruca, 22 km. E Palmar Norte, +KU 64291; Rincón, "Camp Seattle," Peninsula de Osa, UMMZ 123676 (3), +USC 7254; Río Ferruviosa, 7 km. S Rincón, USC 7235; 1.6 km. WNW Villa +Neily, KU 68493 (young), 68494 (tadpoles).</p> + +<p><b>San José</b>: San Isidro el General, KU 32249, UMMZ 75025; 10 km. N San +Isidro el General, MCZ 29099-103; 13 km. WSW San Isidro el General, KU +86517; 15 km. WSW San Isidro el General, KU 68487 (tadpoles), 68488 +(young), 68495 (young); 20 km. WSW San Isidro el General, KU 32248.</p> + +<p><span class="smcap">Panama</span>: No province: Cano Saddle, USNM 69588; Punta de Pena, +USNM 38733; Quipo, AMNH 18925-6. <b>Bocas del Toro</b>: Almirante, KU +80080, 91835-6; 1.6 km. W Almirante, KU 91837; 3 km. W Almirante, KU +91824 (skeleton), 91838-43, 91906-7; 11 km. NW Almirante, CNHM 67853-61; +13 km. W Almirante, KU 91825-7 (skeletons), 91844-9; Fish Creek, KU 92329; +Isla Popa, KU 91850-1. <b>Canal Zone</b>: Barro Colorado Island, CNHM 6007, +13316, 13325, 13331, 13360-2, 13377-8, MCZ 24191-5, UF 7523, UMMZ +63547-60, 64457, 69497 (3); 3.7 km. W Cocoli, KU 67916; Fort Sherman, +MCZ 10139; Gatun, MCZ 35644; Junction roads C25B and C16, TNHC 23839; +<span class="pagenum"><a name="Page_314" id="Page_314">[Pg 314]</a></span> +Madden Forest Preserve, TNHC 23837-8. <b>Coclé</b>: El Valle, KU 77521-4, +77649 (tadpole), TNHC 23369. <b>Comarca del Barú</b>: Progreso, UMMZ 61085-9. +Colón: Achiote, KU 77516-20, 77648 (young); Río Candelaria, CNHM 67851-2. +<b>Darién</b>: Río Esnápe, Sambú Valley, MCZ 8539; Río Sucubti, Chalichiman's +Creek, AMNH 40512; Camp Creek, AMNH 40758-9; Camp Creek, +Camp Townsend, AMNH 40988. <b>Panamá</b>: NW slope Cerro Prominente, KU +80459; Finca La Sumbadora, KU 91914 (skeleton). <b>Chiriquí</b>: 2 km. W Concepción, +AMNH 68910.</p> + +<p><span class="smcap">Columbia</span>: <b>Antioquia</b>: Puerto Berrio, CNHM 30805 (Goin); Turbo, USNM +39899. <b>Caldas</b>: Pueblorrica, Santa Cecilia, CNHM 54768-71 (Goin). <b>Choco</b>: +No specific locality, AMNH 3984-6; Andagoya, BMNH 1915.10.21. 69-70, +CNHM 81857 (Goin); Golfo de Urabá, CNHM 63881 (Goin); Peña Lisa, +Condoto, BMNH 1913.11.12. 118-125, 1913.11.12. 137-146 (Goin); Pizarro, +CNHM 4451-3, 4455-61 (Goin); Río San Juan, Playa del Oro, CNHM 54772 +(Goin); Río Quesada, AMNH 13615-77; 37 km. up Río Puné, AMNH 13688; +48 km. up Río Puné, AMNH 13689. <b>Narino</b>: Tumaco, Río Rosario, CJG +2310-13 (Goin). <b>Valle</b>: Buenaventura, BMNH 1895.11.16.82 (Goin); Raposa, +WAT 166, 346-47, 388 (Goin); Río Calima above Córdoba, CJG 2249-57 +(Goin).</p> + +<p><span class="smcap">Ecuador</span>: No province: Bulun, AMNH 10620. <b>Esmeraldas</b>: Cachabé, +AMNH 10625-8; Río Capayas, CNHM 35712; Río Sapaya, UMMZ 58910 (5); +Salidero, AMNH 10623-4; San Javier, AMNH 10618. <b>Guayas</b>: Hacienda +Balao Chico, UMMZ 123904. <b>Imbabura</b>: Pambelar, AMNH 10629, 10631. +<b>Pichincha</b>: Hacienda Espinosa, 9 km. W Santo Domingo de los Colorados, +KU 40220.</p> +</div> + + +<div class="caption3nb"><a name="Smilisca_puma" id="Smilisca_puma"></a> +<b>Smilisca puma</b> (Cope), new combination</div> + +<div class="species_ref"><i>Hyla puma</i> Cope, Proc. Amer. Philos. Soc., 22:183, 1885 [Holotype.—USNM +13735 from Nicaragua; J. F. Moser collector]. Günther, Biologia Centrali-Americana: +Reptilia and Batrachia, p. 270, Sept., 1901. Nieden, Das +Tierreich, Amphibia, Anura I, p. 251, June, 1923. Cochran, Bull. U. S. +Natl. Mus., 220:58, 1961.</div> + +<div class="species_ref"><i>Hyla wellmanorum</i> Taylor, Univ. Kansas Sci. Bull. 25(1):843, July 1, 1952 +[Holotype.—KU 30302 from Batán, Limón, Costa Rica, Edward H. Taylor +collector]; Univ. Kansas Sci. Bull., 36(1):626, June 1, 1954. Duellman +and Berg, Univ. Kansas Publ. Mus. Nat. Hist., 15:194, Oct. 26, 1962.</div> + +<div class="species_ref"><i>Smilisca wellmanorum</i>, Starrett, Copeia, +4:303, Dec. 30, 1960.</div> + +<p><i>Diagnosis.</i>—Size small ([M] 38.0 mm., [F] 46.0 mm.), differing from other +species in the genus by the following combination of characters: skull about +as long as broad; frontoparietal fontanelle keyhole-shaped; supraorbital flanges +absent; squamosal small, not in contact with maxillary; bony portion of ethmoid +terminating at anterior edge of orbit; tarsal fold weak, two-thirds length of +tarsus; inner metatarsal tubercle small, low, flat, elliptical; snout rounded in +dorsal profile; lips thin and flaring; fingers having only vestige of web; toes one-half +webbed; diameter of tympanum about two-thirds that of eye; narrow +labial stripe white; pair of dark brown (sometimes interconnected) stripes on +tan dorsum; no blue spots on flanks or thighs; vocal sac in breeding males +pale brown. (Foregoing combination of characters distinguishing <i>S. puma</i> +from other species in genus.)</p> + +<p><i>Description and variation.</i>—Ten breeding males from the vicinity of Puerto +Viejo, Heredia Province, Costa Rica, have snout-vent lengths of 32.5 to 37.9 +mm. (34.8 mm.). In these specimens, the length of the tibia to the snout-vent +length is 0.48 to 0.53 (0.51), and the tympanum/eye ratio is 0.52 to 0.72 +(0.65). Seven females have snout-vent lengths of 40.8 to 45.8 mm. (43.9 mm.). +<span class="pagenum"><a name="Page_315" id="Page_315">[Pg 315]</a></span> +No individual has more than a vestige of a web between the second and third +and fourth fingers. None has a web between the first and second fingers. +Breeding males lack nuptial excrescences on the thumbs. The vocal sac is +moderately large and bilobed.</p> + +<p>In preserved specimens the dorsal ground color varies from yellowish tan +to grayish brown. All specimens have dark brown dorsal markings in the form +of a pair of dorsal stripes, variously modified (Pl. 7A). In some specimens, +such as KU 91716, the stripes are discrete and extend from the postorbital +region nearly to the vent. In most specimens the stripes are connected by a +transverse mark in the scapular region and in many others also by a transverse +mark in the sacral region. In some specimens the stripes are fragmented +posteriorly; fragmentation is extreme in KU 30300, in which the dorsal pattern +consists of two series of dark longitudinal dashes. The other extreme is +a nearly complete fusion of the stripes, as in KU 91714. A dark brown interorbital +bar usually extends onto the eyelids, but in some specimens this is +reduced to a short V-shaped mark or small spot between the eyes. There is +no dark post-tympanic mark, but dark brown pigment forms a venated pattern +from the axilla to the mid-flank; the inguinal region is white, finely mottled with +dark brown. The dorsal surfaces of the hind limbs are colored like the body +and have two or three dark brown transverse marks on the thighs, three to five +marks on the shanks, and one or two marks or irregularly arranged dark flecks +on the tarsi. The anterior and posterior surfaces of the thighs are pale tan to +brown. The webbing of the feet is tan to grayish brown. A narrow white +labial stripe, white anal stripe, and narrow white stripes on the tarsi and outer +edges of the forelimbs are invariably present. The ventral surfaces are creamy +white.</p> + +<p>In life the dorsum is tan or pale brown with dark brown markings. Some +individuals have scattered metallic green flecks on the dorsum. The flanks +are mottled dark brown and creamy white. The posterior surfaces of the +thighs are dark brown. The vocal sacs are grayish brown, and the iris is a +deep bronze color.</p> + +<p><i>Natural History.</i>—<i>Smilisca puma</i> inhabits humid lowland tropical forests +having more or less evenly distributed rainfall throughout the year. The +equable climatic conditions seemingly permit these frogs to be active throughout +most of the year. Taylor (1952:846) found calling males at Batán, Costa +Rica, on July 20, 1951. We found the species breeding near Puerto Viejo, +Costa Rica, on February 19, June 18, July 13, and July 31. Specimens of +calling males from Costa Rica in the collection at the University of Southern +California were obtained in February at La Fortuna, on August 22 at Los +Diamantes, on August 30 at Jabillos, and on September 5 at La Lola. Gravid +females were collected in June, July and August.</p> + +<p>Males call from shallow water. All breeding congregations of this species +that we have found were in a grassy marsh, 7.5 kilometers west of Puerto +Viejo, Costa Rica. Tadpoles were found in water-filled depressions in the +marsh at night. When first observed, tadpoles were near the surface of the +water; they responded to light by quickly taking refuge in the dense grass. +No tadpoles were observed by day.</p> + +<p>The breeding call consists of a low squawk, usually followed by a series +of one or more rattling secondary notes (duration of primary notes, 0.06-0.35 +<span class="pagenum"><a name="Page_316" id="Page_316">[Pg 316]</a></span> +seconds; of secondary notes, 0.10 to 0.47 seconds), repeated at intervals of +5 to 55 seconds. The primary notes have 187 to 240 pulses per second and +major frequencies of about 740 to 1870 cycles per second (Pl. 11A).</p> + +<p>Only six tadpoles are available for study. Four of them in stage 34 of +development have body lengths of 9.0 to 9.5 mm., tail lengths of 14.0 to 15.0 +mm., and total lengths of 23.0 to 24.5 mm. One tadpole in stage 38 and one +in stage 40 have total lengths of 31.0 mm. A typical tadpole in stage 34 of +development (KU 91807 from 7.5 km. W Puerto Viejo, Heredia Province, +Costa Rica) has a body length of 9.5 mm., tail length of 15.0 mm., and total +length of 24.5 mm.; body about three-fourths as deep as wide; snout rounded +dorsally and laterally; eyes widely separated, directed dorsolaterally; nostril +about midway between eye and tip of snout; mouth anteroventral; spiracle +sinistral, about two-thirds distance from snout to posterior end of body and +slightly below midline; anal tube dextral; caudal musculature slender, barely +curved upward distally; dorsal fin extending onto body; at mid-length of tail, +depth of caudal musculature equal to that of dorsal fin and ventral fin; body +grayish brown, palest ventrally; caudal musculature pale creamy yellow with +bold gray reticulations; caudal fins transparent with gray reticulations anteriorly +and black flecks posteriorly on both fins (Fig. 14A). Median part of upper +lip bare; rest of mouth bordered by two rows of short blunt papillae; lateral +fold present; tooth-rows 2/3; upper rows equal in length; second upper row +broadly interrupted medially; three lower rows complete, first and second +rows equal in length, slightly shorter than upper rows; third lower row noticeably +shorter; upper beak shallow, forming broad, continuous arch with slender +lateral processes; lower beak slender, broadly V-shaped, both beaks finely +serrate (Fig. 15B).</p> + +<p>All six tadpoles are colored alike, except that in the larger specimens scattered +white flecks are present on the ventral surface of the body, and the dark +reticulations continue farther posteriorly on the caudal fins than in the smaller +tadpoles. In two specimens the third lower tooth-row is only about one-half +the length of the other lower rows, and in one specimen the second lower +tooth-row is shorter than the first. Coloration of tadpoles in life: "Body olive-brown +with silvery green flecks laterally. Caudal musculature olive-brown with +greenish tan flecks. Fins brown with greenish gold flecks. Iris deep bronze." +(Duellman, field notes, February 19, 1965).</p> + +<p>One recently metamorphosed young (KU 91808) has a snout-vent length +of 12.4 mm. In life this frog had a pale tan dorsum with dark brown markings, +yellowish tan posterior surfaces of thighs, grayish brown throat, and +bronze iris.</p> + +<p><i>Remarks.</i>—The identity of Cope's <i>Hyla puma</i> has not been known. The +name has appeared in various compilations, but no workers have referred any +of their specimens to that species. Examination of the holotype (USNM +13735), an adult female, revealed the presence of the following combination +of characters: snout-vent length 45.8 mm., snout blunt above and rounded +laterally, nostrils close to tip of snout, lips thin and flaring, a vestige of a +web on the hands, feet about one-half webbed, tarsal fold weak and extending +about two-thirds length of tarsus, dorsal markings consisting of a faded dark +interorbital bar and a pair of faded longitudinal brown marks connected by +a transverse band in the scapular region. The type agrees well with specimens +of <i>Smilisca wellmanorum</i> (Taylor, 1952); the vestigial webbing on the +<span class="pagenum"><a name="Page_317" id="Page_317">[Pg 317]</a></span> +hands and the dorsal coloration are especially significant. Consequently, we +consider <i>Hyla wellmanorum</i> Taylor, 1952, to be a synonym of <i>Hyla puma</i> Cope, +1885. Cope gave only "Nicaragua" as the locality for <i>Hyla puma</i>. The specimen +was part of a collection received at the United States National Museum +from Lt. J. F. Moser. Among the species in the collection are <i>Dentrobates +pumilio</i>, <i>Phyllomedusa helenae</i>, <i>Corythophanes cristatus</i>, <i>Pliocercus dimidatus</i>, +<i>Tretanorhinus nigroluteus</i>, and others characteristically found on the Caribbean +lowlands of Central America. Thus, it seems reasonable to assume that +the type specimen of <i>Hyla puma</i> came from the Caribbean lowlands. Though +no other Nicaraguan specimens have been found by us, numerous specimens +are known from the Caribbean lowlands of Costa Rica.</p> + +<p>Cochran (1961:58), in her catalogue of type specimens in the United +States National Museum, listed <i>Hyla puma</i> Cope, 1885, as a synonym of <i>Hyla +molitor</i> Schmidt, 1857. She made no qualifying statements. Schmidt (1858:246), +in his descriptions of the species in the year following his publication +of the names and Latin diagnoses, stated: "Dorsum uniformly gray, more +intensive on back, fading away laterally and on extremities; in every-day-life +this blue would be called <i>Mueller's Blau</i>. A delicately dotted black line runs +on the canthus rostralis from the opening of the nose to the corner of the eye. +In the armpits, on the flanks and the thighs two of our three specimens have +black marblings." [Free translation] Certainly on the basis of coloration +<i>Hyla puma</i> is distinctly different from <i>Hyla molitor</i>.</p> + +<p><i>Distribution.</i>—This species lives in the wet, forested regions of the Caribbean +lowlands of Costa Rica and presumably southern Nicaragua (Fig. 3). +All specimens are from low elevations; the highest known elevation for the +occurrence of this frog is 285 meters at Laguna Bonilla.</p> + +<div class="fig_center" style="width: 547px;"> +<a name="Fig_3" id="Fig_3"></a> +<img src="images/fig_3.png" width="547" height="273" alt="" title="" /> +<div class="fig_caption"><span class="smcap">Fig. 3.</span> Map showing locality records for <i>Smilisca puma</i> (triangles) and +<i>Smilisca sila</i> (circles).</div> +</div> + +<div class="smaller"> +<p><i>Specimens examined.</i>—62, as follows: <span class="smcap">Nicaragua</span>: No specific locality, +USNM 13735.</p> + +<p><span class="smcap">Costa Rica</span>: <b>Alajuela</b>: Jabillos, 5 km. N Santa Clara, USC 8058 (6); 5 +km. W La Fortuna, USC 8078 (2); Río La Fortuna at La Fortuna, USC 7151 +(3). <b>Cartago</b>: Laguna Bonilla, tunnel camp near Peralta, KU 32171. <b>Heredia</b>: +Puerto Viejo, KU 86521; 5.9 km. W Puerto Viejo, KU 64307; 7.5 km. W Puerto +<span class="pagenum"><a name="Page_318" id="Page_318">[Pg 318]</a></span> +Viejo, KU 64308-10, 64311 (skeleton), 64312-15, 68635-6 (skeletons), 85001-2 +(skeletons), 86520, 87770-1 (skeletons), 91709-16, 91791-2, 91807 (tadpoles), +91808 (young). <b>Limon</b>: Batán, KU 30300-2; La Lola, KU 32169, USC 141, +201, 8067; Los Diamantes, KU 32170, UMMZ 118470 (6), USC 212; 2.4 km. +E Los Diamantes, USC 8049 (5).</p> +</div> + + +<div class="caption3nb"><a name="Smilisca_sila" id="Smilisca_sila"></a> +<b>Smilisca sila</b> new species</div> + +<div class="species_ref"><i>Hyla gabbi</i>, Noble, Proc. Biol. Soc. Washington, 37:66, Feb. 21, 1924. +Dunn, Occas. Papers Boston Soc. Nat. Hist., 5:413, Oct. 10, 1931. +Schmidt, Smithsonian Misc. Coll., 89(1):6, March 16, 1933.</div> + +<div class="species_ref"><i>Hyla sordida</i>, Dunn, Copeia, 3:166, Nov. 19, 1937. Cooper, Copeia, 2:121, +June 30, 1944. Breder, Bull. Amer. Mus. Nat. Hist., 86(8):417, Aug. +26, 1946.</div> + +<div class="species_ref"><i>Hyla phaeota</i>, Breder, Bull. Amer. Mus. Nat. Hist., 86(8): pl. 55, Aug. 26, +1946.</div> + +<p><i>Holotype.</i>—Adult male, KU 91852 from a small stream at the north edge +of the village of El Volcán, Chiriquí Province, Panamá, elevation 1280 meters; +obtained on Feb. 5, 1965, by William E. Duellman.</p> + +<p><i>Paratypes.</i>—KU 91853-74, collected with the holotype.</p> + +<p><i>Diagnosis.</i>—Size moderate ([M] 45.0 mm., [F] 62.2 mm.); skull wider than +long, having large, ovoid frontoparietal fontanelle; supraorbital flanges absent; +squamosal small, not contacting maxillary; bony section of ethmoid extending +anteriorly between nasals; tarsal fold weak, full length of tarsus; inner metatarsal +tubercle low, flat, elliptical; lips thick, rounded, not flaring; fingers one-third +webbed; toes three-fourths webbed; diameter of tympanum about one-half +that of eye; margin of upper lip faintly marked by interrupted creamy +white stripe; dark spots on dorsum; pale flecks on flanks and posterior surfaces +of thighs; vocal sacs in breeding males dark brown. (Foregoing combination +of characters distinguishing <i>S. sila</i> from any other species in genus.)</p> + +<div class="smaller"> +<p><i>Description of holotype.</i>—Snout-vent length 36.6 mm.; tibia length 19.8 +mm., 54.1 per cent of snout-vent length; foot length 15.5 mm., 42.3 per cent +of snout-vent length; head length 12.7 mm., 34.7 per cent of snout-vent length; +head width 13.3 mm., 36.8 per cent of snout-vent length; snout short, in lateral +profile truncate, only slightly rounded above, in dorsal profile rounded; +canthus rounded; loreal region noticeably concave; lips thick, rounded, not +flaring; nostrils not protuberant, directed laterally; internarial distance 3.0 mm.; +internarial area flat; top of head flat; interorbital distance 3.5 mm., 26.3 per +cent of head width; diameter of eye 4.2 mm., thrice distance (1.4 mm.) from +tympanum to eye, and half again distance (2.8 mm.) from orbit to nostril; +pupil horizontally ovoid; width of eyelid 2.8 mm., 21.1 per cent of head width; +dermal fold from posterior corner of orbit covering upper edge of tympanum +to point above insertion of forelimb; diameter of tympanum 2.3 mm., 54.7 per +cent of diameter of eye; no axillary membrane; arms moderately robust; weak +fold on wrist; faintly scalloped fold along ventrolateral margin of forearm; +fingers short, slender; fingers from shortest to longest, 1-2-4-3; vestige of web +between first and second fingers; others about two-fifths webbed; discs moderate, +diameter of that on third finger about one-third diameter of eye; triangular +outer palmar tubercle; elliptical inner palmar tubercle on base of +pollex; subarticular tubercles large, conical, none bifid; supernumerary tubercles +few, large, conical; brown nuptial excrescence on prepollex; heels overlap by +about one-fifth length of shank when hind limbs adpressed; tibiotarsal articulation +extending to nostril; tarsal fold weak, extending nearly full length of +tarsus; inner metatarsal tubercle elliptical, flat; outer metatarsal tubercle absent; +toes moderately long; toes from shortest to longest, 1-2-3-5-4, third and +fifth about equal in length; discs about same size as those on fingers; webbing +<span class="pagenum2"><a name="Page_319" id="Page_319">[Pg 319]</a></span> +extending to middle of penultimate phalanx on all toes, except only to distal +end of antepenultimate phalanx of fourth toe; subarticular tubercles round; +supernumerary tubercles large, round, present only on proximal digits. Anal +opening directed posteriorly at level of upper edge of thighs; no noticeable +anal sheath; flat tubercles ventrolateral to anal opening large; skin of chest, +belly, and posterior surfaces of thighs granular; other surfaces smooth; tongue +broadly cordiform, shallowly notched posteriorly, and barely free behind; +vomerine teeth 4-4, situated on ventral surfaces of separated rounded prominences +between posterior margins of small, ovoid inner nares; vocal slits long, +each situated along inner margin of ramus; color (in preservative) pinkish tan +above with irregular olive-brown markings forming interconnected spots on +back; four bars on dorsal surface of each thigh; five bars on shank, and three +on tarsus; inguinal region white with black mottling; posterior surfaces of +thighs yellowish tan proximally, dark brown distally; margins of lips grayish +white with brown markings; ventral surfaces of hands and feet grayish brown; +belly and posterior part of throat creamy white; anterior part of throat brown.</p> +</div> + +<p><i>Description and variation.</i>—Ten breeding males from Finca La Sumbadora, +Panamá, have snout-vent lengths of 40.0 to 44.8 mm. (42.3 mm.). In these +specimens the tibia/snout-vent length ratio is 0.50 to 0.57 (0.54), and the +tympanum/eye ratio is 0.48 to 0.58 (0.53). There is a geographic gradient +in size; specimens from the western part of the range (southern Costa Rica) +are smaller than those from the eastern part of the range (eastern Panamá). +Five males from the Pacific lowlands of southern Costa Rica have snout-vent +lengths of 31.6 to 38.2 mm. (34.7 mm.); ten males from El Volcán, Chiriquí, +Panamá, 32.6 to 37.9 mm. (36.4 mm.), and eight males from Barro Colorado +Island, Canal Zone, 38.2 to 42.0 mm. (35.6 mm.). These are smaller than the +males from Finca La Sumbadora, which is east of the Canal Zone. Ten females +from El Volcán have snout-vent lengths of 44.2 to 55.6 mm. (49.2 mm.), +as compared 56.1 to 62.2 mm. (58.2 mm.) in three females from Finca +La Sumbadora.</p> + +<p>Large females have scattered small tubercles on the head and back; tubercles +occur in males from Costa Rica and in some males from western Panamá. +The truncate snout is characteristic of both sexes.</p> + +<p>The coloration of <i>Smilisca sila</i> consists of a gray, tan, or pale reddish brown +dorsal ground color and a creamy white venter. The dorsum is marked by +dark brown, olive-brown, or dark reddish brown spots or blotches (Pl. 7B). +Usually the blotches are discrete, but in some individuals they are interconnected +and form an irregular dark mark on the dorsum. There is no tendency +for the blotches to form transverse bars as in <i>Smilisca sordida</i>. In one specimen +(KU 80467) the blotches are fused and form two wide irregular longitudinal +stripes, as in <i>Smilisca puma</i>. In some females the dorsal markings are +reduced to a few small spots or are nearly absent (KU 92332), whereas in +other females the dorsal markings are bold. In one female (KU 91894) the +dorsal markings are narrowly bordered by pale blue, and numerous pale blue +flecks are present on the pale brown dorsum. In many individuals of both +sexes small white flecks are present on the dorsal surfaces.</p> + +<p>Usually the flanks and posterior surfaces of the thighs have black mottling +enclosing pale blue spots and flecks, respectively. The dorsal surfaces of the +limbs are marked by dark brown transverse bars; usually three or four bars +are present on each forearm, thigh, and shank. The coloration of the flanks +and limbs varies geographically. Specimens from southern Costa Rica and +western Panamá have distinct bars on the limbs; the posterior surfaces of the +thighs have brown reticulations enclosing small blue flecks in specimens from +<span class="pagenum"><a name="Page_320" id="Page_320">[Pg 320]</a></span> +Costa Rica and bolder, black reticulations enclosing large pale blue spots in +specimens from western Panamá. In specimens from Costa Rica the flanks are +brown with pale blue flecks, whereas in those from Chiriquí, Panamá, the +flanks are pale blue with dark brown mottling in the inguinal region. Frogs +from El Valle and Cerro la Campana usually have distinct bars on the limbs; +the posterior surfaces of the thighs are colored as in frogs from Chiriquí, and +the inguinal region is pale blue with coarse brown mottling. Specimens from +Barro Colorado Island are marked like those from El Valle and Cerro la Campana, +except that on the posterior surfaces of the thighs fine black reticulations +enclose many dark blue spots. In specimens from Darién and from Panamá +Province east of the Canal Zone (Altos de Pacora, Cerro Jefe, Finca La Sumbadora, +and Río Pacora), the markings on the dorsal surfaces of the limbs are +indistinct or absent in males, but distinct in some females. Intense brown +and black pigment forms fine reticulations delimiting bold blue spots on the +flanks; this coloration extends to the axilla in many specimens. Fine black +reticulations enclose many dark blue spots on the posterior surfaces of the +thighs.</p> + +<p>In females, the throat is creamy white; in some specimens scattered brown +flecks are present on the chin and throat. In breeding males the anterior part +of the throat is dark gray or dark brown.</p> + +<p>The coloration in life is as variable as it is in preservative. In life the +holotype had a tan dorsum with dark olive-green irregular markings and small +green flecks. The limbs were tan with dark brown transverse bars. The flanks +were grayish tan anteriorly; the inguinal region and posterior surfaces of thighs +were blue with black mottling. The belly was creamy white, and the throat +was brown with creamy yellow flecks. The iris was a dull bronze color. +Among the paratypes, some individuals had green flecks, others did not. The +inguinal region and posterior surfaces of the thighs were pale blue, pale yellowish +green, or grayish tan with black mottling. The blue was most noticeable +in females.</p> + +<p>Colors of a male from Finca La Sumbadora, Panamá, were described as +follows: "Dorsum olive-brown; irregular dark brown blotches, pale green +flecks, and raised creamy yellow spots on dorsal surfaces; belly creamy white; +throat grayish brown; undersides of limbs grayish tan; groin, anterior and +posterior surface of thigh, inner surface of shank, anterior edge of tarsus, and +proximal parts of third and fourth toes pale blue marbled with dark brown +and black; webbing brown; iris pale bronze, finely reticulated with black." +(Duellman, field notes, January 28, 1964.)</p> + +<p>A female (now KU 91894) from Altos de Pacora, Panamá, was described +as follows: "An irregular dark brown, green-bordered figure on head and +back; dark brown, green-bordered bands on limbs—all on a lighter brown and +heavily green-spotted background. These markings are more vivid at night +than during the day. Lower sides, from midbody onto front of thighs and +rear of thighs onto venter of shanks to heels and thence dorsally onto basal +portions of toes heavily blue spotted on a light brown (front of thighs and +venter of shanks) to blackish brown background. Venter cream. Iris gray-brown, +finely veined with dark brown." (Charles W. Myers, field notes, December +14, 1964.) Note that in the earlier discussion of coloration of preserved +specimens, the green spots and borders have changed to pale blue after +six months in alcohol.</p> + +<p><span class="pagenum"><a name="Page_321" id="Page_321">[Pg 321]</a></span> +In living individuals from Costa Rica and Panamá west of the Canal Zone, +the blue coloration on the flanks and thighs is much less conspicuous than in +specimens from eastern Panamá. The color of the iris is variable, even in +frogs from one locality. The coloration of the iris in 13 living frogs (now +KU 92333-45) from Valle Hornito, Chiriquí, Panamá, was described as follows: +"Iris variable—from pale to dark brown; in a few the iris has a golden +cast to the brown; in a few others the lower half of the iris is pale gray with +the upper half being light brown." (Charles W. Myers, field notes, April 24, +1965).</p> + +<p><i>Natural history.</i>—<i>Smilisca sila</i> inhabits the Pacific slopes of lower Central +America where a pronounced dry season occurs. We have records of males +calling in December through May and also in August (latter date from El +Volcán, Chiriquí, Panamá). The breeding season seems to be correlated with +the time of the year when the water is clear and at a low level in the streams +where these frogs breed.</p> + +<p>Males call from the edges of small, shallow streams, from rocks in the +streams, or less frequently from vegetation overhanging the streams. Females +are most frequently found on the banks of streams, and clasping pairs usually +are in shallow pools in streams. One individual was found in a bromeliad +about three meters above the ground in the daytime.</p> + +<p>The breeding call consists of a low squawk, usually followed by a series +of one or more rattling secondary notes (duration of primary notes, 0.06 to +0.28 seconds; of secondary notes, 0.14 to 0.48 seconds), repeated at intervals +of 4 to 20 seconds. The primary notes have 97 to 120 pulses per second and +major frequencies of about 900 to 2220 cycles per second (Pl. 11B).</p> + +<p>Eggs were obtained artificially in the field; the average length of ten +embryos in the neural groove stage is 2.4 mm., and the average diameter of +the outer envelope is 4.9 mm. Hatchlings have large, conical oral discs, heavy +gills, and a large amount of yolk; their average total length is 6.3 mm.