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+The Project Gutenberg EBook of Fish Populations, Following a Drought, in
+the Neosho and Marais des Cygnes Rivers of Kansas, by James Everett Deacon
+
+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: Fish Populations, Following a Drought, in the Neosho and Marais des Cygnes Rivers of Kansas
+
+Author: James Everett Deacon
+
+Release Date: December 30, 2010 [EBook #34787]
+
+Language: English
+
+Character set encoding: ISO-8859-1
+
+*** START OF THIS PROJECT GUTENBERG EBOOK FISH POPULATIONS, FOLLOWING ***
+
+
+
+
+Produced by Chris Curnow, Joseph Cooper and the Online
+Distributed Proofreading Team at http://www.pgdp.net
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+
+
+                  UNIVERSITY OF KANSAS PUBLICATIONS
+                      MUSEUM OF NATURAL HISTORY
+
+          Volume 13, No. 9, pp. 359-427, pls. 26-30, 3 figs.
+                           August 11, 1961
+
+
+                Fish Populations, Following a Drought,
+              In the Neosho and Marais des Cygnes Rivers
+                              of Kansas
+
+                                  BY
+
+                         JAMES EVERETT DEACON
+
+
+       (Joint Contribution from the State Biological Survey and
+               the Forestry, Fish, and Game Commission)
+
+
+                         UNIVERSITY OF KANSAS
+                               LAWRENCE
+                                 1961
+
+
+
+
+     UNIVERSITY OF KANSAS PUBLICATIONS, MUSEUM OF NATURAL HISTORY
+
+         Editors: E. Raymond Hall, Chairman, Henry S. Fitch,
+                           Robert W. Wilson
+
+          Volume 13, No. 9, pp. 359-427, pls. 26-30, 3 figs.
+                      Published August 11, 1961
+
+
+                         UNIVERSITY OF KANSAS
+                           Lawrence, Kansas
+
+
+                              PRINTED IN
+                       THE STATE PRINTING PLANT
+                            TOPEKA, KANSAS
+                                 1961
+
+                               28-7576
+
+
+
+
+                Fish Populations, Following a Drought,
+              In the Neosho and Marais des Cygnes Rivers
+                              of Kansas
+
+                                  BY
+
+                         JAMES EVERETT DEACON
+
+
+
+
+CONTENTS
+
+
+                                                            PAGE
+  INTRODUCTION                                               363
+
+  DESCRIPTION OF NEOSHO RIVER                                366
+
+  DESCRIPTION OF MARAIS DES CYGNES RIVER                     367
+
+  METHODS                                                    368
+    Electrical Fishing Gear                                  368
+    Seines                                                   369
+    Gill Nets                                                370
+    Sodium Cyanide                                           370
+    Rotenone                                                 370
+    Dyes                                                     370
+    Determination of Abundance                               371
+    Names of Fishes                                          371
+
+  ANNOTATED LIST OF SPECIES                                  371
+
+  FISH-FAUNA OF THE UPPER NEOSHO RIVER                       405
+    Description of Study-areas                               405
+    Methods                                                  406
+    Changes in the Fauna at the Upper Neosho Station,
+      1957 through 1959                                      407
+    Local Variability of the Fauna in Different Areas
+      at the Upper Neosho Station, 1959                      409
+    Temporal Variability of Fauna in the Same Areas          411
+    Population-Estimation                                    412
+    Movement of Marked Fish                                  416
+    Similarity of the Fauna at the Upper Neosho Station
+      to the Faunas of Nearby Streams                        418
+
+  COMPARISON OF THE FISH-FAUNAS OF THE NEOSHO AND MARAIS
+    DES CYGNES RIVERS                                        419
+
+  FAUNAL CHANGES, 1957 THROUGH 1959                          420
+
+  CONCLUSIONS                                                423
+
+  ACKNOWLEDGMENTS                                            425
+
+  LITERATURE CITED                                           425
+
+
+
+
+TABLES
+
+
+                                                                PAGE
+   1. Stream-flow in Cubic Feet per Second (C. F. S.), Neosho
+      River near Council Grove, Kansas                           364
+
+   2. Stream-flow in Cubic Feet per Second, Neosho River near
+      Parsons, Kansas                                            364
+
+   3. Stream-flow in Cubic Feet per Second, Marais des Cygnes
+      River near Ottawa, Kansas                                  364
+
+   4. Stream-flow in Cubic Feet per Second, Marais des Cygnes
+      River at Trading Post, Kansas                              365
+
+   5. Numbers and sizes of long-nosed gar                        372
+
+   6. Numbers and sizes of short-nosed gar                       374
+
+   7. Length-frequency of channel catfish from the Neosho River  388
+
+   8. Length-frequency of freshwater drum                        402
+
+   9. Average number of individuals captured per hour            402
+
+  10. Numbers of fish seen or captured per hour                  403
+
+  11. Numbers of occurrences and numbers counted                 404
+
+  12. Percentage composition of the fish fauna at the Upper
+      Neosho station in 1957, 1958 and 1959, as computed
+      from results of rotenone collections                       408
+
+  13. Relative abundance of fish                                 410
+
+  14. Changes in numbers of individuals                          411
+
+  15. Data used in making direct proportion
+      population-estimations                                     414
+
+  16. Data on movement of marked fish                            416
+
+
+
+
+INTRODUCTION
+
+
+This report concerns the ability of fish-populations in the Neosho and
+Marais des Cygnes rivers in Kansas to readjust to continuous stream-flow
+following intermittent conditions resulting from the severest drought in
+the history of the State.
+
+The variable weather in Kansas (and in other areas of the Great Plains)
+markedly affects its flora and fauna. Weaver and Albertson (1936)
+reported as much as 91 per cent loss in the basal prairie vegetative
+cover in Kansas near the close of the drought of the 1930's. The average
+annual cost (in 1951 prices) of floods in Kansas from 1926 to 1953 was
+$35,000,000. In the same period the average annual loss from the
+droughts of the 1930's and 1950's was $75,000,000 (in 1951 prices),
+excluding losses from wind- and soil-erosion. Thus, over a period of 28
+years, the average annual flood-losses were less than one-half the
+average annual drought-losses (Foley, Smrha, and Metzler, 1955:9;
+Anonymous, 1958:15).
+
+Weather conditions in Kansas from 1951 to 1957 were especially
+noteworthy: 1951 produced a bumper crop of climatological events
+significant to the economy of the State. Notable among these were:
+Wettest year since beginning of the state-wide weather records in 1887;
+highest river stages since settlement of the State on the Kansas River
+and on most of its tributaries, as well as on the Marais des Cygnes and
+on the Neosho and Cottonwood. The upper Arkansas and a number of smaller
+streams in western Kansas also experienced unprecedented flooding
+(Garrett, 1951:147). This period of damaging floods was immediately
+followed by the driest five-year period on record, culminating in the
+driest year in 1956 (Garrett, 1958:56). Water shortage became serious
+for many communities. The Neosho River usually furnishes adequate
+quantities of water for present demands, but in some years of drought
+all flow ceases for several consecutive months. In 1956-'57, the city of
+Chanute, on an emergency basis, recirculated treated sewage for potable
+supply (Metzler _et al._, 1958). The water shortage in many communities
+along the Neosho River became so serious that a joint project to pump
+water from the Smoky Hill River into the upper Neosho was considered,
+and preliminary investigations were made. If the drought had continued
+through 1957, this program might have been vigorously promoted. Data on
+stream-flow in the Neosho and Marais des Cygnes (1951-'59) are presented
+in Tables 1-4.
+
+These severe conditions provided a unique opportunity to gain insight
+into the ability of several species of fish to adjust to marked changes
+in their environment. For this reason, and because of a paucity of
+information concerning stream-fish populations in Kansas, the study here
+reported on was undertaken.
+
+  TABLE 1. STREAM-FLOW IN CUBIC FEET PER SECOND, NEOSHO RIVER
+  NEAR COUNCIL GROVE, KANSAS. DRAINAGE AREA: 250 SQUARE MILES.
+
+  =========================================================
+  WATER-YEAR[A]  | Average flow |   Maximum  |   Minimum  |
+  ---------------+--------------+------------+------------+
+  1951           |     498.0    |   121,000  |     3.0    |
+  1952           |      82.1    |     4,850  |      .7    |
+  1953           |       5.37   |       202  |      .1    |
+  1954           |       8.53   |     2,720  |      .1    |
+  1955           |      31.2    |     6,480  |     0      |
+  1956           |      10.1    |     5,250  |     0      |
+  1957           |      68.5    |    12,300  |     0      |
+  1958           |     131.0    |     5,360  |      .8    |
+  1959           |     114.0    |     7,250  |     8.5    |
+  ---------------+--------------+------------+------------+
+
+  TABLE 2. STREAM-FLOW IN CUBIC FEET PER SECOND, NEOSHO RIVER
+  NEAR PARSONS, KANSAS. DRAINAGE AREA: 4905 SQUARE MILES.
+
+  =========================================================
+  WATER-YEAR[B]  | Average flow |   Maximum  |   Minimum  |
+  ---------------+--------------+------------+------------+
+  1951           |    8,290     |  410,000   |  124.0     |
+  1952           |    2,021     |   20,500   |   20.0     |
+  1953           |      173     |    4,110   |     .3     |
+  1954           |      430     |   27,900   |     .1     |
+  1955           |      645     |   18,600   |    0       |
+  1956           |      180     |    6,170   |    0       |
+  1957           |    1,774     |   25,000   |    0       |
+  1958           |    3,092     |   27,200   |   78.0     |
+  1959           |    1,609     |   22,600   |  139.0     |
+  ---------------+--------------+------------+------------+
+
+  TABLE 3. STREAM-FLOW IN CUBIC FEET PER SECOND, MARAIS DES CYGNES
+  RIVER NEAR OTTAWA, KANSAS. DRAINAGE AREA: 1,250 SQUARE MILES.
+
+  =========================================================
+  WATER-YEAR     | Average flow |   Maximum  |   Minimum  |
+  ---------------+--------------+------------+------------+
+  1951           |    2,113     |   142,000  |     25.0   |
+  1952           |      542     |    12,000  |       .2   |
+  1953           |       36.5   |     2,690  |       .2   |
+  1954           |       73.6   |     5,660  |       .5   |
+  1955           |       75.7   |     5,240  |       .7   |
+  1956           |       26     |     1,590  |       .7   |
+  1957           |      442     |    11,200  |       .7   |
+  1958           |      775     |     9,130  |      5.6   |
+  ---------------+--------------+------------+------------+
+
+  TABLE 4. STREAM-FLOW IN CUBIC FEET PER SECOND, MARAIS DES CYGNES
+  RIVER AT TRADING POST, KANSAS. DRAINAGE AREA: 2,880 SQUARE MILES.
+
+  =========================================================
+  WATER-YEAR     | Average flow |   Maximum  |   Minimum  |
+  ---------------+--------------+------------+------------+
+  1951           |     5,489    |   148,000  |   36.0     |
+  1952           |     1,750    |    20,400  |    3.0     |
+  1953           |       261    |     7,590  |    0       |
+  1954           |       334    |    12,500  |    0       |
+  1955           |       786    |    16,100  |     .2     |
+  1956           |       202    |    10,000  |    0       |
+  1957           |       871    |    14,700  |    0       |
+  1958           |     2,453    |    20,400  |  120.0     |
+  [C]1959        |       750    |    10,900  |    3.4     |
+  ---------------+--------------+------------+------------+
+
+  [A] (Oct. 1-Sept. 30, inclusive)
+
+  [B] (Oct. 1-Sept. 30, inclusive)
+
+  [C] The gaging station was moved a short distance downstream
+      to the Kansas-Missouri state line.
+
+
+
+
+DESCRIPTION OF NEOSHO RIVER
+
+
+The Neosho River, a tributary of Arkansas River, rises in the Flint
+Hills of Morris and southwestern Wabaunsee counties and flows southeast
+for 281 miles in Kansas, leaving the state in the extreme southeast
+corner (Fig. 1). With its tributaries (including Cottonwood and Spring
+rivers) the Neosho drains 6,285 square miles in Kansas and enters the
+Arkansas River near Muskogee, Oklahoma (Schoewe, 1951:299). Upstream
+from its confluence with Cottonwood River, the Neosho River has an
+average gradient of 15 feet per mile. The gradient lessens rapidly below
+the mouth of the Cottonwood, averaging 1.35 feet per mile downstream to
+the State line (Anonymous, 1947:12). The banks of the meandering,
+well-defined channel vary from 15 to 50 feet in height and support a
+deciduous fringe-forest. The spelling of the name originally was
+"Neozho," an Osage Indian word signifying "clear water" (Mead,
+1903:216).
+
+  [Illustration: FIG. 1.  Neosho and Marais des Cygnes drainage
+  systems. Dots and circles indicate collecting-stations.]
+
+
+_Neosho River, Upper Station._--Two miles north and two miles west of
+Council Grove, Morris County, Kansas (Sec. 32 and 33, T. 15 S., R. 8 E.)
+(Pl. 28, Fig. 2, and Pl. 29, Fig. 1). Width 20 to 40 feet, depth to six
+feet, length of study-area one-half mile (one large pool plus many small
+pools connected by riffles), bottom of mud, gravel, and rubble. Muddy
+banks 20 to 30 feet high.
+
+According to H. E. Bosch (landowner) this section of the river dried
+completely in 1956, except for the large pool mentioned above. This
+section was intermittent in 1954 and 1955; it again became intermittent
+in the late summer of 1957 but not in 1958 or 1959.
+
+A second section two miles downstream (on land owned by Herbert White)
+was studied in the summer of 1959 (Sec. 3 and 10, T. 16 S., R. 8 E.)
+(Pl. 29, Fig. 2 and Pl. 30, Figs. 1 and 2). This section is 20 to 60
+feet in width, to five feet in depth, one-half mile in length (six small
+pools with intervening riffles bounded upstream by a low-head dam and
+downstream by a long pool), having a bottom of gravel, rubble, bedrock,
+and mud, and banks of mud and rock, five to 20 feet in height.
+
+
+_Neosho River, Middle Station._--One mile east and one and one-half
+miles south of Neosho Falls, Woodson County, Kansas (Sec. 3 and 4, T. 24
+S., R. 17 E.) (Pl. 26, Fig. 1). Width 60 to 70 feet, depth to eleven
+feet, length of study-area two miles (four large pools with connecting
+riffles), bottom of mud, gravel and rock. Mud and rock banks 30 to 40
+feet high.
+
+According to Floyd Meats (landowner) this section of the river was
+intermittent for part of the drought.
+
+
+_Neosho River, Lower Station._--Two and one-half miles west, one-half
+mile north of Saint Paul, Neosho County, Kansas (Sec. 16, T. 29 S., R.
+20 E.). Width 100 to 125 feet, depth to ten feet, length of study-area
+one mile (two large pools connected by a long rubble-gravel riffle),
+bottom of mud, gravel, and rock. Banks, of mud and rock, 30 to 40 feet
+high (Pl. 26, Fig. 2).
+
+This station was established after one collection of fishes was made
+approximately ten miles upstream (Sec. 35, T. 28 S., R. 19 E.). The
+second site, suggested by Ernest Craig, Game Protector, provided greater
+accessibility and a more representative section of stream than the
+original locality.
+
+
+
+
+DESCRIPTION OF MARAIS DES CYGNES RIVER
+
+
+The Marais des Cygnes River, a tributary of Missouri River, rises in the
+Flint Hills of Wabaunsee County, Kansas, and flows generally eastward
+through the southern part of Osage County and the middle of Franklin
+County. The river then takes a southeasterly course through Miami County
+and the northeastern part of Linn County, leaving the state northeast of
+Pleasanton. With its tributaries (Dragoon, Salt, Pottawatomie, Bull and
+Big Sugar creeks) the river drains 4,360 square miles in Kansas
+(Anonymous, 1945:23), comprising the major part of the area between the
+watersheds of the Kansas and Neosho rivers. The gradient from the
+headwaters to Quenemo is more than five feet per mile, from Quenemo to
+Osawatomie 1.53 feet per mile, and from Osawatomie to the State line
+1.10 feet per mile (Anonymous, 1945:24). The total length is
+approximately 475 miles (150 miles in Kansas). The river flows in a
+highly-meandering, well-defined channel that has been entrenched from 50
+to 250 feet (Schoewe, 1951:294). "Marais des Cygnes" is of French
+origin, signifying "the marsh of the swans."
+
+
+_Marais des Cygnes River, Upper Station._--One mile south and one mile
+west of Pomona, Franklin County, Kansas (Sec. 12, T. 17 S., R. 17 E.)
+(Pl. 27, Fig. 1). Width 30 to 40 feet, depth to six feet, length of
+study-area one-half mile (three large pools with short connecting
+riffles), bottom of mud and bedrock. Mud banks 30 to 40 feet high.
+
+According to P. Lindsey (landowner) this section of the river was
+intermittent for most of the drought. Flow was continuous in 1957, 1958
+and 1959.
+
+There are four low-head dams between the upper and middle Marais des
+Cygnes stations.
+
+
+_Marais des Cygnes River, Middle Station._--One mile east of Ottawa,
+Franklin County, Kansas (Sec. 6, T. 17 S., R. 20 E.) (Pl. 27, Fig. 2).
+Width 50 to 60 feet, depth to eight feet, length of study-area one-half
+mile (one large pool plus a long riffle interrupted by several small
+pools), bottom of mud, gravel, and rock. Mud and sand banks 30 to 40
+feet high.
+
+This section of the river was intermittent for much of the drought. In
+the winter of 1957-'58 a bridge was constructed over this station as a
+part of Interstate Highway 35. Because of this construction many trees
+were removed from the stream-banks, the channel was straightened, a
+gravel-bottomed riffle was rerouted, and silt was deposited in a
+gravel-bottom pool.
+
+
+_Marais des Cygnes River, Lower Station._--At eastern edge of Marais des
+Cygnes Wildlife Refuge, Linn County, Kansas (Sec. 9, T. 21 S., R. 25
+E.). Width 80 to 100 feet, depth to eight feet, length of study-area
+one-half mile (one large pool plus a long riffle interrupted by several
+small pools), bottom of mud, gravel, and rock. Mud banks 40 to 50 feet
+high.
+
+This section of the river ceased to flow only briefly in 1956.
+
+
+
+
+METHODS
+
+
+_Electrical Fishing Gear_
+
+The principal collecting-device used was a portable (600-watt, 110-volt,
+A. C.) electric shocker carried in a 12-foot aluminum boat. Two 2 ×
+2-inch wooden booms, each ten feet long, were attached to the front of
+the boat in a "V" position so they normally were two feet above the
+surface of the water. A nylon rope attached to the tips of the booms
+held them ten feet apart. Electrodes, six feet long, were suspended from
+the tip and center of each boom, and two electrodes were suspended from
+the nylon rope. The electrodes extended approximately four feet into the
+water. Of various materials used for electrodes, the most satisfactory
+was a neoprene-core, shielded hydraulic hose in sections two feet long.
+These lengths could be screwed together, permitting adjustment of the
+length of the electrodes with minimum effort. At night, a sealed-beam
+automobile headlight was plugged into a six-volt D. C. outlet in the
+generating unit and a Coleman lantern was mounted on each gunwale to
+illuminate the area around the bow and along the sides of the boat (Pl.
+3a). In late summer, 1959, a 230-volt, 1500-watt generating unit,
+composed of a 115-volt, 1500-watt Homelite generator was used. It was
+attached to a step-up transformer that converted the current to 230
+volts. The same booms described above were used with the 230-volt unit,
+with single electrodes at the tip of each boom.
+
+A 5.5-horsepower motor propelled the boat, and the stunned fish were
+collected by means of scap nets. Fishes seen and identified but not
+captured also were recorded. On several occasions fishes were collected
+by placing a 25-foot seine in the current and shocking toward the seine
+from upstream.
+
+The shocker was used in daylight at all six stations in the three years,
+1957-'59. Collections were made at night in 1958 and 1959 at the middle
+Neosho station and in 1959 at the lower Neosho station.
+
+
+_Seines_
+
+Seines of various lengths (4, 6, 12, 15, 25 and 60 feet), with
+mesh-sizes varying from bobbinet to one-half inch, were used. The
+4-, 12-, and 25-foot seines were used in the estimation of relative
+abundance by taking ten hauls with each seine, recording all species
+captured in each haul, and making a total count of all fish captured in
+two of the ten hauls. The two hauls to be counted were chosen prior to
+each collection from a table of random numbers. Additional selective
+seining was done to ascertain the habitats occupied by different
+species.
+
+_Trap, Hoop, and Fyke Nets._--Limited use was made of unbaited trapping
+devices: wire traps 2.5 feet in diameter, six feet long, covered with
+one-inch-mesh chicken wire; hoop nets 1.5 feet to three feet in
+diameter at the first hoop with a pot-mesh of one inch; and a fyke net
+three feet in diameter at the first hoop, pot-mesh of one inch with
+wings three feet in length. All of these were set parallel to the
+current with the mouths downstream. The use of trapping devices was
+abated because data obtained were not sufficient to justify the effort
+expended.
+
+
+_Gill Nets_
+
+Gill-netting was done mostly in 1959 at the lower Neosho station. Use of
+gill nets was limited because frequent slight rises in the river caused
+nets to collect excessive debris, with damage to the nets.
+
+Gill nets used were 125 feet long, six feet deep, with mesh sizes of
+3/4 inch to 2-1/2 inches. Nets, weighted to sink, were placed at right
+angles to the current and attached at the banks with rope.
+
+
+_Sodium Cyanide_
+
+Pellets of sodium cyanide were used infrequently to collect fish from a
+moderately fast riffle over gravel bottom that was overgrown with
+willows, making seining impossible. The pellets were dissolved in a
+small amount of water, a seine was held in place, and the cyanide
+solution was introduced into the water a short distance upstream from
+the seine, causing incapacitated fish to drift into the seine. Most of
+these fish that were placed in uncontaminated water revived.
+
+
+_Rotenone_
+
+Rotenone was used in a few small pools in efforts to capture complete
+populations. This method was used to check the validity of other
+methods, and to reduce the possibility that rare species would go
+undetected. Rotenone was applied by hand, and applications were
+occasionally supplemented by placing rotenone in a container that was
+punctured with a small hole and suspended over the water at the head of
+a riffle draining into the area being poisoned. This maintained a toxic
+concentration in the pool for sufficient time to obtain the desired
+kill. Rotenone acts more slowly than cyanide, allowing more of the
+distressed fish to rise to the surface.
+
+
+_Dyes_
+
+Bismark Brown Y was used primarily at the upper Neosho station to stain
+large numbers of small fish. The dye was used at a dilution of 1:20,000.
+Fishes were placed in the dye-solution for three hours, then
+transferred to a live-box in midstream for variable periods (ten minutes
+to twelve hours) before release.
+
+
+_Determination of Abundance_
+
+In the accounts of species that follow, the relative terms "abundant,"
+"common," and "rare" are used. Assignment of one of these terms to each
+species was based on analysis of data that are presented in Tables 9-16,
+(pages 402, 403, 404, 405, 408, 410, 411, 414-415, and 416). The number
+of fish caught per unit of effort with the shocker (Table 10) and with
+seines (Table 11) constitute the main basis for statements about the
+abundance of each species at all stations except the upper Neosho
+station. Species listed in each Table (10 and 11) are those that were
+taken consistently by the method specified in the caption of the table;
+erratically, but in large numbers at least once, by that method; and
+those taken by the method specified but not the other method.
+
+For the species listed in Table 10, the following usually applies:
+abundant=more than three fish caught per hour; common=one to three fish
+caught per hour; rare=less than one fish caught per hour.
+
+Tables 12-16 list all fish obtained at the upper Neosho station by means
+of the shocker, seines, and rotenone.
+
+
+_Names of Fishes_
+
+Technical names of fishes are those that seem to qualify under the
+International Rules of Zoological Nomenclature. Vernacular names are
+those in Special Publication No. 2 (1960) of the American Fisheries
+Society, with grammatical modifications required for use in the
+University of Kansas Publications, Museum of Natural History.
+
+
+
+
+ANNOTATED LIST OF SPECIES
+
+
+#Lepisosteus osseus# (Linnaeus)
+
+Long-nosed Gar
+
+The long-nosed gar was abundant at the lower and middle Neosho stations
+and the lower Marais des Cygnes station. Numbers increased slightly in
+the period of study, probably because of increased, continuous flow. The
+long-nosed gar was not taken at the upper Neosho station. At lower
+stations the fish occurred in many habitats, but most commonly in pools
+where gar often were seen with their snouts protruding above the water
+in midstream. Gar commonly lie quietly near the surface, both by day and
+by night, and are therefore readily collected by means of the shocker.
+Twice, at night, gar jumped into the boat after being shocked.
+
+Young-of-the-year were taken at the middle and lower stations on both
+the Neosho and Marais des Cygnes rivers, and all were near shore in
+quiet water. Many young-of-the-year were seined at the lower Neosho
+station on 18 June 1959, near the lower end of a gravel-bar in a small
+backwater-area having a depth of one to three inches, a muddy bottom,
+and a higher temperature than the mainstream. Forty-three of these young
+gar averaged 2.1 inches in total length (T.L.).
+
+Comparison of sizes of long-nosed gar taken by means of the shocker and
+gill nets at the lower and middle Neosho stations revealed that: the
+average size at each station remained constant from 1957 to 1959; the
+average size was greater at the lower than at the middle station; and,
+with the exception of young-of-the-year, no individual shorter than 13
+inches was found at the middle station and only one shorter than 16
+inches was taken at the lower station (Table 5).
+
+Because collecting was intensive and several methods were used, I think
+that the population of gars was sampled adequately. Wallen (_Fishes of
+the Verdigris River in Oklahoma_, 1958:29 [mimeographed copy of
+dissertation, Oklahoma State University]) took large individuals in the
+mainstream of the Verdigris River in Oklahoma and small specimens from
+the headwaters of some tributaries. Because I took young-of-the-year at
+the lower Neosho station, it is possible that long-nosed gar move
+upstream when small and then slowly downstream to the larger parts of
+rivers as the fish increase in size. This pattern of size-segregation,
+according to size of river, merits further investigation.
+
+Ripe, spent, and immature long-nosed gar (38 males and 10 females) were
+taken in three gill nets, set across the channel, 150 to 500 yards below
+a riffle, at the lower Neosho station on June 16, 17, and 18, 1959. On
+23 June, 1959, 12 males and two females were taken in gill nets set 50,
+150, and 400 yards above the same riffle. Operations with the shocker
+between 24 June and 10 July, 1959, yielded 29 males and three females.
+The fish were taken from many kinds of habitat in a three-mile section
+of the river.
+
+Direction of movement as recorded from gill nets shows that of 67 gar
+taken, 45 had moved downstream and 22 upstream into the nets. Only ten
+of the above gar were taken from the nets set above the riffle; six of
+the ten were captured as they moved downstream into the nets.
+
+On one occasion I watched minnows swimming frantically about, jumping
+out of the water, and crowding against the shore, presumably to avoid a
+long-nosed gar that swam slowly in and out of view. I have observed
+similar activity when gar fed in aquaria. Stomachs of a few gar from the
+Neosho River were examined and found to contain minnows and some channel
+catfish.
+
+Long-nosed gar have a relatively long life span (Breder, 1936). This
+longevity and their ability to gulp air probably insure excellent
+survival through periods of adverse conditions. The population of
+long-nosed gar probably would not be drastically affected even in the
+event of a nearly complete failure of one or two successive hatches.
+Maturity is attained at approximately 20 inches, total length.
+
+Collections at the middle Neosho station in 1958 indicate that the
+long-nosed gar is more susceptible to capture at night than in daytime
+(Table 9, p. 402).
+
+  TABLE 5. NUMBERS AND SIZES OF LONG-NOSED GAR CAPTURED
+  BY SHOCKER AND GILL NETS AT THE MIDDLE AND LOWER NEOSHO
+  STATIONS IN 1957, 1958 AND 1959.
+
+                                     Average total
+  Location          Date   Number   length (inches)   Range
+
+  Middle Neosho     1957    19            22.2        14-32
+  Middle Neosho     1958    57            22.2        14-40
+  Middle Neosho     1959    64            21.6        13-43
+  Lower Neosho      1957    14            29.4         9-45
+  Lower Neosho      1958     7            25.3        23-28
+  Lower Neosho      1959   107            26.2        16-43
+
+
+#Lepisosteus platostomus Rafinesque#
+
+Short-nosed Gar
+
+Only one short-nosed gar was taken in 1957, at the lower station on the
+Neosho River. In 1958 this species was taken at the lower station on the
+Marais des Cygnes and in 1958 and 1959 at the lower and middle stations
+on the Neosho. More common in the Neosho than the Marais des Cygnes, _L.
+platostomus_ occurs mainly in large streams and never was taken in the
+upper portions of either river. Although short-nosed gar were about
+equally abundant at the middle and lower stations on the Neosho, the
+average size was greater at the lower station (Table 6). This kind of
+segregation by size is shared with long-nosed gar, and was considered in
+the discussion of that species. Short-nosed gar were taken only in quiet
+water. Both species were collected most efficiently by means of gill
+nets and shocker. While shocking, I saw many gar only momentarily, as
+they appeared at the surface, and specific identification was
+impossible. The total of all gar seen while shocking indicated that gar
+increased in abundance from 1957 to 1959 (see Tables 5 and 6). Judging
+from the gar that were identified, the increase was more pronounced in
+short-nosed gar than in long-nosed gar.
+
+At the lower Neosho station in 1959, two ripe females and one spent
+female were taken in gill nets (16, 23 and 17 June, respectively) and
+were moving downstream when caught. No males were taken in the nets.
+Subsequently, by means of the shocker (26 June-8 July), two spent and
+two ripe males were captured in quiet water of the mainstream that
+closely resembled areas in which the gill nets were set. No females were
+taken by means of the shocker.
+
+  TABLE 6. NUMBERS AND SIZES OF SHORT-NOSED GAR CAPTURED BY SHOCKER AND
+  GILL NETS AT THE MIDDLE AND LOWER NEOSHO STATIONS IN 1958 AND 1959.
+
+                                            Average total
+  Location                  Date   Number  length (inches)   Range
+
+  Middle Neosho             1958    6          14.9        13.9-15.5
+  Middle Neosho             1959    9          13.6        11.0-16.0
+  Lower Neosho              1958    3          21.0        20.3-21.6
+  Lower Neosho              1959    5          21.3        18.0-24.5
+
+
+#Dorosoma cepedianum# (LeSueur)
+
+Gizzard Shad
+
+Gizzard shad declined in abundance from 1957 to 1959. The largest
+population occurred at the middle station on the Marais des Cygnes in
+1957. Shad were mainly in quiet water; often, when the river-level was
+high, I found them predominately in backwaters or in the mouths of
+tributary streams. Examination of nine individuals, ranging in size from
+seven inches to 13.5 inches T. L., indicated that maturity is reached at
+10 to 11 inches T. L. Spawning probably occurred in late June in 1959
+("ripe" female caught on 26 June); young-of-the-year were first recorded
+in mid-July.
+
+
+#Cycleptus elongatus# (LeSueur)
+
+Blue Sucker
+
+The blue sucker was taken rarely in the Neosho River and not at all in
+the Marais des Cygnes in my study. Cross (personal communication)
+obtained several blue suckers in collections made in the mainstream of
+the Neosho River in 1952; both young and adults occupied swift, deep
+riffles. The species seemingly declined in abundance during the drought,
+and at the conclusion of my study (1959) had not regained the level of
+abundance found in 1952.
+
+
+#Ictiobus cyprinella# (Valenciennes)
+
+Big-mouthed Buffalo
+
+Big-mouthed buffalo were found in quiet water at all stations, but were
+rare. A ripe female, 21.5 inches long, was taken at the lower station on
+the Neosho on 16 June, 1959.
+
+
+#Ictiobus niger# (Rafinesque)
+
+Black Buffalo
+
+and
+
+#Ictiobus bubalus# (Rafinesque)
+
+Small-mouthed Buffalo
+
+Black buffalo were not taken at the upper station on the Neosho and were
+rare at other stations. Small-mouthed buffalo were taken at all stations
+and were common in the lower portions of the two streams. While the
+shocker was being used, buffalo were often seen only momentarily,
+thereby making specific identification impossible; both species were
+frequently taken together, and for this reason are discussed as a unit.
+Both species maintained about the same level of abundance throughout my
+study.
+
+The two species were taken most often in the deeper, swifter currents of
+the mainstream, but were sometimes found in pools, creek-mouths and
+backwaters. On several occasions in the summer of 1959, buffalo were
+seen in shallow parts of long, rubble riffles, with the dorsal or caudal
+fins protruding above the surface. Ernest Craig, game protector, said
+buffalo on such riffles formerly provided much sport for gig-fishermen.
+He stated that the best catches were made at night because the fish were
+less "spooky" then than in daytime. In my collections made by use of the
+shocker, buffalo were taken more frequently at night (Table 9, p. 402).
+
+On 19 June, 1959, I saw many buffalo that seemed to be feeding as they
+moved slowly upstream along the bottom of a riffle. The two species,
+often side by side, were readily distinguishable underwater.
+Small-mouthed buffalo appeared to be paler (slate gray) and more
+compressed than the darker black buffalo. To test the reliability of
+underwater identifications, I identified all individuals prior to
+collection with a gig. Correct identification was made of all fish
+collected on 19 June. The smallest individual obtained in this manner
+was 18.5 inches T. L. On 26 August, 1959, 16 small-mouthed buffalo were
+captured and many more were seen while the shocker was in use in the
+same riffle for one hour and ten minutes. One small-mouthed buffalo was
+caught while the shocker was being used in the pool below that riffle
+for one hour and fifty minutes. No black buffalo were taken on 26
+August.
+
+Spawning by buffalo was not observed but probably occurred in spring;
+all mature fish in my earliest collections (mid-June of each year) were
+spent. Small-mouthed buffalo reach maturity at approximately 14 inches
+T. L.
+
+
+#Carpiodes carpio carpio# (Rafinesque)
+
+River Carpsucker
+
+River carpsucker were abundant throughout the study at all stations.
+Adults were taken most frequently in quiet water, but depth and
+bottom-type varied. The greatest concentrations occurred in mouths of
+creeks during times of high water; occasionally, large numbers were
+taken in a shallow backwater near the head of a riffle at the middle
+Neosho station. River carpsucker feed on the bottom but seem partly
+pelagic in habit. They were taken readily by means of the shocker and
+gill nets at all depths. The population of _C. carpio_ in the Neosho
+River probably was depleted by drought, although many individuals
+survived in the larger pools.
+
+When stream-flow was restored, carpsucker probably moved rapidly
+upstream but had a scattered distribution in 1957. Trautman (1957:239)
+states that in the Scioto River, Ohio, river carpsucker moved upstream
+in May and downstream in late August and early September. Numbers found
+at the middle and lower Neosho stations suggest similar movements in the
+Neosho River in 1957. In midsummer they were common at the middle
+station but rare at the lower station; however, they became abundant at
+the lower station in November. The abundance in late fall at the lower
+Neosho station might have resulted either from downstream migration or
+from continued upstream movement into thinly populated areas. No
+indication of seasonal movement was found in 1958 or 1959.
+
+River carpsucker reach maturity at approximately 11 inches T. L., and
+spawning occurs in May or June. A ripe male was taken from a
+gravel-bottomed riffle, three feet deep, at the middle station on the
+Neosho station on 10 June 1959.
+
+The size-distribution of individuals taken at the middle Neosho station
+is presented in Fig. 2. The collection in early July of 1958 indicates
+that one size-group (probably the 1957 year-class) had a median length
+of approximately seven inches. The modal length of this group was nine
+inches in June, 1959. A second, predominant size-group (Fig. 2) seemed
+to maintain almost the same median size throughout all the collection
+periods, although specimens taken in the spring of 1959 were slightly
+smaller than those obtained in 1958. This apparent stability in size may
+have been due to an influx of the faster-growing individuals from a
+smaller size-group, coupled with mortality of most individuals more than
+14 inches in length.
+
+Young-of-the-year were taken at every station. Extensive seining along a
+gravel bar at the lower Neosho station indicated that the young are
+highly selective for quiet, shallow water with mud bottom. In these
+areas, young-of-the-year carpsucker were often the most abundant fish.
+
+River carpsucker were collected more readily by use of the shocker after
+dark than in daylight (Table 9, p. 402).
+
+  [Illustration: FIG. 2. Length-frequency of river carpsucker
+  in the Neosho River, 1958 and 1959.]
+
+
+#Carpiodes velifer# (Rafinesque)
+
+High-finned Carpsucker
+
+A specimen of _Carpiodes velifer_ taken at the lower station on the
+Neosho in 1958 provided the only record of the species in Kansas since
+1924. Many specimens, now in the University of Kansas Museum of Natural
+History, were taken from the Neosho River system by personnel of the
+State Biological Survey prior to 1912. The species has declined greatly
+in abundance in the past 50 years.
+
+
+#Moxostoma aureolum pisolabrum# Trautman
+
+Short-headed Redhorse
+
+The short-headed redhorse occurred at all stations. It was common at the
+middle and lower stations on the Neosho, rare at the upper station on
+the Neosho, abundant at the upper station on the Marais des Cygnes in
+1957, and rare thereafter at all stations on the Marais des Cygnes.
+Short-headed redhorse typically occur in riffles, most commonly at the
+uppermost end where the water flows swiftly and is about two feet deep.
+An unusually large concentration was seen on 13 June, 1959, in shallow
+(six inches), fast water over gravel bottom at the middle station on the
+Neosho River.
+
+Thirty-nine individuals were marked by clipping fins at the middle
+Neosho station in 1959. Four were recovered from one to 48 days later:
+two at the site of original capture (one 48 days after marking), one
+less than one-half mile downstream, and one about one mile downstream
+from the original site of capture.
+
+At the middle Neosho station in 1958, this species was taken more
+readily by use of the shocker at night than by day (Table 9, p. 402).
+
+
+#Moxostoma erythrurum# (Rafinesque)
+
+Golden Redhorse
+
+The golden redhorse was abundant at the upper Neosho station, rare at
+the middle Neosho station, and did not occur in collections at other
+stations. This species was taken most frequently over gravel- or
+rubble-bottoms in small pools below riffles, and was especially
+susceptible to collection by means of the shocker.
+
+Twenty-nine golden redhorse of the 1957 year-class, taken at the upper
+Neosho station on 9 September 1958, were 6.2 to 8.6 inches in total
+length (average 7.4 inches); 26 individuals of the same year-class
+caught on 21 August 1959 were 9.3 to 13.5 inches in total length
+(average 10.9 inches).
+
+
+#Cyprinus carpio# Linnaeus
+
+Carp
+
+The carp decreased in abundance from 1957 to 1959 at the upper and
+middle Marais des Cygnes station and at the middle and lower Neosho
+stations. Carp were more abundant in the Marais des Cygnes than in the
+Neosho, although the largest number in any single collection was found
+in one pool at the upper Neosho station in 1958.
+
+Carp were taken most commonly in quiet water near brush or other cover.
+At the middle Neosho station, collecting was most effective between the
+hours of 6:30 a.m. and 12:30 p.m. and least effective between 12:30 p.m.
+and 6:30 p.m. (Table 9, p. 402). Ripe males were taken as early as
+19 April (16.1 inches, 19.4 inches T. L.) and as late as 30 July (16
+inches T. L.) at the middle Neosho station. Ripe females were taken as
+early as 19 April at the middle Neosho station (19.2 inches T. L.) and
+as late as 7 July at the lower Neosho station (16 inches T. L.).
+Young-of-the-year were taken first at the middle Marais des Cygnes on 8
+July 1957. They were recorded on later dates at the upper Marais des
+Cygnes and at the lower and middle Neosho stations.
+
+
+#Notemigonus crysoleucas# (Mitchill)
+
+Golden Shiner
+
+The golden shiner was taken rarely at the upper Marais des Cygnes
+station in 1958 and 1959 and at the middle Marais des Cygnes station in
+1957 and 1958. At the middle Neosho station _Notemigonus_ was seined
+from a pond that is flooded frequently by the river, but never was taken
+in the mainstream.
+
+
+#Semotilus atromaculatus# (Mitchill)
+
+Creek Chub
+
+The creek chub was taken only at the upper stations on both rivers. It
+increased in abundance at the upper Neosho station from 1957 to 1959,
+and was not taken in the upper Marais des Cygnes until 1959.
+
+
+#Hybopsis storeriana# (Kirtland)
+
+Silver Chub
+
+A single specimen from the lower Marais des Cygnes station provides the
+only record of the species from the Marais des Cygnes system in Kansas,
+and is the only silver chub that I found in either river in 1957-1959.
+The species is taken often in the Kansas and Arkansas rivers.
+
+
+#Hybopsis x-punctata# Hubbs and Crowe
+
+Gravel Chub
+
+The gravel chub, present only at the lower and middle Neosho stations,
+occupied moderate currents over clean (free of silt) gravel bottom. The
+gravel chub was not taken in 1957, was rare at both Neosho stations in
+1958, became common at the lower Neosho station in part of 1959, but was
+never numerous at the middle Neosho station. Dr. F. B. Cross recorded
+the species as "rare" in 1952 at a collection site near my middle Neosho
+station, but larger numbers were taken then than in any of my
+collections at that station. The population was probably reduced by
+drought, and recovery was comparatively slow following restoration of
+flow.
+
+Young-of-the-year and adults were common in collections from riffles at
+the lower Neosho station from 1 July through 8 July, 1959. I obtained
+only one specimen in intensive collections in the same area on 25, 26,
+and 27 August. Seemingly the species had moved off shallow riffles into
+areas not sampled effectively by seining.
+
+
+#Phenacobius mirabilis# (Girard)
+
+Sucker-mouthed Minnow
+
+The sucker-mouthed minnow was common at the middle Marais des Cygnes
+station but was not taken at the upper and lower stations until 1959,
+when it was rare. At the middle and lower Neosho stations this fish
+increased in abundance from 1957 to 1959; at the upper station,
+sucker-mouthed minnows were not taken until 1959 when collections were
+made on the White farm. There, the species was common immediately below
+a low-head dam, but was not taken in extensive collections on the Bosch
+Farm in 1959.
+
+The species was most common immediately below riffles, or in other areas
+having clean gravel bottom in the current. On 5 June, 1959, many
+individuals were taken at night (11:30 p.m.) on a shallow gravel riffle
+(four inches in depth) where none had been found in a collection at 5:00
+p.m. on the same date.
+
+Young-of-the-year were taken at the lower Neosho station on 24 June,
+1959, and commonly thereafter in the summer.
+
+
+#Notropis rubellus# (Agassiz)
+
+Rosy-faced Shiner
+
+In 1958, the rosy-faced shiner was taken rarely at the lower stations on
+both streams. This species is common in smaller streams tributary to the
+lower portions of the two rivers, and probably occurs in the mainstream
+only as "overflow" from tributaries. Possibly, during drought,
+rosy-faced shiners found suitable habitat in the mainstream of Neosho
+and Marais des Cygnes rivers, but re-occupied tributary streams as their
+flow increased with favorable precipitation, leaving diminishing
+populations in the mainstream.
+
+
+#Notropis umbratilis# (Girard)
+
+Red-finned Shiner
+
+The red-finned shiner, most abundant at the upper Neosho station,
+occurred at all stations except the upper Marais des Cygnes. This fish
+seems to prefer small streams, not highly turbid, having clean, hard
+bottoms. It is a pool-dwelling, pelagic species.
+
+
+#Notropis camurus# (Jordan and Meek)
+
+Blunt-faced Shiner
+
+The blunt-faced shiner was taken only in 1957, at the middle Neosho
+station, where it was rare. This species, abundant in clear streams
+tributary to the Neosho River (field data, State Biological Survey) may
+have used the mainstream as a refugium during drought. The few specimens
+obtained in 1957 possibly represent a relict population that remained in
+the mainstream after flow in tributaries was restored by increased
+rainfall.
+
+
+#Notropis lutrensis# (Baird and Girard)
+
+Red Shiner
+
+The red shiner, abundant in 1952 (early stage of drought), was
+consistently the most abundant fish in my collections in the Marais des
+Cygnes and at the lower and middle Neosho stations. However, the
+abundance declined from 1957 to 1959 at the two Neosho stations. At the
+upper Neosho station the species was fourth in abundance in 1957, and
+third in 1958 and 1959 (Table 12).
+
+The red shiner is pelagic in habit and occurs primarily in pools, though
+it frequently inhabits adjacent riffles. Collections by seining along a
+gravel bar at the lower station showed this fish to be most abundant in
+shallow, quiet water over mud bottom, or at the head of a gravel bar in
+relatively quiet water. At the lower end of the gravel bar in water one
+to four feet deep, with a shallow layer of silt over gravel bottom and a
+slight eddy-current, red shiners were replaced by ghost shiners or river
+carpsucker young-of-the-year as the dominant fish.
+
+Fifty-nine dyed individuals were released in an eddy at the lower end
+of a gravel bar at the middle Neosho station on 5 June, 1959. Some of
+these fish still were present in this area when a collection was made 30
+hours later. No colored fish were taken in collections from quiet water
+at the upper end of the gravel bar. A swift riffle intervening between
+the latter area and the area of release may have impeded their movement.
+Forty-six individuals, released at the head of the same gravel bar on 10
+June, 1959, immediately swam slowly upstream through quiet water and
+were soon joined by other minnows. These fish did not form a
+well-organized school, but moved about independently, with individuals
+or groups variously dropping out or rejoining the aggregation until all
+colored fish disappeared about 50 feet upstream from the point of
+release.
+
+Evidence of inshore movement at night was obtained on 8 June, 1959, in a
+shallow backwater, having gravel bottom, at the head of a gravel bar at
+the middle Neosho station. A collection made in the afternoon contained
+no red shiners, but they were abundant in the same area after dark.
+
+In Kansas, red shiners breed in May, June, and July. Minckley
+(1959:421-422) described behavior that apparently was associated with
+spawning. Because of its abundance, the red shiner is one of the most
+important forage fishes in Kansas streams, and frequently is used as a
+bait minnow.
+
+
+#Notropis volucellus# (Cope)
+
+Mimic Shiner
+
+The mimic shiner was taken only rarely at the two lower Neosho stations.
+This species, like _N. camurus_, is normally more common in clear
+tributaries than in the Neosho River, and probably frequents the
+mainstream only during drought.
+
+
+#Notropis buchanani# Meek
+
+Ghost Shiner
+
+Field records of the State Biological Survey indicate that the ghost
+shiner was common in the mainstream of the lower Neosho River during
+drought. In 1957, the species was abundant at the lower and middle
+stations on the Neosho River and at the lower Marais des Cygnes station.
+
+Collections at all stations show that the species has a definite
+preference for eddies--relatively quiet water, but adjacent to the
+strong current of the mainstream rather than in backwater remote from
+the channel. The bottom-type over which the ghost shiner was found
+varied from mud to gravel or rubble.
+
+
+#Notropis stramineus# (Cope)
+
+Sand Shiner
+
+The sand shiner was taken rarely in the Neosho and commonly in the
+Marais des Cygnes in 1952. In my study the species occurred at all
+stations, but not until 1959 at the upper and lower Neosho stations.
+Sand shiners were found with equal frequency in pools and riffles.
+Spawning takes place in June and July.
+
+
+#Pimephales tenellus tenellus# (Girard)
+
+Mountain Minnow
+
+The mountain minnow was common at the lower and middle Neosho stations
+throughout the period of study, and increased in abundance from 1957 to
+1959. It was taken only in 1959 at the upper Neosho station, where it
+was rare. This species does not occur in the Marais des Cygnes River.
+The largest numbers were found in 1959 at the lower Neosho station,
+where this fish occurred most commonly in moderate current over clean
+gravel bottom. The mountain minnow, like _Hybopsis x-punctata_, was
+common in late June and early July but few were found in late August,
+1959. The near-absence of this species in collections made in late
+August is responsible for the apparent slight decline in abundance from
+1957 to 1959, as shown in Table 11. Metcalf (1959) found mountain
+minnows most commonly in streams of intermediate size in Chautauqua,
+Cowley and Elk counties, Kansas. The predilection of this species for
+permanent waters resulted in an increase in abundance during my study.
+With continued flow, this species possibly will decrease in abundance in
+the lower mainstream of the Neosho River. I suspect that the species is,
+or will be (with continued stream-flow), abundant in tributaries of
+intermediate size in the Neosho River Basin.
+
+
+#Pimephales vigilax perspicuus# (Girard)
+
+Parrot Minnow
+
+The parrot minnow was not taken in the Marais des Cygnes River and was
+absent at the upper Neosho station until 1959. This species was common
+at the lower and middle Neosho stations throughout the period of study
+and increased in abundance from 1957 to 1959.
+
+At the lower Neosho station, this fish preferred slow eddy-current over
+silt bottom, along the downstream portion of a gravel bar. The parrot
+minnow was taken less abundantly in the latter part of the summer, 1959,
+than in early summer, but the decline was less than occurred in the
+mountain minnow.
+
+
+#Pimephales notatus# (Rafinesque)
+
+Blunt-nosed Minnow
+
+The blunt-nosed minnow was common, and increased in abundance in both
+rivers from 1957 to 1959. The largest numbers were found at the upper
+Neosho station in 1959, and a large population also was present at the
+lower Neosho station in 1959.
+
+Pools having rubble bottom, bedrock, and small areas of mud were
+preferred at the upper Neosho station. At the lower Neosho station the
+fish was most common in quiet water at the lower end of a gravel bar.
+The parrot minnow also was common in this general area; nevertheless,
+these two species were seldom numerous in the same seine-haul,
+indicating segregation of the two. The blunt-nosed minnow was taken
+frequently in moderate current over clean gravel bottom, especially in
+late summer, 1959, when _P. notatus_ increased in abundance as the
+mountain minnow decreased.
+
+
+#Pimephales promelas# Rafinesque
+
+Fat-headed Minnow
+
+The fat-headed minnow was taken at all stations except at the lower one
+on the Marais des Cygnes, and was most abundant at the upper Neosho
+station. Intensive seining at the lower Neosho station indicated that
+this species preferred quiet water and firm mud bottom.
+
+In the Neosho River in 1957 to 1959, habitats of the species of
+_Pimephales_ seemed to be as follows: _Pimephales tenellus_ (mountain
+minnow) occurred primarily in moderately flowing gravel riffles in the
+downstream portions of the river. _Pimephales vigilax_ (parrot minnow)
+was mostly in the quiet areas having mud bottom at the downstream end of
+gravel bars, and less commonly on adjacent riffles, at the lower
+station. _Pimephales notatus_ (blunt-nosed minnow) had a wider range of
+habitats, occurring in quiet areas and moderate currents both upstream
+and downstream. _Pimephales promelas_ (fat-headed minnow) occurred
+throughout both rivers but was most abundant in the quiet water at the
+uppermost stations.
+
+
+#Campostoma anomalum# (Rafinesque)
+
+Stoneroller
+
+The stoneroller was most abundant at the upper Neosho station and was
+not taken at the lower Marais des Cygnes station. This fish increased in
+abundance from 1957 to 1959, but was never common at the middle Marais
+des Cygnes or the middle and lower Neosho stations.
+
+The stoneroller prefers fast, relatively clear water over rubble or
+gravel-bottom.
+
+
+#Ictalurus punctatus# (Rafinesque)
+
+Channel Catfish
+
+The abundance of channel catfish was greatly reduced as a result of the
+drought of 1952-1956. With the resumption of normal stream-flow in 1957,
+the small numbers of adult channel catfish present in the stream
+produced unusually large numbers of young. These young of the 1957
+year-class, which reached an average size of about nine inches by
+September 1959, will provide an abundant adult population for several
+years.
+
+The reduction in number of channel catfish in streams can be related to
+the changed environment in the drought. When stream levels were low in
+1953 (Tables 1-4), fish-populations were crowded into a greatly reduced
+area. An example of these crowded conditions was observed by Roy
+Schoonover, Biologist of the Kansas Forestry, Fish and Game Commission,
+in October, 1953, when he was called to rescue fish near Iola, Kansas.
+The Neosho River had ceased to flow and a pool (less than one acre)
+below the city overflow dam was pumped dry. Schoonover (personal
+communication) estimated that 40,000 fish of all kinds were present in
+the pool. About 30,000 of these were channel catfish, two inches to 14
+inches long, with a few larger ones. Fish were removed in the belief
+that sustained intermittency in the winter of 1953-1954 would result in
+severe winterkill. These conditions almost certainly were prevalent
+throughout the basin.
+
+In addition to winterkill, crowding probably resulted in a reduced rate
+of reproduction by channel catfish, and by other species as well. This
+kind of density-dependent reduction of fecundity is known for many
+species of animals (Lack, 1954, ch. 7). In fish, it is probably
+expressed by complete failure of many individuals to spawn, coupled with
+scant survival of young produced by the adults that do spawn.
+Reproductive failure of channel catfish in farm ponds, especially in
+clear ponds, is well known, and is often attributed to a paucity of
+suitable nest-sites (Marzolf, 1957:22; Davis, 1959:10).
+
+In the Neosho and Marais des Cygnes rivers, the intermittent conditions
+prevalent in the drought resulted in reduced turbidity in the remaining
+pools. Many spawning sites normally used by channel catfish were
+exposed, and others were rendered unsuitable because of the increased
+clarity of the water. In addition, predation on young channel catfish is
+increased in clear water (Marzolf; Davis, _loc. cit._), and would of
+course be especially pronounced in crowded conditions. The population
+was thereby reduced to correspond to the carrying capacity of each pool
+in the stream bed.
+
+The return of normal flow in 1957 left large areas unoccupied by fish
+and the processes described above were reversed. The expanded habitat
+favored spawning by nearly the entire adult population, and conditions
+for survival of young were excellent. As a result, a large hatch
+occurred in the summer of 1957. (Several hundred small channel catfish
+were sometimes taken by use of the shocker a short distance upstream
+from a 25-foot seine, set in a riffle). Subsequent survival of the 1957
+year-class has been good. By 1959, few of the catfish spawned in 1957
+had grown large enough to contribute to the sport fishery, but they are
+expected to do so in 1960 and 1961.
+
+The 1957 year-class was probably the first strong year-class of channel
+catfish since 1952. Davis (1959:15) found that channel catfish in Kansas
+seldom live longer than seven years. The 1952 year-class reached age
+seven in 1959. The extreme environmental conditions to which these fish
+were subjected in drought caused a higher mortality than would occur in
+normal times. The adult population in the two rivers probably was
+progressively reduced throughout the drought, and the reduction will
+continue until the strong 1957 year-class replenishes it. For these
+reasons, fishing success was poor in 1957-1959.
+
+Juvenile channel catfish were more abundant in the Neosho than in the
+Marais des Cygnes in 1958 and 1959, although both streams supported
+sizable populations. In the Marais des Cygnes the upper station had
+fewer channel catfish than the middle and lower stations. In the Neosho,
+populations were equally abundant both upstream and downstream. The
+habitat of channel catfish in streams has been discussed by Bailey and
+Harrison (1948).
+
+I found adults in various habitats throughout the stream, but most
+abundantly in moderately fast water at the lower and middle Neosho
+stations. At the upper Neosho station where riffles are shallow,
+yearlings and two-year-olds were numerous in many of the small pools
+over rubble-gravel bottom. Cover was utilized where present, but large
+numbers were taken in pools devoid of cover. Young-of-the-year were
+nearly always taken from rubble- or gravel-riffles having moderate to
+fast current at both upstream and downstream stations.
+
+Collections showed that young of 1957 were abundant on riffles
+throughout the summer and until 17 November, 1957. Subsequent
+collections were not made until 11 May, 1958, at which time 1957-class
+fish still were abundant on riffles at the lower Neosho station; on that
+date, the larger individuals were in deeper parts of the riffles than
+were smaller representatives of the same year-class.
+
+In a later collection (2 June, 1958), numbers present on the riffles
+were greatly reduced and the larger individuals were almost entirely
+missing. Some of the smaller individuals were still present in the
+shallower riffle areas. Table 7 compares sizes of the individuals
+obtained on 2 June with sizes collected from deep riffles at the middle
+Neosho station on 7 June, 1958. The larger size of the group present in
+deep riffles is readily apparent. The yearlings almost completely
+disappeared from subsequent collections on riffles.
+
+A bimodal size-distribution of young-of-the-year was noted also in 1958
+and 1959; but, no segregation of the two sizes occurred on riffles in
+summer. Marzolf (1957:25) recorded two peaks in spawning activity in
+Missouri ponds. Two spawning periods may account for the bimodal size
+distribution of young-of-the-year observed in my study.
+
+In 1959, young-of-the-year began to appear in the latter part of June
+and became abundant by the first part of July. Individuals as small as
+one inch T. L. were taken in gravel-bottomed riffles on 1 July, 1959.
+
+Yearling individuals at the lower and middle Neosho stations showed a
+pronounced tendency to move into shallow, moderately fast water over
+rubble or gravel bottom at night, where they were nearly ten times more
+abundant than in daytime (Table 9). Adults probably have the same
+pattern of daily movement as yearlings, except that at night the adults
+move to deeper riffles. Bailey and Harrison (1948:135-136) demonstrated
+that channel catfish feed most actively from sundown to midnight.
+
+Channel catfish (especially two-year-olds and adults) were abundant on
+a rubble-riffle during the day in some collections at the lower Neosho
+station in 1959.
+
+  TABLE 7. LENGTH-FREQUENCY OF CHANNEL CATFISH FROM THE NEOSHO RIVER,
+  1957, 1958 AND 1959. (NUMBERS IN VERTICAL COLUMNS INDICATE THE
+  NUMBER OF INDIVIDUALS OF A CERTAIN SIZE COLLECTED ON THAT DATE.)
+
+                            June 2    June 7
+                             1958      1958
+  Length          Nov. 2   (shallow   (deep    Sept. 9   Sept. 11
+  in inches        1957     riffle)  riffle)    1958       1959
+
+   1.5                                             1
+   2.0              3
+   2.5             13         2                    1          2
+   3.0              4        11                    3          4
+   3.5              3        21          7         1         14
+   4.0                       11         12                    9
+   4.5                        4         10         1
+   5.0                        2         11         2
+   5.5                        1          7        26
+   6.0                                            58          2
+   6.5                                   1        32          5
+   7.0                                            16          5
+   7.5                                   1         4          5
+   8.0                                                       22
+   8.5                                                       45
+   9.0                                                       81
+   9.5                                                       41
+  10.0                                                       21
+  10.5                                                        8
+  11.0                                                        4
+  11.5                                                        1
+  12.0                                                        3
+  12.5                                                        1
+  13.0                                                        1
+
+Near the end of the spawning season in 1959, I found spawning catfish at
+the lower Neosho station. Ripe females were taken between 9 June and 30
+June, 1959; and, on 19 June I found a channel catfish nest with eggs
+(water temp. 79° F.). The nest-site was a hole in the base of a clay
+bank; the floor was clean gravel with a small mound of gravel at the
+entrance. The nest-opening, five to six inches in diameter, widened
+almost immediately into a chamber about two and one-half feet long and
+one foot wide. Normally the water was about six inches deep in the
+mainstream as it ran over a riffle adjacent to the catfish nest. When
+I put my hand into the opening the fish bit vigorously, but became
+quiescent when I stroked its belly. I then felt the rounded gelatinous
+mass of eggs on the bottom of the nest. On June 22 (water temp. 86° F.)
+the fish was removed, struggling, from the nest, and returned to the
+stream. The next day (23 June 1959, water temp. 84° F.) the eggs had
+hatched and the young were in a swarm in the nest. The adult did not
+attempt to bite but left as soon as I put my hand into the hole.
+
+Marzolf (1957:25) reports that young remain in the nest from seven to
+eight days after hatching. My seining records show a marked increase in
+abundance of small young-of-the-year on the first of July. Probably the
+time of hatching of the nest described above correlated well with
+hatches of other nests.
+
+One and sometimes two channel catfish were found in other holes in
+the stream-bank or bottom. The fish occasionally attacked my hand
+vigorously, but at other times remained quiet or left without attacking.
+No other channel catfish eggs were found, although one hole under a rock
+in the middle of the river had one or two individuals in it each time it
+was checked until 11 July, 1959. A local fisherman informed me of his
+belief that these holes are occupied only in the spawning season.
+
+Observations that I made in a pond owned by Dr. E. C. Bryan of Erie
+indicated that channel catfish, when disturbed in the early stages of
+guarding the eggs, either eat the eggs and abandon the nest or leave the
+nest exposed to predation by other animals. In the later stages of
+nesting, the fish, if removed, will return to guard the nest. After the
+eggs hatch the guarding response probably diminishes and the fish leaves
+the nest readily.
+
+At the lower Neosho station, several "artificial" holes were dug into
+the clay bank and two pieces of six-inch pipe were forced into the bank.
+Nearly all these holes were occupied by catfish for a short period in
+June; many of the holes were enlarged, either by the current or by fish.
+I suspect that fish enlarged some holes, because in the spawning season
+several males were observed that had large abrasions atop their heads,
+around their lips, and to a lesser extent on their sides. These could
+have been caused by butting and scraping the sides, roof and floor of a
+hole. I found it possible to enlarge the holes by rapidly moving my hand
+while it was inside a hole.
+
+The growth-rate of channel catfish in the Neosho was approximately the
+same at all stations, and the large 1957 year-class grew to an average
+size of about nine inches by mid-September, 1959 (Table 7). Channel
+catfish mature at a total length of 12 to 15 inches. Thus, most
+individuals of the 1957 year-class in the Neosho River probably will
+mature in their fourth or fifth summer (1960 or 1961 spawning season).
+
+The sizes attained by young-of-the-year in 1957 differed in the two
+rivers. Six hundred and thirty-three young taken in the Marais des
+Cygnes River attained an average size of 4.7 inches (range two to six
+inches) by mid-September. (Age was determined by length-frequency and
+verified by examining cross-sections of fin-spines from the larger
+individuals). One hundred and fifty young from the Neosho River averaged
+3.0 inches (range 2 to 3.7 inches) on 2 November. Gross examination of
+the riffle-insect faunas indicated a larger standing crop in the Neosho
+than in the Marais des Cygnes River. Thus, the slower growth of young
+channel catfish in the Neosho seemed not to be correlated with food
+supply. Bailey and Harrison (1948:125-130) found that young channel
+catfish in the Des Moines River, Iowa, fed almost exclusively on aquatic
+insect larvae. My observations indicate that this is true in the Neosho
+and Marais des Cygnes rivers also.
+
+Young produced in 1958 in the Neosho River attained an average total
+length of three inches by 26 August, and young produced in 1959 attained
+an average size of 3.5 inches by 11 September. Both groups probably
+continued growth until October, and may have averaged four inches total
+length at that time.
+
+The 1958 and 1959 year-classes were much less abundant than were the
+1957 young. Therefore, it seems likely that the growth of the 1957 young
+in the Neosho River was depressed because of crowding. The 1959
+year-class was larger than the small 1958 year-class, thus conforming to
+a general expectation that strong year-classes will be followed by weak
+year-classes.
+
+Reproduction by channel catfish in 1957 seemed greater in the Neosho
+River than in the Marais des Cygnes River (Table 10); this coincided
+with a greater change in volume of flow in the Neosho River than in the
+Marais des Cygnes River (Tables 1-4). The 1957 year-class seemed more
+crowded, and grew more slowly, in the Neosho than in the Marais des
+Cygnes River.
+
+
+#Ictalurus natalis# (LeSueur)
+
+Yellow Bullhead
+
+Yellow bullhead were taken only at the middle station on the Marais des
+Cygnes and upper station on the Neosho. The yellow bullhead is more
+restricted to streams than is the black bullhead. Both species decreased
+in abundance during a period of continuous flow (1957 to 1959) following
+drought at the upper Neosho station. Collections in 1958-'59 indicated
+an increase in average size. Of four individuals marked and released at
+the upper Neosho station in 1959, one was recaptured about three hours
+after being released. It had not moved from the area of release.
+
+
+#Ictalurus melas# (Rafinesque)
+
+Black Bullhead
+
+The black bullhead was abundant at the upper stations on each river,
+especially in backwaters having mud-bottom. The species was not taken in
+the mainstream of the lower and middle Neosho stations, but was taken at
+the middle Neosho station in a pond that is often flooded by the river.
+Although the fish was common or abundant in nearly all pools at the
+upper Neosho station, it was most abundant in one pool that had a bottom
+predominately of mud.
+
+At the middle Marais des Cygnes station, 109 individuals were collected
+and fin-clipped on 8, 9 and 24 July 1957. Three of the 19 marked on 8
+July were recaptured in the same area on 9 July. The area was poisoned
+on 13 September, 1957, and 130 black bullhead were taken, none of which
+had been marked.
+
+In 1959, 96 black bullhead were taken at the upper Neosho station (five
+in Area 1 and 91 at the White Farm). In these collections, 25 were
+marked (fin-clipped or dyed) and six were recaptured. Four of the six
+had not left the area of capture one and two days after being released.
+The fifth fish recaptured was one of five individuals that had been
+displaced one pool downstream. When recaptured seven days later, this
+fish had moved upstream over two steep riffles (two to three inches
+deep, 75 feet and 166 feet long) past the site of original capture to
+the next pool. The sixth fish, marked at the same time but returned to
+the original pool, was recaptured nine days after original capture and
+had moved upstream over a long riffle (two to three inches deep, 166
+feet long) and a short riffle into the second pool above the original
+site of its capture.
+
+Rotenone was applied to a small (.04 acre-feet) backwater ditch having a
+soft mud bottom at the upper Marais des Cygnes station on 25 July, 1957;
+1526 black bullhead, one green sunfish and one white crappie were
+collected. A sample of 60 bullhead averaged 4.6 inches T.L. (range 3.5
+to 6.6 inches) and 540 individuals averaged .7 ounce each. These fish
+probably represented the 1956 year-class.
+
+The upper Neosho station had a large population of black bullhead,
+strongly dominated by fish less than four inches T. L. (range 1.5 to 3.8
+inches), in the spring of 1957. Most were approximately two inches T.
+L. and probably represented the 1956 year-class. Growth, according to
+length-frequency, following restoration of stream-flow, shows a regular
+increase in length of this dominant 1956 year-class (Fig. 3). A scarcity
+of young, especially in 1958 and 1959, is apparent in Fig. 3. This may
+be due to the fact that a strong year-class usually is followed by one
+or several weak year-classes. However, it more probably reflects the
+fact that black bullhead are characteristically pond fish, and as such
+are not so well adapted to reproduction in flowing streams as are many
+other species. Metcalf (1959) found this species most abundantly in the
+intermittent headwaters of Walnut River and Grouse Creek in Cowley
+County, Kansas.
+
+  [Illustration: FIG. 3. Length-frequency of black bullhead
+  at the upper Neosho station, 1957, 1958 and 1959.]
+
+
+#Pylodictis olivaris# (Rafinesque)
+
+Flat-headed Catfish
+
+The flathead is the largest sport-fish occurring in Kansas. Several
+weighing more than 40 pounds are caught from streams each year, and the
+species reportedly attains sizes in excess of one hundred pounds.
+Several aspects of the biology of the flathead in Kansas have been
+discussed by Minckley and Deacon (1959).
+
+The abundance of flathead declined slightly from 1957 through 1959,
+counting fish of all sizes. This trend is attributable to a large hatch
+in 1957; the 1957 year-class strongly dominated the population
+throughout my study. Natural mortality in that year-class was
+compensated by increased average size of the individuals (to six inches
+in autumn, 1958, and 11 inches in autumn, 1959).
+
+The numbers of flathead caught at the upper stations on the Neosho and
+Marais des Cygnes rivers differed from the general trend in that the
+species was rare in 1957 and increased slightly by 1959. Flathead are
+most numerous in large streams, and in the drought they probably were
+almost extirpated from the headwaters. After 1957, continuous flow and
+increased volume of flow were accompanied by a gradual increase in
+numbers of flathead in the upstream parts of the two rivers. The species
+was most abundant at the middle and lower Neosho stations, where 10.5
+per cent of all fish shocked in 1957 and 1958 were _P. olivaris_.
+
+The habitat of the flathead varied with size of the individuals.
+Young-of-the-year inhabited swift riffles having rubble bottom;
+individuals four to 12 inches in total length were distributed
+throughout the stream; those more than 12 inches in total length were
+most commonly in pools in association with cover (rocks, or drifts of
+fallen timber).
+
+Male flathead mature at 15 to 18 inches total length, females at 18 to
+20 inches. The spawning season in 1959 probably began in early June and
+extended to mid-July. I attempted to find spawning fish on 19 June and
+for one month thereafter. On 19 June nine holes were dug into a 75-yard
+section of a clay bank adjacent to a long, shallow, rubble riffle.
+A flathead was first found in one of these holes on 22 June, and
+others were frequently found in this and one other hole until mid-July.
+Although channel catfish were often found in nearby holes, that
+species was never present in the two holes used by flatheads. The
+holes occupied by flathead (as well as those used by channel catfish)
+characteristically had silt-free gravel bottoms and a ridge of clean
+gravel across the entrance.
+
+A nest containing a flathead and eggs was located on 11 July. In
+checking the hole I first put my foot into the entrance, then slowly
+advanced my hand into the hole, feeling along the bottom with my fingers
+until they entered the open mouth of a large catfish. I backed off
+slowly and then felt beneath the fish. The fish was directly above the
+egg-mass, seemingly touching the eggs with its belly. As I touched the
+front of the egg-mass the fish struck viciously, taking my entire fist
+into its mouth. It continued striking until I removed my hand from the
+hole after obtaining a small sample of eggs, which proved to be in an
+early stage of development (no vascularization evident).
+
+When the nest was checked again on 13 July the eggs and fish were gone.
+As in the case of channel catfish, I suspect that disturbance of a
+flathead in the early stages of guarding the nest results in destruction
+of the nest either by the guardian fish or by predation resulting from
+its absence.
+
+The hole occupied by the above fish was one that I had dug seven to nine
+inches in diameter and extending two and one-half to three feet into the
+bank. At the time this fish occupied the hole its depth was
+approximately the same as originally, but the entrance had been enlarged
+to 14 inches in diameter, and the chamber widened to 32 inches. The
+holes were checked later in the summer and all were heavily silted or
+had been undercut by action of the current.
+
+The number of flathead of catchable size was not reduced as severely
+during my study as was the number of large channel catfish. Flathead
+have a longer life-span than channel catfish; therefore, it is not
+surprising that, of flathead and channel catfish that survived the
+drought, a higher proportion of flathead persisted throughout the next
+three years, in which my study was made. In drought, when fish were
+concentrated in residual pools, the piscivorous (fish eating) habit of
+flatheads may have favored their survival.
+
+The growth rate of flathead taken from the Neosho River in 1957 and 1958
+was reported by Minckley and Deacon (1959:351-352). Individuals hatched
+in 1955 and 1956 and collected in 1957 had attained average sizes of 9.5
+inches and 4.8 inches, respectively, by the end of the 1956
+growing-season.
+
+Flatheads of the 1956 and 1957 year-classes attained average sizes of
+8.7 and 3.2 inches, respectively, by the end of the 1957 growing season.
+These data indicate that growth was retarded in the summer of 1957. Many
+species, including _P. olivaris_, had an exceptionally large hatch in
+1957, associated with increased water levels in that year. Despite the
+great increase in amount of water, I suppose that young-of-the-year and
+yearlings were subjected to crowding resulting from exceptional hatches.
+This caused reduction in growth of young flathead, and probably in
+several other species.
+
+Food of flatheads 4.0 inches and shorter was nearly all insect larvae;
+that of fish 4.1 to 10 inches was insect larvae, fishes and crayfish;
+and that of larger flatheads was mostly fish and crayfish. The specific
+kind of food eaten was correlated with abundance of the food item in the
+stream (Minckley and Deacon, 1959:350-351).
+
+
+#Noturus flavus# Rafinesque
+
+Stonecat
+
+The stonecat was not taken at the upper Marais des Cygnes station, and
+was less abundant at the middle Marais des Cygnes station than at other
+stations. The abundance of the stonecat was greatest at the lower Marais
+des Cygnes station in 1957 and at the upper Neosho station in 1959. The
+species increased in abundance from 1957 to 1959 in the Neosho River,
+where the principal habitat was riffles over rubble bottom.
+
+Thirty-three stonecats were marked at the upper Neosho station in 1959.
+Five of these were recaptured three hours after release, all near the
+point of release. One individual was taken from a riffle, fin-clipped,
+and released at the foot of the next riffle downstream. When recaptured
+four days later, this fish was still in the area of release.
+Young-of-the-year were taken on July 1, 1959, at the lower Neosho
+station.
+
+
+#Noturus gyrinus# (Mitchill)
+
+Tadpole Madtom
+
+Trautman (1957:444-445) describes the habitat of the tadpole madtom as
+"low-gradient lowland streams, springs, marshes, oxbows, pothole lakes,
+and protected harbors and bays of Lake Erie, where conditions were
+relatively stable, the water was usually clear, the bottom was of soft
+muck which generally contained varying amounts of twigs, logs, and
+leaves, and where there usually was an abundance of such rooted aquatics
+as pondweeds and hornwort. The species seemed to be highly intolerant to
+much turbidity and rapid silting,..." The tadpole madtom was obtained
+only at the middle Marais des Cygnes station in a small, deep,
+mud-bottomed pool in 1957 after water levels, and probably turbidity,
+had been low for five years. The occurrence provides the westernmost
+record station in Kansas. Cross and Minckley (1958:106) reported the
+species from the lower part of the Marais des Cygnes in Kansas.
