Proceedings of the Desert Fishes Council, 1996 (Volume 28)

Proceedings of the Desert Fishes Council VOLUME XXVIII

1996 ANNUAL SYMPOSIUM

6 - 9 November

La Paz, Baja California Sur, México

Table of Contents

Edited by

Gary P. Garrett, HOH Research Station,

Texas Parks & Wildlife Department Ingram, Texas 78025

published: October 30, 1997

ISSN 1068-0381

Desert Fishes Council, P.O. Box 337, Bishop, California 93515-0337

619-872-8751 Voice & Fax; e-mail: phil at desertfishes dot org

MISSION

The mission of the Desert Fishes Council is to preserve the biological integrity of desert aquatic ecosystems and their associated life forms, to hold symposia to report related research and management endeavors, and to effect rapid dissemination of information concerning activities of the Council and its members.

OFFICERS

Chairman: Dean A. Hendrickson, Texas Natural History Collection/R4000, University of Texas, Austin, Texas

Chairman-elect: Michael E. Douglas, Dept. Zoology and Museum, Arizona State University, Tempe, Arizona

Executive Secretary: E. Phil Pister, Bishop, California

COMMITTEES

Executive Committee: Michael E. Douglas, Gary P. Garrett, Dean A. Hendrickson, Nadine Kanim, Paul C. Marsh, E. Phil Pister, John Rinne

Area Coordinator: Nadine Kanim

Awards: Clark Hubbs

Membership: Paul C. Marsh

Proceedings Editor: Gary P. Garrett

Proceedings Reviewers: Glenn Clemmer, Robert Edwards, David Propst, David Riskind, Kirk Winemiller

Proceedings Translation Sub-committee: Dean A. Hendrickson, Mirian Haye-Rowe

Program: Michael E. Douglas (Chair), Dean A. Hendrickson, Nadine Kanim

Resolutions: Walter R. Courtenay, Jr.

Local Committees: 1996 (La Paz, Baja California, México) Francisco Reynoso-Mendoza

1997 (Death Valley National Park, Furnace Creek, California, U.S.A.) E. Phil Pister.

MEMBERSHIP

Membership in the Desert Fishes Council is open to any person or organization interested in or engaged in the management, protection, or scientific study of desert fishes, or some related phase of desert fish conservation. Membership includes subscription to the Proceedings of the Desert Fishes Council. Annual dues are $25 (regular: domestic or foreign), $15 (student), $35 (family: 1 Proceedings), >$35 (sustaining) and $1,000 (patron: single payment). Send dues payments and general contributions along with address information (including affiliation, voice, fax, and e-mail) and indication of permission to include this information in a published directory of the Desert Fishes Council to: Paul C. Marsh, Membership Chair, Center for Environmental Studies, Arizona State University, Tempe, AZ 85287-3211 USA; fish.dr_at_asu.edu (602/965-2977; FAX 602/965-8087).

ABOUT PROCEEDINGS OF THE DESERT FISHES COUNCIL

It is the policy of the Council to publish in the annual Proceedings of the Desert Fishes Council papers, abstracts, discussion summaries, business items, resolutions, and other material submitted for presentation, whether actually presented at the Annual Symposium or not. The Proceedings are published and delivered to all members of the Desert Fishes Council and subscribing libraries in the year following the Annual Symposium. All contributions are published as received following automated electronic processing designed to standardize format only. Authors are responsible for their own technical editing and for any errors caused by failure to follow Instructions to Authors (published in each volume). Proofs are not provided to authors for review prior to publication, and only full papers are subjected to peer review. Resolutions are published exactly as passed by the membership in the business meeting of the Annual Symposium. The Translation Subcommittee of the Proceedings Committee accepts responsibility for errors in translations to Spanish for those abstracts they translate. This committee provides original translations of all abstracts and resolutions when translations are not provided by authors, and edits all Spanish abstracts provided by authors. Translations to English of all abstracts received only in Spanish are done by the Translations Subcommittee.

The Desert Fishes Council offers extensive information on the World Wide Web about itself and the organisms and ecosystems it strives to protect.

Permission to utilize copyrighted material in this volume was granted by University of Arizona Press (cover art)

ISSN 1068-0381 The entire DFC Proceedings is printed on recycled paper.

TABLE OF CONTENTS

*marks presenters of multi-authored papers

Contributed Paper

Hubbs, C. Addendum to geographic variation in life history traits of Gambusia species.

Abstracts (in order of presentation)

Knapp, M. S Status of the desert fishes component of the Bring Back the Natives program.

Holden, P.B. Bonneville Basin area report.

Pfeifer, F.K. Endangered Colorado River fishes (upper basin) annual report.

Wong, D.M. Ecoregion report for Southern California and Eastern Sierra as reported by responsible agencies.

Heinrich, J.E.*; Sjoberg, J.C.; Withers, D.; Byers, S.; Werdon, S.; St. George, D. Southern Nevada ecoregion report.

Minckley, C.O. Status of native fishes in the Lower Colorado River Basin and an overview of Fish and Wildlife activities in Region II, 1996.

Hobbes, A.L. Regional report of activities pertaining to native fish in New Mexico, 1996.

Garrett, G.P. Regional report on desert fish activities in Texas, 1996.

Contreras-Balderas, S. Northeastern Mexico Coordinator report.

Douglas, M.E.*; Miller, R.R. Morphometric discrimination between Gila cypha, G. robusta, and G. elegans from the Colorado River of western North America.

Douglas, M.R.*; Douglas, M.E. Ontogenetic allometry in juvenile/ young adult Gila cypha and G. elegans.

Lozano-Vilano, M. de L.; Contreras-Balderas, S. A new species of cyprinodontid (Cyprinodon) fish from the San Fernando Basin, Nuevo León, Mexico.

Norris, S.M.*; Miller, R.R. A taxonomic evaluation of Herichthys, a section of "Cichlasoma" (Cichlidae).

Ross, D.A.*; Fridell, R.A. Distribution and status of the boreal toad (Bufo boreas) in Utah: New toads of the purple sage.

Perkins, M.J.*; Lentsch, L.D.; Keleher, C.J.; Fridell, R.A.; Ross, D. Utah ushers spotted frog towards recovery.

Sjoberg, J.C.*; Stein, J.; Heinrich, J.E. Status and distribution of the Amargosa toad, Bufo nelsoni.

Hamill, J.F. Yampa River Basin recovery and water management plan: A prospectus.

Lentsch, L.D.*; Converse, Y.K.; Thompson, P.D.; Crowl, T.A.; Toline, C.A. Bonytail reintroduction plan for the Upper Colorado River Basin.

Pineda, R.*; Pineda, R.F. Conservation problems of the fish fauna of Querétaro / Problemática de conservación de los peces de Querétaro.

Robinson, A.T.*; Hines, P.; Sorensen, J.A.; Bryan, S.D. Parasites, pathogens, and health of fishes in the Verde River, Arizona, and implications for management of razorback suckers (Xyrauchen texanus) and Colorado squawfish (Ptychocheilus lucius).

Keleher, C.J.*; Lentsch, L.D.; Perkins, M.J.; Crowl, T.A. Suckers for a healthy lake: An overview of actions of the Utah Lake Fish Management Advisory Team (ULFMAT).

Burdick, B. D. Ichthyofaunal studies and restoration of native fishes in the Gunnison River, Colorado.

Fridell, R.A.*; Comella, K.M.; Lentsch, L.D. Status of recovery efforts for endangered fishes in the Virgin River, Utah.

Dávila, J. Strategies and prospects for conservation in Cuatro Ciénegas / Estrategias y perspectiva de conservación en Cuatro Ciénegas.

Calegari, V.; Hendrickson, D.A.* Local conservation efforts and environmental perceptions in Cuatro Ciénegas, Coahuila, Mexico

Jensen, B.L.*; Brooks, J.E.; Cobble, K.; Campoy-Favela, J. A review of the status of the native and introduced fishes of the upper Río Bavispe.

Kelsch, S.W.*; Jensen, B.L. Morphometric comparison of the Yaqui and channel catfishes.

Morizot, D.C.*; Jensen B.L.; Kelsch, S.W.; Carmichael, G.J.; Campoy-Favela, J. Introgression between Yaqui and channel catfish in the Río Yaqui, Sonora, Mexico.

Ulibarri, M.E.*; Jensen, B.L. Development of spawning and culture techniques of the Yaqui catfish, Ictalurus pricei.

Nielsen, J.L.*; Fountain, M.C. Molecular genetics and evolutionary status of the trout of the Río Yaqui drainage, Oncorhynchus mykiss spp., and San Pedro Mártir rainbow trout, Oncorhynchus mykiss nelsoni.

Marsh, P.C.*; Knowles, G.W.; Mueller, G. Bonytail, Gila elegans, telemetry in Lake Mohave, Arizona and Nevada.