</p> + +<p>Tadpoles have been found in pools in clear streams; some tadpoles have +been observed to cling by their mouths to rocks in the stream; others were +found on the bottom where they seek refuge among pebbles or under rocks +and leaves. A complete developmental series of tadpoles is not available. +Eleven tadpoles in stage 25 of development have body lengths of 8.3 to 10.2 +mm. (9.3 mm.), tail lengths of 17.3 to 21.0 mm. (18.8 mm.), and total lengths +of 25.9 to 31.0 mm. (28.1 mm.). One tadpole in stage 41 and one in stage 42 +have body lengths of 11.5 and 12.5 mm., tail lengths of 27.2 and 29.5 mm., +and total lengths of 38.7 and 42.0 mm., respectively. The snout-vent lengths +of two specimens in stage 43 and one in stage 45 are 12.7, 13.0, and 13.6 mm., +respectively.</p> + +<p>A typical tadpole in stage 25 of development (KU 80620 from Finca La +Sumbadora, Panamá) has a body length of 9.5 mm., tail length of 19.0 mm., +and a total length of 28.5 mm.; body only slightly wider than deep, nearly +flat dorsally; snout broadly rounded in dorsal view, bluntly rounded in lateral +view; eyes widely separated, directed dorsolaterally; nostril slightly closer to +eye than to tip of snout; mouth ventral; spiracle sinistral, located about two-thirds +distance from snout to posterior edge of body; anal tube dextral; caudal +musculature moderately heavy, straight; dorsal fin not extending onto body; +fins deepest at about two-fifths length of tail, where depth of caudal musculature +about equal to depth of dorsal and depth of ventral fin; musculature +<span class="pagenum"><a name="Page_322" id="Page_322">[Pg 322]</a></span> +extending nearly to tip of tail; body dark grayish brown above and pale grayish +tan below with small dark brown spots dorsally and white flecks laterally; +caudal musculature pale tan with dark brown flecks over entire surface and +dark brown streaks on posterior one-half of ventral fin and on all of dorsal +fin (Fig. 14B). Median one-third of upper lip bare; rest of mouth bordered +by a single row of conical papillae; lateral fold present; tooth rows 2/3; upper +rows cone-shaped, about equal in length, broadly ∧-shaped; second upper +row narrowly interrupted medially; lower rows complete, about equal in +length, but slightly shorter than upper rows; upper beak moderately massive, +its inner surface forming a continuous arch with short lateral processes; lower +beak broadly ∨-shaped; both beaks finely serrate (Fig. 15D).</p> + +<p>Tadpoles from El Volcán, Chiriquí (KU 91833), are more heavily pigmented +than those from Finca La Sombadora; the spots on the tail are larger. +In life these tadpoles had dark brownish black bodies with golden and green +lichenous flecks; the tail was tan with dark brown markings, and the iris was a +grayish bronze color. In life tadpoles from Finca La Sumbadora were olive-tan +above and dark gray with pale bluish gray irridescent spots ventrally. The +caudal musculature was creamy tan with brown flecks and streaks, and the +iris was pale bronze.</p> + +<p>Metamorphosing young have been found on vegetation at the edge of +streams and have been raised in the laboratory. Seven recently metamorphosed +young have snout-vent lengths of 13.6 to 15.6 mm. (14.6 mm.). A +living juvenile (KU 91913) raised in the laboratory from a tadpole obtained +at Finca La Sumbadora had a brown dorsum with darker brown markings, +a white spot below the eye, and a narrow white labial stripe. The belly was +white; the flanks were brown with white spots, and the posterior surfaces of +the thighs were yellowish tan. The iris was a golden bronze color with much +black reticulation.</p> + +<p><i>Remarks.</i>—This species has been confused with <i>Smilisca sordida</i>; most +authors have referred both species to <i>Hyla (Smilisca) gabbi</i>. Examination of +the types of <i>Hyla sordida</i>, <i>gabbi</i>, <i>salvini</i>, and <i>nigripes</i> revealed that all of the +names were referable to a single species (<i>S. sordida</i>), and that the small, blunt-snouted +species in Panamá and southern Costa Rica probably was without a +name. Possibly <i>Hyla molitor</i> Schmidt (1857) is based on the species that +we have named <i>S. sila</i>, but several discrepancies in his description, plus the +unknown provenance of the type, have led us to discount the applicability +of that name to the species under consideration.</p> + +<p><i>Distribution.</i>—<i>Smilisca sila</i> ranges along the Pacific slopes and lowlands of +southern Costa Rica and Panamá at elevations from sea level to about 1300 +meters; in northern South America the species occurs in the <ins title='Correction: was "Carribean"'>Caribbean</ins> lowlands +and in the valleys of the northward draining rivers of Colombia (Fig. 3).</p> + +<div class="smaller"> +<p><i>Specimens examined</i>, 234, as follows: <span class="smcap">Costa Rica</span>: <b>Puntarenas</b>: 6 km. E +Golfito, KU 91717; Quebrada Boruca, 22 km. E Palmar Norte, KU 64265-6; +Río Zapote, 7 km. E Palmar Norte, USC 7100 (2). <b>San José</b>: San Isidro el +General, KU 28200; 14 km. NW San Isidro el General, USC 7098 (2); 15 km. +WSW San Isidro el General, USC 7097.</p> + +<p><span class="smcap">Panama</span>: <b>Canal Zone</b>: Barro Colorado Island, AMNH 62320-3, CNHM +13324, 13326-8, 13330, 13338, 13359, 13423-5, KU 80460-6, 80619 (young), +80625 (skeleton), UMMZ 63542-6, USC 7051. <b>Chiriquí</b>: Boquete, AMNH +69815, UMMZ 58441-5; El Volcán, KU 77413, 91828-31 (skeletons), 91852-74, +91832 (eggs), 91833 (tadpoles); 6 km. S El Volcán, CNHM 60442; 16 km. +NNW El Volcán, KU 91879-90; Finca Palosanto, 6 km. WNW El Volcán, +<span class="pagenum2"><a name="Page_323" id="Page_323">[Pg 323]</a></span> +KU 77406-12, 77692 (skeleton), 91875-7, 92330-1; Río Colorado, 17 km. +NNW El Volcán, KU 91878, 92332; Valle Hornito, 19 km. NE Gualaca, KU +92333-45. <b>Coclé</b>: El Valle, AMNH 55440-5 (13), 59607-14, CNHM 48140, +60349-2, 60387-92, 60401-4, 60443, 67842-5, KU 91834 (young), 91902-4, +TNHC 23751-2, USNM 140653. <b>Colón</b>: Río Candelaria, AMNH 53708-15, +CNHM 67826-36. <b>Darién</b>: Camp Creek, Camp Townsend, AMNH 40756-7, +40936-9, 40992; Río Chico, AMNH 39784, 40986-7; Río Pita, CNHM 67823-5; +Tacarcuna, USNM 141796-802; Three Falls Creek, AMNH 41684, 51788. +<b>Los Santos</b>: Cerro Hoya, USNM 148213-4; Lajamina, Río Puria, KU 67915. +<b>Panamá</b>: Altos de Pacora, KU 91894; Cerro Jefe, KU 91895-6; Cerro La +Campana, CNHM 67846, KU 91897-900, USNM 139689; Finca La Sumbadora, +KU 80467-81, 80620 (tadpoles), 91910 (eggs), 91911-2 (tadpoles), 91913 +(young), 91908-9 (skeletons); Río Calobra, USNM 53722, Río Pacora, 9 km. +NNE Pacora, KU 91901. <b>Veraguas</b>: Cerro Carbunco, USNM 129066; Cerro +Tute, CNHM 67837-41; Isla Cebaco, Río Platanal, KU 91891-3.</p> + +<p><span class="smcap">Colombia</span>: <b>Antioquia</b>: Urabá, Villa Arteaga, CNHM 63893 (Goin). <b>Atlantico</b>: +Sabanalarga, Río Causa, AMNH 14506.</p> +</div> + + +<div class="caption3nb"><a name="Smilisca_sordida" id="Smilisca_sordida"></a> +<b>Smilisca sordida</b> (Peters), new combination</div> + +<div class="species_ref"><i>Hyla sordida</i> Peters, Monatsb. Konigl. Akad. Wissen. Berlin., p. 460, 1863 +[Syntypes.—ZMB 3141 (two specimens) from "Veragua," Panamá; J. +von Warszewicz collector]. Brocchi, Mission scientifique au Mexique +..., pt. 3, sec. 2, Études sur les batrachiens, p. 42, 1881. Boulenger, +Catalogue Batrachia Salientia in British Museum, p. 393, Feb. 1, 1882. +Günther, Biologia <ins title='Correction: was "Centralia"'>Centrali</ins>-Americana: Reptilia and Batrachia, p. 273, +Sept. 1901. Nieden, Das Tierreich, Amphibia, Anura, I, p. 258, June, +1923.</div> + +<div class="species_ref"><i>Hyla gabbi</i> Cope, Jour. Acad. Nat. Sci. Philadelphia, new ser., 8, pt. 2:103, +1876 [Syntypes.—USNM 30658-9 from near Sipurio, Limón, Costa Rica; +William M. Gabb collector]. Brocchi, Mission scientifique au Mexique +..., pt. 3, sec. 2, Études sur les batrachiens, p. 37, 1881. Boulenger, +Catalogue Batrachia Salientia in British Museum, p. 372, Feb. 1, 1882. +Cope, Bull. U. S. Natl. Mus., 32:32, 1887. Günther, Biologia Centrali-Americana: +Reptilia and Batrachia, p. 274, Sept. 1901. Werner, Abhand. +Konigl. Akad. Wissen. München., 22:351, 1903. Nieden, Das Tierreich, +Amphibia, Anura I, p. 252, June, 1923. Taylor, Univ. Kansas Sci. Bull., +35(1):840, July 1, 1952. Cochran, Bull. U. S. Natl. Mus., 220:54, 1961.</div> + +<div class="species_ref"><i>Hyla nigripes</i> Cope, Jour. Acad. Nat. Sci. Philadelphia, new ser., 8, pt. 2:104, +1876 [Syntypes.—USNM 30685-6, from Pico Blanco, Costa Rica; William +M. Gabb collector]. Brocchi, Mission scientifique au Mexique ..., +pt. 3, sec. 2, Études sur les Batrachiens, p. 38, 1881. Boulenger, Catalogue +Batrachia Salientia in British Museum, p. 394, Feb. 1, 1882. Cope, +Bull. U. S. Natl. Mus., 32:32, 1887. Günther, Biologia Centrali-Americana: +Reptilia and Batrachia, p. 278, Sept., 1901. Nieden, Das Tierreich, +Amphibia, Anura I, p. 253, June, 1923. James, Copeia, 3:147, +Sept. 30, 1944. Taylor, Univ. Kansas Sci. Bull, 35(1):853, July 1, 1952. +Cochran, Bull. U. S. Natl. Mus., 220:56, 1961.</div> + +<div class="species_ref"><i>Hyla salvini</i> Boulenger, Catalogue Batrachia Salientia in British Museum, +p. 372, Feb. 1, 1882 [Syntypes.—BMNH 1947.2.24.13-14 from Cartago, +Costa Rica; Osbert Salvin collector]. Günther, Biologia Centrali-Americana: +Reptilia and Batrachia, pl. 71, Fig. B., Sept., 1901. Werner, +Abhand. Zool.-Bot. Gesell. Wien, 46:8, Sept. 30, 1896.</div> + +<div class="species_ref"><i>Smilisca gabbi</i>, Starrett, Copeia, +4:303, Dec. 30, 1960.</div> + +<p><i>Diagnosis.</i>—Size moderate ([M] 45 mm., [F] 64 mm.); skull slightly wider than +long, having large and elongate frontoparietal fontanelle; supraorbital flanges +absent; squamosal small, not contacting maxillary; bony section of ethmoid +terminating just anterior to anterior edge of orbit; tarsal fold weak, full length +of tarsus; inner metatarsal tubercle long, low, flat, elliptical; lips thin and flaring; +<span class="pagenum"><a name="Page_324" id="Page_324">[Pg 324]</a></span> +fingers one-half webbed; toes four-fifths webbed; diameter of tympanum +about one-half that of eye; no white labial stripe; dorsal dark markings irregular, +sometimes forming broad transverse bars; pale flecks on flanks and +usually on posterior surfaces of thighs; vocal sacs in breeding males white. +(Foregoing combination of characters distinguishing <i>S. sordida</i> from any other +species in genus.)</p> + +<p><i>Description and variation.</i>—Ten breeding males from 15 to 20 kilometers +west-southwest of San Isidro el General, San José, Costa Rica, have snout-vent +lengths of 38.1 to 42.6 mm. (40.5 mm.). In these specimens, the tibia/snout-vent +length ratio is 0.50 to 0.54 (0.52), and the tympanum/eye ratio is 0.45 +to 0.57 (0.49). Specimens from the Pacific slopes of Costa Rica are larger +than those from the Meseta Central and the Caribbean lowlands. Ten males +from 6 kilometers east of Golfito, Puntarenas, have snout-vent lengths of 38.4 +to 44.6 mm. (41.8 mm.), and five males from Rincón, Peninsula de Osa, have +snout-vent lengths of 38.8 to 41.6 mm. (40.3 mm.). Snout-vent lengths of +ten males from La Fortuna, Alajuela, are 31.9 to 36.0 mm. (34.4 mm.), of +ten males from Pandora, Limón, 33.8 to 37.6 mm. (35.9 mm.), and of ten +males from Escazú and Río Jorco on the Meseta Central, 34.3 to 37.6 mm. +(36.0 mm.). Eight females from the Río Jorco on the Meseta Central have +snout-vent lengths of 48.8 to 53.8 mm. (50.4 mm.), and six females from +various localities on the Pacific slopes of Costa Rica have snout-vent lengths of +56.5 to 64.0 mm. (59.8 mm.). The only noticeable differences in proportions +between males and females is in the tympanum/eye ratio; for example, this +ratio is 0.47 to 0.53 (0.49) and 0.54 to 0.68 (0.61) in ten males and eight +females, respectively, from the Meseta Central.</p> + +<p>The shape of the snout and the associated cranial elements of <i>S. sordida</i> +vary geographically and ontogenetically. Specimens from the Caribbean lowlands +have blunt snouts in lateral view; those from the Pacific lowlands have +longer, more slender snouts that are pointed in lateral view, and those from +the Meseta Central are intermediate in snout shape between the two lowland +populations (Fig. 4). These differences in shape of the snout are dependent +on the nature of the underlying cranial bones, principally the maxillaries and +nasals. In specimens from the Caribbean lowlands the nasals are long, wide, +and narrowly separated from the ethmoid; the anterior edge is just posterior to +the nostril. The maxillary flanges are nearly vertical. In specimens from the +Pacific lowlands the nasals are relatively shorter, narrower, and rather widely +separated from the ethmoid; the anterior edges of the nasals do not extend so +far forward as in specimens from the Caribbean lowlands. The maxillary +flanges slant medially. In these cranial characters, specimens from the Meseta +Central are intermediate between the two lowland populations.</p> + +<p>Superimposed on this geographic variation are ontogenetic changes, which +are most noticeable in males. In smaller, and presumably younger, specimens +the snouts are more pointed than in larger specimens; consequently some small +males from the Caribbean lowlands resemble larger males from the Pacific +lowlands, since the nasals and maxillaries of the former are not fully ossified. +In addition, in small breeding males the ethmoid is only about one-half ossified, +a large frontoparietal foramen is present, the anterior arm of the squamosal +extends only about one-fourth the distance to the maxillary (two-thirds the +distance in larger specimens), and the tegmen tympani are short, as compared +with the long, thin elements in larger specimens.</p> + +<p><span class="pagenum"><a name="Page_325" id="Page_325">[Pg 325]</a></span></p> + +<div class="fig_center" style="width: 458px;"> +<a name="Fig_4" id="Fig_4"></a> +<img src="images/fig_4.png" width="458" height="545" alt="" title="" /> +<div class="fig_caption"><span class="smcap">Fig. 4.</span> Variation in the shape of the snout in <i>Smilisca sordida</i>; left column +females, right column males; all from Costa Rica: (A) Camp Seattle, Rincón +de Osa, Puntarenas Prov. (UMMZ 123684); (B) Quebrada Agua Buena, 3 km. +SW Rincón de Osa, Puntarenas Prov. (USC 7236); (C) Río Oro, 28.5 km. NW +Villa Neily, Puntarenas Prov. (KU 91742); (D) Río Jorco, near Desamparados, +San José Prov. (KU 91765); (E-F) Bambú, Limón Prov. (USC 7183). ×3.</div> +</div> + +<p>The dorsal ground-color of <i>Smilisca sordida</i> is gray to pale tan or reddish +brown; the venter is white. The dorsum is variously marked with dark gray, +dark brown, reddish brown, or olive-green spots or blotches (Pl. 7C). A dark +interorbital bar usually is present. The dorsal markings on the body usually +consist of a blotch, or two or more spots, on the occiput, in the scapular region, +and in the sacral region. In many specimens, especially females, these markings +are in the form of broad transverse bars. A female (USC 7164) from +<span class="pagenum"><a name="Page_326" id="Page_326">[Pg 326]</a></span> +Las Cañas, Guanacaste, Costa Rica, has a tan dorsum with many black flecks +and round brown spots bordered by darker brown. One female (KU 91763) +from the Río Jorco, San José, Costa Rica, has a unicolor tan dorsum. Some +individuals have scattered, small white spots on the dorsum; these are most +evident in a male (USC 7153) from La Fortuna, Alajuela. White labial stripes +and anal stripes are absent in all specimens.</p> + +<p>The limbs are marked by dark brown transverse bars; these are indistinct +in some specimens from the Meseta Central and Caribbean lowlands, whereas +they are distinct in all specimens from the Pacific lowlands. Specimens from +the Caribbean lowlands have two to six bars on each shank, whereas specimens +from the Pacific slopes have four to six bars on each shank, and specimens +from the Meseta Central have as many as eight bars on each shank. A +narrow, sometimes broken white line is present on the ventrolateral edge of +the forearm. The webbing on the hand is tan or pale gray, and the ventral +surfaces of the tarsi and the webbing on the feet are dark gray or brown. +Breeding males have dark brown nuptial excrescences on the prepollex.</p> + +<p>The flanks and posterior surfaces of the thighs usually are marked by bluish +white and creamy tan flecks, respectively, but vary considerably. In specimens +from the Caribbean lowlands a small amount of flecking is present in the +inguinal region, and on the posterior surfaces of the thighs flecks are few or +absent. In specimens from the Meseta Central, numerous large flecks or +small, round spots (pale bluish white in life) are on the posterior half of the +flanks; small flecks are on the posterior surfaces of the thighs. Specimens +from the Pacific slopes and lowlands of southern Costa Rica (Puntarenas and +San José Provinces) have bold mottling of black and bluish white on the +flanks and many bluish white flecks on the posterior surfaces of the thighs. +The flanks are reticulated from the axilla to the groin in two females (UMMZ +123684 and USC 7236) from Rincón, Peninsula de Osa. In specimens from +the Pacific slopes of Guanacaste in northwestern Costa Rica, flecks are present +in the inguinal region; indistinct flecks are on the posterior surfaces of the +thighs.</p> + +<p>The throat is immaculate in specimens from the Caribbean lowlands in +Limón Province; the throats are dusky laterally in most other specimens except +some from the Meseta Central, in which the throats are heavily flecked with +black. This variation occurs in males and females.</p> + +<p>The color and pattern in life are highly variable. A composite description +of living individuals (now KU 91718-41) from 6 kilometers east of Golfito, +Puntarenas, Costa Rica, illustrates the variability: "Dorsum pale olive-green, +fading to tan posteriorly, or tan all over with dark olive-green or dark brown +spots on back and bars on limbs. Flanks dark brown with cream, greenish +gray, or bluish gray mottling. Posterior surfaces of thighs dark brown with +pale blue, pale green, or tan flecks. Iris creamy silver. Throats white with +some brown flecks peripherally." (Duellman, Field notes, February 15, 1965.) +A male from the Río Jorco, San José, Costa Rica, was dull olive-tan above +with olive-green marks; the flanks were brown with pale tan flecks, and the +posterior surfaces of the thighs were pale brown with cream-colored flecks. +Six females from the same locality were reddish brown above with olive-brown +or dark brown markings; one was uniform orange-tan, and another was dull +olive-green with darker markings.</p> + +<p>The color of the iris in living frogs varies from creamy silver to grayish +yellow or bronze with a variable amount of black reticulation.</p> + +<p><span class="pagenum"><a name="Page_327" id="Page_327">[Pg 327]</a></span> +<i>Natural History.</i>—<i>Smilisca sordida</i> is not associated with any one type of +vegetation; instead it lives in the vicinity of rocky streams having low gradients. +Breeding takes place primarily in the dry season, when the water in the +streams is clear and at a low level. Through most of the range of <i>S. sordida</i> +showers, or even short heavy rains, occur in the dry season. After such rains +the breeding activity is maximal. Breeding congregations have been found +from December through April, but a few calling males and gravid females +have been taken in June, July, and August. In the rainy season non-breeding +individuals are found sitting on bushes near streams at night. Taylor (1952:843) +found specimens in bromeliads by day.</p> + +<p>Males usually call from rocks or gravel bars in, or at the edge of, streams. +Some individuals perch in low bushes overhanging the streams, and some sit +in shallows in the streams. Clasping pairs have been found on the banks of +streams and in shallow water in streams.</p> + +<p>The breeding call consists of one to six moderately short, rather high-pitched +notes (duration 0.18 to 0.45 seconds) repeated at intervals of 12 seconds to +several minutes. Each note is a vibrant rattle having 78 to 135 pulses per +second and major frequences of about 1200 to 2600 cycles per second (Pl. 11C).</p> + +<p>The tadpoles live in shallow parts of the streams, where they cling to the +surfaces of small rocks and hide beneath leaves and rocks. A complete developmental +series of tadpoles is not available; measurements of those stages +examined are summarized in Table 12.</p> + +<p>A typical tadpole in stage 36 of development (KU 68475 from 15 km. +WSW of San Isidro el General, Costa Rica) has a body length of 11.7 mm., +tail length of 22.8 mm., and a total length of 34.5 mm.; body about three-fourths +as deep as wide; snout broadly rounded in dorsal view, sloping and +rounded in lateral view; eyes widely separated, directed dorsolaterally; nostril +slightly closer to eye than to tip of snout; mouth ventral; spiracle sinistral, +about two-thirds distance from snout to posterior end of body and slightly +below midline; anal tube dextral; caudal musculature heavy, straight; dorsal +fin not extending onto body; fins deepest at about mid-length of tail; there +depth of caudal musculature equal to depth of dorsal fin and half again as +deep as ventral fin; musculature extending nearly to tip of tail; body reddish +brown above and pale grayish brown with white flecks below; caudal musculature +pale tan with brown flecks; a series of reddish brown dashes at base of +caudal fin separated from others in series and from dashes on other side by +creamy white; fins transparent with reddish brown flecks on posterior one-half +of ventral fin and on all of dorsal fin (Fig. 14C). Mouth bordered by +two rows of short, pointed papillae; lateral fold present; tooth-rows 2/3; upper +rows equal in length; second upper row narrowly interrupted medially; three +lower rows complete, nearly as long as upper rows, deeply indented medially; +upper beak robust, inner surface not forming continuous arch with short lateral +processes; lower beak deep, V-shaped; both beaks bearing short serrations +(Fig. 15F).</p> + +<p>Little variation occurs in structure. In some specimens the second upper +tooth-row is complete; no individuals were found to have the row broadly +interrupted medially.</p> + +<p>The series of dark dashes on the dorsal edge of the caudal musculature is +diagnostic of all stages studied. In life, tadpoles from 15 and 20 kilometers +west-southwest of San Isidro el General, Costa Rica, had a tan body, often +<span class="pagenum"><a name="Page_328" id="Page_328">[Pg 328]</a></span> +with an olive-tan tinge; the caudal musculature was tan; the flecks and dashes +were dull red or reddish brown. Tadpoles from 6 kilometers east of Golfito, +Costa Rica, had bodies with olive-green flecks. The caudal musculature was +brown with bluish green flecks; the fins were transparent with reddish brown +flecks. The belly was a silvery golden color. Tadpoles from Bajos de Jorco, +Costa Rica, had brown bodies with bluish green flecks; the tail and fins had +reddish brown flecks and dashes. The iris was a bronze color in specimens +from all three localities, as well as in the young mentioned in the following +paragraph.</p> + +<p>Nine recently metamorphosed young were found on vegetation at the edges +of streams in April. These specimens have snout-vent lengths of 13.1 to +15.7 mm. (14.9 mm.) and in life were pale greenish tan or olive-tan above +and white below. The hands, feet, and thighs were pale yellowish tan.</p> + +<p><i>Remarks.</i>—The foregoing synonymies indicate that confusion has existed in +the application of various names, to this species, as well as in use of the names +<i>sordida</i> and <i>gabbi</i> to include the species that we describe and name <i>Smilisca +sila</i>. Correct allocation of the names involved was possible only after studying +and comparing the type specimens, for the descriptions given by the various +authors are not sufficiently explicit to determine the nature of many essential +features.</p> + +<p>The presence of a rounded snout and a long white throat in males distinguishes +<i>S. sordida</i> from <i>S. sila</i>, which has a high truncate snout and short dark +throat in males. The two syntypes of <i>Hyla sordida</i> Peters, 1863, (ZMB 3141) +are males having snout-vent lengths of 36.9 and 37.0 mm. The two syntypes +of <i>Hyla gabbi</i> Cope, 1876 (USNM 30658-9), are females having snout-vent +lengths of 52.8 and 53.7 mm., respectively. Also included in the collections +made by Gabb is eastern Costa Rica are two males (USNM 30685-6), which +Cope (1876) named and described as <i>Hyla nigripes</i>. These specimens are +soft and faded, but are recognizable as the same as <i>Hyla sordida</i> Peters; the +syntypes of <i>Hyla nigripes</i> have snout-vent lengths of 37.6 and 37.7 mm. We +have examined one of the syntypes of <i>Hyla salvini</i> Boulenger, 1882 (BMNH +1947.2.24.13), a female having a snout-vent length of 54.6 mm. We are +convinced that all of these type specimens are representatives of one species, +the earliest name for which is <i>Hyla sordida</i> Peters, 1863. The type localities +for three of the named species are in Costa Rica—<i>H. gabbi</i> from Sipurio on +the Caribbean lowlands, <i>H. nigripes</i> from the Caribbean slopes of Pico Blanco, +and <i>H. salvini</i> from Cartago on the Meseta Central. The type locality of <i>H. +sordida</i> was given as "Veraguas" by Peters (1863). At that time Veraguas +was often considered to be most of western Panamá. Though we have not +seen Panamanian specimens other than the types of <i>S. sordida</i> and one specimen +from the Pacific lowlands of western Panamá, the species probably occurs +on the Caribbean slopes of western Panamá. The species has been taken on +the Caribbean lowlands of Costa Rica within a few kilometers of Panamá; +collecting on the Caribbean slopes in the provinces of Bocas del Toro and +Veraguas should reveal the presence of <i>Smilisca sordida</i> there.</p> + +<p><i>Distribution.</i>—<i>Smilisca sordida</i> is found along the Pacific slopes and lowlands +from Guanacaste, Costa Rica, southeastward to extreme western Panamá, +to elevations of about 1200 meters on the Meseta Central in Costa Rica, and +on the Caribbean slopes and lowlands of Costa Rica and probably adjacent +Panamá (Fig. 5). One specimen purportedly comes from "Río Grande, +Nicaragua."</p> + +<p><span class="pagenum"><a name="Page_329" id="Page_329">[Pg 329]</a></span></p> + +<div class="fig_center" style="width: 521px;"> +<a name="Fig_5" id="Fig_5"></a> +<img src="images/fig_5.png" width="521" height="461" alt="" title="" /> +<div class="fig_caption"><span class="smcap">Fig. 5.</span> Map +showing locality records for <i>Smilisca sordida</i>.</div> +</div> + +<div class="smaller"> +<p><i>Specimens examined.</i>—412, as follows: <span class="smcap">Nicaragua</span>: "Río Grande" (? +Depto. Zelaya), MCZ 2634.</p> + +<p><span class="smcap">Costa Rica</span>: <b>Alajuela</b>: Between Atena and Salto de San Mateo, USC +6185; 8 km. N Ciudad Quesada, USC 7155 (4); La Fortuna, USC 7153 (20); +3 km. E La Fortuna, USC 7150; San Carlos, USNM 29969; Sarchi, KU 32990-9, +36792-3.</p> + +<p><b>Cartago</b>: Cartago, BMNH 1947.2.24.13; headwaters of Río Pacuare, USC +119; Instituto Interamericano de Ciéncias Agricolas, Turrialba, KU 37012, +USC 420, 437; Río Reventazón, Turrialba, MCZ 29268: 10 km. N Río +Reventazón bridge, USC 7073; 5 km. SW Río Reventazón bridge on Paraiso-Orosi +road, USC 669; Turrialba, UMMZ 118405, USC 455, USNM 29936-9.</p> + +<p><b>Heredia</b>: Puerto Viejo, KU 36791.</p> + +<p><b>Guanacaste</b>: Las Cañas, USC 7164; Santa Cecilia, MCZ 7924-5; Tilarán, +USC 7161 (5).</p> + +<p><b>Limón</b>: Bambú, USC 7171 (2), 7183 (13); La Lola, USC 820 (6), 6083-94, +8064, 8071; Pandora, USC 7188 (7), 7189, 7190 (3), 7191 (5); Pico Blanco, +USNM 30685-6; Río Larí, 14-16 km. SW Amubre, USC 7179, 7180 (10); +Sipurio, USNM 30658-9; Suretka, KU 36764, 36765 (skeleton), 36766-78.</p> + +<p><b>Puntarenas</b>: 6 km. N Dominical, KU 91749-50, 91811 (young), 91812 (tadpoles); +Esparta, MCZ 8028; 6 km. E Golfito, KU 91718-41, 91809 (young), +91810 (tadpoles), 91816-9 (skeletons), USC 7103 (23); Quebrada Agua Buena, +3 km. SW Rincón de Osa, USC 7236 (6); Quebrada Boruca, 22 km. E Palmar +Norte, KU 64264; Rincón de Osa, Camp Seattle, UMMZ 123680-5, S-2792 +<span class="pagenum"><a name="Page_330" id="Page_330">[Pg 330]</a></span> +(skeleton), USC 705 (5), 6023, 7254; Río Barranca, USC 7119 (2); Río Ceiba, +6 km. NW Buenos Aires, KU 91747-8, USC 7112 (7); Río Ciruelitas, 16 km. +NW Esparta, USC 7121 (3); Río Claro, 14.2 km. NW Villa Neily, USC 7110 +(4); Río Ferruviosa, 7 km. S Rincón de Osa, USC 7235 (4); Río Lagarto at +Pan-American Hwy. (Guanacaste Border), USC 7122 (4); Río La Vieja, 30 km. +E Palmar Norte, KU 87684 (tadpoles), 91743-6, USC 7083 (2); Río Oro, 28.5 +km. NW Villa Neily, KU 91742; Río Volcán, 10 km. W Buenos Aires, USC +7113; Río Zapote, 7 km. E Palmar, USC 7100 (4); 3-5 km. W Palmar, USC 7101 +(18); 7 km. SE Palmar, KU 64261-3; 1.2 km. NW Villa Neily, USC 8032; +3 km. NW Villa Neily, USC 7109 (20); 5 km. NW Villa Neily, USC 6176, +8035.