+
+
+#Noturus nocturnus# Jordan and Gilbert
+
+Freckled Madtom
+
+The freckled madtom was taken only at the middle Neosho station on 19
+April, 1958. This species occurs most frequently in small streams, and
+individuals living in the mainstream of the Neosho probably are
+"strays" from nearby tributaries. This species may have utilized the
+mainstream as a refugium in the drought of 1952-'56.
+
+
+#Noturus exilis# Nelson
+
+Slender Madtom
+
+The slender madtom was taken only at the middle Marais des Cygnes
+station in the fall of 1957. This species prefers permanent riffles of
+clear streams (Deacon and Metcalf, 1961:317). My specimen possibly
+strayed from a nearby tributary; or, it was a relict from a population
+living in the mainstream during drought.
+
+
+#Noturus sp.#
+
+Neosho Madtom
+
+A description of this species, which is endemic to Neosho River, has
+been prepared but not yet published by Dr. W. Ralph Taylor. I found the
+Neosho madtom only at the middle station in 1958 and 1959, and at the
+lower station in 1959, where the species was common in shallow water
+having moderate current over clean gravel bottom. Specimens were most
+effectively collected by digging into the gravel above the seine and
+allowing the gravel to wash into the seine. In 1952, Cross (1954:311)
+found this species in abundance in riffles at the confluence of the
+South Fork and Cottonwood River, and at several other localities in the
+Neosho mainstream (personal communication). The Neosho madtom is nearly
+restricted to gravel riffles having moderate flow; therefore, it may be
+drastically reduced by intermittency of flow. I found none in 1957 and
+few in 1958. By 1959, the third summer of continuous flow, the Neosho
+madtom was again common.
+
+
+#Fundulus notatus# (Rafinesque)
+
+Black-striped Topminnow
+
+The black-striped topminnow was rare in the mainstream at the lower
+Marais des Cygnes and the middle and lower Neosho stations, where it was
+found in quiet water near shore.
+
+Near the middle Neosho station, a large population was present in an
+oxbow lake that is frequently flooded by the river.
+
+
+#Labidesthes sicculus# (Cope)
+
+Brook Silversides
+
+The brook silversides occurred rarely at the lower Marais des Cygnes and
+at the middle and lower Neosho stations.
+
+
+#Micropterus dolomieui# Lacépède
+
+Small-mouthed Bass
+
+One individual was taken at the lower Neosho station in 1957.
+
+
+#Micropterus punctulatus punctulatus# (Rafinesque)
+
+Spotted Bass
+
+The spotted bass occurs in Kansas only in the southeastern part of the
+state--in southern tributaries of the Osage system, in Spring River
+drainage, and in relatively clear streams of the Flint Hills. At my
+stations on the Neosho River, this fish was more abundant in 1957 than
+in 1958 or 1959.
+
+Spotted bass were taken most frequently over rubble bottom or near
+boulders in moderate current. Collections made in the evening or early
+morning more often contained spotted bass than collections made at other
+times of day (Table 9). Data from a few specimens that were marked,
+released, and recaptured indicated that the species is relatively
+sedentary; therefore, the greater abundance in the morning and evening
+collections probably indicates increased activity during these periods,
+possibly in connection with feeding. The spawning season in 1957 may
+have continued as late as 10 July when a ripe female 11.3 inches T. L.
+was taken. Young-of-the-year were taken on 24 June in moderate current
+over gravel bottom and in quiet water over mud bottom.
+
+Spotted bass normally form a small part of the game-fish fauna in the
+lower Neosho River. The species attains greater abundance in smaller,
+clear streams of the Arkansas River Basin in Kansas (Cross, 1954, and
+unpublished data of State Biological Survey of Kansas). During the
+drought, the lower Neosho probably assumed many characteristics of a
+smaller stream in normal times. Flow was reduced or entirely interrupted
+and turbidity was lessened. These conditions resulted in faunal changes
+in which spotted bass were more prominent than in years of normal flow.
+During this period of reduced flow, some fishermen turned from
+catfishing to bass-fishing; I think this constitutes evidence for an
+increase in numbers of bass, accompanied by a decrease in numbers of
+channel catfish. With the return of continuous flow and a consequent
+rise in turbidity, bass declined in abundance in the mainstream.
+
+
+#Micropteras salmoides salmoides# (Lacépède)
+
+Large-mouthed Bass
+
+The large-mouth was rare at all stations. It prefers quiet water near
+cover; to become abundant, the large-mouth probably requires clearer
+water than is afforded by most Kansas streams. This species, like
+spotted bass, declined in abundance during the period of study.
+Nevertheless, young-of-the-year were taken in 1957 and 1958 (earliest
+date of capture, 7 June in 1958).
+
+
+#Lepomis cyanellus# Rafinesque
+
+Green Sunfish
+
+Green sunfish were taken at all stations, but most abundantly at the
+upper Neosho station where the number captured increased slightly from
+1957 to 1959. Young-of-the-year and adults were most common in shallow
+backwater. At the upper Neosho station green sunfish inhabit quiet
+pools, where recaptures of marked fish indicated that the species is
+notably sedentary in habit. Hasler and Wisby (1958) have shown that
+green sunfish exhibit a homing reaction.
+
+This fish provides some sport for fishermen, especially in the smaller
+streams, but I found few green sunfish that were larger than six inches
+T. L. at any station.
+
+
+#Lepomis megalotis# (Rafinesque)
+
+Long-eared Sunfish
+
+Long-eared sunfish were taken at all stations but were notably more
+abundant in the Neosho River, where the largest population occurred at
+the upper station. In all three years of the study, large samples were
+obtained by means of rotenone in the same pool at the upper Neosho
+station. There were fewer long-eared sunfish present each year, and
+average size increased slightly. Collections in other pools at this
+station indicated that long-eared sunfish maintained a high level of
+abundance throughout my study.
+
+Long-eared sunfish occurred in pools having bottoms of gravel or bedrock
+at the upper Neosho station, or near shore over rubble or gravel in slow
+to moderate current at the middle Neosho station.
+
+
+#Lepomis humilis# (Girard)
+
+Orange-spotted Sunfish
+
+The orange-spotted sunfish occurred at all stations; it was most
+abundant in the Neosho River, especially at the uppermost station. This
+fish was taken in a variety of habitats, but was most common in areas
+where the current was slack, often over mud or silt bottom.
+
+
+#Lepomis macrochirus# Rafinesque
+
+Bluegill
+
+Bluegill were taken at all stations but were rare. This species occurred
+exclusively in pools, usually near cover (brush or trees in the water).
+Bluegill are predominately pond-fish in Kansas, and populations in
+rivers may consist partly of individuals that escaped from ponds in time
+of overflow. I know of no stream in Kansas that has a population large
+enough to contribute significantly to the sport fishery.
+
+
+#Pomoxis nigromaculatus# (LeSueur)
+
+Black Crappie
+
+This species was represented by only one specimen, taken at the lower
+Neosho station in 1957.
+
+
+#Pomoxis annularis# Rafinesque
+
+White Crappie
+
+White crappie were taken at all stations, but were common only at the
+upper and middle stations on the Marais des Cygnes and the upper Neosho
+station. At the last station, this fish was abundant in a single large
+pool that contained much more water during drought than any other area
+at this station. There was little dispersal into several smaller pools,
+below the large pool, which were sampled in 1957, 1958 and 1959. White
+crappie were not taken in the lower pools until 1959, and then were
+rare. Most crappie were taken in quiet water near cover or near shore.
+
+Young-of-the-year were found in 1957, 1958 and 1959, but never
+abundantly. At the lower Neosho station in 1959, ripe individuals were
+collected on 19 June, a spent female on 24 June, and young-of-the-year
+on 1 July. The young were present in quiet, shallow water over mud
+bottom at the lower end of a gravel bar. Large white crappie (10-14
+inches T. L.) were common at the middle and lower Neosho stations in
+1957 and in April, 1958. Large fish were almost entirely absent from
+later collections. Average size, maximum size and abundance declined
+during the period of study.
+
+
+#Percina phoxocephala# (Nelson)
+
+Slender-headed Darter
+
+The slender-headed darter was taken at all stations but was more
+abundant in the Neosho than in the Marais des Cygnes. The lower Marais
+des Cygnes, however, was the only station with a relatively large
+population in 1957. Slender-headed darters were rare in the Neosho River
+in 1957 and did not become common until 1959.
+
+The largest population was found at the upper Neosho station in 1959.
+This darter occurs most frequently in swift water over gravel bottom,
+but was taken in various habitats, including an intermittent pool at the
+upper Neosho station on 7 September, 1957.
+
+At the middle and lower Neosho stations, considerably greater numbers
+were taken in June, July, and early August than in May or late August.
+The abundance in my collections diminished from a peak in early July, to
+scarcity in late August.
+
+Young-of-the-year were taken at the lower Neosho station on 1 July, 1959
+(and subsequently), in moderately fast water over gravel. On 21 August,
+1958, a ripe female (eggs stripped easily) was the only slender-headed
+darter present in a collection from riffles at the middle Neosho
+station.
+
+
+#Percina caprodes# (Rafinesque)
+
+Logperch
+
+Logperch were not taken in the Marais des Cygnes. They were rare in the
+Neosho, where they were taken most frequently at the upper station in
+water two to three feet deep, over gravel bottom, in moderate to slight
+current. This species was present in intermittent pools at the upper
+Neosho station in 1957.
+
+
+#Percina copelandi# (Jordan)
+
+Channel Darter
+
+One specimen was taken at the lower Neosho station in 1959. Because no
+others ever have been found in the mainstream of the Neosho River, I
+suspect that my specimen is a "stray" from one of the smaller
+tributaries, where channel darters are locally common.
+
+
+#Etheostoma flabellare# Rafinesque
+
+Fan-tailed Darter
+
+The fan-tailed darter is represented in my collections by one specimen,
+obtained in the mainstream of the Neosho River at the lower station in
+1957. Records of this species in Kansas are almost confined to the
+smallest, clear, permanent streams of the southeastern part of the
+state. My specimen may represent a small population that retreated to
+the mainstream of the Neosho during drought.
+
+
+#Etheostoma spectabile# (Agassiz)
+
+Orange-throated Darter
+
+Orange-throated darters were common at the upper Marais des Cygnes and
+upper Neosho stations in 1959, rare at the middle and lower Neosho
+stations, and absent from the middle and lower Marais des Cygnes
+stations. The species was found almost exclusively on upstream riffles
+over gravel-rubble bottom. The population in the upper Neosho was
+decimated by drought, and the fish did not become common until the
+summer of 1959, the third year after resumption of normal stream-flow.
+
+Deacon and Metcalf (1961:320) indicated that long periods of
+intermittency result in depletion or elimination of populations of the
+orange-throated darter in the Wakarusa River, Kansas. A limited number
+of orange-throated darters probably survived in the few permanent pools
+in the upper Neosho and provided the brood-stock necessary to repopulate
+this section of the stream.
+
+
+#Aplodinotus grunniens# Rafinesque
+
+Freshwater Drum
+
+Drum were taken at all stations, but were most abundant at the middle
+and lower Neosho stations. A high level of abundance also was found in
+1957 at the middle Marais des Cygnes station. The abundance of drum
+declined from 1957 to 1959, but the average size increased because of a
+dominant 1957 year-class that was moderately reduced by natural
+mortality in 1958-'59. Although the population was composed largely of
+young-of-the-year and adults in 1957, it was dominated by yearling
+individuals in 1958. By 1959 the number had declined considerably and
+the population consisted mostly of juveniles and adults. Fish of the
+1957 year-class reached a length of approximately ten inches by
+mid-summer of 1959 (Table 8).
+
+Adults were taken in a variety of habitats, but most often in quiet
+water. On the other hand, yearlings were extremely abundant in 1958 near
+shore in shallow, moderately fast water over rubble bottom at night.
+Drum were rare in the same areas in daylight (Table 9).
+Young-of-the-year occur in shallow, quiet water, usually over
+mud-bottom.
+
+The freshwater drum matures at about 12 inches T. L. Ripe males were
+taken as late as 23 June 1959; however, the height of the spawning
+season probably is in May.
+
+  TABLE 8. LENGTH-FREQUENCY OF FRESHWATER DRUM FROM THE MIDDLE
+  NEOSHO STATION IN 1957, 1958 AND 1959.
+
+  Total length        Aug. 19    Aug. 19-26    July 27-Aug. 4
+   in inches           1957         1958             1959
+
+       2                             1
+       3                  1
+       4                  4
+       5                             1
+       6                            12
+       7                            21                 1
+       8                  3         14                 2
+       9                  3          3                 2
+      10                  4          6                 6
+      11                  2          4                 1
+      12                             2
+      13                                               2
+      14                                               1
+
+  TABLE 9. AVERAGE NUMBER OF INDIVIDUALS CAPTURED PER HOUR, USING THE
+  SHOCKER, AT DIFFERENT TIMES OF THE DAY AND NIGHT AT THE MIDDLE NEOSHO
+  STATION IN 1958. NUMBERS IN PARENTHESES INDICATE TOTAL NUMBER
+  CAPTURED.
+
+  ======================================================================
+                  | Morning    | Afternoon  | Early night | Late night |
+                  | 5 hours    | 6 hours    | 18 hours    | 8 hours    |
+     SPECIES      | of effort  | of effort  | of effort   | of effort  |
+                  | expended   | expended   | expended    | expended   |
+                  | 6:30 a.m.  | 12:30 p.m. | 6:30 p.m.   | 12:30 a.m. |
+                  | 12:30 p.m. | 6:30 p.m.  | 12:30 a.m.  | 6:30 a.m.  |
+  ----------------+------------+------------+-------------+------------+
+  Long-nosed Gar  |  0         |  0.3 (2)   |  1.2 (21)   |  1.1 (9)   |
+  Short-nosed Gar |  0.2 (1)   |  0         |  0.2 (3)    |  0.4 (3)   |
+  Gizzard Shad    |  0.2 (1)   |  0.3 (2)   |  0.1 (1)    |  0.1 (1)   |
+  Black Buffalo   |  0         |  0.2 (1)   |  0.1 (1)    |  0         |
+  Small-mouthed   |            |            |             |            |
+    Buffalo       |  0.4 (2)   |  0.3 (2)   |  0.8 (14)   |  0.8 (6)   |
+  River           |            |            |             |            |
+    Carpsucker    |  3.4 (17)  |  3.3 (20)  |  5.7 (102)  |  4.9 (39)  |
+  Redhorse        |  0         |  0.2 (1)   |  0.6 (10)   |  0.6 (5)   |
+  Carp            |  1.8 (9)   |  0.2 (1)   |  0.7 (12)   |  0.8 (6)   |
+  Channel Catfish |  1.6 (8)   |  1.0 (6)   | 10.2 (183)  | 10.5 (84)  |
+  Flathead        |  2.2 (11)  |  1.3 (8)   |  2.4 (43)   |  3.6 (29)  |
+  Spotted Bass    |  0.4 (2)   |  0.5 (3)   |  0.3 (6)    |  0.1 (1)   |
+  Green Sunfish   |  0.2 (1)   |  0.2 (1)   |  0.2 (3)    |  0.1 (1)   |
+  Long-eared      |            |            |             |            |
+    Sunfish       |  0         |  0         |  0.1 (2)    |  0.4 (3)   |
+  Orange-spotted  |            |            |             |            |
+    Sunfish       |  0.2 (1)   |  0         |  0          |  0         |
+  White Crappie   |  0.2 (1)   |  0.2 (1)   |  0.2 (5)    |  0.4 (3)   |
+  Freshwater Drum |  1.0 (5)   |  0.8 (5)   |  5.6 (101)  |  5.3 (42)  |
+  Number captured |            |            |             |            |
+    per hour      | 13.4       |  9.3       | 29.5        | 33.8       |
+  ----------------+------------+------------+-------------+------------+
+
+  TABLE 10. NUMBERS OF FISH SEEN OR CAPTURED PER HOUR BY USE OF THE
+  SHOCKER. EXCLUDES FISH TAKEN BY SHOCKING INTO A SEINE ON RIFFLES;
+  YOUNG-OF-THE-YEAR CHANNEL CATFISH AND FLATHEAD CATFISH PREDOMINATED
+  IN SAMPLES TAKEN BY THAT METHOD.
+
+  ====================================================================
+                     |         Marais des Cygnes River               |
+                     |-----------------+-----------------+-----------+
+     SPECIES         |      Upper      |     Middle      |   Lower   |
+  -------------------+-----+-----+-----+-----+-----+-----+-----+-----+
+                     | 1957| 1958| 1959| 1957| 1958| 1959| 1957| 1958|
+  -------------------+-----+-----+-----+-----+-----+-----+-----+-----+
+  Gar                |  .7 | 1.3 | 1.2 |  .6 | 2.7 | ... | 2.2 | 9.4 |
+  Gizzard Shad       |  .9 |  .2 | ... | 9.9 | 2.5 | ... | ... |  .5 |
+  Buffalo            | 2.0 | 3.7 |  .6 |  .8 | 2.0 | ... | 5.7 | 6.4 |
+  River Carpsucker   | 4.0 | 4.9 |  .6 | 6.5 | 2.2 | 2.0 | 1.8 | 3.9 |
+  Shortheaded        |     |     |     |     |     |     |     |     |
+    Redhorse         | 3.3 |  .9 |  .6 |  .8 |  .2 | ... | ... | ... |
+  Carp               |10.6 | 6.4 | 2.4 | 8.6 | 5.0 | 3.5 | 6.0 |10.4 |
+  Black Bullhead     | ... | ... | ... | 3.9 |17.2 | ... | ... | ... |
+  Channel Catfish    |  .5 |  .9 | ... | 4.7 | 2.5 | ... | 1.8 |  .7 |
+  Flathead           |  .2 | ... | 2.4 |  .5 | ... | ... | 1.8 |  .5 |
+  Largemouth         | 1.0 | ... | ... |  .3 |  .2 | ... | ... | ... |
+  White Crappie      | 1.7 | 5.1 |  .6 | 1.3 |  .7 | ... | ... |  .2 |
+  Freshwater Drum    |  .9 | 1.6 |  .6 |24.5 | 2.2 | ... |  .7 |  .2 |
+                     |     |     |     |     |     |     |     |     |
+  Hours shocked      |4-1/2|4-1/2|1-2/3| 4   | 4   | 2   |2-5/6|4-1/2|
+  -------------------+-----+-----+-----+-----+-----+-----+-----+-----+
+                     |                 Neosho River                  |
+                     |-----------------------------------------------|
+                     |         Middle        |         Lower         |
+                     |-------+-------+-------+-------+-------+-------+
+                     | 1957  | 1958  | 1959  | 1957  | 1958  | 1959  |
+  -------------------|-------+-------+-------+-------+-------+-------+
+  Gar                |   3.2 |   4.2 |   3.8 |   5.3 |   4.9 |   8.4 |
+  Gizzard Shad       |    .5 |    .2 |    .4 |   1.9 |   1.0 |    .4 |
+  Buffalo            |   2.9 |   1.8 |   1.2 |   6.2 |    .9 |   1.5 |
+  River Carpsucker   |   5.5 |   7.4 |   2.9 |   7.5 |  13.3 |   6.3 |
+  Shortheaded        |       |       |       |       |       |       |
+    Redhorse         |   1.9 |    .6 |   1.6 |    .7 |   ... |   1.6 |
+  Carp               |   2.1 |   2.1 |   1.4 |   3.4 |   1.2 |   1.1 |
+  Channel Catfish    |   2.6 |   8.8 |    .9 | 107.0 |    .5 |    .7 |
+  Flathead           |   7.6 |   3.7 |   2.7 |  10.8 |    .2 |   1.2 |
+  Bass               |   1.6 |    .4 |    .1 |    .2 |    .2 |    .1 |
+  White Crappie      |   ... |    .9 |    .2 |   1.8 |    .7 |    .1 |
+  Freshwater Drum    |   3.9 |   3.3 |    .8 |  15.9 |   2.8 |    .7 |
+                     |       |       |       |       |       |       |
+  Hours shocked      | 5-2/3 | 55-5/6| 48-1/2| 4-1/6 |   4   | 16-5/6|
+                     |       |       |       |       |       |       |
+  -------------------+-------+-------+-------+-------+-------+-------+
+
+  TABLE 11. NUMBER OF OCCURRENCES (Roman type) AND NUMBER COUNTED
+  (_Italic type_) PER SEINING UNIT. ONE SEINING UNIT EQUALS 30
+  SEINE-HAULS (ten each with the 4-foot, 12-foot and 25-foot seine)
+  OF WHICH SIX RANDOMLY-CHOSEN HAULS WERE COUNTED. DASHES SIGNIFY
+  THAT THE SPECIES OCCURRED IN UNCOUNTED COLLECTIONS ONLY.
+
+  ======================================================================
+                     |    Marais des Cygnes stations    |    Neosho
+                     +-----------+----------+-----------+---------------
+    SPECIES          |   Upper   |  Middle  |   Lower   | Lower station
+                     +-----+-----+----+-----+-----------+------+--------
+                     |1957 |1959 |1957| 1959| 1957 |1959| 1957 |  1959
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Golden Shiner      | ... | ... |--- | ... |  ... | ...| ...  | ...
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Creek Chub         | ... | --- |... | ... |  ... | ...| ...  | ...
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Silver Chub        | ... | ... |... | ... |  --- | ...| ...  | ...
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Gravel Chub        | ... | ... |... | ... |  ... | ...| ...  |   3.0
+                     |     |     |    |     |      |    |      |  _2.3_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Sucker-mouthed     | --- |  6  |... |  3  |  ... |  1 |    2 |  10.0
+    Minnow           |     |     |    | _1_ |      |    |      | _43.0_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Red-finned Shiner  | ... | ... |... |  1  |  2.5 |  2 |  ... |   4.7
+                     |     |     |    |     | _5.0_|    |      |  _2.3_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Blunt-faced Shiner | ... | ... |--- | ... |  ... | ...|  ... | ...
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Red Shiner         |21   | 15  | 8  | 19  | 16.0 | 15 |   27 |  20.0
+                     |_6_  |     |_4_ |_22_ |_69.0_|_22_|_1119_|_102.0_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Mimic Shiner       | ... | ... |... | ... |  ... | ...|  --- | ...
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Ghost Shiner       | 7.5 |  1  |... |  1  |  9.5 |  2 |   17 |  11.7
+                     |     |     |    |     |_96.5_|    |  _54_| _76_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Sand Shiner        | --- |  7  |... |  8  |  1.5 |  3 |  ... |   1
+                     |     |     |    | _2_ |      |    |      |   _.3_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Mountain Minnow    | ... | ... |... | ... |  ... | ...|   12 |   9.3
+                     |     |     |    |     |      |    |  _25_| _13.6_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Blunt-nosed Minnow | --- |  2  |... |  8  |  1.0 |  1 |    6 |  14.0
+                     |     |     |    |     |  _.5_|    |   _4_|  _7.6_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Parrot Minnow      | ... | ... |... | ... |  ... | ...|   12 |  19.0
+                     |     |     |    |     |      |    |   _6_| _28.6_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Fat-headed Minnow  |10.5 |  4  | 5  |  7  |  ... | ...|   ...|   8.3
+                     |_1.5_|     |_2_ | _1_ |      |    |      |  _3.0_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Stoneroller        | --- |  6  |--- | ... |  ... | ...|  --- |   2.3
+                     |     |     |    |     |      |    |      |  _1.0_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Black Bullhead     | ... | ... |... | ... |   .5 | ...|  ... | ...
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Channel Catfish    | 4.5 |  2  | 1  | 13  |  5.0 | 10 |   12 |   6.3
+                     |_1.5_|     |_1_ | _7_ | _1.0_| _6_|   _5_| _41.6_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Flathead           | --- |  1  |--- | --- |  1.0 | ...|  --- |    .3
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Stonecat           | ... | ... |--- | ... |  6.0 | ...|  --- |   1.0
+                     |     |     |    |     |  _.5_|    |      |
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Neosho Madtom      | ... | ... |... | ... | ...  | ...|  ... |   3.3
+                     |     |     |    |     |      |    |      |  _2.0_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Brook Silversides  | ... | ... |... | ... |   .5 | ...|  ... |   1.7
+                     |     |     |    |     | _1.0_|    |      |
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Black-striped      | ... | ... |... | ... |  1.0 |  2 |  ... |   1.0
+    Topminnow        |     |     |    |     | _1.0_|    |      |   _.7_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Spotted Bass       | ... | ... |... | ... | ...  | ...|    2 |   3.7
+                     |     |     |    |     |      |    |      |   _.3_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Largemouth         | ... | ... | 1  |  3  | ...  | ...|    1 | ...
+                     |     |     |_1_ | _1_ |      |    |   _2_|
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Green Sunfish      | 9   |  8  | 9  | 17  | 11.0 |  3 |    7 |  10.0
+                     |_7.5_|     |_3_ | _3_ |_12.0_| _1_|   _2_|  _3.6_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Long-eared Sunfish | ... | ... |... | ... |   .5 | ...|    6 |   4.3
+                     |     |     |    |     |      |    |      |   _.7_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Orange-spotted     | 4.5 | --- | 2  |  3  |  2.5 | ...|   12 |  12.0
+    Sunfish          |_6_  |     |_4_ |     |      |    |   _5_|  _5.0_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Bluegill           | 1.5 |  1  |... |  6  |  3.5 |  1 |    1 |    .3
+                     |     |     |    | _1_ |      |    |      |   _.3_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  White Crappie      | ... | ... | 4  |  4  |  ... | ...| ...  | ...
+                     |     |     |_7_ |     |      |    |      |
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Logperch           | ... | ... |... | ... |  ... | ...|    1 |    .3
+                     |     |     |    |     |      |    |      |   _.7_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Slender-headed     | --- | 13  |... |  2  |  6.5 |  3 |    1 |   8.3
+    Darter           |     |     |    |     |_15.0_| _1_|      |  _3.0_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Orange-throated    | --- |  7  |... | ... |  ... | ...|    1 | ---
+    Darter           |     |     |    |     |      |    |      |
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Seining units      | 2/3 |  1  | 1  |  1  |  2   |  1 |    1 |   3
+  -------------------+-----+-----+----+-----+------+----+------+--------
+
+
+
+
+FISH-FAUNA OF THE UPPER NEOSHO RIVER
+
+
+Collections at the upper Neosho station were more intensive than at any
+other station, especially in 1959. Rotenone was used in the summers of
+1957, 1958 and 1959, to obtain large samples of the population in one
+section of the stream. In September, 1959, the shocker was used in other
+sections in order to estimate populations in particular pools and
+riffles, to measure variability in the fauna between areas having
+slightly different habitat, and to record movement of marked individuals
+in a short section of the stream.
+
+
+Description of Study-areas
+
+Two sections of the stream, each about one-half mile long (See p. 366),
+were studied. Additional description of particular areas is presented
+below. Area 1 and the pools in which rotenone was used are on the Bosch
+Farm approximately two miles upstream from the White Farm where Areas 2,
+3, 4, 5, 6 and 7 are situated.
+
+Area 1 has a length of 210 feet, an average width of four feet, and a
+maximum depth of two feet. The upper half is a swift, rubble riffle four
+inches in average depth; the lower half is one and one-half feet in
+average depth and has a slow current (Pl. 29, Fig. 1).
+
+Area 3 has a length of 186 feet, an average width of 34 feet, and a
+maximum depth of two and one-half feet. This area includes a shallow
+riffle at both upstream and downstream ends of a pool 73 feet long and
+approximately one foot in average depth (Pl. 29, Fig. 2).
+
+Area 5 has a length of 250 feet, an average width of 50 feet, and a
+maximum depth of two and one-half feet. This is a shallow, quiet pool
+over rubble and bedrock bottom except for a small area of mud bottom
+(backwater) above the point where a short riffle drains into this pool
+from Area 6 (Pl. 30, Fig. 1).
+
+Area 6 has a length of 200 feet, an average width of 50 feet, and a
+maximum depth of one and one-half feet. This is a shallow, quiet pool
+over bedrock bottom, except for a small area of mud bottom at one side
+of the upper end of the pool. A short, steep, rubble-riffle is included
+in this area at the upstream end (Pl. 30, Fig. 2).
+
+Areas 2, 4, and 7 resemble at least one of the areas described above but
+were sampled less intensively. Data from areas 2, 4, and 7 are included
+in discussion of the total fauna of the upper Neosho river but are
+excluded from the discussion of representative parts of that fauna.
+
+
+Methods
+
+_Rotenone_
+
+Rotenone was applied to an intermittent pool in 1957. In 1958 and 1959
+rotenone was applied to the upper end of a pool and mixed by agitating
+the water. The concentration in the pool was maintained by slowly
+introducing part of the rotenone into the riffle at the head of the
+pool. This was the most effective means of obtaining a large sample of
+fish from the deeper, slowly flowing water of the upper Neosho. Pools in
+which rotenone was used had areas of as much as one-half acre and depths
+in excess of six feet.
+
+
+_Shocker_
+
+In 1959 the shocker was used extensively in several areas of the upper
+Neosho. Because of the small size of the stream, "tennis-racket"
+electrodes were used effectively by two men--one carrying the electrodes
+and one picking up fish and placing them in a live-box. In fast water,
+many fish floated into a seine placed across the lower end of the area.
+A large segment of the population was collected in this manner. Areas in
+which fish were collected by means of the shocker included riffles, and
+pools having flowing water no more than three feet in maximum depth. The
+bottom-type was usually gravel, rubble or bedrock, but a small amount of
+mud bottom was present in many pools.
+
+Because of the necessity of wading, we could not use the shocker
+effectively in water more than three feet deep. In addition, turbidity
+of the water prevented effective collection of stunned fish in the
+deeper pools. Therefore, rotenone was more effective in deep water than
+was the shocker. In shallow, swift riffles and pools, the shocker
+yielded more reliable samples than did rotenone, because of difficulty
+in maintaining adequate concentrations of rotenone where flow was swift.
+
+The relative abundance of each species in the upper Neosho was
+calculated from cumulative results obtained by use of the shocker in
+seven areas in 1959. Population estimates were made by collecting fish
+with the shocker, marking them by clipping fins or staining them in
+Bismark Brown Y at a concentration of 1:20,000 (Deacon, 1961), returning
+them to the stream, and making a second collection three hours (Areas 1
+and 3) or 24 hours (Area 6) later. The same area was shocked again
+within two to eight days. Collections throughout the one-half-mile
+section yielded information on movement.
+
+
+Changes in the Fauna at the Upper Neosho Station, 1957 Through 1959.
+
+The following discussion is based principally on collections made with
+rotenone in 1957, 1958 and 1959 (Table 12). Other supplementary data aid
+in understanding the changes that occurred after the resumption of
+normal flow at the upper Neosho station.
+
+The population in 1957 was strongly dominated by black bullhead and
+young-of-the-year channel catfish. Other common species were long-eared
+sunfish, red shiner, yellow bullhead, orange-spotted sunfish and green
+sunfish. This fauna, with the exception of young-of-the-year
+individuals, was a fauna produced during the years of drought. Deacon
+and Metcalf (1961:318-321) found a similar fauna in streams of the
+Wakarusa River Basin that had been seriously affected by drought.
+
+The black bullheads taken in 1957 were predominately yearlings. It is
+likely that by 1956 the total fish population in the upper Neosho had
+been decimated by drought. The ponded conditions prevalent in that year
+were conducive to production and survival of young black bullheads. Fig.
+3 shows that this dominant 1956 year-class reached an average length of
+approximately 6.5 inches by August, 1959.
+
+Reproduction by black bullheads was limited in 1957, 1958, and 1959, and
+slight reduction in relative abundance occurred from 1957 to 1958. The
+relative abundance in 1959 remained nearly stable. If stream-flow
+remains essentially continuous for the next few years, the number of
+black bullheads probably will decline as individuals of the 1956
+year-class reach the end of their life-span.
+
+Reference has been made to the large hatch of channel catfish in 1957,
+in a discussion of that species. Conditions for survival of young
+channel catfish at the upper Neosho station in 1957 were good because
+there was continuous flow over many gravel-rubble riffles, which were
+largely unoccupied by other fish, in the spring and summer of 1957.
+
+  TABLE 12. PERCENTAGE-COMPOSITION OF THE FISH-FAUNA AT THE UPPER
+  NEOSHO STATION IN 1957, 1958 AND 1959, AS COMPUTED FROM COLLECTIONS
+  OBTAINED BY USING ROTENONE.
+
+  ============================================================
+               SPECIES              |  1957  | 1958  | 1959
+  ----------------------------------+--------+-------+--------
+  Big-mouthed Buffalo...............| ...... |  T[D] |   T
+  Small-mouthed Buffalo.............| ...... | ..... |   T
+  River Carpsucker..................|    T   |  0.8  |   1.8
+  Golden Redhorse...................|    T   |  3.0  |   5.7
+  Creek Chub........................| ...... |  T    |   0.8
+  Red-finned Shiner.................|  1.3   |  3.0  |   0.8
+  Red Shiner........................|  6.5   | 13.1  |  12.1
+  Ghost Shiner......................|    T   |  T    | ......
+  Blunt-nosed Minnow................|    T   |  T    |   T
+  Fat-headed Minnow.................|    T   |  T    |   1.4
+  Stoneroller.......................|  0.8   |  1.5  |   3.5
+  Black Bullhead....................| 40.8   | 30.5  |  32.0
+  Yellow Bullhead...................|  5.3   |  8.8  |   2.5
+  Channel Catfish...................| 28.4   | 15.5  |  18.5
+  Flathead..........................|    T   |  T    |   T
+  Stonecat..........................|    T   |  T    |   1.4
+  Spotted Bass......................|    T   |  T    |   0.8
+  Largemouth........................|    T   |  T    |   T
+  Green Sunfish.....................|  3.1   |  6.8  |   6.4
+  Long-eared Sunfish................|  8.8   |  3.7  |   1.9
+  Orange-spotted Sunfish............|  3.1   |  8.9  |   2.5
+  Bluegill..........................|    T   |  T    |   T
+  White Crappie.....................|    T   | ..... |   T
+  Logperch......................... |    T   |  2.1  |   0.8
+  Slender-headed Darter.............|  0.6   |  0.6  |   3.1
+  Orange-throated Darter............| ...... |  T    |   2.5
+  Total number of fish..............|  786   |  965  | 513
+  Size of sample-area in acre-feet..| .002   |  .33  |    .33
+  ----------------------------------+--------+-------+--------
+
+  [D] T denotes less than one-half of one per cent of the population.
+
+Channel catfish also showed a slight decline in relative abundance after
+1957, resulting from mortality in the 1957 year-class. With continuous
+flow, channel catfish will probably remain abundant, although annual
+reproductive success probably will be less than in 1957.
+
+The big-mouthed buffalo, small-mouthed buffalo, creek chub and
+orange-throated darter were not taken in 1957, but appeared in
+collections in 1958. The river carpsucker, golden redhorse, red shiner,
+fat-headed minnow, stoneroller, stonecat, and slender-headed darter also
+increased in abundance between 1957 and 1959. The increased abundance of
+all these species in 1958 and 1959 resulted in a more diversified fauna,
+with lesser predominance by any single species, than in 1957 (Table 12);
+this change is related to the increased, permanent flow in 1958 and
+1959.
+
+
+Local Variability of the Fauna in Different Areas at the Upper Neosho
+Station, 1959
+
+The shallow areas in which the shocker was used in 1959 are the
+prevalent habitat in the upper Neosho River. The relative abundance of
+fishes found in these areas is presented in Table 13. The red shiner was
+most abundant and was followed (in decreasing order) by long-eared
+sunfish, minnows of the genus _Pimephales_, green sunfish, red-finned
+shiner, channel catfish, and stoneroller. Other species combined
+comprise less than ten per cent of the population.
+
+Table 13 also shows the variability in relative abundance of different
+species among areas that have the same general kind of habitat. The
+species composition is similar in all areas. The sample obtained with
+rotenone in 1959 is included in Table 13 to show differences in the
+fauna of deep, slowly flowing areas and shallower areas with stronger
+current. The differences in relative abundance indicate the kind of
+habitat that each species is able to utilize most fully.
+
+Golden redhorse and black bullhead were most abundant in large, deep,
+quiet pools (5.7 per cent and 32 per cent of the total population)
+and were more abundant in Area 5 (3.2 per cent and 7.3 per cent
+respectively) than in any of the other shallow areas. Area 5 has greater
+average depth, more mud bottom, and less riffle area than areas 1, 3 and
+6.
+
+The golden redhorse and black bullhead have specific habitat preferences
+that are not evident in the above discussion. My collections indicate
+that the golden redhorse prefers deep water having some current, whereas
+the black bullhead prefers little or no current.
+
+Species that prevailed in or near riffles were: creek chub,
+sucker-mouthed minnow, stoneroller, channel catfish (young-of-the-year
+only), flathead (young-of-the-year only), stonecat, slender-headed
+darter, and orange-throated darter. Of these species, the sucker-mouthed
+minnow, slender-headed darter and orange-throated darter reached their
+greatest abundance at Area 3, where the riffle is shallow, slow, and has
+a bottom composed of flat limestone rubble.
+
+The riffle at Area 1 is, for the most part, deeper and faster than at
+Area 3 and has a bottom composed of gravel and small rocks. The creek
+chub, stoneroller, channel catfish (young-of-the-year), flathead
+(young-of-the-year), and stonecat reached their greatest abundance in
+Area 1. All species that showed a preference for riffles were rare or
+absent in Area 5 where no riffle-habitat was sampled. The
+riffle-dwelling species that were present in collections made with
+rotenone in the deeper pools were taken from the riffle into which
+rotenone was introduced.
+
+The river carpsucker, blunt-nosed minnow, fat-headed minnow, channel
+catfish (yearlings and two-year-olds), flathead (yearlings and
+two-year-olds), green sunfish and long-eared sunfish showed a preference
+for shallow, quiet water. All of these species were more common in
+collections from Areas 5 and 6 than in collections from other areas.
+
+  TABLE 13. RELATIVE ABUNDANCE OF FISH (PER CENT OF TOTAL POPULATION
+  MADE UP BY EACH SPECIES), IN THE FIRST COLLECTION MADE IN EACH OF
+  FOUR DIFFERENT SHALLOW AREAS BY MEANS OF THE SHOCKER, IS SHOWN IN
+  VERTICAL COLUMNS 1-4. RESULTS OF THE USE OF ROTENONE IN A FIFTH,
+  DEEPER AREA ARE SHOWN IN COLUMN 5. COLUMN 6 COMBINES DATA FROM
+  ALL COLLECTIONS MADE BY USING THE SHOCKER IN SEVEN SHALLOW AREAS
+  (INCLUDING COLUMNS 1-4).
+
+  ======================================================================
+                          | Area | Area | Area | Area |          |  All
+                          |   1  |   3  |   5  |   6  | Rotenone | areas
+  ------------------------+------+------+------+------+----------+------
+  Big-mouthed Buffalo     | .... | .... | T[E] | .... |    T     |  T
+  Small-mouthed Buffalo   | .... | .... |   .6 | .... |    T     |  T
+  River Carpsucker        | .... |  T   | 10.6 |  T   |    1.8   |   .8
+  River Carpsucker (yy)[F]| .... |   .8 |  T   |  3.7 |    ....  |  1.0
+  Short-headed Redhorse   | .... | .... |   .6 | .... |    ....  |  T
+  Golden Redhorse         |   .8 |  1.0 |  3.2 | .... |    5.7   |  T
+  Carp                    | .... | .... | .... | .... |    ....  |  T
+  Golden Shiner           | .... | .... | .... | .... |    ....  |  T
+  Creek Chub              |  1.6 |  T   |  T   |  T   |     .8   |  T
+  Sucker-mouthed Minnow   | .... | 11.2 |  T   |  3.4 |    ....  |  1.4
+  Red-finned Shiner       | .... | .... | .... |  4.0 |     .8   |  8.1
+  Red Shiner              | 18.2 | 24.0 |  7.8 | 20.1 |   12.1   | 35.9
+  Sand Shiner             | .... |  5.2 | .... |  1.1 |    ....  |  T
+  Pimephales (yy)         | .... | .... | .... | .... |    ....  |  6.7
+  Mountain Minnow         | .... | .... | .... |  T   |    ....  |  T
+  Blunt-nosed Minnow      | .... |   .8 |  4.1 | 11.7 |    T     |  3.4
+  Parrot Minnow           | .... | .... | .... | .... |    ....  |  T
+  Fat-headed Minnow       |  T   |  T   |  3.4 | 12.1 |    1.4   |  2.6
+  Stoneroller             | 27.7 | 17.4 |   .6 |  5.8 |    3.5   |  5.1
+  Black Bullhead          |  2.1 |  T   |  7.3 |  T   |   32.0   |   .6
+  Yellow Bullhead         |  T   |  T   | .... |  T   |    2.5   |  T
+  Channel Catfish (j)[G]  |  5.8 |  7.6 | 41.3 |  T   |   14.6   |  4.2
+  Channel Catfish (yy)    |  9.5 |  7.0 |  T   |  4.3 |    3.9   |  2.5
+  Flathead (j)            | .... |   .8 |  2.1 |  T   |    T     |  T
+  Flathead (yy)           |  1.6 |  T   | .... | .... |    ....  |  T
+  Stonecat                | 10.3 |  1.4 | .... | .... |    1.4   |   .7
+  Spotted Bass            | .... |  T   |   .6 |  T   |     .8   |  T
+  Largemouth              | .... | .... |  T   | .... |    T     |  T
+  Green Sunfish           | 11.2 |  3.5 |  5.9 | 12.2 |    6.4   | 10.1
+  Long-eared Sunfish      |  5.4 |  6.0 |  5.1 | 14.6 |    1.9   | 12.8
+  Orange-spotted Sunfish  |  T   |  T   |  1.4 |  1.8 |    2.5   |   .5
+  Bluegill                | .... | .... |  1.0 | .... |    T     |  T
+  White Crappie           | .... | .... | .... | .... |    T     |  T
+  Logperch                |  T   |  T   |  T   |  T   |     .8   |  T
+  Slender-headed Darter   |  T   | 11.4 |  1.1 |  1.6 |    3.1   |  1.3
+  Orange-throated Darter  |   .8 |  1.8 |  T   |   .5 |    2.5   |  T
+  Freshwater Drum         | .... | .... |  T   | .... |    ....  |  T
+  Total number of fish    |  242 |  484 |  727 |  924 |    513   |17,796
+  Area in square feet     |  840 | 6324 |12500 |10000 |    ....  | ....
+  Volume                  | .... | .... | .... | .... |   1/3    |
+                          |      |      |      |      |acre-foot |
+  ------------------------+------+------+------+------+----------+------
+
+  [E] "T" designates species that comprised less than 0.5 per cent
+      of the population.
+
+  [F] (yy) signifies young-of-the-year.
+
+  [G] (j) signifies yearlings or two-year-olds.
+
+
+Temporal Variability of Fauna in the Same Areas
+
+The variability of the population in successive collections from the
+same area is presented in Table 14. Supplementary data obtained in Areas
+2, 4 and 7 support conclusions discussed below for Areas 1, 3 and 6. The
+abundance of some species maintained a constant level, whereas that of
+others varied.
+
+  TABLE 14. NUMBERS OF INDIVIDUALS COLLECTED BY MEANS OF THE SHOCKER
+  AT VARYING INTERVALS IN SEPTEMBER, 1959. THE NUMBER AT THE TOP OF
+  EACH COLUMN IS THE DATE WHEN THE COLLECTION WAS MADE.
+
+  ======================================================================
+                  |     Area 1      |     Area 3      |     Area 6
+       SPECIES    +-----+-----+-----+-----+-----+-----+-----+-----+-----
+                  |  3  |  4  |  8  |  9  |  10 |  15 |  16 |  18 |  20
+  ----------------+-----+-----+-----+-----+-----+-----+-----+-----+-----
+  Golden Redhorse |   2 |   2 | ... |   5 |   5 |   2 | ... | ... |   3
+  Creek Chub      |   4 |   3 |   7 |   1 | ... | ... |   1 |   2 | ...
+  Sucker-mouthed  |     |     |     |     |     |     |     |     |
+    Minnow        | ... | ... | ... |  54 |  42 |  25 |  31 |   7 |   6
+  Red-finned      |     |     |     |     |     |     |     |     |
+    Shiner        | ... | ... |   1 | ... | ... |   4 |  31 |  13 |   4
+  Red Shiner      |  44 |   7 | 211 | 117 | 170 | 438 | 186 | 209 |  62
+  Blunt-nosed     |     |     |     |     |     |     |     |     |
+    Minnow        | ... | ... | ... |   4 |  10 |  19 | 108 |  91 |  13
+  Fat-headed      |     |     |     |     |     |     |     |     |
+    Minnow        |   1 | ... | ... |   1 |   2 |   3 | 112 | 156 |  48
+  Stoneroller     |  67 |  39 |  49 |  84 | 107 |  55 |  54 |  67 |  22
+  Black Bullhead  |   5 | ... |   1 |   2 |   1 | ... | ... |   3 |   7
+  Yellow Bullhead |   1 |   1 | ... |   2 |   1 | ... |   1 | ... |   3
+  Channel Catfish |  14 |   7 | ... |  36 |  16 | ... |   3 |   1 |  23
+  Channel         |     |     |     |     |     |     |     |     |
+    Catfish(yy)[H]|  23 |  16 |  17 |  34 |  34 |  22 |  40 |  23 |  28
+  Flathead        | ... | ... | ... |   4 |   8 |   1 |   2 | ... |   1
+  Flathead(yy)    |   4 |   1 |   1 |   2 |   1 |   1 | ... | ... | ...
+  Stonecat        |  25 |   8 |  12 |   7 |   7 |   5 | ... | ... | ...
+  Green Sunfish   |  27 |  17 |  12 |  13 |  16 |  17 |  62 |  62 |  74
+  Long-eared      |     |     |     |     |     |     |     |     |
+    Sunfish       |  13 |  12 |   1 |   6 |   3 |   3 |  10 |  22 |  31
+  Logperch        |   1 | ... | ... |   2 | ... | ... | ... | ... | ...
+  Slender-headed  |     |     |     |     |     |     |     |     |
+    Darter        | ... |   1 |   2 |  55 |  45 |  23 |  15 |   1 |   1
+  Orange-throated |     |     |     |     |     |     |     |     |
+    Darter        |   2 |   1 |   2 |   9 |  11 |   8 |   5 | ... |   1
+  ----------------+-----+-----+-----+-----+-----+-----+-----+-----+-----
+  Total           | 233 | 115 | 316 | 438 | 480 | 626 | 661 | 657 | 347
+  ----------------+-----+-----+-----+-----+-----+-----+-----+-----+-----
+
+  [H] (yy) means young-of-the-year only.
+
+Stoneroller, channel catfish (young-of-the-year), green sunfish, and
+long-eared sunfish formed the most stable element of the population, in
+that the numbers of these species varied less in successive collections
+than did numbers of other species.
+
+The number of orange-throated darters remained constant at Areas 1 and
+3, and the number of stonecats changed little in successive collections
+from Area 3. I suspect that an apparent decline in stonecats at Area 1
+on September 4 was due to a slow rate of dispersal from the point of
+release (see pages 413, 414).
+
+Some species (sucker-mouthed minnow, red-finned shiner, slender-headed
+darter, and fat-headed minnow) decreased significantly in successive
+samples from the same area because of mortality in handling or movement
+out of the area of initial capture.
+
+The decrease in abundance of the sucker-mouthed minnow may have been due
+to some mobility of the species. Evidence for mortality caused by
+handling was obtained for the red-finned shiner and probably accounts
+for the reduction of this species in Area 6. The red-finned shiner is
+also probably a mobile species. The reduction in abundance of the
+slender-headed darter seems unexplainable because no evidence was
+obtained for either movement or mortality.
+
+Fat-headed minnows also declined markedly in successive collections from
+Area 6, the only area in which the species was common. No marked
+fat-headed minnows were taken outside the area of release, indicating
+low mobility of the species. I cannot certainly account for their
+decline; possibly there was latent mortality due to shocking.
+
+The numbers of red shiners, blunt-nosed minnows, and juvenile channel
+catfish varied erratically in successive collections, probably as a
+result of movement. This problem is discussed for all species in a later
+section.
+
+
+Population-Estimation
+
+The direct-proportion method was used to estimate fish populations in
+Areas 1, 3 and 6. Reliable results could not be obtained for all species
+because of scarcity, mortality in handling, mobility, or other factors.
+
+A high rate of mortality due to handling was observed in Area 1 for the
+red shiner and in Area 6 for river carpsucker (young-of-the-year),
+sucker-mouthed minnows, red-finned shiner, red shiner, blunt-nosed
+minnow, and stoneroller. In Area 3, in contrast, there was little
+mortality in the same species during the twelve-hour interval that fish
+were held in traps prior to release as marked individuals.
+
+The following species were common in at least one area, but probably are
+sufficiently mobile (see page 416) to invalidate estimates of static
+populations in small areas: red shiner, red-finned shiner, and channel
+catfish (yearlings and older). Other species were rare and are indicated
+as "T" in Table 13.
+
+Those species for which population-estimates seem warranted include:
+golden redhorse, sucker-mouthed minnow, red shiner, sand shiner,
+fat-headed minnow, stoneroller, stonecat, channel catfish
+(young-of-the-year), green sunfish, long-eared sunfish, slender-headed
+darter, and orange-throated darter. I consider the estimate valid if a
+high percentage of the marked fish is recaptured. Results are presented
+in Table 15, and ordinarily will not be referred to in the following
+discussion of the population in each of the three areas.
+
+
+_Area 1_
+
+The order of abundance at Area 1, in terms of the estimated population
+per 500 square feet, was as follows: stoneroller (47.6), stonecat
+(29.4), channel catfish (young-of-the-year) (20.6), green sunfish
+(19.4), red shiner (18.2), long-eared sunfish (9.4), channel catfish
+(yearlings and older) (6.5), golden redhorse (1.2). Insufficient data
+make inclusion of other species unreliable.
+
+A comparison of the order of abundance between the estimated total
+population and the percentage composition in the first collection from
+each area shows significant correlations. The percentage-composition of
+the fish fauna at Area 1 was calculated as follows: stoneroller (27.7%),
+red shiner (18.2%), green sunfish (11.2%), stonecat (10.3%), channel
+catfish (young-of-the-year) (9.5%), channel catfish (yearlings and
+older) (5.8%), long-eared sunfish (5.4%), golden redhorse (0.8%). It can
+be seen that the stoneroller, green sunfish, long-eared sunfish and
+golden redhorse follow each other in the same order in both
+calculations. The stonecat is shown to be more common than channel
+catfish (young-of-the-year) in both calculations, but both species
+appear to be more abundant than green sunfish and red shiner in
+calculations of the total population and less abundant in the
+percentage-composition in the first collection. I think that the order
+of abundance as shown by percentage-composition is the more accurate
+figure for Area 1. The abundance of the red shiner is known to have been
+affected by mortality in collecting. Furthermore, as will be shown
+later, the species is so mobile that its abundance often changes
+markedly in a short time. Therefore, it is not surprising to find the
+red shiner in widely varying positions of relative and absolute
+abundance. However, the green sunfish maintains stable populations and
+should remain in about the same position of abundance in relation to
+other species (such as the stonecat and channel catfish
+young-of-the-year) that also maintain stable populations. The
+differences in order of abundance obtained by the two methods for green
+sunfish and channel catfish young-of-the-year are not great. However, in
+the estimation of total population the abundance of the stonecat seems
+significantly greater, in relation to other species, than in the
+calculation of percentage-composition. I believe that this difference
+can be attributed to the relatively low number of marked fish
+recaptured, which is probably due to a slow rate of dispersal from the
+point of release. Stonecats were released in relatively quiet water, and
+if they remained there they might be missed in subsequent collections,
+because they lack air-bladders and tend to remain on the bottom when
+shocked. Therefore, the calculated total population of the stonecat in
+Area 1 may be too high.
+
+
+  TABLE 15. DATA USED IN ESTIMATING TOTAL POPULATIONS, BY DIRECT
+  PROPORTIONS, IN AREAS 1, 3, AND 6 AT THE UPPER NEOSHO STATIONS.
+
+  ======================================================================
+                        |     Number     |    Number    |     Number
+                        | captured first |  marked and  |captured second
+          SPECIES       |   collection   |   released   |   collection
+                        +----+-----+-----+----+----+----+----+-----+----
+                        |  1 |  3  |  6  | 1  | 3  | 6  | 1  |  3  |  6
+  ----------------------+----+-----+-----+----+----+----+----+-----+----
+  Golden Redhorse       |  2 |   5 |   0 |  2 |  5 |  0 |  2 |   5 |   0
+  Sucker-mouthed Minnow |  0 |  54 |  31 |  0 | 51 | 15 |  0 |  42 |  12
+  Red Shiner            | 44 | 116 | 186 | 22 |106 | 86 |  7 | 165 | 202
+  Sand Shiner           |  0 |  25 |  10 |  0 | 25 |  7 |  0 |  35 |  10
+  Blunt-nosed Minnow    |  0 |   4 | 108 |  0 |  3 | 28 |  0 |  10 |  91
+  Fat-headed Minnow     |  1 |   1 | 112 |  1 |  1 |101 |  0 |   2 | 156
+  Stoneroller           | 67 |  84 |  54 | 58 | 79 | 33 | 39 | 107 |  67
+  Channel Catfish(j)[I] | 14 |  37 |   3 |  9 | 32 |  3 |  7 |  16 |   1
+  Channel Catfish(yy)[J]|  3 |  34 |  40 | 22 | 33 | 39 | 16 |  34 |  23
+  Stonecat              | 25 |   7 |   0 | 25 |  7 |  0 |  8 |   7 |   0
+  Green Sunfish         | 27 |[K]--|  62 | 27 | -- | 62 | 17 |  -- |  62
+  Long-eared Sunfish    | 13 |   6 |  10 | 13 |  6 | 10 | 12 |   3 |  22
+  ----------------------+----+-----+-----+----+----+----+----+-----+----
+  ======================================================================
+     Number of  |    Estimated    |   Percent of   |      Number
+    marked fish |      total      |   marked fish  |      per 500
+    recaptured  |    population   |    recovered   |    square feet
+  ----+----+----+----+-----+------+-----+-----+----+------+------+------
+    1 | 3  | 6  | 1  |  3  |   6  |  1  |  3  | 6  |   1  |   3  |  6
+  ----+----+----+----+-----+------+-----+-----+----+------+------+------
+    2 |  5 |  0 |  2 |   5 |    0 | 100 | 100 | -- |  1.2 |   .4 |  0
+    0 | 17 |  0 |  0 | 126 |   -- |  -- |  33 |  0 |    0 | 10.0 | --
+    5 | 18 | 14 | 31 | 972 | 1284 |  23 |  17 | 11 | 18.2 | 77.1 | 64
+   -- | 12 |  1 |  0 |  73 |   -- |  -- |  48 | -- |    0 |  5.8 | --
+    0 |  1 |  8 |  0 |  -- |  319 |  -- |  33 | 28 |    0 |   -- | 16
+    0 |  0 | 19 | -- |  -- |  830 |   0 |   0 | 19 |   -- |   -- | 41.5
+   28 | 35 |  8 | 81 | 242 |  276 |  48 |  44 | 24 | 47.6 | 19.2 | 13.8
+    6 | 13 |  0 | 11 |  39 |   -- |  67 |  41 |  0 |  6.5 |  3.1 | --
+   10 | 11 |  1 | 35 | 102 |   -- |  45 |  33 |  3 | 20.6 |  8.1 | --
+    4 |  1 | -- | 50 |  -- |    0 |  16 |  14 | -- | 29.4 |   -- |  0
+   14 | -- | 22 | 33 |  -- |  175 |  52 |  -- | 35 | 19.4 |   -- |  8.8
+   10 |  3 |  6 | 16 |   6 |   37 |  76 |  50 | 60 |  9.4 |   .5 |  1.9
+  ----+----+----+----+-----+------+-----+-----+----+------+------+------
+
+  [I] (j) Denotes juveniles only.
+
+  [J] (yy) Denotes young-of-year only.
+
+  [K] A dash denotes incomplete or insufficient data.
+
+
+_Area 3_
+
+The order of abundance of the species at Area 3, in terms of the
+estimated population per 500 square feet, was as follows: red shiner
+(77.1), stoneroller (19.2), sucker-mouthed minnow (10.0), channel
+catfish (young-of-the-year) (8.1), sand shiner (5.8), channel catfish
+(yearlings and older) (3.1), long-eared sunfish (0.5), golden redhorse
+(0.4). Insufficient data make inclusion of other species unreliable.
+
+For comparison with the estimates of total population, the
+percentage-composition in the first collection gives the following
+results: red shiner (24.0%), stoneroller (17.4%), sucker-mouthed minnow
+(11.2%), channel catfish (yearlings and older) (7.6%), channel catfish
+(young-of-the-year) (7.0%), long-eared sunfish (6.0%), sand shiner
+(5.2%), and golden redhorse (1.0%).
+
+For the most part, the species have the same order of abundance in both
+methods of analysis. Those that are apparently out of order are channel
+catfish (yearlings and older) and long-eared sunfish. The first species
+is mobile (excepting young-of-the-year) and commonly fluctuates widely
+in numbers in the same area; the second species was treated differently
+in that only adults were considered in the population-estimation
+whereas both young and adults were considered in calculating
+percentage-composition. (I found that I could not confidently
+distinguish between young-of-the-year of green sunfish, long-eared
+sunfish and orange-spotted sunfish after staining.)
+
+
+_Area 6_
+
+The order of abundance of the species at Area 6, in terms of the
+estimated population per 500 square feet, was as follows: red shiner
+(64.0), fat-headed minnow (41.5), blunt-nosed minnow (16.0), stoneroller
+(13.8), green sunfish (8.8), long-eared sunfish (1.9). Insufficient data
+make inclusion of other species unreliable.
+
+Calculations of percentage-composition give the following results: red
+shiner (20.1%), long-eared sunfish (14.6%), green sunfish (12.2%),
+fat-headed minnow (12.1%), blunt-nosed minnow (11.7%), stoneroller
+(5.8%). The two species of sunfish form a more significant part of the
+population in the latter analysis because young are included. Only
+adults were considered in the estimation of total population.
+
+The fact that estimates of the total population and the
+percentage-composition agree in most respects lends support to the
+validity of both methods of analysis. It should be re-emphasized that
+differences in the order of abundance in the various areas reflect the
+ability of each species to utilize each particular kind of habitat.
+
+
+Movement of Marked Fish
+
+  TABLE 16. DATA ON MOVEMENT OF MARKED FISH AT THE UPPER NEOSHO
+  STATION, SEPTEMBER, 1959.
+
+  ======================================================================
+                          | Number |   Number   |  Number  |   Number
+           SPECIES        | marked | recaptured |  moved   |   moved
+                          |        |            | upstream | downstream
+  ------------------------+--------+------------+----------+--------------
+  Golden Redhorse         |    24  |    16      |     0    |     2
+  Sucker-mouthed Minnow   |    68  |    27      |     7    |     0
+  Red-finned Shiner       |    74  |     0      |     0    |     0
+  Red Shiner              |  1326  |   152      |    48    |    25
+  Blunt-nosed Minnow      |   136  |    32      |     1    |    10
+  Fat-headed Minnow       |   151  |    40      |     0    |     0
+  Stoneroller             |   177  |    90      |     1    |     0
+  Black Bullhead          |    25  |     6      |     2    |     0
+  Channel Catfish (j)[L]  |   294  |    36      |     4    |     7
+  Channel Catfish (yy)[M] |   145  |    34      |     2    |     0
+  Stonecat                |    33  |     6      |     0    |     0
+  Green Sunfish           |   124  |    68      |     1    |     0
+  Long-eared Sunfish      |    33  |    21      |     0    |     0
+  Slender-headed Darter   |    70  |     1      |     0    |     0
+  Orange-throated Darter  |    13  |     0      |     0    |     0
+  ------------------------+--------+------------+----------+------------
+
+  [L] (j) denotes juveniles only.
+
+  [M] (yy) denotes young-of-year only.
+
+Some measure was gained of the amount of movement exhibited by several
+species of fish. Results are biased in favor of a conclusion that a
+species is sedentary because a large percentage of the recaptures were
+made in collections taken in the same immediate area three hours after
+release of marked fish, the total area checked was not large (one mile),
+and collecting was limited to an eleven-day period. Nevertheless, some
+species were shown to be definitely mobile and others exhibited
+pronounced sedentary tendencies. The results of experiments on movement
+are presented in Table 16. Marked fish (dyed and fin-clipped) were taken
+as long as seven days after being marked. Only those species in which
+more than ten individuals were marked are included.
+
+Blunt-nosed minnow, red shiner, and channel catfish (yearlings and
+older) are more mobile than other species.
+
+The mobility of channel catfish has been discussed by Muncy (1958) and
+Funk (1957). My records show that of 36 marked channel catfish that were
+recaptured, 11 were taken in areas other than the one into which they
+had been returned. A pronounced mobile tendency on the part of the red
+shiner and blunt-nosed minnow is shown by the fact that of 152 marked
+red shiners recaptured, 73 had moved from the area of release; and of 32
+marked blunt-nosed minnows recaptured, 11 had moved from the area of
+release. The fact that the habitat occupied by these species is not
+precise (ranging from swift riffles to quiet pools) supports a
+conclusion that the species are mobile.
+
+The fat-headed minnow, stoneroller, channel catfish (young-of-the-year),
+green sunfish and long-eared sunfish form a sedentary element of the
+population. With the exception of the fat-headed minnow, the sedentary
+group also maintained relatively stable numbers in Areas 1, 3 and 6
+throughout the study (Table 14). It is interesting to note that, in
+contrast to the mobile group, the species forming the sedentary group
+have rather well-defined habitat preferences.
+
+A third group of species, represented by the red-finned shiner,
+stonecat, slender-headed darter and orange-throated darter, was
+characterized by having a low rate of recapture. I suspect that
+mortality is a factor contributing to the failure to recapture
+red-finned shiners, because in one collection only four of 31 red-finned
+shiners captured were successfully marked and released, in another case
+70 of 818. The red-finned shiner occurs most often in pools but is also
+taken in other areas, is pelagic, and probably is a mobile species.
+
+The stonecat, slender-headed darter and orange-throated darter are
+generally restricted to riffle-habitats, and are probably sedentary. The
+low number of recaptures for these three species probably is due either
+to a slow rate of dispersal from the point of release or to latent
+mortality resulting from shock. Table 14 shows that these three species
+maintain comparatively stable populations, but there seems to be a
+tendency for a reduction in numbers with continued collecting, even
+though all fish captured were returned to the stream.
+
+Golden redhorse showed a high rate of recapture. All individuals marked
+were recaptured three hours after release in Areas 1 (two fish) and 3
+(five fish). Nine individuals were taken from Area 4 on 11 September;
+seven of these were marked and released in the next pool downstream
+(Area 3). On 15 September, two fish were retaken in Area 3 and two were
+retaken in Area 2, the next pool downstream. The species was common in
+Area 5 also where five of eight marked individuals were recaptured two
+days after release. It seems that the golden redhorse is somewhat
+restricted in movement, at least for short periods.
+
+The sucker-mouthed minnow and black bullhead showed some movement--less
+than such mobile species as red shiners and channel catfish, but more
+than the sedentary group. Seven of 27 marked sucker-mouthed minnows were
+taken in areas adjacent to the one to which they had been returned. Two
+of six black bullheads that were recaptured had moved. The black
+bullhead moved the greater distance. The extent of short-term movement
+by several of the species in the Upper Neosho correlates well with
+redistribution subsequent to drought in the Wakarusa River, discussed by
+Deacon and Metcalf (1961).
+
+
+Similarity of the Fauna at the Upper Neosho Station to the Faunas of
+Nearby Streams
+
+The fauna that I found to be characteristic at the upper Neosho station
+has affinity with the upland tributary-fauna described by Metcalf (1959)
+for Chautauqua, Cowley and Elk Counties, Kansas. The primary difference
+is a nearly complete absence at my station of the Ozarkian element of
+the population. Some species (red-finned shiner, long-eared sunfish, and
+spotted bass) listed by Metcalf as characteristic of the mainstream of
+smaller rivers occur at the upper Neosho station in greater abundance
+then elsewhere in the Neosho. This difference is probably due to the
+fact that the upper Neosho station is somewhat larger and slightly more
+turbid than Metcalf's "upland tributaries."
+
+Hall (1952) reported on the distribution of fishes in the vicinity of
+Fort Gibson Reservoir, an impoundment on the Grand (Neosho) River in
+Oklahoma. He separated the fishes into three groups according to
+habitat-preference: species restricted to upland tributaries on the east
+side of Grand (Neosho) River, species restricted to lowland tributaries
+on the west side of Grand (Neosho) River, and species occurring in the
+Grand River proper and/or tributaries on one or both sides.
+
+Several species found in the upper Neosho River also occur in the area
+studied by Hall. Of these, only the creek chub was restricted to upland
+tributaries on the east side of Grand (Neosho) River. The sucker-mouthed
+minnow and red-finned shiner were restricted to the lowland tributaries
+on the west side of Grand (Neosho) River in the Fort Gibson Reservoir
+Area. Golden redhorse, stoneroller, yellow bullhead, spotted bass, green
+sunfish, long-eared sunfish, and orange-throated darter were present in
+collections from the Grand River proper and/or tributaries on both sides
+of the river, most commonly in tributaries.
+
+Hall's data show that black bullhead, large-mouthed bass, white crappie,
+and logperch occurred most frequently in or near the quiet water of the
+reservoir. In my study these fish were most common in the larger, quiet
+pools at the upper Neosho station.
+
+
+
+
+COMPARISON OF THE FISH FAUNAS OF THE NEOSHO AND MARAIS DES CYGNES RIVERS
+
+
+The Marais des Cygnes River has less gradient (especially in the
+upstream portions), fewer and shorter riffles, and more mud bottom than
+does the Neosho River. Stream-flow during drought was reduced to a
+proportionately greater degree in the Neosho River than it was in the
+Marais des Cygnes River. Average flow of the Neosho River near Parsons
+(drainage area: 4905 square miles), Kansas, was less than average flow
+of the Marais des Cygnes River at Trading Post (drainage area: 2880
+square miles), Kansas, in 1953, 1955 and 1956. In normal times the
+Neosho River carries a larger volume of water than the Marais des
+Cygnes. The Neosho River has a greater variety of habitat-conditions and
+a more diversified fish-fauna than the Marais des Cygnes.
+
+The following species were taken in the Neosho River but not in the
+Marais des Cygnes River: blue sucker, high-finned carpsucker, golden
+redhorse, gravel chub, mimic shiner, mountain minnow, parrot minnow,
+Neosho madtom (the only endemic in either river), mosquitofish, spotted
+bass, smallmouth, black crappie, logperch and fan-tailed darter. Most of
+the above species are usually found in association with gravel-bottom,
+which is prevalent in Neosho River. The blue sucker, high-finned
+carpsucker, gravel chub, mountain minnow, and parrot minnow normally
+occur in the larger streams in Kansas. The last three species became
+more abundant in the Neosho River following resumption of flow. The
+golden redhorse also increased in abundance from 1957 to 1959, but was
+most numerous at the upper Neosho station, whereas the other species
+occurred mainly at the lower stations.
+
+The mimic shiner, spotted bass, smallmouth, and fan-tailed darter are
+characteristic of upstream habitats with clear water (tributaries,
+rather than the mainstream), and were taken in the Neosho River only in
+1957 or became less abundant from 1957 to 1959.
+
+The silver chub, slender madtom and tadpole madtom were taken in the
+Marais des Cygnes River only in 1957 and were not taken in the Neosho
+River.
+
+The following species, common to both rivers, were more abundant in the
+Neosho: long-nosed gar, short-nosed gar, river carpsucker, creek chub,
+sucker-mouthed minnow, red-finned shiner, red shiner, ghost shiner,
+blunt-nosed minnow, fat-headed minnow, stoneroller, yellow bullhead,
+channel catfish, flathead, stonecat, largemouth, long-eared sunfish,
+slender-headed darter, and freshwater drum. These species, collectively,
+reflect the more diversified habitats (more gravel-bottom, more
+riffle-areas, more gradient, greater range of stream-size sampled) in
+the Neosho River.
+
+The following species, common to both rivers, were more abundant in the
+Marais des Cygnes: gizzard shad, carp, sand shiner, black bullhead and
+white crappie. These species (with the exception of sand shiner)
+emphasize the fact that the Marais des Cygnes is a sluggish stream with
+large areas of mud bottom. Differences in the abundance of the sand
+shiner in the two rivers are part of taxonomic and distributional
+studies being conducted by Mr. Bernard C. Nelson.
+
+The following species were not consistently more abundant in one river
+than the other: big-mouthed buffalo, black buffalo, small-mouthed
+buffalo, short-headed redhorse, green sunfish, orange-spotted sunfish
+and orange-throated darter. These species, excepting the orange-throated
+darter and short-headed redhorse, occurred in a wide variety of
+habitats.
+
+
+
+
+FAUNAL CHANGES, 1957 THROUGH 1959
+
+
+The following species increased in abundance from 1957 to 1959 (Tables
+10 and 11): long-nosed gar, short-nosed gar, river carpsucker, creek
+chub, gravel chub, sucker-mouthed minnow, mountain minnow, blunt-nosed
+minnow, parrot minnow, stoneroller, stonecat, Neosho madtom, green
+sunfish, slender-headed darter, and orange-throated darter.
+
+These species can be separated into three groups, characteristic of
+different habitats but having in common a preference for permanent flow.
+One group, composed of long-nosed gar, short-nosed gar, river
+carpsucker, gravel chub, mountain minnow, parrot minnow, and Neosho
+madtom, prefers streams of moderate to large size.
+
+A second group composed of creek chub, sucker-mouthed minnow,
+stoneroller, and orange-throated darter occurs most abundantly in small,
+permanent streams. The green sunfish may be included here on the basis
+of its abundance at the upper Neosho station; however, this is a pioneer
+species and does not require permanent flow.
+
+The third group is characteristic of continuously flowing water, but in
+both upstream and downstream situations. The species in this group
+(blunt-nosed minnow, stonecat, and slender-headed darter), increased in
+response to a resumption of permanent flow, but did not respond as
+quickly as did channel catfish, flatheads and freshwater drum, which are
+discussed subsequently.
+
+The fact that riffle-insects were abundant throughout my study convinces
+me that food was not a limiting factor in the re-establishment of the
+fish-fauna on riffles of the Neosho River.
+
+The following species decreased in abundance during my study (Tables 10
+and 11): gizzard shad, carp, rosy-faced shiner, blunt-faced shiner, red
+shiner, mimic shiner, black bullhead, yellow bullhead, channel catfish,
+flathead, slender madtom, tadpole madtom, freckled madtom, spotted bass,
+largemouth, black crappie, fan-tailed darter, and freshwater drum.
+
+Among the species that decreased, three groups, characteristic of
+different habitats, can be distinguished. The first group occurs most
+commonly in ponded conditions or in slowly flowing streams. Species in
+this group are: shad, carp, black bullhead, tadpole madtom, largemouth,
+black crappie, and white crappie. Bullhead, bass and crappie commonly
+occur in farm ponds and lakes in Kansas and seem less well adapted to
+streams. It is therefore not surprising to find that these species
+decreased in abundance when flow was resumed.
+
+A second group, composed of rosy-faced shiner, blunt-faced shiner, mimic
+shiner, slender madtom, freckled madtom, spotted bass, and fan-tailed
+darter, normally is characteristic of clear tributaries rather than the
+mainstream of rivers. These species probably used the mainstream as a
+refugium during drought; with the resumption of flow, conditions became
+unsuitable for these populations in the mainstream. At the same time,
+conditions probably became favorable to the re-establishment of these
+species in tributaries. Metcalf (1959:396) listed the rosy-faced shiner,
+blunt-faced shiner and mimic shiner as species that were characteristic
+of upland tributaries in the Flint Hills and Chautauqua Hills of
+Chautauqua, Cowley and Elk counties in Kansas. The slender madtom and
+fan-tailed darter are more common in clear streams of southeast Kansas
+than in other areas of the state (Cross, personal communication and data
+of the State Biological Survey of Kansas). Both species are recorded by
+Hall (1952:57-58) only in upland tributaries on the east side of Grand
+(Neosho) River in the Fort Gibson Reservoir area of Oklahoma. Neither
+species was taken in faunal studies of the Verdigris River in Oklahoma
+(Wallen, 1958), in the Verdigris and Fall rivers in Kansas (Schelske,
+1957), or by Metcalf (1959).
+
+The spotted bass is not so restricted in its distribution and its
+habitat-requirements as are other species in this group; but, in Kansas,
+spotted bass are most abundant in clear creeks in the southeast part of
+the state.
+
+The freckled madtom was taken in most of the studies cited above and is
+most common in the smaller streams of the southeast one-fourth of Kansas
+and the northeast one-fourth of Oklahoma. Schelske (1957:47) reports
+that the freckled madtom was taken only in March, April, October and
+November in the Verdigris River, Kansas. My only record of this species
+was obtained in the Neosho River in April, 1958.