Knowles, G.W.*; Marsh, P.C.; Mueller, G.; Wolters, T. Sonic telemetry of razorback suckers in Lake Mohave, Arizona-Nevada.

Thieme, M.L.*; McIvor, C.A. Movement of flannelmouth suckers (Catostomus latipinnis) through the Colorado River in Glen and Grand canyons as determined by PIT tag and sonic recaptures.

Valdez, R.A.*; Cowdell, B.R. Habitat use by radio-tagged adult humpback chub during a 45,000 cfs flood in Grand Canyon, Arizona / Uso de habitat por adultos humpback chub con radiotelemetrí a durante la inundación de 45,000 cfs en Grand Canyon, Arizona.

Oakey, D.D.*; Douglas, M.E. Phylogenetic analysis of mitochondrial DNA variation in Rhinichthys osculus of western North America.

Tibbets, C.A.*; Dowling, T.E. Estimation of mitochondrial DNA diversity using Single Stranded Conformational Polymorphism (SSCP) and sequencing: A comparison of data sets from three Western fishes.

Hedrick, P.W.*; Parker, K. MHC variation in Gila topminnows.

Toline, C.A. DNA fingerprinting as a genetic marker in the development of razorback sucker (Xyrauchen texanus) broodstock for recovery.

Brouder, M.J. Changes in the number, morphology, and sediment composition of backwaters in the Colorado River, Grand Canyon, following the 1996 Experimental Habitat/ Beach Building Flood.

Speas, D.W.; Brouder, M.J.* Changes in zooplankton abundance and community composition following an experimental flood in the Colorado River, Grand Canyon, Arizona.

Brouder, M.J.*; Dresser, T.J., Jr. Changes in backwater benthic invertebrates following the 1996 Experimental Habitat/ Beach Building Flood in the Colorado River, Grand Canyon, Arizona.

Hoffnagle, T.L.*; Persons, W.R. Changes in distribution and populations of fish caused by the 1996 Beach/ Habitat-Building Flood in the Colorado River, Grand Canyon.

Dresser, T.J., Jr.; Hoffnagle, T.L.* Food habits of adult humpback chub during the 1996 Experimental Research Flood in the Colorado River, Grand Canyon, Arizona.

Clarkson, R.W. Monitoring to determine species richness and assemblage structure change in streams.

Gorman, O.T.; Tiersch, T.R.; Figiel, C.R.; Wayman, W.R.; Williamson, J.H.; Carmichael, G.J.* Broodstock development and propagation studies in the endangered razorback sucker: 1996 field studies.

Osmundson, D.B.*; Burnham, K.P. Status of the Colorado squawfish in the upper Colorado River.

Bouwes, N.W.*; Crowl, T.A.; Belovsky, G.E Population status of the endangered fish in the Upper Colorado River Basin: A model analysis.

Andersen, M.E. Relation of Devils Hole pupfish, Cyprinodon diabolis, population size variation to habitat water level 1972 to 1996.

Contreras-MacBeath, T.*; Mejia Mojica, H.; Carrillo Wilson, R. Shifts in the composition of the fish fauna inhabiting waters of the state of Morelos, Mexico: A good example of bad management.

Thompson, P.D.*; Cavalli, P.; Lentsch, L.D. Recent captures of Colorado squawfish, Ptychocheilus lucius, in the Price River: An example of the importance of tributaries to Colorado squawfish recovery.

Unmack, P.J.*; Minckley, W.L.; Fry, J. Fish on the byte: GIS analysis of fishes in the Gila River basin.

Holden, P.B.; Abate, P.D.* Distribution and abundance of woundfin populations in the lower Virgin River, Arizona and Nevada / Distribución y abundancia de poblaciones de woundfin en el Virgin River, Arizona y Nevada.

Ruiz-Campos, G.*; Contreras-Balderas, S.; Lozano-Vilano, M.L.; Gonzalez-Guzmán, S.; Alaníz-García, J. Distributional status of the continental fishes of the northwestern Baja California, Mexico / Estatus distribucional de los peces continentales del noroeste de Baja California, México.

Aguilera-González, C.*; Montemayor-Leal, J.; Contreras-Balderas, S. Fishes of the upper Río Verde and its disrupted pluvial basin, San Luis Potosí, México.

Bagley, B.E.*; Schiffmiller, G.H.; Sowka, P.A.; Marsh, P.C. A new Arizona locality for loach minnow, Tiaroga cobitis.

Blasius, H.B. Biogeography of freshwater fishes of northwestern Mexico.

Thiede, G.*; Crowl, T.A.; Schaugaard, C.; Lentsch, L.D. The role of nonnative fish on habitat selection, growth rates and survivorship of juvenile Colorado squawfish (Ptychocheilus lucius) in the Green River, Utah.

Converse, Y.K.*; Lentsch, L.D. Use of scale analysis to determine overwinter survival of age-0 Colorado squawfish, Ptychocheilus lucius.

Trammell, M. Evaluation of sampling efficiency in the Interagency StandardizedMonitoring Program (ISMP) for YOY Colorado squawfish, Ptychocheilus lucius.

Thieme, M.L.; McIvor, C.A.*; Brouder, M.J. Factors affecting young-of-year recruitment of flannelmouth sucker, Catostomus latipinnis, in the Paria River, Glen Canyon, Arizona.

Minckley, C.O. Startup of the Achii Hanyo Project, a new place to raise native fishes in the lower Colorado River Basin

Johnstone, H.C.*; Stevens, L.E. Physical and biological development of a large Colorado River backwater in Grand Canyon, Arizona.

Lawrence, K.P.*; Lamarra, V.A.; Alder, L.A. A comparison of the productivity of Colorado squawfish, Ptychocheilus lucius, nursery habitat in the San Juan and Colorado rivers.

Lewis, B.*; Crowl, T.A.; Lentsch, L.D.; Thompson, P. Invertebrate community response to floodplain enhancement through levee removal on the Green River in Utah.

Robertson, L.*; Wilber, J.P.; Hiebert, S.D. Rio Grande fish community at Santo Domingo Pueblo, New Mexico: Comparison of natural and stabilized banks and created backwaters.

Thomas, H.M.*; Crowl, T.A.; Lentsch, L.D.; Keleher, C.J. Effects of structural complexity on predator-prey interactions and habitat choice of white bass and June sucker.

Stefferud, J.A.*; Rinne, J.N. Effects of floods on fishes in the upper Verde River, Arizona.

Goeking Rodemaker, S.*; Crowl, T.A.; Stone, K.; Roberts, D.R. Remote classification methods for riparian vegetation in Ouray National Wildlife Refuge.

Crowl, T.A.*; Lewis, B.; Lentsch, L.D.; Nelson, P. Approaches and concerns of floodplain restoration in the upper Colorado River Basin: An overview.

Posters

Alaníz-García, J.*; Valles-Rios, M. Prevalence of the nematode, Contracaecum multipapillatum, in the endemic killifish, Fundulus lima, of the Oasis de San Ignacio, B.C.S., Mexico / Prevalencia del nemótodo, Contracaecum multipapillatum, en el killifish endémico, Fundulus lima, del Oasis de San Ignacio, B.C.S., México.

Childs, M.R.*; Robinson, A.T.; Clarkson, R.W. Resource use by larval and early juvenile native fishes in the Little Colorado River, Grand Canyon, Arizona.

Hendrickson, D.A.*; Brauer, M.J.; Zippin, D.B. The Cuatro Ciénegas Project: Conservation research and education in a small Mexican community.

Norris, S.M. The 'lost' ichthyological illustrations of the Sessé and Mociño Expedition to New Spain (1787-1803).

Stephens, M.; Hendrickson, D.A.* Larval development of the Cuatro Ciénegas cichlid, "Cichlasoma" minckleyi.

Minutes of the Business Meeting

Instructions to Authors - Proceedings of DFC

Instrucciones a los Autores Para las Memorias del DFC

Hydrologic Basin / Agency Report Coordinators

Author Index / Indice de Autores

Taxonomic Index / Indice Taxonomico

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Addendum to Geographic Variation in
Life History Traits of Gambusia Species

Clark Hubbs Department of Zoology The University of Texas at Austin Austin, TX 78712-1064

ABSTRACT

The unique status in Gambusia life history parameters for East Sandia Spring is confirmed with 4 of 5 results extreme for species in that genus (2 of 3 for G. geiseri and one of one each for G. nobilis and G. affinis). Gambusia newborn isolated from predators have a higher survival rate (85%) than those together with a predator. G. heterochir interbrood interval is affected by temperature; females at 25° C have less time between broods (31 days) than those at 21° C (47 days). Gambusia adults prey on Poecilia young, but Poecilia adults do not prey on Gambusia young.

Additional data on aspects of Gambusia life history traits expand on and are in agreement with conclusions presented in Hubbs, 1996. In addition, a series of errors in Table 8 of that publication are corrected in Table 1.

The methodology for this addendum is identical to that of Hubbs (1996).