</p> + +<p><b>San José</b>: Bajos de Jorco, KU 91813 (tadpoles); Escazú, KU 34863, 34869-75, +USC 813; between Monrovia and La Hondura, ± 0.5 km. N Santa Rosa, +USC 302 (2); Paso Ancho, Río Jorco, UMMZ 122649 (6), USC 530 (3); Río +Jorco, near Desamparados, KU 91757-65, 91796-7, 91820-3 (skeletons), USC +228, 513, 7117 (7); Río Peje, 10 km. SSE San Isidro el General, USC 7115 +(3); Río Tiriví, MCZ 7972; San Isidro el General, CNHM 101096, KU 28201, +32989, UMMZ 72024; 15 km. WSW San Isidro el General, KU 64245-56, 68473 +(tadpoles), 68474 (young), 68475 (tadpoles), 86516, 91754-6, 91793-5, USC +7097 (6); 17.1 km. WSW San Isidro el General, USC 6047; 18 km. WSW San +Isidro el General, USC 689; 20 km. WSW San Isidro el General, KU 64257-9, +64260 (skeleton), 68468 (young), 68469 (tadpoles), 68470 (young), 68471-2 +(tadpoles), 68476 (young), 68633-4 (skeletons), 91751-3; San José, AMNH +7501-4, USC 298; Santa Rosa, Río Virilla, USC 7145.</p> + +<p><span class="smcap">Panama</span>: <b>Chiriquí</b>: Río Jacu, 5.8 km. ESE Paso Canoas, KU 91905. +"Veraguas," ZMB 3141 (2).</p> +</div> + +<div class="caption2"><a name="ANALYSIS_OF_MORPHOLOGICAL_CHARACTERS" id="ANALYSIS_OF_MORPHOLOGICAL_CHARACTERS"></a>ANALYSIS OF MORPHOLOGICAL CHARACTERS</div> + +<div class="caption3"><a name="Osteology" id="Osteology"></a> +Osteology</div> + +<p>In attempting to assay the taxonomic significance of skeletal differences +we are faced with a dearth of data on the skeletons of frogs in general and +hylids in particular. Recent reviews by Brattstrom (1957) and Hecht (1962, +1963) have been concerned with general salientian classification and phylogeny, +principally at the family level. Savage and Carvalho (1953), Griffiths (1959), +and Baldauf (1959) used osteological characters in determining the taxonomic +status of the families Pseudidae, Brachycephalidae, and Bufonidae, respectively. +Carvalho (1954) presented osteological evidence for the generic +separation of New World microhylids. Zweifel (1956) and Tihen (1962) +used osteological characters at the levels of the species-group and species in +their respective studies on <i>Scaphiopus</i> and <i>Bufo</i>. Little has been recorded +about the skeletons of the hylids. Goin (1961) mentioned dentigerous elements +and cranial co-ossification in his synopsis of the genera of hylids. +Copland (1957) in his review of the <i>Hyla</i> of Australia, Funkhouser (1957) +in her revision of <i>Phyllomedusa</i>, and Zweifel (1958) in his review of <i>Nyctimystes</i> +did not consider skeletal characters.</p> + +<p>Some osteological studies on hylids have yielded worthwhile information. +Mittleman and List (1953) used osteological characters in defining the genus +<i>Limnaoedus</i>: Starrett (1960) used cranial characters in combination with jaw +musculature in defining the genus <i>Smilisca</i>, and Duellman (1964) used cranial +characters in delimiting the <i>Hyla bistincta</i> group. Brief descriptions of cranial +structure were given for <i>Phrynohyas</i> (Duellman, 1956) and <i>Ptychohyla</i> +(Duellman, 1963a); specific and sexual differences in the skulls of <i>Hyla +chaneque</i> and <i>Hyla taeniopus</i> were pointed out by Duellman (1965). Stokely +<span class="pagenum"><a name="Page_331" id="Page_331">[Pg 331]</a></span> +and List (1954) described early cranial development in the hylid <i>Pseudacris +triseriata triseriata</i>.</p> + +<p>Because our knowledge of the skeleton in hylids is so incomplete, we are +not attempting to place <i>Smilisca</i> in the general scheme of hylid phylogeny on +the basis of skeletal characters. Instead, our purposes are to describe the +skeleton and its ontogenetic development in one member of the genus (<i>S. +baudini</i>), and to make comparisons that show taxonomic differences in osteological +characters among species of <i>Smilisca</i>.</p> + +<p>The study of 68 dried skeletons and 25 cleared and stained preparations, +including an ontogenetic series of <i>S. baudini</i>, has resulted in an understanding +of the progressive development of skeletal elements and a knowledge of interspecific +and intraspecific variation in these elements. Furthermore, investigations +of the osteology have provided correlations between some cranial characters +and certain aspects of external morphology.</p> + + +<div class="caption3nb"><a name="Descriptive_Osteology" id="Descriptive_Osteology"></a> +<i>Descriptive Osteology of Smilisca baudini</i></div> + +<p>The following description is based primarily on an adult female (KU +68184):</p> + +<div class="smaller"> +<p><i>Skull.</i>—The skull is large, solid, and broader than long; the greatest width +is between the sutures of quadratojugal and maxillary on either side of the +skull (Pls. 2-3). The maxillaries bear well-developed dorsal flanges, curve +gently, join the moderately convex premaxillaries anteriorly and form a slightly +truncate snout. The combined premaxillary width is about one-fourth the +width of the skull. The premaxillaries are separated medially, and laterally +from the maxillaries by sutures. Each premaxillary bears a dorsomedial alary +process, which is anteriorly convex and four times as high as the depth of the +lateral wing of premaxillary; each premaxillary also has a ventromedial palatine +process that projects dorsally from the lingual edge of the premaxillary. The +septomaxillaries are closely associated dorsally with the premaxillaries immediately +lateral to the prenasal processes.</p> + +<p>The nasals are large, widest anteriorly and narrowing posteriorly, parallel to +maxillaries, and not separated from the ethmoid by cartilage. The nasals bear +long, delicate maxillary processes extending nearly to the maxillaries. Anteriorly, +the nasals are widely separated by the partially ossified internasal septum, +which is in contact with the premaxillaries between the prenasal processes; the +anterior points of the nasals lie approximately one-half the distance between +the anterior ends of the ethmoid and the premaxillaries. The ethmoid is large +and completely ossified; the margins are smooth. The trunate anterior edge +lies between the nasals and is in contact with the internasal septum. The +frontoparietals are large, smooth-margined, and bear large supraorbital flanges +curving posterolaterally at the rear of the orbit. A small, oval foramen involves +the posterior part of the ethmoid and anterior portion of frontoparietals; +continued ossification in older specimens fills in the foramen, thereby resulting +in a solidly roofed cranium. The auditory regions are relatively massive and +bear narrow tegmen tympani; the distal ends of the tegmen tympani are +medial to the lateral edge of the pterygoids in dorsal view. The squamosals +are large; the long anterior arm is separated from the maxillary by a suture. +The delicate, spindle-shaped columellae lie ventral to the tegmen tympani and +squamosals, are spatulate distally, and have a broad basal attachment to the +auditory region.</p> + +<p>The vomers are moderately large and are in contact anteriorly with the +premaxillaries and posteriorly with the ethmoid. Each vomer has two wide +serrated flanges laterally. The tooth-bearing parts of the vomers are widely +separated and at a slight angle to one another; the vomers terminate medially +in two pointed processes on the ethmoid. The palatines are edentate, but +bear strong ridges throughout their lengths. They are broadly in contact with +the maxillary, are narrow medially, and are attached by pointed processes to +<span class="pagenum"><a name="Page_332" id="Page_332">[Pg 332]</a></span> +the medial part of the ethmoid. The pterygoids are large, attached to the +maxillaries immediately anterior and medial to the squamosal-maxillary connection, +bear well-developed pedicles, which are broadly attached to the +proötic, and a wide wing is in contact posteriorly with the distal two-thirds of +the quadrate.</p> + +<p>The angular makes up most of the lower jaw, bears a broad articular surface +posteriorly, and has a small coronoid process on the lingual edge; anteriorly +the angular is separated from the dentary and mentomecklian by Meckel's +cartilage. The dentary lies external to the angular and extends from the +mentomecklian to approximately the mid-length of the angular. The mentomecklians +are ossified, but separated by cartilage medially.</p> + +<p><i>Hyoid.</i>—The hyoid plate is curved, thin, and mostly cartilaginous, but +calcined posteriorly (Fig. 6). The anterior cornua are slender, cartilaginous, +and curve anteromedially from the hyoid plate and thence laterally and +posteriorly, to attach to the posterior surface of the proötics. The lateral +cornua are broad, flat, cartilaginous lateral extensions from the bases of the +anterior cornua. The posterior cornua are bony, except distally.</p> +</div> + +<div class="fig_center" style="width: 465px;"> +<a name="Fig_6" id="Fig_6"></a> +<img src="images/fig_6.png" width="465" height="547" alt="" title="" /> +<div class="fig_caption"><span class="smcap">Fig. 6.</span> Ventral view of hyoid apparatus of an adult male <i>Smilisca +baudini</i> showing areas of muscle attachment: <i>Gen. L.</i>, attachment of +geniohyoideus lateralis; <i>Gen. M.</i>, attachment of geniohyoideus medialis; +<i>Hyo.</i>, attachment of hyoglossus; <i>Omo.</i>, attachment of omohyoideus; +<i>Pet.</i>, petrohyoideus; <i>St.</i>, attachment of sternohyoideus. KU 64220, ×5.</div> +</div> + +<p><span class="pagenum"><a name="Page_333" id="Page_333">[Pg 333]</a></span></p> +<div class="smaller"> +<p><i>Vertebral Column.</i>—The atlas lacks transverse processes and a neural crest, +whereas transverse processes are present on the other seven presacral vertebrae, +and knoblike neural crests are present on the second, third, and fourth vertebrae; +a faint neural ridge is visible on the fifth vertebra. The transverse +processes are directed laterally on the second and sixth vertebrae, ventrolaterally +on the third, posterolaterally on the fourth and fifth, and anterolaterally on +the seventh and eighth. The processes are slightly expanded on the fourth, +and more so on the fifth, vertebra. The sacral diapophyses are expanded and +have a border of calcified cartilage laterally. There are two sacral condyles. +The slender coccyx has a thin dorsal ridge on the anterior three-fourths of its +length.</p> + +<p><i>Pectoral Girdle.</i>—The omosternum is large, ovoid, and cartilaginous; the +sternum is a thin cartilaginous sheet deeply notched posteriorly and is not differentiated +into episternal and xiphisternal elements. The coracoids are robust, +twice as stout as the clavicles. The epicoracoidal cartilages overlap in the +usual arciferal manner, except that they are fused anteriorly between the slender +clavicles. The clavicles are strongly arched. The clavicle, coracoid, and +scapula on each side form a bony articulation at the glenoid fossa. A bifurcation +of the ventral end of the scapula results in a large glenoid foramen. The +scapula is flat and expanded dorsally; the suprascapula is broad, flat, and +calcified in large adults. In young specimens no distinct ossification of the +cleithrum or ossification of endochondral centers are evident.</p> + +<p><i>Arm and Hand.</i>—The humerus is equally well-developed in both sexes and +has a prominent lateral crest. The radius and ulna are completely fused. A +bony prepollex is present in both sexes. The metacarpals are about equal in +length. The phalangeal formula is 2-2-3-3; the terminal phalanges are claw-shaped.</p> + +<p><i>Pelvic Girdle.</i>—The ilia are long, slender, and slightly curved. A thin ridge +projects laterally from the dorsal edge of the posterior one-half of each ilium. +The ilial prominence is large and knoblike when viewed from above. The +anterior edge of the ilial prominence is at the level of the anterior edge of the +acetabular border. The dorsal acetabular expansion is small. The pubis is +slender, and the ischium is elevated and robust.</p> + +<p><i>Leg and Foot.</i>—The slightly curved femur has a distinct crest proximally +on the posterior surface. The nearly straight tibio-fibula is slightly longer +than the femur. The tibial and fibial elements are completely fused but have +a distinct cleft between them. A small foramen exists at the mid-length of +the tibio-fibula. The fibulare (calcaneum) is much more robust than the +tibiale (astragalus). The prehallux is large and flat. The metatarsals of the +third, fourth, and fifth digits are equal in length; the metatarsal of the second +is somewhat shorter, and that of the first is much shorter. The phalangeal +formula is 2-2-3-4-3; the terminal phalanges are claw-shaped.</p> +</div> + + +<div class="caption3nb"><a name="Developmental_Cranial_Morphology" id="Developmental_Cranial_Morphology"></a> +<i>Developmental Cranial Morphology of Smilisca baudini</i></div> + +<p>The following description of development of the skull of <i>Smilisca baudini</i> +is based on the examination of 12 cleared and stained specimens. In table 3 +the cranial bones are listed in the left hand column in the approximate order +of their appearance in the young frogs. Across the top of the table selected +specimens designated by developmental stage or snout-vent length are listed. +It should be noted that although each individual, from left to right, has an +increasing number of ossified bones, the correlation with increasing size is +imperfect; the precise ages of the individuals are unknown.</p> + +<p>The first bones to appear are the septomaxillaries, frontoparietals, part of +the exoccipital, and the parasphenoid in developmental stage 40. The frontoparietals +are represented by two slender ossifications dorsomedial to the orbits; +the septomaxillaries are present as small ossifications anterior to the nasal +capsules (Pl. 1A). The parasphenoid is present as a faint median ossification, +and the exoccipital shows some ossification.</p> + +<p><span class="pagenum"><a name="Page_334" id="Page_334">[Pg 334]</a></span></p> + +<table summary="Cranial Ossifications" width="86%"> +<tr> + <td colspan="8" class="smcap">Table 3.—The Order of Occurrence of Cranial + Ossifications in the Skull of Smilisca baudini. Where Numbers Are Divided by a Slash + Mark, the Left and Right Symbols Correspond to the Left and Right Sides of the Skull, + Respectively.</td> +</tr> +<tr> + <td class="brdtp2 brdbt smcap pad7">Bone</td> + <td class="brdtp2 brdbt brdlf pad7">Stage 40</td> + <td class="brdtp2 brdbt brdlf pad7">Stage 44</td> + <td class="brdtp2 brdbt brdlf pad7">12.6 mm.</td> + <td class="brdtp2 brdbt brdlf pad7">13.9 mm.</td> + <td class="brdtp2 brdbt brdlf pad7">32.0 mm.</td> + <td class="brdtp2 brdbt brdlf pad7">27.0 mm.</td> + <td class="brdtp2 brdbt brdlf pad7">20.1 mm.</td> +</tr> +<tr> + <td class="text_lf">Frontoparietal</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> +</tr> +<tr> + <td class="text_lf">Parasphenoid</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> +</tr> +<tr> + <td class="text_lf">Septomaxillaries</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> +</tr> +<tr> + <td class="text_lf">Exoccipitals</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> +</tr> +<tr> + <td class="text_lf">Squamosals</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> +</tr> +<tr> + <td class="text_lf">Premaxillaries</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> +</tr> +<tr> + <td class="text_lf">Maxillaries</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> +</tr> +<tr> + <td class="text_lf">Nasals</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> +</tr> +<tr> + <td class="text_lf">Pterygoids</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> +</tr> +<tr> + <td class="text_lf">Vomers</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> +</tr> +<tr> + <td class="text_lf">Palatines</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> +</tr> +<tr> + <td class="text_lf">Quadratojugals</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> +</tr> +<tr> + <td class="text_lf">Ethmoid</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> +</tr> +<tr> + <td class="text_lf">Columellas</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> +</tr> +<tr> + <td class="text_lf">Supraorbital Flanges</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> +</tr> +<tr> + <td class="text_lf">Proötics</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> +</tr> +<tr> + <td class="text_lf">Vomerine Teeth</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">1/1</td> + <td class="brdlf">4/3</td> + <td class="brdlf">5/5</td> + <td class="brdlf">3/3</td> + <td class="brdlf">5/4</td> +</tr> +<tr> + <td class="text_lf">Maxillary Teeth</td> + <td class="brdlf">—</td> + <td class="brdlf">0/7</td> + <td class="brdlf">3/5</td> + <td class="brdlf">6/5</td> + <td class="brdlf">30/31</td> + <td class="brdlf">30/26</td> + <td class="brdlf">37/36</td> +</tr> +<tr> + <td class="brdbt text_lf">Premaxillary Teeth</td> + <td class="brdbt brdlf">—</td> + <td class="brdbt brdlf">2/4</td> + <td class="brdbt brdlf">3/3</td> + <td class="brdbt brdlf">5/5</td> + <td class="brdbt brdlf">7/6</td> + <td class="brdbt brdlf">8/6</td> + <td class="brdbt brdlf">8/7</td> +</tr> +</table> + +<p>The dentigerous bones are among the most rapidly developed, although +not the first to appear. They are present in developmental stage 44 before +metamorphosis is completed. The maxillaries bear a few teeth anteriorly and +are ossified posteriorly to a point one-third of the distance from the anterior +to the posterior edge of the orbit. Ossification lengthens the posterior termini +of the maxillaries to the posterior edge of the orbit. In front of the anterior +margin of the orbit, bone is proliferated dorsal to the main axes of the maxillaries +and forms moderate dorsal maxillary flanges. The premaxillaries appear +simultaneously with the maxillaries. Initially they are widely separated +medially from each other, and laterally from the developing maxillaries; each +bears two or three teeth, large dorsally blunt alary processes, and small +<span class="pagenum"><a name="Page_335" id="Page_335">[Pg 335]</a></span> +palatine processes. The median and lateral edges of the prenasal processes +lengthen heterochronously, causing the median edges to be longest and to lie +slightly dorsal to the level of the septomaxillaries. After the maxillaries and +premaxillaries develop, the vomers appear as small horizontal ossifications +anterior to the parasphenoid. Ossification begins in the lateral flanges, then +in the prevomerine processes, and lastly in the posterior dentigerous parts of +the bones; the prevomerine processes are the last parts of the vomers to ossify +completely.</p> + +<p>Initially the frontoparietals are present as thin rods of ossification dorsomedial +to the orbits; the frontoparietals extend from the anterior to the +posterior end of the orbit by developmental stage 44. The anterior ends of +the bones remain thin and pointed; ossification progresses medially from the +midpoint of the length of the orbit and posteriorly to the level of the exoccipital; +a median center of ossification joins the frontoparietals posteriorly, +thereby forming the posterior border of the frontoparietal fontanelle. The +supraorbital flanges of the frontoparietals do not appear until all other cranial +bones are ossified, or nearly so. The most rapid ossification begins laterally +at the posterior edge of the orbit and decreases anteriorly over the posterior +half of the orbit. This differential rate of proliferation of bone results in the +pattern of development of the supraorbital flanges shown in figure 7. The +nasals appear as thin slivers of bone half way between the anterior ends of the +frontoparietals and the end of the snout. As ossification proceeds the nasals +assume a triangular shape in dorsal view. The anterior ends are pointed; +the lateral margins are parallel to the maxillaries. The posteromedial points +do not reach the lateral margins of the ethmoid, and the maxillary processes +extend about three-fourths the distance from the bodies of the nasals to the +maxillaries. Following the union of the frontoparietals posteriorly, the nasals +widen anteriorly and are narrower at the midpoints of their long axes than +anteriorly or posteriorly. With further ossification the maxillary processes +extend to the maxillaries and form complete bony anterior margins to the +orbits; the mid-parts of the nasals widen (Pl. 1B).</p> + +<div class="fig_center" style="width: 538px;"> +<a name="Fig_7" id="Fig_7"></a> +<img src="images/fig_7.png" width="538" height="158" alt="" title="" /> +<div class="fig_caption"><span class="smcap">Fig. 7.</span> Developmental sequence of the frontoparietal fontanelle and associated +bony elements in <i>Smilisca baudird</i>: (A) KU 60026, ×5; (B) KU 85438, +×4; (C) KU 26328, ×3; (D) KU 68184, ×2.3.</div> +</div> + +<p>The parasphenoid is the first of the palatal bones to appear. At metamorphosis +the bone is well developed; the anterior tip is situated just in front +of the anterior edge of the orbit, and posteriorly the lateral processes extend +laterally beyond the ossified parts of the auditory region. The pterygoids do +not appear until metamorphosis, when ossification is evident in only the mid-parts +of the posterolateral arms. Ossification follows in the mid-parts of the +<span class="pagenum"><a name="Page_336" id="Page_336">[Pg 336]</a></span> +anterolateral arms and occurs last in the pterygoid pedicles. The palatines do +not appear until all three arms of the pterygoids are at least partly ossified. +Ossification proceeds rapidly from the maxillaries medially to the unossified +ethmoid, which is the last of the cranial bones to appear. Initially it is extremely +shallow; dorsally it is widely separated from the nasals, and ventrally +the posterior margin meets the anterior point of the parasphenoid. In dorsal +view, ossification proceeds anteriorly between the nasals and posteriorly, ventral +to the frontoparietals; ventrally, ossification proceeds posteriorly dorsal to the +parasphenoid.</p> + +<p>The ventral arms of the squamosal and the supraoccipital region of the +exoccipital are the first occipital bones to appear. Ossification follows in the +regions of the semicircular canals and occipital condyles. The dorsal end of +the ventral arm of the squamosal and the posterior arm of the squamosal +ossify as a unit at the same time the quadratojugal appears. Shortly thereafter +the anterior arm of the squamosal ossifies, the distal part of the columella +appears, and the anterior and lateral parts of the auditory region ossify.</p> + +<p>The angular and dentary of the lower jaw appear concurrently with the +dentigerous bones. Initially, the angular is short and broad; the articular surface +is absent, and the anterior end is slightly overlapped by the dentary. +The mentomecklians do not ossify until approximately the same time that the +quadratojugal appears in the upper jaw.</p> + + +<div class="caption3nb"><a name="Comparative_Osteology" id="Comparative_Osteology"></a> +<i>Comparative Osteology</i></div> + +<p>The genus <i>Smilisca</i> is characterized by the following combination of cranial +osteological characters: (1) A large amount of bone is involved in the skull +and a minimal amount of cartilage and/or secondarily ossified cartilage; co-ossification +is absent. (2) The skulls are uniformly broad with angular lateral +margins, and truncate anteriorly. (3) An internasal septum and quadratojugals +are present. (4) A well-developed squamosal minimally extends one-fourth the +distance from the dorsal end of the quadrate to the maxillary, and maximally +is separated from the maxillary by a suture. (5) The ethmoid is large; the +distance between the anterior end of the ethmoid and the anterior edge of +the premaxillary varies between 15 and 20 per cent of the total length of the +skull.</p> + +<p>On the basis of cranial osteology two species-groups can be recognized +within the genus <i>Smilisca</i>. The <i>sordida</i> group, comprising <i>S. sordida</i> and <i>puma</i>, +is characterized by a broad skull in which the lateral margins of the maxillaries +are relatively straight anterior to the orbit. The moderate-sized nasals are +rounded anteriorly, and bear relatively short, sometimes blunt, maxillary +processes. The long axes of the nasals are not parallel to the maxillaries. +The ethmoid is <ins title='Correction: was "proportionaely"'>proportionately</ins> small in the <i>sordida</i> group. The bony part of +the ethmoid terminates near the anterior edge of the orbits and does not +extend anteriorly between the nasals; the entire anterior margin of the ethmoid +is separated from the nasals by cartilage. The squamosals are generally small. +They are narrow in dorsal view, and minimally extend one-fourth the distance +from the dorsal end of the quadrate to the maxillary, and maximally, two-thirds +the distance. The tegmen tympani are relatively small (Fig. 8).</p> + +<p><span class="pagenum"><a name="Page_337" id="Page_337">[Pg 337]</a></span></p> + +<div class="fig_center" style="width: 435px;"> +<a name="Fig_8" id="Fig_8"></a> +<img src="images/fig_8.png" width="435" height="589" alt="" title="" /> +<div class="fig_caption"><span class="smcap">Fig. 8.</span> Dorsal views of the skulls of the species of <i>Smilisca</i>: (A) <i>S. baudini</i> +(KU 68184); (B) <i>S. puma</i> (KU 68636); (C) <i>S. phaeota</i> (KU 41090); (D) +<i>S. sila</i> (KU 80625); (E) <i>S. cyanosticta</i> (KU 55938), and (F) <i>S. sordida</i> (KU +36765). ×1.5.</div> +</div> + +<p>In contrast to the tendency for reduction of cranial parts in the <i>sordida</i> +group, the <i>baudini</i> group, constituted by <i>S. cyanosticta</i>, <i>phaeota</i>, and <i>baudini</i>, +is characterized by more ossification of the cranial elements. The skull is +broad; the lateral margins are less angular and are gently curved, rather than +straight as in the <i>sordida</i> group. The nasals tend to be larger with the long +axes parallel to the maxillary. Anteriorly the nasals are pointed, and posteriorly +<span class="pagenum"><a name="Page_338" id="Page_338">[Pg 338]</a></span> +they bear long, delicate palatine processes extending to the maxillary. The +ethmoid is fully ossified, extends anteriorly between the nasals, and laterally +is separated by a suture from the nasals if the latter are fully ossified. The +squamosals are large, and wide in dorsal view. They minimally extend one-fourth +the distance from the dorsal end of the quadrate to the maxillary, and +maximally are sutured to the maxillary. The tegmen tympani are massive.</p> + +<p><i>Smilisca sila</i> is intermediate between the two species-groups described. The +skull is broad; the lateral margins are gently curved, and have a pronounced +angularity just anterior to the palatines which results in a broad, truncate +snout. The nasals are moderate in size; because of the anterior angularity +of the lateral margins, the long axes of the nasals lie parallel to the maxillary. +The nasals are only slightly pointed anteriorly, and posteriorly they bear short, +blunt palatine processes and medial processes in contact with the lateral +corners of the ethmoid. The ethmoid is fully ossified, but does not extend +anteriorly between the nasals. The squamosals are moderate in size and extend +one-fourth the distance from the dorsal end of the quadrate to the +maxillary. The tegmen tympani are relatively large, but proportionately short.</p> + +<p>The cranial characters utilized in the analysis of species groups (general +shape, nature of the nasals, ethmoid, squamosals, and tegmen tympani), together +with other characters, such as the relative height and shape of the +prenasal processes, the extent of the internasal septum, and the nature of the +vomers, frontoparietals, maxillaries and pterygoids are useful in distinguishing +the various species (Table 4, Fig. 8), as well as in establishing relationships +within the species-groups.</p> + +<p>Within the <i>sordida</i> group, <i>S. sordida</i> and <i>S. puma</i> can be distinguished by +the following characters: The bony part of the ethmoid terminates posterior to +the anterior edge of the orbit and is thus widely separated from the nasals by +cartilage in <i>S. puma</i>. In <i>S. sordida</i> the bony part of the ethmoid always +terminates at a level equal to, or slightly in front of the anterior edge of the +orbit; therefore, less cartilage exists between the ethmoid and nasals in <i>S. +sordida</i> than in <i>S. puma</i>. The width of the premaxillary comprises about 30 +per cent of the width of the skull in <i>S. sordida</i> and 20 per cent in <i>S. puma</i>. +The proportion of the length of the skull anterior to the bony part of the +ethmoid in <i>S. sordida</i> is approximately 21 per cent, as compared with about 29 +per cent in <i>S. puma</i>. The prenasal processes are convex in <i>S. sordida</i> and +straight in <i>S. puma</i>.</p> + +<p>The marked ontogenetic variation in <i>S. sordida</i> is considered in more detail +in the account of that species, but it is pertinent to the present discussion to +note that with respect to some features of the skull some young breeding specimens +of <i>S. sordida</i> are intermediate in appearance between large females of +<i>S. sordida</i> and adults of <i>S. puma</i>. In some breeding males (usually the +smaller individuals) of <i>S. sordida</i> the bony part of the ethmoid terminates at +the anterior edge of the orbit and is widely separated from the nasals by +cartilage. In small individuals <i>S. sordida</i>, especially in males, and in adults +of <i>S. puma</i> the tegmen tympani are relatively short, whereas in adult females +of <i>S. sordida</i> these elements are long and slender. In the smaller specimens +of <i>S. sordida</i> and in <i>S. puma</i> the squamosal is small; it extends only about one-fourth +of the distance to the maxillary in the smaller <i>S. sordida</i> and about one-half +the distance in <i>S. puma</i>. The more massive squamosal in large adult +females of <i>S. sordida</i> extends at least two-thirds of the distance to the maxillary.