+
+The third group is composed of channel catfish, flathead, and freshwater
+drum. This group represents that element of the population that
+responded most quickly to the resumption of continuous flow. The fact
+that adult channel catfish and flatheads live in pools and do not
+require flowing water to spawn gives these species a survival advantage
+as well as a reproductive advantage over obligatory riffle fishes (such
+as most darters) in the highly variable conditions found in Kansas
+streams. These factors resulted in unusually high reproductive success
+in 1957. Subsequent survival of fry was excellent; however, some
+mortality in the highly-dominant 1957 year-class became apparent in the
+1958 and 1959 collections, accounting for a numerical decline in these
+species. The ability to respond immediately to increased flow is an
+adaptive feature that allows these species to maintain high levels of
+abundance in the highly fluctuating streams of Kansas.
+
+The continuous flow that occurred in 1957 in the Neosho and Marais des
+Cygnes rivers, for the first time in four years, provided the necessary
+habitat for survival of young catfish hatched in that year. The nearly
+complete absence of other species on the riffles, and the abundant
+populations of riffle-insects that I observed in the summer of 1957,
+were undoubtedly factors contributing to the survival of young.
+
+The decrease in abundance of the red shiner may be partially due to an
+increase in the numbers of other species that are well adapted to
+conditions of permanent flow. At the completion of my study, the red
+shiner was still the most abundant minnow in both rivers. In 1957 this
+species was common in many habitats, including swift riffles, that were
+later occupied by madtoms, darters, the gravel chub, mountain minnow and
+sucker-mouthed minnow.
+
+The basic pattern of change was clearly an increase in the species that
+are characteristic of permanently flowing waters, and a decrease in the
+species that are characteristic of ponds or small, clear streams.
+
+
+PLATE 26
+
+  [Illustration: FIG. 1. Neosho River, Middle Station, Sec. 3 and 4,
+  T. 24 S., R. 17 E., looking upstream, July, 1958.]
+
+  [Illustration: FIG. 2. Neosho River, Lower Station, Sec. 16,
+  T. 29 S., R. 20 E., along gravel bar, July, 1959.]
+
+
+PLATE 27
+
+  [Illustration: FIG. 1. Marais des Cygnes River, Upper Station,
+  Sec. 12, T. 17 S., R. 17 E., looking downstream, June, 1960.]
+
+  [Illustration: FIG. 2. Marais des Cygnes River, Middle Station,
+  Sec. 6, T. 17 S., R. 20 E., looking downstream, June, 1960.]
+
+
+PLATE 28
+
+  [Illustration: FIG. 1. Electrical fishing gear used at night.]
+
+  [Illustration: FIG. 2. Pool at the upper Neosho station in which
+  rotenone was used, Sec. 33, T. 15 S., R. 8 E., looking downstream,
+  June, 1960.]
+
+
+PLATE 29
+
+  [Illustration: FIG. 1. Area 1, upper Neosho station, Sec. 33,
+  T. 15 S., R. 8 E., looking upstream, June, 1960.]
+
+  [Illustration: FIG. 2. Area 3, upper Neosho station, Sec. 10,
+  T. 16 S., R. 8 E., looking downstream, June, 1960.]
+
+
+PLATE 30
+
+  [Illustration: FIG. 1. Area 5, upper Neosho station, Sec. 3,
+  T. 16 S., R. 8 E., looking upstream, June, 1960.]
+
+  [Illustration: FIG. 2. Area 6, upper Neosho station, Sec. 3,
+  T. 16 S., R. 8 E., looking upstream, June, 1960.]
+
+
+
+
+CONCLUSIONS
+
+
+The fauna of the Neosho and Marais des Cygnes rivers is capable of a
+wide range of adjustment in response to marked environmental changes. As
+these rivers become low and clear they take on many of the faunal
+characteristics of smaller tributaries and ponds. Species such as black
+bullhead, spotted bass, largemouth, white crappie, red shiner,
+rosy-faced shiner, blunt-faced minnow, mimic shiner, and slender madtom
+assume a more prominent position in the total population. Other species
+such as channel catfish, flathead, freshwater drum, blue sucker, and
+such riffle-dwelling species as the gravel chub, Neosho madtom, and
+slender-headed darter hold a less prominent position in the total
+population.
+
+When permanent flow is re-established the more mobile and the more
+generalized species (with respect to habitat) are able to utilize the
+available space immediately. As a result, these species increase rapidly
+in numbers. This increase occurs both by movement from more permanent
+waters and by reproduction. Channel catfish, flathead, freshwater drum,
+and river carpsucker are mobile species (Funk, 1957; Trautman, 1957) and
+long-nosed gar probably are mobile. Individuals that move supplement
+those that survive in residual pools, and provide brood stock adequate
+to produce a large year-class in the first year of permanent flow.
+
+The five species last mentioned are found in diverse kinds of streams,
+indicating that they are adaptable to varying habitats. A sixth species,
+the red shiner, although probably less mobile, is able to utilize
+opportunistically nearly any kind of habitat in Plains streams.
+Although this species seldom is abundant in riffles, it was, in 1957,
+abundant in both pool and riffle situations at all my stations. These
+riffles were almost unoccupied by other species in 1957 until
+mid-summer, when hatches of channel catfish and flatheads occurred.
+Although adult channel catfish and flatheads live well in pools, the
+young occupy mainly riffles. This age- and size-segregation, in
+different habitats, was an advantage to the rapid re-establishment of
+these species in the Neosho and Marais des Cygnes rivers in 1957.
+
+Species that occupy restricted habitats, especially riffle-dwellers such
+as the Neosho madtom, gravel chub, and slender-headed darter, were
+slowest to increase following drought. These species seem less capable
+of adapting to the variable conditions prevalent in the Neosho and
+Marais des Cygnes rivers than species that have more generalized
+habitat-requirements.
+
+In the Neosho and Marais des Cygnes rivers nearly all species that were
+found in years just prior to the drought of 1952-1956 were again found
+in the last year of my survey; however, some species that live in a
+restricted habitat may eventually be extirpated in these two rivers. The
+high-finned carpsucker _Carpiodes velifer_, common shiner _Notropis
+cornutus_, horny-headed chub _Hybopsis biguttata_, and johnny darter
+_Etheostoma nigrum_ all have specific habitat requirements and have
+disappeared or become restricted to one tributary in the Wakarusa River
+System (Deacon and Metcalf, 1961). The disappearance or reduction of
+these species implies long-term changes in the environment.
+
+Suckers, minnows and catfishes constitute the main fauna of the Neosho
+and Marais des Cygnes rivers, because these families contain many
+species that have generalized habitat-requirements. Many of these fish
+are able to live successfully in either ponds or flowing waters and
+others are capable of long migrations. Because these fish predominate in
+the streams of Kansas, attempts should be made to utilize them more
+effectively.
+
+In years such as 1957, large numbers of young channel catfish could be
+collected and used to stock new ponds and lakes. So doing would not
+affect the numbers of _adults_ produced in the stream, and, if enough
+young could be removed, those remaining in the streams might grow
+faster.
+
+Suckers and carp are abundant in the two rivers and mostly are unused at
+present, because current regulations preclude the use of methods
+effective for the capture of these species.
+
+
+
+
+ACKNOWLEDGMENTS
+
+
+The investigation here reported on was supported jointly by the Kansas
+Forestry, Fish and Game Commission and the State Biological Survey of
+Kansas.
+
+I thank Messrs. W. L. Minckley, D. A. Distler, J. McMullen, A. L.
+Metcalf, L. J. Olund, M. Topping, B. Nelson and Claude Hastings for
+assistance in the field, and Mr. Ernest Craig, Game Protector, Erie,
+Kansas, for valuable suggestions and co-operation. I am especially
+grateful to Associate Professor Frank B. Cross for his pre-drought data,
+guidance, and criticism throughout the course of the work. I thank the
+many landowners who allowed me access to streams, and am especially
+indebted to Mr. and Mrs. Floyd Meats and Mr. and Mrs. Oliver Craig for
+their hospitality and assistance.
+
+Assistant Professor Kenneth B. Armitage and Associate Professor Ronald
+L. McGregor read the manuscript and gave helpful advice. Mrs. Maxine
+Deacon typed the manuscript and assisted in other ways.
+
+
+
+
+LITERATURE CITED
+
+
+ANONYMOUS.
+
+  1945. Kansas State Board of Agriculture. River basin problems and
+        proposed reservoir projects for a state plan of water resources
+        development: Div. of Water Resources, 63(264):1-62, Figs. 1-16.
+
+  1947. Kansas State Board of Agriculture. The Neosho River basin plan
+        of state water resources development: Div. of Water Resources,
+        66(280):1-132, Figs. 1-10.
+
+  1958. Drought: A report. United States Government Printing Office,
+        492400:1-45.
+
+BAILEY, R. M., and HARRISON, H. M., JR.
+
+  1948. Food habits of the southern channel catfish (_Ictalurus
+        lacustris punctatus_) in the Des Moines River, Iowa. Trans. Am.
+        Fish. Soc., 75:110-138.
+
+BREDER, C. M., JR.
+
+  1936. Long-lived fishes in the aquarium. Bull. N. Y. Zool. Soc.,
+        39:116-117.
+
+CROSS, F. B.
+
+  1954. Fishes of Cedar Creek and the South Fork of the Cottonwood
+        River, Chase County, Kansas. Trans. Kansas Acad. Sci.,
+        57(3):303-314.
+
+----, and MINCKLEY, W. L.
+
+  1958. New records of four fishes from Kansas. Trans. Kansas Acad.
+        Sci., 61(1):104-108.
+
+DAVIS, J.
+
+  1959. Management of channel catfish in Kansas. Univ. Kansas Misc.
+        Publ., Mus. Nat. Hist., 21:1-56.
+
+DEACON, J. E.
+
+  1961. A new staining method for marking large numbers of small fish.
+        Prog. Fish Cult., 23(1):41-42.
+
+----, and METCALF, A. L.
+
+       Fishes of the Wakarusa River, Kansas. Univ. of Kansas Publ., Mus.
+       Nat. Hist., 13(6):309-322.
+
+FOLEY, F. C., SMRHA, R. V., and METZLER, D. F.
+
+  1955. Water in Kansas. A report to the Kansas State Legislature.
+        University of Kansas, pp. 1-216.
+
+FUNK, J. L.
+
+  1957. Movement of stream fishes in Missouri. Trans. Am. Fish. Soc.,
+        85(1955), pp. 39-57.
+
+GARRETT, R. A.
+
+  1951. Kansas flood producing rains of 1951. Trans. Kansas Acad. Sci.,
+        54(3):346-355.
+
+  1958. _In_ Kansas Agriculture 1956-57. Kansas State Board of
+        Agriculture, 40th report, pp. 1-288.
+
+HALL, G. E.
+
+  1952. Observations on the fishes of the Fort Gibson and Tenkiller
+        reservoir areas, 1952. Proc. Oklahoma Acad. Sci., 33:55-63.
+
+HASLER, A. D. and WISBY, W. J.
+
+  1958. The return of displaced largemouth bass and green sunfish to a
+        "home" area. Ecology 39(2):289-293.
+
+LACK, D.
+
+  1954. The natural regulation of animal numbers.  Oxford University
+        Press, Amen House, London E. C. 4. VIII + 1-343.
+
+MARZOLF, R. C.
+
+  1957. The production of channel catfish in Missouri ponds. Jour.
+        Wildl. Mgt., 21:22-28.
+
+MEAD, J. R.
+
+  1903. Origin of names of Kansas streams. Trans. Kansas Acad. Sci.,
+        18:215-216.
+
+METCALF, A. L.
+
+  1959. Fishes of Chautauqua, Cowley and Elk Counties, Kansas. Univ.
+        Kansas Publ., Mus. Nat. Hist., 11:345-400.
+
+METZLER, D. F., CULP, R. L., STOLTENBERG, H. A., WOODWARD, R. L.,
+WALTON, G., CHANG, S. L., CLARKE, N. A., PALMER, C. M., and
+MIDDLETON, F. M.
+
+  1958. Emergency use of reclaimed water for potable supply at Chanute,
+        Kansas. Journ. Am. Water Works Assoc., 50(8):1021-1060.
+
+MINCKLEY, W. L.
+
+  1959. Fishes of the Big Blue River Basin, Kansas. Univ. Kansas Publ.,
+        Mus. Nat. Hist., 11:401-442.
+
+----, and DEACON, J. E.
+
+  1959. Biology of the Flathead Catfish in Kansas. Trans. Am. Fish.
+        Soc., 88:344-355.
+
+MUNCY, R. J.
+
+  1958. Movements of Channel Catfish in Des Moines River, Boone County,
+        Iowa. Iowa St. Col. Jour. of Sci., 32(4):563-571.
+
+SCHELSKE, C. L.
+
+  1957. An ecological study of the fishes of the Fall and Verdigris
+        rivers in Wilson and Montgomery counties, Kansas, March 1954,
+        to February 1955. Emporia State Research Studies, 5(3):31-56.
+
+SCHOEWE, W. H.
+
+  1951. The geography of Kansas. Trans. Kansas Acad. Sci.,
+        54(3):263-329.
+
+TRAUTMAN, M. B.
+
+  1957. The fishes of Ohio. Waverly Press, Inc., Baltimore, Md. XVII +
+        1-683.
+
+WEAVER, J. E., and ALBERTSON, F. W.
+
+  1936. Effects of the great drought on the prairies of Iowa, Nebraska,
+        and Kansas. Ecology 17(4):567-639.
+
+
+  _Transmitted March 30, 1961._
+
+
+  28-7576
+
+
+
+
+UNIVERSITY OF KANSAS PUBLICATIONS
+
+MUSEUM OF NATURAL HISTORY
+
+
+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. There
+is no provision for sale of this series by the University Library, which
+meets institutional requests, or by the Museum of Natural History, which
+meets the requests of individuals. However, when individuals request
+copies from the Museum, 25 cents should be included, for each separate
+number that is 100 pages or more in length, for the purpose of defraying
+the costs of wrapping and mailing.
+
+  * An asterisk designates those numbers of which the Museum's
+  supply (not the Library's supply) is exhausted. Numbers published
+  to date, in this series, are as follows:
+
+  Vol. 1. Nos. 1-26 and index. Pp. 1-638, 1946-1950.
+
+ *Vol. 2. (Complete) Mammals of Washington. By Walter W. Dalquest.
+          Pp. 1-444, 140 figures in text. April 9, 1948.
+
+  Vol. 3. *1. The avifauna of Micronesia, its origin, evolution, and
+              distribution. By Rollin H. Baker. Pp. 1-359, 16 figures
+              in text. June 12, 1951.
+
+          *2. A quantitative study of the nocturnal migration of birds.
+              By George H. Lowery, Jr. Pp. 361-472, 47 figures in text.
+              June 29, 1951.
+
+           3. Phylogeny of the waxwings and allied birds. By M. Dale
+              Arvey. Pp. 473-530, 49 figures in text, 13 tables.
+              October 10, 1951.
+
+           4. 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.
+
+          Index. Pp. 651-681.
+
+ *Vol. 4. (Complete) American weasels. By E. Raymond Hall. Pp. 1-466,
+          41 plates, 31 figures in text. December 27, 1951.
+
+  Vol. 5. Nos. 1-37 and index. Pp. 1-676, 1951-1953.
+
+ *Vol. 6. (Complete) Mammals of Utah, _taxonomy and distribution_.
+          By Stephen D. Durrant. Pp. 1-549, 91 figures in text,
+          30 tables. August 10, 1952.
+
+  Vol. 7. *1. Mammals of Kansas. By E. Lendell Cockrum. Pp. 1-303,
+              73 figures in text, 37 tables. August 25, 1952.
+
+           2. Ecology of the opossum on a natural area in northeastern
+              Kansas. By Henry S. Fitch and Lewis L. Sandidge.
+              Pp. 305-338, 5 figures in text. August 24, 1953.
+
+           3. The silky pocket mice (Perognathus flavus) of Mexico.
+              By Rollin H. Baker. Pp. 339-347, 1 figure in text.
+              February 15, 1954.
+
+           4. North American jumping mice (Genus Zapus). By Phillip H.
+              Krutzsch. Pp. 349-472, 47 figures in text, 4 tables.
+              April 21, 1954.
+
+           5. Mammals from Southeastern Alaska. By Rollin H. Baker and
+              James S. Findley. Pp. 473-477. April 21, 1954.
+
+           6. Distribution of Some Nebraskan Mammals. By J. Knox Jones,
+              Jr. Pp. 479-487. April 21, 1954.
+
+           7. Subspeciation in the montane meadow mouse, Microtus
+              montanus, in Wyoming and Colorado. By Sydney Anderson.
+              Pp. 489-506, 2 figures in text. July 23, 1954.
+
+           8. A new subspecies of bat (Myotis velifer) from southeastern
+              California and Arizona. By Terry A. Vaughan. Pp. 507-512.
+              July 23, 1954.
+
+           9. Mammals of the San Gabriel mountains of California.
+              By Terry A. Vaughan. Pp. 513-582, 1 figure in text,
+              12 tables. November 15, 1954.
+
+          10. A new bat (Genus Pipistrellus) from northeastern Mexico.
+              By Rollin H. Baker. Pp. 583-586. November 15, 1954.
+
+          11. A new subspecies of pocket mouse from Kansas. By E.
+              Raymond Hall. Pp. 587-590. November 15, 1954.
+
+          12. Geographic variation in the pocket gopher, Cratogeomys
+              castanops, in Coahuila, Mexico. By Robert J. Russell and
+              Rollin H. Baker. Pp. 591-608. March 15, 1955.
+
+          13. A new cottontail (Sylvilagus floridanus) from northeastern
+              Mexico. By Rollin H. Baker. Pp. 609-612. April 8, 1955.
+
+          14. Taxonomy and distribution of some American shrews. By
+              James S. Findley. Pp. 613-618. June 10, 1955.
+
+          15. The pigmy woodrat, Neotoma goldmani, its distribution and
+              systematic position. By Dennis G. Rainey and Rollin H.
+              Baker. Pp. 619-624, 2 figures in text. June 10, 1955.
+
+          Index. Pp. 625-651.
+
+  Vol. 8. Nos. 1-10 and index. Pp. 1-675, 1954-1956.
+
+  Vol. 9.  1. Speciation of the wandering shrew. By James S. Findley.
+              Pp. 1-68, 18 figures in text. December 10, 1955.
+
+           2. Additional records and extension of ranges of mammals
+              from Utah. By Stephen D. Durrant, M. Raymond Lee, and
+              Richard M. Hansen. Pp. 69-80. December 10, 1955.
+
+           3. A new long-eared myotis (Myotis evotis) from northeastern
+              Mexico. By Rollin H. Baker and Howard J. Stains.
+              Pp. 81-84. December 10, 1955.
+
+           4. Subspeciation in the meadow mouse, Microtus
+              pennsylvanicus, in Wyoming. By Sydney Anderson.
+              Pp. 85-104, 2 figures in text. May 10, 1956.
+
+           5. The condylarth genus Ellipsodon. By Robert W. Wilson.
+              Pp. 105-116, 6 figures in text. May 19, 1956.
+
+           6. Additional remains of the multituberculate genus
+              Eucosmodon. By Robert W. Wilson. Pp. 117-123, 10 figures
+              in text. May 19, 1956.
+
+           7. Mammals of Coahuila, Mexico. By Rollin H. Baker.
+              Pp. 125-335, 75 figures in text. June 15, 1956.
+
+           8. Comments on the taxonomic status of Apodemus peninsulae,
+              with description of a new subspecies from North China.
+              By J. Knox Jones, Jr. Pp. 337-346, 1 figure in text,
+              1 table. August 15, 1956.
+
+           9. Extensions of known ranges of Mexican bats. By Sydney
+              Anderson. Pp. 347-351. August 15, 1956.
+
+          10. A new bat (Genus Leptonycteris) from Coahuila. By Howard
+              J. Stains. Pp. 353-356. January 21, 1957.
+
+          11. A new species of pocket gopher (Genus Pappogeomys) from
+              Jalisco, Mexico. By Robert J. Russell. Pp. 357-361.
+              January 21, 1957.
+
+          12. Geographic variation in the pocket gopher, Thomomys
+              bottae, in Colorado. By Phillip M. Youngman. Pp. 363-387,
+              7 figures in text. February 21, 1958.
+
+          13. New bog lemming (genus Synaptomys) from Nebraska. By J.
+              Knox Jones, Jr. Pp. 385-388. May 12, 1958.
+
+          14. Pleistocene bats from San Josecito Cave, Nuevo León,
+              México. By J. Knox Jones, Jr. Pp. 389-396. December 19,
+              1958.
+
+          15. New subspecies of the rodent Baiomys from Central America.
+              By Robert L. Packard. Pp. 397-404. December 19, 1958.
+
+          16. Mammals of the Grand Mesa, Colorado. By Sydney Anderson.
+              Pp. 405-414, 1 figure in text, May 20, 1959.
+
+          17. Distribution, variation, and relationships of the montane
+              vole, Microtus montanus. By Sydney Anderson. Pp. 415-511,
+              12 figures in text, 2 tables. August 1, 1959.
+
+          18. Conspecificity of two pocket mice, Perognathus goldmani
+              and P. artus. By E. Raymond Hall and Marilyn Bailey
+              Ogilvie. Pp. 513-518, 1 map. January 14, 1960.
+
+          19. Records of harvest mice, Reithrodontomys, from Central
+              America, with description of a new subspecies from
+              Nicaragua. By Sydney Anderson and J. Knox Jones, Jr.
+              Pp. 519-529. January 14, 1960.
+
+          20. Small carnivores from San Josecito Cave (Pleistocene),
+              Nuevo León, México. By E. Raymond Hall. Pp. 531-538,
+              1 figure in text. January 14, 1960.
+
+          21. Pleistocene pocket gophers from San Josecito Cave, Nuevo
+              León, México. By Robert J. Russell. Pp. 539-548, 1 figure
+              in text. January 14, 1960.
+
+          22. Review of the insectivores of Korea. By J. Knox Jones,
+              Jr., and David H. Johnson. Pp. 549-578. February 23, 1960.
+
+          23. Speciation and evolution of the pygmy mice, genus Baiomys.
+              By Robert L. Packard. Pp. 579-670, 4 plates, 12 figures in
+              text. June 16, 1960.
+
+          Index. Pp. 671-690.
+
+  Vol. 10. 1. Studies of birds killed in nocturnal migration. By
+              Harrison B. Tordoff and Robert M. Mengel. Pp. 1-44,
+              6 figures in text, 2 tables. September 12, 1956.
+
+           2. Comparative breeding behavior of Ammospiza caudacuta and
+              A. maritima. By Glen E. Woolfenden. Pp. 45-75, 6 plates,
+              1 figure. December 20, 1956.
+
+           3. The forest habitat of the University of Kansas Natural
+              History Reservation. By Henry S. Fitch and Ronald R.
+              McGregor. Pp. 77-127, 2 plates, 7 figures in text,
+              4 tables. December 31, 1956.
+
+           4. Aspects of reproduction and development in the prairie
+              vole (Microtus ochrogaster). By Henry S. Fitch. Pp.
+              129-161, 8 figures in text, 4 tables. December 19, 1957.
+
+           5. Birds found on the Arctic slope of northern Alaska. By
+              James W. Bee. Pp. 163-211, plates 9-10, 1 figure in text.
+              March 12, 1958.
+
+           6. The wood rats of Colorado: distribution and ecology. By
+              Robert B. Finley, Jr. Pp. 213-552, 34 plates, 8 figures
+              in text, 35 tables. November 7, 1958.
+
+           7. Home ranges and movements of the eastern cottontail in
+              Kansas. By Donald W. Janes. Pp. 553-572, 4 plates,
+              3 figures in text. May 4, 1959.
+
+           8. Natural history of the salamander, Aneides hardyi. By
+              Richard F. Johnston and Gerhard A. Schad. Pp. 573-585.
+              October 8, 1959.
+
+           9. A new subspecies of lizard, Cnemidophorus sacki, from
+              Michoacán, México. By William E. Duellman, Pp. 587-598,
+              2 figures in text. May 2, 1960.
+
+          10. A taxonomic study of the Middle American Snake, Pituophis
+              deppei. By William E. Duellman. Pp. 599-610, 1 plate,
+              1 figure in text. May 2, 1960.
+
+          Index. Pp. 611-626.
+
+  Vol. 11. 1. The systematic status of the colubrid snake, Leptodeira
+              discolor Günther. By William E. Duellman. Pp. 1-9,
+              4 figures. July 14, 1958.
+
+           2. Natural history of the six-lined racerunner, Cnemidophorus
+              sexlineatus. By Henry S. Fitch. Pp. 11-62, 9 figures,
+              9 tables. September 19, 1958.
+
+           3. Home ranges, territories, and seasonal movements of
+              vertebrates of the Natural History Reservation. By Henry
+              S. Fitch. Pp. 63-326, 6 plates, 24 figures in text,
+              3 tables. December 12, 1958.
+
+           4. A new snake of the genus Geophis from Chihuahua, Mexico.
+              By John M. Legler. Pp. 327-334, 2 figures in text.
+              January 28, 1959.
+
+           5. A new tortoise, genus Gopherus, from north-central Mexico.
+              By John M. Legler. Pp. 335-343. April 24, 1959.
+
+           6. Fishes of Chautauqua, Cowley and Elk counties, Kansas.
+              By Artie L. Metcalf. Pp. 345-400, 2 plates, 2 figures in
+              text, 10 tables. May 6, 1959.
+
+           7. Fishes of the Big Blue River Basin, Kansas. By W. L.
+              Minckley. Pp. 401-442, 2 plates, 4 figures in text,
+              5 tables. May 8, 1959.
+
+           8. Birds from Coahuila, México. By Emil K. Urban.
+              Pp. 443-516. August 1, 1959.
+
+           9. Description of a new softshell turtle from the
+              southeastern United States. By Robert G. Webb. Pp.
+              517-525, 2 plates, 1 figure in text. August 14, 1959.
+
+          10. Natural history of the ornate box turtle, Terrapene ornata
+              ornata Agassiz. By John M. Legler. Pp. 527-669, 16 pls.,
+              29 figures in text. March 7, 1960.
+
+          Index Pp. 671-703.
+
+  Vol. 12. 1. Functional morphology of three bats: Eumops, Myotis,
+              Macrotus. By Terry A. Vaughan. Pp. 1-153, 4 plates,
+              24 figures in text. July 8, 1959.
+
+           2. 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.
+
+           3. The baculum in microtine rodents. By Sydney Anderson.
+              Pp. 181-216, 49 figures in text. February 19, 1960.
+
+           4. 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.
+
+          More numbers will appear in volume 12.
+
+  Vol. 13. 1. Five natural hybrid combinations in minnows (Cyprinidae).
+              By Frank B. Cross and W. L. Minckley. Pp. 1-18.
+              June 1, 1960.
+
+           2. 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.
+
+           3. A new subspecies of the slider turtle (Pseudemys scripta)
+              from Coahuila, México. By John M. Legler. Pp. 73-84,
+              pls. 9-12, 3 figures in text. August 16, 1960.
+
+           4. Autecology of the Copperhead. By Henry S. Fitch. Pp.
+              85-288, pls. 13-20, 26 figures in text. November 30, 1960.
+
+           5. 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.
+
+           6. 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.
+
+           7. 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.
+
+           8. 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.
+
+           9. 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 figs. August 11, 1961.
+
+          More numbers will appear in volume 13.
+
+  Vol. 14. 1. Neotropical Bats from Western México. By Sydney Anderson.
+              Pp. 1-8. October 24, 1960.
+
+           2. 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.
+
+           3. Mammals of Mesa Verde National Park, Colorado. By Sydney
+              Anderson. Pp. 29-67, pls. 1 and 2, 3 figures in text.
+              July 24, 1961.
+
+          More numbers will appear in volume 14.
+
+
+
+
+
+End of the Project Gutenberg EBook of Fish Populations, Following a Drought,
+in the Neosho and Marais des Cygnes Rivers of Kansas, by James Everett Deacon
+
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+    <meta http-equiv="Content-Type" content="text/html;charset=iso-8859-1" />
+    <title>
+      The Project Gutenberg eBook of Fish Populations, Following a Drought, In the Neosho and Marais des Cygnes Rivers of Kansas, by James Everett Deacon.
+    </title>
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+<pre>
+
+The Project Gutenberg EBook of Fish Populations, Following a Drought, in
+the Neosho and Marais des Cygnes Rivers of Kansas, by James Everett Deacon
+
+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: Fish Populations, Following a Drought, in the Neosho and Marais des Cygnes Rivers of Kansas
+
+Author: James Everett Deacon
+
+Release Date: December 30, 2010 [EBook #34787]
+
+Language: English
+
+Character set encoding: ISO-8859-1
+
+*** START OF THIS PROJECT GUTENBERG EBOOK FISH POPULATIONS, FOLLOWING ***
+
+
+
+
+Produced by Chris Curnow, Joseph Cooper and the Online
+Distributed Proofreading Team at http://www.pgdp.net
+
+
+
+
+
+
+</pre>
+
+
+
+
+<p><span class="pagenum"><a name="Cover" id="Cover">[Cover]</a></span></p>
+
+<div class="cover">
+<p>&nbsp;</p>
+<img src="images/bar_double.png" width="100%" height="15" alt="double bar" />
+<div class="caption2"><div class="smcap">University of Kansas Publications<br />
+Museum of Natural History</div></div>
+<hr style="width: 30%;" /><br />
+<div class="caption2">Volume 13, No. 9, pp. 359-427, pls. 26-30, 3 figs.</div><br />
+<div class="center"><img src="images/bar_single.png" width="28%" height="15" title="bar" alt="bar" />&nbsp;&nbsp;<span class="caption2">August 11, 1961</span>&nbsp;&nbsp;<img src="images/bar_single.png" width="28%" height="15" title="bar" alt="bar" /></div>
+<p>&nbsp;</p>
+<p>&nbsp;</p>
+<p>&nbsp;</p>
+<div class="caption1">
+Fish Populations, Following a Drought,<br />
+In the Neosho and Marais des Cygnes Rivers<br />
+of Kansas</div>
+<p>&nbsp;</p>
+<p>&nbsp;</p>
+
+
+<div class="caption3">
+BY<br />
+<br />
+JAMES EVERETT DEACON<br />
+<br />
+<br />
+(Joint Contribution from the State Biological Survey and<br />
+the Forestry, Fish, and Game Commission)</div>
+<p>&nbsp;</p>
+<p>&nbsp;</p>
+<p>&nbsp;</p>
+<p>&nbsp;</p>
+
+<div class="caption2">
+<span class="smcap">University of Kansas</span><br />
+<span class="smcap">Lawrence</span><br />
+1961
+</div>
+<p>&nbsp;</p>
+<p>&nbsp;</p>
+</div>
+<p>&nbsp;</p>
+<p>&nbsp;</p>
+
+<p><span class='pagenum'><a name="Page_359" id="Page_359">[Pg 359]</a></span></p>
+<div class="center">
+<p>&nbsp;</p>
+<img src="images/bar_double.png" width="100%" height="15" alt="double bar" />
+<div class="caption2"><div class="smcap">University of Kansas Publications<br />
+Museum of Natural History</div></div>
+<hr style="width: 30%;" />
+<div class="caption2">Volume 13, No. 9, pp. 359-427, pls. 26-30, 3 figs.</div>
+<div class="center"><img src="images/bar_single.png" width="28%" height="15" title="bar" alt="bar" />&nbsp;&nbsp;<span class="caption2">August 11, 1961</span>&nbsp;&nbsp;<img src="images/bar_single.png" width="28%" height="15" title="bar" alt="bar" /></div>
+<p>&nbsp;</p>
+<p>&nbsp;</p>
+<p>&nbsp;</p>
+<div class="caption1">
+Fish Populations, Following a Drought,<br />
+In the Neosho and Marais des Cygnes Rivers<br />
+of Kansas<br />
+</div>
+<p>&nbsp;</p>
+<p>&nbsp;</p>
+
+<div class="caption3">
+BY<br />
+<p>&nbsp;</p>
+JAMES EVERETT DEACON<br />
+<br />
+(Joint Contribution from the State Biological Survey and<br />
+the Forestry, Fish, and Game Commission)<br />
+</div>
+<p>&nbsp;</p>
+<p>&nbsp;</p>
+<p>&nbsp;</p>
+<p>&nbsp;</p>
+<p>&nbsp;</p>
+<p>&nbsp;</p>
+
+<div class="caption2">
+<span class="smcap">University of Kansas</span><br />
+<span class="smcap">Lawrence</span><br />
+1961
+</div>
+</div>
+
+<hr style="width: 100%;" />
+
+<p><span class='pagenum'><a name="Page_360" id="Page_360">[Pg 360]</a></span></p>
+<div class="center">
+<div class="caption3">
+<span class="smcap">University of Kansas Publications, Museum of Natural History</span><br />
+<br />
+Editors: E. Raymond Hall, Chairman, Henry S. Fitch,<br />
+Robert W. Wilson<br />
+</div>
+<p>&nbsp;</p>
+
+Volume 13, No. 9, pp. 359-427, pls. 26-30, 3 figs.<br />
+<br />
+Published August 11, 1961<br />
+<p>&nbsp;</p>
+<p>&nbsp;</p>
+
+<span class="smcap">University of Kansas</span><br />
+Lawrence, Kansas<br />
+<p>&nbsp;</p>
+<p>&nbsp;</p>
+<div class="caption4">
+PRINTED IN<br />
+THE STATE PRINTING PLANT<br />
+TOPEKA, KANSAS<br />
+1961<br />
+<img src="images/union_label.png" width="71" height="26" alt="Look for the Union Label" title="Look for the Union Label" /><br />
+28-7576<br />
+</div>
+</div>
+
+
+
+<hr style="width: 100%;" />
+<p><span class='pagenum'><a name="Page_361" id="Page_361">[Pg 361]</a></span></p>
+<h1>Fish Populations, Following a Drought,<br />
+In the Neosho and Marais des Cygnes Rivers<br />
+of Kansas</h1>
+
+<h4>BY</h4>
+
+<h3>JAMES EVERETT DEACON</h3>
+
+
+<hr style="width: 15%;" />
+<h2>CONTENTS</h2>
+
+<div class='center'>
+<table border="0" cellpadding="2" cellspacing="5" summary="Contents">
+<tr><td align='left'></td><td align='left'><small>PAGE</small></td></tr>
+<tr><td align='left'><span class="smcap">Introduction</span></td><td align='right'><a href="#Page_363">363</a></td></tr>
+<tr><td align='left'><span class="smcap">Description of Neosho River</span></td><td align='right'><a href="#Page_366">366</a></td></tr>
+<tr><td align='left'><span class="smcap">Description of Marais des Cygnes River</span></td><td align='right'><a href="#Page_367">367</a></td></tr>
+<tr><td align='left'><span class="smcap">Methods</span></td><td align='right'><a href="#Page_368">368</a></td></tr>
+<tr><td align='left'><span style="margin-left: 1em;">Electrical Fishing Gear</span></td><td align='right'><a href="#Page_368">368</a></td></tr>
+<tr><td align='left'><span style="margin-left: 1em;">Seines</span></td><td align='right'><a href="#Page_369">369</a></td></tr>
+<tr><td align='left'><span style="margin-left: 1em;">Gill Nets</span></td><td align='right'><a href="#Page_370">370</a></td></tr>
+<tr><td align='left'><span style="margin-left: 1em;">Sodium Cyanide</span></td><td align='right'><a href="#Page_370">370</a></td></tr>
+<tr><td align='left'><span style="margin-left: 1em;">Rotenone</span></td><td align='right'><a href="#Page_370">370</a></td></tr>
+<tr><td align='left'><span style="margin-left: 1em;">Dyes</span></td><td align='right'><a href="#Page_370">370</a></td></tr>
+<tr><td align='left'><span style="margin-left: 1em;">Determination of Abundance</span></td><td align='right'><a href="#Page_371">371</a></td></tr>
+<tr><td align='left'><span style="margin-left: 1em;">Names of Fishes</span></td><td align='right'><a href="#Page_371">371</a></td></tr>
+<tr><td align='left'><span class="smcap">Annotated List of Species</span></td><td align='right'><a href="#Page_371">371</a></td></tr>
+<tr><td align='left'><span class="smcap">Fish-fauna of the Upper Neosho River</span></td><td align='right'><a href="#Page_405">405</a></td></tr>
+<tr><td align='left'><span style="margin-left: 1em;">Description of Study-areas</span></td><td align='right'><a href="#Page_405">405</a></td></tr>
+<tr><td align='left'><span style="margin-left: 1em;">Methods</span></td><td align='right'><a href="#Page_406">406</a></td></tr>
+<tr><td align='left'><span style="margin-left: 1em;">Changes in the Fauna at the Upper Neosho Station, 1957 through 1959</span></td><td align='right'><a href="#Page_407">407</a></td></tr>
+<tr><td align='left'><span style="margin-left: 1em;">Local Variability of the Fauna in Different Areas at the Upper Neosho Station, 1959</span></td><td align='right'><a href="#Page_409">409</a></td></tr>
+<tr><td align='left'><span style="margin-left: 1em;">Temporal Variability of Fauna in the Same Areas</span></td><td align='right'><a href="#Page_411">411</a></td></tr>
+<tr><td align='left'><span style="margin-left: 1em;">Population-Estimation</span></td><td align='right'><a href="#Page_412">412</a></td></tr>
+<tr><td align='left'><span style="margin-left: 1em;">Movement of Marked Fish</span></td><td align='right'><a href="#Page_416">416</a></td></tr>
+<tr><td align='left'><span style="margin-left: 1em;">Similarity of the Fauna at the Upper Neosho Station to the Faunas of Nearby Streams</span></td><td align='right'><a href="#Page_418">418</a></td></tr>
+<tr><td align='left'><span class="smcap">Comparison of the Fish-faunas of the Neosho and Marais des Cygnes Rivers</span></td><td align='right'><a href="#Page_419">419</a></td></tr>
+<tr><td align='left'><span class="smcap">Faunal Changes, 1957 Through 1959</span></td><td align='right'><a href="#Page_420">420</a></td></tr>
+<tr><td align='left'><span class="smcap">Conclusions</span></td><td align='right'><a href="#Page_423">423</a></td></tr>
+<tr><td align='left'><span class="smcap">Acknowledgments</span></td><td align='right'><a href="#Page_425">425</a></td></tr>
+<tr><td align='left'><span class="smcap">Literature Cited</span></td><td align='right'><a href="#Page_425">425</a></td></tr>
+</table></div>
+
+
+<hr style="width: 15%;" />
+<p><span class='pagenum'><a name="Page_362" id="Page_362">[Pg 362]</a></span></p>
+<h2>TABLES</h2>
+
+
+
+<div class='center'>
+<table border="0" cellpadding="2" cellspacing="5" summary="Tables">
+<tr><td align='left'></td><td align='left'><small>PAGE</small></td></tr>
+<tr><td align='left'>1. Stream-flow in Cubic Feet per Second (C. F. S.), Neosho River near Council Grove, Kansas</td><td align='right'><a href="#Page_364">364</a></td></tr>
+<tr><td align='left'>2. Stream-flow in Cubic Feet per Second, Neosho River near Parsons, Kansas</td><td align='right'><a href="#Page_364">364</a></td></tr>
+<tr><td align='left'>3. Stream-flow in Cubic Feet per Second, Marais des Cygnes River near Ottawa, Kansas</td><td align='right'><a href="#Page_364">364</a></td></tr>
+<tr><td align='left'>4. Stream-flow in Cubic Feet per Second, Marais des Cygnes River at Trading Post, Kansas</td><td align='right'><a href="#Page_365">365</a></td></tr>
+<tr><td align='left'>5. Numbers and sizes of long-nosed gar</td><td align='right'><a href="#Page_372">372</a></td></tr>
+<tr><td align='left'>6. Numbers and sizes of short-nosed gar</td><td align='right'><a href="#Page_374">374</a></td></tr>
+<tr><td align='left'>7. Length-frequency of channel catfish from the Neosho River</td><td align='right'><a href="#Page_388">388</a></td></tr>
+<tr><td align='left'>8. Length-frequency of freshwater drum</td><td align='right'><a href="#Page_402">402</a></td></tr>
+<tr><td align='left'>9. Average number of individuals captured per hour</td><td align='right'><a href="#Page_402">402</a></td></tr>
+<tr><td align='left'>10. Numbers of fish seen or captured per hour</td><td align='right'><a href="#Page_403">403</a></td></tr>
+<tr><td align='left'>11. Numbers of occurrences and numbers counted</td><td align='right'><a href="#Page_404">404</a></td></tr>
+<tr><td align='left'>12. Percentage composition of the fish fauna at the Upper Neosho station in 1957, 1958 and 1959, as computed from results of rotenone collections</td><td align='right'><a href="#Page_408">408</a></td></tr>
+<tr><td align='left'>13. Relative abundance of fish</td><td align='right'><a href="#Page_410">410</a></td></tr>
+<tr><td align='left'>14. Changes in numbers of individuals</td><td align='right'><a href="#Page_411">411</a></td></tr>
+<tr><td align='left'>15. Data used in making direct proportion population-estimations</td><td align='right'><a href="#Page_414">414</a></td></tr>
+<tr><td align='left'>16. Data on movement of marked fish</td><td align='right'><a href="#Page_416">416</a></td></tr>
+</table></div>
+
+<hr style="width: 65%;" />
+<p><span class='pagenum'><a name="Page_363" id="Page_363">[Pg 363]</a></span></p>
+<h2>INTRODUCTION</h2>
+
+
+<p>This report concerns the ability of fish-populations in the Neosho
+and Marais des Cygnes rivers in Kansas to readjust to continuous
+stream-flow following intermittent conditions resulting from the
+severest drought in the history of the State.</p>
+
+<p>The variable weather in Kansas (and in other areas of the Great
+Plains) markedly affects its flora and fauna. Weaver and Albertson
+(1936) reported as much as 91 per cent loss in the basal prairie
+vegetative cover in Kansas near the close of the drought of the
+1930's. The average annual cost (in 1951 prices) of floods in
+Kansas from 1926 to 1953 was $35,000,000. In the same period the
+average annual loss from the droughts of the 1930's and 1950's was
+$75,000,000 (in 1951 prices), excluding losses from wind- and soil-erosion.
+Thus, over a period of 28 years, the average annual flood-losses
+were less than one-half the average annual drought-losses
+(Foley, Smrha, and Metzler, 1955:9; Anonymous, 1958:15).</p>
+
+<p>Weather conditions in Kansas from 1951 to 1957 were especially
+noteworthy: 1951 produced a bumper crop of climatological events
+significant to the economy of the State. Notable among these were:
+Wettest year since beginning of the state-wide weather records in
+1887; highest river stages since settlement of the State on the
+Kansas River and on most of its tributaries, as well as on the Marais
+des Cygnes and on the Neosho and Cottonwood. The upper
+Arkansas and a number of smaller streams in western Kansas also
+experienced unprecedented flooding (Garrett, 1951:147). This
+period of damaging floods was immediately followed by the driest
+five-year period on record, culminating in the driest year in 1956
+(Garrett, 1958:56). Water shortage became serious for many
+communities. The Neosho River usually furnishes adequate quantities
+of water for present demands, but in some years of drought all
+flow ceases for several consecutive months. In 1956-'57, the city
+of Chanute, on an emergency basis, recirculated treated sewage for
+potable supply (Metzler <i>et al.</i>, 1958). The water shortage in many
+communities along the Neosho River became so serious that a joint
+project to pump water from the Smoky Hill River into the upper
+Neosho was considered, and preliminary investigations were made.
+If the drought had continued through 1957, this program might
+have been vigorously promoted. Data on stream-flow in the Neosho
+and Marais des Cygnes (1951-'59) are presented in Tables 1-4.</p>
+
+<p>These severe conditions provided a unique opportunity to gain
+insight into the ability of several species of fish to adjust to marked
+<span class='pagenum'><a name="Page_364" id="Page_364">[Pg 364]</a></span>
+changes in their environment. For this reason, and because of a
+paucity of information concerning stream-fish populations in Kansas,
+the study here reported on was undertaken.</p>
+
+<h4><span class="smcap">Table 1. Stream-flow in Cubic Feet per Second, Neosho River near
+Council Grove, Kansas. Drainage Area: 250 Square Miles</span></h4>
+
+<div class='center'>
+<table border="1" cellpadding="4" cellspacing="0" summary="">
+<tr><th><span class="smcap">Water-year</span><a name="FNanchor_A_1" id="FNanchor_A_1"></a><a href="#Footnote_A_1" class="fnanchor">[A]</a></th><th>Average flow</th><th>Maximum</th><th>Minimum</th></tr>
+<tr><td align='center'>1951</td><td align='right'> 498.0</td><td align='right'> 121,000</td><td align='right'> 3.0</td></tr>
+<tr><td align='center'>1952</td><td align='right'> 82.1</td><td align='right'> 4,850</td><td align='right'> .7</td></tr>
+<tr><td align='center'>1953</td><td align='right'> 5.37</td><td align='right'> 202</td><td align='right'> .1</td></tr>
+<tr><td align='center'>1954</td><td align='right'> 8.53</td><td align='right'> 2,720</td><td align='right'> .1</td></tr>
+<tr><td align='center'>1955</td><td align='right'> 31.2</td><td align='right'> 6,480</td><td align='right'> 0</td></tr>
+<tr><td align='center'>1956</td><td align='right'> 10.1</td><td align='right'> 5,250</td><td align='right'> 0</td></tr>
+<tr><td align='center'>1957</td><td align='right'> 68.5</td><td align='right'> 12,300</td><td align='right'> 0</td></tr>
+<tr><td align='center'>1958</td><td align='right'> 131.0</td><td align='right'> 5,360</td><td align='right'> .8</td></tr>
+<tr><td align='center'>1959</td><td align='right'> 114.0</td><td align='right'> 7,250</td><td align='right'> 8.5</td></tr>
+</table></div>
+
+
+<h4><span class="smcap">Table 2. Stream-flow in Cubic Feet per Second, Neosho River near
+Parsons, Kansas. Drainage Area: 4905 Square Miles.</span></h4>
+
+<div class='center'>
+<table border="1" cellpadding="4" cellspacing="0" summary="">
+<tr><th><span class="smcap">Water-year</span><a name="FNanchor_B_2" id="FNanchor_B_2"></a><a href="#Footnote_B_2" class="fnanchor">[B]</a></th><th>Average flow</th><th>Maximum</th><th>Minimum</th></tr>
+<tr><td align='center'>1951</td><td align='right'> 8,290</td><td align='right'> 410,000</td><td align='right'> 124.0</td></tr>
+<tr><td align='center'>1952</td><td align='right'> 2,021</td><td align='right'> 20,500</td><td align='right'> 20.0</td></tr>
+<tr><td align='center'>1953</td><td align='right'> 173</td><td align='right'> 4,110</td><td align='right'> .3</td></tr>
+<tr><td align='center'>1954</td><td align='right'> 430</td><td align='right'> 27,900</td><td align='right'> .1</td></tr>
+<tr><td align='center'>1955</td><td align='right'> 645</td><td align='right'> 18,600</td><td align='right'> 0</td></tr>
+<tr><td align='center'>1956</td><td align='right'> 180</td><td align='right'> 6,170</td><td align='right'> 0</td></tr>
+<tr><td align='center'>1957</td><td align='right'> 1,774</td><td align='right'> 25,000</td><td align='right'> 0</td></tr>
+<tr><td align='center'>1958</td><td align='right'> 3,092</td><td align='right'> 27,200</td><td align='right'> 78.0</td></tr>
+<tr><td align='center'>1959</td><td align='right'> 1,609</td><td align='right'> 22,600</td><td align='right'> 139.0</td></tr>
+</table></div>
+
+
+<h4><span class="smcap">Table 3. Stream-flow in Cubic Feet per Second, Marais des Cygnes
+River Near Ottawa, Kansas. Drainage Area: 1,250 Square Miles.</span></h4>
+
+
+<div class='center'>
+<table border="1" cellpadding="4" cellspacing="0" summary="">
+<tr><th><span class="smcap">Water-year</span></th><th>Average flow</th><th>Maximum</th><th>Minimum</th></tr>
+<tr><td align='center'>1951</td><td align='right'> 2,113</td><td align='right'> 142,000</td><td align='right'> 25.0</td></tr>
+<tr><td align='center'>1952</td><td align='right'> 542</td><td align='right'> 12,000</td><td align='right'> .2</td></tr>
+<tr><td align='center'>1953</td><td align='right'> 36.5</td><td align='right'> 2,690</td><td align='right'> .2</td></tr>
+<tr><td align='center'>1954</td><td align='right'> 73.6</td><td align='right'> 5,660</td><td align='right'> .5</td></tr>
+<tr><td align='center'>1955</td><td align='right'> 75.7</td><td align='right'> 5,240</td><td align='right'> .7</td></tr>
+<tr><td align='center'>1956</td><td align='right'> 26</td><td align='right'> 1,590</td><td align='right'> .7</td></tr>
+<tr><td align='center'>1957</td><td align='right'> 442</td><td align='right'> 11,200</td><td align='right'> .7</td></tr>
+<tr><td align='center'>1958</td><td align='right'> 775</td><td align='right'> 9,130</td><td align='right'> 5.6</td></tr>
+</table></div>
+
+<p><span class='pagenum'><a name="Page_365" id="Page_365">[Pg 365]</a></span></p>
+
+
+
+<h4><span class="smcap">Table 4. Stream-flow in Cubic Feet per Second, Marais des Cygnes
+River at Trading Post, Kansas. Drainage Area: 2,880 Square Miles.</span></h4>
+
+<div class='center'>
+<table border="1" cellpadding="4" cellspacing="0" summary="">
+<tr><th><span class="smcap">Water-year</span></th><th>Average flow</th><th>Maximum</th><th>Minimum</th></tr>
+<tr><td align='center'>1951</td><td align='right'> 5,489</td><td align='right'> 148,000</td><td align='right'> 36.0</td></tr>
+<tr><td align='center'>1952</td><td align='right'> 1,750</td><td align='right'> 20,400</td><td align='right'> 3.0</td></tr>
+<tr><td align='center'>1953</td><td align='right'> 261</td><td align='right'> 7,590</td><td align='right'> 0</td></tr>
+<tr><td align='center'>1954</td><td align='right'> 334</td><td align='right'> 12,500</td><td align='right'> 0</td></tr>
+<tr><td align='center'>1955</td><td align='right'> 786</td><td align='right'> 16,100</td><td align='right'> .2</td></tr>
+<tr><td align='center'>1956</td><td align='right'> 202</td><td align='right'> 10,000</td><td align='right'> 0</td></tr>
+<tr><td align='center'>1957</td><td align='right'> 871</td><td align='right'> 14,700</td><td align='right'> 0</td></tr>
+<tr><td align='center'>1958</td><td align='right'> 2,453</td><td align='right'> 20,400</td><td align='right'> 120.0</td></tr>
+<tr><td align='center'><a name="FNanchor_C_3" id="FNanchor_C_3"></a><a href="#Footnote_C_3" class="fnanchor">[C]</a>1959</td><td align='right'> 750</td><td align='right'> 10,900</td><td align='right'> 3.4</td></tr>
+</table></div>
+
+
+<hr style="width: 65%;" />
+<p><span class='pagenum'><a name="Page_366" id="Page_366">[Pg 366]</a></span></p>
+<h2>DESCRIPTION OF NEOSHO RIVER</h2>
+
+
+<p>The Neosho River, a tributary of Arkansas River, rises in the
+Flint Hills of Morris and southwestern Wabaunsee counties and
+flows southeast for 281 miles in Kansas, leaving the state in the
+extreme southeast corner (Fig.
+1). With its tributaries (including
+Cottonwood and Spring rivers)
+the Neosho drains 6,285
+square miles in Kansas and enters
+the Arkansas River near
+Muskogee, Oklahoma (Schoewe,
+1951:299). Upstream from its
+confluence with Cottonwood
+River, the Neosho River has an
+average gradient of 15 feet per
+mile. The gradient lessens rapidly
+below the mouth of the Cottonwood,
+averaging 1.35 feet
+per mile downstream to the State
+line (Anonymous, 1947:12). The
+banks of the meandering, well-defined
+channel vary from 15 to
+50 feet in height and support a
+deciduous fringe-forest. The
+spelling of the name originally
+was "Neozho," an Osage Indian word signifying "clear water"
+(Mead, 1903:216).</p>
+
+<div class="figcenter" style="width: 495px;">
+<span class="caption"><span class="smcap">Fig. 1.</span>  Neosho and Marais des Cygnes
+drainage systems. Dots and circles indicate collecting-stations.</span>
+<img src="images/i010.jpg" width="495" height="768" alt="Fig. 1." title="" />
+</div>
+
+<p><i>Neosho River, Upper Station.</i>&mdash;Two miles north and two miles
+west of Council Grove, Morris County, Kansas (Sec. 32 and 33, T.
+15 S., R. 8 E.) (Pl. 28, Fig. 2, and Pl. 29, Fig. 1). Width 20 to 40
+feet, depth to six feet, length of study-area one-half mile (one
+large pool plus many small pools connected by riffles), bottom of
+mud, gravel, and rubble. Muddy banks 20 to 30 feet high.</p>
+
+<p>According to H. E. Bosch (landowner) this section of the river
+dried completely in 1956, except for the large pool mentioned
+above. This section was intermittent in 1954 and 1955; it again
+became intermittent in the late summer of 1957 but not in 1958 or
+1959.</p>
+
+<p>A second section two miles downstream (on land owned by Herbert
+White) was studied in the summer of 1959 (Sec. 3 and 10,
+<span class='pagenum'><a name="Page_367" id="Page_367">[Pg 367]</a></span>
+T. 16 S., R. 8 E.) (Pl. 29, Fig. 2 and Pl. 30, Figs. 1 and 2). This
+section is 20 to 60 feet in width, to five feet in depth, one-half mile
+in length (six small pools with intervening riffles bounded upstream
+by a low-head dam and downstream by a long pool), having
+a bottom of gravel, rubble, bedrock, and mud, and banks of
+mud and rock, five to 20 feet in height.</p>
+
+<p><i>Neosho River, Middle Station.</i>&mdash;One mile east and one and one-half
+miles south of Neosho Falls, Woodson County, Kansas (Sec.
+3 and 4, T. 24 S., R. 17 E.) (Pl. 26, Fig. 1). Width 60 to 70 feet,
+depth to eleven feet, length of study-area two miles (four large
+pools with connecting riffles), bottom of mud, gravel and rock.
+Mud and rock banks 30 to 40 feet high.</p>
+
+<p>According to Floyd Meats (landowner) this section of the river
+was intermittent for part of the drought.</p>
+
+<p><i>Neosho River, Lower Station.</i>&mdash;Two and one-half miles west,
+one-half mile north of Saint Paul, Neosho County, Kansas (Sec.
+16, T. 29 S., R. 20 E.). Width 100 to 125 feet, depth to ten feet,
+length of study-area one mile (two large pools connected by a
+long rubble-gravel riffle), bottom of mud, gravel, and rock. Banks,
+of mud and rock, 30 to 40 feet high (Pl. 26, Fig. 2).</p>
+
+<p>This station was established after one collection of fishes was
+made approximately ten miles upstream (Sec. 35, T. 28 S., R. 19 E.).
+The second site, suggested by Ernest Craig, Game Protector, provided
+greater accessibility and a more representative section of
+stream than the original locality.</p>
+
+
+
+<hr style="width: 65%;" />
+<h2>DESCRIPTION OF MARAIS DES CYGNES RIVER</h2>
+
+
+<p>The Marais des Cygnes River, a tributary of Missouri River,
+rises in the Flint Hills of Wabaunsee County, Kansas, and flows
+generally eastward through the southern part of Osage County
+and the middle of Franklin County. The river then takes a southeasterly
+course through Miami County and the northeastern part
+of Linn County, leaving the state northeast of Pleasanton. With
+its tributaries (Dragoon, Salt, Pottawatomie, Bull and Big Sugar
+creeks) the river drains 4,360 square miles in Kansas (Anonymous,
+1945:23), comprising the major part of the area between the watersheds
+of the Kansas and Neosho rivers. The gradient from the
+headwaters to Quenemo is more than five feet per mile, from
+Quenemo to Osawatomie 1.53 feet per mile, and from Osawatomie
+to the State line 1.10 feet per mile (Anonymous, 1945:24). The
+total length is approximately 475 miles (150 miles in Kansas). The
+<span class='pagenum'><a name="Page_368" id="Page_368">[Pg 368]</a></span>
+river flows in a highly-meandering, well-defined channel that has
+been entrenched from 50 to 250 feet (Schoewe, 1951:294). "Marais
+des Cygnes" is of French origin, signifying "the marsh of the swans."</p>
+
+<p><i>Marais des Cygnes River, Upper Station.</i>&mdash;One mile south and
+one mile west of Pomona, Franklin County, Kansas (Sec. 12, T.
+17 S., R. 17 E.) (Pl. 27, Fig. 1). Width 30 to 40 feet, depth to
+six feet, length of study-area one-half mile (three large pools with
+short connecting riffles), bottom of mud and bedrock. Mud banks
+30 to 40 feet high.</p>
+
+<p>According to P. Lindsey (landowner) this section of the river
+was intermittent for most of the drought. Flow was continuous
+in 1957, 1958 and 1959.</p>
+
+<p>There are four low-head dams between the upper and middle
+Marais des Cygnes stations.</p>
+
+<p><i>Marais des Cygnes River, Middle Station.</i>&mdash;One mile east of
+Ottawa, Franklin County, Kansas (Sec. 6, T. 17 S., R. 20 E.) (Pl.
+27, Fig. 2). Width 50 to 60 feet, depth to eight feet, length of study-area
+one-half mile (one large pool plus a long riffle interrupted by
+several small pools), bottom of mud, gravel, and rock. Mud and
+sand banks 30 to 40 feet high.</p>
+
+<p>This section of the river was intermittent for much of the drought.
+In the winter of 1957-'58 a bridge was constructed over this station
+as a part of Interstate Highway 35. Because of this construction
+many trees were removed from the stream-banks, the channel was
+straightened, a gravel-bottomed riffle was rerouted, and silt was
+deposited in a gravel-bottom pool.</p>
+
+<p><i>Marais des Cygnes River, Lower Station.</i>&mdash;At eastern edge of
+Marais des Cygnes Wildlife Refuge, Linn County, Kansas (Sec.
+9, T. 21 S., R. 25 E.). Width 80 to 100 feet, depth to eight feet,
+length of study-area one-half mile (one large pool plus a long
+riffle interrupted by several small pools), bottom of mud, gravel,
+and rock. Mud banks 40 to 50 feet high.</p>
+
+<p>This section of the river ceased to flow only briefly in 1956.</p>
+
+
+
+<hr style="width: 65%;" />
+<h2>METHODS</h2>
+
+
+<h3><i>Electrical Fishing Gear</i></h3>
+
+<p>The principal collecting-device used was a portable (600-watt,
+110-volt, A. C.) electric shocker carried in a 12-foot aluminum
+boat. Two 2 &times; 2-inch wooden booms, each ten feet long,
+were attached to the front of the boat in a "V" position so they
+<span class='pagenum'><a name="Page_369" id="Page_369">[Pg 369]</a></span>
+normally were two feet above the surface of the water. A
+nylon rope attached to the tips of the booms held them ten feet
+apart. Electrodes, six feet long, were suspended from the tip and
+center of each boom, and two electrodes were suspended from the
+nylon rope. The electrodes extended approximately four feet into
+the water. Of various materials used for electrodes, the most satisfactory
+was a neoprene-core, shielded hydraulic hose in sections
+two feet long. These lengths could be screwed together, permitting
+adjustment of the length of the electrodes with minimum effort. At
+night, a sealed-beam automobile headlight was plugged into a six-volt
+D. C. outlet in the generating unit and a Coleman lantern was
+mounted on each gunwale to illuminate the area around the bow
+and along the sides of the boat (Pl. 3a). In late summer, 1959, a
+230-volt, 1500-watt generating unit, composed of a 115-volt, 1500-watt
+Homelite generator was used. It was attached to a step-up
+transformer that converted the current to 230 volts. The same
+booms described above were used with the 230-volt unit, with
+single electrodes at the tip of each boom.</p>
+
+<p>A 5.5-horsepower motor propelled the boat, and the stunned fish
+were collected by means of scap nets. Fishes seen and identified
+but not captured also were recorded. On several occasions fishes
+were collected by placing a 25-foot seine in the current and shocking
+toward the seine from upstream.</p>
+
+<p>The shocker was used in daylight at all six stations in the three
+years, 1957-'59. Collections were made at night in 1958 and 1959
+at the middle Neosho station and in 1959 at the lower Neosho
+station.</p>
+
+
+<h3><i>Seines</i></h3>
+
+<p>Seines of various lengths (4, 6, 12, 15, 25 and 60 feet), with
+mesh-sizes varying from bobbinet to one-half inch, were used. The
+4-, 12-, and 25-foot seines were used in the estimation of relative
+abundance by taking ten hauls with each seine, recording all species
+captured in each haul, and making a total count of all fish captured
+in two of the ten hauls. The two hauls to be counted were chosen
+prior to each collection from a table of random numbers. Additional
+selective seining was done to ascertain the habitats occupied
+by different species.</p>
+
+<p><i>Trap, Hoop, and Fyke Nets.</i>&mdash;Limited use was made of unbaited
+trapping devices: wire traps 2.5 feet in diameter, six feet long,
+covered with one-inch-mesh chicken wire; hoop nets 1.5 feet to three<span class='pagenum'><a name="Page_370" id="Page_370">[Pg 370]</a></span>
+feet in diameter at the first hoop with a pot-mesh of one inch; and a
+fyke net three feet in diameter at the first hoop, pot-mesh of one
+inch with wings three feet in length. All of these were set parallel
+to the current with the mouths downstream. The use of trapping
+devices was abated because data obtained were not sufficient to
+justify the effort expended.</p>
+
+
+<h3><i>Gill Nets</i></h3>
+
+<p>Gill-netting was done mostly in 1959 at the lower Neosho station.
+Use of gill nets was limited because frequent slight rises in the
+river caused nets to collect excessive debris, with damage to the
+nets.</p>
+
+<p>Gill nets used were 125 feet long, six feet deep, with mesh sizes
+of &frac34; inch to 2&frac12; inches. Nets, weighted to sink, were placed at right
+angles to the current and attached at the banks with rope.</p>
+
+
+<h3><i>Sodium Cyanide</i></h3>
+
+<p>Pellets of sodium cyanide were used infrequently to collect fish
+from a moderately fast riffle over gravel bottom that was overgrown
+with willows, making seining impossible. The pellets were
+dissolved in a small amount of water, a seine was held in place,
+and the cyanide solution was introduced into the water a short
+distance upstream from the seine, causing incapacitated fish to
+drift into the seine. Most of these fish that were placed in uncontaminated
+water revived.</p>
+
+
+<h3><i>Rotenone</i></h3>
+
+<p>Rotenone was used in a few small pools in efforts to capture
+complete populations. This method was used to check the validity
+of other methods, and to reduce the possibility that rare species
+would go undetected. Rotenone was applied by hand, and applications
+were occasionally supplemented by placing rotenone in a
+container that was punctured with a small hole and suspended
+over the water at the head of a riffle draining into the area being
+poisoned. This maintained a toxic concentration in the pool for
+sufficient time to obtain the desired kill. Rotenone acts more slowly
+than cyanide, allowing more of the distressed fish to rise to the surface.</p>
+
+
+<h3><i>Dyes</i></h3>
+
+<p>Bismark Brown Y was used primarily at the upper Neosho station
+to stain large numbers of small fish. The dye was used at a
+dilution of 1:20,000. Fishes were placed in the dye-solution for<span class='pagenum'><a name="Page_371" id="Page_371">[Pg 371]</a></span>
+three hours, then transferred to a live-box in midstream for variable
+periods (ten minutes to twelve hours) before release.</p>
+
+
+<h3><i>Determination of Abundance</i></h3>
+
+<p>In the accounts of species that follow, the relative terms "abundant,"
+"common," and "rare" are used. Assignment of one of these
+terms to each species was based on analysis of data that are presented
+in Tables 9-16, (pages 402, 403, 404, 405, 408, 410, 411, 414-415,
+and 416). The number of fish caught per unit of effort with
+the shocker (Table 10) and with seines (Table 11) constitute the
+main basis for statements about the abundance of each species at all
+stations except the upper Neosho station. Species listed in each Table
+(10 and 11) are those that were taken consistently by the method
+specified in the caption of the table; erratically, but in large numbers
+at least once, by that method; and those taken by the method specified
+but not the other method.</p>
+
+<p>For the species listed in Table 10, the following usually applies:
+abundant=more than three fish caught per hour; common=one
+to three fish caught per hour; rare=less than one fish caught per
+hour.</p>
+
+<p>Tables 12-16 list all fish obtained at the upper Neosho station
+by means of the shocker, seines, and rotenone.</p>
+
+
+<h3><i>Names of Fishes</i></h3>
+
+<p>Technical names of fishes are those that seem to qualify under
+the International Rules of Zoological Nomenclature. Vernacular
+names are those in Special Publication No. 2 (1960) of the American
+Fisheries Society, with grammatical modifications required for
+use in the University of Kansas Publications, Museum of Natural
+History.</p>
+
+
+
+<hr style="width: 65%;" />
+<h2>ANNOTATED LIST OF SPECIES</h2>
+
+
+<p class="center"><b>Lepisosteus osseus</b> (Linnaeus)<br />
+Long-nosed Gar</p>
+
+<p>The long-nosed gar was abundant at the lower and middle Neosho
+stations and the lower Marais des Cygnes station. Numbers increased
+slightly in the period of study, probably because of increased,
+continuous flow. The long-nosed gar was not taken at
+the upper Neosho station. At lower stations the fish occurred in
+many habitats, but most commonly in pools where gar often were<span class='pagenum'><a name="Page_372" id="Page_372">[Pg 372]</a></span>
+seen with their snouts protruding above the water in midstream.
+Gar commonly lie quietly near the surface, both by day and by
+night, and are therefore readily collected by means of the shocker.
+Twice, at night, gar jumped into the boat after being shocked.</p>
+
+<p>Young-of-the-year were taken at the middle and lower stations
+on both the Neosho and Marais des Cygnes rivers, and all were near
+shore in quiet water. Many young-of-the-year were seined at the
+lower Neosho station on 18 June 1959, near the lower end of a
+gravel-bar in a small backwater-area having a depth of one to three
+inches, a muddy bottom, and a higher temperature than the mainstream.
+Forty-three of these young gar averaged 2.1 inches in total
+length (T.L.).</p>
+
+<p>Comparison of sizes of long-nosed gar taken by means of the
+shocker and gill nets at the lower and middle Neosho stations revealed
+that: the average size at each station remained constant
+from 1957 to 1959; the average size was greater at the lower than at
+the middle station; and, with the exception of young-of-the-year,
+no individual shorter than 13 inches was found at the middle station
+and only one shorter than 16 inches was taken at the lower
+station (Table 5).</p>
+
+
+<h4><span class="smcap">Table 5. Numbers and Sizes of Long-nosed Gar Captured by Shocker
+and Gill Nets at the Middle and Lower Neosho Stations in 1957, 1958
+and 1959.</span></h4>
+
+<div class='center'>
+<table border="0" cellpadding="4" cellspacing="0" summary="">
+<tr><th>Location</th><th align='center'>Date</th><th align='center'>Number</th><th align='center'>Average total<br />length (inches)</th><th align='center'>Range</th></tr>
+<tr><td align='left'>Middle Neosho</td><td align='center'>1957</td><td align='center'>19</td><td align='center'>22.2</td><td align='center'>14-32</td></tr>
+<tr><td align='left'>Middle Neosho</td><td align='center'>1958</td><td align='center'>57</td><td align='center'>22.2</td><td align='center'>14-40</td></tr>
+<tr><td align='left'>Middle Neosho</td><td align='center'>1959</td><td align='center'>64</td><td align='center'>21.6</td><td align='center'>13-43</td></tr>
+<tr><td align='left'>Lower Neosho</td><td align='center'>1957</td><td align='center'>14</td><td align='center'>29.4</td><td align='center'>9-45</td></tr>
+<tr><td align='left'>Lower Neosho</td><td align='center'>1958</td><td align='center'>7</td><td align='center'>25.3</td><td align='center'>23-28</td></tr>
+<tr><td align='left'>Lower Neosho</td><td align='center'>1959</td><td align='center'>107</td><td align='center'>26.2</td><td align='center'>16-43</td></tr>
+</table></div>
+
+<p>Because collecting was intensive and several methods were used,
+I think that the population of gars was sampled adequately. Wallen
+(<i>Fishes of the Verdigris River in Oklahoma</i>, 1958:29 [mimeographed
+copy of dissertation, Oklahoma State University]) took
+large individuals in the mainstream of the Verdigris River in Oklahoma
+and small specimens from the headwaters of some tributaries.
+Because I took young-of-the-year at the lower Neosho station,
+it is possible that long-nosed gar move upstream when small
+and then slowly downstream to the larger parts of rivers as the fish
+increase in size. This pattern of size-segregation, according to size
+of river, merits further investigation.<span class='pagenum'><a name="Page_373" id="Page_373">[Pg 373]</a></span></p>
+
+<p>Ripe, spent, and immature long-nosed gar (38 males and 10 females)
+were taken in three gill nets, set across the channel, 150
+to 500 yards below a riffle, at the lower Neosho station on June 16,
+17, and 18, 1959. On 23 June, 1959, 12 males and two females were
+taken in gill nets set 50, 150, and 400 yards above the same riffle.
+Operations with the shocker between 24 June and 10 July, 1959,
+yielded 29 males and three females. The fish were taken from
+many kinds of habitat in a three-mile section of the river.</p>
+
+<p>Direction of movement as recorded from gill nets shows that of
+67 gar taken, 45 had moved downstream and 22 upstream into the
+nets. Only ten of the above gar were taken from the nets set above
+the riffle; six of the ten were captured as they moved downstream
+into the nets.</p>
+
+<p>On one occasion I watched minnows swimming frantically about,
+jumping out of the water, and crowding against the shore, presumably
+to avoid a long-nosed gar that swam slowly in and out of
+view. I have observed similar activity when gar fed in aquaria.
+Stomachs of a few gar from the Neosho River were examined and
+found to contain minnows and some channel catfish.</p>
+
+<p>Long-nosed gar have a relatively long life span (Breder, 1936).
+This longevity and their ability to gulp air probably insure excellent
+survival through periods of adverse conditions. The population of
+long-nosed gar probably would not be drastically affected even in
+the event of a nearly complete failure of one or two successive
+hatches. Maturity is attained at approximately 20 inches, total
+length.</p>
+
+<p>Collections at the middle Neosho station in 1958 indicate that
+the long-nosed gar is more susceptible to capture at night than in
+daytime (Table 9, p. 402).</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Lepisosteus platostomus Rafinesque</b><br />
+Short-nosed Gar</p>
+
+<p>Only one short-nosed gar was taken in 1957, at the lower station
+on the Neosho River. In 1958 this species was taken at the lower
+station on the Marais des Cygnes and in 1958 and 1959 at the lower
+and middle stations on the Neosho. More common in the Neosho
+than the Marais des Cygnes, <i>L. platostomus</i> occurs mainly in large
+streams and never was taken in the upper portions of either river.