In the 1996 paper, the East Sandia Spring population was unique among 11 Gambusia geiseri populations sampled in the predation rate on newborn G. affinis. No other life history data had been obtained for any of the other three Gambusia species present in East Sandia Spring. I now have data on two additional life history parameters for G. geiseri and one each for G. affinis and G. nobilis. The average birth weight of G. geiseri (21.2 mg) is similar to that of other populations, but the interbrood interval for G. geiseri and for G. affinis, and the birth weight data for G. nobilis are extreme: The interbrood interval for G. geiseri is 33 days compared to 40 days for the closest of seven other populations, that of G. affinis is 26 days, compared to 27 days for the closest of 21 other populations, and the average birth weight for G. nobilis is 63.9 mg, compared to 48.9 mg for the closest of six other populations. The three New Mexico populations are much less heavy (Sago Spring = 25.0 mg, Lake St. Francis = 25.5 mg, and Dragon Fly = 27.7 mg) than any Texas population (the lightest, Diamond-Y = 35.4 mg). Thus, five life history parameters are known for Gambusia inhabiting East Sandia Spring, and four are extreme.

The interbrood interval was studied for G. nobilis (three populations), G. heterochir, G. gaigei, G. geiseri (seven populations), G. speciosa, and G. affinis (20 populations) (Hubbs, 1996). All intervals were based on females held at room temperature (21° C). Females of G. heterochir isolated at 25° C had an interbrood interval average of 31 days (10 intervals) that does not overlap with the previously published 47 days (five intervals) at 21° C. The clear decrease of interbrood intervals is likely due to increased metabolism with warming of aquarium temperature. This is similar to Snelson et al.'s (1986) report of decreased interbrood intervals with increasing temperature in Poecilia latipinna.

The 1996 paper included predation rates by Gambusia on Gambusia and Poecilia newborn. I now have data on the survivorship of newborns in the absence of predators. Gambusia newborns have an 86% survivorship which is comparable to or exceeds that they had with a predator present. This number is based on a relatively large sample size (1,725) and made up from G. affinis (84% survivorship, n = 983) that varies somewhat among populations (Fessenden Spring, 80%, n = 418; Lulu Sams, 85%, n = 372; Brownsville, 93%, n = 148; and East Sandia Spring, 91%, n = 45), G. heterochir (95%, n = 39), G. nobilis (84%, n = 177, with six populations with n = 5, 10, 18, 20, 43, and 91), and G. geiseri (89%, n = 516) with minor variation among populations (Balmorhea, 96%, n = 45; East Sandia Spring, 93%, n = 137; and San Marcos, 87%, n = 334). Clearly, the low survival of Gambusia young together with an adult involves interactions with that adult, presumably primarily predation. Consequently, if 51% of the young survived, the impact of the adult was 56% survival (51% x 86%) or 44% predation.

I also tested predation by Poecilia adult females to contrast with that by Gambusia females on Poecilia latipinna with survivorships of 0, 12, 19, 20, and 24%, depending upon species of Gambusia used (Hubbs, 1996). Gambusia young survivorship when exposed to P. latipinna or P. formosa females was 85% (n = 1,198 young). A similar survival rate (88%) was obtained for P. latipinna males (n = 76). That survivorship is essentially the same as Gambusia young survivorship without predators. In conclusion, adult Gambusia prey upon Poecilia young, but Poecilia adults do not prey upon Gambusia young.

Extensive variation of birth weight among populations in now known for Poecilia. The range for P. latipinna was from 21.0 mg (Aransas) to 44.9 mg (Comal). Intermediate weights are 22.6 mg (Olmito), 26.7 mg (San Marcos Spring), 31.0 mg (Martindale), 32.5 mg (Brownsville), 34.6 (Florida), and 40.7 (Heart of the Hills). Poecilia formosa ranged from 28.2 mg (Brownsville) to 40.3 (Comal) with Olmito young weighing 30.1 mg and Martindale young 33.5 mg.

Literature Cited

Hubbs, Clark. 1996. Geographic variation in life history traits of Gambusia species. Proc. Desert Fishes Council 27:1-21.

Snelson, F.F., Jr., J.D. Wetherington, and H.L. Lange. 1986. The relationship between interbrood interval and yolk loading in a generalized poeciliid fish, Poecilia latipinna. Copeia 1986:295-304.

TABLE 1. Survivorship percentages of young exposed to Gambusia affinis adults from various populations southwest to northeast.

Young

	G. affinis		G. speciosa		G. geiseri
predator	female	male	female	male	female	male
Arizona	10²	64
Bitter #3	0	85			0	94
Lost River	69²	79²
Alamito Creek	37³	79⁴			77	60
Contraband	10	81
Big Bend	69⁵	88³	61	88	73	81
Phantom Spring	41²	82²			28	86
Carpenter Hill	25	80	12	81	55	78
East Sandia Spring	23²	83			22	100
Diamond-Y	24³	68²			41	84
Santa Rosa	21	81			28	61
John's Marina	16²	61
Lazy Pond	14	76
Too Much Pond	29²	78²			36	70
Chandler Spring	41	65
Pecos	57²	81
Big Foot	14	78²
El Indio	40²	74²
Falcon	0	76
El Tigre	2	66
Fairy	6²	73
Toe Nail	21²	66			90
Anson	18	73			28	61
Ft. McKavett	22³	72³
Clear Creek	52²	85²			67	85
Dry Creek	32³	78³			47	57
700 Springs	25²	75²			80	90
Junction	4²	64	18	92	8	79
Hays	23³	78³
Bat Cave	21²	75²			23	82

Fessenden	38²	79²	20	77	40	82
Heart of the Hills	30²	59²			41	61
Clymer	45²	79²
Cow Creek	31²	81²			62	85
Middle Creek	2	77
Hanks Bull	14	81			70	90
Patty's	18	51²
Barton	25	79
San Marcos	31²	76²	32	75	42	83
Comal	39³	63²			27	68
Woman Hollering	33³	76³			47	78
Cost	16²	79²
Big Brown	46³	75³	59	79	57	80
Cut 'n' Shoot	23²	75²
Hi Island	15²	73²			41	80
Village Creek	37³	75³	41	88	28	80
Eggnog Branch	42³	79²
Uncertain	6	68			27	75
Hog Eye	30²	64			90	90

bold face = > 100 young (The superscript number indicates the number of hundreds when over 200)

Roman = 50-100 young

small type = < 50 young

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ALPHABETICAL LISTING OF ABSTRACTS

Aguilera-González, C.^*; Montemayor-Leal, J.;Contreras-Balderas, S. (CA; JM - Facultad de Ciencias Biológicas, UANL, San Nicolás, N.L., México; SC - Bioconservación, A.C., A.P. 504, San Nicolás, N.L., México)

Fishes of the upper Río Verde and its disrupted pluvial basin, San Luis Potosí, México

ABSTRACT

The interesting endemic fish fauna of La Media Luna, San Luis Potosí, Mexico, was regarded as restricted to that large spring and its distributaries, including the spring Anteojitos; the endemics are Dionda dichroma, Cualac tessellatus, Ataeniobius toweri, Cichlasoma bartoni, and C. labridens. In describing Dionda mandibularis, it was reported from that system and a spring at Puerta del Río. Recently, some isolated springs and channels have provided new records of several of these endemics. The new localities are as follows: Manantiales Anteojitos, Puerta del Río, La Laguna, Los Peroles, La Peñita, Palma Larga, Arroyo El Sabino, and Arroyo La Gavia. Some of the populations show slight divergence, not warranting taxonomic recognition yet. A few springs have not been reached, and new records are expected. Four of these localities already have the introduced species Cyprinus carpio, Gambusia regani, Poecilia latipunctata, P. mexicana, and Tilapia sp., with only La Peñita and La Laguna remaining with natives only, the first with almost all of them. Most of the springs also had Astyanax mexicanus and Poecilia mexicana, and the last may be native to some of them. This fauna is another proof of the system being a part of the pluvial upper Río Verde Basin, San Luis Potosí, Mexico.

RESUMEN

La interesante ictiofauna endémica de La Media Luna, San Luis Potosí, México, fue considerada restringida a dicho manantial y sus tributarios, incluyendo el manantial Anteojitos; sus endemismos son Dionda dichroma, Cualac tessellatus, Ataeniobius toweri, Cichlasoma bartoni, y C. labridens. Al describir Dionda mandibularis, fue registrado para ese sistema y un manantial en Puerta del Río. Recientemente, algunos manantiales y canales aislados han dado nuevos registros de varios de éstos endemismos. Las nuevas localidades son las siguientes: Manantiales Anteojitos, Puerta del Río, La Laguna, Los Peroles, La Peñita, Palma Larga, Arroyo El Sabino, y Arroyo La Gavia. Algunas de las poblaciones muestran ligera divergencia, que no garantizan aun el reconocimiento taxonómico. Algunos manantiales no han sido todavía explorados, y se esperan nuevos registros. Cuatro de estas localidades ya poseen las especies introducidas Cyprinus carpio, Gambusia regani, Poecilia latipunctata, P. mexicana, y Tilapia sp., donde solamente La Peñita y La Laguna poseen únicamente nativos, la primera con casi todas ellas. La mayoría de los manantiales contienen también Astyanax mexicanus y Poecilia mexicana, la última puede ser nativa en alguno de ellos. Esta fauna es otra prueba de que el sistema fue una parte de la cuenca alta del Río Verde pluvial, San Luis Potosí, México.