</p> + +<p><span class="pagenum"><a name="Page_339" id="Page_339">[Pg 339]</a></span></p> + +<table width="86%" summary="Cranial Osteology"> +<tr> +<td colspan="7" class="smcap">Table 4.—Comparative Cranial Osteology of Smilisca.</td> +</tr> +<tr> + <td class="brdtp2 brdbt smcap">Character</td> + <td class="brdtp2 brdbt brdlf"><i>S. baudini</i></td> + <td class="brdtp2 brdbt brdlf"><i>S. cyanosticta</i></td> + <td class="brdtp2 brdbt brdlf"><i>S. phaeota</i></td> + <td class="brdtp2 brdbt brdlf"><i>S. puma</i></td> + <td class="brdtp2 brdbt brdlf"><i>S. sila</i></td> + <td class="brdtp2 brdbt brdlf"><i>S. sordida</i></td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf vtop">Alary Processes</td> + <td class="tbl4">Four times as high as lateral wing of premaxillary; anteriorly convex.</td> + <td class="tbl4">Three times as high as lateral wing of premaxillary; anteriorly convex.</td> + <td class="tbl4">Two and one-half times as high as lateral wing of premaxillary; anteriorly convex.</td> + <td class="tbl4">Two times as high as lateral wing of premaxillary; straight.</td> + <td class="tbl4">One and one-half times as high as lateral wing of premaxillary; straight.</td> + <td class="tbl4">Two and one-half times as high as lateral wing of premaxillary; slightly convex anteriorly.</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf vtop">Nasals</td> + <td class="tbl4">Long, wide anteriorly, narrowing posteriorly; attached to ethmoid.</td> + <td class="tbl4">Long, widest posteriorly; attached to ethmoid.</td> + <td class="tbl4">Long, widest anteriorly and posteriorly, bearing posteromedial process; not attached to ethmoid.</td> + <td class="tbl4">Short, narrow, not attached to ethmoid.</td> + <td class="tbl4">Short, wide, bearing small posteromedial processes; not attached to ethmoid.</td> + <td class="tbl4">Moderately long narrowest anteriorly and posteriorly; not attached to ethmoid.</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf vtop">Ethmoid</td> + <td class="tbl4">Long; entirely ossified; smooth margins.</td> + <td class="tbl4">Long, entirely ossified; smooth margins.</td> + <td class="tbl4">Long, entirely ossified; smooth margins.</td> + <td class="tbl4">Short, about two-thirds ossified; irregular margins.</td> + <td class="tbl4">Moderately long; entirely ossified; smooth margins</td> + <td class="tbl4">Short; one-half to entirely ossified; irregular margins.</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf vtop">Frontoparietal</td> + <td class="tbl4">Small, ovid fontanelle present or absent; long, pointed postorbital processes curving along posterior border of orbit.</td> + <td class="tbl4">Large fontanelle, two and one-half times as long as wide; narrow supraorbital flanges with irregular margins.</td> + <td class="tbl4">Fontanelle absent; large supraorbital flanges having straight edges and extending posterolaterally.</td> + <td class="tbl4">Keyhole-shaped fontanelle; smooth margins; flanges absent.</td> + <td class="tbl4">Large, ovoid fontanelle; smooth margins; flanges absent.</td> + <td class="tbl4">Large, elongate fontanelle; smooth margins; flanges absent.</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="brdbt text_lf vtop">Squamosal</td> + <td class="brdbt tbl4">Large: anterior arm in contact with maxillary.</td> + <td class="brdbt tbl4">Large; anterior arm in contact with maxillary.</td> + <td class="brdbt tbl4">Large; anterior arm extending 1/2-2/3 way to maxillary.</td> + <td class="brdbt tbl4">Small; anterior arm extending 1/2 way to maxillary.</td> + <td class="brdbt tbl4">Moderately large; anteriorarm extending 1/4 way to maxillary.</td> + <td class="brdbt tbl4">Moderately small; anterior arm extending 1/4-2/3 way to maxillary.</td> +</tr> +</table> + +<p><span class="pagenum"><a name="Page_340" id="Page_340">[Pg 340]</a></span></p> + +<p>Within the <i>baudini</i> group, the skull of <i>S. cyanosticta</i> is the most generalized +of the three species; the cranial characters are intermediate between <i>S. phaeota</i> +and <i>S. baudini</i>. The lateral margins of the skull in <i>S. cyanosticta</i> are gently +curved, and have an angularity anterior to the palatine-maxillary suture; the +anterior margins are less angular in <i>S. phaeota</i>, which has a broader snout. +Posteriorly in <i>S. baudini</i> the margins are slightly curved medially, and the +greatest width of the skull is between the quadratojugal-maxillary sutures on +either side of the skull. The frontoparietals of <i>S. cyanosticta</i> bear slightly +irregular lateral margins and a large fontanelle. There is a tendency for obliteration +of the fontanelle with increasing age in both <i>S. baudini</i> and <i>S. +cyanosticta</i>; the lateral margins of the frontoparietals bear large supraorbital +flanges in both of these species. In <i>S. phaeota</i> the flanges are most prominent; +they extend posterolaterally with straight margins along two-thirds of the +length of the orbit and terminate in rather blunt points. The broad interorbital +flanges result in a relatively broad external interorbital distance. In <i>S. baudini</i> +the flanges are curved posterolaterally around the orbit and terminate in sharp, +thin points. The tegmen tympani of all three species are massive. In <i>S. +cyanosticta</i> the proötics slope posteriorly, whereas they slope anteriorly in <i>S. +baudini</i> and <i>S. phaeota</i>.</p> + +<p>The skulls of <i>S. cyanosticta</i> and <i>S. baudini</i> are alike in certain respects. +The squamosals of both species are large and connected to the maxillary by a +bony connection; the squamosals of <i>S. phaeota</i> are large, but extend only two-thirds +of the distance from the dorsal end of the quadrate to the maxillary. +In <i>S. baudini</i> and <i>S. cyanosticta</i> the nasals are separated throughout their +lengths from the ethmoid, whereas the nasals of <i>S. phaeota</i> are separated +from the ethmoid by cartilage. The latter separation is due to an incomplete +ossification of the nasals in <i>S. phaeota</i>. The bony part of each nasal is constricted +in the middle of the long axis of the bone, and the nasals are widest +anteriorly; posteriorly each nasal bears a medial process, which is narrowly +separated from the lateral edge of the ethmoid.</p> + +<table width="86%" summary="Number of Teeth"> +<tr> + <td colspan="7" class="smcap">Table 5.—Variation in the Number of Teeth in the + Species of Smilisca. (All Are Males; N = Number of Jaws, or Twice the Number of + Individuals; Means Are Given in Parentheses After the Observed Ranges.)</td> +</tr> +<tr> + <td class="brdtp2 brdbt smcap">Species</td> + <td class="brdtp2 brdbt brdlf">N</td> + <td class="brdtp2 brdbt brdlf">Maxillary</td> + <td class="brdtp2 brdbt brdlf">Premaxillary</td> + <td class="brdtp2 brdbt brdlf">Vomerine</td> +</tr> +<tr> + <td class="text_lf"><i>S. baudini</i></td> + <td class="brdlf">20</td> + <td class="brdlf">49-65 (56.0)</td> + <td class="brdlf">9-16 (13.6)</td> + <td class="brdlf">5-9 (7.2))</td> +</tr> +<tr> + <td class="text_lf"><i>S. cyanosticta</i></td> + <td class="brdlf">8</td> + <td class="brdlf">50-64 (57.9)</td> + <td class="brdlf">10-12 (10.8)</td> + <td class="brdlf">4-11 (7.1))</td> +</tr> +<tr> + <td class="text_lf"><i>S. phaeota</i></td> + <td class="brdlf">20</td> + <td class="brdlf">50-68 (58.1)</td> + <td class="brdlf">10-15 (12.1)</td> + <td class="brdlf">5-9 (7.3))</td> +</tr> +<tr> + <td class="text_lf"><i>S. puma</i></td> + <td class="brdlf">6</td> + <td class="brdlf">60-67 (63.6)</td> + <td class="brdlf">11-13 (12.0)</td> + <td class="brdlf">4-7 (5.3))</td> +</tr> +<tr> + <td class="text_lf"><i>S. sila</i></td> + <td class="brdlf">8</td> + <td class="brdlf">48-60 (52.9)</td> + <td class="brdlf">10-14 (11.3)</td> + <td class="brdlf">5-7 (5.7))</td> +</tr> +<tr> + <td class="text_lf brdbt"><i>S. sordida</i></td> + <td class="brdbt brdlf">12</td> + <td class="brdbt brdlf">39-55 (44.2)</td> + <td class="brdbt brdlf">7-11 (9.3)</td> + <td class="brdbt brdlf">4-6 (5.2)</td> +</tr> +</table> + +<p>The teeth of all species of <i>Smilisca</i> are spatulate and bifid. The numbers +of maxillary, premaxillary, and vomerine teeth are summarized in Table 5. +Smaller and presumably younger specimens of all species of <i>Smilisca</i> have +fewer teeth than do larger specimens of the same species. This correlation +<span class="pagenum"><a name="Page_341" id="Page_341">[Pg 341]</a></span> +between size and number of teeth does not exist as an interspecific trend +within the genus; for example, the smallest species in the genus, <i>S. puma</i>, +has the highest number of maxillary teeth. In small specimens of a given +species wide gaps are present between the maxillary teeth posteriorly; in +large specimens the gaps are filled by teeth, beginning anteriorly and progressing +posteriorly, until the maxillary dentition is continuous.</p> + + +<div class="caption3"><a name="Musculature" id="Musculature"></a>Musculature</div> + +<p>No extensive study of the muscular system was undertaken, but certain +muscles know to be of taxonomic importance were studied.</p> + +<p><i>Jaw Musculature.</i>—Starrett (1960) pointed out the unique jaw musculature +in <i>Smilisca</i>. In this genus M. depressor mandibulae consists of two parts, one +arising from the dorsal fascia and one from the posterior arm of the squamosal. +Two muscles arise from the anterior arm of the squamosal and insert on the +lateral face of the mandible. Of these muscles, M. adductor mandibulae +posterior subexternus lies medial to the mandibular branch of the trigeminal +nerve; the other, M. adductor mandibulae externus superficialis, lies lateral to +the same nerve (Fig. 9). In most other hylids the latter muscle is absent. +No significant variation in the position of the muscles was noted in the various +species of <i>Smilisca</i>, though M. adductor mandibulae originate somewhat more +anteriorly in <i>S. baudini</i> and <i>S. cyanosticta</i> than in the other members of the +genus, all of which have a shorter anterior arm of the squamosal that does not +reach the maxillary. The two separate parts of M. depressor mandibulae are +not so widely separated in members of the <i>sordida</i> group as in the <i>baudini</i> +group.</p> + +<div class="fig_center" style="width: 496px;"> +<a name="Fig_9" id="Fig_9"></a> +<img src="images/fig_9.png" width="496" height="358" alt="" title="" /> +<div class="fig_caption"><span class="smcap">Fig. 9.</span> Lateral view of the left jaw of <i>Smilisca baudini</i>; <i>A. M. E. S.</i>, +adductor mandibulae externus superficialis; <i>A. M. P. S.</i>, adductor mandibulae +posterior subexternus; <i>Col.</i>, columella; <i>D. M.</i> depressor mandibulae; +<i>M. B. T. N.</i>, mandibular branch trigeminal nerve; <i>Sq.</i>, squamosal. +KU 64214, ×5.</div> +</div> + +<p><span class="pagenum"><a name="Page_342" id="Page_342">[Pg 342]</a></span></p> +<div class="fig_center" style="width: 482px;"> +<a name="Fig_10" id="Fig_10"></a> +<img src="images/fig_10.png" width="482" height="248" alt="" title="" /> +<div class="fig_caption"><span class="smcap">Fig. 10.</span> Ventral view of throat musculature in an adult male <i>Smilisca +baudini</i> (Superficial musculature on left, deep musculature on +right); <i>A. C.</i> anterior cornua of hyoid; <i>Gen. L.</i>, geniohyoideus lateralis; +<i>Gen. M.</i>, geniohyoideus medialis; <i>Hyo.</i>, hyoglossus; <i>Omo.</i>, omosternum; +<i>Pet.</i>, petrohyoideus; <i>S.</i>, submentalis; <i>Sm.</i>, submaxillaris; <i>St.</i>, +sternohyoideus; <i>V. S.</i>, vocal sac. KU 64220, × 2.5.</div> +</div> + +<p><i>Throat Musculature.</i>—The frogs that comprise the genus <i>Smilisca</i> are +characterized by paired subgular vocal sacs, essentially the same as those in +<i>Triprion</i> (Duellman and Klaas, 1964). The following description is based +on <i>Smilisca baudini</i> (Fig. 10).</p> + +<p>M. submentalis lies in the anterior angle of the lower jaw, is thick, and +consists of transverse fibers extending between the dentaries. M. submaxillaris +is thin and arises from the whole of the inner surface of the lower jaw, except +for the anterior angle occupied by M. submentalis. Anteriorly M. submaxillaris +is broadly attached by fascia to M. hyoglossus and M. geniohyoideus, +which lie dorsal to M. submaxillaris. Medially this attachment continues +posteriorly for about one-half the length of the hyoglossus. Posteriorly M. +submaxillaris is folded and attached to M. sternoradialis of the pectoral girdle. +The vocal sacs are formed by a pair of posterolateral evaginations of M. +submaxillaris; a broad connection between the pouches allows free passage +of air between the pouches.</p> + +<p>The deeper throat musculature is essentially the same as that described +for <i>Phrynohyas spilomma</i> by Duellman (1956), except for slight differences +in the place of attachment on the hyoid.</p> + + +<div class="caption3"><a name="SKIN" id="SKIN"></a>SKIN</div> + +<div class="caption3nb"><a name="Structure" id="Structure"></a> +<i>Structure</i></div> + +<p>The skin of <i>Smilisca</i> is typical of that of most hylids in organization and +structure. <i>Smilisca sila</i> is distinguished from other members of the genus by +the presence of small wartlike protrusions and peculiar white, pustular spots +on the dorsum. The wartlike structures are composed of three or four +epidermal cells, which protrude from the surface of the epidermis; the structures +are covered by a slightly thickened layer of keratin. The white pustules are +slightly elevated above the surrounding skin. Internally they consist of aggregations +<span class="pagenum"><a name="Page_343" id="Page_343">[Pg 343]</a></span> +of swollen, granular, pigment-cells (perhaps lipophores) lying between +the epidermis and the melanophores.</p> + + +<div class="caption3nb"><a name="Biochemical_Variations" id="Biochemical_Variations"></a> +<i>Biochemical Variations</i></div> + +<p>Dried skins of all species of <i>Smilisca</i> were sent to José M. Cei, Instituto +Nacional de Cuyo, Mendoza, Argentina, for biochemical screening by means +of the chromatographic techniques described by Erspamer and Cei (1963). +The species in the <i>baudini</i> group have detectable amounts of penta-hydroxi-trypatamine, +whereas only a trace is present in the other species. Furthermore, +species in the <i>baudini</i> group differ from <i>S. sila</i> and the <i>sordida</i> group in lacking, +or having only a trace of, tryptophan-containing polypeptides. These +superficial biochemical tests support the arrangement of species as ascertained +by conventional taxonomic characters.</p> + + +<div class="caption3"><a name="External_Morphological_Characters" id="External_Morphological_Characters"></a> +External Morphological Characters</div> + +<p>The features of external morphology that were studied in connection with +the taxonomy of the genus <i>Smilisca</i> are discussed below.</p> + + +<div class="caption3nb"><a name="Size_and_Proportions" id="Size_and_Proportions"></a> +<i>Size and Proportions</i></div> + +<p>The frogs of the genus <i>Smilisca</i> are medium to large tree frogs. The three +species comprising the <i>baudini</i> group (<i>S. baudini</i>, <i>cyanosticta</i>, and <i>phaeota</i>) +are notably larger than <i>S. puma</i>, <i>sila</i>, and <i>sordida</i> (Table 6). The largest +specimen that we examined is a female of <i>S. baudini</i> having a snout-vent +length of 90 mm. <i>Smilisca puma</i> is the smallest species; the largest male has +a snout-vent length of 38 mm. and the largest female, 46 mm.</p> + +<table width="86%" summary="Size Comparisons"> +<tr> + <td colspan="5" class="smcap">Table 6.—Comparison of Sizes and Certain Proportions + of the Species of Smilisca. (Means in Parentheses Below Observed Ranges; Data for + Males Only.)</td> +</tr> +<tr> + <td class="brdtp2 brdbt smcap">Species</td> + <td class="brdtp2 brdbt brdlf">N</td> + <td class="brdtp2 brdbt brdlf">Snout-vent<br />length</td> + <td class="brdtp2 brdbt brdlf">Tibia length/<br />snout-vent</td> + <td class="brdtp2 brdbt brdlf">Tympanum/<br />eye</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf"><i>S. baudini</i></td> + <td class="brdlf">140</td> + <td class="brdlf">47.3-75.9</td> + <td class="brdlf">42.1-53.6</td> + <td class="brdlf">56.1-94.4</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf">(58.7)</td> + <td class="brdlf">(47.8)</td> + <td class="brdlf">(73.5)</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf"><i>S. cyanosticta</i></td> + <td class="brdlf">40</td> + <td class="brdlf">44.6-56.8</td> + <td class="brdlf">51.9-59.7</td> + <td class="brdlf">62.7-88.4</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf">(50.7)</td> + <td class="brdlf">(56.0)</td> + <td class="brdlf">(71.4)</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf"><i>S. phaeota</i></td> + <td class="brdlf">50</td> + <td class="brdlf">40.8-65.5</td> + <td class="brdlf">50.9-60.2</td> + <td class="brdlf">62.7-85.5</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf">(53.9)</td> + <td class="brdlf">(55.5)</td> + <td class="brdlf">(76.6)</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf"><i>S. puma</i></td> + <td class="brdlf">20</td> + <td class="brdlf">31.9-38.1</td> + <td class="brdlf">48.2-53.1</td> + <td class="brdlf">52.1-72.2</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"></td> + <td class="brdlf">(34.7)</td> + <td class="brdlf">(51.3)</td> + <td class="brdlf">(64.9)</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf"><i>S. sila</i></td> + <td class="brdlf">33</td> + <td class="brdlf">31.6-44.8</td> + <td class="brdlf">49.7-58.1</td> + <td class="brdlf">47.6-58.3</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf">(37.7)</td> + <td class="brdlf">(54.8)</td> + <td class="brdlf">(53.2)</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf"><i>S. sordida</i></td> + <td class="brdlf">55</td> + <td class="brdlf">31.9-44.6</td> + <td class="brdlf">50.5-57.1</td> + <td class="brdlf">46.5-57.1</td> +</tr> +<tr> + <td class="brdbt"> </td> + <td class="brdbt brdlf"> </td> + <td class="brdbt brdlf">(37.9)</td> + <td class="brdbt brdlf">(53.4)</td> + <td class="brdbt brdlf">(49.1)</td> +</tr> +</table> + +<p>No outstanding differences in proportions exist between species, although +<span class="pagenum"><a name="Page_344" id="Page_344">[Pg 344]</a></span> +certain proportions are sufficiently different in some species to warrant mention. +<i>Smilisca baudini</i> is a more squat and stocky frog than other members of +the genus; this is reflected in the somewhat shorter hind legs (Table 6). The +size of the tympanum relative to that of the eye is highly variable within +samples of a given species. Even so, noticeable differences in the tympanum/eye +ratio are apparent. Members of the <i>baudini</i> group have the largest +tympani, whereas <i>S. sila</i> and <i>sordida</i> have the smallest, and <i>S. puma</i> is intermediate +(Table 6).</p> + + +<div class="caption3nb"><a name="Shape_of_Snout" id="Shape_of_Snout"></a> +<i>Shape of Snout</i></div> + +<p>Although all members of the genus have rather truncate snouts, subtle differences +exist among the species (Pl. 12). <i>Smilisca sila</i> has the shortest snout; +that of <i>S. baudini</i> is only slightly longer. The snouts of <i>S. cyanosticta</i> and +<i>puma</i> are nearly square in lateral profile, whereas those of <i>S. phaeota</i> and +<i>sordida</i> are slightly inclined. The shape of the snout is relatively uniform +within each species and displays no noticeable sexual dimorphism, except in +<i>S. sordida</i>, in which there are sexual differences and geographic variation +(see p. 324).</p> + + +<div class="caption3nb"><a name="Hands_and_Feet" id="Hands_and_Feet"></a> +<i>Hands and Feet</i></div> + +<p>The characters of the hands and feet are among the most taxonomically +important external features in <i>Smilisca</i>. Consistent differences exist in relative +lengths of the digits, size of subarticular tubercles, size and number of supernumerary +tubercles, size and shape of the inner metatarsal tubercle, and +amount of webbing (Pls. 4 and 5). In the <i>baudini</i> group the series of species +(<i>baudini-phaeota-cyanosticta</i>) show a progressive increase in amount of webbing +in the hand and a decrease in number, and corresponding increase in +size, of supernumerary tubercles. The amount of webbing in the feet of +<i>S. baudini</i> and <i>phaeota</i> is about the same, but the webbing is slightly more +extensive in <i>S. cyanosticta</i>. <i>Smilisca puma</i> is unique in the genus in lacking +webbing in the hand; furthermore, this species is distinctive in having many +large subarticular tubercles on the hand and a relatively small inner metatarsal +tubercle. The two stream-inhabitants, <i>S. sila</i> and <i>sordida</i>, have shorter and +stouter fingers than the other species. The webbing is most extensive in both +the hands and feet of these species, which also are distinctive in having many +small supernumerary tubercles on the feet.</p> + + +<div class="caption3nb"><a name="Ontogenetic_Changes" id="Ontogenetic_Changes"></a> +<i>Ontogenetic Changes</i></div> + +<p>Minor ontogenetic changes in structure involve the shape of the snout, +relative size of the eye, development of the tympanum, and amount of webbing +in the hand. In recently metamorphosed young the snout is more +rounded than in adults; the canthus and loreal concavity are not evident. +Usually the tympanum is not differentiated in recently metamorphosed young, +and the eye is proportionately large. The webbing in the feet is completely +developed at metamorphosis, but young individuals have noticeably less webbing +in the hand than do adults of the same species.</p> + + +<div class="caption3"><a name="Coloration" id="Coloration"></a> +Coloration</div> + +<p>Some of the most distinctive characters of the species of <i>Smilisca</i> are color +and pattern of the living frogs. Although many chromatic features are lost or +subdued in preserved specimens, the patterns usually persist.</p> + +<p><span class="pagenum"><a name="Page_345" id="Page_345">[Pg 345]</a></span></p> + +<div class="caption3nb"><a name="Metachrosis" id="Metachrosis"></a> +<i>Metachrosis</i></div> + +<p>Change in color, well known in frogs, is common in hylids, especially in +species having green dorsal surfaces (<i>Phyllomedusa</i> is a notable exception). +The non-green <i>Smilisca</i> (<i>puma</i>, <i>sila</i>, and <i>sordida</i>) changes color, but this +mostly is a change in intensity of color. In these species the markings usually +are most distinct at night; frequently by day the frogs become pallid. The +most striking examples of metachrosis in <i>Smilisca</i> are found in the <i>baudini</i> +group, in which the dorsal ground-color changes from green to tan; correlated +with the change in ground-color may be a corresponding change in the dorsal +markings, but the dorsal markings may change to the opposite color.</p> + + +<div class="caption3"><a name="Chromosomes" id="Chromosomes"></a> +Chromosomes</div> + +<p>Chromosomes of all six species of <i>Smilisca</i> were studied by means of the +propriono-orcein squash technique described by Duellman and Cole (1965). +Karyotype analysis was attempted for several species by means of intraperitoneal +injections of colchicine, which affected the mitotic cells as desired, but +the testes examined contained too few mitotic cells to allow accurate determination +of karyotypes.</p> + +<p>Haploid (<i>n</i>) chromosome numbers were determined from cells in diakinesis, +metaphase I, and metaphase II of meiosis. Diploid (2<i>n</i>) chromosome numbers +were determined from cells in late prophase and metaphase of mitosis. +Chromosome counts from as few as 23 meiotic cells of <i>S. phaeota</i> and as many +as 80 cells of <i>S. sordida</i> reveal a constant haploid (<i>n</i>) number of 12; counts +of chromosomes in one to five mitotic cells in all species, except <i>S. sila</i>, reveal +that the diploid (2<i>n</i>) number is 24.</p> + + + + +<div class="caption2"><a name="NATURAL_HISTORY" id="NATURAL_HISTORY"></a>NATURAL HISTORY</div> + + +<div class="caption3"><a name="Breeding" id="Breeding"></a> +Breeding</div> + +<p>Like most hylid frogs <i>Smilisca</i> is most readily collected and observed when +individuals congregate for breeding.</p> + + +<div class="caption3nb"><a name="Time_of_Breeding" id="Time_of_Breeding"></a> +<i>Time of Breeding</i></div> + +<p><i>Smilisca</i> breeds primarily in quiet water and reaches its height of breeding +activity at times of plentiful rainfall,—usually from May through October. +Through most of its range <i>Smilisca baudini</i> breeds in those months, but in +some places where abundant rain falls in other seasons, the species breeds at +those times. For example, in southern El Petén and northern Alta Verapaz, +Guatemala, <i>Smilisca baudini</i> has been found breeding in February and March. +The other pond-breeding species (<i>S. cyanosticta</i>, <i>phaeota</i>, and <i>puma</i>) live in +regions lacking a prolonged dry season, and possibly they breed throughout +the year, but breeding activity seems to be greatest in the rainiest months.</p> + +<p>The two stream-breeding species (<i>S. sila</i> and <i>sordida</i>) breed in the dry +season when the streams are low and clear, principally in December through +April. At high elevations the species sometimes breed in the rainy season; +also, individuals sometimes breed in the short dry season (summer canicula) +in July and August.</p> + +<p><span class="pagenum"><a name="Page_346" id="Page_346">[Pg 346]</a></span> +At several localities species have been found breeding at different times of +the year: <i>S. baudini</i> in March and July at Chinajá, Guatemala; <i>S. phaeota</i> in +April and August at Palmar Sur, Costa Rica; <i>S. puma</i> in February and July +at Puerto Viejo, Costa Rica; and <i>S. sila</i> in February, April, and August at +El Volcan, Panamá. These observations indicate only that the population +breeds at more than one time in the year, but do not provide any evidence on +the breeding cycles of the individual frogs. This is one important aspect of +the natural history of <i>Smilisca</i> for which we lack data.</p> + + +<div class="caption3nb"><a name="Breeding_Sites" id="Breeding_Sites"></a> +<i>Breeding Sites</i></div> + +<p>All members of the genus <i>Smilisca</i> presumably deposit their eggs in water.</p> + +<p><i>Smilisca baudini</i> usually breeds in temporary rain pools; often these are +nothing more than shallow, muddy puddles. In other instances the sites are +extensive ditches or large flooded areas (Pl. 8, Fig. 1). This species is an +opportunistic breeder, and males gather at any of a wide variety of suitable +breeding sites that are formed by torrential rains in the early part of the +rainy season. <i>Smilisca baudini</i> nearly always breeds in open pools having bare +earthen edges. Frequently congregations of <i>S. baudini</i> are found at such +small pools, but are absent from nearby large ponds surrounded by vegetation.</p> + +<p>Little is known of the breeding habits of <i>S. cyanosticta</i>, which inhabits +humid forests on foothills and lowlands. Apparently its breeding sites are +not unlike those of <i>S. phaeota</i>, which usually are pools surrounded by vegetation +(Pl. 8, Fig. 2), although sometimes males of <i>S. cyanosticta</i> call from +open muddy puddles. In uplands, where standing water is uncommon, this +species breeds in quiet pools in streams.</p> + +<p><i>Smilisca puma</i> breeds in grass-choked ponds and marshes, where the males +call from bases of dense clumps of grass in the water (Pl. 9, Fig. 1).</p> + +<p><i>Smilisca sila</i> and <i>S. sordida</i> differ <ins title='Correction: was "noticably"'>noticeably</ins> from other species in the genus +by breeding exclusively in streams, where males usually call from rocks or +gravel bars in or at the edges of streams (Pl. 9, Fig. 2); sometimes individuals +perch on bushes overhanging streams. In the streams, or parts of streams, +utilized by these frogs the water is clear, shallow, and has a slow gradient; +occasional males have been found calling along cascading mountain streams.</p> + +<p>Breeding choruses composed of ten or more species of frogs are not uncommon +in Middle America, but <i>Smilisca</i> usually breeds alone or with one +or two other species and at the most five others. This tendency towards solitary +breeding possibly is the result of selection of breeding sites that are +unsuitable to many other species of frogs. Nevertheless, many other species +of frogs have been found at the breeding sites with the various species of +<i>Smilisca</i>; these breeding associates (Table 7) are most numerous for <i>S. +baudini</i>, which has a broad geographic range, including a variety of habitats.</p> + + +<div class="caption3nb"><a name="Breeding_Behavior" id="Breeding_Behavior"></a> +<i>Breeding Behavior</i></div> + +<p><i>Calling sites.