+Although short-nosed gar were about equally abundant at the
+middle and lower stations on the Neosho, the average size was<span class='pagenum'><a name="Page_374" id="Page_374">[Pg 374]</a></span>
+greater at the lower station (Table 6). This kind of segregation
+by size is shared with long-nosed gar, and was considered in the
+discussion of that species. Short-nosed gar were taken only in quiet
+water. Both species were collected most efficiently by means of gill
+nets and shocker. While shocking, I saw many gar only momentarily,
+as they appeared at the surface, and specific identification
+was impossible. The total of all gar seen while shocking indicated
+that gar increased in abundance from 1957 to 1959 (see Tables 5
+and 6). Judging from the gar that were identified, the increase
+was more pronounced in short-nosed gar than in long-nosed gar.</p>
+
+<p>At the lower Neosho station in 1959, two ripe females and one
+spent female were taken in gill nets (16, 23 and 17 June, respectively)
+and were moving downstream when caught. No males
+were taken in the nets. Subsequently, by means of the shocker
+(26 June-8 July), two spent and two ripe males were captured
+in quiet water of the mainstream that closely resembled areas in
+which the gill nets were set. No females were taken by means
+of the shocker.</p>
+
+<h4><span class="smcap">Table 6. Numbers and Sizes of Short-nosed Gar Captured by Shocker
+and Gill Nets at the Middle and Lower Neosho Stations in 1958 and
+1959.</span></h4>
+
+<div class='center'>
+<table border="0" cellpadding="4" cellspacing="0" summary="">
+<tr><th>Location</th><th align='center'>Date</th><th align='center'>Number</th><th align='center'>Average total<br />length (inches)</th><th align='center'>Range</th></tr>
+<tr><td align='center'>Middle Neosho</td><td align='center'>1958</td><td align='center'>6</td><td align='center'>14.9</td><td align='center'>13.9-15.5</td></tr>
+<tr><td align='center'>Middle Neosho</td><td align='center'>1959</td><td align='center'>9</td><td align='center'>13.6</td><td align='center'>11.0-16.0</td></tr>
+<tr><td align='center'>Lower Neosho</td><td align='center'>1958</td><td align='center'>3</td><td align='center'>21.0</td><td align='center'>20.3-21.6</td></tr>
+<tr><td align='center'>Lower Neosho</td><td align='center'>1959</td><td align='center'>5</td><td align='center'>21.3</td><td align='center'>18.0-24.5</td></tr>
+</table></div>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Dorosoma cepedianum</b> (LeSueur)<br />
+Gizzard Shad</p>
+
+<p>Gizzard shad declined in abundance from 1957 to 1959. The
+largest population occurred at the middle station on the Marais des
+Cygnes in 1957. Shad were mainly in quiet water; often, when the
+river-level was high, I found them predominately in backwaters
+or in the mouths of tributary streams. Examination of nine individuals,
+ranging in size from seven inches to 13.5 inches T. L., indicated
+that maturity is reached at 10 to 11 inches T. L. Spawning
+probably occurred in late June in 1959 ("ripe" female caught on
+26 June); young-of-the-year were first recorded in mid-July.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Cycleptus elongatus</b> (LeSueur)<br />
+Blue Sucker</p>
+
+<p>The blue sucker was taken rarely in the Neosho River and not at
+all in the Marais des Cygnes in my study. Cross (personal com<span class='pagenum'><a name="Page_375" id="Page_375">[Pg 375]</a></span>munication)
+obtained several blue suckers in collections made in
+the mainstream of the Neosho River in 1952; both young and adults
+occupied swift, deep riffles. The species seemingly declined in
+abundance during the drought, and at the conclusion of my study
+(1959) had not regained the level of abundance found in 1952.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Ictiobus cyprinella</b> (Valenciennes)<br />
+Big-mouthed Buffalo</p>
+
+<p>Big-mouthed buffalo were found in quiet water at all stations,
+but were rare. A ripe female, 21.5 inches long, was taken at the
+lower station on the Neosho on 16 June, 1959.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Ictiobus niger</b> (Rafinesque)<br />
+Black Buffalo<br />
+and<br />
+<b>Ictiobus bubalus</b> (Rafinesque)<br />
+Small-mouthed Buffalo</p>
+
+<p>Black buffalo were not taken at the upper station on the Neosho
+and were rare at other stations. Small-mouthed buffalo were taken
+at all stations and were common in the lower portions of the two
+streams. While the shocker was being used, buffalo were often
+seen only momentarily, thereby making specific identification impossible;
+both species were frequently taken together, and for this
+reason are discussed as a unit. Both species maintained about
+the same level of abundance throughout my study.</p>
+
+<p>The two species were taken most often in the deeper, swifter
+currents of the mainstream, but were sometimes found in pools,
+creek-mouths and backwaters. On several occasions in the summer
+of 1959, buffalo were seen in shallow parts of long, rubble riffles,
+with the dorsal or caudal fins protruding above the surface. Ernest
+Craig, game protector, said buffalo on such riffles formerly provided
+much sport for gig-fishermen. He stated that the best catches
+were made at night because the fish were less "spooky" then than
+in daytime. In my collections made by use of the shocker, buffalo
+were taken more frequently at night (Table 9, p. 402).</p>
+
+<p>On 19 June, 1959, I saw many buffalo that seemed to be feeding
+as they moved slowly upstream along the bottom of a riffle. The
+two species, often side by side, were readily distinguishable underwater.
+Small-mouthed buffalo appeared to be paler (slate gray)
+and more compressed than the darker black buffalo. To test the<span class='pagenum'><a name="Page_376" id="Page_376">[Pg 376]</a></span>
+reliability of underwater identifications, I identified all individuals
+prior to collection with a gig. Correct identification was made
+of all fish collected on 19 June. The smallest individual obtained
+in this manner was 18.5 inches T. L. On 26 August, 1959, 16 small-mouthed
+buffalo were captured and many more were seen while
+the shocker was in use in the same riffle for one hour and ten minutes.
+One small-mouthed buffalo was caught while the shocker
+was being used in the pool below that riffle for one hour and
+fifty minutes. No black buffalo were taken on 26 August.</p>
+
+<p>Spawning by buffalo was not observed but probably occurred
+in spring; all mature fish in my earliest collections (mid-June of
+each year) were spent. Small-mouthed buffalo reach maturity at
+approximately 14 inches T. L.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Carpiodes carpio carpio</b> (Rafinesque)<br />
+River Carpsucker</p>
+
+<p>River carpsucker were abundant throughout the study at all
+stations. Adults were taken most frequently in quiet water, but
+depth and bottom-type varied. The greatest concentrations occurred
+in mouths of creeks during times of high water; occasionally,
+large numbers were taken in a shallow backwater near the head of
+a riffle at the middle Neosho station. River carpsucker feed on
+the bottom but seem partly pelagic in habit. They were taken readily
+by means of the shocker and gill nets at all depths. The population
+of <i>C. carpio</i> in the Neosho River probably was depleted by
+drought, although many individuals survived in the larger pools.</p>
+
+<p>When stream-flow was restored, carpsucker probably moved rapidly
+upstream but had a scattered distribution in 1957. Trautman
+(1957:239) states that in the Scioto River, Ohio, river carpsucker
+moved upstream in May and downstream in late August and early
+September. Numbers found at the middle and lower Neosho stations
+suggest similar movements in the Neosho River in 1957. In
+midsummer they were common at the middle station but rare at
+the lower station; however, they became abundant at the lower
+station in November. The abundance in late fall at the lower
+Neosho station might have resulted either from downstream migration
+or from continued upstream movement into thinly populated
+areas. No indication of seasonal movement was found in 1958 or
+1959.</p>
+
+<p>River carpsucker reach maturity at approximately 11 inches T. L.,<span class='pagenum'><a name="Page_377" id="Page_377">[Pg 377]</a></span>
+and spawning occurs in May or June. A ripe male was taken from
+a gravel-bottomed riffle, three
+feet deep, at the middle station
+on the Neosho station on 10 June
+1959.</p>
+
+<div class="figcenter" style="width: 400px;">
+<span class="caption"><span class="smcap">Fig. 2.</span> Length-frequency of river
+carpsucker in the Neosho River, 1958 and 1959.</span>
+<img src="images/i021.jpg" width="400" height="764" alt="Fig. 2." title="" />
+</div>
+
+<p>The size-distribution of individuals
+taken at the middle Neosho
+station is presented in Fig.
+2. The collection in early July
+of 1958 indicates that one size-group
+(probably the 1957 year-class)
+had a median length of
+approximately seven inches. The
+modal length of this group was
+nine inches in June, 1959. A
+second, predominant size-group
+(Fig. 2) seemed to maintain almost
+the same median size
+throughout all the collection periods,
+although specimens taken
+in the spring of 1959 were
+slightly smaller than those obtained
+in 1958. This apparent
+stability in size may have been
+due to an influx of the faster-growing
+individuals from a
+smaller size-group, coupled with mortality of most individuals more
+than 14 inches in length.</p>
+
+<p>Young-of-the-year were taken at every station. Extensive seining
+along a gravel bar at the lower Neosho station indicated that the
+young are highly selective for quiet, shallow water with mud bottom.
+In these areas, young-of-the-year carpsucker were often
+the most abundant fish.</p>
+
+<p>River carpsucker were collected more readily by use of the
+shocker after dark than in daylight (Table 9, p. 402).</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Carpiodes velifer</b> (Rafinesque)<br />
+High-finned Carpsucker</p>
+
+<p>A specimen of <i>Carpiodes velifer</i> taken at the lower station on the
+Neosho in 1958 provided the only record of the species in Kansas
+since 1924. Many specimens, now in the University of Kansas<span class='pagenum'><a name="Page_378" id="Page_378">[Pg 378]</a></span>
+Museum of Natural History, were taken from the Neosho River
+system by personnel of the State Biological Survey prior to 1912.
+The species has declined greatly in abundance in the past 50 years.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Moxostoma aureolum pisolabrum</b> Trautman<br />
+Short-headed Redhorse</p>
+
+<p>The short-headed redhorse occurred at all stations. It was
+common at the middle and lower stations on the Neosho, rare at
+the upper station on the Neosho, abundant at the upper station on
+the Marais des Cygnes in 1957, and rare thereafter at all stations
+on the Marais des Cygnes. Short-headed redhorse typically occur
+in riffles, most commonly at the uppermost end where the water
+flows swiftly and is about two feet deep. An unusually large concentration
+was seen on 13 June, 1959, in shallow (six inches), fast
+water over gravel bottom at the middle station on the Neosho River.</p>
+
+<p>Thirty-nine individuals were marked by clipping fins at the
+middle Neosho station in 1959. Four were recovered from one to
+48 days later: two at the site of original capture (one 48 days
+after marking), one less than one-half mile downstream, and one
+about one mile downstream from the original site of capture.</p>
+
+<p>At the middle Neosho station in 1958, this species was taken more
+readily by use of the shocker at night than by day (Table 9, p. 402).</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Moxostoma erythrurum</b> (Rafinesque)<br />
+
+Golden Redhorse</p>
+
+<p>The golden redhorse was abundant at the upper Neosho station,
+rare at the middle Neosho station, and did not occur in collections
+at other stations. This species was taken most frequently over
+gravel- or rubble-bottoms in small pools below riffles, and was
+especially susceptible to collection by means of the shocker.</p>
+
+<p>Twenty-nine golden redhorse of the 1957 year-class, taken at
+the upper Neosho station on 9 September 1958, were 6.2 to 8.6
+inches in total length (average 7.4 inches); 26 individuals of the
+same year-class caught on 21 August 1959 were 9.3 to 13.5 inches in
+total length (average 10.9 inches).</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Cyprinus carpio</b> Linnaeus<br />
+
+Carp</p>
+
+<p>The carp decreased in abundance from 1957 to 1959 at the upper
+and middle Marais des Cygnes station and at the middle and lower
+Neosho stations. Carp were more abundant in the Marais des<span class='pagenum'><a name="Page_379" id="Page_379">[Pg 379]</a></span>
+Cygnes than in the Neosho, although the largest number in any
+single collection was found in one pool at the upper Neosho station
+in 1958.</p>
+
+<p>Carp were taken most commonly in quiet water near brush or
+other cover. At the middle Neosho station, collecting was most
+effective between the hours of 6:30 a.m. and 12:30 p.m. and
+least effective between 12:30 p.m. and 6:30 p.m. (Table 9, p. 402).
+Ripe males were taken as early as 19 April (16.1 inches, 19.4 inches
+T. L.) and as late as 30 July (16 inches T. L.) at the middle Neosho
+station. Ripe females were taken as early as 19 April at the middle
+Neosho station (19.2 inches T. L.) and as late as 7 July at the
+lower Neosho station (16 inches T. L.). Young-of-the-year were
+taken first at the middle Marais des Cygnes on 8 July 1957. They
+were recorded on later dates at the upper Marais des Cygnes and
+at the lower and middle Neosho stations.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Notemigonus crysoleucas</b> (Mitchill)<br />
+
+Golden Shiner</p>
+
+<p>The golden shiner was taken rarely at the upper Marais des
+Cygnes station in 1958 and 1959 and at the middle Marais des
+Cygnes station in 1957 and 1958. At the middle Neosho station
+<i>Notemigonus</i> was seined from a pond that is flooded frequently
+by the river, but never was taken in the mainstream.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Semotilus atromaculatus</b> (Mitchill)<br />
+
+Creek Chub</p>
+
+<p>The creek chub was taken only at the upper stations on both
+rivers. It increased in abundance at the upper Neosho station from
+1957 to 1959, and was not taken in the upper Marais des Cygnes
+until 1959.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Hybopsis storeriana</b> (Kirtland)<br />
+
+Silver Chub</p>
+
+<p>A single specimen from the lower Marais des Cygnes station
+provides the only record of the species from the Marais des Cygnes
+system in Kansas, and is the only silver chub that I found in either
+river in 1957-1959. The species is taken often in the Kansas and
+Arkansas rivers.<span class='pagenum'><a name="Page_380" id="Page_380">[Pg 380]</a></span></p>
+
+<p>&nbsp;</p>
+<p class="center"><b>Hybopsis x-punctata</b> Hubbs and Crowe<br />
+
+Gravel Chub</p>
+
+<p>The gravel chub, present only at the lower and middle Neosho
+stations, occupied moderate currents over clean (free of silt) gravel
+bottom. The gravel chub was not taken in 1957, was rare at both
+Neosho stations in 1958, became common at the lower Neosho
+station in part of 1959, but was never numerous at the middle
+Neosho station. Dr. F. B. Cross recorded the species as "rare"
+in 1952 at a collection site near my middle Neosho station, but larger
+numbers were taken then than in any of my collections at that
+station. The population was probably reduced by drought, and
+recovery was comparatively slow following restoration of flow.</p>
+
+<p>Young-of-the-year and adults were common in collections from
+riffles at the lower Neosho station from 1 July through 8 July, 1959.
+I obtained only one specimen in intensive collections in the same
+area on 25, 26, and 27 August. Seemingly the species had moved
+off shallow riffles into areas not sampled effectively by seining.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Phenacobius mirabilis</b> (Girard)<br />
+
+Sucker-mouthed Minnow</p>
+
+<p>The sucker-mouthed minnow was common at the middle Marais
+des Cygnes station but was not taken at the upper and lower stations
+until 1959, when it was rare. At the middle and lower Neosho
+stations this fish increased in abundance from 1957 to 1959; at the
+upper station, sucker-mouthed minnows were not taken until 1959
+when collections were made on the White farm. There, the species
+was common immediately below a low-head dam, but was not
+taken in extensive collections on the Bosch Farm in 1959.</p>
+
+<p>The species was most common immediately below riffles, or in
+other areas having clean gravel bottom in the current. On 5 June,
+1959, many individuals were taken at night (11:30 p.m.) on a
+shallow gravel riffle (four inches in depth) where none had been
+found in a collection at 5:00 p.m. on the same date.</p>
+
+<p>Young-of-the-year were taken at the lower Neosho station on 24
+June, 1959, and commonly thereafter in the summer.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Notropis rubellus</b> (Agassiz)<br />
+
+Rosy-faced Shiner</p>
+
+<p>In 1958, the rosy-faced shiner was taken rarely at the lower stations
+on both streams. This species is common in smaller streams
+tributary to the lower portions of the two rivers, and probably<span class='pagenum'><a name="Page_381" id="Page_381">[Pg 381]</a></span>
+occurs in the mainstream only as "overflow" from tributaries. Possibly,
+during drought, rosy-faced shiners found suitable habitat in
+the mainstream of Neosho and Marais des Cygnes rivers, but re-occupied
+tributary streams as their flow increased with favorable
+precipitation, leaving diminishing populations in the mainstream.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Notropis umbratilis</b> (Girard)<br />
+
+Red-finned Shiner</p>
+
+<p>The red-finned shiner, most abundant at the upper Neosho station,
+occurred at all stations except the upper Marais des Cygnes.
+This fish seems to prefer small streams, not highly turbid, having
+clean, hard bottoms. It is a pool-dwelling, pelagic species.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Notropis camurus</b> (Jordan and Meek)<br />
+
+Blunt-faced Shiner</p>
+
+<p>The blunt-faced shiner was taken only in 1957, at the middle
+Neosho station, where it was rare. This species, abundant in clear
+streams tributary to the Neosho River (field data, State Biological
+Survey) may have used the mainstream as a refugium during
+drought. The few specimens obtained in 1957 possibly represent a
+relict population that remained in the mainstream after flow in
+tributaries was restored by increased rainfall.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Notropis lutrensis</b> (Baird and Girard)<br />
+
+Red Shiner</p>
+
+<p>The red shiner, abundant in 1952 (early stage of drought), was
+consistently the most abundant fish in my collections in the Marais
+des Cygnes and at the lower and middle Neosho stations. However,
+the abundance declined from 1957 to 1959 at the two Neosho
+stations. At the upper Neosho station the species was fourth in
+abundance in 1957, and third in 1958 and 1959 (Table 12).</p>
+
+<p>The red shiner is pelagic in habit and occurs primarily in pools,
+though it frequently inhabits adjacent riffles. Collections by seining
+along a gravel bar at the lower station showed this fish to be most
+abundant in shallow, quiet water over mud bottom, or at the head
+of a gravel bar in relatively quiet water. At the lower end of the
+gravel bar in water one to four feet deep, with a shallow layer of silt
+over gravel bottom and a slight eddy-current, red shiners were
+replaced by ghost shiners or river carpsucker young-of-the-year as
+the dominant fish.</p>
+
+<p>Fifty-nine dyed individuals were released in an eddy at the lower<span class='pagenum'><a name="Page_382" id="Page_382">[Pg 382]</a></span>
+end of a gravel bar at the middle Neosho station on 5 June, 1959.
+Some of these fish still were present in this area when a collection
+was made 30 hours later. No colored fish were taken in collections
+from quiet water at the upper end of the gravel bar. A swift riffle
+intervening between the latter area and the area of release may
+have impeded their movement. Forty-six individuals, released at
+the head of the same gravel bar on 10 June, 1959, immediately
+swam slowly upstream through quiet water and were soon joined
+by other minnows. These fish did not form a well-organized school,
+but moved about independently, with individuals or groups variously
+dropping out or rejoining the aggregation until all colored
+fish disappeared about 50 feet upstream from the point of release.</p>
+
+<p>Evidence of inshore movement at night was obtained on 8 June,
+1959, in a shallow backwater, having gravel bottom, at the head
+of a gravel bar at the middle Neosho station. A collection made in
+the afternoon contained no red shiners, but they were abundant
+in the same area after dark.</p>
+
+<p>In Kansas, red shiners breed in May, June, and July. Minckley
+(1959:421-422) described behavior that apparently was associated
+with spawning. Because of its abundance, the red shiner is one
+of the most important forage fishes in Kansas streams, and frequently
+is used as a bait minnow.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Notropis volucellus</b> (Cope)<br />
+
+Mimic Shiner</p>
+
+<p>The mimic shiner was taken only rarely at the two lower Neosho
+stations. This species, like <i>N. camurus</i>, is normally more common
+in clear tributaries than in the Neosho River, and probably frequents
+the mainstream only during drought.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Notropis buchanani</b> Meek<br />
+
+Ghost Shiner</p>
+
+<p>Field records of the State Biological Survey indicate that the
+ghost shiner was common in the mainstream of the lower Neosho
+River during drought. In 1957, the species was abundant at the
+lower and middle stations on the Neosho River and at the lower
+Marais des Cygnes station.</p>
+
+<p>Collections at all stations show that the species has a definite
+preference for eddies&mdash;relatively quiet water, but adjacent to the
+strong current of the mainstream rather than in backwater remote<span class='pagenum'><a name="Page_383" id="Page_383">[Pg 383]</a></span>
+from the channel. The bottom-type over which the ghost shiner
+was found varied from mud to gravel or rubble.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Notropis stramineus</b> (Cope)<br />
+
+Sand Shiner</p>
+
+<p>The sand shiner was taken rarely in the Neosho and commonly
+in the Marais des Cygnes in 1952. In my study the species occurred
+at all stations, but not until 1959 at the upper and lower Neosho
+stations. Sand shiners were found with equal frequency in pools
+and riffles. Spawning takes place in June and July.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Pimephales tenellus tenellus</b> (Girard)<br />
+
+Mountain Minnow</p>
+
+<p>The mountain minnow was common at the lower and middle
+Neosho stations throughout the period of study, and increased
+in abundance from 1957 to 1959. It was taken only in 1959 at the
+upper Neosho station, where it was rare. This species does not
+occur in the Marais des Cygnes River. The largest numbers were
+found in 1959 at the lower Neosho station, where this fish occurred
+most commonly in moderate current over clean gravel bottom.
+The mountain minnow, like <i>Hybopsis x-punctata</i>, was common in
+late June and early July but few were found in late August, 1959.
+The near-absence of this species in collections made in late August is
+responsible for the apparent slight decline in abundance from 1957
+to 1959, as shown in Table 11. Metcalf (1959) found mountain
+minnows most commonly in streams of intermediate size in Chautauqua,
+Cowley and Elk counties, Kansas. The predilection of this
+species for permanent waters resulted in an increase in abundance
+during my study. With continued flow, this species possibly will
+decrease in abundance in the lower mainstream of the Neosho
+River. I suspect that the species is, or will be (with continued
+stream-flow), abundant in tributaries of intermediate size in the
+Neosho River Basin.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Pimephales vigilax perspicuus</b> (Girard)<br />
+
+Parrot Minnow</p>
+
+<p>The parrot minnow was not taken in the Marais des Cygnes
+River and was absent at the upper Neosho station until 1959.
+This species was common at the lower and middle Neosho stations
+throughout the period of study and increased in abundance from
+1957 to 1959.<span class='pagenum'><a name="Page_384" id="Page_384">[Pg 384]</a></span></p>
+
+<p>At the lower Neosho station, this fish preferred slow eddy-current
+over silt bottom, along the downstream portion of a gravel bar.
+The parrot minnow was taken less abundantly in the latter part
+of the summer, 1959, than in early summer, but the decline was
+less than occurred in the mountain minnow.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Pimephales notatus</b> (Rafinesque)<br />
+
+Blunt-nosed Minnow</p>
+
+<p>The blunt-nosed minnow was common, and increased in abundance
+in both rivers from 1957 to 1959. The largest numbers were
+found at the upper Neosho station in 1959, and a large population
+also was present at the lower Neosho station in 1959.</p>
+
+<p>Pools having rubble bottom, bedrock, and small areas of mud
+were preferred at the upper Neosho station. At the lower Neosho
+station the fish was most common in quiet water at the lower end
+of a gravel bar. The parrot minnow also was common in this
+general area; nevertheless, these two species were seldom numerous
+in the same seine-haul, indicating segregation of the two. The
+blunt-nosed minnow was taken frequently in moderate current over
+clean gravel bottom, especially in late summer, 1959, when <i>P. notatus</i>
+increased in abundance as the mountain minnow decreased.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Pimephales promelas</b> Rafinesque<br />
+
+Fat-headed Minnow</p>
+
+<p>The fat-headed minnow was taken at all stations except at the
+lower one on the Marais des Cygnes, and was most abundant at
+the upper Neosho station. Intensive seining at the lower Neosho
+station indicated that this species preferred quiet water and firm
+mud bottom.</p>
+
+<p>In the Neosho River in 1957 to 1959, habitats of the species of
+<i>Pimephales</i> seemed to be as follows: <i>Pimephales tenellus</i> (mountain
+minnow) occurred primarily in moderately flowing gravel
+riffles in the downstream portions of the river. <i>Pimephales vigilax</i>
+(parrot minnow) was mostly in the quiet areas having mud bottom
+at the downstream end of gravel bars, and less commonly on adjacent
+riffles, at the lower station. <i>Pimephales notatus</i> (blunt-nosed
+minnow) had a wider range of habitats, occurring in quiet areas
+and moderate currents both upstream and downstream. <i>Pimephales
+promelas</i> (fat-headed minnow) occurred throughout both rivers
+but was most abundant in the quiet water at the uppermost stations.<span class='pagenum'><a name="Page_385" id="Page_385">[Pg 385]</a></span></p>
+
+<p>&nbsp;</p>
+<p class="center"><b>Campostoma anomalum</b> (Rafinesque)<br />
+
+Stoneroller</p>
+
+<p>The stoneroller was most abundant at the upper Neosho station
+and was not taken at the lower Marais des Cygnes station. This
+fish increased in abundance from 1957 to 1959, but was never
+common at the middle Marais des Cygnes or the middle and lower
+Neosho stations.</p>
+
+<p>The stoneroller prefers fast, relatively clear water over rubble
+or gravel-bottom.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Ictalurus punctatus</b> (Rafinesque)<br />
+
+Channel Catfish</p>
+
+<p>The abundance of channel catfish was greatly reduced as a result
+of the drought of 1952-1956. With the resumption of normal stream-flow
+in 1957, the small numbers of adult channel catfish present in
+the stream produced unusually large numbers of young. These
+young of the 1957 year-class, which reached an average size of
+about nine inches by September 1959, will provide an abundant
+adult population for several years.</p>
+
+<p>The reduction in number of channel catfish in streams can be
+related to the changed environment in the drought. When stream
+levels were low in 1953 (Tables 1-4), fish-populations were crowded
+into a greatly reduced area. An example of these crowded conditions
+was observed by Roy Schoonover, Biologist of the Kansas
+Forestry, Fish and Game Commission, in October, 1953, when he
+was called to rescue fish near Iola, Kansas. The Neosho River
+had ceased to flow and a pool (less than one acre) below the city
+overflow dam was pumped dry. Schoonover (personal communication)
+estimated that 40,000 fish of all kinds were present in the
+pool. About 30,000 of these were channel catfish, two inches to
+14 inches long, with a few larger ones. Fish were removed in the
+belief that sustained intermittency in the winter of 1953-1954
+would result in severe winterkill. These conditions almost certainly
+were prevalent throughout the basin.</p>
+
+<p>In addition to winterkill, crowding probably resulted in a reduced
+rate of reproduction by channel catfish, and by other species
+as well. This kind of density-dependent reduction of fecundity is
+known for many species of animals (Lack, 1954, ch. 7). In fish, it
+is probably expressed by complete failure of many individuals to
+spawn, coupled with scant survival of young produced by the adults
+that do spawn. Reproductive failure of channel catfish in farm<span class='pagenum'><a name="Page_386" id="Page_386">[Pg 386]</a></span>
+ponds, especially in clear ponds, is well known, and is often attributed
+to a paucity of suitable nest-sites (Marzolf, 1957:22; Davis,
+1959:10).</p>
+
+<p>In the Neosho and Marais des Cygnes rivers, the intermittent
+conditions prevalent in the drought resulted in reduced turbidity
+in the remaining pools. Many spawning sites normally used by
+channel catfish were exposed, and others were rendered unsuitable
+because of the increased clarity of the water. In addition, predation
+on young channel catfish is increased in clear water (Marzolf;
+Davis, <i>loc. cit.</i>), and would of course be especially pronounced in
+crowded conditions. The population was thereby reduced to correspond
+to the carrying capacity of each pool in the stream bed.</p>
+
+<p>The return of normal flow in 1957 left large areas unoccupied
+by fish and the processes described above were reversed. The
+expanded habitat favored spawning by nearly the entire adult
+population, and conditions for survival of young were excellent.
+As a result, a large hatch occurred in the summer of 1957. (Several
+hundred small channel catfish were sometimes taken by use of the
+shocker a short distance upstream from a 25-foot seine, set in a
+riffle). Subsequent survival of the 1957 year-class has been good.
+By 1959, few of the catfish spawned in 1957 had grown large enough
+to contribute to the sport fishery, but they are expected to do so in
+1960 and 1961.</p>
+
+<p>The 1957 year-class was probably the first strong year-class of
+channel catfish since 1952. Davis (1959:15) found that channel
+catfish in Kansas seldom live longer than seven years. The 1952
+year-class reached age seven in 1959. The extreme environmental
+conditions to which these fish were subjected in drought caused a
+higher mortality than would occur in normal times. The adult
+population in the two rivers probably was progressively reduced
+throughout the drought, and the reduction will continue until the
+strong 1957 year-class replenishes it. For these reasons, fishing
+success was poor in 1957-1959.</p>
+
+<p>Juvenile channel catfish were more abundant in the Neosho than
+in the Marais des Cygnes in 1958 and 1959, although both streams
+supported sizable populations. In the Marais des Cygnes the upper
+station had fewer channel catfish than the middle and lower stations.
+In the Neosho, populations were equally abundant both upstream
+and downstream. The habitat of channel catfish in streams
+has been discussed by Bailey and Harrison (1948).</p>
+
+<p>I found adults in various habitats throughout the stream, but<span class='pagenum'><a name="Page_387" id="Page_387">[Pg 387]</a></span>
+most abundantly in moderately fast water at the lower and middle
+Neosho stations. At the upper Neosho station where riffles are
+shallow, yearlings and two-year-olds were numerous in many of
+the small pools over rubble-gravel bottom. Cover was utilized
+where present, but large numbers were taken in pools devoid of
+cover. Young-of-the-year were nearly always taken from rubble- or
+gravel-riffles having moderate to fast current at both upstream
+and downstream stations.</p>
+
+<p>Collections showed that young of 1957 were abundant on riffles
+throughout the summer and until 17 November, 1957. Subsequent
+collections were not made until 11 May, 1958, at which time 1957-class
+fish still were abundant on riffles at the lower Neosho station;
+on that date, the larger individuals were in deeper parts of the
+riffles than were smaller representatives of the same year-class.</p>
+
+<p>In a later collection (2 June, 1958), numbers present on the
+riffles were greatly reduced and the larger individuals were almost
+entirely missing. Some of the smaller individuals were still present
+in the shallower riffle areas. Table 7 compares sizes of the individuals
+obtained on 2 June with sizes collected from deep riffles
+at the middle Neosho station on 7 June, 1958. The larger size of
+the group present in deep riffles is readily apparent. The yearlings
+almost completely disappeared from subsequent collections on
+riffles.</p>
+
+<p>A bimodal size-distribution of young-of-the-year was noted also
+in 1958 and 1959; but, no segregation of the two sizes occurred
+on riffles in summer. Marzolf (1957:25) recorded two peaks in
+spawning activity in Missouri ponds. Two spawning periods may
+account for the bimodal size distribution of young-of-the-year
+observed in my study.</p>
+
+<p>In 1959, young-of-the-year began to appear in the latter part of
+June and became abundant by the first part of July. Individuals
+as small as one inch T. L. were taken in gravel-bottomed riffles
+on 1 July, 1959.</p>
+
+<p>Yearling individuals at the lower and middle Neosho stations
+showed a pronounced tendency to move into shallow, moderately
+fast water over rubble or gravel bottom at night, where they were
+nearly ten times more abundant than in daytime (Table 9). Adults
+probably have the same pattern of daily movement as yearlings,
+except that at night the adults move to deeper riffles. Bailey and
+Harrison (1948:135-136) demonstrated that channel catfish feed
+most actively from sundown to midnight.<span class='pagenum'><a name="Page_388" id="Page_388">[Pg 388]</a></span></p>
+
+<p>Channel catfish (especially two-year-olds and adults) were abundant
+on a rubble-riffle during the day in some collections at the
+lower Neosho station in 1959.</p>
+
+<h4><span class="smcap">Table 7. Length-frequency of Channel Catfish from the Neosho River,
+1957, 1958 and 1959. (Numbers in Vertical Columns Indicate the
+Number of Individuals of a Certain Size Collected on That Date.)</span></h4>
+
+
+<div class='center'>
+<table border="0" cellpadding="4" cellspacing="0" summary="">
+<tr><th align='center'>Length<br />in inches</th><th align='center'>Nov. 2 1957</th><th align='center'>June 2 1958<br />(shallow riffle)</th><th align='center'>June 7 1958<br />(deep riffle)</th><th align='center'>Sept. 9 1958</th><th align='center'>Sept. 11 1959</th></tr>
+<tr><td align='center'>1.5</td><td align='center'></td><td align='center'></td><td align='center'></td><td align='center'>1</td></tr>
+<tr><td align='center'>2.0</td><td align='center'>3</td></tr>
+<tr><td align='center'>2.5</td><td align='center'>13</td><td align='center'>2</td><td align='center'></td><td align='center'>1</td><td align='center'>2</td></tr>
+<tr><td align='center'>3.0</td><td align='center'>4</td><td align='center'>11</td><td align='center'></td><td align='center'>3</td><td align='center'>4</td></tr>
+<tr><td align='center'>3.5</td><td align='center'>3</td><td align='center'>21</td><td align='center'>7</td><td align='center'>1</td><td align='center'>14</td></tr>
+<tr><td align='center'>4.0</td><td align='center'></td><td align='center'>11</td><td align='center'>12</td><td align='center'></td><td align='center'>9</td></tr>
+<tr><td align='center'>4.5</td><td align='center'></td><td align='center'>4</td><td align='center'>10</td><td align='center'>1</td></tr>
+<tr><td align='center'>5.0</td><td align='center'></td><td align='center'>2</td><td align='center'>11</td><td align='center'>2</td></tr>
+<tr><td align='center'>5.5</td><td align='center'></td><td align='center'>1</td><td align='center'>7</td><td align='center'>26</td></tr>
+<tr><td align='center'>6.0</td><td align='center'></td><td align='center'></td><td align='center'></td><td align='center'>58</td><td align='center'>2</td></tr>
+<tr><td align='center'>6.5</td><td align='center'></td><td align='center'></td><td align='center'>1</td><td align='center'>32</td><td align='center'>5</td></tr>
+<tr><td align='center'>7.0</td><td align='center'></td><td align='center'></td><td align='center'></td><td align='center'>16</td><td align='center'>5</td></tr>
+<tr><td align='center'>7.5</td><td align='center'></td><td align='center'></td><td align='center'>1</td><td align='center'>4</td><td align='center'>5</td></tr>
+<tr><td align='center'>8.0</td><td align='center'></td><td align='center'></td><td align='center'></td><td align='center'></td><td align='center'>22</td></tr>
+<tr><td align='center'>8.5</td><td align='center'></td><td align='center'></td><td align='center'></td><td align='center'></td><td align='center'>45</td></tr>
+<tr><td align='center'>9.0</td><td align='center'></td><td align='center'></td><td align='center'></td><td align='center'></td><td align='center'>81</td></tr>
+<tr><td align='center'>9.5</td><td align='center'></td><td align='center'></td><td align='center'></td><td align='center'></td><td align='center'>41</td></tr>
+<tr><td align='center'>10.0</td><td align='center'></td><td align='center'></td><td align='center'></td><td align='center'></td><td align='center'>21</td></tr>
+<tr><td align='center'>10.5</td><td align='center'></td><td align='center'></td><td align='center'></td><td align='center'></td><td align='center'>8</td></tr>
+<tr><td align='center'>11.0</td><td align='center'></td><td align='center'></td><td align='center'></td><td align='center'></td><td align='center'>4</td></tr>
+<tr><td align='center'>11.5</td><td align='center'></td><td align='center'></td><td align='center'></td><td align='center'></td><td align='center'>1</td></tr>
+<tr><td align='center'>12.0</td><td align='center'></td><td align='center'></td><td align='center'></td><td align='center'></td><td align='center'>3</td></tr>
+<tr><td align='center'>12.5</td><td align='center'></td><td align='center'></td><td align='center'></td><td align='center'></td><td align='center'>1</td></tr>
+<tr><td align='center'>13.0</td><td align='center'></td><td align='center'></td><td align='center'></td><td align='center'></td><td align='center'>1</td></tr>
+</table></div>
+
+
+
+<p>Near the end of the spawning season in 1959, I found spawning
+catfish at the lower Neosho station. Ripe females were taken between
+9 June and 30 June, 1959; and, on 19 June I found a channel
+catfish nest with eggs (water temp. 79&deg; F.). The nest-site was a
+hole in the base of a clay bank; the floor was clean gravel with a
+small mound of gravel at the entrance. The nest-opening, five to
+six inches in diameter, widened almost immediately into a chamber
+about two and one-half feet long and one foot wide. Normally
+the water was about six inches deep in the mainstream as it ran
+over a riffle adjacent to the catfish nest. When I put my hand into
+the opening the fish bit vigorously, but became quiescent when
+I stroked its belly. I then felt the rounded gelatinous mass of eggs
+on the bottom of the nest. On June 22 (water temp. 86&deg; F.) the
+fish was removed, struggling, from the nest, and returned to the
+stream. The next day (23 June 1959, water temp. 84&deg; F.) the eggs
+had hatched and the young were in a swarm in the nest. The<span class='pagenum'><a name="Page_389" id="Page_389">[Pg 389]</a></span>
+adult did not attempt to bite but left as soon as I put my hand into
+the hole.</p>
+
+<p>Marzolf (1957:25) reports that young remain in the nest from
+seven to eight days after hatching. My seining records show a
+marked increase in abundance of small young-of-the-year on the
+first of July. Probably the time of hatching of the nest described
+above correlated well with hatches of other nests.</p>
+
+<p>One and sometimes two channel catfish were found in other
+holes in the stream-bank or bottom. The fish occasionally attacked
+my hand vigorously, but at other times remained quiet or left without
+attacking. No other channel catfish eggs were found, although
+one hole under a rock in the middle of the river had one or two
+individuals in it each time it was checked until 11 July, 1959. A
+local fisherman informed me of his belief that these holes are occupied
+only in the spawning season.</p>
+
+<p>Observations that I made in a pond owned by Dr. E. C. Bryan
+of Erie indicated that channel catfish, when disturbed in the early
+stages of guarding the eggs, either eat the eggs and abandon the
+nest or leave the nest exposed to predation by other animals. In
+the later stages of nesting, the fish, if removed, will return to guard
+the nest. After the eggs hatch the guarding response probably
+diminishes and the fish leaves the nest readily.</p>
+
+<p>At the lower Neosho station, several "artificial" holes were dug
+into the clay bank and two pieces of six-inch pipe were forced into
+the bank. Nearly all these holes were occupied by catfish for a
+short period in June; many of the holes were enlarged, either by
+the current or by fish. I suspect that fish enlarged some holes, because
+in the spawning season several males were observed that had
+large abrasions atop their heads, around their lips, and to a lesser
+extent on their sides. These could have been caused by butting
+and scraping the sides, roof and floor of a hole. I found it possible
+to enlarge the holes by rapidly moving my hand while it was inside
+a hole.</p>
+
+<p>The growth-rate of channel catfish in the Neosho was approximately
+the same at all stations, and the large 1957 year-class grew
+to an average size of about nine inches by mid-September, 1959
+(Table 7). Channel catfish mature at a total length of 12 to 15
+inches. Thus, most individuals of the 1957 year-class in the Neosho
+River probably will mature in their fourth or fifth summer (1960
+or 1961 spawning season).</p>
+
+<p>The sizes attained by young-of-the-year in 1957 differed in the<span class='pagenum'><a name="Page_390" id="Page_390">[Pg 390]</a></span>
+two rivers. Six hundred and thirty-three young taken in the Marais
+des Cygnes River attained an average size of 4.7 inches (range
+two to six inches) by mid-September. (Age was determined by
+length-frequency and verified by examining cross-sections of fin-spines
+from the larger individuals). One hundred and fifty young
+from the Neosho River averaged 3.0 inches (range 2 to 3.7 inches)
+on 2 November. Gross examination of the riffle-insect faunas indicated
+a larger standing crop in the Neosho than in the Marais des
+Cygnes River. Thus, the slower growth of young channel catfish
+in the Neosho seemed not to be correlated with food supply. Bailey
+and Harrison (1948:125-130) found that young channel catfish in
+the Des Moines River, Iowa, fed almost exclusively on aquatic
+insect larvae. My observations indicate that this is true in the
+Neosho and Marais des Cygnes rivers also.</p>
+
+<p>Young produced in 1958 in the Neosho River attained an average
+total length of three inches by 26 August, and young produced in
+1959 attained an average size of 3.5 inches by 11 September. Both
+groups probably continued growth until October, and may have
+averaged four inches total length at that time.</p>
+
+<p>The 1958 and 1959 year-classes were much less abundant than
+were the 1957 young. Therefore, it seems likely that the growth
+of the 1957 young in the Neosho River was depressed because of
+crowding. The 1959 year-class was larger than the small 1958
+year-class, thus conforming to a general expectation that strong
+year-classes will be followed by weak year-classes.</p>
+
+<p>Reproduction by channel catfish in 1957 seemed greater in the
+Neosho River than in the Marais des Cygnes River (Table 10); this
+coincided with a greater change in volume of flow in the Neosho
+River than in the Marais des Cygnes River (Tables 1-4). The
+1957 year-class seemed more crowded, and grew more slowly, in the
+Neosho than in the Marais des Cygnes River.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Ictalurus natalis</b> (LeSueur)<br />
+
+Yellow Bullhead</p>
+
+<p>Yellow bullhead were taken only at the middle station on the
+Marais des Cygnes and upper station on the Neosho. The yellow
+bullhead is more restricted to streams than is the black bullhead.
+Both species decreased in abundance during a period of continuous
+flow (1957 to 1959) following drought at the upper Neosho station.
+Collections in 1958-'59 indicated an increase in average size.
+Of four individuals marked and released at the upper Neosho sta<span class='pagenum'><a name="Page_391" id="Page_391">[Pg 391]</a></span>tion
+in 1959, one was recaptured about three hours after being released.
+It had not moved from the area of release.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Ictalurus melas</b> (Rafinesque)<br />
+
+Black Bullhead</p>
+
+<p>The black bullhead was abundant at the upper stations on each
+river, especially in backwaters having mud-bottom. The species
+was not taken in the mainstream of the lower and middle Neosho
+stations, but was taken at the middle Neosho station in a pond
+that is often flooded by the river. Although the fish was common
+or abundant in nearly all pools at the upper Neosho station, it was
+most abundant in one pool that had a bottom predominately of mud.</p>
+
+<p>At the middle Marais des Cygnes station, 109 individuals were
+collected and fin-clipped on 8, 9 and 24 July 1957. Three of the
+19 marked on 8 July were recaptured in the same area on 9 July.
+The area was poisoned on 13 September, 1957, and 130 black
+bullhead were taken, none of which had been marked.</p>
+
+<p>In 1959, 96 black bullhead were taken at the upper Neosho station
+(five in Area 1 and 91 at the White Farm). In these collections,
+25 were marked (fin-clipped or dyed) and six were recaptured.
+Four of the six had not left the area of capture one and two
+days after being released. The fifth fish recaptured was one of
+five individuals that had been displaced one pool downstream.
+When recaptured seven days later, this fish had moved upstream
+over two steep riffles (two to three inches deep, 75 feet and 166
+feet long) past the site of original capture to the next pool. The
+sixth fish, marked at the same time but returned to the original
+pool, was recaptured nine days after original capture and had
+moved upstream over a long riffle (two to three inches deep, 166
+feet long) and a short riffle into the second pool above the original
+site of its capture.</p>
+
+<p>Rotenone was applied to a small (.04 acre-feet) backwater ditch
+having a soft mud bottom at the upper Marais des Cygnes station
+on 25 July, 1957; 1526 black bullhead, one green sunfish and one
+white crappie were collected. A sample of 60 bullhead averaged
+4.6 inches T.L. (range 3.5 to 6.6 inches) and 540 individuals averaged
+.7 ounce each. These fish probably represented the 1956 year-class.</p>
+
+<p>The upper Neosho station had a large population of black bullhead,
+strongly dominated by fish less than four inches T. L. (range
+1.5 to 3.8 inches), in the spring of 1957. Most were approximately<span class='pagenum'><a name="Page_392" id="Page_392">[Pg 392]</a></span>
+two inches T. L. and probably represented the 1956 year-class.
+Growth, according to length-frequency, following restoration of
+stream-flow, shows a regular increase in length of this dominant
+1956 year-class (Fig. 3). A scarcity of young, especially in 1958
+and 1959, is apparent in Fig. 3. This may be due to the fact that
+a strong year-class usually is followed by one or several weak
+year-classes. However, it more probably reflects the fact that
+black bullhead are characteristically pond fish, and as such are
+not so well adapted to reproduction in flowing streams as are many
+other species. Metcalf (1959) found this species most abundantly
+in the intermittent headwaters of Walnut River and Grouse Creek
+in Cowley County, Kansas.</p>
+
+<div class="figcenter" style="width: 768px;">
+<span class="caption">Fig. 3.  Length-frequency of black bullhead at the upper Neosho station, 1957,
+1958 and 1959.</span>
+<img src="images/i036.jpg" width="768" height="525" alt="Fig. 3." title="" />
+</div>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Pylodictis olivaris</b> (Rafinesque)<br />
+
+Flat-headed Catfish</p>
+
+<p>The flathead is the largest sport-fish occurring in Kansas. Several
+weighing more than 40 pounds are caught from streams each year,
+and the species reportedly attains sizes in excess of one hundred
+pounds. Several aspects of the biology of the flathead in Kansas
+have been discussed by Minckley and Deacon (1959).</p>
+
+<p>The abundance of flathead declined slightly from 1957 through
+1959, counting fish of all sizes. This trend is attributable to a
+large hatch in 1957; the 1957 year-class strongly dominated the<span class='pagenum'><a name="Page_393" id="Page_393">[Pg 393]</a></span>
+population throughout my study. Natural mortality in that year-class
+was compensated by increased average size of the individuals
+(to six inches in autumn, 1958, and 11 inches in autumn, 1959).</p>
+
+<p>The numbers of flathead caught at the upper stations on the
+Neosho and Marais des Cygnes rivers differed from the general
+trend in that the species was rare in 1957 and increased slightly
+by 1959. Flathead are most numerous in large streams, and in the
+drought they probably were almost extirpated from the headwaters.
+After 1957, continuous flow and increased volume of flow
+were accompanied by a gradual increase in numbers of flathead
+in the upstream parts of the two rivers. The species was most
+abundant at the middle and lower Neosho stations, where 10.5
+per cent of all fish shocked in 1957 and 1958 were <i>P. olivaris</i>.</p>
+
+<p>The habitat of the flathead varied with size of the individuals.
+Young-of-the-year inhabited swift riffles having rubble bottom;
+individuals four to 12 inches in total length were distributed
+throughout the stream; those more than 12 inches in total length
+were most commonly in pools in association with cover (rocks, or
+drifts of fallen timber).</p>
+
+<p>Male flathead mature at 15 to 18 inches total length, females at
+18 to 20 inches. The spawning season in 1959 probably began
+in early June and extended to mid-July. I attempted to find spawning
+fish on 19 June and for one month thereafter. On 19 June
+nine holes were dug into a 75-yard section of a clay bank adjacent
+to a long, shallow, rubble riffle. A flathead was first found in one
+of these holes on 22 June, and others were frequently found in
+this and one other hole until mid-July. Although channel catfish
+were often found in nearby holes, that species was never present
+in the two holes used by flatheads. The holes occupied by flathead
+(as well as those used by channel catfish) characteristically had
+silt-free gravel bottoms and a ridge of clean gravel across the entrance.</p>
+
+<p>A nest containing a flathead and eggs was located on 11 July.
+In checking the hole I first put my foot into the entrance, then slowly
+advanced my hand into the hole, feeling along the bottom with
+my fingers until they entered the open mouth of a large catfish.
+I backed off slowly and then felt beneath the fish. The fish was
+directly above the egg-mass, seemingly touching the eggs with its
+belly. As I touched the front of the egg-mass the fish struck
+viciously, taking my entire fist into its mouth. It continued striking
+until I removed my hand from the hole after obtaining a small<span class='pagenum'><a name="Page_394" id="Page_394">[Pg 394]</a></span>
+sample of eggs, which proved to be in an early stage of development
+(no vascularization evident).</p>
+
+<p>When the nest was checked again on 13 July the eggs and fish
+were gone. As in the case of channel catfish, I suspect that disturbance
+of a flathead in the early stages of guarding the nest
+results in destruction of the nest either by the guardian fish or by
+predation resulting from its absence.</p>
+
+<p>The hole occupied by the above fish was one that I had dug
+seven to nine inches in diameter and extending two and one-half to
+three feet into the bank. At the time this fish occupied the hole
+its depth was approximately the same as originally, but the entrance
+had been enlarged to 14 inches in diameter, and the chamber
+widened to 32 inches. The holes were checked later in the summer
+and all were heavily silted or had been undercut by action of the
+current.</p>
+
+<p>The number of flathead of catchable size was not reduced as
+severely during my study as was the number of large channel catfish.
+Flathead have a longer life-span than channel catfish; therefore,
+it is not surprising that, of flathead and channel catfish that
+survived the drought, a higher proportion of flathead persisted
+throughout the next three years, in which my study was made. In
+drought, when fish were concentrated in residual pools, the piscivorous
+(fish eating) habit of flatheads may have favored their
+survival.</p>
+
+<p>The growth rate of flathead taken from the Neosho River in
+1957 and 1958 was reported by Minckley and Deacon (1959:351-352).
+Individuals hatched in 1955 and 1956 and collected in 1957
+had attained average sizes of 9.5 inches and 4.8 inches, respectively,
+by the end of the 1956 growing-season.</p>
+
+<p>Flatheads of the 1956 and 1957 year-classes attained average
+sizes of 8.7 and 3.2 inches, respectively, by the end of the 1957
+growing season. These data indicate that growth was retarded
+in the summer of 1957. Many species, including <i>P. olivaris</i>, had an
+exceptionally large hatch in 1957, associated with increased water
+levels in that year. Despite the great increase in amount of water,
+I suppose that young-of-the-year and yearlings were subjected to
+crowding resulting from exceptional hatches. This caused reduction
+in growth of young flathead, and probably in several other
+species.</p>
+
+<p>Food of flatheads 4.0 inches and shorter was nearly all insect
+larvae; that of fish 4.1 to 10 inches was insect larvae, fishes and
+crayfish; and that of larger flatheads was mostly fish and crayfish.<span class='pagenum'><a name="Page_395" id="Page_395">[Pg 395]</a></span>
+The specific kind of food eaten was correlated with abundance
+of the food item in the stream (Minckley and Deacon, 1959:350-351).</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Noturus flavus</b> Rafinesque<br />
+
+Stonecat</p>
+
+<p>The stonecat was not taken at the upper Marais des Cygnes station,
+and was less abundant at the middle Marais des Cygnes station
+than at other stations. The abundance of the stonecat was greatest
+at the lower Marais des Cygnes station in 1957 and at the upper
+Neosho station in 1959. The species increased in abundance from
+1957 to 1959 in the Neosho River, where the principal habitat was
+riffles over rubble bottom.</p>
+
+<p>Thirty-three stonecats were marked at the upper Neosho station
+in 1959. Five of these were recaptured three hours after release,
+all near the point of release. One individual was taken from
+a riffle, fin-clipped, and released at the foot of the next riffle downstream.
+When recaptured four days later, this fish was still in the
+area of release. Young-of-the-year were taken on July 1, 1959,
+at the lower Neosho station.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Noturus gyrinus</b> (Mitchill)<br />
+
+Tadpole Madtom</p>
+
+<p>Trautman (1957:444-445) describes the habitat of the tadpole
+madtom as "low-gradient lowland streams, springs, marshes, oxbows,
+pothole lakes, and protected harbors and bays of Lake Erie, where
+conditions were relatively stable, the water was usually clear, the
+bottom was of soft muck which generally contained varying amounts
+of twigs, logs, and leaves, and where there usually was an abundance
+of such rooted aquatics as pondweeds and hornwort. The
+species seemed to be highly intolerant to much turbidity and rapid
+silting,..." The tadpole madtom was obtained only at the
+middle Marais des Cygnes station in a small, deep, mud-bottomed
+pool in 1957 after water levels, and probably turbidity, had been
+low for five years. The occurrence provides the westernmost record
+station in Kansas. Cross and Minckley (1958:106) reported the
+species from the lower part of the Marais des Cygnes in Kansas.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Noturus nocturnus</b> Jordan and Gilbert<br />
+
+Freckled Madtom</p>
+
+<p>The freckled madtom was taken only at the middle Neosho station
+on 19 April, 1958. This species occurs most frequently in
+small streams, and individuals living in the mainstream of the Neo<span class='pagenum'><a name="Page_396" id="Page_396">[Pg 396]</a></span>sho
+probably are "strays" from nearby tributaries. This species may
+have utilized the mainstream as a refugium in the drought of
+1952-'56.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Noturus exilis</b> Nelson<br />
+
+Slender Madtom</p>
+
+<p>The slender madtom was taken only at the middle Marais des
+Cygnes station in the fall of 1957. This species prefers permanent
+riffles of clear streams (Deacon and Metcalf, 1961:317). My specimen
+possibly strayed from a nearby tributary; or, it was a relict
+from a population living in the mainstream during drought.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Noturus sp.</b><br />
+
+Neosho Madtom</p>
+
+<p>A description of this species, which is endemic to Neosho River,
+has been prepared but not yet published by Dr. W. Ralph Taylor.
+I found the Neosho madtom only at the middle station in 1958 and
+1959, and at the lower station in 1959, where the species was common
+in shallow water having moderate current over clean gravel
+bottom. Specimens were most effectively collected by digging into
+the gravel above the seine and allowing the gravel to wash into the
+seine. In 1952, Cross (1954:311) found this species in abundance
+in riffles at the confluence of the South Fork and Cottonwood River,
+and at several other localities in the Neosho mainstream (personal
+communication). The Neosho madtom is nearly restricted to gravel
+riffles having moderate flow; therefore, it may be drastically reduced
+by intermittency of flow. I found none in 1957 and few in 1958. By
+1959, the third summer of continuous flow, the Neosho madtom
+was again common.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Fundulus notatus</b> (Rafinesque)<br />
+
+Black-striped Topminnow</p>
+
+<p>The black-striped topminnow was rare in the mainstream at the
+lower Marais des Cygnes and the middle and lower Neosho stations,
+where it was found in quiet water near shore.</p>
+
+<p>Near the middle Neosho station, a large population was present
+in an oxbow lake that is frequently flooded by the river.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Labidesthes sicculus</b> (Cope)<br />
+
+Brook Silversides</p>
+
+<p>The brook silversides occurred rarely at the lower Marais des
+Cygnes and at the middle and lower Neosho stations.<span class='pagenum'><a name="Page_397" id="Page_397">[Pg 397]</a></span></p>
+
+<p>&nbsp;</p>
+<p class="center"><b>Micropterus dolomieui</b> Lac&eacute;p&egrave;de<br />
+
+Small-mouthed Bass</p>
+
+<p>One individual was taken at the lower Neosho station in 1957.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Micropterus punctulatus punctulatus</b> (Rafinesque)<br />
+
+Spotted Bass</p>
+
+<p>The spotted bass occurs in Kansas only in the southeastern part
+of the state&mdash;in southern tributaries of the Osage system, in Spring
+River drainage, and in relatively clear streams of the Flint Hills.
+At my stations on the Neosho River, this fish was more abundant
+in 1957 than in 1958 or 1959.</p>
+
+<p>Spotted bass were taken most frequently over rubble bottom or
+near boulders in moderate current. Collections made in the evening
+or early morning more often contained spotted bass than collections
+made at other times of day (Table 9). Data from a few
+specimens that were marked, released, and recaptured indicated that
+the species is relatively sedentary; therefore, the greater abundance
+in the morning and evening collections probably indicates increased
+activity during these periods, possibly in connection with feeding.
+The spawning season in 1957 may have continued as late as 10
+July when a ripe female 11.3 inches T. L. was taken. Young-of-the-year
+were taken on 24 June in moderate current over gravel
+bottom and in quiet water over mud bottom.</p>
+
+<p>Spotted bass normally form a small part of the game-fish fauna
+in the lower Neosho River. The species attains greater abundance
+in smaller, clear streams of the Arkansas River Basin in Kansas
+(Cross, 1954, and unpublished data of State Biological Survey
+of Kansas). During the drought, the lower Neosho probably assumed
+many characteristics of a smaller stream in normal times.
+Flow was reduced or entirely interrupted and turbidity was lessened.
+These conditions resulted in faunal changes in which
+spotted bass were more prominent than in years of normal flow.
+During this period of reduced flow, some fishermen turned from
+catfishing to bass-fishing; I think this constitutes evidence for an increase
+in numbers of bass, accompanied by a decrease in numbers
+of channel catfish. With the return of continuous flow and a consequent
+rise in turbidity, bass declined in abundance in the mainstream.<span class='pagenum'><a name="Page_398" id="Page_398">[Pg 398]</a></span></p>
+
+<p>&nbsp;</p>
+<p class="center"><b>Micropteras salmoides salmoides</b> (Lac&eacute;p&egrave;de)<br />
+
+Large-mouthed Bass</p>
+
+<p>The large-mouth was rare at all stations. It prefers quiet water
+near cover; to become abundant, the large-mouth probably requires
+clearer water than is afforded by most Kansas streams. This
+species, like spotted bass, declined in abundance during the period
+of study. Nevertheless, young-of-the-year were taken in 1957 and
+1958 (earliest date of capture, 7 June in 1958).</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Lepomis cyanellus</b> Rafinesque<br />
+
+Green Sunfish</p>
+
+<p>Green sunfish were taken at all stations, but most abundantly
+at the upper Neosho station where the number captured increased
+slightly from 1957 to 1959. Young-of-the-year and adults were most
+common in shallow backwater. At the upper Neosho station green
+sunfish inhabit quiet pools, where recaptures of marked fish indicated
+that the species is notably sedentary in habit. Hasler and
+Wisby (1958) have shown that green sunfish exhibit a homing
+reaction.</p>
+
+<p>This fish provides some sport for fishermen, especially in the
+smaller streams, but I found few green sunfish that were larger
+than six inches T. L. at any station.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Lepomis megalotis</b> (Rafinesque)<br />
+
+Long-eared Sunfish</p>
+
+<p>Long-eared sunfish were taken at all stations but were notably
+more abundant in the Neosho River, where the largest population
+occurred at the upper station. In all three years of the study, large
+samples were obtained by means of rotenone in the same pool at the
+upper Neosho station. There were fewer long-eared sunfish present
+each year, and average size increased slightly. Collections in
+other pools at this station indicated that long-eared sunfish maintained
+a high level of abundance throughout my study.</p>
+
+<p>Long-eared sunfish occurred in pools having bottoms of gravel
+or bedrock at the upper Neosho station, or near shore over rubble
+or gravel in slow to moderate current at the middle Neosho station.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Lepomis humilis</b> (Girard)<br />
+
+Orange-spotted Sunfish</p>
+
+<p>The orange-spotted sunfish occurred at all stations; it was most
+abundant in the Neosho River, especially at the uppermost station.
+This fish was taken in a variety of habitats, but was most<span class='pagenum'><a name="Page_399" id="Page_399">[Pg 399]</a></span>
+common in areas where the current was slack, often over mud or
+silt bottom.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Lepomis macrochirus</b> Rafinesque<br />
+
+Bluegill</p>
+
+<p>Bluegill were taken at all stations but were rare. This species
+occurred exclusively in pools, usually near cover (brush or trees in
+the water). Bluegill are predominately pond-fish in Kansas, and
+populations in rivers may consist partly of individuals that escaped
+from ponds in time of overflow. I know of no stream in Kansas
+that has a population large enough to contribute significantly to
+the sport fishery.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Pomoxis nigromaculatus</b> (LeSueur)<br />
+
+Black Crappie</p>
+
+<p>This species was represented by only one specimen, taken at the
+lower Neosho station in 1957.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Pomoxis annularis</b> Rafinesque<br />
+
+White Crappie</p>
+
+<p>White crappie were taken at all stations, but were common only
+at the upper and middle stations on the Marais des Cygnes and
+the upper Neosho station. At the last station, this fish was abundant
+in a single large pool that contained much more water during
+drought than any other area at this station. There was little dispersal
+into several smaller pools, below the large pool, which were
+sampled in 1957, 1958 and 1959. White crappie were not taken
+in the lower pools until 1959, and then were rare. Most crappie
+were taken in quiet water near cover or near shore.</p>
+
+<p>Young-of-the-year were found in 1957, 1958 and 1959, but never
+abundantly. At the lower Neosho station in 1959, ripe individuals
+were collected on 19 June, a spent female on 24 June, and young-of-the-year
+on 1 July. The young were present in quiet, shallow
+water over mud bottom at the lower end of a gravel bar. Large
+white crappie (10-14 inches T. L.) were common at the middle
+and lower Neosho stations in 1957 and in April, 1958. Large fish
+were almost entirely absent from later collections. Average size,
+maximum size and abundance declined during the period of study.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Percina phoxocephala</b> (Nelson)<br />
+
+Slender-headed Darter</p>
+
+<p>The slender-headed darter was taken at all stations but was
+more abundant in the Neosho than in the Marais des Cygnes. The
+lower Marais des Cygnes, however, was the only station with a<span class='pagenum'><a name="Page_400" id="Page_400">[Pg 400]</a></span>
+relatively large population in 1957. Slender-headed darters were
+rare in the Neosho River in 1957 and did not become common
+until 1959.</p>
+
+<p>The largest population was found at the upper Neosho station
+in 1959. This darter occurs most frequently in swift water over
+gravel bottom, but was taken in various habitats, including an intermittent
+pool at the upper Neosho station on 7 September, 1957.</p>
+
+<p>At the middle and lower Neosho stations, considerably greater
+numbers were taken in June, July, and early August than in May or
+late August. The abundance in my collections diminished from a
+peak in early July, to scarcity in late August.</p>
+
+<p>Young-of-the-year were taken at the lower Neosho station on
+1 July, 1959 (and subsequently), in moderately fast water over
+gravel. On 21 August, 1958, a ripe female (eggs stripped easily)
+was the only slender-headed darter present in a collection from
+riffles at the middle Neosho station.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Percina caprodes</b> (Rafinesque)<br />
+
+Logperch</p>
+
+<p>Logperch were not taken in the Marais des Cygnes. They were
+rare in the Neosho, where they were taken most frequently at the
+upper station in water two to three feet deep, over gravel bottom,
+in moderate to slight current. This species was present in intermittent
+pools at the upper Neosho station in 1957.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Percina copelandi</b> (Jordan)<br />
+
+Channel Darter</p>
+
+<p>One specimen was taken at the lower Neosho station in 1959.
+Because no others ever have been found in the mainstream of the
+Neosho River, I suspect that my specimen is a "stray" from one of
+the smaller tributaries, where channel darters are locally common.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Etheostoma flabellare</b> Rafinesque<br />
+
+Fan-tailed Darter</p>
+
+<p>The fan-tailed darter is represented in my collections by one
+specimen, obtained in the mainstream of the Neosho River at the
+lower station in 1957. Records of this species in Kansas are almost
+confined to the smallest, clear, permanent streams of the southeastern
+part of the state. My specimen may represent a small
+population that retreated to the mainstream of the Neosho during
+drought.<span class='pagenum'><a name="Page_401" id="Page_401">[Pg 401]</a></span></p>
+
+<p>&nbsp;</p>
+<p class="center"><b>Etheostoma spectabile</b> (Agassiz)<br />
+
+Orange-throated Darter</p>
+
+<p>Orange-throated darters were common at the upper Marais des
+Cygnes and upper Neosho stations in 1959, rare at the middle and
+lower Neosho stations, and absent from the middle and lower
+Marais des Cygnes stations. The species was found almost exclusively
+on upstream riffles over gravel-rubble bottom. The population
+in the upper Neosho was decimated by drought, and the fish
+did not become common until the summer of 1959, the third year
+after resumption of normal stream-flow.</p>
+
+<p>Deacon and Metcalf (1961:320) indicated that long periods of
+intermittency result in depletion or elimination of populations of
+the orange-throated darter in the Wakarusa River, Kansas. A limited
+number of orange-throated darters probably survived in the
+few permanent pools in the upper Neosho and provided the brood-stock
+necessary to repopulate this section of the stream.</p>
+
+
+<p>&nbsp;</p>
+<p class="center"><b>Aplodinotus grunniens</b> Rafinesque<br />
+
+Freshwater Drum</p>
+
+<p>Drum were taken at all stations, but were most abundant at
+the middle and lower Neosho stations. A high level of abundance
+also was found in 1957 at the middle Marais des Cygnes station.