Alaníz-García, J. ^*; Valles-Rios, M. (Facultad de Ciencias, Universidad Autónoma de Baja California, México)

Prevalence of the nematode Contracaecum multipapillatum in the endemic killifish Fundulus lima of the Oasis de San Ignacio, B.C.S., México / Prevalencia del nemátodo Contracaecum multipapillatum en el killifish endémico Fundulus lima del Oasis de San Ignacio, B.C.S., México

ABSTRACT

The prevalence of the parasite nematode, Contracaecum multipapillatum von Drasche 1882, on the host endemic killifish Fundulus lima, was studied during summer 1992 and spring 1993 in the Oasis de San Ignacio, Baja California Sur, Mexico. A total of 68 fish specimens (44 for spring and 24 for summer) were analyzed to determine the prevalence of parasites. The total prevalence (both seasons combined) was 20.6%. In spring there was a higher prevalence (25%) of this parasite in comparison with summer (12.5%). The prevalence by sex of the host, was higher in females (23.3%) and lesser in males (18.4%). This nematode was the only parasite worm species found in the body cavity of F. lima.

RESUMEN

Durante el verano 1992 y primavera 1993 se estudió en el Oasis de San Ignacio, Baja California Sur, México, la ocurrencia del nematodo parásito, Contracaecum multipapillatum von Drasche 1882, en el endémico hospedero sardinilla de la Península, Fundulus lima. Un total de 68 especímenes (44 en la primavera y 24 en el verano) fueron analizados para determinar la ocurrencia de parásitos. La ocurrencia total (ambas estaciones combinadas) fue de 20.6%. En primavera se registró una alta ocurrencia de este parásito (25%), en comparación con la del verano (12.5%). La ocurrencia por sexo del hospedero, fue mas alta en hembras (23.3%) y menor en machos (18.4%). Este nematodo fue la única especie de lombriz parásita encontrado en la cavidad del cuerpo de F. lima.

Andersen, M.E. (Dames & Moore, Inc.)

Relation of Devils Hole pupfish, Cyprinodon diabolis, population size variation to habitat water level 1972 to 1996

ABSTRACT

Population size counts of the Devils Hole pupfish, Cyprinodon diabolis, were taken over a 24-year period generating 133 first-dive counts. First-dive counts were the sum of fish swimming in the water column and those on the near-surface shelf. The annual cycling of the pupfish population during the period was documented. The period 1972-1996 was divided to yield five periods of four or five years each. Population size count data from these periods were compared. Three of the earliest four population counts, beginning in 1972, were significantly different from those taken in later years. Population counts taken after 1976 were not different from each other. Mean monthly water level data from 1962-1967 were compared to the same data taken from the five periods from 1972 to 1996. Water levels from the time periods were significantly different from each other except for the latest observations. Water level and population size were positively correlated. When water levels increased, the fish population maxima increased suggesting the fish population's ability to increase in expanded habitats. The minima increased over the time period with increasing water level, demonstrating characteristics of density dependent populations, irrespective of annual population fluctuations. The calculated effective population size was low, suggesting that the fish may have reduced genetic variability. Increasing the number of population counts made annually and developing additional habitat characteristic data sets collected over long time periods could improve our understanding of this unique fish. [HUBBS STUDENT PAPER AWARD COMPETITOR]

RESUMEN

Se hicieron conteos del tamaño poblacional de el cachorrito del Devils Hole, Cyprinodon diabolis, en un periodo de mas de 24-años, generando 133 conteos por buceo. Los primeros conteos por buceo fueron la suma de los peces que nadan en la columna de agua y aquellos cercanos a la superficie. Se documentó el ciclo anual de la población de cachorrito durante el periodo. El periodo 1972-1996 fue dividido en cinco periodos de cuatro o cinco años. Los datos de conteos del tamaño de población para estos periodos fueron comparados. Tres de las cuatro poblaciones contadas en los primeros años, comenzando en 1972, fueron significativamente diferentes de aquellos tomados en los próximos años. Los conteos poblacionales tomados después de 1976 no fueron diferentes el uno del otro. Los datos de nivel de agua mensual promedio desde 1962-1967 fueron comparados con los datos de los cinco periodos de 1972 a 1996. Los niveles de agua de los periodos de tiempo fueron significativamente diferentes el uno del otro, excepto por el de las últimas observaciones. El nivel de agua y el tamaño de población se correlacionaron positivamente. Cuando el nivel de agua se incrementa, el tamaño de población máximo se incrementa, sugiriendo que la población de peces se incrementa al incrementarse el hábitat. El tamaño de población mínima se incrementa con el incremento del nivel de agua por periodo de tiempo, demostrando características de poblaciones de densidad dependiente, sin considerar fluctuaciones anuales de población. El tamaño de la población efectiva calculada fue baja, sugiriendo que los peces pueden tener variabilidad genética reducida. El incremento del número de poblaciones contadas anualmente, así también como el desarrollo adicional de los datos de las características del hábitat en periodos largos mejoraría nuestro conocimiento sobre este pez. [PREMIO HUBBS AL MEJOR ARTICULO ESTUDIANTIL].

Bagley, B.E.^*; Schiffmiller, G.H.; Sowka, P.A.; Marsh, P.C. (BEB; PCM - Center for Environmental Studies, Arizona State University, Tempe AZ; GHS; PAS - Department of Zoology, Arizona State University, Tempe AZ.)

A new Arizona locality for loach minnow Tiaroga cobitis

ABSTRACT

The loach minnow, Tiaroga cobitis, is a small cyprinid endemic to the Gila River basin of Arizona and New Mexico, USA and Sonora, Mexico. Historic populations have declined due to habitat loss and interactions with nonnative fishes, and in 1986 the species was federally listed as threatened. We collected loach minnow throughout a 3.6 km (2.25 mi) reach of the Black River (Salt River drainage), Arizona, near Three Forks, while making routine fish collections on the Apache-Sitgreaves National Forest. All size (age) classes of loach minnow were present in the Black River, including mature individuals of both sexes, and this presumably represents a reproducing population. We are aware of no other occurrences of loach minnow in the Black River system, and the closest population within the watershed is more than 200 stream km (130 mi) downstream in the White River.

RESUMEN

La carpa locha, Tiaroga cobitis, es un pequeño ciprínido endémico de la cuenca del Gila River de Arizona y New Mexico, USA y Sonora, México. Debido a la pérdida del hábitat y las interacciones con peces no nativos, poblaciones históricas han declinado, y en 1996 la especie fue federalmente listada como amenazada. Nosotros colectamos carpas locha a lo largo de 3.6 km (2.25 mi) tramo del Black River (drenaje del Salt River), Arizona, cerca de Three Forks, mientras hacíamos colecciones rutinarias de peces en el Apache-Sitgreaves National Forest. Se encontraron todas las clases de tamaño (edad) de carpa locha en el Black River, incluyendo individuos maduros de ambos sexos, y esto presumiblemente representa poblaciones reproductivas. Sabemos que la carpa locha no existe en otras partes del sistema del Black River, y que la población mas cercana dentro de la hoya hidrográfica esta a más de 200 km (130 mi) corriente abajo del White River.

Blasius, H.B. (Department of Zoology, Arizona State University, Tempe,AZ)

Biogeography of freshwater fishes of northwestern Mexico

ABSTRACT

Northwestern Mexico provides the connecting link in a broad geographic transition between continental ichthyofaunas of the Western Hemisphere. A biotic assemblage with diversified relationships results from a varied biogeographic history involving two much larger regions, Neartic in the north and Neotropical to the south. This presentation delineates and analyzes relationships of the regional ichthyofauna within this broader pattern of transition. Three levels of specimen records were used (Level I, those in museums; II, peer-reviewed literature; and III, "gray" literature) to address two questions: 1) are within-region distributions more a function of ecologic or geologic history, or 2) are ecologic and geologic histories so inexorably intertwined they cannot be separated one from the other? The fauna proved strongly northern in affinity, comprised of three Neartic (ictalurids), two transitional Neotropical (poeciliids, cichlids), and two shared (cyprinodontids, clupeids) families that occur across diverse geologic structure and through temperate and tropical habitats to form a distributional mosaic most closely attuned to latitudinal and altitudinal ecology of the region.