</i>—All species of <i>Smilisca</i> usually call from the ground, including +rocks and gravel bars; some individuals sit in shallow water near the edge of +the pool or stream. Sometimes males of <i>S. baudini</i>, <i>sila</i>, and <i>sordida</i> call from +low bushes or trees near the breeding site. One <i>S. baudini</i> was observed calling +while it was floating on the surface of a pond. <i>Smilisca cyanosticta</i>, +<i>phaeota</i>, and <i>puma</i> call from secluded places at the edge of the water or in +the water, whereas <i>S. baudini</i>, <i>sila</i> and <i>sordida</i> call from open situations.</p> + +<p><span class="pagenum"><a name="Page_347" id="Page_347">[Pg 347]</a></span></p> + +<table width="80%" summary="Breeding Associates"> +<tr> + <td colspan="7" class="smcap">Table 7.—Breeding Associates of the Various + Species of Smilisca.</td> +</tr> +<tr> + <td class="brdtp2 brdbt smcap">Associate</td> + <td class="brdtp2 brdbt brdlf"><i>S. baudini</i></td> + <td class="brdtp2 brdbt brdlf"><i>S. cyanosticta</i></td> + <td class="brdtp2 brdbt brdlf"><i>S. phaeota</i></td> + <td class="brdtp2 brdbt brdlf"><i>S. puma</i></td> + <td class="brdtp2 brdbt brdlf"><i>S. sila</i></td> + <td class="brdtp2 brdbt brdlf"><i>S. sordida</i></td> +</tr> +<tr> + <td class="text_lf"><i>Rhinophrynus dorsalis</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Leptodactylus bolivianus</i></td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Leptodactylus labialis</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Leptodactylus melanonotus</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Leptodactylus occidentalis</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Leptodactylus quadrivittatus</i></td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Leptodactylus pentadactylus</i></td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> +</tr> +<tr> + <td class="text_lf"><i>Engystomops pustulosus</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Bufo canaliferus</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Bufo cavifrons</i></td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Bufo coccifer</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Bufo coniferus</i></td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Bufo cristatus</i></td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Bufo gemmifer</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Bufo haematiticus</i></td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> +</tr> +<tr> + <td class="text_lf"><i>Bufo kellogi</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Bufo luetkeni</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Bufo marinus</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> +</tr> +<tr> + <td class="text_lf"><i>Bufo marmoreus</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Bufo mazatlanensis</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Bufo melanochloris</i></td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> +</tr> +<tr> + <td class="text_lf"><i>Bufo perplexus</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Bufo typhonius</i></td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Atelopus varius</i></td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> +</tr> +<tr> + <td class="text_lf"><i>Diaglena reticulata</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="brdbt text_lf"><i>Diaglena spatulata</i></td> + <td class="brdbt brdlf">X</td> + <td class="brdbt brdlf">—</td> + <td class="brdbt brdlf">—</td> + <td class="brdbt brdlf">—</td> + <td class="brdbt brdlf">—</td> + <td class="brdbt brdlf">—</td> +</tr> +</table> +<br /> + +<p><span class="pagenum"><a name="Page_348" id="Page_348">[Pg 348]</a></span></p> + +<table width="80%" summary="Breeding Associates"> +<tr> + <td colspan="7"><span class="smcap">Table 7.</span>—<i>Continued</i></td> +</tr> +<tr> + <td class="brdtp2 brdbt smcap">Associate</td> + <td class="brdtp2 brdbt brdlf"><i>S.<br />baudini</i></td> + <td class="brdtp2 brdbt brdlf"><i>S.<br />cyanosticta</i></td> + <td class="brdtp2 brdbt brdlf"><i>S.<br />phaeota</i></td> + <td class="brdtp2 brdbt brdlf"><i>S.<br />puma</i></td> + <td class="brdtp2 brdbt brdlf"><i>S.<br />sila</i></td> + <td class="brdtp2 brdbt brdlf"><i>S.<br />sordida</i></td> +</tr> +<tr> + <td class="text_lf"><i>Hyla boulengeri</i></td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Hyla colymba</i></td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Hyla ebraccata</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Hyla elaeochroa</i></td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Hyla eximia</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Hyla legleri</i></td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> +</tr> +<tr> + <td class="text_lf"><i>Hyla microcephala</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Hyla phlebodes</i></td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Hyla picta</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Hyla robertmertensi</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Hyla rosenbergi</i></td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Hyla rufioculis</i></td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> +</tr> +<tr> + <td class="text_lf"><i>Hyla smithi</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Hyla staufferi</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Hyla walkeri</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Phrynohyas inflata</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Phrynohyas spilomma</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Phrynohyas venulosa</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Phyllomedusa callidryas</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Phyllomedusa dacnicolor</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Phyllomedusa moreleti</i></td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Pternohyla fodiens</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Smilisca baudini</i></td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Smilisca cyanosticta</i></td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Smilisca phaeota</i></td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="brdbt text_lf"><i>Smilisca puma</i></td> + <td class="brdbt brdlf">—</td> + <td class="brdbt brdlf">—</td> + <td class="brdbt brdlf">—</td> + <td class="brdbt brdlf">X</td> + <td class="brdbt brdlf">—</td> + <td class="brdbt brdlf">—</td> +</tr> +</table> +<br /> + +<p><span class="pagenum"><a name="Page_349" id="Page_349">[Pg 349]</a></span></p> +<table width="80%" summary="Breeding Associates"> +<tr> + <td colspan="7"><span class="smcap">Table 7.</span>—<i>Concluded</i></td> +</tr> +<tr> + <td class="brdtp2 brdbt smcap">Associate</td> + <td class="brdtp2 brdbt brdlf"><i>S.<br />baudini</i></td> + <td class="brdtp2 brdbt brdlf"><i>S.<br />cyanosticta</i></td> + <td class="brdtp2 brdbt brdlf"><i>S.<br />phaeota</i></td> + <td class="brdtp2 brdbt brdlf"><i>S.<br />puma</i></td> + <td class="brdtp2 brdbt brdlf"><i>S.<br />sila</i></td> + <td class="brdtp2 brdbt brdlf"><i>S.<br />sordida</i></td> +</tr> +<tr> + <td class="text_lf"><i>Smilisca sila</i></td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> +</tr> +<tr> + <td class="text_lf"><i>Smilisca sordida</i></td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> +</tr> +<tr> + <td class="text_lf"><i>Triprion petasatus</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Cochranella fleischmanni</i></td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> +</tr> +<tr> + <td class="text_lf"><i>Centrolene prosoblepon</i></td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Gastrophryne elegans</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Gastrophryne olivacea</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Gastrophryne usta</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Hypopachus alboventer</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Hypopachus caprimimus</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Hypopachus inguinalis</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Hypopachus maculatus</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Hypopachus oxyrrhinus</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Hypopachus variolosus</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Rana palmipes</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">X</td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf"><i>Rana pipiens</i></td> + <td class="brdlf">X</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="brdbt text_lf"><i>Rana warschewitschi</i></td> + <td class="brdbt brdlf">—</td> + <td class="brdbt brdlf">—</td> + <td class="brdbt brdlf">X</td> + <td class="brdbt brdlf">—</td> + <td class="brdbt brdlf">X</td> + <td class="brdbt brdlf">X</td> +</tr> +</table> +<br /> + +<p><i>Chorus structure.</i>—Limited observations on some of the species of <i>Smilisca</i> +show a definite organization of the calling behavior of individuals. <i>Smilisca +baudini</i> and <i>S. phaeota</i> call in duets. This is especially noticeable in <i>S. baudini</i>, +in which the members of a duet often call from sites separated by only a few +centimeters. The call of <i>S. baudini</i> consists of a series of like notes (see +description of call in following section); the duration of each note is about +equal to the interval between notes. Normally one individual utters one note, +pauses, and utters a single note again, or series of two or three notes. If +there is no response, the first individual often waits several seconds or even +several minutes and then repeats the call. The second individual usually +responds after the first or second note of the sequence. The notes of the second +individual usually are spaced so that they are emitted in the intervals between +the notes of the first individual. This can be shown diagrammatically by having +<span class="pagenum"><a name="Page_350" id="Page_350">[Pg 350]</a></span> +the figure "1" represent notes of the first individual and figure "2," the notes +of the second; an empty interval is represented by "0":</p> + +<div class="center"> +1-0-1-2-1-2-1-2-1-2-1-2 +</div> + +<p>Usually a chorus is initiated by one duet and is quickly picked up by other +individuals also calling in duets. A numerical representation of a chorus of +eight frogs would approximate the following organization:</p> + +<div class="center"> +1-0-1-2-1-2-1-2-1-2-1-2-1-2<br /> +<span style="margin-left:6em;">3-0-3-4-3-4-3-4-3-4-3-4-3</span><br /> +<span style="margin-left:7em;">5-6-5-6-5-6-5-6-5-6-5-6</span><br /> +<span style="margin-left:7em;">7-8-7-8-7-8-7-8-7-8-7-8</span><br /> +</div> + +<p>After the first one or two duets are initiated, the second individuals in +the following duets usually call immediately after their respective partners +have given the first notes. The other noteworthy aspect about the organization +is that the entire chorus usually stops abruptly. Normally the first duet +stops calling shortly before the others, but this is not invariable. Often one +duet or one individual will emit several notes after the rest of the frogs have +become silent. An interval of several minutes sometimes elapses before the +chorus begins again. Successive choruses apparently are initiated by the same +duet. Responses can be initiated artificially by imitating the call, and sometimes +any loud noise will start a chorus.</p> + +<p>Similar duets have been observed in <i>S. phaeota</i>. In this species the intervals +are often much longer than the notes, and if two males are calling in +close proximity, their calls can be mistaken for those of one individual. +<i>Smilisca phaeota</i> does not congregate in large numbers; usually only two males +call from one restricted site.</p> + +<p><i>Smilisca sila</i> has a call consisting of a primary note followed by one or more +secondary notes. Males often call in duets, but not necessarily so. In a duet, +the first male usually utters only primary notes until the second individual responds; +then each individual produces a rapid series of secondary notes.</p> + +<p><i>Smilisca puma</i> also produces primary and secondary notes. Although individuals +sometimes call alone, duets, trios, or quartets were more common. +The chorus is initiated by one individual uttering primary notes until joined by +the second, third, and fourth frogs. In one quartet in a marsh 7.5 kilometers +west of Puerto Viejo, Costa Rica, on February 19, 1965, the same individual +initiated four consecutive choruses. Each time the second member of the +chorus was the same; the third and fourth frogs joined the chorus nearly +simultaneously.</p> + +<p>Individuals of <i>S. sordida</i> are usually irregularly situated along a stream. +No duets or other combinations of individuals are apparent in the chorus +structure, but once an individual calls, a frog nearby calls almost immediately; +then a frog near the second individual calls, and so on. The resulting series +of calls gives the impression that the sound is moving along the stream as successive +individuals join the chorus and the first callers become quiet. It is +not known if the same individual initiates successive choruses or if the order +of calling is the same in subsequent choruses.</p> + +<p>These limited observations on chorus structure in <i>Smilisca</i> show the presence +of behavioral organization. The methods of establishing the organization and +the significance of the call-order in breeding have yet to be discovered.</p> + +<p>Calling males of <i>S. baudini</i> are often close together; some individuals have +been observed almost touching one another, but no indication of territoriality +<span class="pagenum"><a name="Page_351" id="Page_351">[Pg 351]</a></span> +or aggressive behavior has been witnessed. The more distant spacing of the +stream-breeding species <i>S. sila</i> and <i>S. sordida</i> may be a function of calling-territories, +but no direct evidence is available to substantiate this supposition.</p> + +<p><i>Sex recognition and amplexus.</i>—Observations on <i>Smilisca baudini</i> indicate +that the calls of males attract females. At Tehuantepec, Oaxaca, México, a +female was first observed about two meters away from a male calling at the +edge of a rain pool; in a series of short hops she progressed directly towards +the male, although vegetation obscured him until she was less than a meter +away. When she approached to within about 20 centimeters of the male, +he took notice of her, moved to her, and clasped her. At Chinajá, Alta +Verapaz, Guatemala, a female swam directly across a pool about three meters +wide to a calling male. Her line of movement took her within a few centimeters +of a silent male, to whom she paid no attention. She stopped just in +front of the calling male, which immediately clasped her. At a large muddy +pond 4 kilometers west-northwest of Esparta, Puntarenas, Costa Rica, a female +was observed swimming toward a small submerged tree; a male was +calling from a branch about one meter above the water. The female climbed +to a branch about 20 centimeters below the male, which upon seeing her +there immediately jumped down and clasped her. These few observations of +<i>S. baudini</i> show that in this species females are capable of locating calling +males by means of phono-orientation; visual reception on the part of females +seems to be secondary. Contrariwise, males apparently become aware of the +proximity of females by seeing them; once a male sees a female he usually +tries to clasp her. Possibly the males receive stimuli by means of chemo-reception, +but in each observed instance the male obviously looked at the +female.</p> + +<p>Amplexus is axillary in all members of the genus. Normally amplexing +males hunch their backs and press their chins to the females' backs. Clasping +pairs are usually found at the edge of the water, but sometimes amplexus +takes place in trees or bushes.</p> + +<p><i>Egg deposition.</i>—Oviposition has been observed only in <i>Smilisca baudini</i>. +On the night of June 28, 1961, at Chinajá, Alta Verapaz, Guatemala, a clasping +pair was observed at the edge of a shallow rain pool. After sitting for +several minutes in shallow water, the female (with male on her back) swam +part way across the pool and grasped an emergent stick with one hand. The +female's body was nearly level with the surface of the water, and her hind +legs were outstretched as deposition commenced; eggs were extruded rapidly. +After a few seconds the female moved slowly to another twig a few centimeters +away and deposited more eggs. This process was repeated until the +female was spent. The spawn resulted in a surface film covering roughly one +square meter. It is doubtful if this type of egg deposition occurs in any other +species in the genus, especially those that lay their eggs in streams.</p> + + +<div class="caption3nb"><a name="Breeding_Call" id="Breeding_Call"></a> +<i>Breeding Call</i></div> + +<p>The breeding calls of the six species of <i>Smilisca</i> are alike in their explosive +nature. Calls are emitted quickly with a short burst of air filling the vocal +sac, which immediately deflates. Phonetically the calls can be described as a +single "wonk" or series of such notes in <i>S. baudini</i> and <i>S. cyanosticta</i>, a low +growl in <i>S. phaeota</i>, a relatively high pitched rattle in <i>S. sordida</i>, and a low +<span class="pagenum"><a name="Page_352" id="Page_352">[Pg 352]</a></span> +squawk usually followed by one or more rattling secondary notes in <i>S. puma</i> +and <i>S. sila</i>. Quantitatively, the calls of the six species differ in number of +notes, duration of notes, and in pitch (Table 8, Pls. 10 and 11). Although +no measurements were taken on the intensity of the calls, we observed in the +field that each of the species has a loud voice. The call of <i>S. baudini</i> seems +to carry farther than any of the others.</p> + + +<table width="86%" summary="Cranial Osteology"> +<tr> + <td colspan="8" class="smcap">Table 8.—Comparison of Breeding Calls in Smilisca. + (Observed Range Given in Parentheses Below Mean. In Species Having Primary and + Secondary Notes, Only the Primary Notes Are Analyzed Here.)</td> +</tr> +<tr> + <td class="brdtp2 brdbt smcap" rowspan="2">Species</td> + <td class="brdtp2 brdbt brdlf" rowspan="2">N</td> + <td class="brdtp2 brdbt brdlf" rowspan="2">Notes per<br />call group</td> + <td class="brdtp2 brdbt brdlf" rowspan="2">Duration of<br />note (seconds)</td> + <td class="brdtp2 brdbt brdlf" rowspan="2">Pulses per<br />second</td> + <td class="brdtp2 brdbt brdlf" rowspan="2">Fundamental<br />frequency (cps)</td> + <td class="brdtp2 brdbt brdlf" colspan="2">Major frequencies (cps)</td> +</tr> +<tr> + <td class="brdbt brdlf">Lower</td> + <td class="brdbt brdlf">Upper</td> +</tr> +<tr> + <td class="text_lf"><i>S. baudini</i></td> + <td class="brdlf">20</td> + <td class="brdlf">8.0</td> + <td class="brdlf">0.11</td> + <td class="brdlf">174.7</td> + <td class="brdlf">166.2</td> + <td class="brdlf">351</td> + <td class="brdlf">2507</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf">(2-15)</td> + <td class="brdlf">(0.09-0.13)</td> + <td class="brdlf">(140-195)</td> + <td class="brdlf">(135-190)</td> + <td class="brdlf">(175-495)</td> + <td class="brdlf">(2400-2725)</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf"><i>S. cyanosticta</i></td> + <td class="brdlf">10</td> + <td class="brdlf">1.2</td> + <td class="brdlf">0.38</td> + <td class="brdlf">147.0</td> + <td class="brdlf">145.1</td> + <td class="brdlf">841</td> + <td class="brdlf">1894</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf">(1-2)</td> + <td class="brdlf">(0.25-0.45)</td> + <td class="brdlf">(110-180)</td> + <td class="brdlf">(135-160)</td> + <td class="brdlf">(480-975)</td> + <td class="brdlf">(1600-2100)</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf"><i>S. phaeota</i></td> + <td class="brdlf">10</td> + <td class="brdlf">1.6</td> + <td class="brdlf">0.31</td> + <td class="brdlf">116.0</td> + <td class="brdlf">143.0</td> + <td class="brdlf">372</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf">(1-2)</td> + <td class="brdlf">(0.10-0.45)</td> + <td class="brdlf">(100-130)</td> + <td class="brdlf">(110-165)</td> + <td class="brdlf">(330-495)</td> + <td class="brdlf"> </td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf"><i>S. puma</i></td> + <td class="brdlf">28</td> + <td class="brdlf">3.7</td> + <td class="brdlf">0.13</td> + <td class="brdlf">208.2</td> + <td class="brdlf">145.6</td> + <td class="brdlf">743</td> + <td class="brdlf">1868</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf">(2-10)</td> + <td class="brdlf">(0.06-0.35)</td> + <td class="brdlf">(187-240)</td> + <td class="brdlf">(125-200)</td> + <td class="brdlf">(495-980)</td> + <td class="brdlf">(1456-2240)</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf"><i>S. sila</i></td> + <td class="brdlf">15</td> + <td class="brdlf">2.4</td> + <td class="brdlf">0.16</td> + <td class="brdlf">108.5</td> + <td class="brdlf">103.0</td> + <td class="brdlf">899</td> + <td class="brdlf">2218</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf">(1-6)</td> + <td class="brdlf">(0.06-0.28)</td> + <td class="brdlf">(97-120)</td> + <td class="brdlf">(90-115)</td> + <td class="brdlf">(665-1180)</td> + <td class="brdlf">(1980-2700)</td> +</tr> +<tr> + <td> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> + <td class="brdlf"> </td> +</tr> +<tr> + <td class="text_lf"><i>S. sordida</i></td> + <td class="brdlf">19</td> + <td class="brdlf">1.7</td> + <td class="brdlf">0.29</td> + <td class="brdlf">104.7</td> + <td class="brdlf">123.1</td> + <td class="brdlf">1216</td> + <td class="brdlf">2694</td> +</tr> +<tr> + <td class="brdbt"> </td> + <td class="brdbt brdlf"> </td> + <td class="brdbt brdlf">(1-6)</td> + <td class="brdbt brdlf">(0.18-0.45)</td> + <td class="brdbt brdlf">(78-135)</td> + <td class="brdbt brdlf">(90-140)</td> + <td class="brdbt brdlf">(1150-1540)</td> + <td class="brdbt brdlf">(2340-2990)</td> +</tr> +</table> + +<p><span class="pagenum"><a name="Page_353" id="Page_353">[Pg 353]</a></span> +<i>Call rate.</i>—The rate at which call-groups are produced varies from one +every few seconds to one in several minutes. In <i>S. baudini</i>, <i>cyanosticta</i>, <i>phaeota</i>, +and <i>sordida</i>, call-groups are produced as frequently as every 12 seconds, +but usually more time elapses between call groups. In <i>S. sordida</i>, five or more +minutes sometimes elapse between call-groups. The interval is somewhat less +in <i>S. phaeota</i>. Calls are repeated at much shorter intervals in <i>S. puma</i> (5-55 +seconds) and <i>S. sila</i> (4-20 seconds).</p> + +<p><i>Notes per call-group.</i>—Except for <i>S. puma</i> and <i>S. sila</i>, the series of notes +produced in any given call of a species of <i>Smilisca</i> is essentially the same; +there is no differentiation into primary and secondary notes. <i>Smilisca cyanosticta</i> +and <i>S. phaeota</i> emit only one or two relatively long notes per call-group, +whereas <i>S. baudini</i> and <i>S. sordida</i> produce as many as 15 and 6 notes, +respectively. Males of <i>S. puma</i> and <i>S. sila</i> often produce only the primary +note; sometimes this is done several times before the secondary notes are produced. +For example, one <i>S. puma</i> (KU 91711; tape No. 379) produced the +following number of notes in consecutive call-groups: 1, 1, 1, 1, 2, 2, 3, 1, 4; +secondary notes are present in only four of the nine call-groups. A typical +series of consecutive call-groups in <i>S. sila</i> (KU 91852; Tape No. 385) has +1, 1, 1, 2, 4, 2 notes per call-group; secondary notes are present in only half +of the call-groups. <i>Smilisca puma</i> apparently always produces at least two +primary notes before emitting secondary notes; sometimes only primary notes +are produced in one series of calls. The number of secondary notes following +a given primary varies from one to nine; the modal number is one, and the +mean is three in 27 call-groups. <i>Smilisca sila</i> frequently begins a series of calls +with two or more primary notes, but sometimes the first primary note is followed +immediately by two or more secondary notes. The number of secondary +notes following a given primary varies from one to five; the modal number is +one, and the average is two in 13 call-groups.</p> + +<p><i>Duration.</i>—The average duration of call-groups consisting of two or more +notes is 1.18 seconds in <i>S. baudini</i>; 1.02 in <i>cyanosticta</i>, 0.91 in <i>phaeota</i>, 1.32 +in <i>puma</i>, 1.48 in <i>sila</i>, and 1.29 in <i>sordida</i>. Although there is considerable +variation in the lengths of the notes (only primary notes in <i>S. puma</i> and <i>sila</i> +are considered here), <i>S. cyanosticta</i>, <i>phaeota</i>, and <i>sordida</i> have noticeably +longer notes than do the other species (Table 8). The secondary notes are +longer than the primary notes in <i>S. puma</i> (average 0.27 secs. as compared with +0.13 secs.) and in <i>S. sila</i> (average 0.25 secs., as compared with 0.16 secs.).</p> + +<p><i>Note repetition rate.</i>—The rate at which notes in call-groups containing two +or more notes are produced varies in <i>S. baudini</i> from 2.5 to 7.1 (average, 3.7) +calls per second; <i>cyanosticta</i>, 1.8-2.1 (1.9); <i>phaeota</i>, 2.0-2.4 (2.2); <i>puma</i>, +1.9-2.9 (2.2); <i>sila</i>, 1.3-2.4 (1.8); and <i>sordida</i>, 1.5-2.6 (2.1). <i>Smilisca baudini</i>, +which has notes of short duration (0.09 to 0.13 seconds), has the fastest note-repetition +rate. Although the individual notes of <i>S. cyanosticta</i> and <i>S. phaeota</i> +are relatively long (average, 0.38 and 0.31 seconds, respectively), the intervals +<span class="pagenum"><a name="Page_354" id="Page_354">[Pg 354]</a></span> +between the notes is short; consequently, their note-repetition rates do not +differ greatly from those of <i>S. puma</i> and <i>S. sila</i>, which have shorter notes (average, +0.13 and 0.16 seconds, respectively) but longer intervals between notes.</p> + +<p><i>Pulse rate.</i>—Pulses vary in frequency from 78 to 240 per second in the calls +analyzed (only primary notes in <i>S. puma</i> and <i>S. sila</i>), but the variation in any +given species is much less than that in the entire genus (Table 8). <i>Smilisca +puma</i> is outstanding in having a high pulse rate, which is approached only by +that of <i>S. baudini</i>. Even in the species having the lowest pulse rates, the +pulsations are not audible. The secondary notes produced by <i>S. puma</i> and +<i>S. sila</i> have a slower pulse rate than the primary notes; often the pulses are +audible. In <i>S. puma</i> the pulse rate of secondary notes is sometimes as low as +48 pulses per second, and in <i>S. sila</i> still lower (as low as 40 pulses per second). +The upper limits of pulse rate in the secondary notes in these species merge +imperceptibly with the rates of the primary note; consequently, on the basis +of pulse rate alone it is not always possible to distinguish primary from secondary +notes.</p> + +<p><i>Frequency.</i>—<i>Smilisca</i> produces noisy (as opposed to more musical) calls, +and the energy is distributed throughout the frequency spectrum; the calls are +poorly modulated, except in <i>S. sordida</i>, in which two usually discrete bands of +frequency are present (Pl. 11C). For the most part the calls of <i>Smilisca</i> consist +of little modified energy of the fundamental frequency and of its harmonics, +some of which are emphasized.</p> + +<p>The upper frequency range varies within each species and even within the +calls of one individual. <i>Smilisca phaeota</i> has the lowest upper frequencies; +no calls ranged above 4400 cycles per second (cps.), and half of the calls +never exceeded 3000 cps. <i>Smilisca cyanosticta</i> produces calls in which the +upper frequency is below 7000 cps. and usually below 6000 cps. Likewise, +<i>S. puma</i> produces calls that are below 7000 cps., whereas <i>S. sila</i> has frequencies +of up to 8400 cps. In both <i>S. baudini</i> and <i>S. sordida</i>, the highest frequencies +attained are about 9100 cps. Variation in the highest frequencies in +a series of consecutive calls by one individual frog was noted in all species. +Such variation is especially prevalent in <i>S. puma</i>; for example one individual +(KU 87771; Tape No. 376) recorded at a temperature of 24° C. at 7.5 kilometers +west of Puerto Viejo, Heredia Province, Costa Rica, on July 31, 1964, +produced three consecutive primary notes having upper frequencies of about +6000, 4000, and 4000 cps., respectively. Apparently in a given species the +production of the higher frequencies in some notes and not in others is correlated +with the amount of distention of the vocal sac and is not dependent +upon the structure or tension of the vocal cords.</p> + +<p>Although the dominant frequency in <i>S. sordida</i> is lower than that in <i>S. +baudini</i> and <i>S. cyanosticta</i>, the call of the former is audibly higher-pitched. +This is due primarily to the emphasis on certain harmonics at a high frequency +(sometimes as high as 9000 cps.) in <i>S. sordida</i>, whereas in <i>S. baudini</i> and +other species, if harmonics are present at those frequencies, they are not emphasized.