+The abundance of drum declined from 1957 to 1959, but the average
+size increased because of a dominant 1957 year-class that was moderately
+reduced by natural mortality in 1958-'59. Although the
+population was composed largely of young-of-the-year and adults
+in 1957, it was dominated by yearling individuals in 1958. By 1959
+the number had declined considerably and the population consisted
+mostly of juveniles and adults. Fish of the 1957 year-class reached a
+length of approximately ten inches by mid-summer of 1959 (Table
+8).</p>
+
+<p>Adults were taken in a variety of habitats, but most often in
+quiet water. On the other hand, yearlings were extremely abundant
+in 1958 near shore in shallow, moderately fast water over
+rubble bottom at night. Drum were rare in the same areas in daylight
+(Table 9). Young-of-the-year occur in shallow, quiet water,
+usually over mud-bottom.</p>
+
+<p>The freshwater drum matures at about 12 inches T. L. Ripe
+males were taken as late as 23 June 1959; however, the height of
+the spawning season probably is in May.<span class='pagenum'><a name="Page_402" id="Page_402">[Pg 402]</a></span></p>
+
+<h4><span class="smcap">Table 8. Length-frequency of Freshwater Drum from the Middle
+Neosho Station in 1957, 1958 and 1959.</span></h4>
+
+<div class='center'>
+<table border="0" cellpadding="4" cellspacing="0" summary="" width="90%">
+<tr><th align='center'>Total length in inches</th><th align='center'>Aug. 19 1957</th><th align='center'>Aug. 19-26 1958</th><th align='center'>July 27-Aug. 4 1959</th></tr>
+<tr><td align='center'> 2</td><td align='center'></td><td align='center'>1</td></tr>
+<tr><td align='center'> 3</td><td align='center'>1</td></tr>
+<tr><td align='center'> 4</td><td align='center'>4</td></tr>
+<tr><td align='center'> 5</td><td align='center'></td><td align='center'>1</td></tr>
+<tr><td align='center'> 6</td><td align='center'></td><td align='center'>12</td></tr>
+<tr><td align='center'> 7</td><td align='center'></td><td align='center'>21</td><td align='center'>1</td></tr>
+<tr><td align='center'> 8</td><td align='center'>3</td><td align='center'>14</td><td align='center'>2</td></tr>
+<tr><td align='center'> 9</td><td align='center'>3</td><td align='center'>3</td><td align='center'>2</td></tr>
+<tr><td align='center'>10</td><td align='center'>4</td><td align='center'>6</td><td align='center'>6</td></tr>
+<tr><td align='center'>11</td><td align='center'>2</td><td align='center'>4</td><td align='center'>1</td></tr>
+<tr><td align='center'>12</td><td align='center'></td><td align='center'>2</td></tr>
+<tr><td align='center'>13</td><td align='center'></td><td align='center'></td><td align='center'>2</td></tr>
+<tr><td align='center'>14</td><td align='center'></td><td align='center'></td><td align='center'>1</td></tr>
+</table></div>
+
+
+<h4><span class="smcap">Table 9. Average Number of Individuals Captured per Hour, Using the
+Shocker, at Different Times of the Day and Night at the Middle Neosho
+Station in 1958. Numbers in Parentheses Indicate Total Number
+Captured.</span></h4>
+
+
+<div class='center'>
+<table border="1" cellpadding="4" cellspacing="0" summary="">
+<tr><th><span class="smcap">Species</span></th>
+<th>Morning 5 hours<br />of effort expended<br />6:30 a.m. 12:30 p.m.</th>
+<th>Afternoon 6 hours<br />of effort expended<br />12:30 p.m. 6:30 p.m.</th>
+<th>Early night 18 hours<br />of effort expended<br />6:30 p.m. 12:30 a.m.</th>
+<th>Late night 8 hours<br />of effort expended<br />12:30 a.m. 6:30 a.m.</th></tr>
+<tr><td align='left'>Long-nosed Gar</td><td align='center'> 0</td><td align='center'> 0.3 (2)</td><td align='center'> 1.2 (21)</td><td align='center'> 1.1 (9)</td></tr>
+<tr><td align='left'>Short-nosed Gar</td><td align='center'> 0.2 (1)</td><td align='center'> 0</td><td align='center'> 0.2 (3)</td><td align='center'> 0.4 (3)</td></tr>
+<tr><td align='left'>Gizzard Shad</td><td align='center'> 0.2 (1)</td><td align='center'> 0.3 (2)</td><td align='center'> 0.1 (1)</td><td align='center'> 0.1 (1)</td></tr>
+<tr><td align='left'>Black Buffalo</td><td align='center'> 0</td><td align='center'> 0.2 (1)</td><td align='center'> 0.1 (1)</td><td align='center'> 0</td></tr>
+<tr><td align='left'>Small-mouthed Buffalo</td><td align='center'> 0.4 (2)</td><td align='center'> 0.3 (2)</td><td align='center'> 0.8 (14)</td><td align='center'> 0.8 (6)</td></tr>
+<tr><td align='left'>River Carpsucker</td><td align='center'> 3.4 (17)</td><td align='center'> 3.3 (20)</td><td align='center'> 5.7 (102)</td><td align='center'> 4.9 (39)</td></tr>
+<tr><td align='left'>Redhorse</td><td align='center'> 0</td><td align='center'> 0.2 (1)</td><td align='center'> 0.6 (10)</td><td align='center'> 0.6 (5)</td></tr>
+<tr><td align='left'>Carp</td><td align='center'> 1.8 (9)</td><td align='center'> 0.2 (1)</td><td align='center'> 0.7 (12)</td><td align='center'> 0.8 (6)</td></tr>
+<tr><td align='left'>Channel Catfish</td><td align='center'> 1.6 (8)</td><td align='center'> 1.0 (6)</td><td align='center'> 10.2 (183)</td><td align='center'> 10.5 (84)</td></tr>
+<tr><td align='left'>Flathead</td><td align='center'> 2.2 (11)</td><td align='center'> 1.3 (8)</td><td align='center'> 2.4 (43)</td><td align='center'> 3.6 (29)</td></tr>
+<tr><td align='left'>Spotted Bass</td><td align='center'> 0.4 (2)</td><td align='center'> 0.5 (3)</td><td align='center'> 0.3 (6)</td><td align='center'> 0.1 (1)</td></tr>
+<tr><td align='left'>Green Sunfish</td><td align='center'> 0.2 (1)</td><td align='center'> 0.2 (1)</td><td align='center'> 0.2 (3)</td><td align='center'> 0.1 (1)</td></tr>
+<tr><td align='left'>Long-eared Sunfish</td><td align='center'> 0</td><td align='center'> 0</td><td align='center'> 0.1 (2)</td><td align='center'> 0.4 (3)</td></tr>
+<tr><td align='left'>Orange-spotted Sunfish</td><td align='center'> 0.2 (1)</td><td align='center'> 0</td><td align='center'> 0</td><td align='center'> 0</td></tr>
+<tr><td align='left'>White Crappie</td><td align='center'> 0.2 (1)</td><td align='center'> 0.2 (1)</td><td align='center'> 0.2 (5)</td><td align='center'> 0.4 (3)</td></tr>
+<tr><td align='left'>Freshwater Drum</td><td align='center'> 1.0 (5)</td><td align='center'> 0.8 (5)</td><td align='center'> 5.6 (101)</td><td align='center'> 5.3 (42)</td></tr>
+<tr><td align='left'>Number captured per hour</td><td align='center'> 13.4</td><td align='center'> 9.3</td><td align='center'> 29.5</td><td align='center'> 33.8</td></tr>
+</table></div>
+
+<p><span class='pagenum'><a name="Page_403" id="Page_403">[Pg 403]</a></span></p>
+
+<h4><span class="smcap">Table 10. Numbers of Fish Seen or Captured per Hour by Use of the
+Shocker. Excludes Fish Taken by Shocking into a Seine on Riffles;
+Young-of-the-year Channel Catfish and Flathead Catfish Predominated
+in Samples Taken by that Method.</span></h4>
+
+
+
+<div class='center'>
+<table border="1" cellpadding="4" cellspacing="0" summary="">
+<tr><th rowspan='3'><span class="smcap">Species</span></th><th colspan='8'>Marais des Cygnes River</th></tr>
+<tr><th colspan='3'>Upper</th><th colspan='3'>Middle</th><th colspan='2'>Lower</th></tr>
+<tr><th>1957</th><th>1958</th><th>1959</th><th>1957</th><th>1958</th><th>1959</th><th>1957</th><th>1958</th></tr>
+<tr><td align='left'>Gar</td><td align='center'> .7</td><td align='center'> 1.3</td><td align='center'> 1.2</td><td align='center'> .6</td><td align='center'> 2.7</td><td align='center'> ...</td><td align='center'> 2.2</td><td align='center'> 9.4</td></tr>
+<tr><td align='left'>Gizzard Shad</td><td align='center'> .9</td><td align='center'> .2</td><td align='center'> ...</td><td align='center'> 9.9</td><td align='center'> 2.5</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> .5</td></tr>
+<tr><td align='left'>Buffalo</td><td align='center'> 2.0</td><td align='center'> 3.7</td><td align='center'> .6</td><td align='center'> .8</td><td align='center'> 2.0</td><td align='center'> ...</td><td align='center'> 5.7</td><td align='center'> 6.4</td></tr>
+<tr><td align='left'>River Carpsucker</td><td align='center'> 4.0</td><td align='center'> 4.9</td><td align='center'> .6</td><td align='center'> 6.5</td><td align='center'> 2.2</td><td align='center'> 2.0</td><td align='center'> 1.8</td><td align='center'> 3.9</td></tr>
+<tr><td align='left'>Shortheaded Redhorse</td><td align='center'> 3.3</td><td align='center'> .9</td><td align='center'> .6</td><td align='center'> .8</td><td align='center'> .2</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td></tr>
+<tr><td align='left'>Carp</td><td align='center'>10.6</td><td align='center'> 6.4</td><td align='center'> 2.4</td><td align='center'> 8.6</td><td align='center'> 5.0</td><td align='center'> 3.5</td><td align='center'> 6.0</td><td align='center'>10.4</td></tr>
+<tr><td align='left'>Black Bullhead</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> 3.9</td><td align='center'>17.2</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td></tr>
+<tr><td align='left'>Channel Catfish</td><td align='center'> .5</td><td align='center'> .9</td><td align='center'> ...</td><td align='center'> 4.7</td><td align='center'> 2.5</td><td align='center'> ...</td><td align='center'> 1.8</td><td align='center'> .7</td></tr>
+<tr><td align='left'>Flathead</td><td align='center'> .2</td><td align='center'> ...</td><td align='center'> 2.4</td><td align='center'> .5</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> 1.8</td><td align='center'> .5</td></tr>
+<tr><td align='left'>Largemouth</td><td align='center'> 1.0</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> .3</td><td align='center'> .2</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td></tr>
+<tr><td align='left'>White Crappie</td><td align='center'> 1.7</td><td align='center'> 5.1</td><td align='center'> .6</td><td align='center'> 1.3</td><td align='center'> .7</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> .2</td></tr>
+<tr><td align='left'>Freshwater Drum</td><td align='center'> .9</td><td align='center'> 1.6</td><td align='center'> .6</td><td align='center'>24.5</td><td align='center'> 2.2</td><td align='center'> ...</td><td align='center'> .7</td><td align='center'> .2</td></tr>
+<tr><th align='center'>Hours shocked</th><th align='center'>4&frac12;</th><th align='center'>4&frac12;</th><th align='center'>1&#8532;</th><th align='center'> 4</th><th align='center'> 4</th><th align='center'> 2</th><th align='center'>2&#8538;</th><th align='center'>4&frac12;</th></tr>
+<tr><th rowspan='3' colspan='3'>&nbsp;</th><th colspan='8'>Neosho River</th></tr>
+<tr><th colspan='3'>Middle</th><th colspan='3'>Lower</th></tr>
+<tr><th>1957</th><th>1958</th><th>1959</th><th>1957</th><th>1958</th><th>1959</th></tr>
+<tr><td align='left' colspan='3'>Gar</td><td align='center'> 3.2</td><td align='center'> 4.2</td><td align='center'> 3.8</td><td align='center'> 5.3</td><td align='center'> 4.9</td><td align='center'> 8.4</td></tr>
+<tr><td align='left' colspan='3'>Gizzard Shad</td><td align='center'> .5</td><td align='center'> .2</td><td align='center'> .4</td><td align='center'> 1.9</td><td align='center'> 1.0</td><td align='center'> .4</td></tr>
+<tr><td align='left' colspan='3'>Buffalo</td><td align='center'> 2.9</td><td align='center'> 1.8</td><td align='center'> 1.2</td><td align='center'> 6.2</td><td align='center'> .9</td><td align='center'> 1.5</td></tr>
+<tr><td align='left' colspan='3'>River Carpsucker</td><td align='center'> 5.5</td><td align='center'> 7.4</td><td align='center'> 2.9</td><td align='center'> 7.5</td><td align='center'> 13.3</td><td align='center'> 6.3</td></tr>
+<tr><td align='left' colspan='3'>Shortheaded Redhorse</td><td align='center'> 1.9</td><td align='center'> .6</td><td align='center'> 1.6</td><td align='center'> .7</td><td align='center'> ...</td><td align='center'> 1.6</td></tr>
+<tr><td align='left' colspan='3'>Carp</td><td align='center'> 2.1</td><td align='center'> 2.1</td><td align='center'> 1.4</td><td align='center'> 3.4</td><td align='center'> 1.2</td><td align='center'> 1.1</td></tr>
+<tr><td align='left' colspan='3'>Channel Catfish</td><td align='center'> 2.6</td><td align='center'> 8.8</td><td align='center'> .9</td><td align='center'> 107.0</td><td align='center'> .5</td><td align='center'> .7</td></tr>
+<tr><td align='left' colspan='3'>Flathead</td><td align='center'> 7.6</td><td align='center'> 3.7</td><td align='center'> 2.7</td><td align='center'> 10.8</td><td align='center'> .2</td><td align='center'> 1.2</td></tr>
+<tr><td align='left' colspan='3'>Bass</td><td align='center'> 1.6</td><td align='center'> .4</td><td align='center'> .1</td><td align='center'> .2</td><td align='center'> .2</td><td align='center'> .1</td></tr>
+<tr><td align='left' colspan='3'>White Crappie</td><td align='center'> ...</td><td align='center'> .9</td><td align='center'> .2</td><td align='center'> 1.8</td><td align='center'> .7</td><td align='center'> .1</td></tr>
+<tr><td align='left' colspan='3'>Freshwater Drum</td><td align='center'> 3.9</td><td align='center'> 3.3</td><td align='center'> .8</td><td align='center'> 15.9</td><td align='center'> 2.8</td><td align='center'> .7</td></tr>
+<tr><th align='center' colspan='3'>Hours shocked</th><th align='center'>5&#8532;</th><th align='center'>55&#8538;</th><th align='center'>48&frac12;</th><th align='center'> 4&#8537;</th><th align='center'> 4</th><th align='center'>16&#8538;</th></tr>
+</table></div>
+
+<p><span class='pagenum'><a name="Page_404" id="Page_404">[Pg 404]</a></span></p>
+
+<h4><span class="smcap">Table 11. Number of Occurrences</span> (Roman type) <span class="smcap">and Number Counted</span>
+(<i>Italic type</i>) <span class="smcap">per Seining Unit. One Seining Unit Equals 30 Seine-Hauls</span>
+(ten each with the 4-foot, 12-foot and 25-foot seine) <span class="smcap">of Which Six Randomly-chosen
+Hauls Were Counted. Dashes Signify That the Species Occurred
+in Uncounted Collections Only.</span></h4>
+
+
+<div class='center'>
+<table border="1" cellpadding="4" cellspacing="0" summary="">
+<tr><th rowspan='3'><span class="smcap">Species</span></th><th colspan='6'>Marais des Cygnes stations</th><th colspan='2'>Neosho</th></tr>
+<tr><th colspan='2'>Upper</th><th colspan='2'>Middle</th><th colspan='2'>Lower</th><th colspan='2'>Lower station</th></tr>
+<tr><th>1957</th><th>1959</th><th>1957</th><th>1959</th><th>1957</th><th>1959</th><th>1957</th><th>1959</th></tr>
+<tr><td align='left'>Golden Shiner</td><td align='center'> ...</td><td align='center'>...</td><td align='center'>&mdash;</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'>...</td><td align='center'> ...</td><td align='center'> ...</td></tr>
+<tr><td align='left'>Creek Chub</td><td align='center'> ...</td><td align='center'>&mdash;</td><td align='center'>...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'>...</td><td align='center'> ...</td><td align='center'> ...</td></tr>
+<tr><td align='left'>Silver Chub</td><td align='center'> ...</td><td align='center'>...</td><td align='center'>...</td><td align='center'> ...</td><td align='center'> &mdash;</td><td align='center'>...</td><td align='center'> ...</td><td align='center'> ...</td></tr>
+<tr><td align='left'>Gravel Chub</td><td align='center'> ...</td><td align='center'>...</td><td align='center'>...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'>...</td><td align='center'> ...</td><td align='center'> 3.0<br /><i>2.3</i></td></tr>
+<tr><td align='left'>Sucker-mouthed Minnow</td><td align='center'> &mdash;</td><td align='center'>6</td><td align='center'>...</td><td align='center'>3<br /><i>1</i></td><td align='center'>...</td><td align='center'>1</td><td align='center'>2</td><td align='center'>10.0<br /><i>43.0</i></td></tr>
+<tr><td align='left'>Red-finned Shiner</td><td align='center'> ...</td><td align='center'>...</td><td align='center'>...</td><td align='center'> 1</td><td align='center'> 2.5<br /><i>5.0</i></td><td align='center'> 2</td><td align='center'> ...</td><td align='center'> 4.7<br /><i>2.3</i></td></tr>
+<tr><td align='left'>Blunt-faced Shiner</td><td align='center'> ...</td><td align='center'>...</td><td align='center'>&mdash;</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td></tr>
+<tr><td align='left'>Red Shiner</td><td align='center'>21<br /><i>6</i></td><td align='center'> 15</td><td align='center'> 8<br /><i>4</i></td><td align='center'> 19<br /><i>22</i></td><td align='center'> 16.0<br /><i>69.0</i></td><td align='center'> 15<br /><i>22</i></td><td align='center'> 27<br /><i>1119</i></td><td align='center'> 20.0<br /><i>102.0</i></td></tr>
+<tr><td align='left'>Mimic Shiner</td><td align='center'> ...</td><td align='center'>...</td><td align='center'>...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'>&mdash;</td><td align='center'> ...</td></tr>
+<tr><td align='left'>Ghost Shiner</td><td align='center'> 7.5</td><td align='center'> 1</td><td align='center'>...</td><td align='center'> 1</td><td align='center'> 9.5<br /><i>96.5</i></td><td align='center'> 2</td><td align='center'> 17<br /><i>54</i></td><td align='center'> 11.7<br /><i>76</i></td></tr>
+<tr><td align='left'>Sand Shiner</td><td align='center'> &mdash;</td><td align='center'> 7</td><td align='center'>...</td><td align='center'> 8<br /><i>2</i></td><td align='center'> 1.5</td><td align='center'> 3</td><td align='center'> ...</td><td align='center'> 1<br /><i>.3</i></td></tr>
+<tr><td align='left'>Mountain Minnow</td><td align='center'> ...</td><td align='center'>...</td><td align='center'>...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> 12<br /><i>25</i></td><td align='center'> 9.3<br /><i>13.6</i></td></tr>
+<tr><td align='left'>Blunt-nosed Minnow</td><td align='center'> &mdash;</td><td align='center'> 2</td><td align='center'>...</td><td align='center'> 8</td><td align='center'> 1.0<br /><i>.5</i></td><td align='center'> 1</td><td align='center'> 6<br /><i>4</i></td><td align='center'> 14.0<br /><i>7.6</i></td></tr>
+<tr><td align='left'>Parrot Minnow</td><td align='center'> ...</td><td align='center'>...</td><td align='center'>...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> 12<br /><i>6</i></td><td align='center'> 19.0<br /><i>28.6</i></td></tr>
+<tr><td align='left'>Fat-headed Minnow</td><td align='center'>10.5<br /><i>1.5</i></td><td align='center'> 4</td><td align='center'> 5<br /><i>2</i></td><td align='center'> 7<br /><i>1</i></td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> 8.3<br /><i>3.0</i></td></tr>
+<tr><td align='left'>Stoneroller</td><td align='center'> &mdash;</td><td align='center'> 6</td><td align='center'>&mdash;</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> &mdash;</td><td align='center'> 2.3<br /><i>1.0</i></td></tr>
+<tr><td align='left'>Black Bullhead</td><td align='center'> ...</td><td align='center'>...</td><td align='center'>...</td><td align='center'> ...</td><td align='center'> .5</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td></tr>
+<tr><td align='left'>Channel Catfish</td><td align='center'> 4.5<br /><i>1.5</i></td><td align='center'> 2</td><td align='center'> 1<br /><i>1</i></td><td align='center'> 13<br /><i>7</i></td><td align='center'> 5.0<br /><i>1.0</i></td><td align='center'> 10<br /><i>6</i></td><td align='center'> 12<br /><i>5</i></td><td align='center'> 6.3<br /><i>41.6</i></td></tr>
+<tr><td align='left'>Flathead</td><td align='center'> &mdash;</td><td align='center'> 1</td><td align='center'>&mdash;</td><td align='center'> &mdash;</td><td align='center'> 1.0</td><td align='center'> ...</td><td align='center'> &mdash;</td><td align='center'> .3</td></tr>
+<tr><td align='left'>Stonecat</td><td align='center'> ...</td><td align='center'>...</td><td align='center'>&mdash;</td><td align='center'> ...</td><td align='center'> 6.0<br /><i>.5</i></td><td align='center'> ...</td><td align='center'> &mdash;</td><td align='center'> 1.0</td></tr>
+<tr><td align='left'>Neosho Madtom</td><td align='center'> ...</td><td align='center'>...</td><td align='center'>...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> 3.3<br /><i>2.0</i></td></tr>
+<tr><td align='left'>Brook Silversides</td><td align='center'> ...</td><td align='center'>...</td><td align='center'>...</td><td align='center'> ...</td><td align='center'> .5<br /><i>1.0</i></td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> 1.7</td></tr>
+<tr><td align='left'>Black-striped Topminnow</td><td align='center'> ...</td><td align='center'>...</td><td align='center'>...</td><td align='center'> ...</td><td align='center'>1.0<br /><i>1.0</i></td><td align='center'>2</td><td align='center'>...</td><td align='center'>1.0<br /><i>.7</i></td></tr>
+<tr><td align='left'>Spotted Bass</td><td align='center'> ...</td><td align='center'>...</td><td align='center'>...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> 2</td><td align='center'> 3.7<br /><i>.3</i></td></tr>
+<tr><td align='left'>Largemouth</td><td align='center'> ...</td><td align='center'>...</td><td align='center'> 1<br /><i>1</i></td><td align='center'> 3<br /><i>1</i></td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> 1<br /><i>2</i></td><td align='center'> ...</td></tr>
+<tr><td align='left'>Green Sunfish</td><td align='center'> 9<br /><i>7.5</i></td><td align='center'> 8</td><td align='center'> 9<br /><i>3</i></td><td align='center'> 17<br /><i>3</i></td><td align='center'> 11.0<br /><i>12.0</i></td><td align='center'> 3<br /><i>1</i></td><td align='center'> 7<br /><i>2</i></td><td align='center'> 10.0<br /><i>3.6</i></td></tr>
+<tr><td align='left'>Long-eared Sunfish</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> .5</td><td align='center'> ...</td><td align='center'> 6</td><td align='center'> 4.3<br /><i>.7</i></td></tr>
+<tr><td align='left'>Orange-spotted Sunfish</td><td align='center'> 4.5<br /><i>6</i></td><td align='center'> &mdash;</td><td align='center'>2<br /><i>4</i></td><td align='center'>3</td><td align='center'>2.5</td><td align='center'>...</td><td align='center'>12<br /><i>5</i></td><td align='center'>12.0<br /><i>5.0</i></td></tr>
+<tr><td align='left'>Bluegill</td><td align='center'> 1.5</td><td align='center'> 1</td><td align='center'> ...</td><td align='center'> 6<br /><i>1</i></td><td align='center'> 3.5</td><td align='center'> 1</td><td align='center'> 1</td><td align='center'> .3<br /><i>.3</i></td></tr>
+<tr><td align='left'>White Crappie</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> 4<br /><i>7</i></td><td align='center'> 4</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td></tr>
+<tr><td align='left'>Logperch</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> 1</td><td align='center'> .3<br /><i>.7</i></td></tr>
+<tr><td align='left'>Slender-headed Darter</td><td align='center'> &mdash;</td><td align='center'>13</td><td align='center'> ...</td><td align='center'>2</td><td align='center'>6.5<br /><i>15.0</i></td><td align='center'>3<br /><i>1</i></td><td align='center'>1</td><td align='center'> 8.3<br /><i>3.0</i></td></tr>
+<tr><td align='left'>Orange-throated Darter</td><td align='center'> &mdash;</td><td align='center'>7</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'>...</td><td align='center'>...</td><td align='center'>1</td><td align='center'> &mdash;</td></tr>
+<tr><td align='left'>Seining units</td><td align='center'> &#8532;</td><td align='center'> 1</td><td align='center'> 1</td><td align='center'> 1</td><td align='center'> 2</td><td align='center'> 1</td><td align='center'> 1</td><td align='center'> 3</td></tr>
+</table></div>
+<p><span class='pagenum'><a name="Page_405" id="Page_405">[Pg 405]</a></span></p>
+
+
+<hr style="width: 65%;" />
+<h2>FISH-FAUNA OF THE UPPER NEOSHO RIVER</h2>
+
+
+<p>Collections at the upper Neosho station were more intensive than
+at any other station, especially in 1959. Rotenone was used in
+the summers of 1957, 1958 and 1959, to obtain large samples of
+the population in one section of the stream. In September, 1959,
+the shocker was used in other sections in order to estimate populations
+in particular pools and riffles, to measure variability in the
+fauna between areas having slightly different habitat, and to record
+movement of marked individuals in a short section of the stream.</p>
+
+
+<h3>Description of Study-areas</h3>
+
+<p>Two sections of the stream, each about one-half mile long (See p. 366),
+were studied. Additional description of particular areas is presented below.
+Area 1 and the pools in which rotenone was used are on the Bosch Farm approximately
+two miles upstream from the White Farm where Areas 2, 3, 4,
+5, 6 and 7 are situated.</p>
+
+<p>Area 1 has a length of 210 feet, an average width of four feet, and a
+maximum depth of two feet. The upper half is a swift, rubble riffle four inches<span class='pagenum'><a name="Page_406" id="Page_406">[Pg 406]</a></span>
+in average depth; the lower half is one and one-half feet in average depth and
+has a slow current (Pl. 29, Fig. 1).</p>
+
+<p>Area 3 has a length of 186 feet, an average width of 34 feet, and a maximum
+depth of two and one-half feet. This area includes a shallow riffle at both
+upstream and downstream ends of a pool 73 feet long and approximately
+one foot in average depth (Pl. 29, Fig. 2).</p>
+
+<p>Area 5 has a length of 250 feet, an average width of 50 feet, and a maximum
+depth of two and one-half feet. This is a shallow, quiet pool over rubble
+and bedrock bottom except for a small area of mud bottom (backwater) above
+the point where a short riffle drains into this pool from Area 6 (Pl. 30, Fig. 1).</p>
+
+<p>Area 6 has a length of 200 feet, an average width of 50 feet, and a maximum
+depth of one and one-half feet. This is a shallow, quiet pool over bedrock
+bottom, except for a small area of mud bottom at one side of the upper end
+of the pool. A short, steep, rubble-riffle is included in this area at the upstream
+end (Pl. 30, Fig. 2).</p>
+
+<p>Areas 2, 4, and 7 resemble at least one of the areas described above but
+were sampled less intensively. Data from areas 2, 4, and 7 are included in
+discussion of the total fauna of the upper Neosho river but are excluded from
+the discussion of representative parts of that fauna.</p>
+
+
+<h3>Methods</h3>
+
+<h4><i>Rotenone</i></h4>
+
+<p>Rotenone was applied to an intermittent pool in 1957. In 1958 and 1959
+rotenone was applied to the upper end of a pool and mixed by agitating the
+water. The concentration in the pool was maintained by slowly introducing
+part of the rotenone into the riffle at the head of the pool. This was the most
+effective means of obtaining a large sample of fish from the deeper, slowly flowing
+water of the upper Neosho. Pools in which rotenone was used had areas of
+as much as one-half acre and depths in excess of six feet.</p>
+
+
+<h4><i>Shocker</i></h4>
+
+<p>In 1959 the shocker was used extensively in several areas of the upper
+Neosho. Because of the small size of the stream, "tennis-racket" electrodes
+were used effectively by two men&mdash;one carrying the electrodes and one picking
+up fish and placing them in a live-box. In fast water, many fish floated into a
+seine placed across the lower end of the area. A large segment of the population
+was collected in this manner. Areas in which fish were collected by means
+of the shocker included riffles, and pools having flowing water no more than
+three feet in maximum depth. The bottom-type was usually gravel, rubble
+or bedrock, but a small amount of mud bottom was present in many pools.</p>
+
+<p>Because of the necessity of wading, we could not use the shocker effectively
+in water more than three feet deep. In addition, turbidity of the water prevented
+effective collection of stunned fish in the deeper pools. Therefore,
+rotenone was more effective in deep water than was the shocker. In shallow,
+swift riffles and pools, the shocker yielded more reliable samples than did
+rotenone, because of difficulty in maintaining adequate concentrations of
+rotenone where flow was swift.</p>
+<p><span class='pagenum'><a name="Page_407" id="Page_407">[Pg 407]</a></span></p>
+
+<p>The relative abundance of each species in the upper Neosho was calculated
+from cumulative results obtained by use of the shocker in seven areas in 1959.
+Population estimates were made by collecting fish with the shocker, marking
+them by clipping fins or staining them in Bismark Brown Y at a concentration
+of 1:20,000 (Deacon, 1961), returning them to the stream, and making a second
+collection three hours (Areas 1 and 3) or 24 hours (Area 6) later. The
+same area was shocked again within two to eight days. Collections throughout
+the one-half-mile section yielded information on movement.</p>
+
+
+<h3>Changes in the Fauna at the Upper Neosho Station,
+1957 Through 1959.</h3>
+
+<p>The following discussion is based principally on collections made
+with rotenone in 1957, 1958 and 1959 (Table 12). Other supplementary
+data aid in understanding the changes that occurred after
+the resumption of normal flow at the upper Neosho station.</p>
+
+<p>The population in 1957 was strongly dominated by black bullhead
+and young-of-the-year channel catfish. Other common species
+were long-eared sunfish, red shiner, yellow bullhead, orange-spotted
+sunfish and green sunfish. This fauna, with the exception of young-of-the-year
+individuals, was a fauna produced during the years of
+drought. Deacon and Metcalf (1961:318-321) found a similar fauna
+in streams of the Wakarusa River Basin that had been seriously
+affected by drought.</p>
+
+<p>The black bullheads taken in 1957 were predominately yearlings.
+It is likely that by 1956 the total fish population in the upper Neosho
+had been decimated by drought. The ponded conditions prevalent
+in that year were conducive to production and survival of young
+black bullheads. Fig. 3 shows that this dominant 1956 year-class
+reached an average length of approximately 6.5 inches by August,
+1959.</p>
+
+<p>Reproduction by black bullheads was limited in 1957, 1958, and
+1959, and slight reduction in relative abundance occurred from
+1957 to 1958. The relative abundance in 1959 remained nearly
+stable. If stream-flow remains essentially continuous for the next
+few years, the number of black bullheads probably will decline
+as individuals of the 1956 year-class reach the end of their life-span.</p>
+
+<p>Reference has been made to the large hatch of channel catfish
+in 1957, in a discussion of that species. Conditions for survival of
+young channel catfish at the upper Neosho station in 1957 were
+good because there was continuous flow over many gravel-rubble
+riffles, which were largely unoccupied by other fish, in the spring
+and summer of 1957.<span class='pagenum'><a name="Page_408" id="Page_408">[Pg 408]</a></span></p>
+
+<h4><span class="smcap">Table 12. Percentage-composition of the Fish-fauna at the Upper
+Neosho Station in 1957, 1958 and 1959, as Computed from Collections
+Obtained by Using Rotenone.</span></h4>
+
+<div class='center'>
+<table border="1" cellpadding="4" cellspacing="0" summary="">
+<tr><th align='center'><span class="smcap">Species</span></th><th align='center'> 1957</th><th align='center'> 1958</th><th align='center'> 1959</th></tr>
+<tr><td align='left'>Big-mouthed Buffalo...............</td><td align='center'>........</td><td align='center'> T<a name="FNanchor_D_4" id="FNanchor_D_4"></a><a href="#Footnote_D_4" class="fnanchor">[D]</a></td><td align='center'> T</td></tr>
+<tr><td align='left'>Small-mouthed Buffalo.............</td><td align='center'>........</td><td align='center'>.......</td><td align='center'> T</td></tr>
+<tr><td align='left'>River Carpsucker..................</td><td align='center'> T</td><td align='center'> 0.8</td><td align='center'> 1.8</td></tr>
+<tr><td align='left'>Golden Redhorse...................</td><td align='center'> T</td><td align='center'> 3.0</td><td align='center'> 5.7</td></tr>
+<tr><td align='left'>Creek Chub........................</td><td align='center'>........</td><td align='center'> T</td><td align='center'> 0.8</td></tr>
+<tr><td align='left'>Red-finned Shiner.................</td><td align='center'> 1.3</td><td align='center'> 3.0</td><td align='center'> 0.8</td></tr>
+<tr><td align='left'>Red Shiner........................</td><td align='center'> 6.5</td><td align='center'> 13.1</td><td align='center'> 12.1</td></tr>
+<tr><td align='left'>Ghost Shiner......................</td><td align='center'> T</td><td align='center'> T</td><td align='center'>........</td></tr>
+<tr><td align='left'>Blunt-nosed Minnow................</td><td align='center'> T</td><td align='center'> T</td><td align='center'> T</td></tr>
+<tr><td align='left'>Fat-headed Minnow.................</td><td align='center'> T</td><td align='center'> T</td><td align='center'> 1.4</td></tr>
+<tr><td align='left'>Stoneroller.......................</td><td align='center'> 0.8</td><td align='center'> 1.5</td><td align='center'> 3.5</td></tr>
+<tr><td align='left'>Black Bullhead....................</td><td align='center'> 40.8</td><td align='center'> 30.5</td><td align='center'> 32.0</td></tr>
+<tr><td align='left'>Yellow Bullhead...................</td><td align='center'> 5.3</td><td align='center'> 8.8</td><td align='center'> 2.5</td></tr>
+<tr><td align='left'>Channel Catfish...................</td><td align='center'> 28.4</td><td align='center'> 15.5</td><td align='center'> 18.5</td></tr>
+<tr><td align='left'>Flathead..........................</td><td align='center'> T</td><td align='center'> T</td><td align='center'> T</td></tr>
+<tr><td align='left'>Stonecat..........................</td><td align='center'> T</td><td align='center'> T</td><td align='center'> 1.4</td></tr>
+<tr><td align='left'>Spotted Bass......................</td><td align='center'> T</td><td align='center'> T</td><td align='center'> 0.8</td></tr>
+<tr><td align='left'>Largemouth........................</td><td align='center'> T</td><td align='center'> T</td><td align='center'> T</td></tr>
+<tr><td align='left'>Green Sunfish.....................</td><td align='center'> 3.1</td><td align='center'> 6.8</td><td align='center'> 6.4</td></tr>
+<tr><td align='left'>Long-eared Sunfish................</td><td align='center'> 8.8</td><td align='center'> 3.7</td><td align='center'> 1.9</td></tr>
+<tr><td align='left'>Orange-spotted Sunfish............</td><td align='center'> 3.1</td><td align='center'> 8.9</td><td align='center'> 2.5</td></tr>
+<tr><td align='left'>Bluegill..........................</td><td align='center'> T</td><td align='center'> T</td><td align='center'> T</td></tr>
+<tr><td align='left'>White Crappie.....................</td><td align='center'> T</td><td align='center'>.......</td><td align='center'> T</td></tr>
+<tr><td align='left'>Logperch.........................</td><td align='center'> T</td><td align='center'> 2.1</td><td align='center'> 0.8</td></tr>
+<tr><td align='left'>Slender-headed Darter.............</td><td align='center'> 0.6</td><td align='center'> 0.6</td><td align='center'> 3.1</td></tr>
+<tr><td align='left'>Orange-throated Darter............</td><td align='center'>........</td><td align='center'> T</td><td align='center'> 2.5</td></tr>
+<tr><td align='left'>Total number of fish..............</td><td align='center'> 786</td><td align='center'> 965</td><td align='center'> 513</td></tr>
+<tr><td align='left'>Size of sample-area in acre-feet..</td><td align='center'> .002</td><td align='center'> .33</td><td align='center'> .33</td></tr>
+</table></div>
+
+<p>Channel catfish also showed a slight decline in relative abundance
+after 1957, resulting from mortality in the 1957 year-class. With
+continuous flow, channel catfish will probably remain abundant,
+although annual reproductive success probably will be less than in
+1957.</p>
+
+<p>The big-mouthed buffalo, small-mouthed buffalo, creek chub
+and orange-throated darter were not taken in 1957, but appeared
+in collections in 1958. The river carpsucker, golden redhorse, red
+shiner, fat-headed minnow, stoneroller, stonecat, and slender-headed
+darter also increased in abundance between 1957 and 1959. The
+increased abundance of all these species in 1958 and 1959 resulted
+in a more diversified fauna, with lesser predominance by any single
+species, than in 1957 (Table 12); this change is related to the increased,
+permanent flow in 1958 and 1959.<span class='pagenum'><a name="Page_409" id="Page_409">[Pg 409]</a></span></p>
+
+<h3>Local Variability of the Fauna in Different Areas at the
+Upper Neosho Station, 1959</h3>
+
+<p>The shallow areas in which the shocker was used in 1959 are
+the prevalent habitat in the upper Neosho River. The relative
+abundance of fishes found in these areas is presented in Table 13.
+The red shiner was most abundant and was followed (in decreasing
+order) by long-eared sunfish, minnows of the genus <i>Pimephales</i>,
+green sunfish, red-finned shiner, channel catfish, and stoneroller.
+Other species combined comprise less than ten per cent of the
+population.</p>
+
+<p>Table 13 also shows the variability in relative abundance of different
+species among areas that have the same general kind of
+habitat. The species composition is similar in all areas. The sample
+obtained with rotenone in 1959 is included in Table 13 to show
+differences in the fauna of deep, slowly flowing areas and shallower
+areas with stronger current. The differences in relative abundance
+indicate the kind of habitat that each species is able to utilize most
+fully.</p>
+
+<p>Golden redhorse and black bullhead were most abundant in
+large, deep, quiet pools (5.7 per cent and 32 per cent of the total
+population) and were more abundant in Area 5 (3.2 per cent and
+7.3 per cent respectively) than in any of the other shallow areas.
+Area 5 has greater average depth, more mud bottom, and less riffle
+area than areas 1, 3 and 6.</p>
+
+<p>The golden redhorse and black bullhead have specific habitat
+preferences that are not evident in the above discussion. My collections
+indicate that the golden redhorse prefers deep water having
+some current, whereas the black bullhead prefers little or no current.</p>
+
+<p>Species that prevailed in or near riffles were: creek chub, sucker-mouthed
+minnow, stoneroller, channel catfish (young-of-the-year
+only), flathead (young-of-the-year only), stonecat, slender-headed
+darter, and orange-throated darter. Of these species, the sucker-mouthed
+minnow, slender-headed darter and orange-throated darter
+reached their greatest abundance at Area 3, where the riffle is
+shallow, slow, and has a bottom composed of flat limestone rubble.</p>
+
+<p>The riffle at Area 1 is, for the most part, deeper and faster than
+at Area 3 and has a bottom composed of gravel and small rocks.
+The creek chub, stoneroller, channel catfish (young-of-the-year),
+flathead (young-of-the-year), and stonecat reached their greatest
+<span class='pagenum'><a name="Page_410" id="Page_410">[Pg 410]</a></span>
+abundance in Area 1. All species that showed a preference for
+riffles were rare or absent in Area 5 where no riffle-habitat was
+sampled. The riffle-dwelling species that were present in collections
+made with rotenone in the deeper pools were taken from the riffle
+into which rotenone was introduced.</p>
+
+
+
+<h4><span class="smcap">Table 13. Relative Abundance of Fish (Per Cent of Total Population
+Made Up by Each Species), in the First Collection Made in Each of
+Four Different Shallow Areas by Means of the Shocker, is Shown in
+Vertical Columns 1-4. Results of the Use of Rotenone in a Fifth,
+Deeper Area are Shown in Column 5. Column 6 Combines Data from
+All Collections Made by Using the Shocker in Seven Shallow Areas
+(Including Columns 1-4).</span></h4>
+
+
+<div class='center'>
+<table border="1" cellpadding="4" cellspacing="0" summary="">
+<tr><th>&nbsp;</th><th>Area 1</th><th>Area 3</th><th>Area 5</th><th>Area 6</th><th>Rotenone</th><th>All areas</th></tr>
+<tr><td align='left'>Big-mouthed Buffalo</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> T<a name="FNanchor_E_5" id="FNanchor_E_5"></a><a href="#Footnote_E_5" class="fnanchor">[E]</a></td><td align='center'> ....</td><td align='center'> T</td><td align='center'> T</td></tr>
+<tr><td align='left'>Small-mouthed Buffalo</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> .6</td><td align='center'> ....</td><td align='center'> T</td><td align='center'> T</td></tr>
+<tr><td align='left'>River Carpsucker</td><td align='center'> ....</td><td align='center'> T</td><td align='center'> 10.6</td><td align='center'> T</td><td align='center'> 1.8</td><td align='center'> .8</td></tr>
+<tr><td align='left'>River Carpsucker (yy)<a name="FNanchor_F_6" id="FNanchor_F_6"></a><a href="#Footnote_F_6" class="fnanchor">[F]</a></td><td align='center'> ....</td><td align='center'> .8</td><td align='center'> T</td><td align='center'> 3.7</td><td align='center'> ....</td><td align='center'> 1.0</td></tr>
+<tr><td align='left'>Short-headed Redhorse</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> .6</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> T</td></tr>
+<tr><td align='left'>Golden Redhorse</td><td align='center'> .8</td><td align='center'> 1.0</td><td align='center'> 3.2</td><td align='center'> ....</td><td align='center'> 5.7</td><td align='center'> T</td></tr>
+<tr><td align='left'>Carp</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> T</td></tr>
+<tr><td align='left'>Golden Shiner</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> T</td></tr>
+<tr><td align='left'>Creek Chub</td><td align='center'> 1.6</td><td align='center'> T</td><td align='center'> T</td><td align='center'> T</td><td align='center'> .8</td><td align='center'> T</td></tr>
+<tr><td align='left'>Sucker-mouthed Minnow</td><td align='center'> ....</td><td align='center'> 11.2</td><td align='center'> T</td><td align='center'> 3.4</td><td align='center'> ....</td><td align='center'> 1.4</td></tr>
+<tr><td align='left'>Red-finned Shiner</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> 4.0</td><td align='center'> .8</td><td align='center'> 8.1</td></tr>
+<tr><td align='left'>Red Shiner</td><td align='center'> 18.2</td><td align='center'> 24.0</td><td align='center'> 7.8</td><td align='center'> 20.1</td><td align='center'> 12.1</td><td align='center'> 35.9</td></tr>
+<tr><td align='left'>Sand Shiner</td><td align='center'> ....</td><td align='center'> 5.2</td><td align='center'> ....</td><td align='center'> 1.1</td><td align='center'> ....</td><td align='center'> T</td></tr>
+<tr><td align='left'>Pimephales (yy)</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> 6.7</td></tr>
+<tr><td align='left'>Mountain Minnow</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> T</td><td align='center'> ....</td><td align='center'> T</td></tr>
+<tr><td align='left'>Blunt-nosed Minnow</td><td align='center'> ....</td><td align='center'> .8</td><td align='center'> 4.1</td><td align='center'> 11.7</td><td align='center'> T</td><td align='center'> 3.4</td></tr>
+<tr><td align='left'>Parrot Minnow</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> T</td></tr>
+<tr><td align='left'>Fat-headed Minnow</td><td align='center'> T</td><td align='center'> T</td><td align='center'> 3.4</td><td align='center'> 12.1</td><td align='center'> 1.4</td><td align='center'> 2.6</td></tr>
+<tr><td align='left'>Stoneroller</td><td align='center'> 27.7</td><td align='center'> 17.4</td><td align='center'> .6</td><td align='center'> 5.8</td><td align='center'> 3.5</td><td align='center'> 5.1</td></tr>
+<tr><td align='left'>Black Bullhead</td><td align='center'> 2.1</td><td align='center'> T</td><td align='center'> 7.3</td><td align='center'> T</td><td align='center'> 32.0</td><td align='center'> .6</td></tr>
+<tr><td align='left'>Yellow Bullhead</td><td align='center'> T</td><td align='center'> T</td><td align='center'> ....</td><td align='center'> T</td><td align='center'> 2.5</td><td align='center'> T</td></tr>
+<tr><td align='left'>Channel Catfish (j)<a name="FNanchor_G_7" id="FNanchor_G_7"></a><a href="#Footnote_G_7" class="fnanchor">[G]</a></td><td align='center'> 5.8</td><td align='center'> 7.6</td><td align='center'> 41.3</td><td align='center'> T</td><td align='center'> 14.6</td><td align='center'> 4.2</td></tr>
+<tr><td align='left'>Channel Catfish (yy)</td><td align='center'> 9.5</td><td align='center'> 7.0</td><td align='center'> T</td><td align='center'> 4.3</td><td align='center'> 3.9</td><td align='center'> 2.5</td></tr>
+<tr><td align='left'>Flathead (j)</td><td align='center'> ....</td><td align='center'> .8</td><td align='center'> 2.1</td><td align='center'> T</td><td align='center'> T</td><td align='center'> T</td></tr>
+<tr><td align='left'>Flathead (yy)</td><td align='center'> 1.6</td><td align='center'> T</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> T</td></tr>
+<tr><td align='left'>Stonecat</td><td align='center'> 10.3</td><td align='center'> 1.4</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> 1.4</td><td align='center'> .7</td></tr>
+<tr><td align='left'>Spotted Bass</td><td align='center'> ....</td><td align='center'> T</td><td align='center'> .6</td><td align='center'> T</td><td align='center'> .8</td><td align='center'> T</td></tr>
+<tr><td align='left'>Largemouth</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> T</td><td align='center'> ....</td><td align='center'> T</td><td align='center'> T</td></tr>
+<tr><td align='left'>Green Sunfish</td><td align='center'> 11.2</td><td align='center'> 3.5</td><td align='center'> 5.9</td><td align='center'> 12.2</td><td align='center'> 6.4</td><td align='center'> 10.1</td></tr>
+<tr><td align='left'>Long-eared Sunfish</td><td align='center'> 5.4</td><td align='center'> 6.0</td><td align='center'> 5.1</td><td align='center'> 14.6</td><td align='center'> 1.9</td><td align='center'> 12.8</td></tr>
+<tr><td align='left'>Orange-spotted Sunfish</td><td align='center'> T</td><td align='center'> T</td><td align='center'> 1.4</td><td align='center'> 1.8</td><td align='center'> 2.5</td><td align='center'> .5</td></tr>
+<tr><td align='left'>Bluegill</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> 1.0</td><td align='center'> ....</td><td align='center'> T</td><td align='center'> T</td></tr>
+<tr><td align='left'>White Crappie</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> T</td><td align='center'> T</td></tr>
+<tr><td align='left'>Logperch</td><td align='center'> T</td><td align='center'> T</td><td align='center'> T</td><td align='center'> T</td><td align='center'> .8</td><td align='center'> T</td></tr>
+<tr><td align='left'>Slender-headed Darter</td><td align='center'> T</td><td align='center'> 11.4</td><td align='center'> 1.1</td><td align='center'> 1.6</td><td align='center'> 3.1</td><td align='center'> 1.3</td></tr>
+<tr><td align='left'>Orange-throated Darter</td><td align='center'> .8</td><td align='center'> 1.8</td><td align='center'> T</td><td align='center'> .5</td><td align='center'> 2.5</td><td align='center'> T</td></tr>
+<tr><td align='left'>Freshwater Drum</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> T</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> T</td></tr>
+<tr><td align='left'>Total number of fish</td><td align='center'> 242</td><td align='center'> 484</td><td align='center'> 727</td><td align='center'> 924</td><td align='center'> 513</td><td align='center'> 17,796</td></tr>
+<tr><td align='left'>Area in square feet</td><td align='center'> 840</td><td align='center'> 6324</td><td align='center'> 12500</td><td align='center'> 10000</td><td align='center'> ....</td><td align='center'> ....</td></tr>
+<tr><td align='left'>Volume</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> ....</td><td align='center'> &#8531; acre-foot</td><td>&nbsp;</td></tr>
+</table></div>
+
+<p><span class='pagenum'><a name="Page_411" id="Page_411">[Pg 411]</a></span></p>
+
+<p>The river carpsucker, blunt-nosed minnow, fat-headed minnow,
+channel catfish (yearlings and two-year-olds), flathead (yearlings
+and two-year-olds), green sunfish and long-eared sunfish showed a
+preference for shallow, quiet water. All of these species were
+more common in collections from Areas 5 and 6 than in collections
+from other areas.</p>
+
+
+<h3>Temporal Variability of Fauna in the Same Areas</h3>
+
+<p>The variability of the population in successive collections from
+the same area is presented in Table 14. Supplementary data obtained
+in Areas 2, 4 and 7 support conclusions discussed below
+for Areas 1, 3 and 6. The abundance of some species maintained
+a constant level, whereas that of others varied.</p>
+
+<h4><span class="smcap">Table 14. Numbers of Individuals Collected by Means of the Shocker
+at Varying Intervals in September, 1959. The Number at the Top of
+Each Column is the Date When the Collection was Made.</span></h4>
+
+<div class='center'>
+<table border="1" cellpadding="4" cellspacing="0" summary="">
+<tr><th rowspan='2'><span class="smcap">Species</span></th><th colspan='3'>Area 1</th><th colspan='3'>Area 3</th><th colspan='3'>Area 6</th></tr>
+<tr><th>3</th><th>4</th><th>8</th><th>9</th><th>10</th><th>15</th><th>16</th><th>18</th><th>20</th></tr>
+<tr><td align='left'>Golden Redhorse</td><td align='center'> 2</td><td align='center'> 2</td><td align='center'> ...</td><td align='center'> 5</td><td align='center'> 5</td><td align='center'> 2</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> 3</td></tr>
+<tr><td align='left'>Creek Chub</td><td align='center'> 4</td><td align='center'> 3</td><td align='center'> 7</td><td align='center'> 1</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> 1</td><td align='center'> 2</td><td align='center'> ...</td></tr>
+<tr><td align='left'>Sucker-mouthed Minnow</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> 54</td><td align='center'> 42</td><td align='center'> 25</td><td align='center'> 31</td><td align='center'> 7</td><td align='center'> 6</td></tr>
+<tr><td align='left'>Red-finned Shiner</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> 1</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> 4</td><td align='center'> 31</td><td align='center'> 13</td><td align='center'> 4</td></tr>
+<tr><td align='left'>Red Shiner</td><td align='center'> 44</td><td align='center'> 7</td><td align='center'> 211</td><td align='center'> 117</td><td align='center'> 170</td><td align='center'> 438</td><td align='center'> 186</td><td align='center'> 209</td><td align='center'> 62</td></tr>
+<tr><td align='left'>Blunt-nosed Minnow</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> 4</td><td align='center'> 10</td><td align='center'> 19</td><td align='center'> 108</td><td align='center'> 91</td><td align='center'> 13</td></tr>
+<tr><td align='left'>Fat-headed Minnow</td><td align='center'> 1</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> 1</td><td align='center'> 2</td><td align='center'> 3</td><td align='center'> 112</td><td align='center'> 156</td><td align='center'> 48</td></tr>
+<tr><td align='left'>Stoneroller</td><td align='center'> 67</td><td align='center'> 39</td><td align='center'> 49</td><td align='center'> 84</td><td align='center'> 107</td><td align='center'> 55</td><td align='center'> 54</td><td align='center'> 67</td><td align='center'> 22</td></tr>
+<tr><td align='left'>Black Bullhead</td><td align='center'> 5</td><td align='center'> ...</td><td align='center'> 1</td><td align='center'> 2</td><td align='center'> 1</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> 3</td><td align='center'> 7</td></tr>
+<tr><td align='left'>Yellow Bullhead</td><td align='center'> 1</td><td align='center'> 1</td><td align='center'> ...</td><td align='center'> 2</td><td align='center'> 1</td><td align='center'> ...</td><td align='center'> 1</td><td align='center'> ...</td><td align='center'> 3</td></tr>
+<tr><td align='left'>Channel Catfish</td><td align='center'> 14</td><td align='center'> 7</td><td align='center'> ...</td><td align='center'> 36</td><td align='center'> 16</td><td align='center'> ...</td><td align='center'> 3</td><td align='center'> 1</td><td align='center'> 23</td></tr>
+<tr><td align='left'>Channel Catfish(yy)<a name="FNanchor_H_8" id="FNanchor_H_8"></a><a href="#Footnote_H_8" class="fnanchor">[H]</a></td><td align='center'> 23</td><td align='center'> 16</td><td align='center'> 17</td><td align='center'> 34</td><td align='center'> 34</td><td align='center'> 22</td><td align='center'> 40</td><td align='center'> 23</td><td align='center'> 28</td></tr>
+<tr><td align='left'>Flathead</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> 4</td><td align='center'> 8</td><td align='center'> 1</td><td align='center'> 2</td><td align='center'> ...</td><td align='center'> 1</td></tr>
+<tr><td align='left'>Flathead(yy)</td><td align='center'> 4</td><td align='center'> 1</td><td align='center'> 1</td><td align='center'> 2</td><td align='center'> 1</td><td align='center'> 1</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td></tr>
+<tr><td align='left'>Stonecat</td><td align='center'> 25</td><td align='center'> 8</td><td align='center'> 12</td><td align='center'> 7</td><td align='center'> 7</td><td align='center'> 5</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td></tr>
+<tr><td align='left'>Green Sunfish</td><td align='center'> 27</td><td align='center'> 17</td><td align='center'> 12</td><td align='center'> 13</td><td align='center'> 16</td><td align='center'> 17</td><td align='center'> 62</td><td align='center'> 62</td><td align='center'> 74</td></tr>
+<tr><td align='left'>Long-eared Sunfish</td><td align='center'> 13</td><td align='center'> 12</td><td align='center'> 1</td><td align='center'> 6</td><td align='center'> 3</td><td align='center'> 3</td><td align='center'> 10</td><td align='center'> 22</td><td align='center'> 31</td></tr>
+<tr><td align='left'>Logperch</td><td align='center'> 1</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> 2</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td><td align='center'> ...</td></tr>
+<tr><td align='left'>Slender-headed Darter</td><td align='center'> ...</td><td align='center'> 1</td><td align='center'> 2</td><td align='center'> 55</td><td align='center'> 45</td><td align='center'> 23</td><td align='center'> 15</td><td align='center'> 1</td><td align='center'> 1</td></tr>
+<tr><td align='left'>Orange-throated Darter</td><td align='center'> 2</td><td align='center'> 1</td><td align='center'> 2</td><td align='center'> 9</td><td align='center'> 11</td><td align='center'> 8</td><td align='center'> 5</td><td align='center'> ...</td><td align='center'> 1</td></tr>
+<tr><th align='center'>Total</th><th align='center'> 233</th><th align='center'> 115</th><th align='center'> 316</th><th align='center'> 438</th><th align='center'> 480</th><th align='center'> 626</th><th align='center'> 661</th><th align='center'> 657</th><th align='center'> 347</th></tr>
+</table></div>
+
+<p><span class='pagenum'><a name="Page_412" id="Page_412">[Pg 412]</a></span></p>
+<p>Stoneroller, channel catfish (young-of-the-year), green sunfish,
+and long-eared sunfish formed the most stable element of the population,
+in that the numbers of these species varied less in successive
+collections than did numbers of other species.</p>
+
+<p>The number of orange-throated darters remained constant at
+Areas 1 and 3, and the number of stonecats changed little in successive
+collections from Area 3. I suspect that an apparent decline in
+stonecats at Area 1 on September 4 was due to a slow rate of dispersal
+from the point of release (see pages 413, 414).</p>
+
+<p>Some species (sucker-mouthed minnow, red-finned shiner, slender-headed
+darter, and fat-headed minnow) decreased significantly
+in successive samples from the same area because of mortality in
+handling or movement out of the area of initial capture.</p>
+
+<p>The decrease in abundance of the sucker-mouthed minnow may
+have been due to some mobility of the species. Evidence for
+mortality caused by handling was obtained for the red-finned shiner
+and probably accounts for the reduction of this species in Area 6.
+The red-finned shiner is also probably a mobile species. The reduction
+in abundance of the slender-headed darter seems unexplainable
+because no evidence was obtained for either movement or mortality.</p>
+
+<p>Fat-headed minnows also declined markedly in successive collections
+from Area 6, the only area in which the species was common.
+No marked fat-headed minnows were taken outside the
+area of release, indicating low mobility of the species. I cannot
+certainly account for their decline; possibly there was latent mortality
+due to shocking.</p>
+
+<p>The numbers of red shiners, blunt-nosed minnows, and juvenile
+channel catfish varied erratically in successive collections, probably
+as a result of movement. This problem is discussed for all species
+in a later section.</p>
+
+
+<h3>Population-Estimation</h3>
+
+<p>The direct-proportion method was used to estimate fish populations
+in Areas 1, 3 and 6. Reliable results could not be obtained
+for all species because of scarcity, mortality in handling, mobility,
+or other factors.</p>
+
+<p>A high rate of mortality due to handling was observed in Area
+1 for the red shiner and in Area 6 for river carpsucker (young-of-the-year),
+sucker-mouthed minnows, red-finned shiner, red shiner, blunt-nosed
+minnow, and stoneroller. In Area 3, in contrast, there was
+little mortality in the same species during the twelve-hour interval
+that fish were held in traps prior to release as marked individuals.<span class='pagenum'><a name="Page_413" id="Page_413">[Pg 413]</a></span></p>
+
+<p>The following species were common in at least one area, but
+probably are sufficiently mobile (see page 416) to invalidate estimates
+of static populations in small areas: red shiner, red-finned
+shiner, and channel catfish (yearlings and older). Other species
+were rare and are indicated as "T" in Table 13.</p>
+
+<p>Those species for which population-estimates seem warranted
+include: golden redhorse, sucker-mouthed minnow, red shiner,
+sand shiner, fat-headed minnow, stoneroller, stonecat, channel catfish
+(young-of-the-year), green sunfish, long-eared sunfish, slender-headed
+darter, and orange-throated darter. I consider the estimate
+valid if a high percentage of the marked fish is recaptured. Results
+are presented in Table 15, and ordinarily will not be referred to in
+the following discussion of the population in each of the three areas.</p>
+
+<div class="pblockquot"><h4><i>Area 1</i></h4>
+
+<p>The order of abundance at Area 1, in terms of the estimated population
+per 500 square feet, was as follows: stoneroller (47.6), stonecat (29.4),
+channel catfish (young-of-the-year) (20.6), green sunfish (19.4), red shiner
+(18.2), long-eared sunfish (9.4), channel catfish (yearlings and older) (6.5),
+golden redhorse (1.2). Insufficient data make inclusion of other species unreliable.</p>
+
+<p>A comparison of the order of abundance between the estimated total population
+and the percentage composition in the first collection from each area shows
+significant correlations. The percentage-composition of the fish fauna at Area
+1 was calculated as follows: stoneroller (27.7%), red shiner (18.2%), green
+sunfish (11.2%), stonecat (10.3%), channel catfish (young-of-the-year) (9.5%),
+channel catfish (yearlings and older) (5.8%), long-eared sunfish (5.4%), golden
+redhorse (0.8%). It can be seen that the stoneroller, green sunfish, long-eared
+sunfish and golden redhorse follow each other in the same order in both calculations.
+The stonecat is shown to be more common than channel catfish
+(young-of-the-year) in both calculations, but both species appear to be more
+abundant than green sunfish and red shiner in calculations of the total population
+and less abundant in the percentage-composition in the first collection.
+I think that the order of abundance as shown by percentage-composition is the
+more accurate figure for Area 1. The abundance of the red shiner is known
+to have been affected by mortality in collecting. Furthermore, as will be
+shown later, the species is so mobile that its abundance often changes markedly
+in a short time. Therefore, it is not surprising to find the red shiner in widely
+varying positions of relative and absolute abundance. However, the green
+sunfish maintains stable populations and should remain in about the same position
+of abundance in relation to other species (such as the stonecat and channel
+catfish young-of-the-year) that also maintain stable populations. The differences
+in order of abundance obtained by the two methods for green sunfish
+and channel catfish young-of-the-year are not great. However, in the estimation
+of total population the abundance of the stonecat seems significantly
+greater, in relation to other species, than in the calculation of percentage-composition.
+I believe that this difference can be attributed to the relatively<span class='pagenum'><a name="Page_414" id="Page_414">[Pg 414]</a></span>
+low number of marked fish recaptured, which is probably due to a slow rate
+of dispersal from the point of release. Stonecats were released in relatively
+quiet water, and if they remained there they might be missed in subsequent
+collections, because they lack air-bladders and tend to remain on the bottom
+when shocked. Therefore, the calculated total population of the stonecat in
+Area 1 may be too high.</p></div>
+
+<h4><span class="smcap">Table 15. Data Used in Estimating Total Populations, by Direct
+Proportions, in Areas 1, 3, and 6 at the Upper Neosho Stations.</span></h4>
+
+
+<div class='center'>
+<table border="1" cellpadding="4" cellspacing="0" summary="">
+<tr><th rowspan='2'><span class="smcap">Species</span></th><th colspan='3'> Number captured first collection</th><th colspan='3'> Number marked and released</th><th colspan='3'> Number captured second collection</th><th colspan='3'>Number of marked fish recaptured</th><th colspan='3'>Estimated total population</th><th colspan='3'>Percent of marked fish recovered</th><th colspan='3'>Number per 500 square feet</th></tr>
+<tr><th>1</th><th>3</th><th>6</th><th>1</th><th>3</th><th>6</th><th>1</th><th>3</th><th>6</th><th>1</th><th>3</th><th>6</th><th>1</th><th>3</th><th>6</th><th>1</th><th>3</th><th>6</th><th>1</th><th>3</th><th>6</th></tr>
+<tr><td align='left'>Golden Redhorse</td><td align='center'> 2</td><td align='center'> 5</td><td align='center'> 0</td><td align='center'> 2</td><td align='center'> 5</td><td align='center'> 0</td><td align='center'> 2</td><td align='center'> 5</td><td align='center'> 0</td><td align='center'>2</td><td align='center'>5</td><td align='center'>0</td><td align='center'>2</td><td align='center'>5</td><td align='center'>0</td><td align='center'> 100</td><td align='center'> 100</td><td align='center'>&mdash;</td><td align='center'>1.2</td><td align='center'>.4</td><td align='center'>0</td></tr>
+<tr><td align='left'>Sucker-mouthed Minnow</td><td align='center'> 0</td><td align='center'> 54</td><td align='center'> 31</td><td align='center'> 0</td><td align='center'> 51</td><td align='center'> 15</td><td align='center'> 0</td><td align='center'> 42</td><td align='center'> 12</td><td align='center'>0</td><td align='center'>17</td><td align='center'>0</td><td align='center'>0</td><td align='center'> 126</td><td align='center'>&mdash;</td><td align='center'>&mdash;</td><td align='center'>33</td><td align='center'>0</td><td align='center'>0</td><td align='center'> 10.0</td><td align='center'>&mdash;</td></tr>
+<tr><td align='left'>Red Shiner</td><td align='center'> 44</td><td align='center'> 116</td><td align='center'> 186</td><td align='center'> 22</td><td align='center'> 106</td><td align='center'> 86</td><td align='center'> 7</td><td align='center'> 165</td><td align='center'> 202</td><td align='center'>5</td><td align='center'>18</td><td align='center'>14</td><td align='center'>31</td><td align='center'> 972</td><td align='center'> 1284</td><td align='center'>23</td><td align='center'>17</td><td align='center'>11</td><td align='center'> 18.2</td><td align='center'> 77.1</td><td align='center'> 64</td></tr>
+<tr><td align='left'>Sand Shiner</td><td align='center'> 0</td><td align='center'> 25</td><td align='center'> 10</td><td align='center'> 0</td><td align='center'> 25</td><td align='center'> 7</td><td align='center'> 0</td><td align='center'> 35</td><td align='center'> 10</td><td align='center'>&mdash;</td><td align='center'>12</td><td align='center'>1</td><td align='center'>0</td><td align='center'>73</td><td align='center'>&mdash;</td><td align='center'>&mdash;</td><td align='center'>48</td><td align='center'>&mdash;</td><td align='center'>0</td><td align='center'>5.8</td><td align='center'>&mdash;</td></tr>
+<tr><td align='left'>Blunt-nosed Minnow</td><td align='center'> 0</td><td align='center'> 4</td><td align='center'> 108</td><td align='center'> 0</td><td align='center'> 3</td><td align='center'> 28</td><td align='center'> 0</td><td align='center'> 10</td><td align='center'> 91</td><td align='center'>0</td><td align='center'>1</td><td align='center'>8</td><td align='center'>0</td><td align='center'>&mdash;</td><td align='center'>319</td><td align='center'>&mdash;</td><td align='center'>33</td><td align='center'>28</td><td align='center'>0</td><td align='center'>&mdash;</td><td align='center'> 16</td></tr>
+<tr><td align='left'>Fat-headed Minnow</td><td align='center'> 1</td><td align='center'> 1</td><td align='center'> 112</td><td align='center'> 1</td><td align='center'> 1</td><td align='center'> 101</td><td align='center'> 0</td><td align='center'> 2</td><td align='center'> 156</td><td align='center'>0</td><td align='center'>0</td><td align='center'>19</td><td align='center'>&mdash;</td><td align='center'>&mdash;</td><td align='center'>830</td><td align='center'>0</td><td align='center'>0</td><td align='center'>19</td><td align='center'>&mdash;</td><td align='center'>&mdash;</td><td align='center'> 41.5</td></tr>
+<tr><td align='left'>Stoneroller</td><td align='center'> 67</td><td align='center'> 84</td><td align='center'> 54</td><td align='center'> 58</td><td align='center'> 79</td><td align='center'> 33</td><td align='center'> 39</td><td align='center'> 107</td><td align='center'> 67</td><td align='center'>28</td><td align='center'>35</td><td align='center'>8</td><td align='center'>81</td><td align='center'> 242</td><td align='center'>276</td><td align='center'>48</td><td align='center'>44</td><td align='center'>24</td><td align='center'> 47.6</td><td align='center'> 19.2</td><td align='center'> 13.8</td></tr>
+<tr><td align='left'>Channel Catfish (j)<a name="FNanchor_I_9" id="FNanchor_I_9"></a><a href="#Footnote_I_9" class="fnanchor">[I]</a></td><td align='center'> 14</td><td align='center'> 37</td><td align='center'> 3</td><td align='center'> 9</td><td align='center'> 32</td><td align='center'> 3</td><td align='center'> 7</td><td align='center'> 16</td><td align='center'> 1</td><td align='center'>6</td><td align='center'>13</td><td align='center'>0</td><td align='center'>11</td><td align='center'>39</td><td align='center'>&mdash;</td><td align='center'>67</td><td align='center'>41</td><td align='center'>0</td><td align='center'>6.5</td><td align='center'>3.1</td><td align='center'>&mdash;</td></tr>
+<tr><td align='left'>Channel Catfish (yy)<a name="FNanchor_J_10" id="FNanchor_J_10"></a><a href="#Footnote_J_10" class="fnanchor">[J]</a></td><td align='center'> 3</td><td align='center'> 34</td><td align='center'> 40</td><td align='center'> 22</td><td align='center'> 33</td><td align='center'> 39</td><td align='center'> 16</td><td align='center'> 34</td><td align='center'> 23</td><td align='center'>10</td><td align='center'>11</td><td align='center'>1</td><td align='center'>35</td><td align='center'> 102</td><td align='center'>&mdash;</td><td align='center'>45</td><td align='center'>33</td><td align='center'>3</td><td align='center'> 20.6</td><td align='center'>8.1</td><td align='center'>&mdash;</td></tr>
+<tr><td align='left'>Stonecat</td><td align='center'> 25</td><td align='center'> 7</td><td align='center'> 0</td><td align='center'> 25</td><td align='center'> 7</td><td align='center'> 0</td><td align='center'> 8</td><td align='center'> 7</td><td align='center'> 0</td><td align='center'>4</td><td align='center'>1</td><td align='center'>&mdash;</td><td align='center'>50</td><td align='center'>&mdash;</td><td align='center'>0</td><td align='center'>16</td><td align='center'>14</td><td align='center'>&mdash;</td><td align='center'> 29.4</td><td align='center'>&mdash;</td><td align='center'>0</td></tr>
+<tr><td align='left'>Green Sunfish</td><td align='center'> 27</td><td align='center'><a name="FNanchor_K_11" id="FNanchor_K_11"></a><a href="#Footnote_K_11" class="fnanchor">[K]</a>&mdash;</td><td align='center'> 62</td><td align='center'> 27</td><td align='center'> &mdash;</td><td align='center'> 62</td><td align='center'> 17</td><td align='center'> &mdash;</td><td align='center'> 62</td><td align='center'>14</td><td align='center'>&mdash;</td><td align='center'>22</td><td align='center'>33</td><td align='center'>&mdash;</td><td align='center'>175</td><td align='center'>52</td><td align='center'>&mdash;</td><td align='center'>35</td><td align='center'> 19.4</td><td align='center'>&mdash;</td><td align='center'>8.8</td></tr>
+<tr><td align='left'>Long-eared Sunfish</td><td align='center'> 13</td><td align='center'> 6</td><td align='center'> 10</td><td align='center'> 13</td><td align='center'> 6</td><td align='center'> 10</td><td align='center'> 12</td><td align='center'> 3</td><td align='center'> 22</td><td align='center'>10</td><td align='center'>3</td><td align='center'>6</td><td align='center'>16</td><td align='center'>6</td><td align='center'>37</td><td align='center'>76</td><td align='center'>50</td><td align='center'>60</td><td align='center'>9.4</td><td align='center'>.5</td><td align='center'>1.9</td></tr>
+</table></div>
+
+<div class="pblockquot"><h4><i>Area 3</i></h4>
+
+<p>The order of abundance of the species at Area 3, in terms of the estimated
+population per 500 square feet, was as follows: red shiner (77.1), stoneroller
+(19.2), sucker-mouthed minnow (10.0), channel catfish (young-of-the-year)
+(8.1), sand shiner (5.8), channel catfish (yearlings and older) (3.1), long-eared
+sunfish (0.5), golden redhorse (0.4). Insufficient data make inclusion
+of other species unreliable.</p>
+
+<p>For comparison with the estimates of total population, the percentage-composition
+in the first collection gives the following results: red shiner
+(24.0%), stoneroller (17.4%), sucker-mouthed minnow (11.2%), channel catfish
+(yearlings and older) (7.6%), channel catfish (young-of-the-year) (7.0%),<span class='pagenum'><a name="Page_415" id="Page_415">[Pg 415]</a></span>
+long-eared sunfish (6.0%), sand shiner (5.2%), and golden redhorse (1.0%).</p>
+
+<p>For the most part, the species have the same order of abundance in both
+methods of analysis. Those that are apparently out of order are channel catfish
+(yearlings and older) and long-eared sunfish. The first species is mobile
+(excepting young-of-the-year) and commonly fluctuates widely in numbers in
+the same area; the second species was treated differently in that only adults
+were considered in the population-estimation whereas both young and adults
+were considered in calculating percentage-composition. (I found that I could
+not confidently distinguish between young-of-the-year of green sunfish, long-eared
+sunfish and orange-spotted sunfish after staining.)</p>
+
+<h4><i>Area 6</i></h4>
+
+<p>The order of abundance of the species at Area 6, in terms of the estimated
+population per 500 square feet, was as follows: red shiner (64.0), fat-headed
+minnow (41.5), blunt-nosed minnow (16.0), stoneroller (13.8), green sunfish
+(8.8), long-eared sunfish (1.9). Insufficient data make inclusion of other species
+unreliable.</p>
+
+<p>Calculations of percentage-composition give the following results: red shiner
+(20.1%), long-eared sunfish (14.6%), green sunfish (12.2%), fat-headed minnow
+(12.1%), blunt-nosed minnow (11.7%), stoneroller (5.8%). The two species<span class='pagenum'><a name="Page_416" id="Page_416">[Pg 416]</a></span>
+of sunfish form a more significant part of the population in the latter analysis
+because young are included. Only adults were considered in the estimation
+of total population.</p>
+
+<p>The fact that estimates of the total population and the percentage-composition
+agree in most respects lends support to the validity of both methods of
+analysis. It should be re-emphasized that differences in the order of abundance
+in the various areas reflect the ability of each species to utilize each particular
+kind of habitat.</p></div>
+
+
+<h3>Movement of Marked Fish</h3>
+
+<h4><span class="smcap">Table 16. Data on Movement of Marked Fish at the Upper Neosho
+Station, September, 1959.</span></h4>
+
+<div class='center'>
+<table border="1" cellpadding="4" cellspacing="0" summary="">
+<tr><th align='center'><span class="smcap">Species</span></th><th>Number marked</th><th>Number recaptured</th><th>Number moved upstream</th><th>Number moved downstream</th></tr>
+<tr><td align='left'>Golden Redhorse</td><td align='center'> 24</td><td align='center'> 16</td><td align='center'> 0</td><td align='center'> 2</td></tr>
+<tr><td align='left'>Sucker-mouthed Minnow</td><td align='center'> 68</td><td align='center'> 27</td><td align='center'> 7</td><td align='center'> 0</td></tr>
+<tr><td align='left'>Red-finned Shiner</td><td align='center'> 74</td><td align='center'> 0</td><td align='center'> 0</td><td align='center'> 0</td></tr>
+<tr><td align='left'>Red Shiner</td><td align='center'> 1326</td><td align='center'> 152</td><td align='center'> 48</td><td align='center'> 25</td></tr>
+<tr><td align='left'>Blunt-nosed Minnow</td><td align='center'> 136</td><td align='center'> 32</td><td align='center'> 1</td><td align='center'> 10</td></tr>
+<tr><td align='left'>Fat-headed Minnow</td><td align='center'> 151</td><td align='center'> 40</td><td align='center'> 0</td><td align='center'> 0</td></tr>
+<tr><td align='left'>Stoneroller</td><td align='center'> 177</td><td align='center'> 90</td><td align='center'> 1</td><td align='center'> 0</td></tr>
+<tr><td align='left'>Black Bullhead</td><td align='center'> 25</td><td align='center'> 6</td><td align='center'> 2</td><td align='center'> 0</td></tr>
+<tr><td align='left'>Channel Catfish (j)<a name="FNanchor_L_12" id="FNanchor_L_12"></a><a href="#Footnote_L_12" class="fnanchor">[L]</a></td><td align='center'> 294</td><td align='center'> 36</td><td align='center'> 4</td><td align='center'> 7</td></tr>
+<tr><td align='left'>Channel Catfish (yy)<a name="FNanchor_M_13" id="FNanchor_M_13"></a><a href="#Footnote_M_13" class="fnanchor">[M]</a></td><td align='center'> 145</td><td align='center'> 34</td><td align='center'> 2</td><td align='center'> 0</td></tr>
+<tr><td align='left'>Stonecat</td><td align='center'> 33</td><td align='center'> 6</td><td align='center'> 0</td><td align='center'> 0</td></tr>
+<tr><td align='left'>Green Sunfish</td><td align='center'> 124</td><td align='center'> 68</td><td align='center'> 1</td><td align='center'> 0</td></tr>
+<tr><td align='left'>Long-eared Sunfish</td><td align='center'> 33</td><td align='center'> 21</td><td align='center'> 0</td><td align='center'> 0</td></tr>
+<tr><td align='left'>Slender-headed Darter</td><td align='center'> 70</td><td align='center'> 1</td><td align='center'> 0</td><td align='center'> 0</td></tr>
+<tr><td align='left'>Orange-throated Darter</td><td align='center'> 13</td><td align='center'> 0</td><td align='center'> 0</td><td align='center'> 0</td></tr>
+</table></div>
+
+<p>Some measure was gained of the amount of movement exhibited
+by several species of fish. Results are biased in favor of a conclusion
+that a species is sedentary because a large percentage of the
+recaptures were made in collections taken in the same immediate
+area three hours after release of marked fish, the total area checked
+was not large (one mile), and collecting was limited to an eleven-day
+period. Nevertheless, some species were shown to be definitely
+mobile and others exhibited pronounced sedentary tendencies.
+The results of experiments on movement are presented in Table
+16. Marked fish (dyed and fin-clipped) were taken as long as seven
+days after being marked. Only those species in which more than
+ten individuals were marked are included.<span class='pagenum'><a name="Page_417" id="Page_417">[Pg 417]</a></span></p>
+
+<p>Blunt-nosed minnow, red shiner, and channel catfish (yearlings
+and older) are more mobile than other species.</p>
+
+<p>The mobility of channel catfish has been discussed by Muncy
+(1958) and Funk (1957). My records show that of 36 marked
+channel catfish that were recaptured, 11 were taken in areas other
+than the one into which they had been returned. A pronounced
+mobile tendency on the part of the red shiner and blunt-nosed minnow
+is shown by the fact that of 152 marked red shiners recaptured,
+73 had moved from the area of release; and of 32 marked blunt-nosed
+minnows recaptured, 11 had moved from the area of release.
+The fact that the habitat occupied by these species is not precise
+(ranging from swift riffles to quiet pools) supports a conclusion
+that the species are mobile.</p>
+
+<p>The fat-headed minnow, stoneroller, channel catfish (young-of-the-year),
+green sunfish and long-eared sunfish form a sedentary
+element of the population. With the exception of the fat-headed
+minnow, the sedentary group also maintained relatively stable numbers
+in Areas 1, 3 and 6 throughout the study (Table 14). It is
+interesting to note that, in contrast to the mobile group, the species
+forming the sedentary group have rather well-defined habitat preferences.</p>
+
+<p>A third group of species, represented by the red-finned shiner,
+stonecat, slender-headed darter and orange-throated darter, was
+characterized by having a low rate of recapture. I suspect that
+mortality is a factor contributing to the failure to recapture red-finned
+shiners, because in one collection only four of 31 red-finned
+shiners captured were successfully marked and released, in another
+case 70 of 818. The red-finned shiner occurs most often in pools but
+is also taken in other areas, is pelagic, and probably is a mobile
+species.</p>
+
+<p>The stonecat, slender-headed darter and orange-throated darter
+are generally restricted to riffle-habitats, and are probably sedentary.
+The low number of recaptures for these three species probably
+is due either to a slow rate of dispersal from the point of release
+or to latent mortality resulting from shock. Table 14 shows that
+these three species maintain comparatively stable populations, but
+there seems to be a tendency for a reduction in numbers with continued
+collecting, even though all fish captured were returned to
+the stream.</p>
+
+<p>Golden redhorse showed a high rate of recapture. All individuals
+marked were recaptured three hours after release in Areas 1 (two<span class='pagenum'><a name="Page_418" id="Page_418">[Pg 418]</a></span>
+fish) and 3 (five fish). Nine individuals were taken from Area 4
+on 11 September; seven of these were marked and released in the
+next pool downstream (Area 3). On 15 September, two fish were
+retaken in Area 3 and two were retaken in Area 2, the next pool
+downstream. The species was common in Area 5 also where five
+of eight marked individuals were recaptured two days after release.
+It seems that the golden redhorse is somewhat restricted in movement,
+at least for short periods.</p>
+
+<p>The sucker-mouthed minnow and black bullhead showed some
+movement&mdash;less than such mobile species as red shiners and channel
+catfish, but more than the sedentary group. Seven of 27 marked
+sucker-mouthed minnows were taken in areas adjacent to the
+one to which they had been returned. Two of six black bullheads
+that were recaptured had moved. The black bullhead moved the
+greater distance. The extent of short-term movement by several
+of the species in the Upper Neosho correlates well with redistribution
+subsequent to drought in the Wakarusa River, discussed by
+Deacon and Metcalf (1961).</p>
+
+
+<h3>Similarity of the Fauna at the Upper Neosho Station to the
+Faunas of Nearby Streams</h3>
+
+<p>The fauna that I found to be characteristic at the upper Neosho
+station has affinity with the upland tributary-fauna described by
+Metcalf (1959) for Chautauqua, Cowley and Elk Counties, Kansas.