RESUMEN

El noroeste de México provee el vínculo conectivo en una transición geográfica ancha entre ictiofauna continental del hemisferio oeste. Un conjunto biótico con relaciones diversificadas resulta de una historia biogeográfica variada envolviendo dos regiones muy grandes, la Neártica en el norte y la Neotropical al sur. Esta presentación delinea y analiza las relaciones de la ictiofauna regional dentro de este amplio patrón de transición. Se usaron registros de especímenes a tres niveles: (nivel I, encontrados en museos; II, revisión de literatura, y III, literatura "gris") para responder dos preguntas: 1) Las distribuciones dentro de la región son una función de la historia ecológica o de la historia geológica, y 2) Están la historia ecológica y geológica inexorablemente interconectadas que ellas no pueden ser separadas una de la otra?. La fauna prueba que es muy fuerte en afinidad mas al norte abarcando tres familias de Neárticos (ictalúridos), dos Neotropicales transicionales (poecílidos, cíclidos), y dos compartidos (ciprinodóntidos, clupeidos) que ocurren a través de la diversa estructura geológica y a través de hábitats templados y tropicales para formar un mosaico distribucional mas cercano a armonizar la ecología latitudinal y altitudinal de la región.

Bouwes, N.W.^*; Crowl, T.A.; Belovsky, G.E. (Ecology Center and The Department of Fisheries and Wildlife, Utah State University, Logan, UT)

Population status of the endangered fish in the Upper Colorado River Basin: a model analysis ABSTRACT

The Upper Basin Recovery Program has devoted much energy towards the monitoring of endangered fish in the Upper Colorado River Basin. Although a large data base has been developed from this effort, system-wide understanding of the demography and overall population dynamics of these fish populations is lacking. We developed a demographic model specific to different life stages for the Colorado squawfish for different regions of the Upper Colorado River Basin. We validated the model by comparing catch data from strong year classes to model predictions. The model was then used to estimate future status of this endangered population. Ultimately, we suggest that this approach can provide a unifying framework for data organization, identifying important missing information, and understanding how these populations may respond to various management strategies.

RESUMEN

El Upper Basin Recovery Program devotó mucha energía hacia la inspección de peces en peligro en la cuenca alta del Colorado River. Aunque de este esfuerzo se desarrolló una base de datos grande, el conocimiento de la demografía y dinámica de población de estos peces es carente. Desarrollamos un modelo demográfico específico para diferentes estadios de la carpa blanca en diferentes regiones de la cuenca alta del Colorado River. Confirmamos el modelo comparando los datos de clases anuales fuertes con la predicción del modelo. El modelo fue entonces usado para estimar futuros estados de esta población en peligro. Finalmente, sugerimos que esta propuesta puede proveer una estructura para la organización de datos, identificar información perdida importante, y entender cómo estas poblaciones pueden responder a varias estrategias de manejo.

Brouder, M.J. (Arizona Department of Game and Fish, Flagstaff, Arizona)

Changes in the number, morphology, and sediment composition of backwaters in the Colorado River, Grand Canyon, following the 1996 Experimental Habitat/Beach Building Flood

ABSTRACT

This study examined the immediate changes in backwater size, morphology, and sediment composition caused by the 1996 Experimental Habitat/Beach Building Flood. Backwaters have become increasingly important as rearing areas for larval and juvenile native fishes in the Colorado River system due to changes in mainstem habitat, primarily decreased water temperatures caused by dams. Backwater habitats are more suitable for larval and juvenile native fishes than the Colorado River mainstem. Backwaters also have more stable substrates than main channel beachfaces which allows for higher densities of benthic invertebrates, a major food source for juvenile native fishes. Immediately following the flood, there were more backwaters present than immediately before the flood. However, the number of backwaters present has steadily decreased through July due to higher than normal water levels. Backwaters after the flood had a significantly greater (P=0.0002) mean surface area (285.1 m²) than backwaters before the flood (172.5 m²). Of the seven backwaters present both before and after the flood, five significantly (P=0.0367) increased in surface area. The sediment composition of backwaters also changed after the flood. Prior to the flood, sand and silt each comprised approximately 50% of the sediments with fine and coarse organic matter (FPOM and CPOM, respectively) comprising <2%, combined. After the flood, the percentage of sand (81.4%) increased significantly (P=0.0166), becoming the dominant sediment type. Conversely, the flood significantly reduced (P< 0.0244) the percentages of silt (17.7%), CPOM (0.2%), and FPOM (0.8%) in the backwaters by about 50% each. Studies on the long-term changes in backwater size, morphology, and sediments are ongoing.

RESUMEN

Este estudio examinó las variaciones en el tamaño de remansos, morfología, y la composición del sedimentos causados en 1996 por la Inundación Experimental para la construcción de hábitats y playas. Los remansos se han vuelto áreas importantes de crianza para larvas y peces nativos inmaduros en el sistema del Colorado River debido a los cambios en el hábitat de la corriente principal, principalmente disminuyó las temperaturas del agua causados por las presas. Los hábitats de remansos son mas adecuados para peces nativos en el estado larval y juvenil que en la corriente principal del Colorado River. Los remansos también tienen substratos mas estables que los canales principales de las lados de las playas la cuales permiten altas densidades de invertebrados bentónicos, el mayor recurso alimenticio para peces nativos juveniles. Después de la inundación, hubieron mas remansos que antes de la inundación. Sin embargo, el número de remansos presentes ha decrecido constantemente durante julio debido a niveles de agua mas altos de los normales. Los remansos después de la inundación tuvieron un área promedio (285.1 m²) significativamente mucho mayor (P=0.0002) que los remansos antes de la inundación (172.5 m²). De los siete remansos presentes antes y después de la inundación, cinco se incrementaron significativamente (P=0.0367) en área. La composición del sedimento de los remansos también cambió después de la inundación. Antes de la inundación aproximadamente 50% del sedimento contenía arena y limo con materia orgánica fina y gruesa (FPOM y CPOM, respectivamente) contenía <2% combinada. Después de la inundación, el porcentaje de arena (81.4%) se incrementó significativamente (P=0.0166) volviendose el sedimento típico dominante. Por lo contrario, la inundación redujo significativamente (P<0.0244) los porcentajes de limo (17.7%) en los remansos por sobre 50% cada uno CPOM (0.2%), y FPOM (0.8%). Se están llevando a cabo estudios sobre las variaciones en morfología y sedimentos de los remansos a largo plazo.

Brouder, M.J.^*; Dresser, T.J., Jr. (Arizona Game and Fish Department, Research Branch, Flagstaff, AZ)

Changes in backwater benthic invertebrates following the 1996 Experimental Habitat/Beach Building Flood in the Colorado River, Grand Canyon, Arizona

ABSTRACT

Benthic invertebrates provide an important food source for juvenile native fishes in the Colorado River, Grand Canyon. Backwaters, because they are warmer, have lower velocities, and more stable sediments, provide a better habitat for many benthic invertebrates such as chironomids and oligochaetes, important food items for native fishes. The objective of this study was to examine changes in benthic invertebrate density and biomass following the Experimental Habitat/Beach-Building Flood. Mean total invertebrate density was significantly lower (P=0.03) after the experimental flood (3,581.8 individuals/m²) than before (11,426.9 individuals/m²). Mean individual invertebrate density was also significantly lower (P<0.0487) after the experimental flood, with the exception of oligochaetes. Because oligochaete density did not significantly decrease after the flood, they comprised a higher percentage of overall invertebrate density after the flood. There was no difference in mean total invertebrate biomass after the flood. However, mean individual biomass of all taxa except oligochaetes significantly decreased (P<0.0458) after the experimental flood. Mean chironomid (0.09 g/m² pre-flood; 0.06 g/m² post-flood), nematode (0.05 g/m² pre-flood; 0.003 g/m² post-flood), and other dipteran (0.05 g/m² pre-flood; 0 g/m² post-flood) biomass decreased after the flood. Short-term effects of the experimental flood on benthic invertebrates appear to be negative. Long-term studies of recolonization rates of benthic invertebrates in backwaters are ongoing.