</p> + +<p>The fundamental frequencies are as low as 90 cps. in <i>S. sila</i> and <i>S. sordida</i> +and as high as 200 cps. in <i>S. puma</i> (Table 8). The fundamental frequency +seemingly is relatively unimportant in determining the general pitch of the call, +a characteristic most dependent on the dominant frequency and emphasized +harmonics in the higher-frequency spectrum. In none of the species is the +<span class="pagenum"><a name="Page_355" id="Page_355">[Pg 355]</a></span> +fundamental the dominant frequency. In the low-pitched call of <i>S. phaeota</i> +the dominant frequency is the third harmonic (the second harmonic above the +fundamental frequency, which is the first harmonic). In all other species a +much higher harmonic is dominant; for examples, in <i>S. cyanosticta</i> harmonics +from 10 to 15 are dominant; in <i>S. baudini</i>, 15-19; and <i>S. sila</i>, 20-30.</p> + +<p>A glance at the audiospectrographs and their accompanying sections (Pls. +10 and 11) reveals the presence of two emphasized bands of frequency in all +species except <i>S. phaeota</i>, in which only the lower band is present. These two +bands of emphasized harmonics are part of a continuous, or nearly continuous, +spread of energy throughout the frequency spectrum, except in <i>S. sordida</i> in +which the bands are usually distinct. As shown in the sections, certain harmonics +in each of the bands are emphasized with nearly equal intensity. +Therefore, with the exception of <i>S. phaeota</i>, the calls of <i>Smilisca</i> are characterized +by two major frequencies, one of which is the dominant frequency and +the other is a subdominant frequency (Table 8). The upper major frequency +is dominant in all calls in <i>S. baudini</i> and <i>S. cyanosticta</i>, but either major frequency +may be dominant in other species. The upper major frequency is +dominant in 65 per cent of calls by <i>S. puma</i>, 87 per cent in <i>S. sila</i>, and 68 per +cent in <i>S. sordida</i>. Individuals of these three species sometimes produce a +series of calls in which the dominant frequency changes from one of the major +frequencies to the other. Four consecutive notes emitted by an individual of +<i>S. sordida</i> recorded 13 kilometers east-northeast of Golfito, Puntarenas Province, +Costa Rica, had dominant frequencies of 910, 1950, and 750 cps., respectively. +In each case, an alternation of major frequencies took place in +respect to dominance. An individual of <i>S. puma</i> from 7.5 kilometers west of +Puerto Viejo, Costa Rica, produced a primary note followed by one secondary +note; each note had major frequencies at 600 and 1800 cps.; the dominant +frequency of the primary note was at 1800 cps., whereas in the secondary note +the dominant frequency was at 600 cps. The difference in emphasis on the +major frequencies is so slight that shift in dominance is not audible.</p> + +<p><i>Effect of temperature on calls.</i>—The present data are insufficient to test +statistically the correlation between temperature and variation within certain +components of the calls in <i>Smilisca</i>, but even a crude graph shows some general +correlations. The widest range of temperatures is associated with the +recordings of <i>S. baudini</i>. Three individuals recorded at a temperature of 30° +C. at Tehuantepec, Oaxaca, had pulse rates of 180 pulses per second and fundamental +frequencies of 160-180 cps., as compared with an individual recorded +at a temperature of 17° C., which had a pulse rate of 140 and a fundamental +frequency of 135 cps. All individuals of <i>S. baudini</i> recorded at higher temperatures +had faster pulse rates and higher fundamental frequencies. Pulse +rates differ in the other species in the genus but less strikingly (probably owing +to narrower ranges of temperatures at which recordings were made). In five +recordings of <i>S. sordida</i> made at 20° C. the pulse rate is 80-90, as compared +with four recordings made at 25° C. having pulse rates of 120-135. Thirteen +recordings of <i>S. sila</i> made at 17° C. have pulse rates of 97-112 (average 105); +one individual recorded at 26° C. has 120 pulses per second. Seemingly no +correlation exists between temperature and other characteristics of the calls, +such as duration and rate of note-repetition.</p> + +<p><i>The breeding call as an isolating mechanism.</i>—Blair (1958), Bogert (1960), +Duellman (1963a), <ins title='Correction: was "Fouquett"'>Fouquette</ins> +(1960), Johnson (1959), and others have provided +<span class="pagenum"><a name="Page_356" id="Page_356">[Pg 356]</a></span> +evidence that the breeding calls of male hylids (and other anurans) +serve as isolating mechanisms in sympatric species. In summarizing this discussion +of the breeding calls of <i>Smilisca</i> we want to point out what seem to +be important differences in the calls that may prevent interspecific hybridization +in sympatric species of <i>Smilisca</i>.</p> + +<p>The genus is readily divided into two species-groups on morphological +characters; this division is supported by the breeding calls. In the species of +the <i>baudini</i> group the calls are unmodulated and lack secondary notes. In the +<i>sordida</i> group the calls either have secondary notes or are modulated.</p> + +<p><i>Smilisca baudini</i> occurs sympatrically with <i>S. cyanosticta</i> and <i>S. phaeota</i>; +where they occur together, both species sometimes breed in like places at the +same time. We are not aware of these species breeding synchronously at exactly +the same site, although <i>S. baudini</i> and <i>S. cyanosticta</i> were calling on the +same nights and less than 100 meters apart in Oaxaca in June, 1964. Regardless +of their respective breeding habits, sympatric species have calls that differ +notably. Except for the higher fundamental and dominant frequencies, the +calls of <i>S. cyanosticta</i> and <i>S. phaeota</i> closely resemble one another, but the +calls of both species differ markedly from that of <i>S. baudini</i>. The geographic +ranges of <i>S. cyanosticta</i> and <i>S. phaeota</i> are widely separated.</p> + +<p>The calls of the allopatric species <i>S. puma</i> and <i>S. sila</i> are not greatly different. +<i>Smilisca sordida</i> has a distinctive call and occurs sympatrically with <i>S. +puma</i> and <i>S. sila</i>. In the streams in southern Costa Rica <i>S. sordida</i> and <i>S. sila</i> +breed synchronously, but the high-pitched modulated call of the former is +notably different from the lower, unmodulated call of <i>S. sila</i>.</p> + +<p>The data indicate that the calls of related sympatric species differ more +than the calls of related allopatric species. We postulate that these differences +evolved to support the reproductive isolation of the sympatric species. The +data are insufficient to determine geographic variation in the calls and to determine +if differences in the calls are enhanced in areas of sympatry as compared +with the allopatric parts of the ranges.</p> + +<p><i>Other calls.</i>—As stated previously, there is no direct evidence of territoriality +in <i>Smilisca</i>; we have heard no calls that can be definitely identified as territorial. +Single notes of <i>S. baudini</i>, <i>phaeota</i>, and <i>sila</i> have been heard by day, +just prior to rains, or during, or immediately after rains. Such calls can be +interpreted as "rain calls," which are well known in <i>Hyla eximia</i> and <i>Hyla +squirella</i>. Distress calls are known in several species of <i>Rana</i> and in <i>Leptodactylus +pentadactylus</i>; such calls result from the rapid expulsion of air over +the vocal cords and with the mouth open. Distress calls have been heard +from <i>S. baudini</i>. At Charapendo, Michoacán, México, a male that had one hind +limb engulfed by a <i>Leptodeira maculata</i> emitted several long, high-pitched +cries. A clasping pair of <i>S. baudini</i> was found in a bush at the edge of a +marshy stream 2 kilometers northeast of Las Cañas, Guanacaste Province, +Costa Rica. When the pair was grasped, the female emitted a distress call.</p> + + +<div class="caption3"><a name="Eggs" id="Eggs"></a> +Eggs</div> + +<p>Eggs of <i>S. baudini</i>, <i>cyanosticta</i>, and <i>phaeota</i> have been found in the field, +and eggs of <i>S. sila</i> have been observed in the laboratory. The eggs of <i>S. puma</i> +and <i>sordida</i> are unknown. Insofar as known, <i>Smilisca baudini</i> is unique in +the genus in depositing the eggs in a surface film. Each egg is encased in a +<span class="pagenum"><a name="Page_357" id="Page_357">[Pg 357]</a></span> +vitelline membrane, but individual outer envelopes are lacking. The eggs are +small; the diameter of recently-deposited eggs is about 1.3 mm. and that of +the vitelline membrane is about 1.5 mm. The eggs of <i>S. cyanosticta</i> and <i>phaeota</i> +are deposited in clumps, and the eggs are larger than those of <i>S. baudini</i>. +Diameters of eggs of <i>S. cyanosticta</i> are about 2.3 mm., and those of the outer +envelopes are about 4.0 mm. Artificially fertilized eggs of <i>S. sila</i> raised in +the laboratory have diameters of about 2.4 mm.; the diameter of the outer +envelopes is about 4.9 mm.</p> + +<p>In order to determine the reproductive potential of the six species, ovulated +eggs were removed from females and counted. The numbers of eggs recorded +are: 3 <i>S. baudini</i>—2620, 2940, 3320; 1 <i>S. cyanosticta</i>—910; 3 <i>S. phaeota</i>—1665, +1870, 2010; 1 <i>S. puma</i>—518; 3 <i>S. sila</i>—369, 390, 473; 3 <i>S. sordida</i>—524, +702, 856. These limited data indicate that the large species (<i>S. baudini</i>, +<i>cyanosticta</i>, and <i>phaeota</i>) have more eggs than do the smaller species. The +stream-breeding species (<i>S. sila</i> and <i>sordida</i>) have relatively few eggs by comparison +with the pond-breeders. Possibly this is a function of size of eggs +rather than a correlation with the site of egg-deposition.</p> + + +<div class="caption3"><a name="Tadpoles" id="Tadpoles"></a> +Tadpoles</div> + +<p>The acquisition of tadpoles of all of the species of <i>Smilisca</i> has made possible +the use of larval characters in erecting a classification and in estimating +the phylogenetic relations of the several species. Furthermore, developmental +series of tadpoles of four species allow a comparison of the growth and development +in these species. Throughout the discussion of tadpoles we have +referred to the various developmental stages by the Stage Numbers proposed +by Gosner (1960).</p> + + +<div class="caption3nb"><a name="General_Structure" id="General_Structure"></a> +<i>General Structure</i></div> + +<p>Tadpoles of the genus <i>Smilisca</i> are of a generalized hylid type, having 2/3 +tooth-rows, unspecialized beaks, mouth partly or completely bordered by papillae, +lateral fold present in the lips, spiracle sinistral, anal tube dextral, and +caudal musculature extending nearly to tip of caudal fin. Although minor +differences exist in coloration, proportions, and mouthparts, no great modifications +of the basic structure are present.</p> + + +<div class="caption3nb"><a name="Comparison_of_Species" id="Comparison_of_Species"></a> +<i>Comparison of Species</i></div> + +<p>The larval characters of the species of <i>Smilisca</i> are compared below and +illustrated in Figures 11-15.</p> + +<p><i>Shape and Proportions.</i>—The bodies of <i>S. baudini</i>, <i>cyanosticta</i>, <i>phaeota</i>, and +<i>puma</i> are rounded and about as wide as deep; the eyes are moderately large +and directed dorsolaterally, and the nostrils are about midway between the +bluntly rounded snout and the eyes. The mouths are medium-sized and directed +anteroventrally. The bodies of tadpoles of <i>S. sila</i> and <i>sordida</i> are +slightly compressed dorso-ventrally. The snout is moderately long and sloping; +the eyes are larger and directed more dorsally than in the other species, and +the nostrils are closer to the eyes than the snout. The mouths are moderately +large and directed ventrally.</p> + +<p>The tail is about half again as long as the body in <i>S. baudini</i>, <i>cyanosticta</i>, +<span class="pagenum"><a name="Page_358" id="Page_358">[Pg 358]</a></span> +<i>phaeota</i>, and <i>puma</i>; in these species the caudal musculature is moderately +heavy, and the caudal fins are deep. The caudal musculature is upturned +distally in <i>S. baudini</i> and <i>phaeota</i>, and the dorsal fin extends anteriorly onto +the body in these two species and in <i>S. puma</i>. The tail is about twice as long +as the body in <i>S. sila</i> and <i>sordida</i>. In both species the caudal fins are shallow +in comparison with the depth of the caudal musculature, especially in <i>S. sordida</i> +(Fig. 14); in neither species does the dorsal fin extend anteriorly onto the +body.</p> + +<div class="fig_center" style="width: 551px;"> +<a name="Fig_11" id="Fig_11"></a> +<img src="images/fig_11.png" width="551" height="593" alt="" title="" /> +<div class="fig_caption"><span class="smcap">Fig. 11.</span> Tadpoles of <i>Smilisca baudini</i>: (A) Stage 21 (KU 62155) × 10; (B) +Stage 25 (KU 68467) × 5; (C) Stage 30 (KU 60018) × 4; (D) Stage 41 +(KU 60018) × 3.</div> +</div> + +<p><i>Mouthparts.</i>—The mouth of <i>S. sordida</i> is completely bordered by two rows +of papillae, whereas in the other species the median part of the upper lip is +devoid of papillae. <i>Smilisca baudini</i> and <i>puma</i> have two rows of papillae; <i>S. +sila</i> has one complete row (except medially on the upper lip) and one incomplete +row, and <i>S. cyanosticta</i> and <i>phaeota</i> have only one row (Fig. 15). All +species have numerous papillae in the lateral fold; the fewest lateral papillae +<span class="pagenum"><a name="Page_359" id="Page_359">[Pg 359]</a></span> +are found in <i>S. cyanosticta</i> and <i>phaeota</i>. Although all species have two rows +of teeth in the upper jaw and three rows in the lower jaw, specific differences +in the nature of the rows exist between certain species. The second upper +tooth-row is narrowly interrupted medially in <i>S. sila</i> and <i>sordida</i> and broadly +interrupted in the other species. The first upper row is strongly arched in <i>S. +puma</i>, moderately arched in <i>S. baudini</i> and <i>sila</i>, and weakly arched in the +other species. In all species the third lower tooth-row is the shortest, only +slightly so in <i>S. sila</i> and <i>sordida</i>, but only about half the length of the second +lower row in <i>S. puma</i>.</p> + +<div class="fig_center" style="width: 498px;"> +<a name="Fig_12" id="Fig_12"></a> +<img src="images/fig_12.png" width="498" height="571" alt="" title="" /> +<div class="fig_caption"><span class="smcap">Fig. 12.</span> Tadpoles of <i>Smilisca cyanosticta</i>: (A) Stage 21 (KU 87648) (B) +Stage 25 (KU 87651) × 5; (C) Stage 30 (KU 87652) × 4; (D) Stage 40 +(KU 87650) × 3.</div> +</div> + +<p>The beaks are well developed and finely serrate in all species. The lower, +broadly V-shaped, beak is slender in <i>S. puma</i>, rather robust in <i>S. baudini</i> and +<span class="pagenum"><a name="Page_360" id="Page_360">[Pg 360]</a></span> +<i>sila</i>, and moderately heavy in the other species. The lateral processes of the +upper beak are shortest in <i>S. puma</i> and longest in <i>S. baudini</i> and <i>sordida</i>. In +the latter the inner margin of the upper beak and lateral process have the form +of a shallow S, whereas in the other species the inner margin of the upper +beak forms a continuous arch with the lateral processes (Fig. 15).</p> + +<div class="fig_center" style="width: 536px;"> +<a name="Fig_13" id="Fig_13"></a> +<img src="images/fig_13.png" width="536" height="550" alt="" title="" /> +<div class="fig_caption"><span class="smcap">Fig. 13.</span> Tadpoles of <i>Smilisca phaeota</i>: (A) Stage 21 (KU 68479) × 14; +(B) Stage 25 (KU 68480) × 5; (C) Stage 30 (KU 68482) × 4; (D) Stage +40 (KU 68483) × 3.</div> +</div> + +<p><i>Coloration.</i>—The tadpoles of <i>Smilisca</i> lack the bright colors or bold markings +characteristic of some hylid tadpoles; even so, the subdued colors and +arrangement of pigments provide some distinctive markings by which the +species can be distinguished from one another. The species comprising the +<i>baudini</i> group (<i>S. baudini</i>, <i>cyanosticta</i>, and <i>phaeota</i>) are alike in having the +body brown or grayish brown dorsally and transparent with scattered brown +pigment ventrally. A cream-colored, crescent-shaped mark is present on the +posterior edge of the body; this mark is usually most noticeable in <i>S. baudini</i> +and least so in <i>S. cyanosticta</i>. Other differences in coloration in members of +the <i>baudini</i> group are relative and subtle. <i>Smilisca phaeota</i> usually is more +<span class="pagenum"><a name="Page_361" id="Page_361">[Pg 361]</a></span> +pallid than <i>baudini</i>, and <i>cyanosticta</i> usually is darker than <i>baudini</i>; both species +have larger dark markings on the tail than does <i>S. phaeota</i>. <i>Smilisca +baudini</i> has a dark streak on the middle of the anterior one-fourth of the tail +(Figs. 11-13).</p> + +<p><i>Smilisca puma</i> is distinctive in having a grayish brown body and dark gray +reticulations on the tail. <i>Smilisca sila</i> and <i>sordida</i> are distinctive in having +pairs (sometimes interconnected) of dark marks on the dorsal surfaces of the +caudal musculature, and in dorsal view the tail appears to be marked with +dark and pale creamy tan transverse bars. These dark marks, as well as the +small flecks on the tail, are brown in <i>S. sila</i> and red in <i>sordida</i>. <i>Smilisca sila</i> +has dark brown flecks on the dorsal surface of the body and small white flecks +laterally; these markings are absent in <i>S. sordida</i> (Fig. 14).</p> + +<p>Descriptions of the coloration of living tadpoles are given in the accounts +of the species.</p> + +<div class="fig_center" style="width: 537px;"> +<a name="Fig_14" id="Fig_14"></a> +<img src="images/fig_14.png" width="537" height="395" alt="" title="" /> +<div class="fig_caption"><span class="smcap">Fig. 14.</span> Tadpoles of <i>Smilisca</i>; (A) <i>S. puma</i>, Stage 30 (KU 91807); (B) +<i>S. sila</i>, Stage 25 (KU 80260); <i>S. sordida</i>, Stage 30 (KU 68475). All × 3.5.</div> +</div> +<br /> + +<div class="caption3nb"><a name="Growth_and_Development" id="Growth_and_Development"></a> +<i>Growth and Development</i></div> + +<p>Information on the growth and development of Middle American hylids is +scanty. Adequate descriptions have been published for <i>Phyllomedusa annae</i> +(Duellman, 1963b), <i>Phrynohyas venulosa</i> (Zweifel, 1964), and <i>Triprion petasatus</i> +(Duellman and Klaas, 1964). Material is available for adequate descriptions +of the developmental stages of four species of <i>Smilisca</i> (Tables 9-12, +Figs. 11-13). Because none of the tadpoles was raised from hatching to metamorphosis, +the rate of growth and duration of the larval stages are unknown.</p> + +<p><span class="pagenum"><a name="Page_362" id="Page_362">[Pg 362]</a></span></p> + +<div class="fig_center" style="width: 512px;"> +<a name="Fig_15" id="Fig_15"></a> +<img src="images/fig_15.png" width="512" height="392" alt="" title="" /> +<div class="fig_caption"><span class="smcap">Fig. 15.</span> Mouthparts of tadpoles of <i>Smilisca</i>; (A) <i>S. baudini</i> (KU 60018); +(B) <i>S. puma</i> (KU 91807); (C) <i>S. cyanosticta</i> (KU 87625); (D) <i>S. sila</i> +(KU 80620); (E) <i>S. phaeota</i> (KU 68482); (F) <i>S. sordida</i> (KU 68475). +All ×17.</div> +</div> +<br /> + +<table width="66%" summary="Growth and Development of Tadpoles"> +<tr> + <td colspan="5" class="smcap">Table 9.—Growth and Development of Tadpoles + of Smilisca baudini. (Means Are Given in Parentheses After the Observed Ranges.)</td> +</tr> +<tr> + <td class="brdtp2 brdbt smcap">Stage</td> + <td class="brdtp2 brdbt brdlf">N</td> + <td class="brdtp2 brdbt brdlf">Total length</td> + <td class="brdtp2 brdbt brdlf">Body length</td> + <td class="brdtp2 brdbt brdlf">Tail length</td> +</tr> +<tr> + <td class="text_lf">21</td> + <td class="brdlf">10</td> + <td class="brdlf">5.1-5.4 (5.22)</td> + <td class="brdlf">2.6-2.7 (2.54)</td> + <td class="brdlf">2.5-2.7 (2.58)</td> +</tr> +<tr> + <td class="text_lf">24</td> + <td class="brdlf">10</td> + <td class="brdlf">6.0-6.5 (6.20)</td> + <td class="brdlf">2.3-2.6 (2.45)</td> + <td class="brdlf">3.5-3.9 (3.69)</td> +</tr> +<tr> + <td class="text_lf">25</td> + <td class="brdlf">10</td> + <td class="brdlf">7.2-8.3 (7.78)</td> + <td class="brdlf">3.0-3.3 (3.14)</td> + <td class="brdlf">4.2-5.0 (4.64)</td> +</tr> +<tr> + <td class="text_lf">27</td> + <td class="brdlf">10</td> + <td class="brdlf">18.5-21.5 (20.22)</td> + <td class="brdlf">8.0-9.0 (8.38)</td> + <td class="brdlf">10.4-13.0 (11.84)</td> +</tr> +<tr> + <td class="text_lf">29</td> + <td class="brdlf">10</td> + <td class="brdlf">21.5-24.5 (22.60)</td> + <td class="brdlf">8.5-10.0 (9.25)</td> + <td class="brdlf">12.5-14.5 (13.35)</td> +</tr> +<tr> + <td class="text_lf">37</td> + <td class="brdlf">3</td> + <td class="brdlf">28.5-31.0 (30.00)</td> + <td class="brdlf">11.0-12.5 (11.67)</td> + <td class="brdlf">17.5-19.0 (18.00)</td> +</tr> +<tr> + <td class="text_lf">38</td> + <td class="brdlf">10</td> + <td class="brdlf">35.0-37.5 (35.50)</td> + <td class="brdlf">12.0-13.5 (12.80)</td> + <td class="brdlf">21.5-24.0 (22.70)</td> +</tr> +<tr> + <td class="text_lf">40</td> + <td class="brdlf">2</td> + <td class="brdlf">34.0-37.0 (35.50)</td> + <td class="brdlf">12.5-13.5 (13.00)</td> + <td class="brdlf">21.5-23.5 (22.50)</td> +</tr> +<tr> + <td class="text_lf">41</td> + <td class="brdlf">10</td> + <td class="brdlf">34.0-37.0 (35.50)</td> + <td class="brdlf">12.5-13.5 (13.00)</td> + <td class="brdlf">21.5-23.5 (22.50)</td> +</tr> +<tr> + <td class="text_lf">42</td> + <td class="brdlf">3</td> + <td class="brdlf">24.0-30.0 (27.00)</td> + <td class="brdlf">12.5-13.0 (12.67)</td> + <td class="brdlf">11.5-17.0 (14.33)</td> +</tr> +<tr> + <td class="text_lf">45</td> + <td class="brdlf">6</td> + <td class="brdlf">14.0-24.0 (17.58)</td> + <td class="brdlf">12.5-14.0 (13.37)</td> + <td class="brdlf">1.5-10.0 (4.17)</td> +</tr> +<tr> + <td class="brdbt text_lf">46</td> + <td class="brdbt brdlf">23</td> + <td class="brdbt brdlf">——</td> + <td class="brdbt brdlf">12.0-15.5 (13.34)</td> + <td class="brdbt brdlf">——</td> +</tr> +</table> + +<p><span class="pagenum"><a name="Page_363" id="Page_363">[Pg 363]</a></span></p> +<table width="66%" summary="Growth and Development of Tadpoles"> +<tr> + <td colspan="5" class="smcap">Table 10.—Growth and Development of Tadpoles + of Smilisca cyanosticta. (Means Are Given in Parentheses After the Observed Ranges.)</td> +</tr> +<tr> + <td class="brdtp2 brdbt smcap">Stage</td> + <td class="brdtp2 brdbt brdlf">N</td> + <td class="brdtp2 brdbt brdlf">Total length</td> + <td class="brdtp2 brdbt brdlf">Body length</td> + <td class="brdtp2 brdbt brdlf">Tail length</td> +</tr> +<tr> + <td class="text_lf">21</td> + <td class="brdlf">10</td> + <td class="brdlf">5.8-6.5 (6.28)</td> + <td class="brdlf">2.8-3.1 (3.00)</td> + <td class="brdlf">3.0-3.5 (3.28)</td> +</tr> +<tr> + <td class="text_lf">25</td> + <td class="brdlf">10</td> + <td class="brdlf">7.9-9.2 (8.44)</td> + <td class="brdlf">2.7-3.2 (2.96)</td> + <td class="brdlf">4.8-6.0 (5.48)</td> +</tr> +<tr> + <td class="text_lf">30</td> + <td class="brdlf">7</td> + <td class="brdlf">22.5-25.0 (23.50)</td> + <td class="brdlf">8.5-9.5 (9.00)</td> + <td class="brdlf">14.0-15.5 (14.57)</td> +</tr> +<tr> + <td class="text_lf">36</td> + <td class="brdlf">10</td> + <td class="brdlf">27.0-30.0 (28.75)</td> + <td class="brdlf">9.5-11.5 (10.80)</td> + <td class="brdlf">17.0-18.5 (17.95)</td> +</tr> +<tr> + <td class="text_lf">42</td> + <td class="brdlf">2</td> + <td class="brdlf">26.0-27.0 (26.50)</td> + <td class="brdlf">10.00</td> + <td class="brdlf">16.0-17.0 (16.50)</td> +</tr> +<tr> + <td class="brdbt text_lf">46</td> + <td class="brdbt brdlf">2</td> + <td class="brdbt brdlf">—</td> + <td class="brdbt brdlf">14.00</td> + <td class="brdbt brdlf">—</td> +</tr> +</table> + +<p>Hatchlings of three species (<i>S. baudini</i>, <i>cyanosticta</i>, and <i>phaeota</i>) are available. +These larvae have non-functional eyes and large oral suckers. By the +time the larvae have developed to stage 21, external gills are present, the +caudal musculature and caudal fin have been differentiated, and the head is +distinguishable from the body. In stage 21 oral suckers and a large amount of +yolk are still present.</p> + +<p>The developmental data on the four species show no significant variations; +consequently, we will describe the development of only one species, <i>Smilisca +phaeota</i> (Table 11, Figs. 13 and 16).</p> + +<blockquote><p><i>Stage 21.</i>—Bulging cream-colored yolk mass, transparent cornea, and moderately +long, unbranched filamentous gills, and oral suckers present; mouth +having irregular papillae on lower lip; teeth and beaks absent; caudal myomeres +distinct; pigmentation uniform over body and caudal musculature; caudal +fin transparent with scattered small flecks.</p></blockquote> + +<div class="fig_center" style="width: 522px;"> +<a name="Fig_16" id="Fig_16"></a> +<img src="images/fig_16.png" width="522" height="306" alt="" title="" /> +<div class="fig_caption"><span class="smcap">Fig. 16.</span> Relative rate of growth in tadpoles of <i>Smilisca phaeota</i> as correlated +with developmental stages. Formulas for the limb bud refer to its length (L) +in relation to basal diameter (D).</div> +</div> + +<blockquote><p><i>Stage 25.</i>—Operculum complete; gills absent; sinistral spiracle apparently +functional; cloacal tail-piece, nasal capsules, and external nares present; gut +<span class="pagenum"><a name="Page_364" id="Page_364">[Pg 364]</a></span> +partly formed; mouth bordered by single row of papillae, except medially; +small papillae present in lateral fold of lips; two upper and three lower tooth-rows +present, but not fully developed; beaks apparently fully developed; depth +of dorsal and ventral fins less than depth of caudal musculature: tip of tail +upturned; pigment on body most dense on dorsum and sides; faint, nearly +pigmentless crescent-shaped mark on posterior edge of body; concentrations of +pigment forming small spots on tail.</p> + +<p><i>Stage 28.</i>—Mouthparts complete; limb bud about half as long as thick; +other structural features and coloration closely resemble those in stage 25.</p> + +<p><i>Stage 30.</i>—Limb bud approximately twice as long as thick; body as deep +as wide; dorsal fin deepest just posterior to body; ventral fin deeper than caudal +musculature; tail sharply upturned distally; anal tube dextral; brown pigment +sparse on flanks.</p></blockquote> + +<table width="66%" summary="Growth and Development of Tadpoles"> +<tr> + <td colspan="5" class="smcap">Table 11.—Growth and Development of Tadpoles of + Smilisca phaeota. (Means Are Given in Parentheses After the Observed Ranges.)</td> +</tr> +<tr> + <td class="brdtp2 brdbt smcap">Stage</td> + <td class="brdtp2 brdbt brdlf">N</td> + <td class="brdtp2 brdbt brdlf">Total length</td> + <td class="brdtp2 brdbt brdlf">Body length</td> + <td class="brdtp2 brdbt brdlf">Tail length</td> +</tr> +<tr> + <td class="text_lf">15</td> + <td class="brdlf">10</td> + <td class="brdlf">—</td> + <td class="brdlf">1.9-2.1 (1.97)</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf">16</td> + <td class="brdlf">8</td> + <td class="brdlf">—</td> + <td class="brdlf">2.0-2.2 (2.07)</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf">18</td> + <td class="brdlf">4</td> + <td class="brdlf">—</td> + <td class="brdlf">2.2-2.6 (2.31)</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="text_lf">21</td> + <td class="brdlf">3</td> + <td class="brdlf">7.9-8.6 (8.21)</td> + <td class="brdlf">4.1-4.5 (4.31)</td> + <td class="brdlf">3.8-4.1 (3.92)</td> +</tr> +<tr> + <td class="text_lf">25</td> + <td class="brdlf">10</td> + <td class="brdlf">8.7-10.6 (9.69)</td> + <td class="brdlf">4.5-4.8 (4.64)</td> + <td class="brdlf">4.3-6.0 (5.05)</td> +</tr> +<tr> + <td class="text_lf">26</td> + <td class="brdlf">11</td> + <td class="brdlf">12.3-16.1 (14.01)</td> + <td class="brdlf">4.2-6.3 (5.60)</td> + <td class="brdlf">6.7-9.8 (8.41)</td> +</tr> +<tr> + <td class="text_lf">27</td> + <td class="brdlf">10</td> + <td class="brdlf">13.0-15.7 (14.28)</td> + <td class="brdlf">4.9-6.2 (5.40)</td> + <td class="brdlf">7.7-10.5 (8.88)</td> +</tr> +<tr> + <td class="text_lf">28</td> + <td class="brdlf">13</td> + <td class="brdlf">13.9-20.9 (15.62)</td> + <td class="brdlf">5.2-8.3 (5.75)</td> + <td class="brdlf">8.5-12.6 (9.85)</td> +</tr> +<tr> + <td class="text_lf">29</td> + <td class="brdlf">8</td> + <td class="brdlf">17.8-22.3 (19.79)</td> + <td class="brdlf">6.3-8.4 (7.19)</td> + <td class="brdlf">11.5-14.0 (12.60)</td> +</tr> +<tr> + <td class="text_lf">30</td> + <td class="brdlf">9</td> + <td class="brdlf">20.3-24.8 (22.85)</td> + <td class="brdlf">8.1-10.5 (9.32)</td> + <td class="brdlf">10.5-15.5 (13.53)</td> +</tr> +<tr> + <td class="text_lf">31</td> + <td class="brdlf">5</td> + <td class="brdlf">24.1-28.5 (26.61)</td> + <td class="brdlf">9.4-11.2 (10.59)</td> + <td class="brdlf">14.7-17.3 (16.02)</td> +</tr> +<tr> + <td class="text_lf">34</td> + <td class="brdlf">5</td> + <td class="brdlf">24.8-29.4 (27.31)</td> + <td class="brdlf">9.2-11.6 (10.73)</td> + <td class="brdlf">15.6-18.5 (16.80)</td> +</tr> +<tr> + <td class="text_lf">36</td> + <td class="brdlf">3</td> + <td class="brdlf">30.0-30.1 (30.07)</td> + <td class="brdlf">10.1-12.2 (11.15)</td> + <td class="brdlf">18.9-20.0 (19.44)</td> +</tr> +<tr> + <td class="text_lf">37</td> + <td class="brdlf">4</td> + <td class="brdlf">28.9-34.1 (31.75)</td> + <td class="brdlf">11.5-12.4 (11.88)</td> + <td class="brdlf">17.4-22.5 (19.88)</td> +</tr> +<tr> + <td class="text_lf">38</td> + <td class="brdlf">1</td> + <td class="brdlf">28.98</td> + <td class="brdlf">12.88</td> + <td class="brdlf">16.10</td> +</tr> +<tr> + <td class="text_lf">39</td> + <td class="brdlf">2</td> + <td class="brdlf">35.6-36.9 (36.25)</td> + <td class="brdlf">14.00</td> + <td class="brdlf">21.6-22.9 (22.25)</td> +</tr> +<tr> + <td class="text_lf">40</td> + <td class="brdlf">2</td> + <td class="brdlf">32.3-39.8 (36.05)</td> + <td class="brdlf">14.00</td> + <td class="brdlf">18.3-21.8 (20.05)</td> +</tr> +<tr> + <td class="text_lf">43</td> + <td class="brdlf">2</td> + <td class="brdlf">21.5-23.0 (22.25)</td> + <td class="brdlf">14.2-14.8 (14.45)</td> + <td class="brdlf">6.8-8.8 (7.80)</td> +</tr> +<tr> + <td class="text_lf">44</td> + <td class="brdlf">4</td> + <td class="brdlf">—</td> + <td class="brdlf">14.5-15.6 (15.08)</td> + <td class="brdlf">—</td> +</tr> +<tr> + <td class="brdbt text_lf">46</td> + <td class="brdbt brdlf">11</td> + <td class="brdbt brdlf">—</td> + <td class="brdbt brdlf">12.7-16.7 (14.26)</td> + <td class="brdbt brdlf">—</td> +</tr> +</table> + +<p><span class="pagenum"><a name="Page_365" id="Page_365">[Pg 365]</a></span></p> +<table width="66%" summary="Growth and Development of Tadpoles"> +<tr> + <td colspan="5" class="smcap">Table 12.