+The primary difference is a nearly complete absence at my
+station of the Ozarkian element of the population. Some species
+(red-finned shiner, long-eared sunfish, and spotted bass) listed by
+Metcalf as characteristic of the mainstream of smaller rivers occur
+at the upper Neosho station in greater abundance then elsewhere
+in the Neosho. This difference is probably due to the fact that the
+upper Neosho station is somewhat larger and slightly more turbid
+than Metcalf's "upland tributaries."</p>
+
+<p>Hall (1952) reported on the distribution of fishes in the vicinity
+of Fort Gibson Reservoir, an impoundment on the Grand (Neosho)
+River in Oklahoma. He separated the fishes into three groups
+according to habitat-preference: species restricted to upland tributaries
+on the east side of Grand (Neosho) River, species restricted
+to lowland tributaries on the west side of Grand (Neosho) River,
+and species occurring in the Grand River proper and/or tributaries
+on one or both sides.</p>
+
+<p>Several species found in the upper Neosho River also occur in
+the area studied by Hall. Of these, only the creek chub was re<span class='pagenum'><a name="Page_419" id="Page_419">[Pg 419]</a></span>stricted
+to upland tributaries on the east side of Grand (Neosho)
+River. The sucker-mouthed minnow and red-finned shiner were
+restricted to the lowland tributaries on the west side of Grand
+(Neosho) River in the Fort Gibson Reservoir Area. Golden redhorse,
+stoneroller, yellow bullhead, spotted bass, green sunfish,
+long-eared sunfish, and orange-throated darter were present in collections
+from the Grand River proper and/or tributaries on both
+sides of the river, most commonly in tributaries.</p>
+
+<p>Hall's data show that black bullhead, large-mouthed bass, white
+crappie, and logperch occurred most frequently in or near the quiet
+water of the reservoir. In my study these fish were most common
+in the larger, quiet pools at the upper Neosho station.</p>
+
+
+
+<hr style="width: 65%;" />
+<h2>COMPARISON OF THE FISH FAUNAS OF THE<br />
+NEOSHO AND MARAIS DES CYGNES RIVERS</h2>
+
+
+<p>The Marais des Cygnes River has less gradient (especially in
+the upstream portions), fewer and shorter riffles, and more mud
+bottom than does the Neosho River. Stream-flow during drought
+was reduced to a proportionately greater degree in the Neosho
+River than it was in the Marais des Cygnes River. Average flow of
+the Neosho River near Parsons (drainage area: 4905 square miles),
+Kansas, was less than average flow of the Marais des Cygnes
+River at Trading Post (drainage area: 2880 square miles), Kansas,
+in 1953, 1955 and 1956. In normal times the Neosho River carries
+a larger volume of water than the Marais des Cygnes. The Neosho
+River has a greater variety of habitat-conditions and a more diversified
+fish-fauna than the Marais des Cygnes.</p>
+
+<p>The following species were taken in the Neosho River but not
+in the Marais des Cygnes River: blue sucker, high-finned carpsucker,
+golden redhorse, gravel chub, mimic shiner, mountain minnow,
+parrot minnow, Neosho madtom (the only endemic in either
+river), mosquitofish, spotted bass, smallmouth, black crappie, logperch
+and fan-tailed darter. Most of the above species are usually
+found in association with gravel-bottom, which is prevalent in Neosho
+River. The blue sucker, high-finned carpsucker, gravel chub,
+mountain minnow, and parrot minnow normally occur in the larger
+streams in Kansas. The last three species became more abundant
+in the Neosho River following resumption of flow. The golden
+redhorse also increased in abundance from 1957 to 1959, but was
+most numerous at the upper Neosho station, whereas the other
+species occurred mainly at the lower stations.</p>
+
+<p>The mimic shiner, spotted bass, smallmouth, and fan-tailed darter<span class='pagenum'><a name="Page_420" id="Page_420">[Pg 420]</a></span>
+are characteristic of upstream habitats with clear water (tributaries,
+rather than the mainstream), and were taken in the Neosho River
+only in 1957 or became less abundant from 1957 to 1959.</p>
+
+<p>The silver chub, slender madtom and tadpole madtom were taken
+in the Marais des Cygnes River only in 1957 and were not taken in
+the Neosho River.</p>
+
+<p>The following species, common to both rivers, were more abundant
+in the Neosho: long-nosed gar, short-nosed gar, river carpsucker,
+creek chub, sucker-mouthed minnow, red-finned shiner,
+red shiner, ghost shiner, blunt-nosed minnow, fat-headed minnow,
+stoneroller, yellow bullhead, channel catfish, flathead, stonecat,
+largemouth, long-eared sunfish, slender-headed darter, and freshwater
+drum. These species, collectively, reflect the more diversified
+habitats (more gravel-bottom, more riffle-areas, more gradient,
+greater range of stream-size sampled) in the Neosho River.</p>
+
+<p>The following species, common to both rivers, were more abundant
+in the Marais des Cygnes: gizzard shad, carp, sand shiner,
+black bullhead and white crappie. These species (with the exception
+of sand shiner) emphasize the fact that the Marais des Cygnes
+is a sluggish stream with large areas of mud bottom. Differences
+in the abundance of the sand shiner in the two rivers are part of
+taxonomic and distributional studies being conducted by Mr. Bernard
+C. Nelson.</p>
+
+<p>The following species were not consistently more abundant in
+one river than the other: big-mouthed buffalo, black buffalo, small-mouthed
+buffalo, short-headed redhorse, green sunfish, orange-spotted
+sunfish and orange-throated darter. These species, excepting
+the orange-throated darter and short-headed redhorse, occurred
+in a wide variety of habitats.</p>
+
+
+
+<hr style="width: 65%;" />
+<h2>FAUNAL CHANGES, 1957 THROUGH 1959</h2>
+
+
+<p>The following species increased in abundance from 1957 to 1959
+(Tables 10 and 11): long-nosed gar, short-nosed gar, river carpsucker,
+creek chub, gravel chub, sucker-mouthed minnow, mountain
+minnow, blunt-nosed minnow, parrot minnow, stoneroller,
+stonecat, Neosho madtom, green sunfish, slender-headed darter, and
+orange-throated darter.</p>
+
+<p>These species can be separated into three groups, characteristic
+of different habitats but having in common a preference for permanent
+flow. One group, composed of long-nosed gar, short-nosed
+gar, river carpsucker, gravel chub, mountain minnow, parrot min<span class='pagenum'><a name="Page_421" id="Page_421">[Pg 421]</a></span>now,
+and Neosho madtom, prefers streams of moderate to large
+size.</p>
+
+<p>A second group composed of creek chub, sucker-mouthed minnow,
+stoneroller, and orange-throated darter occurs most abundantly
+in small, permanent streams. The green sunfish may be included
+here on the basis of its abundance at the upper Neosho station;
+however, this is a pioneer species and does not require permanent
+flow.</p>
+
+<p>The third group is characteristic of continuously flowing water,
+but in both upstream and downstream situations. The species in
+this group (blunt-nosed minnow, stonecat, and slender-headed darter),
+increased in response to a resumption of permanent flow,
+but did not respond as quickly as did channel catfish, flatheads and
+freshwater drum, which are discussed subsequently.</p>
+
+<p>The fact that riffle-insects were abundant throughout my study
+convinces me that food was not a limiting factor in the re-establishment
+of the fish-fauna on riffles of the Neosho River.</p>
+
+<p>The following species decreased in abundance during my study
+(Tables 10 and 11): gizzard shad, carp, rosy-faced shiner, blunt-faced
+shiner, red shiner, mimic shiner, black bullhead, yellow bullhead,
+channel catfish, flathead, slender madtom, tadpole madtom,
+freckled madtom, spotted bass, largemouth, black crappie, fan-tailed
+darter, and freshwater drum.</p>
+
+<p>Among the species that decreased, three groups, characteristic
+of different habitats, can be distinguished. The first group occurs
+most commonly in ponded conditions or in slowly flowing streams.
+Species in this group are: shad, carp, black bullhead, tadpole
+madtom, largemouth, black crappie, and white crappie. Bullhead,
+bass and crappie commonly occur in farm ponds and lakes
+in Kansas and seem less well adapted to streams. It is therefore
+not surprising to find that these species decreased in abundance
+when flow was resumed.</p>
+
+<p>A second group, composed of rosy-faced shiner, blunt-faced
+shiner, mimic shiner, slender madtom, freckled madtom, spotted
+bass, and fan-tailed darter, normally is characteristic of clear
+tributaries rather than the mainstream of rivers. These species
+probably used the mainstream as a refugium during drought; with
+the resumption of flow, conditions became unsuitable for these
+populations in the mainstream. At the same time, conditions probably
+became favorable to the re-establishment of these species in
+tributaries. Metcalf (1959:396) listed the rosy-faced shiner, blunt-faced
+<span class='pagenum'><a name="Page_422" id="Page_422">[Pg 422]</a></span>
+shiner and mimic shiner as species that were characteristic
+of upland tributaries in the Flint Hills and Chautauqua Hills of
+Chautauqua, Cowley and Elk counties in Kansas. The slender
+madtom and fan-tailed darter are more common in clear streams of
+southeast Kansas than in other areas of the state (Cross, personal
+communication and data of the State Biological Survey of Kansas).
+Both species are recorded by Hall (1952:57-58) only in upland
+tributaries on the east side of Grand (Neosho) River in the Fort
+Gibson Reservoir area of Oklahoma. Neither species was taken
+in faunal studies of the Verdigris River in Oklahoma (Wallen,
+1958), in the Verdigris and Fall rivers in Kansas (Schelske, 1957),
+or by Metcalf (1959).</p>
+
+<p>The spotted bass is not so restricted in its distribution and its
+habitat-requirements as are other species in this group; but, in
+Kansas, spotted bass are most abundant in clear creeks in the southeast
+part of the state.</p>
+
+<p>The freckled madtom was taken in most of the studies cited above
+and is most common in the smaller streams of the southeast one-fourth
+of Kansas and the northeast one-fourth of Oklahoma.
+Schelske (1957:47) reports that the freckled madtom was taken only
+in March, April, October and November in the Verdigris River,
+Kansas. My only record of this species was obtained in the Neosho
+River in April, 1958.</p>
+
+<p>The third group is composed of channel catfish, flathead, and
+freshwater drum. This group represents that element of the population
+that responded most quickly to the resumption of continuous
+flow. The fact that adult channel catfish and flatheads live in pools
+and do not require flowing water to spawn gives these species a
+survival advantage as well as a reproductive advantage over obligatory
+riffle fishes (such as most darters) in the highly variable
+conditions found in Kansas streams. These factors resulted in
+unusually high reproductive success in 1957. Subsequent survival
+of fry was excellent; however, some mortality in the highly-dominant
+1957 year-class became apparent in the 1958 and 1959
+collections, accounting for a numerical decline in these species.
+The ability to respond immediately to increased flow is an adaptive
+feature that allows these species to maintain high levels of abundance
+in the highly fluctuating streams of Kansas.</p>
+
+<p>The continuous flow that occurred in 1957 in the Neosho and
+Marais des Cygnes rivers, for the first time in four years, provided
+the necessary habitat for survival of young catfish hatched in that
+<span class='pagenum'><a name="Page_423" id="Page_423">[Pg 423]</a></span>
+year. The nearly complete absence of other species on the riffles,
+and the abundant populations of riffle-insects that I observed in
+the summer of 1957, were undoubtedly factors contributing to the
+survival of young.</p>
+
+
+<p>The decrease in abundance of the red shiner may be partially
+due to an increase in the numbers of other species that are well
+adapted to conditions of permanent flow. At the completion of my
+study, the red shiner was still the most abundant minnow in both
+rivers. In 1957 this species was common in many habitats, including
+swift riffles, that were later occupied by madtoms, darters,
+the gravel chub, mountain minnow and sucker-mouthed minnow.</p>
+
+<p>The basic pattern of change was clearly an increase in the species
+that are characteristic of permanently flowing waters, and a decrease
+in the species that are characteristic of ponds or small, clear
+streams.</p>
+
+
+
+<hr style="width: 65%;" />
+<h2>CONCLUSIONS</h2>
+
+
+<p>The fauna of the Neosho and Marais des Cygnes rivers is capable
+of a wide range of adjustment in response to marked environmental
+changes. As these rivers become low and clear they take on many
+of the faunal characteristics of smaller tributaries and ponds. Species
+such as black bullhead, spotted bass, largemouth, white crappie,
+red shiner, rosy-faced shiner, blunt-faced minnow, mimic shiner,
+and slender madtom assume a more prominent position in the
+total population. Other species such as channel catfish, flathead,
+freshwater drum, blue sucker, and such riffle-dwelling species as
+the gravel chub, Neosho madtom, and slender-headed darter hold
+a less prominent position in the total population.</p>
+
+<p>When permanent flow is re-established the more mobile and the
+more generalized species (with respect to habitat) are able to
+utilize the available space immediately. As a result, these species
+increase rapidly in numbers. This increase occurs both by movement
+from more permanent waters and by reproduction. Channel
+catfish, flathead, freshwater drum, and river carpsucker are mobile
+species (Funk, 1957; Trautman, 1957) and long-nosed gar probably
+are mobile. Individuals that move supplement those that survive
+in residual pools, and provide brood stock adequate to produce a
+large year-class in the first year of permanent flow.</p>
+
+<p>The five species last mentioned are found in diverse kinds of
+streams, indicating that they are adaptable to varying habitats.
+A sixth species, the red shiner, although probably less mobile, is
+able to utilize opportunistically nearly any kind of habitat in
+<span class='pagenum'><a name="Page_424" id="Page_424">[Pg 424]</a></span>
+Plains streams. Although this species seldom is abundant in riffles,
+it was, in 1957, abundant in both pool and riffle situations at all my
+stations. These riffles were almost unoccupied by other species in
+1957 until mid-summer, when hatches of channel catfish and flatheads
+occurred. Although adult channel catfish and flatheads live
+well in pools, the young occupy mainly riffles. This age- and size-segregation,
+in different habitats, was an advantage to the rapid re-establishment
+of these species in the Neosho and Marais des Cygnes
+rivers in 1957.</p>
+
+<p>Species that occupy restricted habitats, especially riffle-dwellers
+such as the Neosho madtom, gravel chub, and slender-headed darter,
+were slowest to increase following drought. These species seem
+less capable of adapting to the variable conditions prevalent in the
+Neosho and Marais des Cygnes rivers than species that have more
+generalized habitat-requirements.</p>
+
+<p>In the Neosho and Marais des Cygnes rivers nearly all species
+that were found in years just prior to the drought of 1952-1956
+were again found in the last year of my survey; however, some
+species that live in a restricted habitat may eventually be extirpated
+in these two rivers. The high-finned carpsucker <i>Carpiodes velifer</i>,
+common shiner <i>Notropis cornutus</i>, horny-headed chub <i>Hybopsis
+biguttata</i>, and johnny darter <i>Etheostoma nigrum</i> all have specific
+habitat requirements and have disappeared or become restricted
+to one tributary in the Wakarusa River System (Deacon and Metcalf,
+1961). The disappearance or reduction of these species implies
+long-term changes in the environment.</p>
+
+<p>Suckers, minnows and catfishes constitute the main fauna of the
+Neosho and Marais des Cygnes rivers, because these families contain
+many species that have generalized habitat-requirements.
+Many of these fish are able to live successfully in either ponds or
+flowing waters and others are capable of long migrations. Because
+these fish predominate in the streams of Kansas, attempts should
+be made to utilize them more effectively.</p>
+
+<p>In years such as 1957, large numbers of young channel catfish
+could be collected and used to stock new ponds and lakes. So
+doing would not affect the numbers of <i>adults</i> produced in the
+stream, and, if enough young could be removed, those remaining
+in the streams might grow faster.</p>
+
+<p>Suckers and carp are abundant in the two rivers and mostly are
+unused at present, because current regulations preclude the use
+of methods effective for the capture of these species.</p>
+
+
+
+<hr style="width: 65%;" />
+<p><span class='pagenum'><a name="Page_425" id="Page_425">[Pg 425]</a></span></p>
+<h2>ACKNOWLEDGMENTS</h2>
+
+
+<p>The investigation here reported on was supported jointly by the
+Kansas Forestry, Fish and Game Commission and the State Biological
+Survey of Kansas.</p>
+
+<p>I thank Messrs. W. L. Minckley, D. A. Distler, J. McMullen,
+A. L. Metcalf, L. J. Olund, M. Topping, B. Nelson and Claude Hastings
+for assistance in the field, and Mr. Ernest Craig, Game Protector,
+Erie, Kansas, for valuable suggestions and co-operation. I
+am especially grateful to Associate Professor Frank B. Cross for
+his pre-drought data, guidance, and criticism throughout the course
+of the work. I thank the many landowners who allowed me access
+to streams, and am especially indebted to Mr. and Mrs. Floyd
+Meats and Mr. and Mrs. Oliver Craig for their hospitality and
+assistance.</p>
+
+<p>Assistant Professor Kenneth B. Armitage and Associate Professor
+Ronald L. McGregor read the manuscript and gave helpful advice.
+Mrs. Maxine Deacon typed the manuscript and assisted in other
+ways.</p>
+
+<hr style="width: 65%;" />
+<h2>FOOTNOTES</h2>
+
+<div class="footnote"><p><a name="Footnote_A_1" id="Footnote_A_1"></a><a href="#FNanchor_A_1"><span class="label">[A]</span></a> (Oct. 1-Sept. 30, inclusive)</p></div>
+
+<div class="footnote"><p><a name="Footnote_B_2" id="Footnote_B_2"></a><a href="#FNanchor_B_2"><span class="label">[B]</span></a> (Oct. 1-Sept. 30, inclusive)</p></div>
+
+<div class="footnote"><p><a name="Footnote_C_3" id="Footnote_C_3"></a><a href="#FNanchor_C_3"><span class="label">[C]</span></a> The gaging station was moved a short distance downstream to the Kansas-Missouri
+state line.</p></div>
+
+<div class="footnote"><p><a name="Footnote_D_4" id="Footnote_D_4"></a><a href="#FNanchor_D_4"><span class="label">[D]</span></a> T denotes less than one-half of one per cent of the population.</p></div>
+
+<div class="footnote"><p><a name="Footnote_E_5" id="Footnote_E_5"></a><a href="#FNanchor_E_5"><span class="label">[E]</span></a> "T" designates species that comprised less than 0.5 per cent of the population.</p></div>
+
+<div class="footnote"><p><a name="Footnote_F_6" id="Footnote_F_6"></a><a href="#FNanchor_F_6"><span class="label">[F]</span></a> (yy) signifies young-of-the-year.</p></div>
+
+<div class="footnote"><p><a name="Footnote_G_7" id="Footnote_G_7"></a><a href="#FNanchor_G_7"><span class="label">[G]</span></a> (j) signifies yearlings or two-year-olds.</p></div>
+
+<div class="footnote"><p><a name="Footnote_H_8" id="Footnote_H_8"></a><a href="#FNanchor_H_8"><span class="label">[H]</span></a> (yy) means young-of-the-year only.</p></div>
+
+<div class="footnote"><p><a name="Footnote_I_9" id="Footnote_I_9"></a><a href="#FNanchor_I_9"><span class="label">[I]</span></a> (j) Denotes juveniles only.</p></div>
+
+<div class="footnote"><p><a name="Footnote_J_10" id="Footnote_J_10"></a><a href="#FNanchor_J_10"><span class="label">[J]</span></a> (yy) Denotes young-of-year only.</p></div>
+
+<div class="footnote"><p><a name="Footnote_K_11" id="Footnote_K_11"></a><a href="#FNanchor_K_11"><span class="label">[K]</span></a> A dash denotes incomplete or insufficient data.</p></div>
+
+<div class="footnote"><p><a name="Footnote_L_12" id="Footnote_L_12"></a><a href="#FNanchor_L_12"><span class="label">[L]</span></a> (j) denotes juveniles only.</p></div>
+
+<div class="footnote"><p><a name="Footnote_M_13" id="Footnote_M_13"></a><a href="#FNanchor_M_13"><span class="label">[M]</span></a> (yy) denotes young-of-year only.</p></div>
+
+
+
+
+<hr style="width: 65%;" />
+<h2>LITERATURE CITED</h2>
+
+
+<p><span class="smcap">Anonymous.</span></p>
+
+<div class="blockquot"><p>1945. Kansas State Board of Agriculture. River basin problems and
+proposed reservoir projects for a state plan of water resources development:
+Div. of Water Resources, 63(264):1-62, Figs. 1-16.</p>
+
+<p>1947. Kansas State Board of Agriculture. The Neosho River basin plan
+of state water resources development: Div. of Water Resources,
+66(280):1-132, Figs. 1-10.</p>
+
+<p>1958. Drought: A report. United States Government Printing Office,
+492400:1-45.</p></div>
+
+<p><span class="smcap">Bailey, R. M.</span>, and <span class="smcap">Harrison, H. M., Jr.</span></p>
+
+<div class="blockquot"><p>1948. Food habits of the southern channel catfish (<i>Ictalurus lacustris
+punctatus</i>) in the Des Moines River, Iowa. Trans. Am. Fish.
+Soc., 75:110-138.</p></div>
+
+<p><span class="smcap">Breder, C. M., Jr.</span></p>
+
+<div class="blockquot"><p>1936. Long-lived fishes in the aquarium. Bull. N. Y. Zool. Soc., 39:116-117.</p></div>
+
+<p><span class="smcap">Cross, F. B.</span></p>
+
+<div class="blockquot"><p>1954. Fishes of Cedar Creek and the South Fork of the Cottonwood
+River, Chase County, Kansas. Trans. Kansas Acad. Sci., 57(3):303-314.</p></div>
+
+<p>&mdash;&mdash;, and <span class="smcap">Minckley, W. L.</span></p>
+
+<div class="blockquot"><p>1958. New records of four fishes from Kansas. Trans. Kansas Acad. Sci.,
+61(1):104-108.</p></div>
+
+<p><span class="smcap">Davis, J.</span></p>
+
+<div class="blockquot"><p>1959. Management of channel catfish in Kansas. Univ. Kansas Misc.
+Publ., Mus. Nat. Hist., 21:1-56.</p></div>
+
+<p><span class='pagenum'><a name="Page_426" id="Page_426">[Pg 426]</a></span></p>
+
+<p><span class="smcap">Deacon, J. E.</span></p>
+
+<div class="blockquot"><p>1961. A new staining method for marking large numbers of small fish.
+Prog. Fish Cult., 23(1):41-42.</p></div>
+
+<p>&mdash;&mdash;, and <span class="smcap">Metcalf, A. L.</span></p>
+
+<div class="blockquot"><p>Fishes of the Wakarusa River, Kansas. Univ. of Kansas Publ., Mus.
+Nat. Hist., 13(6):309-322.</p></div>
+
+<p><span class="smcap">Foley, F. C.</span>, <span class="smcap">Smrha, R. V.</span>, and <span class="smcap">Metzler, D. F.</span></p>
+
+<div class="blockquot"><p>1955. Water in Kansas. A report to the Kansas State Legislature. University
+of Kansas, pp. 1-216.</p></div>
+
+<p><span class="smcap">Funk, J. L.</span></p>
+
+<div class="blockquot"><p>1957. Movement of stream fishes in Missouri. Trans. Am. Fish. Soc.,
+85(1955), pp. 39-57.</p></div>
+
+<p><span class="smcap">Garrett, R. A.</span></p>
+
+<div class="blockquot"><p>1951. Kansas flood producing rains of 1951. Trans. Kansas Acad. Sci.,
+54(3):346-355.</p>
+
+<p>1958. <i>In</i> Kansas Agriculture 1956-57. Kansas State Board of Agriculture,
+40th report, pp. 1-288.</p></div>
+
+<p><span class="smcap">Hall, G. E.</span></p>
+
+<div class="blockquot"><p>1952. Observations on the fishes of the Fort Gibson and Tenkiller reservoir
+areas, 1952. Proc. Oklahoma Acad. Sci., 33:55-63.</p></div>
+
+<p><span class="smcap">Hasler, A. D.</span> and <span class="smcap">Wisby, W. J.</span></p>
+
+<div class="blockquot"><p>1958. The return of displaced largemouth bass and green sunfish to a
+"home" area. Ecology 39(2):289-293.</p></div>
+
+<p><span class="smcap">Lack, D.</span></p>
+
+<div class="blockquot"><p>1954. The natural regulation of animal numbers.  Oxford University
+Press, Amen House, London E. C. 4. VIII + 1-343.</p></div>
+
+<p><span class="smcap">Marzolf, R. C.</span></p>
+
+<div class="blockquot"><p>1957. The production of channel catfish in Missouri ponds. Jour. Wildl.
+Mgt., 21:22-28.</p></div>
+
+<p><span class="smcap">Mead, J. R.</span></p>
+
+<div class="blockquot"><p>1903. Origin of names of Kansas streams. Trans. Kansas Acad. Sci.,
+18:215-216.</p></div>
+
+<p><span class="smcap">Metcalf, A. L.</span></p>
+
+<div class="blockquot"><p>1959. Fishes of Chautauqua, Cowley and Elk Counties, Kansas. Univ.
+Kansas Publ., Mus. Nat. Hist., 11:345-400.</p></div>
+
+<p><span class="smcap">Metzler, D. F.</span>, <span class="smcap">Culp, R. L.</span>, <span class="smcap">Stoltenberg, H. A.</span>, <span class="smcap">Woodward, R. L.</span>, <span class="smcap">Walton,
+G.</span>, <span class="smcap">Chang, S. L.</span>, <span class="smcap">Clarke, N. A.</span>, <span class="smcap">Palmer, C. M.</span>, and <span class="smcap">Middleton, F. M.</span></p>
+
+<div class="blockquot"><p>1958. Emergency use of reclaimed water for potable supply at Chanute,
+Kansas. Journ. Am. Water Works Assoc., 50(8):1021-1060.</p></div>
+
+<p><span class="smcap">Minckley, W. L.</span></p>
+
+<div class="blockquot"><p>1959. Fishes of the Big Blue River Basin, Kansas. Univ. Kansas Publ.,
+Mus. Nat. Hist., 11:401-442.</p></div>
+
+<p>&mdash;&mdash;, and <span class="smcap">Deacon, J. E.</span></p>
+
+<div class="blockquot"><p>1959. Biology of the Flathead Catfish in Kansas. Trans. Am. Fish. Soc.,
+88:344-355.</p></div>
+
+<p><span class="smcap">Muncy, R. J.</span></p>
+
+<div class="blockquot"><p>1958. Movements of Channel Catfish in Des Moines River, Boone County,
+Iowa. Iowa St. Col. Jour. of Sci., 32(4):563-571.</p></div>
+
+<p><span class='pagenum'><a name="Page_427" id="Page_427">[Pg 427]</a></span></p>
+
+<p><span class="smcap">Schelske, C. L.</span></p>
+
+<div class="blockquot"><p>1957. An ecological study of the fishes of the Fall and Verdigris rivers
+in Wilson and Montgomery counties, Kansas, March 1954, to
+February 1955. Emporia State Research Studies, 5(3):31-56.</p></div>
+
+<p><span class="smcap">Schoewe, W. H.</span></p>
+
+<div class="blockquot"><p>1951. The geography of Kansas. Trans. Kansas Acad. Sci., 54(3):263-329.</p></div>
+
+<p><span class="smcap">Trautman, M. B.</span></p>
+
+<div class="blockquot"><p>1957. The fishes of Ohio. Waverly Press, Inc., Baltimore, Md. XVII +
+1-683.</p></div>
+
+<p><span class="smcap">Weaver, J. E.</span>, and <span class="smcap">Albertson, F. W.</span></p>
+
+<div class="blockquot"><p>1936. Effects of the great drought on the prairies of Iowa, Nebraska, and
+Kansas. Ecology 17(4):567-639.</p></div>
+
+
+<p><br />
+&nbsp; &nbsp; <i>Transmitted March 30, 1961.</i><br />
+</p>
+
+
+
+
+<p>&nbsp;</p>
+<div class="figcenter" style="width: 647px;">
+<span class="caption">PLATE 26</span>
+<img src="images/pl26.jpg" width="647" height="1024" alt="Plate 26" title="" />
+<p><span class="smcap">Fig. 1.</span> Neosho River, Middle Station, Sec. 3 and 4, T. 24 S., R. 17 E.,
+looking upstream, July, 1958.<br />
+<br />
+<span class="smcap">Fig. 2.</span> Neosho River, Lower Station, Sec. 16, T. 29 S., R. 20 E., along gravel
+bar, July, 1959.</p>
+</div>
+
+
+<p>&nbsp;</p>
+<div class="figcenter" style="width: 591px;">
+<span class="caption">PLATE 27</span>
+<img src="images/pl27.jpg" width="591" height="1024" alt="Plate 27" title="" />
+<p><span class="smcap">Fig. 1.</span> Marais des Cygnes River, Upper Station, Sec. 12, T. 17 S., R. 17 E.,
+looking downstream, June, 1960.<br />
+<br />
+<span class="smcap">Fig. 2.</span> Marais des Cygnes River, Middle Station, Sec. 6, T. 17 S., R. 20 E.,
+looking downstream, June, 1960.</p>
+</div>
+
+
+<p>&nbsp;</p>
+<div class="figcenter" style="width: 616px;">
+<span class="caption">PLATE 28</span>
+<img src="images/pl28.jpg" width="616" height="1024" alt="Plate 28" title="" />
+<p><span class="smcap">Fig. 1.</span> Electrical fishing gear used at night.<br />
+<br />
+<span class="smcap">Fig. 2.</span> Pool at the upper Neosho station in which rotenone was used, Sec. 33,
+T. 15 S., R. 8 E., looking downstream, June, 1960.</p>
+</div>
+
+
+<p>&nbsp;</p>
+<div class="figcenter" style="width: 618px;">
+<span class="caption">PLATE 29</span>
+<img src="images/pl29.jpg" width="618" height="1024" alt="Plate 29" title="" />
+<p><span class="smcap">Fig. 1.</span> Area 1, upper Neosho station, Sec. 33, T. 15 S., R. 8 E., looking
+upstream, June, 1960.<br />
+<br />
+<span class="smcap">Fig. 2.</span> Area 3, upper Neosho station, Sec. 10, T. 16 S., R. 8 E., looking
+downstream, June, 1960.</p>
+</div>
+
+
+<p>&nbsp;</p>
+<div class="figcenter" style="width: 636px;">
+<span class="caption">PLATE 30</span>
+<img src="images/pl30.jpg" width="636" height="1024" alt="Plate 30" title="" />
+<p><span class="smcap">Fig. 1.</span> Area 5, upper Neosho station, Sec. 3, T. 16 S., R. 8 E., looking
+upstream, June, 1960.<br />
+<br />
+<span class="smcap">Fig. 2.</span> Area 6, upper Neosho station, Sec. 3, T. 16 S., R. 8 E., looking
+upstream, June, 1960.</p>
+</div>
+
+<p>&nbsp;</p>
+
+
+<div class="figcenter" style="width: 16px;">
+<img src="images/square.png" width="16" height="17" alt="square symbol" title="" />
+</div>
+
+<h4>28-7576</h4>
+
+
+
+<hr style="width: 100%;" />
+<h3>UNIVERSITY OF KANSAS PUBLICATIONS<br />
+<br />
+MUSEUM OF NATURAL HISTORY</h3>
+
+
+<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. There is no provision for
+sale of this series by the University Library, which meets institutional requests,
+or by the Museum of Natural History, which meets the requests of individuals.
+However, when individuals request copies from the Museum, 25 cents should
+be included, for each separate number that is 100 pages or more in length, for
+the purpose of defraying the costs of wrapping and mailing.</p>
+
+<p>* An asterisk designates those numbers of which the Museum's supply (not the Library's
+supply) is exhausted. Numbers published to date, in this series, are as follows:</p>
+
+<p>Vol. 1.</p>
+
+<div class="pblockquot"><p>Nos. 1-26 and index. Pp. 1-638, 1946-1950.</p></div>
+
+<p>*Vol. 2.</p>
+
+<div class="pblockquot"><p>(Complete) Mammals of Washington. By Walter W. Dalquest. Pp. 1-444, 140
+figures in text. April 9, 1948.</p></div>
+
+<p>Vol. 3.</p>
+
+<div class="pblockquot"><p>*1. The avifauna of Micronesia, its origin, evolution, and distribution. By Rollin
+H. Baker. Pp. 1-359, 16 figures in text. June 12, 1951.</p>
+
+<p>*2. A quantitative study of the nocturnal migration of birds. By George H.
+Lowery, Jr. Pp. 361-472, 47 figures in text. June 29, 1951.</p>
+
+<p>3. Phylogeny of the waxwings and allied birds. By M. Dale Arvey. Pp. 473-530,
+49 figures in text, 13 tables. October 10, 1951.</p>
+
+<p>4. 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.</p>
+
+<p>Index. Pp. 651-681.</p></div>
+
+<p>*Vol. 4.</p>
+
+<div class="pblockquot"><p>(Complete) American weasels. By E. Raymond Hall. Pp. 1-466, 41 plates, 31
+figures in text. December 27, 1951.</p></div>
+
+<p>Vol. 5.</p>
+
+<div class="pblockquot"><p>Nos. 1-37 and index. Pp. 1-676, 1951-1953.</p></div>
+
+<p>*Vol. 6.</p>
+
+<div class="pblockquot"><p>(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.</p></div>
+
+<p>Vol. 7.</p>
+
+<div class="pblockquot"><p>*1. Mammals of Kansas. By E. Lendell Cockrum. Pp. 1-303, 73 figures in text,
+37 tables. August 25, 1952.</p>
+
+<p>2. Ecology of the opossum on a natural area in northeastern Kansas. By Henry
+S. Fitch and Lewis L. Sandidge. Pp. 305-338, 5 figures in text. August
+24, 1953.</p>
+
+<p>3. The silky pocket mice (Perognathus flavus) of Mexico. By Rollin H. Baker.
+Pp. 339-347, 1 figure in text. February 15, 1954.</p>
+
+<p>4. North American jumping mice (Genus Zapus). By Phillip H. Krutzsch. Pp.
+349-472, 47 figures in text, 4 tables. April 21, 1954.</p>
+
+<p>5. Mammals from Southeastern Alaska. By Rollin H. Baker and James S.
+Findley. Pp. 473-477. April 21, 1954.</p>
+
+<p>6. Distribution of Some Nebraskan Mammals. By J. Knox Jones, Jr. Pp. 479-487.
+April 21, 1954.</p>
+
+<p>7. Subspeciation in the montane meadow mouse, Microtus montanus, in Wyoming
+and Colorado. By Sydney Anderson. Pp. 489-506, 2 figures in text.
+July 23, 1954.</p>
+
+<p>8. A new subspecies of bat (Myotis velifer) from southeastern California and
+Arizona. By Terry A. Vaughan. Pp. 507-512. July 23, 1954.</p>
+
+<p>9. Mammals of the San Gabriel mountains of California. By Terry A. Vaughan.
+Pp. 513-582, 1 figure in text, 12 tables. November 15, 1954.</p>
+
+<p>10. A new bat (Genus Pipistrellus) from northeastern Mexico. By Rollin H.
+Baker. Pp. 583-586. November 15, 1954.</p>
+
+<p>11. A new subspecies of pocket mouse from Kansas. By E. Raymond Hall. Pp.
+587-590. November 15, 1954.</p>
+
+<p>12. Geographic variation in the pocket gopher, Cratogeomys castanops, in Coahuila,
+Mexico. By Robert J. Russell and Rollin H. Baker. Pp. 591-608.
+March 15, 1955.</p>
+
+<p>13. A new cottontail (Sylvilagus floridanus) from northeastern Mexico. By Rollin
+H. Baker. Pp. 609-612. April 8, 1955.</p>
+
+<p>14. Taxonomy and distribution of some American shrews. By James S. Findley.
+Pp. 613-618. June 10, 1955.</p>
+
+<p>15. The pigmy woodrat, Neotoma goldmani, its distribution and systematic position.
+By Dennis G. Rainey and Rollin H. Baker. Pp. 619-624, 2 figures in
+text. June 10, 1955.</p>
+
+<p>Index. Pp. 625-651.</p></div>
+
+<p>Vol. 8.</p>
+
+<div class="pblockquot"><p>Nos. 1-10 and index. Pp. 1-675, 1954-1956.</p></div>
+
+<p>Vol. 9.</p>
+
+<div class="pblockquot"><p>1. Speciation of the wandering shrew. By James S. Findley. Pp. 1-68, 18
+figures in text. December 10, 1955.</p>
+
+<p>2. Additional records and extension of ranges of mammals from Utah. By
+Stephen D. Durrant, M. Raymond Lee, and Richard M. Hansen. Pp. 69-80.
+December 10, 1955.</p>
+
+<p>3. A new long-eared myotis (Myotis evotis) from northeastern Mexico. By Rollin
+H. Baker and Howard J. Stains. Pp. 81-84. December 10, 1955.</p>
+
+<p>4. Subspeciation in the meadow mouse, Microtus pennsylvanicus, in Wyoming.
+By Sydney Anderson. Pp. 85-104, 2 figures in text. May 10, 1956.</p>
+
+<p>5. The condylarth genus Ellipsodon. By Robert W. Wilson. Pp. 105-116, 6
+figures in text. May 19, 1956.</p>
+
+<p>6. Additional remains of the multituberculate genus Eucosmodon. By Robert
+W. Wilson. Pp. 117-123, 10 figures in text. May 19, 1956.</p>
+
+<p>7. Mammals of Coahuila, Mexico. By Rollin H. Baker. Pp. 125-335, 75 figures
+in text. June 15, 1956.</p>
+
+<p>8. Comments on the taxonomic status of Apodemus peninsulae, with description
+of a new subspecies from North China. By J. Knox Jones, Jr. Pp. 337-346,
+1 figure in text, 1 table. August 15, 1956.</p>
+
+<p>9. Extensions of known ranges of Mexican bats. By Sydney Anderson. Pp.
+347-351. August 15, 1956.</p>
+
+<p>10. A new bat (Genus Leptonycteris) from Coahuila. By Howard J. Stains.
+Pp. 353-356. January 21, 1957.</p>
+
+<p>11. A new species of pocket gopher (Genus Pappogeomys) from Jalisco, Mexico.
+By Robert J. Russell. Pp. 357-361. January 21, 1957.</p>
+
+<p>12. Geographic variation in the pocket gopher, Thomomys bottae, in Colorado.
+By Phillip M. Youngman. Pp. 363-387, 7 figures in text. February 21, 1958.</p>
+
+<p>13. New bog lemming (genus Synaptomys) from Nebraska. By J. Knox Jones,
+Jr. Pp. 385-388. May 12, 1958.</p>
+
+<p>14. Pleistocene bats from San Josecito Cave, Nuevo Le&oacute;n, M&eacute;xico. By J. Knox
+Jones, Jr. Pp. 389-396. December 19, 1958.</p>
+
+<p>15. New subspecies of the rodent Baiomys from Central America. By Robert
+L. Packard. Pp. 397-404. December 19, 1958.</p>
+
+<p>16. Mammals of the Grand Mesa, Colorado. By Sydney Anderson. Pp. 405-414,
+1 figure in text, May 20, 1959.</p>
+
+<p>17. Distribution, variation, and relationships of the montane vole, Microtus montanus.
+By Sydney Anderson. Pp. 415-511, 12 figures in text, 2 tables.
+August 1, 1959.</p>
+
+<p>18. Conspecificity of two pocket mice, Perognathus goldmani and P. artus. By
+E. Raymond Hall and Marilyn Bailey Ogilvie. Pp. 513-518, 1 map. January
+14, 1960.</p>
+
+<p>19. Records of harvest mice, Reithrodontomys, from Central America, with description
+of a new subspecies from Nicaragua. By Sydney Anderson and
+J. Knox Jones, Jr. Pp. 519-529. January 14, 1960.</p>
+
+<p>20. Small carnivores from San Josecito Cave (Pleistocene), Nuevo Le&oacute;n, M&eacute;xico.
+By E. Raymond Hall. Pp. 531-538, 1 figure in text. January 14, 1960.</p>
+
+<p>21. Pleistocene pocket gophers from San Josecito Cave, Nuevo Le&oacute;n, M&eacute;xico.
+By Robert J. Russell. Pp. 539-548, 1 figure in text. January 14, 1960.</p>
+
+<p>22. Review of the insectivores of Korea. By J. Knox Jones, Jr., and David H.
+Johnson. Pp. 549-578. February 23, 1960.</p>
+
+<p>23. Speciation and evolution of the pygmy mice, genus Baiomys. By Robert L.
+Packard. Pp. 579-670, 4 plates, 12 figures in text. June 16, 1960.</p>
+
+<p>Index. Pp. 671-690.</p></div>
+
+<p>Vol. 10.</p>
+
+<div class="pblockquot"><p>1. Studies of birds killed in nocturnal migration. By Harrison B. Tordoff and
+Robert M. Mengel. Pp. 1-44, 6 figures in text, 2 tables. September 12, 1956.</p>
+
+<p>2. Comparative breeding behavior of Ammospiza caudacuta and A. maritima.
+By Glen E. Woolfenden. Pp. 45-75, 6 plates, 1 figure. December 20, 1956.</p>
+
+<p>3. The forest habitat of the University of Kansas Natural History Reservation.
+By Henry S. Fitch and Ronald R. McGregor. Pp. 77-127, 2 plates, 7 figures
+in text, 4 tables. December 31, 1956.</p>
+
+<p>4. Aspects of reproduction and development in the prairie vole (Microtus ochrogaster).
+By Henry S. Fitch. Pp. 129-161, 8 figures in text, 4 tables. December
+19, 1957.</p>
+
+<p>5. Birds found on the Arctic slope of northern Alaska. By James W. Bee.
+Pp. 163-211, plates 9-10, 1 figure in text. March 12, 1958.</p>
+
+<p>6. The wood rats of Colorado: distribution and ecology. By Robert B. Finley,
+Jr. Pp. 213-552, 34 plates, 8 figures in text, 35 tables. November 7, 1958.</p>
+
+<p>7. Home ranges and movements of the eastern cottontail in Kansas. By Donald
+W. Janes. Pp. 553-572, 4 plates, 3 figures in text. May 4, 1959.</p>
+
+<p>8. Natural history of the salamander, Aneides hardyi. By Richard F. Johnston
+and Gerhard A. Schad. Pp. 573-585. October 8, 1959.</p>
+
+<p>9. A new subspecies of lizard, Cnemidophorus sacki, from Michoac&aacute;n, M&eacute;xico.
+By William E. Duellman, Pp. 587-598, 2 figures in text. May 2, 1960.</p>
+
+<p>10. A taxonomic study of the Middle American Snake, Pituophis deppei. By
+William E. Duellman. Pp. 599-610, 1 plate, 1 figure in text. May 2, 1960.</p>
+
+<p>Index. Pp. 611-626.</p></div>
+
+<p>Vol. 11.</p>
+
+<div class="pblockquot"><p>1. The systematic status of the colubrid snake, Leptodeira discolor G&uuml;nther.
+By William E. Duellman. Pp. 1-9, 4 figures. July 14, 1958.</p>
+
+<p>2. Natural history of the six-lined racerunner, Cnemidophorus sexlineatus. By
+Henry S. Fitch. Pp. 11-62, 9 figures, 9 tables. September 19, 1958.</p>
+
+<p>3. Home ranges, territories, and seasonal movements of vertebrates of the
+Natural History Reservation. By Henry S. Fitch. Pp. 63-326, 6 plates, 24
+figures in text, 3 tables. December 12, 1958.</p>
+
+<p>4. A new snake of the genus Geophis from Chihuahua, Mexico. By John M.
+Legler. Pp. 327-334, 2 figures in text. January 28, 1959.</p>
+
+<p>5. A new tortoise, genus Gopherus, from north-central Mexico. By John M.
+Legler. Pp. 335-343. April 24, 1959.</p>
+
+<p>6. Fishes of Chautauqua, Cowley and Elk counties, Kansas. By Artie L.
+Metcalf. Pp. 345-400, 2 plates, 2 figures in text, 10 tables. May 6, 1959.</p>
+
+<p>7. Fishes of the Big Blue River Basin, Kansas. By W. L. Minckley. Pp. 401-442,
+2 plates, 4 figures in text, 5 tables. May 8, 1959.</p>
+
+<p>8. Birds from Coahuila, M&eacute;xico. By Emil K. Urban. Pp. 443-516. August 1,
+1959.</p>
+
+<p>9. Description of a new softshell turtle from the southeastern United States. By
+Robert G. Webb. Pp. 517-525, 2 plates, 1 figure in text. August 14, 1959.</p>
+
+<p>10. Natural history of the ornate box turtle, Terrapene ornata ornata Agassiz. By
+John M. Legler. Pp. 527-669, 16 pls., 29 figures in text. March 7, 1960.</p>
+
+<p>Index Pp. 671-703.</p></div>
+
+<p>Vol. 12.</p>
+
+<div class="pblockquot"><p>1. Functional morphology of three bats: Eumops, Myotis, Macrotus. By Terry
+A. Vaughan. Pp. 1-153, 4 plates, 24 figures in text. July 8, 1959.</p>
+
+<p>2. 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.</p>
+
+<p>3. The baculum in microtine rodents. By Sydney Anderson. Pp. 181-216, 49
+figures in text. February 19, 1960.</p>
+
+<p>4. 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.</p>
+
+<p>More numbers will appear in volume 12.</p></div>
+
+<p>Vol. 13.</p>
+
+<div class="pblockquot"><p>1. Five natural hybrid combinations in minnows (Cyprinidae). By Frank B.
+Cross and W. L. Minckley. Pp. 1-18. June 1, 1960.</p>
+
+<p>2. A distributional study of the amphibians of the Isthmus of Tehuantepec,
+M&eacute;xico. By William E. Duellman. Pp. 19-72, pls. 1-8, 3 figures in text.
+August 16, 1960.</p>
+
+<p>3. A new subspecies of the slider turtle (Pseudemys scripta) from Coahuila,
+M&eacute;xico. By John M. Legler. Pp. 73-84, pls. 9-12, 3 figures in text. August
+16, 1960.</p>
+
+<p>4. Autecology of the Copperhead. By Henry S. Fitch. Pp. 85-288, pls. 13-20,
+26 figures in text. November 30, 1960.</p>
+
+<p>5. 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.</p>
+
+<p>6. 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.</p>
+
+<p>7. 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.</p>
+
+<p>8. 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.</p>
+
+<p>9. 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 figs.
+August 11, 1961.</p>
+
+<p>More numbers will appear in volume 13.</p></div>
+
+<p>Vol. 14.</p>
+
+<div class="pblockquot"><p>1. Neotropical Bats from Western M&eacute;xico. By Sydney Anderson. Pp. 1-8.
+October 24, 1960.</p>
+
+<p>2. 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.</p>
+
+<p>3. Mammals of Mesa Verde National Park, Colorado. By Sydney Anderson.
+Pp. 29-67, pls. 1 and 2, 3 figures in text. July 24, 1961.</p>
+
+<p>More numbers will appear in volume 14.</p></div>
+
+
+
+
+
+
+
+
+
+
+
+<pre>
+
+
+
+
+
+End of the Project Gutenberg EBook of Fish Populations, Following a Drought,
+in the Neosho and Marais des Cygnes Rivers of Kansas, by James Everett Deacon
+
+*** END OF THIS PROJECT GUTENBERG EBOOK FISH POPULATIONS, FOLLOWING ***
+
+***** This file should be named 34787-h.htm or 34787-h.zip *****
+This and all associated files of various formats will be found in:
+        http://www.gutenberg.org/3/4/7/8/34787/
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+
+
+Updated editions will replace the previous one--the old editions
+will be renamed.
+
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+one owns a United States copyright in these works, so the Foundation
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+</body>
+</html>
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+The Project Gutenberg EBook of Fish Populations, Following a Drought, in
+the Neosho and Marais des Cygnes Rivers of Kansas, by James Everett Deacon
+
+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: Fish Populations, Following a Drought, in the Neosho and Marais des Cygnes Rivers of Kansas
+
+Author: James Everett Deacon
+
+Release Date: December 30, 2010 [EBook #34787]
+
+Language: English
+
+Character set encoding: ASCII
+
+*** START OF THIS PROJECT GUTENBERG EBOOK FISH POPULATIONS, FOLLOWING ***
+
+
+
+
+Produced by Chris Curnow, Joseph Cooper and the Online
+Distributed Proofreading Team at http://www.pgdp.net
+
+
+
+
+
+
+
+
+
+                  UNIVERSITY OF KANSAS PUBLICATIONS
+                      MUSEUM OF NATURAL HISTORY
+
+          Volume 13, No. 9, pp. 359-427, pls. 26-30, 3 figs.
+                           August 11, 1961
+
+
+                Fish Populations, Following a Drought,
+              In the Neosho and Marais des Cygnes Rivers
+                              of Kansas
+
+                                  BY
+
+                         JAMES EVERETT DEACON
+
+
+       (Joint Contribution from the State Biological Survey and
+               the Forestry, Fish, and Game Commission)
+
+
+                         UNIVERSITY OF KANSAS
+                               LAWRENCE
+                                 1961
+
+
+
+
+     UNIVERSITY OF KANSAS PUBLICATIONS, MUSEUM OF NATURAL HISTORY
+
+         Editors: E. Raymond Hall, Chairman, Henry S. Fitch,
+                           Robert W. Wilson
+
+          Volume 13, No. 9, pp. 359-427, pls. 26-30, 3 figs.
+                      Published August 11, 1961
+
+
+                         UNIVERSITY OF KANSAS
+                           Lawrence, Kansas
+
+
+                              PRINTED IN
+                       THE STATE PRINTING PLANT
+                            TOPEKA, KANSAS
+                                 1961
+
+                               28-7576
+
+
+
+
+                Fish Populations, Following a Drought,
+              In the Neosho and Marais des Cygnes Rivers
+                              of Kansas
+
+                                  BY
+
+                         JAMES EVERETT DEACON
+
+
+
+
+CONTENTS
+
+
+                                                            PAGE
+  INTRODUCTION                                               363
+
+  DESCRIPTION OF NEOSHO RIVER                                366
+
+  DESCRIPTION OF MARAIS DES CYGNES RIVER                     367
+
+  METHODS                                                    368
+    Electrical Fishing Gear                                  368
+    Seines                                                   369
+    Gill Nets                                                370
+    Sodium Cyanide                                           370
+    Rotenone                                                 370
+    Dyes                                                     370
+    Determination of Abundance                               371
+    Names of Fishes                                          371
+
+  ANNOTATED LIST OF SPECIES                                  371
+
+  FISH-FAUNA OF THE UPPER NEOSHO RIVER                       405
+    Description of Study-areas                               405
+    Methods                                                  406
+    Changes in the Fauna at the Upper Neosho Station,
+      1957 through 1959                                      407
+    Local Variability of the Fauna in Different Areas
+      at the Upper Neosho Station, 1959                      409
+    Temporal Variability of Fauna in the Same Areas          411
+    Population-Estimation                                    412
+    Movement of Marked Fish                                  416
+    Similarity of the Fauna at the Upper Neosho Station
+      to the Faunas of Nearby Streams                        418
+
+  COMPARISON OF THE FISH-FAUNAS OF THE NEOSHO AND MARAIS
+    DES CYGNES RIVERS                                        419
+
+  FAUNAL CHANGES, 1957 THROUGH 1959                          420
+
+  CONCLUSIONS                                                423
+
+  ACKNOWLEDGMENTS                                            425
+
+  LITERATURE CITED                                           425
+
+
+
+
+TABLES
+
+
+                                                                PAGE
+   1. Stream-flow in Cubic Feet per Second (C. F. S.), Neosho
+      River near Council Grove, Kansas                           364
+
+   2. Stream-flow in Cubic Feet per Second, Neosho River near
+      Parsons, Kansas                                            364
+
+   3. Stream-flow in Cubic Feet per Second, Marais des Cygnes
+      River near Ottawa, Kansas                                  364
+
+   4. Stream-flow in Cubic Feet per Second, Marais des Cygnes
+      River at Trading Post, Kansas                              365
+
+   5. Numbers and sizes of long-nosed gar                        372
+
+   6. Numbers and sizes of short-nosed gar                       374
+
+   7. Length-frequency of channel catfish from the Neosho River  388
+
+   8. Length-frequency of freshwater drum                        402
+
+   9. Average number of individuals captured per hour            402
+
+  10. Numbers of fish seen or captured per hour                  403
+
+  11. Numbers of occurrences and numbers counted                 404
+
+  12. Percentage composition of the fish fauna at the Upper
+      Neosho station in 1957, 1958 and 1959, as computed
+      from results of rotenone collections                       408
+
+  13. Relative abundance of fish                                 410
+
+  14. Changes in numbers of individuals                          411
+
+  15. Data used in making direct proportion
+      population-estimations                                     414
+
+  16. Data on movement of marked fish                            416
+
+
+
+
+INTRODUCTION
+
+
+This report concerns the ability of fish-populations in the Neosho and
+Marais des Cygnes rivers in Kansas to readjust to continuous stream-flow
+following intermittent conditions resulting from the severest drought in
+the history of the State.
+
+The variable weather in Kansas (and in other areas of the Great Plains)
+markedly affects its flora and fauna. Weaver and Albertson (1936)
+reported as much as 91 per cent loss in the basal prairie vegetative
+cover in Kansas near the close of the drought of the 1930's. The average
+annual cost (in 1951 prices) of floods in Kansas from 1926 to 1953 was
+$35,000,000. In the same period the average annual loss from the
+droughts of the 1930's and 1950's was $75,000,000 (in 1951 prices),
+excluding losses from wind- and soil-erosion. Thus, over a period of 28
+years, the average annual flood-losses were less than one-half the
+average annual drought-losses (Foley, Smrha, and Metzler, 1955:9;
+Anonymous, 1958:15).
+
+Weather conditions in Kansas from 1951 to 1957 were especially
+noteworthy: 1951 produced a bumper crop of climatological events
+significant to the economy of the State. Notable among these were:
+Wettest year since beginning of the state-wide weather records in 1887;
+highest river stages since settlement of the State on the Kansas River
+and on most of its tributaries, as well as on the Marais des Cygnes and
+on the Neosho and Cottonwood. The upper Arkansas and a number of smaller
+streams in western Kansas also experienced unprecedented flooding
+(Garrett, 1951:147). This period of damaging floods was immediately
+followed by the driest five-year period on record, culminating in the
+driest year in 1956 (Garrett, 1958:56). Water shortage became serious
+for many communities. The Neosho River usually furnishes adequate
+quantities of water for present demands, but in some years of drought
+all flow ceases for several consecutive months. In 1956-'57, the city of
+Chanute, on an emergency basis, recirculated treated sewage for potable
+supply (Metzler _et al._, 1958). The water shortage in many communities
+along the Neosho River became so serious that a joint project to pump
+water from the Smoky Hill River into the upper Neosho was considered,
+and preliminary investigations were made. If the drought had continued
+through 1957, this program might have been vigorously promoted. Data on
+stream-flow in the Neosho and Marais des Cygnes (1951-'59) are presented
+in Tables 1-4.
+
+These severe conditions provided a unique opportunity to gain insight
+into the ability of several species of fish to adjust to marked changes
+in their environment. For this reason, and because of a paucity of
+information concerning stream-fish populations in Kansas, the study here
+reported on was undertaken.
+
+  TABLE 1. STREAM-FLOW IN CUBIC FEET PER SECOND, NEOSHO RIVER
+  NEAR COUNCIL GROVE, KANSAS. DRAINAGE AREA: 250 SQUARE MILES.
+
+  =========================================================
+  WATER-YEAR[A]  | Average flow |   Maximum  |   Minimum  |
+  ---------------+--------------+------------+------------+
+  1951           |     498.0    |   121,000  |     3.0    |
+  1952           |      82.1    |     4,850  |      .7    |
+  1953           |       5.37   |       202  |      .1    |
+  1954           |       8.53   |     2,720  |      .1    |
+  1955           |      31.2    |     6,480  |     0      |
+  1956           |      10.1    |     5,250  |     0      |
+  1957           |      68.5    |    12,300  |     0      |
+  1958           |     131.0    |     5,360  |      .8    |
+  1959           |     114.0    |     7,250  |     8.5    |
+  ---------------+--------------+------------+------------+
+
+  TABLE 2. STREAM-FLOW IN CUBIC FEET PER SECOND, NEOSHO RIVER
+  NEAR PARSONS, KANSAS. DRAINAGE AREA: 4905 SQUARE MILES.
+
+  =========================================================
+  WATER-YEAR[B]  | Average flow |   Maximum  |   Minimum  |
+  ---------------+--------------+------------+------------+
+  1951           |    8,290     |  410,000   |  124.0     |
+  1952           |    2,021     |   20,500   |   20.0     |
+  1953           |      173     |    4,110   |     .3     |
+  1954           |      430     |   27,900   |     .1     |
+  1955           |      645     |   18,600   |    0       |
+  1956           |      180     |    6,170   |    0       |
+  1957           |    1,774     |   25,000   |    0       |
+  1958           |    3,092     |   27,200   |   78.0     |
+  1959           |    1,609     |   22,600   |  139.0     |
+  ---------------+--------------+------------+------------+
+
+  TABLE 3. STREAM-FLOW IN CUBIC FEET PER SECOND, MARAIS DES CYGNES
+  RIVER NEAR OTTAWA, KANSAS. DRAINAGE AREA: 1,250 SQUARE MILES.
+
+  =========================================================
+  WATER-YEAR     | Average flow |   Maximum  |   Minimum  |
+  ---------------+--------------+------------+------------+
+  1951           |    2,113     |   142,000  |     25.0   |
+  1952           |      542     |    12,000  |       .2   |
+  1953           |       36.5   |     2,690  |       .2   |
+  1954           |       73.6   |     5,660  |       .5   |
+  1955           |       75.7   |     5,240  |       .7   |
+  1956           |       26     |     1,590  |       .7   |
+  1957           |      442     |    11,200  |       .7   |
+  1958           |      775     |     9,130  |      5.6   |
+  ---------------+--------------+------------+------------+
+
+  TABLE 4. STREAM-FLOW IN CUBIC FEET PER SECOND, MARAIS DES CYGNES
+  RIVER AT TRADING POST, KANSAS. DRAINAGE AREA: 2,880 SQUARE MILES.
+
+  =========================================================
+  WATER-YEAR     | Average flow |   Maximum  |   Minimum  |
+  ---------------+--------------+------------+------------+
+  1951           |     5,489    |   148,000  |   36.0     |
+  1952           |     1,750    |    20,400  |    3.0     |
+  1953           |       261    |     7,590  |    0       |
+  1954           |       334    |    12,500  |    0       |
+  1955           |       786    |    16,100  |     .2     |
+  1956           |       202    |    10,000  |    0       |
+  1957           |       871    |    14,700  |    0       |
+  1958           |     2,453    |    20,400  |  120.0     |
+  [C]1959        |       750    |    10,900  |    3.4     |
+  ---------------+--------------+------------+------------+
+
+  [A] (Oct. 1-Sept. 30, inclusive)
+
+  [B] (Oct. 1-Sept. 30, inclusive)
+
+  [C] The gaging station was moved a short distance downstream
+      to the Kansas-Missouri state line.
+
+
+
+
+DESCRIPTION OF NEOSHO RIVER
+
+
+The Neosho River, a tributary of Arkansas River, rises in the Flint
+Hills of Morris and southwestern Wabaunsee counties and flows southeast
+for 281 miles in Kansas, leaving the state in the extreme southeast
+corner (Fig. 1). With its tributaries (including Cottonwood and Spring
+rivers) the Neosho drains 6,285 square miles in Kansas and enters the
+Arkansas River near Muskogee, Oklahoma (Schoewe, 1951:299). Upstream
+from its confluence with Cottonwood River, the Neosho River has an
+average gradient of 15 feet per mile. The gradient lessens rapidly below
+the mouth of the Cottonwood, averaging 1.35 feet per mile downstream to
+the State line (Anonymous, 1947:12). The banks of the meandering,
+well-defined channel vary from 15 to 50 feet in height and support a
+deciduous fringe-forest. The spelling of the name originally was
+"Neozho," an Osage Indian word signifying "clear water" (Mead,
+1903:216).
+
+  [Illustration: FIG. 1.  Neosho and Marais des Cygnes drainage
+  systems. Dots and circles indicate collecting-stations.]
+
+
+_Neosho River, Upper Station._--Two miles north and two miles west of
+Council Grove, Morris County, Kansas (Sec. 32 and 33, T. 15 S., R. 8 E.)
+(Pl. 28, Fig. 2, and Pl. 29, Fig. 1). Width 20 to 40 feet, depth to six
+feet, length of study-area one-half mile (one large pool plus many small
+pools connected by riffles), bottom of mud, gravel, and rubble. Muddy
+banks 20 to 30 feet high.
+
+According to H. E. Bosch (landowner) this section of the river dried
+completely in 1956, except for the large pool mentioned above. This
+section was intermittent in 1954 and 1955; it again became intermittent
+in the late summer of 1957 but not in 1958 or 1959.
+
+A second section two miles downstream (on land owned by Herbert White)
+was studied in the summer of 1959 (Sec. 3 and 10, T. 16 S., R. 8 E.)
+(Pl. 29, Fig. 2 and Pl. 30, Figs. 1 and 2). This section is 20 to 60
+feet in width, to five feet in depth, one-half mile in length (six small
+pools with intervening riffles bounded upstream by a low-head dam and
+downstream by a long pool), having a bottom of gravel, rubble, bedrock,
+and mud, and banks of mud and rock, five to 20 feet in height.
+
+
+_Neosho River, Middle Station._--One mile east and one and one-half
+miles south of Neosho Falls, Woodson County, Kansas (Sec. 3 and 4, T. 24
+S., R. 17 E.) (Pl. 26, Fig. 1). Width 60 to 70 feet, depth to eleven
+feet, length of study-area two miles (four large pools with connecting
+riffles), bottom of mud, gravel and rock. Mud and rock banks 30 to 40
+feet high.
+
+According to Floyd Meats (landowner) this section of the river was
+intermittent for part of the drought.
+
+
+_Neosho River, Lower Station._--Two and one-half miles west, one-half
+mile north of Saint Paul, Neosho County, Kansas (Sec. 16, T. 29 S., R.
+20 E.). Width 100 to 125 feet, depth to ten feet, length of study-area
+one mile (two large pools connected by a long rubble-gravel riffle),
+bottom of mud, gravel, and rock. Banks, of mud and rock, 30 to 40 feet
+high (Pl. 26, Fig. 2).
+
+This station was established after one collection of fishes was made
+approximately ten miles upstream (Sec. 35, T. 28 S., R. 19 E.). The
+second site, suggested by Ernest Craig, Game Protector, provided greater
+accessibility and a more representative section of stream than the
+original locality.
+
+
+
+
+DESCRIPTION OF MARAIS DES CYGNES RIVER
+
+
+The Marais des Cygnes River, a tributary of Missouri River, rises in the
+Flint Hills of Wabaunsee County, Kansas, and flows generally eastward
+through the southern part of Osage County and the middle of Franklin
+County. The river then takes a southeasterly course through Miami County
+and the northeastern part of Linn County, leaving the state northeast of
+Pleasanton. With its tributaries (Dragoon, Salt, Pottawatomie, Bull and
+Big Sugar creeks) the river drains 4,360 square miles in Kansas
+(Anonymous, 1945:23), comprising the major part of the area between the
+watersheds of the Kansas and Neosho rivers. The gradient from the
+headwaters to Quenemo is more than five feet per mile, from Quenemo to
+Osawatomie 1.53 feet per mile, and from Osawatomie to the State line
+1.10 feet per mile (Anonymous, 1945:24). The total length is
+approximately 475 miles (150 miles in Kansas). The river flows in a
+highly-meandering, well-defined channel that has been entrenched from 50
+to 250 feet (Schoewe, 1951:294). "Marais des Cygnes" is of French
+origin, signifying "the marsh of the swans."
+
+
+_Marais des Cygnes River, Upper Station._--One mile south and one mile
+west of Pomona, Franklin County, Kansas (Sec. 12, T. 17 S., R. 17 E.)
+(Pl. 27, Fig. 1). Width 30 to 40 feet, depth to six feet, length of
+study-area one-half mile (three large pools with short connecting
+riffles), bottom of mud and bedrock. Mud banks 30 to 40 feet high.
+
+According to P. Lindsey (landowner) this section of the river was
+intermittent for most of the drought. Flow was continuous in 1957, 1958
+and 1959.
+
+There are four low-head dams between the upper and middle Marais des
+Cygnes stations.
+
+
+_Marais des Cygnes River, Middle Station._--One mile east of Ottawa,
+Franklin County, Kansas (Sec. 6, T. 17 S., R. 20 E.) (Pl. 27, Fig. 2).
+Width 50 to 60 feet, depth to eight feet, length of study-area one-half
+mile (one large pool plus a long riffle interrupted by several small
+pools), bottom of mud, gravel, and rock. Mud and sand banks 30 to 40
+feet high.
+
+This section of the river was intermittent for much of the drought. In
+the winter of 1957-'58 a bridge was constructed over this station as a
+part of Interstate Highway 35. Because of this construction many trees
+were removed from the stream-banks, the channel was straightened, a
+gravel-bottomed riffle was rerouted, and silt was deposited in a
+gravel-bottom pool.
+
+
+_Marais des Cygnes River, Lower Station._--At eastern edge of Marais des
+Cygnes Wildlife Refuge, Linn County, Kansas (Sec. 9, T. 21 S., R. 25
+E.). Width 80 to 100 feet, depth to eight feet, length of study-area
+one-half mile (one large pool plus a long riffle interrupted by several
+small pools), bottom of mud, gravel, and rock. Mud banks 40 to 50 feet
+high.
+
+This section of the river ceased to flow only briefly in 1956.
+
+
+
+
+METHODS
+
+
+_Electrical Fishing Gear_
+
+The principal collecting-device used was a portable (600-watt, 110-volt,
+A. C.) electric shocker carried in a 12-foot aluminum boat. Two 2 x
+2-inch wooden booms, each ten feet long, were attached to the front of
+the boat in a "V" position so they normally were two feet above the
+surface of the water. A nylon rope attached to the tips of the booms
+held them ten feet apart. Electrodes, six feet long, were suspended from
+the tip and center of each boom, and two electrodes were suspended from
+the nylon rope. The electrodes extended approximately four feet into the
+water. Of various materials used for electrodes, the most satisfactory
+was a neoprene-core, shielded hydraulic hose in sections two feet long.
+These lengths could be screwed together, permitting adjustment of the
+length of the electrodes with minimum effort. At night, a sealed-beam
+automobile headlight was plugged into a six-volt D. C. outlet in the
+generating unit and a Coleman lantern was mounted on each gunwale to
+illuminate the area around the bow and along the sides of the boat (Pl.
+3a). In late summer, 1959, a 230-volt, 1500-watt generating unit,
+composed of a 115-volt, 1500-watt Homelite generator was used. It was
+attached to a step-up transformer that converted the current to 230
+volts. The same booms described above were used with the 230-volt unit,
+with single electrodes at the tip of each boom.
+
+A 5.5-horsepower motor propelled the boat, and the stunned fish were
+collected by means of scap nets. Fishes seen and identified but not
+captured also were recorded. On several occasions fishes were collected
+by placing a 25-foot seine in the current and shocking toward the seine
+from upstream.
+
+The shocker was used in daylight at all six stations in the three years,
+1957-'59. Collections were made at night in 1958 and 1959 at the middle
+Neosho station and in 1959 at the lower Neosho station.
+
+
+_Seines_
+
+Seines of various lengths (4, 6, 12, 15, 25 and 60 feet), with
+mesh-sizes varying from bobbinet to one-half inch, were used. The
+4-, 12-, and 25-foot seines were used in the estimation of relative
+abundance by taking ten hauls with each seine, recording all species
+captured in each haul, and making a total count of all fish captured in
+two of the ten hauls. The two hauls to be counted were chosen prior to
+each collection from a table of random numbers. Additional selective
+seining was done to ascertain the habitats occupied by different
+species.
+
+_Trap, Hoop, and Fyke Nets._--Limited use was made of unbaited trapping
+devices: wire traps 2.5 feet in diameter, six feet long, covered with
+one-inch-mesh chicken wire; hoop nets 1.5 feet to three feet in
+diameter at the first hoop with a pot-mesh of one inch; and a fyke net
+three feet in diameter at the first hoop, pot-mesh of one inch with
+wings three feet in length. All of these were set parallel to the
+current with the mouths downstream. The use of trapping devices was
+abated because data obtained were not sufficient to justify the effort
+expended.
+
+
+_Gill Nets_
+
+Gill-netting was done mostly in 1959 at the lower Neosho station. Use of
+gill nets was limited because frequent slight rises in the river caused
+nets to collect excessive debris, with damage to the nets.
+
+Gill nets used were 125 feet long, six feet deep, with mesh sizes of
+3/4 inch to 2-1/2 inches. Nets, weighted to sink, were placed at right
+angles to the current and attached at the banks with rope.
+
+
+_Sodium Cyanide_
+
+Pellets of sodium cyanide were used infrequently to collect fish from a
+moderately fast riffle over gravel bottom that was overgrown with
+willows, making seining impossible. The pellets were dissolved in a
+small amount of water, a seine was held in place, and the cyanide
+solution was introduced into the water a short distance upstream from
+the seine, causing incapacitated fish to drift into the seine. Most of
+these fish that were placed in uncontaminated water revived.
+
+
+_Rotenone_
+
+Rotenone was used in a few small pools in efforts to capture complete
+populations. This method was used to check the validity of other
+methods, and to reduce the possibility that rare species would go
+undetected. Rotenone was applied by hand, and applications were
+occasionally supplemented by placing rotenone in a container that was
+punctured with a small hole and suspended over the water at the head of
+a riffle draining into the area being poisoned. This maintained a toxic
+concentration in the pool for sufficient time to obtain the desired
+kill. Rotenone acts more slowly than cyanide, allowing more of the
+distressed fish to rise to the surface.
+
+
+_Dyes_
+
+Bismark Brown Y was used primarily at the upper Neosho station to stain
+large numbers of small fish. The dye was used at a dilution of 1:20,000.
+Fishes were placed in the dye-solution for three hours, then
+transferred to a live-box in midstream for variable periods (ten minutes
+to twelve hours) before release.
+
+
+_Determination of Abundance_
+
+In the accounts of species that follow, the relative terms "abundant,"
+"common," and "rare" are used. Assignment of one of these terms to each
+species was based on analysis of data that are presented in Tables 9-16,
+(pages 402, 403, 404, 405, 408, 410, 411, 414-415, and 416). The number
+of fish caught per unit of effort with the shocker (Table 10) and with
+seines (Table 11) constitute the main basis for statements about the
+abundance of each species at all stations except the upper Neosho
+station. Species listed in each Table (10 and 11) are those that were
+taken consistently by the method specified in the caption of the table;
+erratically, but in large numbers at least once, by that method; and
+those taken by the method specified but not the other method.
+
+For the species listed in Table 10, the following usually applies:
+abundant=more than three fish caught per hour; common=one to three fish
+caught per hour; rare=less than one fish caught per hour.
+
+Tables 12-16 list all fish obtained at the upper Neosho station by means
+of the shocker, seines, and rotenone.
+
+
+_Names of Fishes_
+
+Technical names of fishes are those that seem to qualify under the
+International Rules of Zoological Nomenclature. Vernacular names are
+those in Special Publication No. 2 (1960) of the American Fisheries
+Society, with grammatical modifications required for use in the
+University of Kansas Publications, Museum of Natural History.
+
+
+
+
+ANNOTATED LIST OF SPECIES
+
+
+#Lepisosteus osseus# (Linnaeus)
+
+Long-nosed Gar
+
+The long-nosed gar was abundant at the lower and middle Neosho stations
+and the lower Marais des Cygnes station. Numbers increased slightly in
+the period of study, probably because of increased, continuous flow. The
+long-nosed gar was not taken at the upper Neosho station. At lower
+stations the fish occurred in many habitats, but most commonly in pools
+where gar often were seen with their snouts protruding above the water
+in midstream. Gar commonly lie quietly near the surface, both by day and
+by night, and are therefore readily collected by means of the shocker.
+Twice, at night, gar jumped into the boat after being shocked.
+
+Young-of-the-year were taken at the middle and lower stations on both
+the Neosho and Marais des Cygnes rivers, and all were near shore in
+quiet water. Many young-of-the-year were seined at the lower Neosho
+station on 18 June 1959, near the lower end of a gravel-bar in a small
+backwater-area having a depth of one to three inches, a muddy bottom,
+and a higher temperature than the mainstream. Forty-three of these young
+gar averaged 2.1 inches in total length (T.L.).
+
+Comparison of sizes of long-nosed gar taken by means of the shocker and
+gill nets at the lower and middle Neosho stations revealed that: the
+average size at each station remained constant from 1957 to 1959; the
+average size was greater at the lower than at the middle station; and,
+with the exception of young-of-the-year, no individual shorter than 13
+inches was found at the middle station and only one shorter than 16
+inches was taken at the lower station (Table 5).
+
+Because collecting was intensive and several methods were used, I think
+that the population of gars was sampled adequately. Wallen (_Fishes of
+the Verdigris River in Oklahoma_, 1958:29 [mimeographed copy of
+dissertation, Oklahoma State University]) took large individuals in the
+mainstream of the Verdigris River in Oklahoma and small specimens from
+the headwaters of some tributaries. Because I took young-of-the-year at
+the lower Neosho station, it is possible that long-nosed gar move
+upstream when small and then slowly downstream to the larger parts of
+rivers as the fish increase in size. This pattern of size-segregation,
+according to size of river, merits further investigation.
+
+Ripe, spent, and immature long-nosed gar (38 males and 10 females) were
+taken in three gill nets, set across the channel, 150 to 500 yards below
+a riffle, at the lower Neosho station on June 16, 17, and 18, 1959. On
+23 June, 1959, 12 males and two females were taken in gill nets set 50,
+150, and 400 yards above the same riffle. Operations with the shocker
+between 24 June and 10 July, 1959, yielded 29 males and three females.
+The fish were taken from many kinds of habitat in a three-mile section
+of the river.
+
+Direction of movement as recorded from gill nets shows that of 67 gar
+taken, 45 had moved downstream and 22 upstream into the nets. Only ten
+of the above gar were taken from the nets set above the riffle; six of
+the ten were captured as they moved downstream into the nets.
+
+On one occasion I watched minnows swimming frantically about, jumping
+out of the water, and crowding against the shore, presumably to avoid a
+long-nosed gar that swam slowly in and out of view. I have observed
+similar activity when gar fed in aquaria. Stomachs of a few gar from the
+Neosho River were examined and found to contain minnows and some channel
+catfish.
+
+Long-nosed gar have a relatively long life span (Breder, 1936). This
+longevity and their ability to gulp air probably insure excellent
+survival through periods of adverse conditions. The population of
+long-nosed gar probably would not be drastically affected even in the
+event of a nearly complete failure of one or two successive hatches.
+Maturity is attained at approximately 20 inches, total length.
+
+Collections at the middle Neosho station in 1958 indicate that the
+long-nosed gar is more susceptible to capture at night than in daytime
+(Table 9, p. 402).
+
+  TABLE 5. NUMBERS AND SIZES OF LONG-NOSED GAR CAPTURED
+  BY SHOCKER AND GILL NETS AT THE MIDDLE AND LOWER NEOSHO
+  STATIONS IN 1957, 1958 AND 1959.
+
+                                     Average total
+  Location          Date   Number   length (inches)   Range
+
+  Middle Neosho     1957    19            22.2        14-32
+  Middle Neosho     1958    57            22.2        14-40
+  Middle Neosho     1959    64            21.6        13-43
+  Lower Neosho      1957    14            29.4         9-45
+  Lower Neosho      1958     7            25.3        23-28
+  Lower Neosho      1959   107            26.2        16-43
+
+
+#Lepisosteus platostomus Rafinesque#
+
+Short-nosed Gar
+
+Only one short-nosed gar was taken in 1957, at the lower station on the
+Neosho River. In 1958 this species was taken at the lower station on the
+Marais des Cygnes and in 1958 and 1959 at the lower and middle stations
+on the Neosho. More common in the Neosho than the Marais des Cygnes, _L.