RESUMEN

Los invertebrados bentónicos proveen un recurso importante en la alimentación de los peces nativos juveniles en el Colorado River, Grand Canyon. Debido a que los remansos son mas tibios, tienen velocidades bajas, y sedimentos mas estables, proveen de un mejor hábitat para los invertebrados bentónicos tales como Chironómidos y oligoquetos, importantes recursos alimentarios para peces nativos. El objetivo de este estudio fue examinar los cambios en la densidad de invertebrados bentónicos y la biomasa, luego de la Inundación Experimental para la construcción de un hábitat/playa. La densidad total promedio de invertebrados fue significativamente mas baja (P=0.03) después de la inundación experimental (3,581.8 individuos/m²) que antes (11,426.9 individuos/m²). La densidad promedio de invertebrados individuales también fue significativamente baja (P<0.0487) después de la inundación experimental, con la excepción de los oligoquetos. Debido a que la densidad de los oligoquetos no disminuyó significativamente después de la inundación. No hubo diferencia en la biomasa total de invertebrados después de la inundación. Sin embargo, la biomasa promedio individual de todas las taxa, excepto por los oligoquetos decreció significativamente (P<0.0458) después de la inundación experimental. El promedio de biomasa de Chironómidos (0.09 g/m² pre-inundación; 0.06 g/m² post-inundación), nematodos (0.05 g/m² pre-inundación; 0.003 g/m² post-inundación), y otros dípteros (0.05 g/m² pre-inundación; 0 g/m² post-inundación) decreció después de la ected by electrofishing were bluehead sucker (36%), flannelmouth sucker (29%), roundtail chub (14%), common carp, Cyprinus carpio (7%), white sucker, Catostomus commersoni (6%), brown trout, Salmo trutta (3%), rainbow trout, Oncorhynchus mykiss (2%), and white sucker x bluehead sucker hybrids (1%). These eight taxa accounted for 98% of the total fish caught by electrofishing. The larval and post-larval fish community structure of the Gunnison River was dramatically different in 1993 than in 1992. Riverwide in 1992, nonnative fishes collected with hand nets comprised 85% of the total catch as opposed to only 21% in 1993. Relative abundance and catch-per-unit effort for native and nonnative larval fishes were reversed in 1993 from 1992. There was a ten-fold increase in the number of native fish collected in 1993 compared to 1992. Catch-per-unit effort for nonnative post-larval fish was reduced by about 50% in 1993 from 1992. Native species that increased following the high spring flow in 1993 were roundtail chub, bluehead sucker, speckled dace, and flannelmouth sucker. Nonnative species that declined in 1993 were fathead minnow, Pimephales promelas, red shiner, Cyprinella lutrensis, and sand shiner, Notropis stramineus. Changes in the post-larval fish community structure from 1992 to 1993 were almost a mirror image of the patterns observed for larval fishes in each of these two years. During the summer following high spring flow, native fish relative abundance riverwide increased from 10% (1992) to 58% (1993) of the total number of fishes collected whereas nonnative fishes decreased from 90% (1992) to 42% (1993). The six most common species collected were fathead minnow (60.2%), sand shiner (19.5%), red shiner (8.5%), bluehead sucker (4.6%), speckled dace (2.5%), and roundtail chub (1.8%). These species accounted for 97.1% of the total fishes caught with seines in 1992. In 1993, the six most common species collected were bluehead sucker (29.5%), fathead minnow (25.1%), flannelmouth sucker (12.7%), speckled dace (8.2%), roundtail chub (8.0%), and white sucker (6.6%). These species accounted for 90.1% of the total fishes collected in 1993. Although a small population of adult Colorado squawfish still occurs in the Gunnison River upstream of Redlands Diversion Dam, the dam has prevented upstream movement of fishes from the Lower Gunnison and Colorado rivers since 1917. Five adult Colorado squawfish were collected upstream of the Redlands Diversion Dam in 1993. Five YOY Colorado squawfish were collected in drift-net samples upstream of Redlands Diversion Dam in 1995, indicating spawning had occurred. One juvenile humpback chub was captured but no razorback sucker were collected; no evidence of successful reproduction was observed for these two species. Convergence of six radio-tagged Colorado squawfish in 1993 and three fish in 1994 within a 1-mile section of the Gunnison River during mid-July to mid-August suggested possible spawning behavior. The movement of these radio-tagged fish to the same reach in both 1993 and 1994 suggested that Colorado squawfish were attracted to (or home to) a certain reach during the spawning season. A five-mile reach between river mile 30-35 appears to be particularly important to adult Colorado squawfish based on the frequency of radio contacts made during this and previous studies. Activities to restore Colorado squawfish and razorback sucker populations in the Gunnison River include modifying streamflows to mimic the historical hydrograph. This will increase the magnitude and duration of spring flows to create riverine habitat for native fishes, and at the same time control smaller nonnative fishes in warmwater reaches of the Gunnison River. High spring streamflows are also necessary to restore natural floodplain functions and adjacent wetlands, which are important in the reestablishment of self-sustaining razorback sucker populations. A 300 cfs instantaneous minimum passage flow has been implemented in a 2.3-mile reach of the Lower Gunnison River between the Redlands Diversion Dam and the confluence of the Colorado River. This will allow a migration corridor for fishes moving either up- or downstream of the fishway during low-flow periods. A fish passageway, recently completed at the Redlands Diversion Dam, will allow sub-adult and adult Colorado squawfish and razorback sucker to migrate to about 50 miles of historical habitat, thus permitting re-colonization of upstream reaches. Recovery of razorback sucker will be enhanced by stocking juvenile and adult razorback sucker over the next 5 years to stabilize a population in the Gunnison River. The long-range goal is to establish a self-sustaining population of at least 10 adult razorback sucker per river mile in the Gunnison River. The Gunnison River upstream of the dam is important to recovery of these native species because it provides additional physical habitat and an abundant source of native prey for Colorado squawfish.

RESUMEN

El Gunnison River, en la cuenca alta del Colorado River, es el hábitat histórico para dos peces en peligro , la carpa blanca, Ptychocheilus lucius, y el matalote jorobado, Xyrauchen texanus. Ciencuentaiseis millas del Gunnison River, corriente arriba del Colorado River y el afluente Uncompahgre River, fueron designados hábitat críticos para estos dos peces. En 1992-1994 se condujo una investigación sobre la ictiofauna de 75 millas del Gunnison River para evaluar la distribución, abundancia relativa de todos los peces, y el desove potencial de la carpa blanca corriente arriba de la presa Redland Diversion. Se colectaron siete especies nativas y 14 especies no nativas, incluyendo tres catostómidos híbridos. Tres de las siete especies nativas son endémicas de la cuenca del Colorado River: carpa blanca, carpita jorobada, Gila cypha, y matalote boca de franela, Catostomus latipinnis. Matalote cabeza azul, Catostomus discobolus, carpa pinta, Rhinichthys osculus, carpita cola redonda, G. robusta, y cótido moteado, Cottus bairdi, no son endémicas en la cuenca del Colorado River. Todavía ocurren poblaciones saludables en el Gunnison River. 79% de los 34,985 peces colectados por el método de electro pesca fueron nativos. Los peces más comunes colectados por electro pesca fueron ocho: matalote cabeza azul (36%), matalote boca de franela (29%), carpita cola redonda (14%), carpa común, Cyprinus carpio (7%), matalote blanco, Catostomus commersoni (6%), trucha morena, Salmo trutta (3%), trucha arco iris, Oncorhynchus mykiss (2%), e híbridos de matalote blanco x matalote cabeza azul (1%). Estas ocho taxa significaron el 98% del total de peces cogidos por electro pesca. La estructura de las comunidades larval y post-larval en el Gunnison River fue increíblemente diferente en 1993 que en el año 1992. En 1992 del río ningún pez nativo se colecto con redes manuales a lo ancho comprendiendo 85% del total de capturas. Al contrario del 21% en 1993. El esfuerzo de captura por unidad de tiempo para las post-larvas de peces no-nativos disminuyó como 50% en 1993 comparado a 1992. Las especies nativas que se incrementaron durante el flujo alto de la primavera en 1993 fueron: carpita cola redonda, matalote cabeza azul, carpa pinta, y matalote boca de franela. Las especies no nativas que decrecieron en 1993 fueron carpita cabezona, Pimephales promelas, sardinita roja, Cyprinella lutrensis, y carpa arenera, Notropis stramineus. Los cambios en la estructura de la comunidad post-larval de los peces en 1993 fue casi una imagen idéntica al de los patrones observados para las larvas en el año 1992. Durante el siguiente flujo en el verano, la abundancia relativa de los peces nativos a lo ancho del río se incrementó de 10% (1992) a 58% (1993) del número total de peces colectados; mientras los peces no nativos decrecieron del 90% (1992) al 42% (1993). Las seis especies mas comunes colectadas fueron carpita cabezona (60.2%), carpa arenera (19.5%), sardinita roja (8.5%), matalote cabeza azul (4.6%), carpa pinta (2.5%), y carpita cola redonda (1.8%). Estas especies significan el 97.1% del total de peces cogidos con redes barrederas en 1992. En 1993, las especies comúnmente colectadas fueron: matalote cabeza azul (29.5%), carpita cabezona (25.1%), matalote boca de franela (12.7%), carpa pinta (8.2%), carpita cola redonda (8.0%), y matalote blanco (6.6%). Estas especies cuentan por 90.1% del total de peces colectados en 1993. Aunque aun existe una pequeña población de adultos de carpa blanca en el Gunnison River, corriente arriba de la represa Redlands Diversion; desde 1917 la presa evitó el movimiento de los peces corriente arriba de los ríos Lower Gunnison y Colorado. En 1993, se colectó cinco carpa blanca adultos corriente arriba de la presa Redlands Diversion. En 1995 se colectó cinco carpas blanca YOY en muestras con redes de deriva corriente arriba del reservorio Redlands Diversion, lo que indica que el desove ocurrió. Solo un juvenil de carpita jorobada fue capturado y ningún matalote jorobado, ninguna evidencia de reproducción fue observada en estas dos especies. En 1994, la convergencia de seis carpa blanca con radio-marcas y tres peces en un rango de una milla en el Gunnison River sugirió una posible conducta de desove de mediados de julio a mediados de agosto. En 1993 y 1994 el movimiento de los peces con radio-marcas en el mismo lugar sugieren que la carpa blanca es atraído al mismo punto (mismo hogar) durante la temporada de desove. Un rango de cinco milla, entre la milla 30-35 del río, parece ser de importancia particular para los adultos de la carpa blanca esto es basado en la frecuencia de contactos radiales hechos durante este y previos estudios. Entre algunas actividades para recuperar las poblaciones de carpa blanca y matalote jorobado en el Gunnison River se incluye la modificación del flujo de corriente para mimetizar la hidrografía en el pasado. Esto incrementará la magnitud y duración del flujo de los manantiales para crear hábitats ribereños para peces nativos, a la misma vez, controlará el tiempo de expansión de los peces pequeños no nativos en las aguas tibias del Gunnison River. Para restaurar las funciones naturales de la llanura aluvial y de las tierras pantanosas adyacentes, se necesitan altos flujos de corriente en los manantiales los cuales son importantes en el restablecimiento del sostenimiento propio de las poblaciones de matalote jorobado. Se ha implementado un pasaje de 2-3 millas de extensión, con un flujo de corriente de 300 cfs en el Lower Gunnison River, entre el reservorio Redlands Diversion y la confluencia del Colorado River. Esto permitirá un corredor de migración para el movimiento de peces ya sea corriente arriba o corriente abajo durante el periodo de flujo-bajo. Un pasaje para peces, recientemente terminado en el reservorio Redlands Diversion, permitirá la migración de adultos y sub-adultos de la carpa blanca y el matalote jorobado a aproximadamente 50 millas de hábitats históricos. Así, se permitirá la recolonización de las extensiones río arriba. La recuperación del matalote jorobado será incrementada en el Gunnison River con la producción de juveniles y adultos en los próximos 5 años. La meta a largo plazo, es establecer una población sostenible por si misma de por lo menos 10 adultos de matalote jorobado por milla del Gunnison River. Recuperar el reservorio de peces nativos en la corriente alta del Gunnison River es importante ya que provee hábitat físico adicional y un recurso abundante de presas nativas para la carpa blanca.