—Growth and Development of Tadpoles + of Smilisca sordida. (Means Are Given in Parentheses After the Observed Ranges.)</td> +</tr> +<tr> + <td class="brdtp2 brdbt smcap">Stage</td> + <td class="brdtp2 brdbt brdlf">N</td> + <td class="brdtp2 brdbt brdlf">Total length</td> + <td class="brdtp2 brdbt brdlf">Body length</td> + <td class="brdtp2 brdbt brdlf">Tail length</td> +</tr> +<tr> + <td class="text_lf">25</td> + <td class="brdlf">6</td> + <td class="brdlf">25.5-28.0 (26.1)</td> + <td class="brdlf">9.0-9.5 (9.3)</td> + <td class="brdlf">16.2-18.5 (16.7)</td> +</tr> +<tr> + <td class="text_lf">33</td> + <td class="brdlf">2</td> + <td class="brdlf">28.5-30.0 (29.3)</td> + <td class="brdlf">10.2-10.5 (10.4)</td> + <td class="brdlf">18.0-19.8 (18.9)</td> +</tr> +<tr> + <td class="text_lf">36</td> + <td class="brdlf">8</td> + <td class="brdlf">29.5-34.5 (32.3)</td> + <td class="brdlf">10.2-11.7 (10.8)</td> + <td class="brdlf">19.3-23.0 (21.5)</td> +</tr> +<tr> + <td class="text_lf">37</td> + <td class="brdlf">7</td> + <td class="brdlf">31.6-37.5 (34.6)</td> + <td class="brdlf">11.0-12.5 (11.5)</td> + <td class="brdlf">21.6-25.0 (23.2)</td> +</tr> +<tr> + <td class="text_lf">41</td> + <td class="brdlf">3</td> + <td class="brdlf">33.0-37.2 (35.2)</td> + <td class="brdlf">11.6-12.2 (11.9)</td> + <td class="brdlf">21.4-25.2 (23.2)</td> +</tr> +<tr> + <td class="text_lf">43</td> + <td class="brdlf">1</td> + <td class="brdlf">——</td> + <td class="brdlf">12.4</td> + <td class="brdlf">——</td> +</tr> +<tr> + <td class="brdbt text_lf">46</td> + <td class="brdbt brdlf">9</td> + <td class="brdbt brdlf">——</td> + <td class="brdbt brdlf">13.1-15.7 (14.9)</td> + <td class="brdbt brdlf">——</td> +</tr> +</table> + +<blockquote><p><i>Stages 34</i>, <i>36</i>, <i>37</i>, and <i>38</i>.—Stage 34, foot paddle-shaped with four toe +buds; stage 36, five toe buds; stages 37 and 38, lengthening of toes. In all +four stages, spiracle persistent, and pigmentation resembling that of early +stages.</p> + +<p><i>Stage 39.</i>—Metatarsal tubercle present; greatest total length (36.9 mm.) +attained.</p> + +<p><i>Stage 40.</i>—Subarticular tubercles prominent; skin over forelimbs transparent; +cloacal tail-piece and spiracle absent; outer tooth-rows degenerating; caudal +fins shallower than in preceding stages; distal part of tail nearly straight; +size of dark markings on tail decreased; pigment present on hind limb.</p> + +<p><i>Stage 43.</i>—Forelimbs erupted; larval mouthparts absent; corner of mouth +between nostril and eye; transverse bands present on hind limbs; tail greatly +reduced (about 8 mm. in length).</p> + +<p><i>Stage 44.</i>—Sacral hump barely noticeable; tail reduced to a stub; corner +of mouth at level of pupil of eye; dorsal surfaces pale olive-green; venter +white.</p></blockquote> + +<p>Changes proceed in a definite pattern during the growth and development +of tadpoles. Larval teeth are absent in hatchlings; the inner tooth-rows develop +first, and the third lower row last. At metamorphosis the third lower +row is the first to be lost. The tail increases gradually in length relative to +the body. In stage 25 the tail is 52.1 per cent of the total length, and in stage +36, 64.6 per cent. In later stages the tail becomes relatively shorter through +resorption. Duellman and Klaas (1964:320) noted a great size-variation in +<i>Triprion</i> tadpoles in stage 25. No such variation is apparent in any stage of +any of the species of <i>Smilisca</i> studied.</p> + +<p>The growth and development of the other species of <i>Smilisca</i> do not differ +significantly from that of <i>S. phaeota</i>. The tadpoles of <i>S. sila</i> and <i>sordida</i> from +streams have relatively longer tails at hatching. For example, in tadpoles of +<i>S. sordida</i> the average length of tail is 64.0 per cent of the body-length in stage +25, and in stage 37, 67.0 per cent.</p> + + +<div class="caption3nb"><a name="Behavior" id="Behavior"></a> +<i>Behavior</i></div> + +<p>The tadpoles of <i>S. baudini</i>, <i>cyanosticta</i>, <i>phaeota</i>, and <i>puma</i> are pelagic inhabitants +of shallow ponds. Early stages of <i>S. baudini</i> in which external gills +<span class="pagenum"><a name="Page_366" id="Page_366">[Pg 366]</a></span> +are present have been observed to hang vertically with the gills spread out at +the surface of the water, a behavior noted by Zweifel (1964:206) in tadpoles +of <i>Phrynohyas venulosa</i>, which also develop in warm, standing water having a +relatively low oxygen-tension. When disturbed the pelagic tadpoles usually +dive and seek shelter amidst vegetation or in mud on the bottom. This behavior +was observed in <i>S. baudini</i>, <i>cyanosticta</i>, and <i>phaeota</i> by day and at +night. No tadpoles of <i>S. puma</i> were observed by day; those seen at night +were near the surface of small water-filled depressions in a grassy marsh; they +responded to light by taking refuge in the dense grass. Perhaps tadpoles of +this species are negatively phototactic and remain hidden by day.</p> + +<p>The stream-inhabiting tadpoles of <i>S. sila</i> and <i>sordida</i> live in clear pools in +rocky streams, where they were observed to cling by their mouths to rocks in +the stream and to seek shelter amidst pebbles or beneath rocks and leaves on +the bottom. These tadpoles are not found in shallow riffles.</p> + +<p>We have not found tadpoles of two species of <i>Smilisca</i> in the same body +of water and therefore cannot offer observations on ecological relationships in +sympatric situations.</p> + + +<div class="caption2"><a name="PHYLOGENETIC_RELATIONSHIPS" id="PHYLOGENETIC_RELATIONSHIPS"></a>PHYLOGENETIC RELATIONSHIPS</div> + +<p>Identifiable hylid remains are known from the Miocene to the Recent, but +these fossils are mostly fragmentary and provide little useful information regarding +the phylogenetic relationships of living genera. Frogs of the genus +<i>Smilisca</i> are generalized and show no striking adaptations, either in their structure +or in their modes of life history.</p> + +<div class="caption3"><a name="Interspecific_Relationships" id="Interspecific_Relationships"></a> +Interspecific Relationships</div> + +<p>In attempting to understand the relationships of the species of <i>Smilisca</i> we +have emphasized osteological characters. The phylogeny suggested by these +characters is supported by other lines of evidence, including external morphology, +tadpoles, and breeding calls.</p> + +<p>Our concept of the prototype of the genus <i>Smilisca</i> is a moderate-sized +hylid having: (1) a well-developed frontoparietal fontanelle, (2) frontoparietal +lacking lateral processes, (3) no bony squamosal-maxillary arch, (4) a fully +ossified ethmoid, (5) paired subgular vocal sac, (6) moderately webbed +fingers and toes, (7) relatively few supernumerary tubercles on the digits, (8) +eggs deposited in clumps in ponds, (9) anteroventral mouth in tadpoles +bordered by one row of labial papillae, but median part of upper lip bare, +(10) tail relatively short and deep in tadpoles, and (11) a breeding call consisting +of a series of like notes.</p> + +<p>Two phyletic lines evolved from this prototype. The first of these was the +stock that gave rise to the <i>baudini</i> group. The evolutionary changes that +took place in this line included increase in size, development of a lateral +curvature of the maxillary, and an increased amount of cranial ossification, +especially in the dermal roofing bones. This phyletic line retained the larval +characters and breeding call of the prototype. The second phyletic line gave +rise to the <i>sordida</i> group and diverged from the prototype in the development +of an angular maxillary and a breeding call consisting of a primary note followed +by secondary notes. The frogs in this phyletic line retained the moderate +<span class="pagenum"><a name="Page_367" id="Page_367">[Pg 367]</a></span> +size of the prototype and did not develop additional dermal bone. Our concept +of the phylogenetic relationships is shown graphically in Figure 17.</p> + +<p>Within the <i>baudini</i> group one stock retained separate nasals and did not +develop a bony squamosal-maxillary arch, but broad lateral processes developed +on the frontoparietals. The tadpoles remained unchanged from the primitive +type. This stock evolved into <i>S. phaeota</i>. In the other stock the nasals became +fully ossified and a bony squamosal-maxillary arch developed. One +branch of this second stock retained tadpoles having only one row of labial +papillae and did not develop lateral processes on the frontoparietals; this +branch evolved into <i>S. cyanosticta</i>. The other branch diverged and gave rise +to <i>S. baudini</i> by developing relatively shorter hind legs, large lateral processes +on the frontoparietals, and tadpoles having two rows of labial papillae.</p> + +<p>Within the <i>sordida</i> group the cranial features remained unchanged in one +line, which gave rise to <i>S. sila</i>, whereas in a second line the nasals were reduced, +and their long axes shifted with the result that they are not parallel to +the maxillaries; the amount of ossification of the ethmoid was reduced, and +the tadpoles developed two rows of labial papillae. In this second line one +branch retained the pond-breeding habits and gave rise to <i>S. puma</i>, whereas +a second branch became adapted to stream-breeding and gave rise to <i>S. +sordida</i>.</p> + +<div class="fig_center" style="width: 532px;"> +<a name="Fig_17" id="Fig_17"></a> +<img src="images/fig_17.png" width="532" height="399" alt="" title="" /> +<div class="fig_caption"><span class="smcap">Fig. 17.</span> Hypothesized +phylogenetic relationships of the species of <i>Smilisca</i>.</div> +</div> + +<p>Certain aspects of this proposed phylogeny warrant further comment. +Features such as the deposition of additional bone that roofs the skull or +that forms lateral projections from the frontoparietals, like those in <i>S. baudini</i> +and <i>phaeota</i>, are minor alterations of dermal elements and not basic modifications +<span class="pagenum"><a name="Page_368" id="Page_368">[Pg 368]</a></span> +of the architecture of the skull. Consequently, we hypothesize the independent +development of these dermal changes in <i>S. baudini</i> and <i>phaeota</i>. +Similar kinds of dermal modifications have evolved independently in many +diverse groups of frogs.</p> + +<p>Likewise, we propose the parallel development of stream-adapted tadpoles +in <i>S. sordida</i> and <i>sila</i>; in both cases the tadpoles adapted to changing environmental +conditions (see following section on evolutionary history). Tadpoles of +<i>S. sordida</i> already had two rows of labial papillae before entering the streams; +subsequently the tadpoles developed complete rows of papillae, ventral mouths +and long tails having low fins. Possibly the tadpoles of <i>S. sila</i> had two rows +of labial papillae prior to their adapting to stream conditions; in the process +of adapting they developed ventral mouths and long tails having low fins. +Similar modifications in tadpoles have occurred in many diverse groups of +Middle American hylids, such as <i>Plectrohyla</i>, <i>Ptychohyla</i>, the <i>Hyla uranochroa</i> +group, and the <i>Hyla taeniopus</i> group.</p> + +<p>Our lack of concern about coloration is due to the fact that, with the exception +of the blue spots on the flanks and posterior surfaces of the thighs in some +species, the coloration of <i>Smilisca</i>, consisting of a pattern of irregular dark +marks on a paler dorsum and dark transverse bars on the limbs, is not much +different from that of many other Neotropical hylids. Blue is a structural color, +rare among Amphibia, which is achieved by the absence of lipophores above +the guanophores. Thus, the incident light rays at the blue end of the spectrum +are reflected by the guanophores without interference by an overlying yellow +lipophore screen. According to Noble (1931), lipophores are capable of +amoeboid movement that permits shifts in their positions, between or beneath +the guanophores. We do not know whether this behavior of lipophores is +widespread and is effected in response to environmental changes, or whether +it is a genetically controlled attribute that is restricted in appearance. If the +latter is the case we must assume that the prototype of <i>Smilisca</i> possessed such +an attribute which was lost in <i>S. baudini</i>, <i>phaeota</i>, and <i>puma</i>. The development +of blue spots is not constant in <i>S. sordida</i> and <i>S. sila</i>; in <i>S. cyanosticta</i> +the spots range in color from blue to pale green.</p> + +<p>The coloration of the tadpoles is not distinctive, except for the presence of +dorsal blotches on the tails of <i>S. sila</i> and <i>sordida</i>. However, the similarity in +pattern cannot be interpreted as indicating close relationships because nearly +identical patterns are present in <i>Hyla legleri</i> and some species of <i>Prostherapis</i>. +This disruptive coloration seems to be directly associated with the pebble-bottom, +stream-inhabiting tadpoles.</p> + +<p>In the <i>baudini</i> group, <i>S. phaeota</i> and <i>cyanosticta</i> are allopatric, whereas <i>S. +baudini</i> occurs sympatrically with both of those species. The call of <i>S. baudini</i> +differs notably from the calls of <i>S. phaeota</i> and <i>cyanosticta</i>, which are more +nearly alike. Although in the phylogenetic scheme proposed here <i>S. sila</i> is +considered to be more distantly related to <i>S. puma</i> than is <i>S. sordida</i>, the calls +of <i>S. sila</i> and <i>puma</i> more closely resemble one another than either resembles +that of <i>S. sordida</i>. <i>Smilisca sila</i> and <i>puma</i> are allopatric, whereas <i>S. sordida</i> +is broadly sympatric with both of those species. We assume that in their +respective phyletic lines the differentiation of both <i>S. baudini</i> and <i>sordida</i> was +the result of genetic changes in geographically isolated populations. Subsequently, +each species dispersed into areas inhabited by other members of their +respective groups. Selection for differences in the breeding calls helped to +<span class="pagenum"><a name="Page_369" id="Page_369">[Pg 369]</a></span> +reinforce other differences in the populations and thereby aided in maintaining +specificity.</p> + +<div class="caption3"><a name="Evolutionary_History" id="Evolutionary_History"></a> +Evolutionary History</div> + +<p>With respect to temporal and spatial aspects of evolution in <i>Smilisca</i>, we +have tried to correlate the phylogenetic evidence on <i>Smilisca</i> with the geologic +data on Middle America presented by Lloyd (1963), Vinson and Brineman +(1963), Guzmán and Cserna (1963), Maldonado-Koerdell (1964), and Whitmore +and Stewart (1965). Likewise, we have borne in mind the evidence for, +and ideas about, the evolution of the Middle American herpetofauna given by +Dunn (1931b), Schmidt (1943), Stuart (1950, 1964) Duellman (1958, MS), +and Savage (MS).</p> + +<p>According to Stuart's (1950) historical arrangement of the herpetofauna, +<i>Smilisca</i> is a member of the Autochthonous Middle American Faunal Element, +and according to Savage's (MS) arrangement the genus belongs to the Middle +American Element, a fauna which was derived from a generalized tropical +American unit that was isolated in tropical North America by the inundation +of the Isthmian Link in early Tertiary, that developed <i>in situ</i> in tropical North +America, and that was restricted to Middle America by climatic change in the +late Cenozoic.</p> + +<p>Savage (MS) relied on the paleogeographic maps of Lloyd (1963) to +hypothesize the extent and centers of differentiation of the Middle American +Faunal Element. According to Lloyd's concept, Middle America in the Miocene +consisted of a broad peninsula extending southeastward to about central +Nicaragua, separated from the Panamanian Spur of continental South America +by shallow seas. A large island, the Talamanca Range, and remnants of the +Guanarivas Ridge formed an archipelago in the shallow sea. The recent discovery +of remains of mammals having definite North American affinities in the +Miocene of the Canal Zone (Whitmore and Stewart, 1965) provides substantial +evidence that at least a peninsula was continuous southeastward from Nuclear +Central America to the area of the present Canal Zone in early mid-Miocene +time. South America was isolated from Central America by the Bolivar Trough +until late mid-Pliocene.</p> + +<p>Thus, in the mid-Tertiary the broad peninsula of Nuclear Central America, +which consisted of low and moderately uplifted regions having a tropical +mesic climate, provided the site for the evolution of <i>Smilisca</i>. It is not possible +to determine when the genus evolved, but to explain the differentiation of +the species it is unnecessary to have the ancestral <i>Smilisca</i> present prior to the +Miocene.</p> + +<p>We view the Miocene <i>Smilisca</i> as the prototype described in the preceding +section, and suppose that it lived in the mesic tropical environment of the +eastern part of the Central American Peninsula (in what is now Costa Rica +and western Panamá). Two stocks differentiated, probably in middle Miocene +times; one of these, the ancestral stock of the <i>baudini</i> group, was widespread +on the Caribbean lowlands from the Nicaraguan Depression to the Bolivar +Trough, and the other, the ancestral stock of the <i>sordida</i> group, was restricted +to the Pacific lowlands of the same region. In late Miocene time the ancestral +stock of the <i>baudini</i> group dispersed northwestward around the deep embayment +in the Nicaraguan depression into upper Central America (in what is +now Honduras and Guatemala) and thence into southern México. Apparently +<span class="pagenum"><a name="Page_370" id="Page_370">[Pg 370]</a></span> +differentiation took place on each side of the Nicaraguan Depression; the frogs +to the south of the depression evolved into <i>S. phaeota</i>, whereas those to the +north of the depression represented the stock from which <i>S. baudini</i> and +<i>cyanosticta</i> arose. Prior to the uplift of the mountains in the late Miocene +and the Pliocene the <i>baudini-cyanosticta</i> stock probably was widespread in +northwestern Central America. The elevation of the mountains resulted in +notable climatic changes, principally the development of sub-humid environments +on the Pacific lowlands. The frogs living on the Pacific lowlands became +adapted to sub-humid conditions and developed into <i>S. baudini</i>. The +stock on the Caribbean lowlands remained in mesic environments and evolved +into <i>S. cyanosticta</i>.</p> + +<p>Possibly in the middle Miocene before the Talamanca Range in Costa Rica +and western Panamá was greatly uplifted, the ancestral stock of the <i>sordida</i> +group invaded the Caribbean lowlands of what is now Costa Rica. The subsequent +elevation of the Talamanca Range in the Pliocene effectively isolated +the ancestral stock of <i>S. sila</i> on the Pacific lowlands from the <i>puma-sordida</i> +stock on the Caribbean lowlands. The former was subjected to the sub-humid +conditions which developed on the Pacific lowlands when the Talamanca +Range was uplifted. It adapted to the sub-humid environment by living +along streams and evolving stream-adapted tadpoles. On the Caribbean side +of the Talamanca Range the <i>puma-sordida</i> stock inhabited mesic environments. +The stock that evolved into <i>S. puma</i> remained in the lowlands as a pond-breeding +frog, whereas those frogs living on the slopes of the newly elevated +mountains became adapted for their montane existence by developing stream-adapted +tadpoles and thus differentiated into <i>S. sordida</i>.</p> + +<p>Probably the six species of <i>Smilisca</i> were in existence by the end of the +Pliocene; at that time a continuous land connection existed from Central America +to South America. The climatic fluctuations in the Pleistocene, and the +post-Wisconsin development of present climatic and vegetational patterns in +Middle America, brought about the present patterns of distribution of the +species. From its place of origin on the Caribbean lowlands of lower Central +America, <i>S. phaeota</i> dispersed northward into Nicaragua and southward along +the Pacific slopes of northwestern South America. Perhaps in the late Pleistocene +or in post-Wisconsin time when mesic conditions were more widespread +than now, <i>S. phaeota</i> moved onto the Pacific lowlands of Costa Rica. Its route +could have been through the Arenal Depression. Subsequent aridity restricted +its range on the Pacific lowlands to the Golfo Dulce region. Climatic fluctuation +in northern Central America restricted the distribution of <i>S. cyanosticta</i> +to mesic habitats on the slopes of the Mexican and Guatemalan highlands and +to certain humid areas on the lowlands. <i>Smilisca baudini</i> was well adapted +to sub-humid conditions, and the species dispersed northward to the Rio +Grande Embayment and to the edge of the Sonoran Desert and southward into +Costa Rica. In southern México and Central America the species invaded +mesic habitats. Consequently, in some areas it is sympatric with <i>S. cyanosticta</i> +and <i>phaeota</i>.</p> + +<p><i>Smilisca puma</i> dispersed northward onto the Caribbean lowlands of southern +Nicaragua. Its southward movements probably were limited by the ridges of +the Talamanca Range that extend to the Caribbean coast in the area of Punta +Cahuita in Costa Rica. <i>Smilisca sila</i> dispersed along the Pacific lowlands and +slopes of the mountains from eastern Costa Rica and western Panamá through +<span class="pagenum"><a name="Page_371" id="Page_371">[Pg 371]</a></span> +eastern Panamá to northern Colombia. Climatic fluctuation in the Pleistocene +evidently provided sufficient altitudinal shifts in environments in the Talamanca +Range to permit <i>S. sordida</i> to move onto the Pacific slopes. From its upland +distribution the species followed streams down to both the Caribbean and +Pacific lowlands, where it is sympatric with <i>S. puma</i> on the Caribbean lowlands +and <i>S. sila</i> on the Pacific lowlands.</p> + +<p>The evolution of the species-groups of <i>Smilisca</i> was effected through isolation +by physical barriers in the Cenozoic; the differentiation of the species was +initiated by further isolation of populations by changes in physiography and +climate. Present patterns of distribution resulted from Pleistocene and post-Wisconsin +climatic changes. Today, sympatric species have different breeding +habits and breeding calls which reinforce the differences in morphology.</p> +<br /> +<br /> + +<div class="caption2"><a name="SUMMARY_AND_CONCLUSIONS" id="SUMMARY_AND_CONCLUSIONS"></a> +SUMMARY AND CONCLUSIONS</div> + +<p>The genus <i>Smilisca</i> is composed of six species of tree frogs; each species is +defined on the basis of adult morphology, larval characters, and breeding behavior. +Keys are provided to aid in the identification of adults and of tadpoles.</p> + +<p>Analysis of the characters and examination of type specimens indicates that +several currently-recognized taxa are synonymous, as follows:</p> + +<div class="center_lf bold"> +1. <i>Hyla beltrani</i> Taylor, 1942 = <i>Smilisca baudini</i>.<br /> +2. <i>Hyla gabbi</i> Cope, 1876 = <i>Smilisca sordida</i>.<br /> +3. <i>Hyla manisorum</i> Taylor, 1954 = <i>Smilisca baudini</i>.<br /> +4. <i>Hyla nigripes</i> Cope, 1876 = <i>Smilisca sordida</i>.<br /> +5. <i>Hyla wellmanorum</i> Taylor, 1952 = <i>Smilisca puma</i>.<br /> +</div> + + +<p><i>Smilisca phaeota cyanosticta</i> Smith, 1953 is elevated to specific rank, and +one new species, <i>Smilisca sila</i>, is named and described.</p> + +<p>The skeletal system of developmental stages and the adult of <i>Smilisca baudini</i> +is described, and the skull is compared with that of other members of the +genus.</p> + +<p>The tadpoles are described, compared, and illustrated; the larval development +of <i>Smilisca phaeota</i> is described.</p> + +<p>Breeding behavior and breeding calls are described and compared. Some +species of <i>Smilisca</i> have breeding choruses. Two species, <i>S. sila</i> and <i>sordida</i>, +breed in streams, whereas the others breed in ponds.</p> + +<p>The genus is considered to be part of the Middle American Faunal Element; +the species are thought to have differentiated in response to ecological diversity +and historical opportunities provided by Cenozoic changes in physiography and +climate.</p> +<br /> +<br /> + +<p><span class="pagenum"><a name="Page_372" id="Page_372">[Pg 372]</a></span></p> + +<div class="caption2"><a name="LITERATURE_CITED" id="LITERATURE_CITED"></a> +LITERATURE CITED</div> + +<div class="smcap">Baird, S. F.</div> +<div class="references">1854. Descriptions of new genera and species of North American frogs. +Proc. Acad. Nat. Sci. Philadelphia, 7:59-62. April 27.</div> +<div class="references">1859. Reptiles of the boundary. United States and Mexican boundary +survey. Washington, D. 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Copeia, no. 3:106-119. +October 30.</div> +<div class="references">1944. Herpetology of the Bogotá area. Rev. Acad. Colombiana Cien. +Exact., Fis. Nat., 6:68-81.</div> +<br /> + +<div class="smcap">Fouquette, M. J., Jr.</div> +<div class="references">1960. Isolating mechanisms in three sympatric tree frogs in the Canal +Zone. Evolution, 14:484-497. December.</div> +<br /> + +<div class="smcap">Funkhouser, Anne</div> +<div class="references">1957. A review of the neotropical tree-frogs of the genus <i>Phyllomedusa</i>. +Occas. Papers Nat. Hist. Mus. Stanford Univ., 5:1-89. April 1.</div> +<br /> + +<div class="smcap">Gadow, H.</div> +<div class="references">1908. Through southern Mexico. London, Witherby and Co. xvi + 527 +pp.</div> +<br /> + +<div><span class="smcap">Gaige, H. T.</span>, <span class="smcap">Hartweg, N.</span> and <span class="smcap">Stuart, L. C.</span></div> +<div class="references">1937. Notes on a collection of amphibians and reptiles from eastern +Nicaragua. Occas. Papers Mus. Zool. Univ. Michigan, 357:1-18. +October 26.</div> +<br /> + +<div class="smcap">Goin, C. J.</div> +<div class="references">1961. Synopsis of the genera of hylid frogs. Ann. Carnegie Mus., +36:5-18. July 14.</div> +<br /> + +<div class="smcap">Gosner, K. L.</div> +<div class="references">1960. A simplified table for staging anuran embryos and larvae with +notes on identification. Herpetologica, 16:183-190. September 23.</div> +<br /> + +<div class="smcap">Griffiths, I.</div> +<div class="references">1959. The phylogeny of <i>Sminthillus limbatus</i> and the status of the +Brachycephalidae (Amphibia, Salientia). Proc. Zool. Soc. London, +132:457-487, pls. 1-4.</div> + +<div><span class="smcap">Guzmán, E. J.</span> and <span class="smcap">Cserna, Z.</span></div> +<div class="references">1963. Tectonic History of Mexico. Amer. Assoc. Petrol. Geol., Mem. +2:113-129.</div> +<br /> + +<div class="smcap">Hecht, M. K.</div> +<div class="references">1962. A reevaluation of the early history of the frogs. Part I. Syst. +Zool., 11:39-44. March.</div> +<div class="references">1963. A reevaluation of the early history of the frogs. Part II. Syst. +Zool., 12:20-35. March.</div> +<br /> + +<div class="smcap">Johnson, C.</div> +<div class="references">1959. Genetic incompatibility in the call races of <i>Hyla versicolor</i> Le +Conte in Texas. Copeia, no. 4:327-335. December 30.</div> +<br /> + +<p><span class="pagenum"><a name="Page_374" id="Page_374">[Pg 374]</a></span></p> +<div class="smcap">Lloyd, J. J.</div> +<div class="references">1963. Tectonic history of the south Central-American Orogen. Amer. +Assoc. Petrol. Geol., Mem. 2:88-100.</div> +<br /> + +<div class="smcap">Maldonado-Koerdell, M.</div> +<div class="references">1964. Geohistory and paleogeography of Middle America, <i>in</i> Wauchope, +R. and West, R. C. (Eds.). Handbook of Middle American Indians, +vol. 1, Univ. Texas Press, Austin, 570 pp.</div> +<br /> + +<div class="smcap">Maslin, T. P.</div> +<div class="references">1963. Notes on some anuran tadpoles from Yucatán, México. Herpetologica, +19:122-128. July 3.</div> +<br /> + +<div><span class="smcap">Mittleman, M. B.</span> and <span class="smcap">List, J. C.