+platostomus_ occurs mainly in large streams and never was taken in the
+upper portions of either river. Although short-nosed gar were about
+equally abundant at the middle and lower stations on the Neosho, the
+average size was greater at the lower station (Table 6). This kind of
+segregation by size is shared with long-nosed gar, and was considered in
+the discussion of that species. Short-nosed gar were taken only in quiet
+water. Both species were collected most efficiently by means of gill
+nets and shocker. While shocking, I saw many gar only momentarily, as
+they appeared at the surface, and specific identification was
+impossible. The total of all gar seen while shocking indicated that gar
+increased in abundance from 1957 to 1959 (see Tables 5 and 6). Judging
+from the gar that were identified, the increase was more pronounced in
+short-nosed gar than in long-nosed gar.
+
+At the lower Neosho station in 1959, two ripe females and one spent
+female were taken in gill nets (16, 23 and 17 June, respectively) and
+were moving downstream when caught. No males were taken in the nets.
+Subsequently, by means of the shocker (26 June-8 July), two spent and
+two ripe males were captured in quiet water of the mainstream that
+closely resembled areas in which the gill nets were set. No females were
+taken by means of the shocker.
+
+  TABLE 6. NUMBERS AND SIZES OF SHORT-NOSED GAR CAPTURED BY SHOCKER AND
+  GILL NETS AT THE MIDDLE AND LOWER NEOSHO STATIONS IN 1958 AND 1959.
+
+                                            Average total
+  Location                  Date   Number  length (inches)   Range
+
+  Middle Neosho             1958    6          14.9        13.9-15.5
+  Middle Neosho             1959    9          13.6        11.0-16.0
+  Lower Neosho              1958    3          21.0        20.3-21.6
+  Lower Neosho              1959    5          21.3        18.0-24.5
+
+
+#Dorosoma cepedianum# (LeSueur)
+
+Gizzard Shad
+
+Gizzard shad declined in abundance from 1957 to 1959. The largest
+population occurred at the middle station on the Marais des Cygnes in
+1957. Shad were mainly in quiet water; often, when the river-level was
+high, I found them predominately in backwaters or in the mouths of
+tributary streams. Examination of nine individuals, ranging in size from
+seven inches to 13.5 inches T. L., indicated that maturity is reached at
+10 to 11 inches T. L. Spawning probably occurred in late June in 1959
+("ripe" female caught on 26 June); young-of-the-year were first recorded
+in mid-July.
+
+
+#Cycleptus elongatus# (LeSueur)
+
+Blue Sucker
+
+The blue sucker was taken rarely in the Neosho River and not at all in
+the Marais des Cygnes in my study. Cross (personal communication)
+obtained several blue suckers in collections made in the mainstream of
+the Neosho River in 1952; both young and adults occupied swift, deep
+riffles. The species seemingly declined in abundance during the drought,
+and at the conclusion of my study (1959) had not regained the level of
+abundance found in 1952.
+
+
+#Ictiobus cyprinella# (Valenciennes)
+
+Big-mouthed Buffalo
+
+Big-mouthed buffalo were found in quiet water at all stations, but were
+rare. A ripe female, 21.5 inches long, was taken at the lower station on
+the Neosho on 16 June, 1959.
+
+
+#Ictiobus niger# (Rafinesque)
+
+Black Buffalo
+
+and
+
+#Ictiobus bubalus# (Rafinesque)
+
+Small-mouthed Buffalo
+
+Black buffalo were not taken at the upper station on the Neosho and were
+rare at other stations. Small-mouthed buffalo were taken at all stations
+and were common in the lower portions of the two streams. While the
+shocker was being used, buffalo were often seen only momentarily,
+thereby making specific identification impossible; both species were
+frequently taken together, and for this reason are discussed as a unit.
+Both species maintained about the same level of abundance throughout my
+study.
+
+The two species were taken most often in the deeper, swifter currents of
+the mainstream, but were sometimes found in pools, creek-mouths and
+backwaters. On several occasions in the summer of 1959, buffalo were
+seen in shallow parts of long, rubble riffles, with the dorsal or caudal
+fins protruding above the surface. Ernest Craig, game protector, said
+buffalo on such riffles formerly provided much sport for gig-fishermen.
+He stated that the best catches were made at night because the fish were
+less "spooky" then than in daytime. In my collections made by use of the
+shocker, buffalo were taken more frequently at night (Table 9, p. 402).
+
+On 19 June, 1959, I saw many buffalo that seemed to be feeding as they
+moved slowly upstream along the bottom of a riffle. The two species,
+often side by side, were readily distinguishable underwater.
+Small-mouthed buffalo appeared to be paler (slate gray) and more
+compressed than the darker black buffalo. To test the reliability of
+underwater identifications, I identified all individuals prior to
+collection with a gig. Correct identification was made of all fish
+collected on 19 June. The smallest individual obtained in this manner
+was 18.5 inches T. L. On 26 August, 1959, 16 small-mouthed buffalo were
+captured and many more were seen while the shocker was in use in the
+same riffle for one hour and ten minutes. One small-mouthed buffalo was
+caught while the shocker was being used in the pool below that riffle
+for one hour and fifty minutes. No black buffalo were taken on 26
+August.
+
+Spawning by buffalo was not observed but probably occurred in spring;
+all mature fish in my earliest collections (mid-June of each year) were
+spent. Small-mouthed buffalo reach maturity at approximately 14 inches
+T. L.
+
+
+#Carpiodes carpio carpio# (Rafinesque)
+
+River Carpsucker
+
+River carpsucker were abundant throughout the study at all stations.
+Adults were taken most frequently in quiet water, but depth and
+bottom-type varied. The greatest concentrations occurred in mouths of
+creeks during times of high water; occasionally, large numbers were
+taken in a shallow backwater near the head of a riffle at the middle
+Neosho station. River carpsucker feed on the bottom but seem partly
+pelagic in habit. They were taken readily by means of the shocker and
+gill nets at all depths. The population of _C. carpio_ in the Neosho
+River probably was depleted by drought, although many individuals
+survived in the larger pools.
+
+When stream-flow was restored, carpsucker probably moved rapidly
+upstream but had a scattered distribution in 1957. Trautman (1957:239)
+states that in the Scioto River, Ohio, river carpsucker moved upstream
+in May and downstream in late August and early September. Numbers found
+at the middle and lower Neosho stations suggest similar movements in the
+Neosho River in 1957. In midsummer they were common at the middle
+station but rare at the lower station; however, they became abundant at
+the lower station in November. The abundance in late fall at the lower
+Neosho station might have resulted either from downstream migration or
+from continued upstream movement into thinly populated areas. No
+indication of seasonal movement was found in 1958 or 1959.
+
+River carpsucker reach maturity at approximately 11 inches T. L., and
+spawning occurs in May or June. A ripe male was taken from a
+gravel-bottomed riffle, three feet deep, at the middle station on the
+Neosho station on 10 June 1959.
+
+The size-distribution of individuals taken at the middle Neosho station
+is presented in Fig. 2. The collection in early July of 1958 indicates
+that one size-group (probably the 1957 year-class) had a median length
+of approximately seven inches. The modal length of this group was nine
+inches in June, 1959. A second, predominant size-group (Fig. 2) seemed
+to maintain almost the same median size throughout all the collection
+periods, although specimens taken in the spring of 1959 were slightly
+smaller than those obtained in 1958. This apparent stability in size may
+have been due to an influx of the faster-growing individuals from a
+smaller size-group, coupled with mortality of most individuals more than
+14 inches in length.
+
+Young-of-the-year were taken at every station. Extensive seining along a
+gravel bar at the lower Neosho station indicated that the young are
+highly selective for quiet, shallow water with mud bottom. In these
+areas, young-of-the-year carpsucker were often the most abundant fish.
+
+River carpsucker were collected more readily by use of the shocker after
+dark than in daylight (Table 9, p. 402).
+
+  [Illustration: FIG. 2. Length-frequency of river carpsucker
+  in the Neosho River, 1958 and 1959.]
+
+
+#Carpiodes velifer# (Rafinesque)
+
+High-finned Carpsucker
+
+A specimen of _Carpiodes velifer_ taken at the lower station on the
+Neosho in 1958 provided the only record of the species in Kansas since
+1924. Many specimens, now in the University of Kansas Museum of Natural
+History, were taken from the Neosho River system by personnel of the
+State Biological Survey prior to 1912. The species has declined greatly
+in abundance in the past 50 years.
+
+
+#Moxostoma aureolum pisolabrum# Trautman
+
+Short-headed Redhorse
+
+The short-headed redhorse occurred at all stations. It was common at the
+middle and lower stations on the Neosho, rare at the upper station on
+the Neosho, abundant at the upper station on the Marais des Cygnes in
+1957, and rare thereafter at all stations on the Marais des Cygnes.
+Short-headed redhorse typically occur in riffles, most commonly at the
+uppermost end where the water flows swiftly and is about two feet deep.
+An unusually large concentration was seen on 13 June, 1959, in shallow
+(six inches), fast water over gravel bottom at the middle station on the
+Neosho River.
+
+Thirty-nine individuals were marked by clipping fins at the middle
+Neosho station in 1959. Four were recovered from one to 48 days later:
+two at the site of original capture (one 48 days after marking), one
+less than one-half mile downstream, and one about one mile downstream
+from the original site of capture.
+
+At the middle Neosho station in 1958, this species was taken more
+readily by use of the shocker at night than by day (Table 9, p. 402).
+
+
+#Moxostoma erythrurum# (Rafinesque)
+
+Golden Redhorse
+
+The golden redhorse was abundant at the upper Neosho station, rare at
+the middle Neosho station, and did not occur in collections at other
+stations. This species was taken most frequently over gravel- or
+rubble-bottoms in small pools below riffles, and was especially
+susceptible to collection by means of the shocker.
+
+Twenty-nine golden redhorse of the 1957 year-class, taken at the upper
+Neosho station on 9 September 1958, were 6.2 to 8.6 inches in total
+length (average 7.4 inches); 26 individuals of the same year-class
+caught on 21 August 1959 were 9.3 to 13.5 inches in total length
+(average 10.9 inches).
+
+
+#Cyprinus carpio# Linnaeus
+
+Carp
+
+The carp decreased in abundance from 1957 to 1959 at the upper and
+middle Marais des Cygnes station and at the middle and lower Neosho
+stations. Carp were more abundant in the Marais des Cygnes than in the
+Neosho, although the largest number in any single collection was found
+in one pool at the upper Neosho station in 1958.
+
+Carp were taken most commonly in quiet water near brush or other cover.
+At the middle Neosho station, collecting was most effective between the
+hours of 6:30 a.m. and 12:30 p.m. and least effective between 12:30 p.m.
+and 6:30 p.m. (Table 9, p. 402). Ripe males were taken as early as
+19 April (16.1 inches, 19.4 inches T. L.) and as late as 30 July (16
+inches T. L.) at the middle Neosho station. Ripe females were taken as
+early as 19 April at the middle Neosho station (19.2 inches T. L.) and
+as late as 7 July at the lower Neosho station (16 inches T. L.).
+Young-of-the-year were taken first at the middle Marais des Cygnes on 8
+July 1957. They were recorded on later dates at the upper Marais des
+Cygnes and at the lower and middle Neosho stations.
+
+
+#Notemigonus crysoleucas# (Mitchill)
+
+Golden Shiner
+
+The golden shiner was taken rarely at the upper Marais des Cygnes
+station in 1958 and 1959 and at the middle Marais des Cygnes station in
+1957 and 1958. At the middle Neosho station _Notemigonus_ was seined
+from a pond that is flooded frequently by the river, but never was taken
+in the mainstream.
+
+
+#Semotilus atromaculatus# (Mitchill)
+
+Creek Chub
+
+The creek chub was taken only at the upper stations on both rivers. It
+increased in abundance at the upper Neosho station from 1957 to 1959,
+and was not taken in the upper Marais des Cygnes until 1959.
+
+
+#Hybopsis storeriana# (Kirtland)
+
+Silver Chub
+
+A single specimen from the lower Marais des Cygnes station provides the
+only record of the species from the Marais des Cygnes system in Kansas,
+and is the only silver chub that I found in either river in 1957-1959.
+The species is taken often in the Kansas and Arkansas rivers.
+
+
+#Hybopsis x-punctata# Hubbs and Crowe
+
+Gravel Chub
+
+The gravel chub, present only at the lower and middle Neosho stations,
+occupied moderate currents over clean (free of silt) gravel bottom. The
+gravel chub was not taken in 1957, was rare at both Neosho stations in
+1958, became common at the lower Neosho station in part of 1959, but was
+never numerous at the middle Neosho station. Dr. F. B. Cross recorded
+the species as "rare" in 1952 at a collection site near my middle Neosho
+station, but larger numbers were taken then than in any of my
+collections at that station. The population was probably reduced by
+drought, and recovery was comparatively slow following restoration of
+flow.
+
+Young-of-the-year and adults were common in collections from riffles at
+the lower Neosho station from 1 July through 8 July, 1959. I obtained
+only one specimen in intensive collections in the same area on 25, 26,
+and 27 August. Seemingly the species had moved off shallow riffles into
+areas not sampled effectively by seining.
+
+
+#Phenacobius mirabilis# (Girard)
+
+Sucker-mouthed Minnow
+
+The sucker-mouthed minnow was common at the middle Marais des Cygnes
+station but was not taken at the upper and lower stations until 1959,
+when it was rare. At the middle and lower Neosho stations this fish
+increased in abundance from 1957 to 1959; at the upper station,
+sucker-mouthed minnows were not taken until 1959 when collections were
+made on the White farm. There, the species was common immediately below
+a low-head dam, but was not taken in extensive collections on the Bosch
+Farm in 1959.
+
+The species was most common immediately below riffles, or in other areas
+having clean gravel bottom in the current. On 5 June, 1959, many
+individuals were taken at night (11:30 p.m.) on a shallow gravel riffle
+(four inches in depth) where none had been found in a collection at 5:00
+p.m. on the same date.
+
+Young-of-the-year were taken at the lower Neosho station on 24 June,
+1959, and commonly thereafter in the summer.
+
+
+#Notropis rubellus# (Agassiz)
+
+Rosy-faced Shiner
+
+In 1958, the rosy-faced shiner was taken rarely at the lower stations on
+both streams. This species is common in smaller streams tributary to the
+lower portions of the two rivers, and probably occurs in the mainstream
+only as "overflow" from tributaries. Possibly, during drought,
+rosy-faced shiners found suitable habitat in the mainstream of Neosho
+and Marais des Cygnes rivers, but re-occupied tributary streams as their
+flow increased with favorable precipitation, leaving diminishing
+populations in the mainstream.
+
+
+#Notropis umbratilis# (Girard)
+
+Red-finned Shiner
+
+The red-finned shiner, most abundant at the upper Neosho station,
+occurred at all stations except the upper Marais des Cygnes. This fish
+seems to prefer small streams, not highly turbid, having clean, hard
+bottoms. It is a pool-dwelling, pelagic species.
+
+
+#Notropis camurus# (Jordan and Meek)
+
+Blunt-faced Shiner
+
+The blunt-faced shiner was taken only in 1957, at the middle Neosho
+station, where it was rare. This species, abundant in clear streams
+tributary to the Neosho River (field data, State Biological Survey) may
+have used the mainstream as a refugium during drought. The few specimens
+obtained in 1957 possibly represent a relict population that remained in
+the mainstream after flow in tributaries was restored by increased
+rainfall.
+
+
+#Notropis lutrensis# (Baird and Girard)
+
+Red Shiner
+
+The red shiner, abundant in 1952 (early stage of drought), was
+consistently the most abundant fish in my collections in the Marais des
+Cygnes and at the lower and middle Neosho stations. However, the
+abundance declined from 1957 to 1959 at the two Neosho stations. At the
+upper Neosho station the species was fourth in abundance in 1957, and
+third in 1958 and 1959 (Table 12).
+
+The red shiner is pelagic in habit and occurs primarily in pools, though
+it frequently inhabits adjacent riffles. Collections by seining along a
+gravel bar at the lower station showed this fish to be most abundant in
+shallow, quiet water over mud bottom, or at the head of a gravel bar in
+relatively quiet water. At the lower end of the gravel bar in water one
+to four feet deep, with a shallow layer of silt over gravel bottom and a
+slight eddy-current, red shiners were replaced by ghost shiners or river
+carpsucker young-of-the-year as the dominant fish.
+
+Fifty-nine dyed individuals were released in an eddy at the lower end
+of a gravel bar at the middle Neosho station on 5 June, 1959. Some of
+these fish still were present in this area when a collection was made 30
+hours later. No colored fish were taken in collections from quiet water
+at the upper end of the gravel bar. A swift riffle intervening between
+the latter area and the area of release may have impeded their movement.
+Forty-six individuals, released at the head of the same gravel bar on 10
+June, 1959, immediately swam slowly upstream through quiet water and
+were soon joined by other minnows. These fish did not form a
+well-organized school, but moved about independently, with individuals
+or groups variously dropping out or rejoining the aggregation until all
+colored fish disappeared about 50 feet upstream from the point of
+release.
+
+Evidence of inshore movement at night was obtained on 8 June, 1959, in a
+shallow backwater, having gravel bottom, at the head of a gravel bar at
+the middle Neosho station. A collection made in the afternoon contained
+no red shiners, but they were abundant in the same area after dark.
+
+In Kansas, red shiners breed in May, June, and July. Minckley
+(1959:421-422) described behavior that apparently was associated with
+spawning. Because of its abundance, the red shiner is one of the most
+important forage fishes in Kansas streams, and frequently is used as a
+bait minnow.
+
+
+#Notropis volucellus# (Cope)
+
+Mimic Shiner
+
+The mimic shiner was taken only rarely at the two lower Neosho stations.
+This species, like _N. camurus_, is normally more common in clear
+tributaries than in the Neosho River, and probably frequents the
+mainstream only during drought.
+
+
+#Notropis buchanani# Meek
+
+Ghost Shiner
+
+Field records of the State Biological Survey indicate that the ghost
+shiner was common in the mainstream of the lower Neosho River during
+drought. In 1957, the species was abundant at the lower and middle
+stations on the Neosho River and at the lower Marais des Cygnes station.
+
+Collections at all stations show that the species has a definite
+preference for eddies--relatively quiet water, but adjacent to the
+strong current of the mainstream rather than in backwater remote from
+the channel. The bottom-type over which the ghost shiner was found
+varied from mud to gravel or rubble.
+
+
+#Notropis stramineus# (Cope)
+
+Sand Shiner
+
+The sand shiner was taken rarely in the Neosho and commonly in the
+Marais des Cygnes in 1952. In my study the species occurred at all
+stations, but not until 1959 at the upper and lower Neosho stations.
+Sand shiners were found with equal frequency in pools and riffles.
+Spawning takes place in June and July.
+
+
+#Pimephales tenellus tenellus# (Girard)
+
+Mountain Minnow
+
+The mountain minnow was common at the lower and middle Neosho stations
+throughout the period of study, and increased in abundance from 1957 to
+1959. It was taken only in 1959 at the upper Neosho station, where it
+was rare. This species does not occur in the Marais des Cygnes River.
+The largest numbers were found in 1959 at the lower Neosho station,
+where this fish occurred most commonly in moderate current over clean
+gravel bottom. The mountain minnow, like _Hybopsis x-punctata_, was
+common in late June and early July but few were found in late August,
+1959. The near-absence of this species in collections made in late
+August is responsible for the apparent slight decline in abundance from
+1957 to 1959, as shown in Table 11. Metcalf (1959) found mountain
+minnows most commonly in streams of intermediate size in Chautauqua,
+Cowley and Elk counties, Kansas. The predilection of this species for
+permanent waters resulted in an increase in abundance during my study.
+With continued flow, this species possibly will decrease in abundance in
+the lower mainstream of the Neosho River. I suspect that the species is,
+or will be (with continued stream-flow), abundant in tributaries of
+intermediate size in the Neosho River Basin.
+
+
+#Pimephales vigilax perspicuus# (Girard)
+
+Parrot Minnow
+
+The parrot minnow was not taken in the Marais des Cygnes River and was
+absent at the upper Neosho station until 1959. This species was common
+at the lower and middle Neosho stations throughout the period of study
+and increased in abundance from 1957 to 1959.
+
+At the lower Neosho station, this fish preferred slow eddy-current over
+silt bottom, along the downstream portion of a gravel bar. The parrot
+minnow was taken less abundantly in the latter part of the summer, 1959,
+than in early summer, but the decline was less than occurred in the
+mountain minnow.
+
+
+#Pimephales notatus# (Rafinesque)
+
+Blunt-nosed Minnow
+
+The blunt-nosed minnow was common, and increased in abundance in both
+rivers from 1957 to 1959. The largest numbers were found at the upper
+Neosho station in 1959, and a large population also was present at the
+lower Neosho station in 1959.
+
+Pools having rubble bottom, bedrock, and small areas of mud were
+preferred at the upper Neosho station. At the lower Neosho station the
+fish was most common in quiet water at the lower end of a gravel bar.
+The parrot minnow also was common in this general area; nevertheless,
+these two species were seldom numerous in the same seine-haul,
+indicating segregation of the two. The blunt-nosed minnow was taken
+frequently in moderate current over clean gravel bottom, especially in
+late summer, 1959, when _P. notatus_ increased in abundance as the
+mountain minnow decreased.
+
+
+#Pimephales promelas# Rafinesque
+
+Fat-headed Minnow
+
+The fat-headed minnow was taken at all stations except at the lower one
+on the Marais des Cygnes, and was most abundant at the upper Neosho
+station. Intensive seining at the lower Neosho station indicated that
+this species preferred quiet water and firm mud bottom.
+
+In the Neosho River in 1957 to 1959, habitats of the species of
+_Pimephales_ seemed to be as follows: _Pimephales tenellus_ (mountain
+minnow) occurred primarily in moderately flowing gravel riffles in the
+downstream portions of the river. _Pimephales vigilax_ (parrot minnow)
+was mostly in the quiet areas having mud bottom at the downstream end of
+gravel bars, and less commonly on adjacent riffles, at the lower
+station. _Pimephales notatus_ (blunt-nosed minnow) had a wider range of
+habitats, occurring in quiet areas and moderate currents both upstream
+and downstream. _Pimephales promelas_ (fat-headed minnow) occurred
+throughout both rivers but was most abundant in the quiet water at the
+uppermost stations.
+
+
+#Campostoma anomalum# (Rafinesque)
+
+Stoneroller
+
+The stoneroller was most abundant at the upper Neosho station and was
+not taken at the lower Marais des Cygnes station. This fish increased in
+abundance from 1957 to 1959, but was never common at the middle Marais
+des Cygnes or the middle and lower Neosho stations.
+
+The stoneroller prefers fast, relatively clear water over rubble or
+gravel-bottom.
+
+
+#Ictalurus punctatus# (Rafinesque)
+
+Channel Catfish
+
+The abundance of channel catfish was greatly reduced as a result of the
+drought of 1952-1956. With the resumption of normal stream-flow in 1957,
+the small numbers of adult channel catfish present in the stream
+produced unusually large numbers of young. These young of the 1957
+year-class, which reached an average size of about nine inches by
+September 1959, will provide an abundant adult population for several
+years.
+
+The reduction in number of channel catfish in streams can be related to
+the changed environment in the drought. When stream levels were low in
+1953 (Tables 1-4), fish-populations were crowded into a greatly reduced
+area. An example of these crowded conditions was observed by Roy
+Schoonover, Biologist of the Kansas Forestry, Fish and Game Commission,
+in October, 1953, when he was called to rescue fish near Iola, Kansas.
+The Neosho River had ceased to flow and a pool (less than one acre)
+below the city overflow dam was pumped dry. Schoonover (personal
+communication) estimated that 40,000 fish of all kinds were present in
+the pool. About 30,000 of these were channel catfish, two inches to 14
+inches long, with a few larger ones. Fish were removed in the belief
+that sustained intermittency in the winter of 1953-1954 would result in
+severe winterkill. These conditions almost certainly were prevalent
+throughout the basin.
+
+In addition to winterkill, crowding probably resulted in a reduced rate
+of reproduction by channel catfish, and by other species as well. This
+kind of density-dependent reduction of fecundity is known for many
+species of animals (Lack, 1954, ch. 7). In fish, it is probably
+expressed by complete failure of many individuals to spawn, coupled with
+scant survival of young produced by the adults that do spawn.
+Reproductive failure of channel catfish in farm ponds, especially in
+clear ponds, is well known, and is often attributed to a paucity of
+suitable nest-sites (Marzolf, 1957:22; Davis, 1959:10).
+
+In the Neosho and Marais des Cygnes rivers, the intermittent conditions
+prevalent in the drought resulted in reduced turbidity in the remaining
+pools. Many spawning sites normally used by channel catfish were
+exposed, and others were rendered unsuitable because of the increased
+clarity of the water. In addition, predation on young channel catfish is
+increased in clear water (Marzolf; Davis, _loc. cit._), and would of
+course be especially pronounced in crowded conditions. The population
+was thereby reduced to correspond to the carrying capacity of each pool
+in the stream bed.
+
+The return of normal flow in 1957 left large areas unoccupied by fish
+and the processes described above were reversed. The expanded habitat
+favored spawning by nearly the entire adult population, and conditions
+for survival of young were excellent. As a result, a large hatch
+occurred in the summer of 1957. (Several hundred small channel catfish
+were sometimes taken by use of the shocker a short distance upstream
+from a 25-foot seine, set in a riffle). Subsequent survival of the 1957
+year-class has been good. By 1959, few of the catfish spawned in 1957
+had grown large enough to contribute to the sport fishery, but they are
+expected to do so in 1960 and 1961.
+
+The 1957 year-class was probably the first strong year-class of channel
+catfish since 1952. Davis (1959:15) found that channel catfish in Kansas
+seldom live longer than seven years. The 1952 year-class reached age
+seven in 1959. The extreme environmental conditions to which these fish
+were subjected in drought caused a higher mortality than would occur in
+normal times. The adult population in the two rivers probably was
+progressively reduced throughout the drought, and the reduction will
+continue until the strong 1957 year-class replenishes it. For these
+reasons, fishing success was poor in 1957-1959.
+
+Juvenile channel catfish were more abundant in the Neosho than in the
+Marais des Cygnes in 1958 and 1959, although both streams supported
+sizable populations. In the Marais des Cygnes the upper station had
+fewer channel catfish than the middle and lower stations. In the Neosho,
+populations were equally abundant both upstream and downstream. The
+habitat of channel catfish in streams has been discussed by Bailey and
+Harrison (1948).
+
+I found adults in various habitats throughout the stream, but most
+abundantly in moderately fast water at the lower and middle Neosho
+stations. At the upper Neosho station where riffles are shallow,
+yearlings and two-year-olds were numerous in many of the small pools
+over rubble-gravel bottom. Cover was utilized where present, but large
+numbers were taken in pools devoid of cover. Young-of-the-year were
+nearly always taken from rubble- or gravel-riffles having moderate to
+fast current at both upstream and downstream stations.
+
+Collections showed that young of 1957 were abundant on riffles
+throughout the summer and until 17 November, 1957. Subsequent
+collections were not made until 11 May, 1958, at which time 1957-class
+fish still were abundant on riffles at the lower Neosho station; on that
+date, the larger individuals were in deeper parts of the riffles than
+were smaller representatives of the same year-class.
+
+In a later collection (2 June, 1958), numbers present on the riffles
+were greatly reduced and the larger individuals were almost entirely
+missing. Some of the smaller individuals were still present in the
+shallower riffle areas. Table 7 compares sizes of the individuals
+obtained on 2 June with sizes collected from deep riffles at the middle
+Neosho station on 7 June, 1958. The larger size of the group present in
+deep riffles is readily apparent. The yearlings almost completely
+disappeared from subsequent collections on riffles.
+
+A bimodal size-distribution of young-of-the-year was noted also in 1958
+and 1959; but, no segregation of the two sizes occurred on riffles in
+summer. Marzolf (1957:25) recorded two peaks in spawning activity in
+Missouri ponds. Two spawning periods may account for the bimodal size
+distribution of young-of-the-year observed in my study.
+
+In 1959, young-of-the-year began to appear in the latter part of June
+and became abundant by the first part of July. Individuals as small as
+one inch T. L. were taken in gravel-bottomed riffles on 1 July, 1959.
+
+Yearling individuals at the lower and middle Neosho stations showed a
+pronounced tendency to move into shallow, moderately fast water over
+rubble or gravel bottom at night, where they were nearly ten times more
+abundant than in daytime (Table 9). Adults probably have the same
+pattern of daily movement as yearlings, except that at night the adults
+move to deeper riffles. Bailey and Harrison (1948:135-136) demonstrated
+that channel catfish feed most actively from sundown to midnight.
+
+Channel catfish (especially two-year-olds and adults) were abundant on
+a rubble-riffle during the day in some collections at the lower Neosho
+station in 1959.
+
+  TABLE 7. LENGTH-FREQUENCY OF CHANNEL CATFISH FROM THE NEOSHO RIVER,
+  1957, 1958 AND 1959. (NUMBERS IN VERTICAL COLUMNS INDICATE THE
+  NUMBER OF INDIVIDUALS OF A CERTAIN SIZE COLLECTED ON THAT DATE.)
+
+                            June 2    June 7
+                             1958      1958
+  Length          Nov. 2   (shallow   (deep    Sept. 9   Sept. 11
+  in inches        1957     riffle)  riffle)    1958       1959
+
+   1.5                                             1
+   2.0              3
+   2.5             13         2                    1          2
+   3.0              4        11                    3          4
+   3.5              3        21          7         1         14
+   4.0                       11         12                    9
+   4.5                        4         10         1
+   5.0                        2         11         2
+   5.5                        1          7        26
+   6.0                                            58          2
+   6.5                                   1        32          5
+   7.0                                            16          5
+   7.5                                   1         4          5
+   8.0                                                       22
+   8.5                                                       45
+   9.0                                                       81
+   9.5                                                       41
+  10.0                                                       21
+  10.5                                                        8
+  11.0                                                        4
+  11.5                                                        1
+  12.0                                                        3
+  12.5                                                        1
+  13.0                                                        1
+
+Near the end of the spawning season in 1959, I found spawning catfish at
+the lower Neosho station. Ripe females were taken between 9 June and 30
+June, 1959; and, on 19 June I found a channel catfish nest with eggs
+(water temp. 79 deg. F.). The nest-site was a hole in the base of a clay
+bank; the floor was clean gravel with a small mound of gravel at the
+entrance. The nest-opening, five to six inches in diameter, widened
+almost immediately into a chamber about two and one-half feet long and
+one foot wide. Normally the water was about six inches deep in the
+mainstream as it ran over a riffle adjacent to the catfish nest. When
+I put my hand into the opening the fish bit vigorously, but became
+quiescent when I stroked its belly. I then felt the rounded gelatinous
+mass of eggs on the bottom of the nest. On June 22 (water temp. 86 deg. F.)
+the fish was removed, struggling, from the nest, and returned to the
+stream. The next day (23 June 1959, water temp. 84 deg. F.) the eggs had
+hatched and the young were in a swarm in the nest. The adult did not
+attempt to bite but left as soon as I put my hand into the hole.
+
+Marzolf (1957:25) reports that young remain in the nest from seven to
+eight days after hatching. My seining records show a marked increase in
+abundance of small young-of-the-year on the first of July. Probably the
+time of hatching of the nest described above correlated well with
+hatches of other nests.
+
+One and sometimes two channel catfish were found in other holes in
+the stream-bank or bottom. The fish occasionally attacked my hand
+vigorously, but at other times remained quiet or left without attacking.
+No other channel catfish eggs were found, although one hole under a rock
+in the middle of the river had one or two individuals in it each time it
+was checked until 11 July, 1959. A local fisherman informed me of his
+belief that these holes are occupied only in the spawning season.
+
+Observations that I made in a pond owned by Dr. E. C. Bryan of Erie
+indicated that channel catfish, when disturbed in the early stages of
+guarding the eggs, either eat the eggs and abandon the nest or leave the
+nest exposed to predation by other animals. In the later stages of
+nesting, the fish, if removed, will return to guard the nest. After the
+eggs hatch the guarding response probably diminishes and the fish leaves
+the nest readily.
+
+At the lower Neosho station, several "artificial" holes were dug into
+the clay bank and two pieces of six-inch pipe were forced into the bank.
+Nearly all these holes were occupied by catfish for a short period in
+June; many of the holes were enlarged, either by the current or by fish.
+I suspect that fish enlarged some holes, because in the spawning season
+several males were observed that had large abrasions atop their heads,
+around their lips, and to a lesser extent on their sides. These could
+have been caused by butting and scraping the sides, roof and floor of a
+hole. I found it possible to enlarge the holes by rapidly moving my hand
+while it was inside a hole.
+
+The growth-rate of channel catfish in the Neosho was approximately the
+same at all stations, and the large 1957 year-class grew to an average
+size of about nine inches by mid-September, 1959 (Table 7). Channel
+catfish mature at a total length of 12 to 15 inches. Thus, most
+individuals of the 1957 year-class in the Neosho River probably will
+mature in their fourth or fifth summer (1960 or 1961 spawning season).
+
+The sizes attained by young-of-the-year in 1957 differed in the two
+rivers. Six hundred and thirty-three young taken in the Marais des
+Cygnes River attained an average size of 4.7 inches (range two to six
+inches) by mid-September. (Age was determined by length-frequency and
+verified by examining cross-sections of fin-spines from the larger
+individuals). One hundred and fifty young from the Neosho River averaged
+3.0 inches (range 2 to 3.7 inches) on 2 November. Gross examination of
+the riffle-insect faunas indicated a larger standing crop in the Neosho
+than in the Marais des Cygnes River. Thus, the slower growth of young
+channel catfish in the Neosho seemed not to be correlated with food
+supply. Bailey and Harrison (1948:125-130) found that young channel
+catfish in the Des Moines River, Iowa, fed almost exclusively on aquatic
+insect larvae. My observations indicate that this is true in the Neosho
+and Marais des Cygnes rivers also.
+
+Young produced in 1958 in the Neosho River attained an average total
+length of three inches by 26 August, and young produced in 1959 attained
+an average size of 3.5 inches by 11 September. Both groups probably
+continued growth until October, and may have averaged four inches total
+length at that time.
+
+The 1958 and 1959 year-classes were much less abundant than were the
+1957 young. Therefore, it seems likely that the growth of the 1957 young
+in the Neosho River was depressed because of crowding. The 1959
+year-class was larger than the small 1958 year-class, thus conforming to
+a general expectation that strong year-classes will be followed by weak
+year-classes.
+
+Reproduction by channel catfish in 1957 seemed greater in the Neosho
+River than in the Marais des Cygnes River (Table 10); this coincided
+with a greater change in volume of flow in the Neosho River than in the
+Marais des Cygnes River (Tables 1-4). The 1957 year-class seemed more
+crowded, and grew more slowly, in the Neosho than in the Marais des
+Cygnes River.
+
+
+#Ictalurus natalis# (LeSueur)
+
+Yellow Bullhead
+
+Yellow bullhead were taken only at the middle station on the Marais des
+Cygnes and upper station on the Neosho. The yellow bullhead is more
+restricted to streams than is the black bullhead. Both species decreased
+in abundance during a period of continuous flow (1957 to 1959) following
+drought at the upper Neosho station. Collections in 1958-'59 indicated
+an increase in average size. Of four individuals marked and released at
+the upper Neosho station in 1959, one was recaptured about three hours
+after being released. It had not moved from the area of release.
+
+
+#Ictalurus melas# (Rafinesque)
+
+Black Bullhead
+
+The black bullhead was abundant at the upper stations on each river,
+especially in backwaters having mud-bottom. The species was not taken in
+the mainstream of the lower and middle Neosho stations, but was taken at
+the middle Neosho station in a pond that is often flooded by the river.
+Although the fish was common or abundant in nearly all pools at the
+upper Neosho station, it was most abundant in one pool that had a bottom
+predominately of mud.
+
+At the middle Marais des Cygnes station, 109 individuals were collected
+and fin-clipped on 8, 9 and 24 July 1957. Three of the 19 marked on 8
+July were recaptured in the same area on 9 July. The area was poisoned
+on 13 September, 1957, and 130 black bullhead were taken, none of which
+had been marked.
+
+In 1959, 96 black bullhead were taken at the upper Neosho station (five
+in Area 1 and 91 at the White Farm). In these collections, 25 were
+marked (fin-clipped or dyed) and six were recaptured. Four of the six
+had not left the area of capture one and two days after being released.
+The fifth fish recaptured was one of five individuals that had been
+displaced one pool downstream. When recaptured seven days later, this
+fish had moved upstream over two steep riffles (two to three inches
+deep, 75 feet and 166 feet long) past the site of original capture to
+the next pool. The sixth fish, marked at the same time but returned to
+the original pool, was recaptured nine days after original capture and
+had moved upstream over a long riffle (two to three inches deep, 166
+feet long) and a short riffle into the second pool above the original
+site of its capture.
+
+Rotenone was applied to a small (.04 acre-feet) backwater ditch having a
+soft mud bottom at the upper Marais des Cygnes station on 25 July, 1957;
+1526 black bullhead, one green sunfish and one white crappie were
+collected. A sample of 60 bullhead averaged 4.6 inches T.L. (range 3.5
+to 6.6 inches) and 540 individuals averaged .7 ounce each. These fish
+probably represented the 1956 year-class.
+
+The upper Neosho station had a large population of black bullhead,
+strongly dominated by fish less than four inches T. L. (range 1.5 to 3.8
+inches), in the spring of 1957. Most were approximately two inches T.
+L. and probably represented the 1956 year-class. Growth, according to
+length-frequency, following restoration of stream-flow, shows a regular
+increase in length of this dominant 1956 year-class (Fig. 3). A scarcity
+of young, especially in 1958 and 1959, is apparent in Fig. 3. This may
+be due to the fact that a strong year-class usually is followed by one
+or several weak year-classes. However, it more probably reflects the
+fact that black bullhead are characteristically pond fish, and as such
+are not so well adapted to reproduction in flowing streams as are many
+other species. Metcalf (1959) found this species most abundantly in the
+intermittent headwaters of Walnut River and Grouse Creek in Cowley
+County, Kansas.
+
+  [Illustration: FIG. 3. Length-frequency of black bullhead
+  at the upper Neosho station, 1957, 1958 and 1959.]
+
+
+#Pylodictis olivaris# (Rafinesque)
+
+Flat-headed Catfish
+
+The flathead is the largest sport-fish occurring in Kansas. Several
+weighing more than 40 pounds are caught from streams each year, and the
+species reportedly attains sizes in excess of one hundred pounds.
+Several aspects of the biology of the flathead in Kansas have been
+discussed by Minckley and Deacon (1959).
+
+The abundance of flathead declined slightly from 1957 through 1959,
+counting fish of all sizes. This trend is attributable to a large hatch
+in 1957; the 1957 year-class strongly dominated the population
+throughout my study. Natural mortality in that year-class was
+compensated by increased average size of the individuals (to six inches
+in autumn, 1958, and 11 inches in autumn, 1959).
+
+The numbers of flathead caught at the upper stations on the Neosho and
+Marais des Cygnes rivers differed from the general trend in that the
+species was rare in 1957 and increased slightly by 1959. Flathead are
+most numerous in large streams, and in the drought they probably were
+almost extirpated from the headwaters. After 1957, continuous flow and
+increased volume of flow were accompanied by a gradual increase in
+numbers of flathead in the upstream parts of the two rivers. The species
+was most abundant at the middle and lower Neosho stations, where 10.5
+per cent of all fish shocked in 1957 and 1958 were _P. olivaris_.
+
+The habitat of the flathead varied with size of the individuals.
+Young-of-the-year inhabited swift riffles having rubble bottom;
+individuals four to 12 inches in total length were distributed
+throughout the stream; those more than 12 inches in total length were
+most commonly in pools in association with cover (rocks, or drifts of
+fallen timber).
+
+Male flathead mature at 15 to 18 inches total length, females at 18 to
+20 inches. The spawning season in 1959 probably began in early June and
+extended to mid-July. I attempted to find spawning fish on 19 June and
+for one month thereafter. On 19 June nine holes were dug into a 75-yard
+section of a clay bank adjacent to a long, shallow, rubble riffle.
+A flathead was first found in one of these holes on 22 June, and
+others were frequently found in this and one other hole until mid-July.
+Although channel catfish were often found in nearby holes, that
+species was never present in the two holes used by flatheads. The
+holes occupied by flathead (as well as those used by channel catfish)
+characteristically had silt-free gravel bottoms and a ridge of clean
+gravel across the entrance.
+
+A nest containing a flathead and eggs was located on 11 July. In
+checking the hole I first put my foot into the entrance, then slowly
+advanced my hand into the hole, feeling along the bottom with my fingers
+until they entered the open mouth of a large catfish. I backed off
+slowly and then felt beneath the fish. The fish was directly above the
+egg-mass, seemingly touching the eggs with its belly. As I touched the
+front of the egg-mass the fish struck viciously, taking my entire fist
+into its mouth. It continued striking until I removed my hand from the
+hole after obtaining a small sample of eggs, which proved to be in an
+early stage of development (no vascularization evident).
+
+When the nest was checked again on 13 July the eggs and fish were gone.
+As in the case of channel catfish, I suspect that disturbance of a
+flathead in the early stages of guarding the nest results in destruction
+of the nest either by the guardian fish or by predation resulting from
+its absence.
+
+The hole occupied by the above fish was one that I had dug seven to nine
+inches in diameter and extending two and one-half to three feet into the
+bank. At the time this fish occupied the hole its depth was
+approximately the same as originally, but the entrance had been enlarged
+to 14 inches in diameter, and the chamber widened to 32 inches. The
+holes were checked later in the summer and all were heavily silted or
+had been undercut by action of the current.
+
+The number of flathead of catchable size was not reduced as severely
+during my study as was the number of large channel catfish. Flathead
+have a longer life-span than channel catfish; therefore, it is not
+surprising that, of flathead and channel catfish that survived the
+drought, a higher proportion of flathead persisted throughout the next
+three years, in which my study was made. In drought, when fish were
+concentrated in residual pools, the piscivorous (fish eating) habit of
+flatheads may have favored their survival.
+
+The growth rate of flathead taken from the Neosho River in 1957 and 1958
+was reported by Minckley and Deacon (1959:351-352). Individuals hatched
+in 1955 and 1956 and collected in 1957 had attained average sizes of 9.5
+inches and 4.8 inches, respectively, by the end of the 1956
+growing-season.
+
+Flatheads of the 1956 and 1957 year-classes attained average sizes of
+8.7 and 3.2 inches, respectively, by the end of the 1957 growing season.
+These data indicate that growth was retarded in the summer of 1957. Many
+species, including _P. olivaris_, had an exceptionally large hatch in
+1957, associated with increased water levels in that year. Despite the
+great increase in amount of water, I suppose that young-of-the-year and
+yearlings were subjected to crowding resulting from exceptional hatches.
+This caused reduction in growth of young flathead, and probably in
+several other species.
+
+Food of flatheads 4.0 inches and shorter was nearly all insect larvae;
+that of fish 4.1 to 10 inches was insect larvae, fishes and crayfish;
+and that of larger flatheads was mostly fish and crayfish. The specific
+kind of food eaten was correlated with abundance of the food item in the
+stream (Minckley and Deacon, 1959:350-351).
+
+
+#Noturus flavus# Rafinesque
+
+Stonecat
+
+The stonecat was not taken at the upper Marais des Cygnes station, and
+was less abundant at the middle Marais des Cygnes station than at other
+stations. The abundance of the stonecat was greatest at the lower Marais
+des Cygnes station in 1957 and at the upper Neosho station in 1959. The
+species increased in abundance from 1957 to 1959 in the Neosho River,
+where the principal habitat was riffles over rubble bottom.
+
+Thirty-three stonecats were marked at the upper Neosho station in 1959.
+Five of these were recaptured three hours after release, all near the
+point of release. One individual was taken from a riffle, fin-clipped,
+and released at the foot of the next riffle downstream. When recaptured
+four days later, this fish was still in the area of release.
+Young-of-the-year were taken on July 1, 1959, at the lower Neosho
+station.
+
+
+#Noturus gyrinus# (Mitchill)
+
+Tadpole Madtom
+
+Trautman (1957:444-445) describes the habitat of the tadpole madtom as
+"low-gradient lowland streams, springs, marshes, oxbows, pothole lakes,
+and protected harbors and bays of Lake Erie, where conditions were
+relatively stable, the water was usually clear, the bottom was of soft
+muck which generally contained varying amounts of twigs, logs, and
+leaves, and where there usually was an abundance of such rooted aquatics
+as pondweeds and hornwort. The species seemed to be highly intolerant to
+much turbidity and rapid silting,..." The tadpole madtom was obtained
+only at the middle Marais des Cygnes station in a small, deep,
+mud-bottomed pool in 1957 after water levels, and probably turbidity,
+had been low for five years. The occurrence provides the westernmost
+record station in Kansas. Cross and Minckley (1958:106) reported the
+species from the lower part of the Marais des Cygnes in Kansas.
+
+
+#Noturus nocturnus# Jordan and Gilbert
+
+Freckled Madtom
+
+The freckled madtom was taken only at the middle Neosho station on 19
+April, 1958. This species occurs most frequently in small streams, and
+individuals living in the mainstream of the Neosho probably are
+"strays" from nearby tributaries. This species may have utilized the
+mainstream as a refugium in the drought of 1952-'56.
+
+
+#Noturus exilis# Nelson
+
+Slender Madtom
+
+The slender madtom was taken only at the middle Marais des Cygnes
+station in the fall of 1957. This species prefers permanent riffles of
+clear streams (Deacon and Metcalf, 1961:317). My specimen possibly
+strayed from a nearby tributary; or, it was a relict from a population
+living in the mainstream during drought.
+
+
+#Noturus sp.#
+
+Neosho Madtom
+
+A description of this species, which is endemic to Neosho River, has
+been prepared but not yet published by Dr. W. Ralph Taylor. I found the
+Neosho madtom only at the middle station in 1958 and 1959, and at the
+lower station in 1959, where the species was common in shallow water
+having moderate current over clean gravel bottom. Specimens were most
+effectively collected by digging into the gravel above the seine and
+allowing the gravel to wash into the seine. In 1952, Cross (1954:311)
+found this species in abundance in riffles at the confluence of the
+South Fork and Cottonwood River, and at several other localities in the
+Neosho mainstream (personal communication). The Neosho madtom is nearly
+restricted to gravel riffles having moderate flow; therefore, it may be
+drastically reduced by intermittency of flow. I found none in 1957 and
+few in 1958. By 1959, the third summer of continuous flow, the Neosho
+madtom was again common.
+
+
+#Fundulus notatus# (Rafinesque)
+
+Black-striped Topminnow
+
+The black-striped topminnow was rare in the mainstream at the lower
+Marais des Cygnes and the middle and lower Neosho stations, where it was
+found in quiet water near shore.
+
+Near the middle Neosho station, a large population was present in an
+oxbow lake that is frequently flooded by the river.
+
+
+#Labidesthes sicculus# (Cope)
+
+Brook Silversides
+
+The brook silversides occurred rarely at the lower Marais des Cygnes and
+at the middle and lower Neosho stations.
+
+
+#Micropterus dolomieui# Lacepede
+
+Small-mouthed Bass
+
+One individual was taken at the lower Neosho station in 1957.
+
+
+#Micropterus punctulatus punctulatus# (Rafinesque)
+
+Spotted Bass
+
+The spotted bass occurs in Kansas only in the southeastern part of the
+state--in southern tributaries of the Osage system, in Spring River
+drainage, and in relatively clear streams of the Flint Hills. At my
+stations on the Neosho River, this fish was more abundant in 1957 than
+in 1958 or 1959.
+
+Spotted bass were taken most frequently over rubble bottom or near
+boulders in moderate current. Collections made in the evening or early
+morning more often contained spotted bass than collections made at other
+times of day (Table 9). Data from a few specimens that were marked,
+released, and recaptured indicated that the species is relatively
+sedentary; therefore, the greater abundance in the morning and evening
+collections probably indicates increased activity during these periods,
+possibly in connection with feeding. The spawning season in 1957 may
+have continued as late as 10 July when a ripe female 11.3 inches T. L.
+was taken. Young-of-the-year were taken on 24 June in moderate current
+over gravel bottom and in quiet water over mud bottom.
+
+Spotted bass normally form a small part of the game-fish fauna in the
+lower Neosho River. The species attains greater abundance in smaller,
+clear streams of the Arkansas River Basin in Kansas (Cross, 1954, and
+unpublished data of State Biological Survey of Kansas). During the
+drought, the lower Neosho probably assumed many characteristics of a
+smaller stream in normal times. Flow was reduced or entirely interrupted
+and turbidity was lessened. These conditions resulted in faunal changes
+in which spotted bass were more prominent than in years of normal flow.
+During this period of reduced flow, some fishermen turned from
+catfishing to bass-fishing; I think this constitutes evidence for an
+increase in numbers of bass, accompanied by a decrease in numbers of
+channel catfish. With the return of continuous flow and a consequent
+rise in turbidity, bass declined in abundance in the mainstream.
+
+
+#Micropteras salmoides salmoides# (Lacepede)
+
+Large-mouthed Bass
+
+The large-mouth was rare at all stations. It prefers quiet water near
+cover; to become abundant, the large-mouth probably requires clearer
+water than is afforded by most Kansas streams. This species, like
+spotted bass, declined in abundance during the period of study.
+Nevertheless, young-of-the-year were taken in 1957 and 1958 (earliest
+date of capture, 7 June in 1958).
+
+
+#Lepomis cyanellus# Rafinesque
+
+Green Sunfish
+
+Green sunfish were taken at all stations, but most abundantly at the
+upper Neosho station where the number captured increased slightly from
+1957 to 1959. Young-of-the-year and adults were most common in shallow
+backwater. At the upper Neosho station green sunfish inhabit quiet
+pools, where recaptures of marked fish indicated that the species is
+notably sedentary in habit. Hasler and Wisby (1958) have shown that
+green sunfish exhibit a homing reaction.
+
+This fish provides some sport for fishermen, especially in the smaller
+streams, but I found few green sunfish that were larger than six inches
+T. L. at any station.
+
+
+#Lepomis megalotis# (Rafinesque)
+
+Long-eared Sunfish
+
+Long-eared sunfish were taken at all stations but were notably more
+abundant in the Neosho River, where the largest population occurred at
+the upper station. In all three years of the study, large samples were
+obtained by means of rotenone in the same pool at the upper Neosho
+station. There were fewer long-eared sunfish present each year, and
+average size increased slightly. Collections in other pools at this
+station indicated that long-eared sunfish maintained a high level of
+abundance throughout my study.
+
+Long-eared sunfish occurred in pools having bottoms of gravel or bedrock
+at the upper Neosho station, or near shore over rubble or gravel in slow
+to moderate current at the middle Neosho station.
+
+
+#Lepomis humilis# (Girard)
+
+Orange-spotted Sunfish
+
+The orange-spotted sunfish occurred at all stations; it was most
+abundant in the Neosho River, especially at the uppermost station. This
+fish was taken in a variety of habitats, but was most common in areas
+where the current was slack, often over mud or silt bottom.
+
+
+#Lepomis macrochirus# Rafinesque
+
+Bluegill
+
+Bluegill were taken at all stations but were rare. This species occurred
+exclusively in pools, usually near cover (brush or trees in the water).
+Bluegill are predominately pond-fish in Kansas, and populations in
+rivers may consist partly of individuals that escaped from ponds in time
+of overflow. I know of no stream in Kansas that has a population large
+enough to contribute significantly to the sport fishery.
+
+
+#Pomoxis nigromaculatus# (LeSueur)
+
+Black Crappie
+
+This species was represented by only one specimen, taken at the lower
+Neosho station in 1957.
+
+
+#Pomoxis annularis# Rafinesque
+
+White Crappie
+
+White crappie were taken at all stations, but were common only at the
+upper and middle stations on the Marais des Cygnes and the upper Neosho
+station. At the last station, this fish was abundant in a single large
+pool that contained much more water during drought than any other area
+at this station. There was little dispersal into several smaller pools,
+below the large pool, which were sampled in 1957, 1958 and 1959. White
+crappie were not taken in the lower pools until 1959, and then were
+rare. Most crappie were taken in quiet water near cover or near shore.
+
+Young-of-the-year were found in 1957, 1958 and 1959, but never
+abundantly. At the lower Neosho station in 1959, ripe individuals were
+collected on 19 June, a spent female on 24 June, and young-of-the-year
+on 1 July. The young were present in quiet, shallow water over mud
+bottom at the lower end of a gravel bar. Large white crappie (10-14
+inches T. L.) were common at the middle and lower Neosho stations in
+1957 and in April, 1958. Large fish were almost entirely absent from
+later collections. Average size, maximum size and abundance declined
+during the period of study.
+
+
+#Percina phoxocephala# (Nelson)
+
+Slender-headed Darter
+
+The slender-headed darter was taken at all stations but was more
+abundant in the Neosho than in the Marais des Cygnes. The lower Marais
+des Cygnes, however, was the only station with a relatively large
+population in 1957. Slender-headed darters were rare in the Neosho River
+in 1957 and did not become common until 1959.
+
+The largest population was found at the upper Neosho station in 1959.
+This darter occurs most frequently in swift water over gravel bottom,
+but was taken in various habitats, including an intermittent pool at the
+upper Neosho station on 7 September, 1957.
+
+At the middle and lower Neosho stations, considerably greater numbers
+were taken in June, July, and early August than in May or late August.
+The abundance in my collections diminished from a peak in early July, to
+scarcity in late August.
+
+Young-of-the-year were taken at the lower Neosho station on 1 July, 1959
+(and subsequently), in moderately fast water over gravel. On 21 August,
+1958, a ripe female (eggs stripped easily) was the only slender-headed
+darter present in a collection from riffles at the middle Neosho
+station.
+
+
+#Percina caprodes# (Rafinesque)
+
+Logperch
+
+Logperch were not taken in the Marais des Cygnes. They were rare in the
+Neosho, where they were taken most frequently at the upper station in
+water two to three feet deep, over gravel bottom, in moderate to slight
+current. This species was present in intermittent pools at the upper
+Neosho station in 1957.
+
+
+#Percina copelandi# (Jordan)
+
+Channel Darter
+
+One specimen was taken at the lower Neosho station in 1959. Because no
+others ever have been found in the mainstream of the Neosho River, I
+suspect that my specimen is a "stray" from one of the smaller
+tributaries, where channel darters are locally common.
+
+
+#Etheostoma flabellare# Rafinesque
+
+Fan-tailed Darter
+
+The fan-tailed darter is represented in my collections by one specimen,
+obtained in the mainstream of the Neosho River at the lower station in
+1957. Records of this species in Kansas are almost confined to the
+smallest, clear, permanent streams of the southeastern part of the
+state. My specimen may represent a small population that retreated to
+the mainstream of the Neosho during drought.
+
+
+#Etheostoma spectabile# (Agassiz)
+
+Orange-throated Darter
+
+Orange-throated darters were common at the upper Marais des Cygnes and
+upper Neosho stations in 1959, rare at the middle and lower Neosho
+stations, and absent from the middle and lower Marais des Cygnes
+stations. The species was found almost exclusively on upstream riffles
+over gravel-rubble bottom. The population in the upper Neosho was
+decimated by drought, and the fish did not become common until the
+summer of 1959, the third year after resumption of normal stream-flow.
+
+Deacon and Metcalf (1961:320) indicated that long periods of
+intermittency result in depletion or elimination of populations of the
+orange-throated darter in the Wakarusa River, Kansas. A limited number
+of orange-throated darters probably survived in the few permanent pools
+in the upper Neosho and provided the brood-stock necessary to repopulate
+this section of the stream.
+
+
+#Aplodinotus grunniens# Rafinesque
+
+Freshwater Drum
+
+Drum were taken at all stations, but were most abundant at the middle
+and lower Neosho stations. A high level of abundance also was found in
+1957 at the middle Marais des Cygnes station. The abundance of drum
+declined from 1957 to 1959, but the average size increased because of a
+dominant 1957 year-class that was moderately reduced by natural
+mortality in 1958-'59. Although the population was composed largely of
+young-of-the-year and adults in 1957, it was dominated by yearling
+individuals in 1958. By 1959 the number had declined considerably and
+the population consisted mostly of juveniles and adults. Fish of the
+1957 year-class reached a length of approximately ten inches by
+mid-summer of 1959 (Table 8).
+
+Adults were taken in a variety of habitats, but most often in quiet
+water. On the other hand, yearlings were extremely abundant in 1958 near
+shore in shallow, moderately fast water over rubble bottom at night.
+Drum were rare in the same areas in daylight (Table 9).
+Young-of-the-year occur in shallow, quiet water, usually over
+mud-bottom.
+
+The freshwater drum matures at about 12 inches T. L. Ripe males were
+taken as late as 23 June 1959; however, the height of the spawning
+season probably is in May.
+
+  TABLE 8. LENGTH-FREQUENCY OF FRESHWATER DRUM FROM THE MIDDLE
+  NEOSHO STATION IN 1957, 1958 AND 1959.
+
+  Total length        Aug. 19    Aug. 19-26    July 27-Aug. 4
+   in inches           1957         1958             1959
+
+       2                             1
+       3                  1
+       4                  4
+       5                             1
+       6                            12
+       7                            21                 1
+       8                  3         14                 2
+       9                  3          3                 2
+      10                  4          6                 6
+      11                  2          4                 1
+      12                             2
+      13                                               2
+      14                                               1
+
+  TABLE 9. AVERAGE NUMBER OF INDIVIDUALS CAPTURED PER HOUR, USING THE
+  SHOCKER, AT DIFFERENT TIMES OF THE DAY AND NIGHT AT THE MIDDLE NEOSHO
+  STATION IN 1958. NUMBERS IN PARENTHESES INDICATE TOTAL NUMBER
+  CAPTURED.
+
+  ======================================================================
+                  | Morning    | Afternoon  | Early night | Late night |
+                  | 5 hours    | 6 hours    | 18 hours    | 8 hours    |
+     SPECIES      | of effort  | of effort  | of effort   | of effort  |
+                  | expended   | expended   | expended    | expended   |
+                  | 6:30 a.m.  | 12:30 p.m. | 6:30 p.m.   | 12:30 a.m. |
+                  | 12:30 p.m. | 6:30 p.m.  | 12:30 a.m.  | 6:30 a.m.  |
+  ----------------+------------+------------+-------------+------------+
+  Long-nosed Gar  |  0         |  0.3 (2)   |  1.2 (21)   |  1.1 (9)   |
+  Short-nosed Gar |  0.2 (1)   |  0         |  0.2 (3)    |  0.4 (3)   |
+  Gizzard Shad    |  0.2 (1)   |  0.3 (2)   |  0.1 (1)    |  0.1 (1)   |
+  Black Buffalo   |  0         |  0.2 (1)   |  0.1 (1)    |  0         |
+  Small-mouthed   |            |            |             |            |
+    Buffalo       |  0.4 (2)   |  0.3 (2)   |  0.8 (14)   |  0.8 (6)   |
+  River           |            |            |             |            |
+    Carpsucker    |  3.4 (17)  |  3.3 (20)  |  5.7 (102)  |  4.9 (39)  |
+  Redhorse        |  0         |  0.2 (1)   |  0.6 (10)   |  0.6 (5)   |
+  Carp            |  1.8 (9)   |  0.2 (1)   |  0.7 (12)   |  0.8 (6)   |
+  Channel Catfish |  1.6 (8)   |  1.0 (6)   | 10.2 (183)  | 10.5 (84)  |
+  Flathead        |  2.2 (11)  |  1.3 (8)   |  2.4 (43)   |  3.6 (29)  |
+  Spotted Bass    |  0.4 (2)   |  0.5 (3)   |  0.3 (6)    |  0.1 (1)   |
+  Green Sunfish   |  0.2 (1)   |  0.2 (1)   |  0.2 (3)    |  0.1 (1)   |
+  Long-eared      |            |            |             |            |
+    Sunfish       |  0         |  0         |  0.1 (2)    |  0.4 (3)   |
+  Orange-spotted  |            |            |             |            |
+    Sunfish       |  0.2 (1)   |  0         |  0          |  0         |
+  White Crappie   |  0.2 (1)   |  0.2 (1)   |  0.2 (5)    |  0.4 (3)   |
+  Freshwater Drum |  1.0 (5)   |  0.8 (5)   |  5.6 (101)  |  5.3 (42)  |
+  Number captured |            |            |             |            |
+    per hour      | 13.4       |  9.3       | 29.5        | 33.8       |
+  ----------------+------------+------------+-------------+------------+
+
+  TABLE 10. NUMBERS OF FISH SEEN OR CAPTURED PER HOUR BY USE OF THE
+  SHOCKER. EXCLUDES FISH TAKEN BY SHOCKING INTO A SEINE ON RIFFLES;
+  YOUNG-OF-THE-YEAR CHANNEL CATFISH AND FLATHEAD CATFISH PREDOMINATED
+  IN SAMPLES TAKEN BY THAT METHOD.
+
+  ====================================================================
+                     |         Marais des Cygnes River               |
+                     |-----------------+-----------------+-----------+
+     SPECIES         |      Upper      |     Middle      |   Lower   |
+  -------------------+-----+-----+-----+-----+-----+-----+-----+-----+
+                     | 1957| 1958| 1959| 1957| 1958| 1959| 1957| 1958|
+  -------------------+-----+-----+-----+-----+-----+-----+-----+-----+
+  Gar                |  .7 | 1.3 | 1.2 |  .6 | 2.7 | ... | 2.2 | 9.4 |
+  Gizzard Shad       |  .9 |  .2 | ... | 9.9 | 2.5 | ... | ... |  .5 |
+  Buffalo            | 2.0 | 3.7 |  .6 |  .8 | 2.0 | ... | 5.7 | 6.4 |
+  River Carpsucker   | 4.0 | 4.9 |  .6 | 6.5 | 2.2 | 2.0 | 1.8 | 3.9 |
+  Shortheaded        |     |     |     |     |     |     |     |     |
+    Redhorse         | 3.3 |  .9 |  .6 |  .8 |  .2 | ... | ... | ... |
+  Carp               |10.6 | 6.4 | 2.4 | 8.6 | 5.0 | 3.5 | 6.0 |10.4 |
+  Black Bullhead     | ... | ... | ... | 3.9 |17.2 | ... | ... | ... |
+  Channel Catfish    |  .5 |  .9 | ... | 4.7 | 2.5 | ... | 1.8 |  .7 |
+  Flathead           |  .2 | ... | 2.4 |  .5 | ... | ... | 1.8 |  .5 |
+  Largemouth         | 1.0 | ... | ... |  .3 |  .2 | ... | ... | ... |
+  White Crappie      | 1.7 | 5.1 |  .6 | 1.3 |  .7 | ... | ... |  .2 |
+  Freshwater Drum    |  .9 | 1.6 |  .6 |24.5 | 2.2 | ... |  .7 |  .2 |
+                     |     |     |     |     |     |     |     |     |
+  Hours shocked      |4-1/2|4-1/2|1-2/3| 4   | 4   | 2   |2-5/6|4-1/2|
+  -------------------+-----+-----+-----+-----+-----+-----+-----+-----+
+                     |                 Neosho River                  |
+                     |-----------------------------------------------|
+                     |         Middle        |         Lower         |
+                     |-------+-------+-------+-------+-------+-------+
+                     | 1957  | 1958  | 1959  | 1957  | 1958  | 1959  |
+  -------------------|-------+-------+-------+-------+-------+-------+
+  Gar                |   3.2 |   4.2 |   3.8 |   5.3 |   4.9 |   8.4 |
+  Gizzard Shad       |    .5 |    .2 |    .4 |   1.9 |   1.0 |    .4 |
+  Buffalo            |   2.9 |   1.8 |   1.2 |   6.2 |    .9 |   1.5 |
+  River Carpsucker   |   5.5 |   7.4 |   2.9 |   7.5 |  13.3 |   6.3 |
+  Shortheaded        |       |       |       |       |       |       |
+    Redhorse         |   1.9 |    .6 |   1.6 |    .7 |   ... |   1.6 |
+  Carp               |   2.1 |   2.1 |   1.4 |   3.4 |   1.2 |   1.1 |
+  Channel Catfish    |   2.6 |   8.8 |    .9 | 107.0 |    .5 |    .7 |
+  Flathead           |   7.6 |   3.7 |   2.7 |  10.8 |    .2 |   1.2 |
+  Bass               |   1.6 |    .4 |    .1 |    .2 |    .2 |    .1 |
+  White Crappie      |   ... |    .9 |    .2 |   1.8 |    .7 |    .1 |
+  Freshwater Drum    |   3.9 |   3.3 |    .8 |  15.9 |   2.8 |    .7 |
+                     |       |       |       |       |       |       |
+  Hours shocked      | 5-2/3 | 55-5/6| 48-1/2| 4-1/6 |   4   | 16-5/6|
+                     |       |       |       |       |       |       |
+  -------------------+-------+-------+-------+-------+-------+-------+
+
+  TABLE 11. NUMBER OF OCCURRENCES (Roman type) AND NUMBER COUNTED
+  (_Italic type_) PER SEINING UNIT. ONE SEINING UNIT EQUALS 30
+  SEINE-HAULS (ten each with the 4-foot, 12-foot and 25-foot seine)
+  OF WHICH SIX RANDOMLY-CHOSEN HAULS WERE COUNTED. DASHES SIGNIFY
+  THAT THE SPECIES OCCURRED IN UNCOUNTED COLLECTIONS ONLY.
+
+  ======================================================================
+                     |    Marais des Cygnes stations    |    Neosho
+                     +-----------+----------+-----------+---------------
+    SPECIES          |   Upper   |  Middle  |   Lower   | Lower station
+                     +-----+-----+----+-----+-----------+------+--------
+                     |1957 |1959 |1957| 1959| 1957 |1959| 1957 |  1959
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Golden Shiner      | ... | ... |--- | ... |  ... | ...| ...  | ...
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Creek Chub         | ... | --- |... | ... |  ... | ...| ...  | ...
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Silver Chub        | ... | ... |... | ... |  --- | ...| ...  | ...
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Gravel Chub        | ... | ... |... | ... |  ... | ...| ...  |   3.0
+                     |     |     |    |     |      |    |      |  _2.3_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Sucker-mouthed     | --- |  6  |... |  3  |  ... |  1 |    2 |  10.0
+    Minnow           |     |     |    | _1_ |      |    |      | _43.0_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Red-finned Shiner  | ... | ... |... |  1  |  2.5 |  2 |  ... |   4.7
+                     |     |     |    |     | _5.0_|    |      |  _2.3_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Blunt-faced Shiner | ... | ... |--- | ... |  ... | ...|  ... | ...
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Red Shiner         |21   | 15  | 8  | 19  | 16.0 | 15 |   27 |  20.0
+                     |_6_  |     |_4_ |_22_ |_69.0_|_22_|_1119_|_102.0_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Mimic Shiner       | ... | ... |... | ... |  ... | ...|  --- | ...
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Ghost Shiner       | 7.5 |  1  |... |  1  |  9.5 |  2 |   17 |  11.7
+                     |     |     |    |     |_96.5_|    |  _54_| _76_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Sand Shiner        | --- |  7  |... |  8  |  1.5 |  3 |  ... |   1
+                     |     |     |    | _2_ |      |    |      |   _.3_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Mountain Minnow    | ... | ... |... | ... |  ... | ...|   12 |   9.3
+                     |     |     |    |     |      |    |  _25_| _13.6_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Blunt-nosed Minnow | --- |  2  |... |  8  |  1.0 |  1 |    6 |  14.0
+                     |     |     |    |     |  _.5_|    |   _4_|  _7.6_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Parrot Minnow      | ... | ... |... | ... |  ... | ...|   12 |  19.0
+                     |     |     |    |     |      |    |   _6_| _28.6_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Fat-headed Minnow  |10.5 |  4  | 5  |  7  |  ... | ...|   ...|   8.3
+                     |_1.5_|     |_2_ | _1_ |      |    |      |  _3.0_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Stoneroller        | --- |  6  |--- | ... |  ... | ...|  --- |   2.3
+                     |     |     |    |     |      |    |      |  _1.0_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Black Bullhead     | ... | ... |... | ... |   .5 | ...|  ... | ...
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Channel Catfish    | 4.5 |  2  | 1  | 13  |  5.0 | 10 |   12 |   6.3
+                     |_1.5_|     |_1_ | _7_ | _1.0_| _6_|   _5_| _41.6_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Flathead           | --- |  1  |--- | --- |  1.0 | ...|  --- |    .3
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Stonecat           | ... | ... |--- | ... |  6.0 | ...|  --- |   1.0
+                     |     |     |    |     |  _.5_|    |      |
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Neosho Madtom      | ... | ... |... | ... | ...  | ...|  ... |   3.3
+                     |     |     |    |     |      |    |      |  _2.0_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Brook Silversides  | ... | ... |... | ... |   .5 | ...|  ... |   1.7
+                     |     |     |    |     | _1.0_|    |      |
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Black-striped      | ... | ... |... | ... |  1.0 |  2 |  ... |   1.0
+    Topminnow        |     |     |    |     | _1.0_|    |      |   _.7_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Spotted Bass       | ... | ... |... | ... | ...  | ...|    2 |   3.7
+                     |     |     |    |     |      |    |      |   _.3_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Largemouth         | ... | ... | 1  |  3  | ...  | ...|    1 | ...
+                     |     |     |_1_ | _1_ |      |    |   _2_|
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Green Sunfish      | 9   |  8  | 9  | 17  | 11.0 |  3 |    7 |  10.0
+                     |_7.5_|     |_3_ | _3_ |_12.0_| _1_|   _2_|  _3.6_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Long-eared Sunfish | ... | ... |... | ... |   .5 | ...|    6 |   4.3
+                     |     |     |    |     |      |    |      |   _.7_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Orange-spotted     | 4.5 | --- | 2  |  3  |  2.5 | ...|   12 |  12.0
+    Sunfish          |_6_  |     |_4_ |     |      |    |   _5_|  _5.0_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Bluegill           | 1.5 |  1  |... |  6  |  3.5 |  1 |    1 |    .3
+                     |     |     |    | _1_ |      |    |      |   _.3_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  White Crappie      | ... | ... | 4  |  4  |  ... | ...| ...  | ...
+                     |     |     |_7_ |     |      |    |      |
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Logperch           | ... | ... |... | ... |  ... | ...|    1 |    .3
+                     |     |     |    |     |      |    |      |   _.7_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Slender-headed     | --- | 13  |... |  2  |  6.5 |  3 |    1 |   8.3
+    Darter           |     |     |    |     |_15.0_| _1_|      |  _3.0_
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Orange-throated    | --- |  7  |... | ... |  ... | ...|    1 | ---
+    Darter           |     |     |    |     |      |    |      |
+  -------------------+-----+-----+----+-----+------+----+------+--------
+  Seining units      | 2/3 |  1  | 1  |  1  |  2   |  1 |    1 |   3
+  -------------------+-----+-----+----+-----+------+----+------+--------
+
+
+
+
+FISH-FAUNA OF THE UPPER NEOSHO RIVER
+
+
+Collections at the upper Neosho station were more intensive than at any
+other station, especially in 1959. Rotenone was used in the summers of
+1957, 1958 and 1959, to obtain large samples of the population in one
+section of the stream. In September, 1959, the shocker was used in other
+sections in order to estimate populations in particular pools and
+riffles, to measure variability in the fauna between areas having
+slightly different habitat, and to record movement of marked individuals
+in a short section of the stream.
+
+
+Description of Study-areas
+
+Two sections of the stream, each about one-half mile long (See p. 366),
+were studied. Additional description of particular areas is presented
+below. Area 1 and the pools in which rotenone was used are on the Bosch
+Farm approximately two miles upstream from the White Farm where Areas 2,
+3, 4, 5, 6 and 7 are situated.
+
+Area 1 has a length of 210 feet, an average width of four feet, and a
+maximum depth of two feet. The upper half is a swift, rubble riffle four
+inches in average depth; the lower half is one and one-half feet in
+average depth and has a slow current (Pl. 29, Fig. 1).
+
+Area 3 has a length of 186 feet, an average width of 34 feet, and a
+maximum depth of two and one-half feet. This area includes a shallow
+riffle at both upstream and downstream ends of a pool 73 feet long and
+approximately one foot in average depth (Pl. 29, Fig. 2).
+
+Area 5 has a length of 250 feet, an average width of 50 feet, and a
+maximum depth of two and one-half feet. This is a shallow, quiet pool
+over rubble and bedrock bottom except for a small area of mud bottom
+(backwater) above the point where a short riffle drains into this pool
+from Area 6 (Pl. 30, Fig. 1).
+
+Area 6 has a length of 200 feet, an average width of 50 feet, and a
+maximum depth of one and one-half feet. This is a shallow, quiet pool
+over bedrock bottom, except for a small area of mud bottom at one side
+of the upper end of the pool. A short, steep, rubble-riffle is included
+in this area at the upstream end (Pl. 30, Fig. 2).