Calegari, V.; Hendrickson, D.A.^* (Department of Geography, University of Texas at Austin)

Local conservation efforts and environmental perceptions in Cuatro Ciénegas, Coahuila, México

ABSTRACT

The intermontane valley of Cuatro Ciénegas, Coahuila, Mexico, was declared a Natural Protected Area by the Mexican government in November of 1994 due to its rich biodiversity and high number of endemic species. In order to carry out the conservation of this unique ecosystem, scientists, policymakers, and representatives from non-governmental conservation organizations are working to create a management plan that will ensure the long-term survival of a healthy ecosystem. While the area has been heralded as a "biological laboratory," it is at the same time home to over 13,000 people living within the city proper, as well as numerous "ejidos" in the surrounding area. Because of their understanding of the components of this ecosystem and consequent land use practices, many of these people have played a crucial role in the current condition of the ecosystem, and will certainly play a role in the future. Without their support, any attempts at a long-term conservation plan will remain academic. Furthermore, local environmental understanding, based on generations of accumulated observations, may enlighten conservation policy with valuable insight. In my field work I will examine, document, and explore the role of local people in conservation efforts in Cuatro Ciénegas, as well as their reactions to the idea of conservation imposed from the outside. Since the fieldwork is starting at the time of writing this abstract, results will not be available until the time of presentation at the meeting.

RESUMEN

En noviembre de 1994 el gobierno Mexicano declaró Area Natural Protegida al valle intermontano de Cuatro Ciénegas, Coahuila, México debido a su gran biodiversidad y alto número de especies endémicas. Con el fin de llevar a cabo la conservación de este ecosistema único, científicos, políticos, y representantes de organizaciones no gubernamentales de conservación están trabajando para crear un plan de manejo que asegure la sobrevivencia de este ecosistema a largo plazo . En tanto que el área ha sido proclamado "laboratorio biológico", al mismo tiempo alberga más de 13,000 personas que viven dentro de la propiedad de la ciudad, también existen numerosos "ejidos" alrededor del área. Debido al entendimiento de la población a los componentes de este ecosistema y a la práctica del uso de la tierra, mucha de esta gente ha jugado un rol crucial en la condición actual del ecosistema, y ciertamente jugará un rol en el futuro. Sin su apoyo, cualquier intento en un plan de conservación a largo plazo se volvería tan solo académico. Además, el entendimiento local al medio ambiente, que se basa en generaciones de observaciones acumuladas, pueden establecer una política de conservación de valorable alcance. En mi trabajo de campo, examinaré, documentaré, y exploraré el rol de la población local en los esfuerzos de conservación en Cuatro Ciénegas, así también sus reacciones a la idea de conservación impuesto. Debido a que el viaje de campo comienza a la misma vez de escribir este resumen, los resultados se presentaran al mismo tiempo de la inicialización de la conferencia.

The full text of the Masters thesis on which this presentation was based has been published as part of the Cuatro Ciénegas World Wide Web pages:

http://www.desertfishes.org/cuatroc/

La entera tesis de maestria sobre cual fue basado este trabajo ha sido publicado en las páginas de World Wide Web de Cuatro Ciénegas:

http://www.desertfishes.org/cuatroc/

Childs, M.R.; Robinson, A.T.; Clarkson, R.W. (MRC and ATR - Arizona Game and Fish Department, Research Branch, Phoenix, AZ; RWC - U.S. Bureau of Reclamation, Phoenix, AZ)

Resource use by larval and early juvenile native fishes in the Little Colorado River, Grand Canyon, Arizona

ABSTRACT

We investigated resource use by young-of-year (YOY, <30 mm) humpback chub, Gila cypha, speckled dace, Rhinichthys osculus, bluehead sucker, Pantosteus discobolus, and flannelmouth sucker, Catostomus latipinnis, in the Little Colorado River (LCR), a tributary to the Colorado River in Grand Canyon, Arizona. Logistic regression indicated a large amount of habitat use overlap among species during base flow (periods with no runoff) and high flow (flooding) conditions in 1993. Concordant use of substrate and cover categories by all four YOY native species supported this finding. However, we noted some ontogenetic shifts in near-shore habitat use. Older larval stages of bluehead sucker used higher current velocities, deeper water, and were found farther from shore than younger lifestages, at base flow. This shift in habitat use was consistent across species. The primary behavioral difference among YOY fishes was the less frequent use of the surface and upper third of the water column by bluehead sucker. In May and June 1993, the primary diet category used by all four species was Chironomidae larvae. Dietary overlap was high across all species at both base and high flows. Differences in occurrence of some diet items (inorganic materials, diatoms, and adult dipterans) indicated that at least some dietary partitioning occurred at the Family level among early life stage fishes in the LCR. Overall, YOY fish habitat use and dietary trends in the LCR were similar to those described for other YOY warmwater fishes.

RESUMEN

Investigamos el uso de los recursos por los juveniles del año (YOY, <30 mm) carpita jorobada, Gila cypha, carpa pinta, Rhinichthys osculus, matalote cabeza azul, Pantosteus discobolus, y matalote boca de franela, Catostomus latipinnis, en el Little Colorado River (LCR), un tributario de el Colorado River en el Grand Canyon, Arizona. En 1993 la regresión logística, indicó una gran cantidad de sobre posición del uso de hábitat entre las especies durante las condiciones de flujo base (periodos sin aflujo) y flujo alto (inundación). El uso armonioso del sustrato y las categorías cubiertas por los cuatro YOY especies nativas apoyan este encuentro. Sin embargo, notamos algunos cambios ontogénicos en el uso del hábitat cercano a la orilla. Los estados larvales mas avanzados de matalote cabeza azul usaron corrientes de velocidades más altas, aguas más profundas, y fueron encontrados más alejadas de las orillas del flujo base que los estadios menos avanzados. Esta variación en el uso del hábitat fue consistente a nivel de especie. La diferencia conductual principal entre los peces YOY fue el uso menos frecuente de la superficie y del tercio alto de la columna de agua por el matalote cabeza azul. En mayo y junio de 1993, la categoría dietética principal para todas las especies fueron larvas de Chironomidae. La sobre posición alimentaria entre todas las especies fue alta en flujos base y altos. Las diferencias en la ocurrencia de algunas productos de la dieta (materiales inorgánicos, diatomeas y dípteros adultos) indicaron que por lo menos ocurre una división a nivel de familia entre los primeros estadios de vida de los peces en el LCR. En general, el uso del hábitat y las tendencias de la dieta de los peces YOY fueron similares a aquellos descritos por otros YOY de aguas tibias.