</span></div> +<div class="references">1963. The generic differentiation of the swamp treefrogs. Copeia, no. +2:80-83. May 29.</div> +<br /> + +<div class="smcap">Noble, G. K.</div> +<div class="references">1931. The biology of the amphibia. McGraw Hill, New York, 577 pp.</div> +<br /> + +<div class="smcap">Orton, G. L.</div> +<div class="references">1957. The bearing of larval evolution on some problems in frog classification. +Syst. Zool., 6:79-86. June.</div> +<br /> + +<div class="smcap">Peters, W.</div> +<div class="references">1863. Mittheilungen uber neue Batrachier. Monats. Konigl. Akad. Wiss. +Berlin, pp. 445-471.</div> +<div class="references">1873. Uber eine neue Schildkrötenart, <i>Cinosternon Effeldtii</i> und einige +andere neue oder weniger bekannte Amphibien. Monats. Konigl. +Akad. Wiss. Berlin, pp. 603-618, pl. 5. October 16.</div> +<br /> + +<div class="smcap">Rivero, J. A.</div> +<div class="references">1961. Salientia of Venezuela. Bull. Comp. Zool., 126:1-207. November.</div> +<br /> + +<div><span class="smcap">Savage, J. M.</span> and <span class="smcap">Carvalho, A. L.</span></div> +<div class="references">1953. The family position of Neotropical frogs currently referred to the +genus <i>Pseudis</i>. Zoologica, 38:193-200.</div> +<br /> + +<div class="smcap">Schmidt, K. P.</div> +<div class="references">1941. The amphibians and reptiles of British Honduras. Zool. Ser. Field +Mus. Nat. Hist., 22:475-510. December 30.</div> +<div class="references">1943. Corollary and commentary for "Climate and Evolution." Amer. +Midl. Nat., 30:241-253. July.</div> +<br /> + +<div class="smcap">Schmidt, O.</div> +<div class="references">1857. Diagnosen neuer Frösche des zoologischen Cabinets zu Krakau. +Sitzungb. Konigl. Akad. Wiss. Math.-Natur. Cl., 24(1):10-15. +March.</div> +<div class="references">1858. Deliciae Herpetogicae Musei Zoologici Cracoviensis. Denkschr. +K. K. Akad. Wiss. Math.-Natur. Cl., 14(2):237-258, pls. 1-3.</div> +<br /> + +<div class="smcap">Smith, H. M.</div> +<div class="references">1953. A new subspecies of the treefrog <i>Hyla phaeota</i> Cope of Central +America. Herpetologica, 8:150-152. January 30.</div> +<br /> + +<div><span class="smcap">Smith, H. M.</span> and <span class="smcap">Taylor, E. H.</span></div> +<div class="references">1950. Type localities of Mexican reptiles and amphibians. Univ. Kansas +Sci. Bull., 33:313-380. March 20.</div> +<br /> + +<div class="smcap">Starrett, P.</div> +<div class="references">1960. A redefinition of the genus <i>Smilisca</i>. Copeia, no. 4:300-304. December +30.</div> +<br /> + +<div><span class="smcap">Stebbins, R. C.</span> and <span class="smcap">Hendrickson, J. R.</span></div> +<div class="references">1959. Field studies of amphibians in Colombia, South America. Univ. +California Publ. Zool., 56:497-540. February 17.</div> +<br /> + +<div><span class="smcap">Stokely, P. S.</span> and <span class="smcap">List, J. C.</span></div> +<div class="references">1954. The progress of ossification in the skull of the cricketfrog <i>Pseudacris +nigrita triseriata</i>. Copeia, no. 3:211-217. July 29.</div> +<br /> + +<p><span class="pagenum"><a name="Page_375" id="Page_375">[Pg 375]</a></span></p> +<div class="smcap">Stuart, L. C.</div> +<div class="references">1935. A contribution to a knowledge of the herpetology of a portion of +the savanna region of central Petén, Guatemala. Misc. Publ. Mus. +Zool. Univ. Michigan, 29:1-56, pls. 1-4, 1 map. October 1.</div> +<div class="references">1948. The amphibians and reptiles of Alta Verapaz, Guatemala. Misc. +Publ. Mus. Zool. Univ. Michigan, 69:1-109. June 12.</div> +<div class="references">1950. A geographic study of the herpetofauna of Alta Verapaz, Guatemala. +Contr. Lab. Vert. Biol., 45:1-77, pls. 1-9, 1 map. May.</div> +<div class="references">1954. Herpetofauna of the southeastern highlands of Guatemala. Contr. +Lab. Vert. Biol., 68:1-65, pls. 1-4. November.</div> +<div class="references">1958. A study of the herpetofauna of the Uaxactun-Tikal area of northern +El Petén, Guatemala. Contr. Lab. Vert. Biol., 75:1-30. June.</div> +<div class="references">1961. Some observations on the natural history of tadpoles of <i>Rhinophrynus +dorsalis</i> <ins title='Correction: was "Dumeril"'>Duméril</ins> and Bibron. Herpetologica, 17:73-79. +July 11.</div> +<div class="references">1964. Fauna of Middle America, <i>in</i> Wauchope, R. and West, R. C. +(Eds.). Handbook of Middle American Indians, vol. 1, Univ. +Texas Press, Austin, 570 pp.</div> +<br /> + +<div class="smcap">Taylor, E. H.</div> +<div class="references">1942. New Caudata and Salientia from México. Univ. Kansas Sci. Bull., +28:295-323. November 15.</div> +<div class="references">1952. The frogs and toads of Costa Rica. Univ. Kansas Sci. Bull., 35:577-942. +July 1.</div> +<div class="references">1954. Additions to the known herpetological fauna of Costa Rica with +comments on other species. No. I. Univ. Kansas Sci. Bull., +36:597-639. June 1.</div> +<br /> + +<div><span class="smcap">Taylor, E. H.</span> and <span class="smcap">Smith, H. M.</span></div> +<div class="references">1945. Summary of the collections of amphibians made in México under +the Walter Rathbone Bacon Traveling Scholarship. Proc. U. S. +Natl. Mus., 95:521-613, pls. 18-32. June 30.</div> +<br /> + +<div class="smcap">Tihen, J. A.</div> +<div class="references">1962. Osteological observations on New World Bufo. Amer. Midl. Nat., +67:157-183. January.</div> +<div class="references">1965. Evolutionary trends in frogs. Amer. Zoologist, 5:309-318.</div> +<br /> + +<div><span class="smcap">Vinson, G. L.</span> and <span class="smcap">Brineman, J. H.</span></div> +<div class="references">1963. Nuclear Central America, hub of Antillean Transverse Belt. Amer. +Assoc. Petrol. Geol., Mem. 2:101-112.</div> +<br /> + +<div><span class="smcap">Whitmore, F. C., Jr.</span> and <span class="smcap">Stewart, R. H.</span></div> +<div class="references">1965. Miocene mammals and Central American seaways. Science, 148:180-185. +April 9.</div> +<br /> + +<div class="smcap">Zweifel, R. G.</div> +<div class="references">1956. Two pelobatid frogs from the Tertiary of North America and their +relationships to fossil and Recent forms. Amer. Mus. Novitates, +1762:1-45. April 6.</div> + +<div class="references">1958. Results of the Archbold Expeditions. No. 78. Frogs of the Papuan +hylid genus <i>Nyctimystes</i>. Amer. Mus. Novitates, 1896:1-51. July +22.</div> +<div class="references">1964. Life history of <i>Phrynohyas venulosa</i> (Salientia: Hylidae) in +Panamá. Copeia, no. 1:201-208. March 26.</div> +<br /> + +<i>Transmitted March 14, 1966.</i><br /> +<br /> +<br /> + +<div class="fig_center" style="width: 74px;"> +<img src="images/union_label.png" width="74" height="27" alt="" title="" /> +<br /> +31-3430<br /> +</div> +<br /> +<br /> + +<p><span class="pagenum"><a name="Page_i" id="Page_i">[Pg i]</a></span></p> +<a name="UNIVERSITY_OF_KANSAS_PUBLICATIONS" id="UNIVERSITY_OF_KANSAS_PUBLICATIONS"></a> +<div class="caption2">UNIVERSITY OF KANSAS PUBLICATIONS<br /> +MUSEUM OF NATURAL HISTORY</div> + +<p>Institutional libraries interested in publications exchange may obtain this +series by addressing the Exchange Librarian, University of Kansas Library, +Lawrence, Kansas. Copies for individuals, persons working in a particular +field of study, may be obtained by addressing instead the Museum of Natural +History, University of Kansas, Lawrence, Kansas. When individuals request +copies from the Museum, 25 cents should be included, for each 100 pages or +part thereof, for the purpose of defraying the costs of wrapping and mailing. +For certain longer papers an additional amount, indicated below, toward some +of the costs of production, is to be included.</p> + +<p>* An asterisk designates those numbers of which the Museum's supply is exhausted.</p> + +<table class="pub_list" summary="pub_list"> +<tr> + <td class="text_rt"> Vol. 1.</td> + <td colspan="2" class="justify">Nos. 1-26 and index. Pp. 1-638, 1946-1950.</td> +</tr> +<tr> + <td class="text_rt">*Vol. 2.</td> + <td colspan="2" class="justify">(Complete) Mammals of Washington. By Walter W. Dalquest. Pp. 1-444, 140 + figures in text. April 9, 1948.</td> +</tr> +<tr> + <td class="text_rt">Vol. 3.</td> + <td class="text_rt">*1.</td> + <td class="justify">The avifauna of Micronesia, its origin, evolution, and distribution. By Rollin + H. Baker. Pp. 1-359, 16 figures in text. June 12, 1951.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">*2.</td> + <td class="justify">A quantitative study of the nocturnal migration of birds. By George H. + Lowery, Jr. Pp. 361-472, 47 figures in text. June 29, 1951.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">3.</td> + <td class="justify">Phylogeny of the waxwings and allied birds. By M. Dale Arvey. Pp. 473-530, + 49 figures in text, 13 tables. October 10, 1951.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">*4.</td> + <td class="justify">Birds from the state of Veracruz, Mexico. By George H. Lowery, Jr., and + Walter W. Dalquest. Pp. 531-649, 7 figures in text, 2 tables. October 10, 1951.</td> +</tr> +<tr> + <td> </td> + <td colspan="2" class="justify">Index. Pp. 651-681.</td> +</tr> +<tr> + <td class="text_rt">*Vol. 4.</td> + <td colspan="2" class="justify">(Complete) American weasels. By E. Raymond Hall. Pp. 1-466, 41 plates, 31 + figures in text. December 27, 1951.</td> +</tr> +<tr> + <td class="text_rt">Vol. 5.</td> + <td colspan="2" class="justify">Nos. 1-37 and index. Pp. 1-676, 1951-1953.</td> +</tr> +<tr> + <td class="text_rt">*Vol. 6.</td> + <td colspan="2" class="justify">(Complete) Mammals of Utah, <i>taxonomy and distribution</i>. By Stephen D. + Durrant. Pp. 1-549, 91 figures in text, 30 tables. August 10, 1952.</td> +</tr> +<tr> + <td class="text_rt">Vol. 7.</td> + <td colspan="2" class="justify">Nos. 1-15 and index. Pp. 1-651, 1952-1955.</td> +</tr> +<tr> + <td class="text_rt">Vol. 8.</td> + <td colspan="2" class="justify">Nos. 1-10 and index. Pp. 1-675, 1954-1956.</td> +</tr> +<tr> + <td class="text_rt">Vol. 9.</td> + <td colspan="2" class="justify">Nos. 1-23 and index. Pp. 1-690, 1955-1960.</td> +</tr> +<tr> + <td class="text_rt">Vol. 10.</td> + <td colspan="2" class="justify">Nos. 1-10 and index. Pp. 1-626, 1956-1960.</td> +</tr> +<tr> + <td class="text_rt">Vol. 11.</td> + <td colspan="2" class="justify">Nos. 1-10 and index. Pp. 1-703, 1958-1960.</td> +</tr> +<tr> + <td class="text_rt">Vol. 12.</td> + <td class="text_rt">*1.</td> + <td class="justify">Functional morphology of three bats: Eumops, Myotis, Macrotus. By Terry + A. Vaughan. Pp. 1-153, pls. 1-4, 24 figures in text. July 8, 1959.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">*2.</td> + <td class="justify">The ancestry of modern Amphibia: a review of the evidence. By Theodore + H. Eaton, Jr. Pp. 155-180, 10 figures in text. July 10, 1959.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">3.</td> + <td class="justify">The baculum in microtine rodents. By Sidney Anderson. Pp. 181-216, 49 + figures in text. February 19, 1960.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">*4.</td> + <td class="justify">A new order of fishlike Amphibia from the Pennsylvanian of Kansas. By + Theodore H. Eaton, Jr., and Peggy Lou Stewart. Pp. 217-240, 12 figures in + text. May 2, 1960.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">5.</td> + <td class="justify">Natural history of the Bell Vireo, Vireo bellii Audubon. By Jon C. Barlow. + Pp. 241-296, 6 figures in text. March 7, 1962.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">6.</td> + <td class="justify">Two new pelycosaurs from the lower Permian of Oklahoma. By Richard C. + Fox. Pp. 297-307, 6 figures in text. May 21, 1962.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">7.</td> + <td class="justify">Vertebrates from the barrier island of Tamaulipas, México. By Robert K. + Selander, Richard F. Johnston, B. J. Wilks, and Gerald G. Raun. Pp. 309-345, + pls. 5-8. June 18, 1962.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">8.</td> + <td class="justify">Teeth of edestid sharks. By Theodore H. Eaton, Jr. Pp. 347-362, 10 figures + in text. October 1, 1962.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">9.</td> + <td class="justify">Variation in the muscles and nerves of the leg in two genera of grouse (Tympanuchus + and Pedioecetes). By E. Bruce Holmes. Pp. 363-474, 20 figures + in text. October 25, 1963. $1.00.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">10.</td> + <td class="justify">A new genus of Pennsylvanian fish (Crossopterygii, Coelacanthiformes) from + Kansas. By Joan Echols. Pp. 475-501, 7 figures in text. October 25, 1963.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">11.</td> + <td class="justify">Observations on the Mississippi kite in southwestern Kansas. By Henry S. + Fitch. Pp. 503-519. October 25, 1963.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">12.</td> + <td class="justify">Jaw musculature of the Mourning and White-winged doves. By Robert L. + Merz. Pp. 521-551, 22 figures in text. October 25, 1963.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">13.</td> + <td class="justify">Thoracic and coracoid arteries in two families of birds, Columbidae and + Hirundinidae. By Marion Anne Jenkinson. Pp. 553-573, 7 figures in text. March 2, 1964.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">14.</td> + <td class="justify">The breeding birds of Kansas. By Richard F. Johnston. Pp. 575-655, 10 + figures in text. May 18, 1964. 75 cents.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">15.</td> + <td class="justify">The adductor muscles of the jaw in some primitive reptiles. By Richard C. + Fox. Pp. 657-680, 11 figures in text. May 18, 1964.</td> +</tr> +<tr> + <td> </td> + <td colspan="2" class="justify">Index. Pp. 681-694.</td> +</tr> +<tr> + <td class="text_rt">Vol. 13.<span class="pagenum"><a name="Page_ii" id="Page_ii">[Pg ii]</a></span></td> + <td class="text_rt">1.</td> + <td class="justify">Five natural hybrid combinations in minnows (Cyprinidae). By Frank B. + Cross and W. L. Minckley. Pp. 1-18. June 1, 1960.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">2.</td> + <td class="justify">A distributional study of the amphibians of the Isthmus of Tehuantepec, + México. By William E. Duellman. Pp. 19-72, pls. 1-8, 3 figures in text. + August 16, 1960. 50 cents.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">3.</td> + <td class="justify">A new subspecies of the slider turtle (Pseudemys scripta) from Coahulia, + México. By John M. Legler. Pp. 73-84, pls. 9-12, 3 figures in text. August + 16, 1960.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">*4.</td> + <td class="justify">Autecology of the copperhead. By Henry S. Fitch. Pp. 85-288, pls. 13-20, + 26 figures in text. November 30, 1960.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">5.</td> + <td class="justify">Occurrence of the garter snake, Thamnophis sirtalis, in the Great Plains and + Rocky Mountains. By Henry S. Fitch and T. Paul Maslin. Pp. 289-308, + 4 figures in text. February 10, 1961.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">6.</td> + <td class="justify">Fishes of the Wakarusa river in Kansas. By James E. Deacon and Artie L. + Metcalf. Pp. 309-322, 1 figure in text. February 10, 1961.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">7.</td> + <td class="justify">Geographic variation in the North American cyprinid fish, Hybopsis gracilis. + By Leonard J. Olund and Frank B. Cross. Pp. 323-348, pls. 21-24, 2 figures + in text. February 10, 1961.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">8.</td> + <td class="justify">Descriptions of two species of frogs, genus Ptychohyla; studies of American + hylid frogs, V. By William E. Duellman. Pp. 349-357, pl. 25, 2 figures + in text. April 27, 1961.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">9.</td> + <td class="justify">Fish populations, following a drought, in the Neosho and Marais des Cygnes + rivers of Kansas. By James Everett Deacon. Pp. 359-427, pls. 26-30, 3 figures + in text. August 11, 1961. 75 cents.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">10.</td> + <td class="justify">Recent soft-shelled <ins title='Correction: was "trutles"'>turtles</ins> of North America (family Trionychidae). By + Robert G. Webb. Pp. 429-611, pls. 31-54, 24 figures in text, February + 16, 1962. $2.00.</td> +</tr> +<tr> + <td> </td> + <td colspan="2" class="justify">Index. Pp. 613-624.</td> +</tr> +<tr> + <td class="text_rt">Vol. 14.</td> + <td class="text_rt">1.</td> + <td class="justify">Neotropical bats from western México. By Sydney Anderson. Pp. 1-8. + October 24, 1960.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">2.</td> + <td class="justify">Geographic variation in the harvest mouse. Reithrodontomys megalotis, on + the central Great Plains and in adjacent regions. By J. Knox Jones, Jr., + and B. Mursaloglu. Pp. 9-27, 1 figure in text. July 24, 1961.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">3.</td> + <td class="justify">Mammals of Mesa Verde National Park, Colorado. By Sydney Anderson. + Pp. 29-67, pls. 1 and 2, 3 figures in text. July 24, 1961.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">4.</td> + <td class="justify">A new subspecies of the black myotis (bat) from eastern Mexico. By E. + Raymond Hall and Ticul Alvarez. Pp. 69-72, 1 figure in text. December + 29, 1961.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">5.</td> + <td class="justify">North American yellow bats, "Dasypterus," and a list of the named kinds + of the genus Lasiurus Gray. By E. Raymond Hall and J. Knox Jones, Jr. + Pp. 73-98, 4 figures in text. December 29, 1961.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">6.</td> + <td class="justify">Natural history of the brush mouse (Peromyscus boylii) in Kansas with + description of a new subspecies. By Charles A. Long. Pp. 99-110, 1 figure + in text. December 29, 1961.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">7.</td> + <td class="justify">Taxonomic status of some mice of the Peromyscus boylii group in eastern + Mexico, with description of a new subspecies. By Ticul Alvarez. Pp. 111-120, + 1 figure in text. December 29, 1961.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">8.</td> + <td class="justify">A new subspecies of ground squirrel (Spermophilus spilosoma) from Tamaulipas, + Mexico. By Ticul Alvarez. Pp. 121-124. March 7, 1962.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">9.</td> + <td class="justify">Taxonomic status of the free-tailed bat, Tadarida yucatanica Miller. By J. + Knox Jones, Jr., and Ticul Alvarez. Pp. 125-133, 1 figure in text. March 7, 1962.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">10.</td> + <td class="justify">A new doglike carnivore, genus Cynaretus, from the Clarendonian Pliocene, + of Texas. By E. Raymond Hall and Walter W. Dalquest. Pp. 135-138, + 2 figures in text. April 30, 1962.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">11.</td> + <td class="justify">A new subspecies of wood rat (Neotoma) from northeastern Mexico. By + Ticul Alvarez. Pp. 139-143. April 30, 1962.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">12.</td> + <td class="justify">Noteworthy mammals from Sinaloa, Mexico. By J. Knox Jones, Jr., Ticul + Alvarez, and M. Raymond Lee. Pp. 145-159, 1 figure in text. May 18, 1962.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">13.</td> + <td class="justify">A new bat (Myotis) from Mexico. By E. Raymond Hall. Pp. 161-164, + 1 figure in text. May 21, 1962.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">*14.</td> + <td class="justify">The mammals of Veracruz. By E. Raymond Hall and Walter W. Dalquest. + Pp. 165-362, 2 figures. May 20, 1963. $2.00.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">15.</td> + <td class="justify">The recent mammals of Tamaulipas, México. By Ticul Alvarez. Pp. 363-473, + 5 figures in text. May 20, 1963. $1.00.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">16.</td> + <td class="justify">A new subspecies of the fruit-eating bat, Sturnira ludovici, from western + Mexico. By J. Knox Jones, Jr., and Gary L. Phillips. Pp. 475-481, 1 figure + in text. March 2, 1964.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">17.</td> + <td class="justify">Records of the fossil mammal Sinclairella, Family Apatemyidae, from the + Chadronian and Orellan. By William A. Clemens, Jr. Pp. 483-491, 2 figures + in text. March 2, 1964.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">18.</td> + <td class="justify">The mammals of Wyoming. By Charles A. Long. Pp. 493-758, 82 figures + in text. July 6, 1965. $3.00.</td> +</tr> +<tr> + <td> </td> + <td colspan="2" class="justify">Index. Pp. 759-784.</td> +</tr> +<tr> + <td class="text_rt">Vol. 15. + <span class="pagenum"><a name="Page_iii" id="Page_iii">[Pg iii]</a></span></td> + <td class="text_rt">1.</td> + <td class="justify">The amphibians and reptiles of Michoacán, México. By William E. Duellman. + Pp. 1-148, pls. 1-6, 11 figures in text. December 20, 1961. $1.50.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">2.</td> + <td class="justify">Some reptiles and amphibians from Korea. By Robert G. Webb, J. Knox + Jones, Jr., and George W. Byers. Pp. 149-173. January 31, 1962.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">3.</td> + <td class="justify">A new species of frog (Genus Tomodactylus) from western México. By + Robert G. Webb. Pp. 175-181, 1 figure in text. March 7, 1962.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">4.</td> + <td class="justify">Type specimens of amphibians and reptiles in the Museum of Natural History, + the University of Kansas. By William E. Duellman and Barbara Berg.<br /> + Pp. 183-204. October 26, 1962.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">5.</td> + <td class="justify">Amphibians and Reptiles of the Rainforests of Southern El Petén, Guatemala. + By William E. Duellman. Pp. 205-249, pls. 7-10, 6 figures in text. October 4, 1963.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">6.</td> + <td class="justify">A revision of snakes of the genus Conophis (Family Colubridae, from Middle + America). By John Wellman. Pp. 251-295, 9 figures in text. October 4, 1963.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">7.</td> + <td class="justify">A review of the Middle American tree frogs of the genus Ptychohyla. By + William E. Duellman. Pp. 297-349, pls. 11-18, 7 figures in text. October + 18, 1963. 50 cents.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">8.</td> + <td class="justify">Natural history of the racer Coluber constrictor. By Henry S. Fitch. Pp. + 351-468, pls. 19-22, 20 figures in text. December 30, 1963. $1.00.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">9.</td> + <td class="justify">A review of the frogs of the Hyla bistincta group. By William E. Duellman. + Pp. 469-491, 4 figures in text. March 2, 1964.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">10.</td> + <td class="justify">An ecological study of the garter snake, Thamnophis sirtalis. By Henry S. + Fitch. Pp. 493-564, pls. 23-25, 14 figures in text. May 17, 1965.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">11.</td> + <td class="justify">Breeding cycle in the ground skink, Lygosoma laterale. By Henry S. Fitch + and Harry W. Greene. Pp. 565-575, 3 figures in text. May 17, 1965.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">12.</td> + <td class="justify">Amphibians and reptiles from the Yucatan Peninsula, México. By William + E. Duellman. Pp. 577-614, 1 figure in text. June 22, 1965.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">13.</td> + <td class="justify">A new species of turtle, genus Kinosternon, from Central America. By John + M. Legler. Pp. 615-625, pls. 26-28, 2 figures in text. June 20, 1965.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">14.</td> + <td class="justify">A biogeographic account of the herpetofauna of Michoacán, México. By + William E. Duellman. Pp. 627-709, pls. 29-36, 5 figures in text. December + 30, 1965.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">15.</td> + <td class="justify">Amphibians and reptiles of Mesa Verde National Park, Colorado. By Charles + L. Douglas. Pp. 711-744, pls. 37 and 38, 6 figures in text. March 7, 1966.</td> +</tr> +<tr> + <td> </td> + <td colspan="2" class="justify">Index in preparation.</td> +</tr> +<tr> + <td class="text_rt">Vol. 16.</td> + <td class="text_rt">1.</td> + <td class="justify">Distribution and taxonomy of mammals of Nebraska. By J. Knox Jones, Jr. + Pp. 1-356, plates 1-4, 82 figures in text. October 1, 1964. $3.50.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">2.</td> + <td class="justify">Synopsis of the lagomorphs and rodents of Korea. By J. Knox Jones, Jr., + and David H. Johnson. Pp. 357-407. February 12, 1965.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">3.</td> + <td class="justify">Mammals from Isla Cozumel, Mexico, with description of a new species of + harvest mouse. By J. Knox Jones, Jr. and Timothy E. Lawlor. Pp. 409-419, + 1 figure in text. April 13, 1965.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">4.</td> + <td class="justify">The Yucatan deer mouse, Peromyscus yucatanicus. By Timothy E. Lawlor. + Pp. 421-438, 2 figures in text. July 20, 1965.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">5.</td> + <td class="justify">Bats from Gautemala. By J. Knox Jones, Jr. Pp. 439-472. April 18, 1966.</td> +</tr> +<tr> + <td> </td> + <td colspan="2" class="justify">More numbers will appear in volume 16.</td> +</tr> +<tr> + <td class="text_rt">Vol. 17.</td> + <td class="text_rt">1.</td> + <td class="justify">Localities of fossil vertebrates obtained from the Niobrara Formation (Cretaceous) + of Kansas. By David Bardack. Pp. 1-14. January 22, 1965.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">2.</td> + <td class="justify">Chorda tympani branch of the facial nerve in the middle ear of tetrapods. + By Richard C. Fox. Pp. 15-21. June 22, 1965.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">3.</td> + <td class="justify">Fishes of the Kansas River System in relation to zoogeography of the Great + Plains. By Artie L. Metcalf. Pp. 23-189, 4 figures in text, 51 maps. March 24, 1966.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">4.</td> + <td class="justify">Factors affecting growth and production of channel catfish, Ictalurus punctatus. + By Bill A. Simco and Frank B. Cross. Pp. 191-256, 13 figures in text. + June 6, 1966.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">5.</td> + <td class="justify">A new species of fringe-limbed tree frog, genus Hyla, from Darién, Panamá. + By William E. Duellman. Pp. 257-262, 1 figure in text. June 17, 1966.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">6.</td> + <td class="justify">Taxonomic notes on some Mexican and Central American hylid frogs. By + William E. Duellman. Pp. 263-279. June 17, 1966.</td> +</tr> +<tr> + <td> </td> + <td class="text_rt">7.</td> + <td class="justify">Neotropical hylid frogs, genus Smilisca. By William E. Duellman and Linda + Trueb. Pp. 281-375, pls. 1-12, 17 figures in text. July 14, 1966.</td> +</tr> +<tr> + <td> </td> + <td colspan="2" class="justify">More numbers will appear in volume 17.</td> +</tr> +</table> +<br /> +<br /> +<br /> +<br /> + +<div class="trans_notes"> +<div class="caption2">Transcriber's Note</div> + +With the exception of the corrections listed below and several minor +corrections not listed, the text presented is that which appeared in +the original printed version. The list of Kansas University publications +has been compiled at the end of the article. The cover displayed was +compiled from a image of the original cover with graphics from the +article added. + +<div class="caption2">Typographical Corrections</div> + +<table summary="typos"> + <tr> + <td class="brdbt2">Page</td> + <td> </td> + <td class="brdbt2">Correction</td> +</tr> +<tr> + <td><a href="#Page_287">287</a></td> + <td> </td> + <td>cleared ⇒ cleaned</td> +</tr> +<tr> + <td><a href="#Page_292">292</a></td> + <td> </td> + <td>Data based of => Data based on</td> +</tr> +<tr> + <td><a href="#Page_298">298</a></td> + <td> </td> + <td>CNMH ⇒ CNHM</td> +</tr> +<tr> + <td><a href="#Page_299">299</a></td> + <td> </td> + <td>Acahuitzotla ⇒ Acahuizotla</td> +</tr> +<tr> + <td><a href="#Page_304">304</a></td> + <td> </td> + <td>cyanostica ⇒ cyanosticta</td> +</tr> +<tr> + <td><a href="#Page_305">305</a></td> + <td> </td> + <td>Quatemala ⇒ Guatemala</td> +</tr> +<tr> + <td><a href="#Page_307">307</a></td> + <td> </td> + <td>cyanostica ⇒ cyanosticta</td> +</tr> +<tr> + <td><a href="#Page_313">313</a></td> + <td> </td> + <td>Matagalapa ⇒ Matagalpa</td> +</tr> +<tr> + <td><a href="#Page_322">322</a></td> + <td> </td> + <td>Carribean ⇒ Caribbean</td> +</tr> +<tr> + <td><a href="#Page_323">323</a></td> + <td> </td> + <td>Centralia ⇒ Centrali</td> +</tr> +<tr> + <td><a href="#Page_336">336</a></td> + <td> </td> + <td>proportionaely ⇒ proportionately</td> +</tr> +<tr> + <td><a href="#Page_346">346</a></td> + <td> </td> + <td>noticably ⇒ noticeably</td> +</tr> +<tr> + <td><a href="#Page_372">372</a></td> + <td> </td> + <td>Carvaljo ⇒ Carvalho</td> +</tr> +<tr> + <td><a href="#Page_375">375</a></td> + <td> </td> + <td>Dumeril ⇒ Duméril</td> +</tr> +<tr> + <td><a href="#Page_ii"> ii</a></td> + <td> </td> + <td>trutles ⇒ turtles</td> +</tr> +</table> + +<br /> +<br /> +</div> +</div><!-- End Book --> + + + + + + + + +<pre> + + + + + +End of the Project Gutenberg EBook of Neotropical Hylid Frogs, Genus Smilisca, by +William E. 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