+
+Areas 2, 4, and 7 resemble at least one of the areas described above but
+were sampled less intensively. Data from areas 2, 4, and 7 are included
+in discussion of the total fauna of the upper Neosho river but are
+excluded from the discussion of representative parts of that fauna.
+
+
+Methods
+
+_Rotenone_
+
+Rotenone was applied to an intermittent pool in 1957. In 1958 and 1959
+rotenone was applied to the upper end of a pool and mixed by agitating
+the water. The concentration in the pool was maintained by slowly
+introducing part of the rotenone into the riffle at the head of the
+pool. This was the most effective means of obtaining a large sample of
+fish from the deeper, slowly flowing water of the upper Neosho. Pools in
+which rotenone was used had areas of as much as one-half acre and depths
+in excess of six feet.
+
+
+_Shocker_
+
+In 1959 the shocker was used extensively in several areas of the upper
+Neosho. Because of the small size of the stream, "tennis-racket"
+electrodes were used effectively by two men--one carrying the electrodes
+and one picking up fish and placing them in a live-box. In fast water,
+many fish floated into a seine placed across the lower end of the area.
+A large segment of the population was collected in this manner. Areas in
+which fish were collected by means of the shocker included riffles, and
+pools having flowing water no more than three feet in maximum depth. The
+bottom-type was usually gravel, rubble or bedrock, but a small amount of
+mud bottom was present in many pools.
+
+Because of the necessity of wading, we could not use the shocker
+effectively in water more than three feet deep. In addition, turbidity
+of the water prevented effective collection of stunned fish in the
+deeper pools. Therefore, rotenone was more effective in deep water than
+was the shocker. In shallow, swift riffles and pools, the shocker
+yielded more reliable samples than did rotenone, because of difficulty
+in maintaining adequate concentrations of rotenone where flow was swift.
+
+The relative abundance of each species in the upper Neosho was
+calculated from cumulative results obtained by use of the shocker in
+seven areas in 1959. Population estimates were made by collecting fish
+with the shocker, marking them by clipping fins or staining them in
+Bismark Brown Y at a concentration of 1:20,000 (Deacon, 1961), returning
+them to the stream, and making a second collection three hours (Areas 1
+and 3) or 24 hours (Area 6) later. The same area was shocked again
+within two to eight days. Collections throughout the one-half-mile
+section yielded information on movement.
+
+
+Changes in the Fauna at the Upper Neosho Station, 1957 Through 1959.
+
+The following discussion is based principally on collections made with
+rotenone in 1957, 1958 and 1959 (Table 12). Other supplementary data aid
+in understanding the changes that occurred after the resumption of
+normal flow at the upper Neosho station.
+
+The population in 1957 was strongly dominated by black bullhead and
+young-of-the-year channel catfish. Other common species were long-eared
+sunfish, red shiner, yellow bullhead, orange-spotted sunfish and green
+sunfish. This fauna, with the exception of young-of-the-year
+individuals, was a fauna produced during the years of drought. Deacon
+and Metcalf (1961:318-321) found a similar fauna in streams of the
+Wakarusa River Basin that had been seriously affected by drought.
+
+The black bullheads taken in 1957 were predominately yearlings. It is
+likely that by 1956 the total fish population in the upper Neosho had
+been decimated by drought. The ponded conditions prevalent in that year
+were conducive to production and survival of young black bullheads. Fig.
+3 shows that this dominant 1956 year-class reached an average length of
+approximately 6.5 inches by August, 1959.
+
+Reproduction by black bullheads was limited in 1957, 1958, and 1959, and
+slight reduction in relative abundance occurred from 1957 to 1958. The
+relative abundance in 1959 remained nearly stable. If stream-flow
+remains essentially continuous for the next few years, the number of
+black bullheads probably will decline as individuals of the 1956
+year-class reach the end of their life-span.
+
+Reference has been made to the large hatch of channel catfish in 1957,
+in a discussion of that species. Conditions for survival of young
+channel catfish at the upper Neosho station in 1957 were good because
+there was continuous flow over many gravel-rubble riffles, which were
+largely unoccupied by other fish, in the spring and summer of 1957.
+
+  TABLE 12. PERCENTAGE-COMPOSITION OF THE FISH-FAUNA AT THE UPPER
+  NEOSHO STATION IN 1957, 1958 AND 1959, AS COMPUTED FROM COLLECTIONS
+  OBTAINED BY USING ROTENONE.
+
+  ============================================================
+               SPECIES              |  1957  | 1958  | 1959
+  ----------------------------------+--------+-------+--------
+  Big-mouthed Buffalo...............| ...... |  T[D] |   T
+  Small-mouthed Buffalo.............| ...... | ..... |   T
+  River Carpsucker..................|    T   |  0.8  |   1.8
+  Golden Redhorse...................|    T   |  3.0  |   5.7
+  Creek Chub........................| ...... |  T    |   0.8
+  Red-finned Shiner.................|  1.3   |  3.0  |   0.8
+  Red Shiner........................|  6.5   | 13.1  |  12.1
+  Ghost Shiner......................|    T   |  T    | ......
+  Blunt-nosed Minnow................|    T   |  T    |   T
+  Fat-headed Minnow.................|    T   |  T    |   1.4
+  Stoneroller.......................|  0.8   |  1.5  |   3.5
+  Black Bullhead....................| 40.8   | 30.5  |  32.0
+  Yellow Bullhead...................|  5.3   |  8.8  |   2.5
+  Channel Catfish...................| 28.4   | 15.5  |  18.5
+  Flathead..........................|    T   |  T    |   T
+  Stonecat..........................|    T   |  T    |   1.4
+  Spotted Bass......................|    T   |  T    |   0.8
+  Largemouth........................|    T   |  T    |   T
+  Green Sunfish.....................|  3.1   |  6.8  |   6.4
+  Long-eared Sunfish................|  8.8   |  3.7  |   1.9
+  Orange-spotted Sunfish............|  3.1   |  8.9  |   2.5
+  Bluegill..........................|    T   |  T    |   T
+  White Crappie.....................|    T   | ..... |   T
+  Logperch......................... |    T   |  2.1  |   0.8
+  Slender-headed Darter.............|  0.6   |  0.6  |   3.1
+  Orange-throated Darter............| ...... |  T    |   2.5
+  Total number of fish..............|  786   |  965  | 513
+  Size of sample-area in acre-feet..| .002   |  .33  |    .33
+  ----------------------------------+--------+-------+--------
+
+  [D] T denotes less than one-half of one per cent of the population.
+
+Channel catfish also showed a slight decline in relative abundance after
+1957, resulting from mortality in the 1957 year-class. With continuous
+flow, channel catfish will probably remain abundant, although annual
+reproductive success probably will be less than in 1957.
+
+The big-mouthed buffalo, small-mouthed buffalo, creek chub and
+orange-throated darter were not taken in 1957, but appeared in
+collections in 1958. The river carpsucker, golden redhorse, red shiner,
+fat-headed minnow, stoneroller, stonecat, and slender-headed darter also
+increased in abundance between 1957 and 1959. The increased abundance of
+all these species in 1958 and 1959 resulted in a more diversified fauna,
+with lesser predominance by any single species, than in 1957 (Table 12);
+this change is related to the increased, permanent flow in 1958 and
+1959.
+
+
+Local Variability of the Fauna in Different Areas at the Upper Neosho
+Station, 1959
+
+The shallow areas in which the shocker was used in 1959 are the
+prevalent habitat in the upper Neosho River. The relative abundance of
+fishes found in these areas is presented in Table 13. The red shiner was
+most abundant and was followed (in decreasing order) by long-eared
+sunfish, minnows of the genus _Pimephales_, green sunfish, red-finned
+shiner, channel catfish, and stoneroller. Other species combined
+comprise less than ten per cent of the population.
+
+Table 13 also shows the variability in relative abundance of different
+species among areas that have the same general kind of habitat. The
+species composition is similar in all areas. The sample obtained with
+rotenone in 1959 is included in Table 13 to show differences in the
+fauna of deep, slowly flowing areas and shallower areas with stronger
+current. The differences in relative abundance indicate the kind of
+habitat that each species is able to utilize most fully.
+
+Golden redhorse and black bullhead were most abundant in large, deep,
+quiet pools (5.7 per cent and 32 per cent of the total population)
+and were more abundant in Area 5 (3.2 per cent and 7.3 per cent
+respectively) than in any of the other shallow areas. Area 5 has greater
+average depth, more mud bottom, and less riffle area than areas 1, 3 and
+6.
+
+The golden redhorse and black bullhead have specific habitat preferences
+that are not evident in the above discussion. My collections indicate
+that the golden redhorse prefers deep water having some current, whereas
+the black bullhead prefers little or no current.
+
+Species that prevailed in or near riffles were: creek chub,
+sucker-mouthed minnow, stoneroller, channel catfish (young-of-the-year
+only), flathead (young-of-the-year only), stonecat, slender-headed
+darter, and orange-throated darter. Of these species, the sucker-mouthed
+minnow, slender-headed darter and orange-throated darter reached their
+greatest abundance at Area 3, where the riffle is shallow, slow, and has
+a bottom composed of flat limestone rubble.
+
+The riffle at Area 1 is, for the most part, deeper and faster than at
+Area 3 and has a bottom composed of gravel and small rocks. The creek
+chub, stoneroller, channel catfish (young-of-the-year), flathead
+(young-of-the-year), and stonecat reached their greatest abundance in
+Area 1. All species that showed a preference for riffles were rare or
+absent in Area 5 where no riffle-habitat was sampled. The
+riffle-dwelling species that were present in collections made with
+rotenone in the deeper pools were taken from the riffle into which
+rotenone was introduced.
+
+The river carpsucker, blunt-nosed minnow, fat-headed minnow, channel
+catfish (yearlings and two-year-olds), flathead (yearlings and
+two-year-olds), green sunfish and long-eared sunfish showed a preference
+for shallow, quiet water. All of these species were more common in
+collections from Areas 5 and 6 than in collections from other areas.
+
+  TABLE 13. RELATIVE ABUNDANCE OF FISH (PER CENT OF TOTAL POPULATION
+  MADE UP BY EACH SPECIES), IN THE FIRST COLLECTION MADE IN EACH OF
+  FOUR DIFFERENT SHALLOW AREAS BY MEANS OF THE SHOCKER, IS SHOWN IN
+  VERTICAL COLUMNS 1-4. RESULTS OF THE USE OF ROTENONE IN A FIFTH,
+  DEEPER AREA ARE SHOWN IN COLUMN 5. COLUMN 6 COMBINES DATA FROM
+  ALL COLLECTIONS MADE BY USING THE SHOCKER IN SEVEN SHALLOW AREAS
+  (INCLUDING COLUMNS 1-4).
+
+  ======================================================================
+                          | Area | Area | Area | Area |          |  All
+                          |   1  |   3  |   5  |   6  | Rotenone | areas
+  ------------------------+------+------+------+------+----------+------
+  Big-mouthed Buffalo     | .... | .... | T[E] | .... |    T     |  T
+  Small-mouthed Buffalo   | .... | .... |   .6 | .... |    T     |  T
+  River Carpsucker        | .... |  T   | 10.6 |  T   |    1.8   |   .8
+  River Carpsucker (yy)[F]| .... |   .8 |  T   |  3.7 |    ....  |  1.0
+  Short-headed Redhorse   | .... | .... |   .6 | .... |    ....  |  T
+  Golden Redhorse         |   .8 |  1.0 |  3.2 | .... |    5.7   |  T
+  Carp                    | .... | .... | .... | .... |    ....  |  T
+  Golden Shiner           | .... | .... | .... | .... |    ....  |  T
+  Creek Chub              |  1.6 |  T   |  T   |  T   |     .8   |  T
+  Sucker-mouthed Minnow   | .... | 11.2 |  T   |  3.4 |    ....  |  1.4
+  Red-finned Shiner       | .... | .... | .... |  4.0 |     .8   |  8.1
+  Red Shiner              | 18.2 | 24.0 |  7.8 | 20.1 |   12.1   | 35.9
+  Sand Shiner             | .... |  5.2 | .... |  1.1 |    ....  |  T
+  Pimephales (yy)         | .... | .... | .... | .... |    ....  |  6.7
+  Mountain Minnow         | .... | .... | .... |  T   |    ....  |  T
+  Blunt-nosed Minnow      | .... |   .8 |  4.1 | 11.7 |    T     |  3.4
+  Parrot Minnow           | .... | .... | .... | .... |    ....  |  T
+  Fat-headed Minnow       |  T   |  T   |  3.4 | 12.1 |    1.4   |  2.6
+  Stoneroller             | 27.7 | 17.4 |   .6 |  5.8 |    3.5   |  5.1
+  Black Bullhead          |  2.1 |  T   |  7.3 |  T   |   32.0   |   .6
+  Yellow Bullhead         |  T   |  T   | .... |  T   |    2.5   |  T
+  Channel Catfish (j)[G]  |  5.8 |  7.6 | 41.3 |  T   |   14.6   |  4.2
+  Channel Catfish (yy)    |  9.5 |  7.0 |  T   |  4.3 |    3.9   |  2.5
+  Flathead (j)            | .... |   .8 |  2.1 |  T   |    T     |  T
+  Flathead (yy)           |  1.6 |  T   | .... | .... |    ....  |  T
+  Stonecat                | 10.3 |  1.4 | .... | .... |    1.4   |   .7
+  Spotted Bass            | .... |  T   |   .6 |  T   |     .8   |  T
+  Largemouth              | .... | .... |  T   | .... |    T     |  T
+  Green Sunfish           | 11.2 |  3.5 |  5.9 | 12.2 |    6.4   | 10.1
+  Long-eared Sunfish      |  5.4 |  6.0 |  5.1 | 14.6 |    1.9   | 12.8
+  Orange-spotted Sunfish  |  T   |  T   |  1.4 |  1.8 |    2.5   |   .5
+  Bluegill                | .... | .... |  1.0 | .... |    T     |  T
+  White Crappie           | .... | .... | .... | .... |    T     |  T
+  Logperch                |  T   |  T   |  T   |  T   |     .8   |  T
+  Slender-headed Darter   |  T   | 11.4 |  1.1 |  1.6 |    3.1   |  1.3
+  Orange-throated Darter  |   .8 |  1.8 |  T   |   .5 |    2.5   |  T
+  Freshwater Drum         | .... | .... |  T   | .... |    ....  |  T
+  Total number of fish    |  242 |  484 |  727 |  924 |    513   |17,796
+  Area in square feet     |  840 | 6324 |12500 |10000 |    ....  | ....
+  Volume                  | .... | .... | .... | .... |   1/3    |
+                          |      |      |      |      |acre-foot |
+  ------------------------+------+------+------+------+----------+------
+
+  [E] "T" designates species that comprised less than 0.5 per cent
+      of the population.
+
+  [F] (yy) signifies young-of-the-year.
+
+  [G] (j) signifies yearlings or two-year-olds.
+
+
+Temporal Variability of Fauna in the Same Areas
+
+The variability of the population in successive collections from the
+same area is presented in Table 14. Supplementary data obtained in Areas
+2, 4 and 7 support conclusions discussed below for Areas 1, 3 and 6. The
+abundance of some species maintained a constant level, whereas that of
+others varied.
+
+  TABLE 14. NUMBERS OF INDIVIDUALS COLLECTED BY MEANS OF THE SHOCKER
+  AT VARYING INTERVALS IN SEPTEMBER, 1959. THE NUMBER AT THE TOP OF
+  EACH COLUMN IS THE DATE WHEN THE COLLECTION WAS MADE.
+
+  ======================================================================
+                  |     Area 1      |     Area 3      |     Area 6
+       SPECIES    +-----+-----+-----+-----+-----+-----+-----+-----+-----
+                  |  3  |  4  |  8  |  9  |  10 |  15 |  16 |  18 |  20
+  ----------------+-----+-----+-----+-----+-----+-----+-----+-----+-----
+  Golden Redhorse |   2 |   2 | ... |   5 |   5 |   2 | ... | ... |   3
+  Creek Chub      |   4 |   3 |   7 |   1 | ... | ... |   1 |   2 | ...
+  Sucker-mouthed  |     |     |     |     |     |     |     |     |
+    Minnow        | ... | ... | ... |  54 |  42 |  25 |  31 |   7 |   6
+  Red-finned      |     |     |     |     |     |     |     |     |
+    Shiner        | ... | ... |   1 | ... | ... |   4 |  31 |  13 |   4
+  Red Shiner      |  44 |   7 | 211 | 117 | 170 | 438 | 186 | 209 |  62
+  Blunt-nosed     |     |     |     |     |     |     |     |     |
+    Minnow        | ... | ... | ... |   4 |  10 |  19 | 108 |  91 |  13
+  Fat-headed      |     |     |     |     |     |     |     |     |
+    Minnow        |   1 | ... | ... |   1 |   2 |   3 | 112 | 156 |  48
+  Stoneroller     |  67 |  39 |  49 |  84 | 107 |  55 |  54 |  67 |  22
+  Black Bullhead  |   5 | ... |   1 |   2 |   1 | ... | ... |   3 |   7
+  Yellow Bullhead |   1 |   1 | ... |   2 |   1 | ... |   1 | ... |   3
+  Channel Catfish |  14 |   7 | ... |  36 |  16 | ... |   3 |   1 |  23
+  Channel         |     |     |     |     |     |     |     |     |
+    Catfish(yy)[H]|  23 |  16 |  17 |  34 |  34 |  22 |  40 |  23 |  28
+  Flathead        | ... | ... | ... |   4 |   8 |   1 |   2 | ... |   1
+  Flathead(yy)    |   4 |   1 |   1 |   2 |   1 |   1 | ... | ... | ...
+  Stonecat        |  25 |   8 |  12 |   7 |   7 |   5 | ... | ... | ...
+  Green Sunfish   |  27 |  17 |  12 |  13 |  16 |  17 |  62 |  62 |  74
+  Long-eared      |     |     |     |     |     |     |     |     |
+    Sunfish       |  13 |  12 |   1 |   6 |   3 |   3 |  10 |  22 |  31
+  Logperch        |   1 | ... | ... |   2 | ... | ... | ... | ... | ...
+  Slender-headed  |     |     |     |     |     |     |     |     |
+    Darter        | ... |   1 |   2 |  55 |  45 |  23 |  15 |   1 |   1
+  Orange-throated |     |     |     |     |     |     |     |     |
+    Darter        |   2 |   1 |   2 |   9 |  11 |   8 |   5 | ... |   1
+  ----------------+-----+-----+-----+-----+-----+-----+-----+-----+-----
+  Total           | 233 | 115 | 316 | 438 | 480 | 626 | 661 | 657 | 347
+  ----------------+-----+-----+-----+-----+-----+-----+-----+-----+-----
+
+  [H] (yy) means young-of-the-year only.
+
+Stoneroller, channel catfish (young-of-the-year), green sunfish, and
+long-eared sunfish formed the most stable element of the population, in
+that the numbers of these species varied less in successive collections
+than did numbers of other species.
+
+The number of orange-throated darters remained constant at Areas 1 and
+3, and the number of stonecats changed little in successive collections
+from Area 3. I suspect that an apparent decline in stonecats at Area 1
+on September 4 was due to a slow rate of dispersal from the point of
+release (see pages 413, 414).
+
+Some species (sucker-mouthed minnow, red-finned shiner, slender-headed
+darter, and fat-headed minnow) decreased significantly in successive
+samples from the same area because of mortality in handling or movement
+out of the area of initial capture.
+
+The decrease in abundance of the sucker-mouthed minnow may have been due
+to some mobility of the species. Evidence for mortality caused by
+handling was obtained for the red-finned shiner and probably accounts
+for the reduction of this species in Area 6. The red-finned shiner is
+also probably a mobile species. The reduction in abundance of the
+slender-headed darter seems unexplainable because no evidence was
+obtained for either movement or mortality.
+
+Fat-headed minnows also declined markedly in successive collections from
+Area 6, the only area in which the species was common. No marked
+fat-headed minnows were taken outside the area of release, indicating
+low mobility of the species. I cannot certainly account for their
+decline; possibly there was latent mortality due to shocking.
+
+The numbers of red shiners, blunt-nosed minnows, and juvenile channel
+catfish varied erratically in successive collections, probably as a
+result of movement. This problem is discussed for all species in a later
+section.
+
+
+Population-Estimation
+
+The direct-proportion method was used to estimate fish populations in
+Areas 1, 3 and 6. Reliable results could not be obtained for all species
+because of scarcity, mortality in handling, mobility, or other factors.
+
+A high rate of mortality due to handling was observed in Area 1 for the
+red shiner and in Area 6 for river carpsucker (young-of-the-year),
+sucker-mouthed minnows, red-finned shiner, red shiner, blunt-nosed
+minnow, and stoneroller. In Area 3, in contrast, there was little
+mortality in the same species during the twelve-hour interval that fish
+were held in traps prior to release as marked individuals.
+
+The following species were common in at least one area, but probably are
+sufficiently mobile (see page 416) to invalidate estimates of static
+populations in small areas: red shiner, red-finned shiner, and channel
+catfish (yearlings and older). Other species were rare and are indicated
+as "T" in Table 13.
+
+Those species for which population-estimates seem warranted include:
+golden redhorse, sucker-mouthed minnow, red shiner, sand shiner,
+fat-headed minnow, stoneroller, stonecat, channel catfish
+(young-of-the-year), green sunfish, long-eared sunfish, slender-headed
+darter, and orange-throated darter. I consider the estimate valid if a
+high percentage of the marked fish is recaptured. Results are presented
+in Table 15, and ordinarily will not be referred to in the following
+discussion of the population in each of the three areas.
+
+
+_Area 1_
+
+The order of abundance at Area 1, in terms of the estimated population
+per 500 square feet, was as follows: stoneroller (47.6), stonecat
+(29.4), channel catfish (young-of-the-year) (20.6), green sunfish
+(19.4), red shiner (18.2), long-eared sunfish (9.4), channel catfish
+(yearlings and older) (6.5), golden redhorse (1.2). Insufficient data
+make inclusion of other species unreliable.
+
+A comparison of the order of abundance between the estimated total
+population and the percentage composition in the first collection from
+each area shows significant correlations. The percentage-composition of
+the fish fauna at Area 1 was calculated as follows: stoneroller (27.7%),
+red shiner (18.2%), green sunfish (11.2%), stonecat (10.3%), channel
+catfish (young-of-the-year) (9.5%), channel catfish (yearlings and
+older) (5.8%), long-eared sunfish (5.4%), golden redhorse (0.8%). It can
+be seen that the stoneroller, green sunfish, long-eared sunfish and
+golden redhorse follow each other in the same order in both
+calculations. The stonecat is shown to be more common than channel
+catfish (young-of-the-year) in both calculations, but both species
+appear to be more abundant than green sunfish and red shiner in
+calculations of the total population and less abundant in the
+percentage-composition in the first collection. I think that the order
+of abundance as shown by percentage-composition is the more accurate
+figure for Area 1. The abundance of the red shiner is known to have been
+affected by mortality in collecting. Furthermore, as will be shown
+later, the species is so mobile that its abundance often changes
+markedly in a short time. Therefore, it is not surprising to find the
+red shiner in widely varying positions of relative and absolute
+abundance. However, the green sunfish maintains stable populations and
+should remain in about the same position of abundance in relation to
+other species (such as the stonecat and channel catfish
+young-of-the-year) that also maintain stable populations. The
+differences in order of abundance obtained by the two methods for green
+sunfish and channel catfish young-of-the-year are not great. However, in
+the estimation of total population the abundance of the stonecat seems
+significantly greater, in relation to other species, than in the
+calculation of percentage-composition. I believe that this difference
+can be attributed to the relatively low number of marked fish
+recaptured, which is probably due to a slow rate of dispersal from the
+point of release. Stonecats were released in relatively quiet water, and
+if they remained there they might be missed in subsequent collections,
+because they lack air-bladders and tend to remain on the bottom when
+shocked. Therefore, the calculated total population of the stonecat in
+Area 1 may be too high.
+
+
+  TABLE 15. DATA USED IN ESTIMATING TOTAL POPULATIONS, BY DIRECT
+  PROPORTIONS, IN AREAS 1, 3, AND 6 AT THE UPPER NEOSHO STATIONS.
+
+  ======================================================================
+                        |     Number     |    Number    |     Number
+                        | captured first |  marked and  |captured second
+          SPECIES       |   collection   |   released   |   collection
+                        +----+-----+-----+----+----+----+----+-----+----
+                        |  1 |  3  |  6  | 1  | 3  | 6  | 1  |  3  |  6
+  ----------------------+----+-----+-----+----+----+----+----+-----+----
+  Golden Redhorse       |  2 |   5 |   0 |  2 |  5 |  0 |  2 |   5 |   0
+  Sucker-mouthed Minnow |  0 |  54 |  31 |  0 | 51 | 15 |  0 |  42 |  12
+  Red Shiner            | 44 | 116 | 186 | 22 |106 | 86 |  7 | 165 | 202
+  Sand Shiner           |  0 |  25 |  10 |  0 | 25 |  7 |  0 |  35 |  10
+  Blunt-nosed Minnow    |  0 |   4 | 108 |  0 |  3 | 28 |  0 |  10 |  91
+  Fat-headed Minnow     |  1 |   1 | 112 |  1 |  1 |101 |  0 |   2 | 156
+  Stoneroller           | 67 |  84 |  54 | 58 | 79 | 33 | 39 | 107 |  67
+  Channel Catfish(j)[I] | 14 |  37 |   3 |  9 | 32 |  3 |  7 |  16 |   1
+  Channel Catfish(yy)[J]|  3 |  34 |  40 | 22 | 33 | 39 | 16 |  34 |  23
+  Stonecat              | 25 |   7 |   0 | 25 |  7 |  0 |  8 |   7 |   0
+  Green Sunfish         | 27 |[K]--|  62 | 27 | -- | 62 | 17 |  -- |  62
+  Long-eared Sunfish    | 13 |   6 |  10 | 13 |  6 | 10 | 12 |   3 |  22
+  ----------------------+----+-----+-----+----+----+----+----+-----+----
+  ======================================================================
+     Number of  |    Estimated    |   Percent of   |      Number
+    marked fish |      total      |   marked fish  |      per 500
+    recaptured  |    population   |    recovered   |    square feet
+  ----+----+----+----+-----+------+-----+-----+----+------+------+------
+    1 | 3  | 6  | 1  |  3  |   6  |  1  |  3  | 6  |   1  |   3  |  6
+  ----+----+----+----+-----+------+-----+-----+----+------+------+------
+    2 |  5 |  0 |  2 |   5 |    0 | 100 | 100 | -- |  1.2 |   .4 |  0
+    0 | 17 |  0 |  0 | 126 |   -- |  -- |  33 |  0 |    0 | 10.0 | --
+    5 | 18 | 14 | 31 | 972 | 1284 |  23 |  17 | 11 | 18.2 | 77.1 | 64
+   -- | 12 |  1 |  0 |  73 |   -- |  -- |  48 | -- |    0 |  5.8 | --
+    0 |  1 |  8 |  0 |  -- |  319 |  -- |  33 | 28 |    0 |   -- | 16
+    0 |  0 | 19 | -- |  -- |  830 |   0 |   0 | 19 |   -- |   -- | 41.5
+   28 | 35 |  8 | 81 | 242 |  276 |  48 |  44 | 24 | 47.6 | 19.2 | 13.8
+    6 | 13 |  0 | 11 |  39 |   -- |  67 |  41 |  0 |  6.5 |  3.1 | --
+   10 | 11 |  1 | 35 | 102 |   -- |  45 |  33 |  3 | 20.6 |  8.1 | --
+    4 |  1 | -- | 50 |  -- |    0 |  16 |  14 | -- | 29.4 |   -- |  0
+   14 | -- | 22 | 33 |  -- |  175 |  52 |  -- | 35 | 19.4 |   -- |  8.8
+   10 |  3 |  6 | 16 |   6 |   37 |  76 |  50 | 60 |  9.4 |   .5 |  1.9
+  ----+----+----+----+-----+------+-----+-----+----+------+------+------
+
+  [I] (j) Denotes juveniles only.
+
+  [J] (yy) Denotes young-of-year only.
+
+  [K] A dash denotes incomplete or insufficient data.
+
+
+_Area 3_
+
+The order of abundance of the species at Area 3, in terms of the
+estimated population per 500 square feet, was as follows: red shiner
+(77.1), stoneroller (19.2), sucker-mouthed minnow (10.0), channel
+catfish (young-of-the-year) (8.1), sand shiner (5.8), channel catfish
+(yearlings and older) (3.1), long-eared sunfish (0.5), golden redhorse
+(0.4). Insufficient data make inclusion of other species unreliable.
+
+For comparison with the estimates of total population, the
+percentage-composition in the first collection gives the following
+results: red shiner (24.0%), stoneroller (17.4%), sucker-mouthed minnow
+(11.2%), channel catfish (yearlings and older) (7.6%), channel catfish
+(young-of-the-year) (7.0%), long-eared sunfish (6.0%), sand shiner
+(5.2%), and golden redhorse (1.0%).
+
+For the most part, the species have the same order of abundance in both
+methods of analysis. Those that are apparently out of order are channel
+catfish (yearlings and older) and long-eared sunfish. The first species
+is mobile (excepting young-of-the-year) and commonly fluctuates widely
+in numbers in the same area; the second species was treated differently
+in that only adults were considered in the population-estimation
+whereas both young and adults were considered in calculating
+percentage-composition. (I found that I could not confidently
+distinguish between young-of-the-year of green sunfish, long-eared
+sunfish and orange-spotted sunfish after staining.)
+
+
+_Area 6_
+
+The order of abundance of the species at Area 6, in terms of the
+estimated population per 500 square feet, was as follows: red shiner
+(64.0), fat-headed minnow (41.5), blunt-nosed minnow (16.0), stoneroller
+(13.8), green sunfish (8.8), long-eared sunfish (1.9). Insufficient data
+make inclusion of other species unreliable.
+
+Calculations of percentage-composition give the following results: red
+shiner (20.1%), long-eared sunfish (14.6%), green sunfish (12.2%),
+fat-headed minnow (12.1%), blunt-nosed minnow (11.7%), stoneroller
+(5.8%). The two species of sunfish form a more significant part of the
+population in the latter analysis because young are included. Only
+adults were considered in the estimation of total population.
+
+The fact that estimates of the total population and the
+percentage-composition agree in most respects lends support to the
+validity of both methods of analysis. It should be re-emphasized that
+differences in the order of abundance in the various areas reflect the
+ability of each species to utilize each particular kind of habitat.
+
+
+Movement of Marked Fish
+
+  TABLE 16. DATA ON MOVEMENT OF MARKED FISH AT THE UPPER NEOSHO
+  STATION, SEPTEMBER, 1959.
+
+  ======================================================================
+                          | Number |   Number   |  Number  |   Number
+           SPECIES        | marked | recaptured |  moved   |   moved
+                          |        |            | upstream | downstream
+  ------------------------+--------+------------+----------+--------------
+  Golden Redhorse         |    24  |    16      |     0    |     2
+  Sucker-mouthed Minnow   |    68  |    27      |     7    |     0
+  Red-finned Shiner       |    74  |     0      |     0    |     0
+  Red Shiner              |  1326  |   152      |    48    |    25
+  Blunt-nosed Minnow      |   136  |    32      |     1    |    10
+  Fat-headed Minnow       |   151  |    40      |     0    |     0
+  Stoneroller             |   177  |    90      |     1    |     0
+  Black Bullhead          |    25  |     6      |     2    |     0
+  Channel Catfish (j)[L]  |   294  |    36      |     4    |     7
+  Channel Catfish (yy)[M] |   145  |    34      |     2    |     0
+  Stonecat                |    33  |     6      |     0    |     0
+  Green Sunfish           |   124  |    68      |     1    |     0
+  Long-eared Sunfish      |    33  |    21      |     0    |     0
+  Slender-headed Darter   |    70  |     1      |     0    |     0
+  Orange-throated Darter  |    13  |     0      |     0    |     0
+  ------------------------+--------+------------+----------+------------
+
+  [L] (j) denotes juveniles only.
+
+  [M] (yy) denotes young-of-year only.
+
+Some measure was gained of the amount of movement exhibited by several
+species of fish. Results are biased in favor of a conclusion that a
+species is sedentary because a large percentage of the recaptures were
+made in collections taken in the same immediate area three hours after
+release of marked fish, the total area checked was not large (one mile),
+and collecting was limited to an eleven-day period. Nevertheless, some
+species were shown to be definitely mobile and others exhibited
+pronounced sedentary tendencies. The results of experiments on movement
+are presented in Table 16. Marked fish (dyed and fin-clipped) were taken
+as long as seven days after being marked. Only those species in which
+more than ten individuals were marked are included.
+
+Blunt-nosed minnow, red shiner, and channel catfish (yearlings and
+older) are more mobile than other species.
+
+The mobility of channel catfish has been discussed by Muncy (1958) and
+Funk (1957). My records show that of 36 marked channel catfish that were
+recaptured, 11 were taken in areas other than the one into which they
+had been returned. A pronounced mobile tendency on the part of the red
+shiner and blunt-nosed minnow is shown by the fact that of 152 marked
+red shiners recaptured, 73 had moved from the area of release; and of 32
+marked blunt-nosed minnows recaptured, 11 had moved from the area of
+release. The fact that the habitat occupied by these species is not
+precise (ranging from swift riffles to quiet pools) supports a
+conclusion that the species are mobile.
+
+The fat-headed minnow, stoneroller, channel catfish (young-of-the-year),
+green sunfish and long-eared sunfish form a sedentary element of the
+population. With the exception of the fat-headed minnow, the sedentary
+group also maintained relatively stable numbers in Areas 1, 3 and 6
+throughout the study (Table 14). It is interesting to note that, in
+contrast to the mobile group, the species forming the sedentary group
+have rather well-defined habitat preferences.
+
+A third group of species, represented by the red-finned shiner,
+stonecat, slender-headed darter and orange-throated darter, was
+characterized by having a low rate of recapture. I suspect that
+mortality is a factor contributing to the failure to recapture
+red-finned shiners, because in one collection only four of 31 red-finned
+shiners captured were successfully marked and released, in another case
+70 of 818. The red-finned shiner occurs most often in pools but is also
+taken in other areas, is pelagic, and probably is a mobile species.
+
+The stonecat, slender-headed darter and orange-throated darter are
+generally restricted to riffle-habitats, and are probably sedentary. The
+low number of recaptures for these three species probably is due either
+to a slow rate of dispersal from the point of release or to latent
+mortality resulting from shock. Table 14 shows that these three species
+maintain comparatively stable populations, but there seems to be a
+tendency for a reduction in numbers with continued collecting, even
+though all fish captured were returned to the stream.
+
+Golden redhorse showed a high rate of recapture. All individuals marked
+were recaptured three hours after release in Areas 1 (two fish) and 3
+(five fish). Nine individuals were taken from Area 4 on 11 September;
+seven of these were marked and released in the next pool downstream
+(Area 3). On 15 September, two fish were retaken in Area 3 and two were
+retaken in Area 2, the next pool downstream. The species was common in
+Area 5 also where five of eight marked individuals were recaptured two
+days after release. It seems that the golden redhorse is somewhat
+restricted in movement, at least for short periods.
+
+The sucker-mouthed minnow and black bullhead showed some movement--less
+than such mobile species as red shiners and channel catfish, but more
+than the sedentary group. Seven of 27 marked sucker-mouthed minnows were
+taken in areas adjacent to the one to which they had been returned. Two
+of six black bullheads that were recaptured had moved. The black
+bullhead moved the greater distance. The extent of short-term movement
+by several of the species in the Upper Neosho correlates well with
+redistribution subsequent to drought in the Wakarusa River, discussed by
+Deacon and Metcalf (1961).
+
+
+Similarity of the Fauna at the Upper Neosho Station to the Faunas of
+Nearby Streams
+
+The fauna that I found to be characteristic at the upper Neosho station
+has affinity with the upland tributary-fauna described by Metcalf (1959)
+for Chautauqua, Cowley and Elk Counties, Kansas. The primary difference
+is a nearly complete absence at my station of the Ozarkian element of
+the population. Some species (red-finned shiner, long-eared sunfish, and
+spotted bass) listed by Metcalf as characteristic of the mainstream of
+smaller rivers occur at the upper Neosho station in greater abundance
+then elsewhere in the Neosho. This difference is probably due to the
+fact that the upper Neosho station is somewhat larger and slightly more
+turbid than Metcalf's "upland tributaries."
+
+Hall (1952) reported on the distribution of fishes in the vicinity of
+Fort Gibson Reservoir, an impoundment on the Grand (Neosho) River in
+Oklahoma. He separated the fishes into three groups according to
+habitat-preference: species restricted to upland tributaries on the east
+side of Grand (Neosho) River, species restricted to lowland tributaries
+on the west side of Grand (Neosho) River, and species occurring in the
+Grand River proper and/or tributaries on one or both sides.
+
+Several species found in the upper Neosho River also occur in the area
+studied by Hall. Of these, only the creek chub was restricted to upland
+tributaries on the east side of Grand (Neosho) River. The sucker-mouthed
+minnow and red-finned shiner were restricted to the lowland tributaries
+on the west side of Grand (Neosho) River in the Fort Gibson Reservoir
+Area. Golden redhorse, stoneroller, yellow bullhead, spotted bass, green
+sunfish, long-eared sunfish, and orange-throated darter were present in
+collections from the Grand River proper and/or tributaries on both sides
+of the river, most commonly in tributaries.
+
+Hall's data show that black bullhead, large-mouthed bass, white crappie,
+and logperch occurred most frequently in or near the quiet water of the
+reservoir. In my study these fish were most common in the larger, quiet
+pools at the upper Neosho station.
+
+
+
+
+COMPARISON OF THE FISH FAUNAS OF THE NEOSHO AND MARAIS DES CYGNES RIVERS
+
+
+The Marais des Cygnes River has less gradient (especially in the
+upstream portions), fewer and shorter riffles, and more mud bottom than
+does the Neosho River. Stream-flow during drought was reduced to a
+proportionately greater degree in the Neosho River than it was in the
+Marais des Cygnes River. Average flow of the Neosho River near Parsons
+(drainage area: 4905 square miles), Kansas, was less than average flow
+of the Marais des Cygnes River at Trading Post (drainage area: 2880
+square miles), Kansas, in 1953, 1955 and 1956. In normal times the
+Neosho River carries a larger volume of water than the Marais des
+Cygnes. The Neosho River has a greater variety of habitat-conditions and
+a more diversified fish-fauna than the Marais des Cygnes.
+
+The following species were taken in the Neosho River but not in the
+Marais des Cygnes River: blue sucker, high-finned carpsucker, golden
+redhorse, gravel chub, mimic shiner, mountain minnow, parrot minnow,
+Neosho madtom (the only endemic in either river), mosquitofish, spotted
+bass, smallmouth, black crappie, logperch and fan-tailed darter. Most of
+the above species are usually found in association with gravel-bottom,
+which is prevalent in Neosho River. The blue sucker, high-finned
+carpsucker, gravel chub, mountain minnow, and parrot minnow normally
+occur in the larger streams in Kansas. The last three species became
+more abundant in the Neosho River following resumption of flow. The
+golden redhorse also increased in abundance from 1957 to 1959, but was
+most numerous at the upper Neosho station, whereas the other species
+occurred mainly at the lower stations.
+
+The mimic shiner, spotted bass, smallmouth, and fan-tailed darter are
+characteristic of upstream habitats with clear water (tributaries,
+rather than the mainstream), and were taken in the Neosho River only in
+1957 or became less abundant from 1957 to 1959.
+
+The silver chub, slender madtom and tadpole madtom were taken in the
+Marais des Cygnes River only in 1957 and were not taken in the Neosho
+River.
+
+The following species, common to both rivers, were more abundant in the
+Neosho: long-nosed gar, short-nosed gar, river carpsucker, creek chub,
+sucker-mouthed minnow, red-finned shiner, red shiner, ghost shiner,
+blunt-nosed minnow, fat-headed minnow, stoneroller, yellow bullhead,
+channel catfish, flathead, stonecat, largemouth, long-eared sunfish,
+slender-headed darter, and freshwater drum. These species, collectively,
+reflect the more diversified habitats (more gravel-bottom, more
+riffle-areas, more gradient, greater range of stream-size sampled) in
+the Neosho River.
+
+The following species, common to both rivers, were more abundant in the
+Marais des Cygnes: gizzard shad, carp, sand shiner, black bullhead and
+white crappie. These species (with the exception of sand shiner)
+emphasize the fact that the Marais des Cygnes is a sluggish stream with
+large areas of mud bottom. Differences in the abundance of the sand
+shiner in the two rivers are part of taxonomic and distributional
+studies being conducted by Mr. Bernard C. Nelson.
+
+The following species were not consistently more abundant in one river
+than the other: big-mouthed buffalo, black buffalo, small-mouthed
+buffalo, short-headed redhorse, green sunfish, orange-spotted sunfish
+and orange-throated darter. These species, excepting the orange-throated
+darter and short-headed redhorse, occurred in a wide variety of
+habitats.
+
+
+
+
+FAUNAL CHANGES, 1957 THROUGH 1959
+
+
+The following species increased in abundance from 1957 to 1959 (Tables
+10 and 11): long-nosed gar, short-nosed gar, river carpsucker, creek
+chub, gravel chub, sucker-mouthed minnow, mountain minnow, blunt-nosed
+minnow, parrot minnow, stoneroller, stonecat, Neosho madtom, green
+sunfish, slender-headed darter, and orange-throated darter.
+
+These species can be separated into three groups, characteristic of
+different habitats but having in common a preference for permanent flow.
+One group, composed of long-nosed gar, short-nosed gar, river
+carpsucker, gravel chub, mountain minnow, parrot minnow, and Neosho
+madtom, prefers streams of moderate to large size.
+
+A second group composed of creek chub, sucker-mouthed minnow,
+stoneroller, and orange-throated darter occurs most abundantly in small,
+permanent streams. The green sunfish may be included here on the basis
+of its abundance at the upper Neosho station; however, this is a pioneer
+species and does not require permanent flow.
+
+The third group is characteristic of continuously flowing water, but in
+both upstream and downstream situations. The species in this group
+(blunt-nosed minnow, stonecat, and slender-headed darter), increased in
+response to a resumption of permanent flow, but did not respond as
+quickly as did channel catfish, flatheads and freshwater drum, which are
+discussed subsequently.
+
+The fact that riffle-insects were abundant throughout my study convinces
+me that food was not a limiting factor in the re-establishment of the
+fish-fauna on riffles of the Neosho River.
+
+The following species decreased in abundance during my study (Tables 10
+and 11): gizzard shad, carp, rosy-faced shiner, blunt-faced shiner, red
+shiner, mimic shiner, black bullhead, yellow bullhead, channel catfish,
+flathead, slender madtom, tadpole madtom, freckled madtom, spotted bass,
+largemouth, black crappie, fan-tailed darter, and freshwater drum.
+
+Among the species that decreased, three groups, characteristic of
+different habitats, can be distinguished. The first group occurs most
+commonly in ponded conditions or in slowly flowing streams. Species in
+this group are: shad, carp, black bullhead, tadpole madtom, largemouth,
+black crappie, and white crappie. Bullhead, bass and crappie commonly
+occur in farm ponds and lakes in Kansas and seem less well adapted to
+streams. It is therefore not surprising to find that these species
+decreased in abundance when flow was resumed.
+
+A second group, composed of rosy-faced shiner, blunt-faced shiner, mimic
+shiner, slender madtom, freckled madtom, spotted bass, and fan-tailed
+darter, normally is characteristic of clear tributaries rather than the
+mainstream of rivers. These species probably used the mainstream as a
+refugium during drought; with the resumption of flow, conditions became
+unsuitable for these populations in the mainstream. At the same time,
+conditions probably became favorable to the re-establishment of these
+species in tributaries. Metcalf (1959:396) listed the rosy-faced shiner,
+blunt-faced shiner and mimic shiner as species that were characteristic
+of upland tributaries in the Flint Hills and Chautauqua Hills of
+Chautauqua, Cowley and Elk counties in Kansas. The slender madtom and
+fan-tailed darter are more common in clear streams of southeast Kansas
+than in other areas of the state (Cross, personal communication and data
+of the State Biological Survey of Kansas). Both species are recorded by
+Hall (1952:57-58) only in upland tributaries on the east side of Grand
+(Neosho) River in the Fort Gibson Reservoir area of Oklahoma. Neither
+species was taken in faunal studies of the Verdigris River in Oklahoma
+(Wallen, 1958), in the Verdigris and Fall rivers in Kansas (Schelske,
+1957), or by Metcalf (1959).
+
+The spotted bass is not so restricted in its distribution and its
+habitat-requirements as are other species in this group; but, in Kansas,
+spotted bass are most abundant in clear creeks in the southeast part of
+the state.
+
+The freckled madtom was taken in most of the studies cited above and is
+most common in the smaller streams of the southeast one-fourth of Kansas
+and the northeast one-fourth of Oklahoma. Schelske (1957:47) reports
+that the freckled madtom was taken only in March, April, October and
+November in the Verdigris River, Kansas. My only record of this species
+was obtained in the Neosho River in April, 1958.
+
+The third group is composed of channel catfish, flathead, and freshwater
+drum. This group represents that element of the population that
+responded most quickly to the resumption of continuous flow. The fact
+that adult channel catfish and flatheads live in pools and do not
+require flowing water to spawn gives these species a survival advantage
+as well as a reproductive advantage over obligatory riffle fishes (such
+as most darters) in the highly variable conditions found in Kansas
+streams. These factors resulted in unusually high reproductive success
+in 1957. Subsequent survival of fry was excellent; however, some
+mortality in the highly-dominant 1957 year-class became apparent in the
+1958 and 1959 collections, accounting for a numerical decline in these
+species. The ability to respond immediately to increased flow is an
+adaptive feature that allows these species to maintain high levels of
+abundance in the highly fluctuating streams of Kansas.
+
+The continuous flow that occurred in 1957 in the Neosho and Marais des
+Cygnes rivers, for the first time in four years, provided the necessary
+habitat for survival of young catfish hatched in that year. The nearly
+complete absence of other species on the riffles, and the abundant
+populations of riffle-insects that I observed in the summer of 1957,
+were undoubtedly factors contributing to the survival of young.
+
+The decrease in abundance of the red shiner may be partially due to an
+increase in the numbers of other species that are well adapted to
+conditions of permanent flow. At the completion of my study, the red
+shiner was still the most abundant minnow in both rivers. In 1957 this
+species was common in many habitats, including swift riffles, that were
+later occupied by madtoms, darters, the gravel chub, mountain minnow and
+sucker-mouthed minnow.
+
+The basic pattern of change was clearly an increase in the species that
+are characteristic of permanently flowing waters, and a decrease in the
+species that are characteristic of ponds or small, clear streams.
+
+
+PLATE 26
+
+  [Illustration: FIG. 1. Neosho River, Middle Station, Sec. 3 and 4,
+  T. 24 S., R. 17 E., looking upstream, July, 1958.]
+
+  [Illustration: FIG. 2. Neosho River, Lower Station, Sec. 16,
+  T. 29 S., R. 20 E., along gravel bar, July, 1959.]
+
+
+PLATE 27
+
+  [Illustration: FIG. 1. Marais des Cygnes River, Upper Station,
+  Sec. 12, T. 17 S., R. 17 E., looking downstream, June, 1960.]
+
+  [Illustration: FIG. 2. Marais des Cygnes River, Middle Station,
+  Sec. 6, T. 17 S., R. 20 E., looking downstream, June, 1960.]
+
+
+PLATE 28
+
+  [Illustration: FIG. 1. Electrical fishing gear used at night.]
+
+  [Illustration: FIG. 2. Pool at the upper Neosho station in which
+  rotenone was used, Sec. 33, T. 15 S., R. 8 E., looking downstream,
+  June, 1960.]
+
+
+PLATE 29
+
+  [Illustration: FIG. 1. Area 1, upper Neosho station, Sec. 33,
+  T. 15 S., R. 8 E., looking upstream, June, 1960.]
+
+  [Illustration: FIG. 2. Area 3, upper Neosho station, Sec. 10,
+  T. 16 S., R. 8 E., looking downstream, June, 1960.]
+
+
+PLATE 30
+
+  [Illustration: FIG. 1. Area 5, upper Neosho station, Sec. 3,
+  T. 16 S., R. 8 E., looking upstream, June, 1960.]
+
+  [Illustration: FIG. 2. Area 6, upper Neosho station, Sec. 3,
+  T. 16 S., R. 8 E., looking upstream, June, 1960.]
+
+
+
+
+CONCLUSIONS
+
+
+The fauna of the Neosho and Marais des Cygnes rivers is capable of a
+wide range of adjustment in response to marked environmental changes. As
+these rivers become low and clear they take on many of the faunal
+characteristics of smaller tributaries and ponds. Species such as black
+bullhead, spotted bass, largemouth, white crappie, red shiner,
+rosy-faced shiner, blunt-faced minnow, mimic shiner, and slender madtom
+assume a more prominent position in the total population. Other species
+such as channel catfish, flathead, freshwater drum, blue sucker, and
+such riffle-dwelling species as the gravel chub, Neosho madtom, and
+slender-headed darter hold a less prominent position in the total
+population.
+
+When permanent flow is re-established the more mobile and the more
+generalized species (with respect to habitat) are able to utilize the
+available space immediately. As a result, these species increase rapidly
+in numbers. This increase occurs both by movement from more permanent
+waters and by reproduction. Channel catfish, flathead, freshwater drum,
+and river carpsucker are mobile species (Funk, 1957; Trautman, 1957) and
+long-nosed gar probably are mobile. Individuals that move supplement
+those that survive in residual pools, and provide brood stock adequate
+to produce a large year-class in the first year of permanent flow.
+
+The five species last mentioned are found in diverse kinds of streams,
+indicating that they are adaptable to varying habitats. A sixth species,
+the red shiner, although probably less mobile, is able to utilize
+opportunistically nearly any kind of habitat in Plains streams.
+Although this species seldom is abundant in riffles, it was, in 1957,
+abundant in both pool and riffle situations at all my stations. These
+riffles were almost unoccupied by other species in 1957 until
+mid-summer, when hatches of channel catfish and flatheads occurred.
+Although adult channel catfish and flatheads live well in pools, the
+young occupy mainly riffles. This age- and size-segregation, in
+different habitats, was an advantage to the rapid re-establishment of
+these species in the Neosho and Marais des Cygnes rivers in 1957.
+
+Species that occupy restricted habitats, especially riffle-dwellers such
+as the Neosho madtom, gravel chub, and slender-headed darter, were
+slowest to increase following drought. These species seem less capable
+of adapting to the variable conditions prevalent in the Neosho and
+Marais des Cygnes rivers than species that have more generalized
+habitat-requirements.
+
+In the Neosho and Marais des Cygnes rivers nearly all species that were
+found in years just prior to the drought of 1952-1956 were again found
+in the last year of my survey; however, some species that live in a
+restricted habitat may eventually be extirpated in these two rivers. The
+high-finned carpsucker _Carpiodes velifer_, common shiner _Notropis
+cornutus_, horny-headed chub _Hybopsis biguttata_, and johnny darter
+_Etheostoma nigrum_ all have specific habitat requirements and have
+disappeared or become restricted to one tributary in the Wakarusa River
+System (Deacon and Metcalf, 1961). The disappearance or reduction of
+these species implies long-term changes in the environment.
+
+Suckers, minnows and catfishes constitute the main fauna of the Neosho
+and Marais des Cygnes rivers, because these families contain many
+species that have generalized habitat-requirements. Many of these fish
+are able to live successfully in either ponds or flowing waters and
+others are capable of long migrations. Because these fish predominate in
+the streams of Kansas, attempts should be made to utilize them more
+effectively.
+
+In years such as 1957, large numbers of young channel catfish could be
+collected and used to stock new ponds and lakes. So doing would not
+affect the numbers of _adults_ produced in the stream, and, if enough
+young could be removed, those remaining in the streams might grow
+faster.
+
+Suckers and carp are abundant in the two rivers and mostly are unused at
+present, because current regulations preclude the use of methods
+effective for the capture of these species.
+
+
+
+
+ACKNOWLEDGMENTS
+
+
+The investigation here reported on was supported jointly by the Kansas
+Forestry, Fish and Game Commission and the State Biological Survey of
+Kansas.
+
+I thank Messrs. W. L. Minckley, D. A. Distler, J. McMullen, A. L.
+Metcalf, L. J. Olund, M. Topping, B. Nelson and Claude Hastings for
+assistance in the field, and Mr. Ernest Craig, Game Protector, Erie,
+Kansas, for valuable suggestions and co-operation. I am especially
+grateful to Associate Professor Frank B. Cross for his pre-drought data,
+guidance, and criticism throughout the course of the work. I thank the
+many landowners who allowed me access to streams, and am especially
+indebted to Mr. and Mrs. Floyd Meats and Mr. and Mrs. Oliver Craig for
+their hospitality and assistance.
+
+Assistant Professor Kenneth B. Armitage and Associate Professor Ronald
+L. McGregor read the manuscript and gave helpful advice. Mrs. Maxine
+Deacon typed the manuscript and assisted in other ways.
+
+
+
+
+LITERATURE CITED
+
+
+ANONYMOUS.
+
+  1945. Kansas State Board of Agriculture. River basin problems and
+        proposed reservoir projects for a state plan of water resources
+        development: Div. of Water Resources, 63(264):1-62, Figs. 1-16.
+
+  1947. Kansas State Board of Agriculture. The Neosho River basin plan
+        of state water resources development: Div. of Water Resources,
+        66(280):1-132, Figs. 1-10.
+
+  1958. Drought: A report. United States Government Printing Office,
+        492400:1-45.
+
+BAILEY, R. M., and HARRISON, H. M., JR.
+
+  1948. Food habits of the southern channel catfish (_Ictalurus
+        lacustris punctatus_) in the Des Moines River, Iowa. Trans. Am.
+        Fish. Soc., 75:110-138.
+
+BREDER, C. M., JR.
+
+  1936. Long-lived fishes in the aquarium. Bull. N. Y. Zool. Soc.,
+        39:116-117.
+
+CROSS, F. B.
+
+  1954. Fishes of Cedar Creek and the South Fork of the Cottonwood
+        River, Chase County, Kansas. Trans. Kansas Acad. Sci.,
+        57(3):303-314.
+
+----, and MINCKLEY, W. L.
+
+  1958. New records of four fishes from Kansas. Trans. Kansas Acad.
+        Sci., 61(1):104-108.
+
+DAVIS, J.
+
+  1959. Management of channel catfish in Kansas. Univ. Kansas Misc.
+        Publ., Mus. Nat. Hist., 21:1-56.
+
+DEACON, J. E.
+
+  1961. A new staining method for marking large numbers of small fish.
+        Prog. Fish Cult., 23(1):41-42.
+
+----, and METCALF, A. L.
+
+       Fishes of the Wakarusa River, Kansas. Univ. of Kansas Publ., Mus.
+       Nat. Hist., 13(6):309-322.
+
+FOLEY, F. C., SMRHA, R. V., and METZLER, D. F.
+
+  1955. Water in Kansas. A report to the Kansas State Legislature.
+        University of Kansas, pp. 1-216.
+
+FUNK, J. L.
+
+  1957. Movement of stream fishes in Missouri. Trans. Am. Fish. Soc.,
+        85(1955), pp. 39-57.
+
+GARRETT, R. A.
+
+  1951. Kansas flood producing rains of 1951. Trans. Kansas Acad. Sci.,
+        54(3):346-355.
+
+  1958. _In_ Kansas Agriculture 1956-57. Kansas State Board of
+        Agriculture, 40th report, pp. 1-288.
+
+HALL, G. E.
+
+  1952. Observations on the fishes of the Fort Gibson and Tenkiller
+        reservoir areas, 1952. Proc. Oklahoma Acad. Sci., 33:55-63.
+
+HASLER, A. D. and WISBY, W. J.
+
+  1958. The return of displaced largemouth bass and green sunfish to a
+        "home" area. Ecology 39(2):289-293.
+
+LACK, D.
+
+  1954. The natural regulation of animal numbers.  Oxford University
+        Press, Amen House, London E. C. 4. VIII + 1-343.
+
+MARZOLF, R. C.
+
+  1957. The production of channel catfish in Missouri ponds. Jour.
+        Wildl. Mgt., 21:22-28.
+
+MEAD, J. R.
+
+  1903. Origin of names of Kansas streams. Trans. Kansas Acad. Sci.,
+        18:215-216.
+
+METCALF, A. L.
+
+  1959. Fishes of Chautauqua, Cowley and Elk Counties, Kansas. Univ.
+        Kansas Publ., Mus. Nat. Hist., 11:345-400.
+
+METZLER, D. F., CULP, R. L., STOLTENBERG, H. A., WOODWARD, R. L.,
+WALTON, G., CHANG, S. L., CLARKE, N. A., PALMER, C. M., and
+MIDDLETON, F. M.
+
+  1958. Emergency use of reclaimed water for potable supply at Chanute,
+        Kansas. Journ. Am. Water Works Assoc., 50(8):1021-1060.
+
+MINCKLEY, W. L.
+
+  1959. Fishes of the Big Blue River Basin, Kansas. Univ. Kansas Publ.,
+        Mus. Nat. Hist., 11:401-442.
+
+----, and DEACON, J. E.
+
+  1959. Biology of the Flathead Catfish in Kansas. Trans. Am. Fish.
+        Soc., 88:344-355.
+
+MUNCY, R. J.
+
+  1958. Movements of Channel Catfish in Des Moines River, Boone County,
+        Iowa. Iowa St. Col. Jour. of Sci., 32(4):563-571.
+
+SCHELSKE, C. L.
+
+  1957. An ecological study of the fishes of the Fall and Verdigris
+        rivers in Wilson and Montgomery counties, Kansas, March 1954,
+        to February 1955. Emporia State Research Studies, 5(3):31-56.
+
+SCHOEWE, W. H.
+
+  1951. The geography of Kansas. Trans. Kansas Acad. Sci.,
+        54(3):263-329.
+
+TRAUTMAN, M. B.
+
+  1957. The fishes of Ohio. Waverly Press, Inc., Baltimore, Md. XVII +
+        1-683.
+
+WEAVER, J. E., and ALBERTSON, F. W.
+
+  1936. Effects of the great drought on the prairies of Iowa, Nebraska,
+        and Kansas. Ecology 17(4):567-639.
+
+
+  _Transmitted March 30, 1961._
+
+
+  28-7576
+
+
+
+
+UNIVERSITY OF KANSAS PUBLICATIONS
+
+MUSEUM OF NATURAL HISTORY
+
+
+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. There
+is no provision for sale of this series by the University Library, which
+meets institutional requests, or by the Museum of Natural History, which
+meets the requests of individuals. However, when individuals request
+copies from the Museum, 25 cents should be included, for each separate
+number that is 100 pages or more in length, for the purpose of defraying
+the costs of wrapping and mailing.
+
+  * An asterisk designates those numbers of which the Museum's
+  supply (not the Library's supply) is exhausted. Numbers published
+  to date, in this series, are as follows:
+
+  Vol. 1. Nos. 1-26 and index. Pp. 1-638, 1946-1950.
+
+ *Vol. 2. (Complete) Mammals of Washington. By Walter W. Dalquest.
+          Pp. 1-444, 140 figures in text. April 9, 1948.
+
+  Vol. 3. *1. The avifauna of Micronesia, its origin, evolution, and
+              distribution. By Rollin H. Baker. Pp. 1-359, 16 figures
+              in text. June 12, 1951.
+
+          *2. A quantitative study of the nocturnal migration of birds.
+              By George H. Lowery, Jr. Pp. 361-472, 47 figures in text.
+              June 29, 1951.
+
+           3. Phylogeny of the waxwings and allied birds. By M. Dale
+              Arvey. Pp. 473-530, 49 figures in text, 13 tables.
+              October 10, 1951.
+
+           4. 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.
+
+          Index. Pp. 651-681.
+
+ *Vol. 4. (Complete) American weasels. By E. Raymond Hall. Pp. 1-466,
+          41 plates, 31 figures in text. December 27, 1951.
+
+  Vol. 5. Nos. 1-37 and index. Pp. 1-676, 1951-1953.
+
+ *Vol. 6. (Complete) Mammals of Utah, _taxonomy and distribution_.
+          By Stephen D. Durrant. Pp. 1-549, 91 figures in text,
+          30 tables. August 10, 1952.
+
+  Vol. 7. *1. Mammals of Kansas. By E. Lendell Cockrum. Pp. 1-303,
+              73 figures in text, 37 tables. August 25, 1952.
+
+           2. Ecology of the opossum on a natural area in northeastern
+              Kansas. By Henry S. Fitch and Lewis L. Sandidge.
+              Pp. 305-338, 5 figures in text. August 24, 1953.
+
+           3. The silky pocket mice (Perognathus flavus) of Mexico.
+              By Rollin H. Baker. Pp. 339-347, 1 figure in text.
+              February 15, 1954.
+
+           4. North American jumping mice (Genus Zapus). By Phillip H.
+              Krutzsch. Pp. 349-472, 47 figures in text, 4 tables.
+              April 21, 1954.
+
+           5. Mammals from Southeastern Alaska. By Rollin H. Baker and
+              James S. Findley. Pp. 473-477. April 21, 1954.
+
+           6. Distribution of Some Nebraskan Mammals. By J. Knox Jones,
+              Jr. Pp. 479-487. April 21, 1954.
+
+           7. Subspeciation in the montane meadow mouse, Microtus
+              montanus, in Wyoming and Colorado. By Sydney Anderson.
+              Pp. 489-506, 2 figures in text. July 23, 1954.
+
+           8. A new subspecies of bat (Myotis velifer) from southeastern
+              California and Arizona. By Terry A. Vaughan. Pp. 507-512.
+              July 23, 1954.
+
+           9. Mammals of the San Gabriel mountains of California.
+              By Terry A. Vaughan. Pp. 513-582, 1 figure in text,
+              12 tables. November 15, 1954.
+
+          10. A new bat (Genus Pipistrellus) from northeastern Mexico.
+              By Rollin H. Baker. Pp. 583-586. November 15, 1954.
+
+          11. A new subspecies of pocket mouse from Kansas. By E.
+              Raymond Hall. Pp. 587-590. November 15, 1954.
+
+          12. Geographic variation in the pocket gopher, Cratogeomys
+              castanops, in Coahuila, Mexico. By Robert J. Russell and
+              Rollin H. Baker. Pp. 591-608. March 15, 1955.
+
+          13. A new cottontail (Sylvilagus floridanus) from northeastern
+              Mexico. By Rollin H. Baker. Pp. 609-612. April 8, 1955.
+
+          14. Taxonomy and distribution of some American shrews. By
+              James S. Findley. Pp. 613-618. June 10, 1955.
+
+          15. The pigmy woodrat, Neotoma goldmani, its distribution and
+              systematic position. By Dennis G. Rainey and Rollin H.
+              Baker. Pp. 619-624, 2 figures in text. June 10, 1955.
+
+          Index. Pp. 625-651.
+
+  Vol. 8. Nos. 1-10 and index. Pp. 1-675, 1954-1956.
+
+  Vol. 9.  1. Speciation of the wandering shrew. By James S. Findley.
+              Pp. 1-68, 18 figures in text. December 10, 1955.
+
+           2. Additional records and extension of ranges of mammals
+              from Utah. By Stephen D. Durrant, M. Raymond Lee, and
+              Richard M. Hansen. Pp. 69-80. December 10, 1955.
+
+           3. A new long-eared myotis (Myotis evotis) from northeastern
+              Mexico. By Rollin H. Baker and Howard J. Stains.
+              Pp. 81-84. December 10, 1955.
+
+           4. Subspeciation in the meadow mouse, Microtus
+              pennsylvanicus, in Wyoming. By Sydney Anderson.
+              Pp. 85-104, 2 figures in text. May 10, 1956.
+
+           5. The condylarth genus Ellipsodon. By Robert W. Wilson.
+              Pp. 105-116, 6 figures in text. May 19, 1956.
+
+           6. Additional remains of the multituberculate genus
+              Eucosmodon. By Robert W. Wilson. Pp. 117-123, 10 figures
+              in text. May 19, 1956.
+
+           7. Mammals of Coahuila, Mexico. By Rollin H. Baker.
+              Pp. 125-335, 75 figures in text. June 15, 1956.
+
+           8. Comments on the taxonomic status of Apodemus peninsulae,
+              with description of a new subspecies from North China.
+              By J. Knox Jones, Jr. Pp. 337-346, 1 figure in text,
+              1 table. August 15, 1956.
+
+           9. Extensions of known ranges of Mexican bats. By Sydney
+              Anderson. Pp. 347-351. August 15, 1956.
+
+          10. A new bat (Genus Leptonycteris) from Coahuila. By Howard
+              J. Stains. Pp. 353-356. January 21, 1957.
+
+          11. A new species of pocket gopher (Genus Pappogeomys) from
+              Jalisco, Mexico. By Robert J. Russell. Pp. 357-361.
+              January 21, 1957.
+
+          12. Geographic variation in the pocket gopher, Thomomys
+              bottae, in Colorado. By Phillip M. Youngman. Pp. 363-387,
+              7 figures in text. February 21, 1958.
+
+          13. New bog lemming (genus Synaptomys) from Nebraska. By J.
+              Knox Jones, Jr. Pp. 385-388. May 12, 1958.
+
+          14. Pleistocene bats from San Josecito Cave, Nuevo Leon,
+              Mexico. By J. Knox Jones, Jr. Pp. 389-396. December 19,
+              1958.
+
+          15. New subspecies of the rodent Baiomys from Central America.
+              By Robert L. Packard. Pp. 397-404. December 19, 1958.
+
+          16. Mammals of the Grand Mesa, Colorado. By Sydney Anderson.
+              Pp. 405-414, 1 figure in text, May 20, 1959.
+
+          17. Distribution, variation, and relationships of the montane
+              vole, Microtus montanus. By Sydney Anderson. Pp. 415-511,
+              12 figures in text, 2 tables. August 1, 1959.
+
+          18. Conspecificity of two pocket mice, Perognathus goldmani
+              and P. artus. By E. Raymond Hall and Marilyn Bailey
+              Ogilvie. Pp. 513-518, 1 map. January 14, 1960.
+
+          19. Records of harvest mice, Reithrodontomys, from Central
+              America, with description of a new subspecies from
+              Nicaragua. By Sydney Anderson and J. Knox Jones, Jr.
+              Pp. 519-529. January 14, 1960.
+
+          20. Small carnivores from San Josecito Cave (Pleistocene),
+              Nuevo Leon, Mexico. By E. Raymond Hall. Pp. 531-538,
+              1 figure in text. January 14, 1960.
+
+          21. Pleistocene pocket gophers from San Josecito Cave, Nuevo
+              Leon, Mexico. By Robert J. Russell. Pp. 539-548, 1 figure
+              in text. January 14, 1960.
+
+          22. Review of the insectivores of Korea. By J. Knox Jones,
+              Jr., and David H. Johnson. Pp. 549-578. February 23, 1960.
+
+          23. Speciation and evolution of the pygmy mice, genus Baiomys.
+              By Robert L. Packard. Pp. 579-670, 4 plates, 12 figures in
+              text. June 16, 1960.
+
+          Index. Pp. 671-690.
+
+  Vol. 10. 1. Studies of birds killed in nocturnal migration. By
+              Harrison B. Tordoff and Robert M. Mengel. Pp. 1-44,
+              6 figures in text, 2 tables. September 12, 1956.
+
+           2. Comparative breeding behavior of Ammospiza caudacuta and
+              A. maritima. By Glen E. Woolfenden. Pp. 45-75, 6 plates,
+              1 figure. December 20, 1956.
+
+           3. The forest habitat of the University of Kansas Natural
+              History Reservation. By Henry S. Fitch and Ronald R.
+              McGregor. Pp. 77-127, 2 plates, 7 figures in text,
+              4 tables. December 31, 1956.
+
+           4. Aspects of reproduction and development in the prairie
+              vole (Microtus ochrogaster). By Henry S. Fitch. Pp.
+              129-161, 8 figures in text, 4 tables. December 19, 1957.
+
+           5. Birds found on the Arctic slope of northern Alaska. By
+              James W. Bee. Pp. 163-211, plates 9-10, 1 figure in text.
+              March 12, 1958.
+
+           6. The wood rats of Colorado: distribution and ecology. By
+              Robert B. Finley, Jr. Pp. 213-552, 34 plates, 8 figures
+              in text, 35 tables. November 7, 1958.
+
+           7. Home ranges and movements of the eastern cottontail in
+              Kansas. By Donald W. Janes. Pp. 553-572, 4 plates,
+              3 figures in text. May 4, 1959.
+
+           8. Natural history of the salamander, Aneides hardyi. By
+              Richard F. Johnston and Gerhard A. Schad. Pp. 573-585.
+              October 8, 1959.
+
+           9. A new subspecies of lizard, Cnemidophorus sacki, from
+              Michoacan, Mexico. By William E. Duellman, Pp. 587-598,
+              2 figures in text. May 2, 1960.
+
+          10. A taxonomic study of the Middle American Snake, Pituophis
+              deppei. By William E. Duellman. Pp. 599-610, 1 plate,
+              1 figure in text. May 2, 1960.
+
+          Index. Pp. 611-626.
+
+  Vol. 11. 1. The systematic status of the colubrid snake, Leptodeira
+              discolor Guenther. By William E. Duellman. Pp. 1-9,
+              4 figures. July 14, 1958.
+
+           2. Natural history of the six-lined racerunner, Cnemidophorus
+              sexlineatus. By Henry S. Fitch. Pp. 11-62, 9 figures,
+              9 tables. September 19, 1958.
+
+           3. Home ranges, territories, and seasonal movements of
+              vertebrates of the Natural History Reservation. By Henry
+              S. Fitch. Pp. 63-326, 6 plates, 24 figures in text,
+              3 tables. December 12, 1958.
+
+           4. A new snake of the genus Geophis from Chihuahua, Mexico.
+              By John M. Legler. Pp. 327-334, 2 figures in text.
+              January 28, 1959.
+
+           5. A new tortoise, genus Gopherus, from north-central Mexico.
+              By John M. Legler. Pp. 335-343. April 24, 1959.
+
+           6. Fishes of Chautauqua, Cowley and Elk counties, Kansas.
+              By Artie L. Metcalf. Pp. 345-400, 2 plates, 2 figures in
+              text, 10 tables. May 6, 1959.
+
+           7. Fishes of the Big Blue River Basin, Kansas. By W. L.
+              Minckley. Pp. 401-442, 2 plates, 4 figures in text,
+              5 tables. May 8, 1959.
+
+           8. Birds from Coahuila, Mexico. By Emil K. Urban.
+              Pp. 443-516. August 1, 1959.
+
+           9. Description of a new softshell turtle from the
+              southeastern United States. By Robert G. Webb. Pp.
+              517-525, 2 plates, 1 figure in text. August 14, 1959.
+
+          10. Natural history of the ornate box turtle, Terrapene ornata
+              ornata Agassiz. By John M. Legler. Pp. 527-669, 16 pls.,
+              29 figures in text. March 7, 1960.
+
+          Index Pp. 671-703.
+
+  Vol. 12. 1. Functional morphology of three bats: Eumops, Myotis,
+              Macrotus. By Terry A. Vaughan. Pp. 1-153, 4 plates,
+              24 figures in text. July 8, 1959.
+
+           2. 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.
+
+           3. The baculum in microtine rodents. By Sydney Anderson.
+              Pp. 181-216, 49 figures in text. February 19, 1960.
+
+           4. 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.
+
+          More numbers will appear in volume 12.
+
+  Vol. 13. 1. Five natural hybrid combinations in minnows (Cyprinidae).
+              By Frank B. Cross and W. L. Minckley. Pp. 1-18.
+              June 1, 1960.
+
+           2. A distributional study of the amphibians of the Isthmus of
+              Tehuantepec, Mexico. By William E. Duellman. Pp. 19-72,
+              pls. 1-8, 3 figures in text. August 16, 1960.
+
+           3. A new subspecies of the slider turtle (Pseudemys scripta)
+              from Coahuila, Mexico. By John M. Legler. Pp. 73-84,
+              pls. 9-12, 3 figures in text. August 16, 1960.
+
+           4. Autecology of the Copperhead. By Henry S. Fitch. Pp.
+              85-288, pls. 13-20, 26 figures in text. November 30, 1960.
+
+           5. 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.
+
+           6. 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.
+
+           7. 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.
+
+           8. 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.
+
+           9. 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 figs. August 11, 1961.
+
+          More numbers will appear in volume 13.
+
+  Vol. 14. 1. Neotropical Bats from Western Mexico. By Sydney Anderson.
+              Pp. 1-8. October 24, 1960.
+
+           2. 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.
+
+           3. Mammals of Mesa Verde National Park, Colorado. By Sydney
+              Anderson. Pp. 29-67, pls. 1 and 2, 3 figures in text.
+              July 24, 1961.
+
+          More numbers will appear in volume 14.
+
+
+
+
+
+End of the Project Gutenberg EBook of Fish Populations, Following a Drought,
+in the Neosho and Marais des Cygnes Rivers of Kansas, by James Everett Deacon
+
+*** END OF THIS PROJECT GUTENBERG EBOOK FISH POPULATIONS, FOLLOWING ***
+
+***** This file should be named 34787.txt or 34787.zip *****
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