Clarkson, R.W. (U.S. Bureau of Reclamation, Phoenix, AZ)

Monitoring to determine species richness and assemblage structure change in streams

ABSTRACT

A standardized methodology is presented to monitor species richness and assemblage structure of stream fish populations in the Gila River Basin, Arizona, with emphasis on detecting translocated species and their potential impacts to native assemblages. Power analysis was applied to sample data sets to identify sample sizes required to detect changes in assemblage structure. The methodology stratifies target streams into geomorphic reaches, and three 200-m long stations (further stratified by macrohabitats) per reach are annually sampled quantitatively with one-pass electrofishing. These data provide assemblage structure estimates for common species. Intra-station data obtained from other sampling gears, and extra-station qualitative sampling contribute to determination of species richness. Parametric treatment of assemblage structure data will be with repeated measures nested analysis of variance; nonparametric procedures may include concordance of ranks or multidimensional scaling. Development of effect size criteria and thresholds for initiation of management actions are required to respond to detected changes in monitored parameters.

RESUMEN

Se presenta una metodología estandarizada para inspeccionar la riqueza de especies y la estructura del conjunto poblacional de las quebradas de la cuenca de Gila River, Arizona, con énfasis en detectar especies translocadas y sus impactos potenciales en el conjunto nativo. Análisis de poder fueron aplicados al grupo de datos de muestreo para identificar tamaños de muestra requeridos para detectar cambios en la estructura conjunta. La metodología estratifica las quebradas a muestrear en trechos geográficos, y tres estaciones de 200 m de largo (estratificadas en macrohabitats) por trecho que serán muestreadas cuantitativamente mediante electro-pesca anualmente. Estos datos proveerán las estructuras en conjunto estimadas para las especies comunes. Los datos entre-estaciones obtenidos por otras formas de muestreo, y muestreos cuantitativos fuera de la estación experimental contribuye a la determinación de la riqueza de especies. Se realizaran tratamientos paramétricos de datos estructurales conjuntos mediante el método de análisis de varianza con medidas repetitivas empaquetadas, los procedimientos no paramétricos pueden incluir rangos de concordancia o escala multidimensional. Los criterios de desarrollo del efecto tamaño y los límites para la iniciación de acciones de manejo son requeridos para responder a cambios detectados en parámetros inspeccionados.

Contreras-Balderas, S. (Bioconservación, A.C., Monterrey, N.L., México)

Northeastern Mexico coordinator report

ABSTRACT

The record drought continued from 1995 to 1996, and was beginning to recede as the hurricane season started. The percent of fish communities remaining at some monitoring sites is at its lowest in 20 years. Many areas went dry, springs, river reaches, and sometimes whole minor basins. Apparently lost are the endemic fishes of the Upper Saúz basin; the Encinillas lagoon, Lower Saúz basin still keeps some of the endemics. We lost the Potosí spring in 1996, with its three known endemics: Megupsilon aporus, Cyprinodon alvarezi, and Cambarellus alvarezi; an endemic orchid has not been seen in 5 years. The last surviving Sandia Valley endemic pupfish, Cyprinodon veronicae, was in very poor shape last winter, and may not survive long. Except Cyprinodon ceciliae and the crayfishes (4), all others have captive populations in several aquaria. The Lower Rio Grande Valley keeps increasing the number of invading brackish water species.

RESUMEN

El récord de sequía continuó de 1995 a 1996, y empezó a disiparse con la temporada de huracanes. El porcentaje de comunidades de peces en algunos lugares de inspección es el más bajo en 20 años. Muchas áreas se secaron, manantiales, extensiones del río, y algunas veces toda una pequeña cuenca. Aparentemente se han perdido todas las especies endémicas de la cuenca alta del Saúz, la laguna Encinillas, en la cuenca baja del Saúz, aun posee algunos de sus endemismos. Perdimos el manantial Potosí en 1996, con sus tres endemismos conocidos: Megupsilon aporus, Cyprinodon alvarezi, y Cambarellus alvarezi; ninguna orquídea endémica se ha visto en 5 años. El último endemismo sobreviviente en el Valle Sandia, cachorrito, Cyprinodon veronicae, estaba en muy mala forma el invierno pasado, y tal vez no sobreviva mas tiempo. A excepción de agencies in charge of the management of aquatic resources.

RESUMEN

El hombre deliberada o accidentalmente ha cambiado las características naturales de los ecosistemas acuáticos en varias causas tales como contaminación, eutrofización, y la introducción de peces exóticos. A pesar del impacto causado por la introducción de exóticos, y de la frecuencia de que esto fue hecho en aguas mexicanas, la literatura que describa los cambios en la composición de las comunidades de peces en muchas regiones de México después de las introducciones, es carente. Esta presentación describe la naturaleza de tales cambios en aguas del estado de Morelos, México. Revisamos los hallazgos obtenidos por Meek (1904) en los registros de las colecciones de la Escuela Nacional de Ciencias Biológicas, y los obtenidos por nosotros a través de estudios realizados en los últimos diez años, analizamos las causas, consecuencias, así también como posibles soluciones a problemas específicos. De los 22 especies de peces que actualmente habitan las aguas del estado, mas de la mitad (64%) son organismos que han sido introducidos, principalmente para pesca y propósitos de acuicultura ornamental. Aunque también existen otros problemas tales como contaminación, eutrofización, y seca, nosotros encontramos que las introducciones de peces han causados los peores impactos. Estos problemas tienen su origen en la falta de comunicación entre las cinco agencias de gobierno a cargo del manejo de los recursos acuáticos.

Converse, Y.K.^*; Lentsch, L.D. (Utah Division of Wildlife Resources, Native Aquatics Section, Salt Lake Office, UT)

Use of scale analysis to determine overwinter survival of age-0 Colorado squawfish Ptychocheilus lucius

ABSTRACT

We documented the usefulness of scale analysis in determining age-0 Colorado squawfish, Ptychocheilus lucius, recruitment and examined spatial and temporal differences in degree-day accumulation in the Green River system. Using the relationship between total number of circuli and total length of young Colorado squawfish, we estimated maximum number of circuli to the first annulus. We found that although most age-0 Colorado squawfish were too small to form a first year annulus (78%), a first year annulus was present on scales of most adults (75%). We suggest that this discrepancy is the result of size-dependent differential overwinter survival that favors age-0 Colorado squawfish greater than 45 mm TL. We estimated that age-0 Colorado squawfish larger than 45 mm TL were 20 times more likely to survive if our data is representative of actual conditions. We also found that mean daily water temperatures below Flaming Gorge Dam at Jensen and Green River, Utah, have not changed since impoundment. However, temperatures were higher at the downstream station (Green River) than the upstream station (Jensen), and total degree-day accumulation was 37% greater at the downstream station. Based on estimates of growth potential by Kaeding and Osmundson (1988), we expected growth of age-0 Colorado squawfish to be greater at the downstream station. Yet, mean total length of fish was not different between stations.

RESUMEN

Documentamos la importancia del análisis de la escamas para determinar la edad-0 en el carpa blanca, Ptychocheilus lucius, para el aislamiento y diferencias espaciales y temporales en el grado-diario de reclutamiento en el sistema del Green River. Usando la relación entre número total de circuli en el primer año. Encontramos que aunque muchos de las carpas blanca en la edad-0 eran muy pequeños para formar el annulus del primer año (78%), el annulus del primer año estuvo presente en las escamas de la mayor parte de adultos (75%). Sugerimos que esta discrepancia es el resultado de la diferencial tamaño-dependiente que favorecen a la carpa blanca de edad-0 mayores de 45 mm TL que sobreviven el invierno. Si nuestros datos representan las condiciones actuales, estimamos que las carpas blanca de edad-0, mas grandes de 45 mm TL son 20 veces mas tendentes a sobrevivir. También encontramos que el promedio diario de temperatura del agua por debajo de la presa Flaming Gorge en Jensen y Green River, Utah, no han variado desde el embalse. Sin embargo las temperaturas son mas altas en la estación corriente abajo (Green River) que en la estación corriente arriba (Jensen), y que el grado diario de acumulación total fue 37% mayor en la estación corriente abajo. Basados en estimados de crecimiento potencial de Kaeding y Osmundson (1988), esperamos que los crecimientos de la carpa blanca de edad-0 sean mayores en la estación corriente abajo. Aunque no existen diferencias entre la longitud total del los peces entre estaciones.

Crowl, T.A.^*; Lewis, B.; Lentsch, L.; Nelson, P. (TAC and BL - Ecology Center and The Department of Fisheries and Wildlife, Utah State University, Logan, UT; LL - Utah Division of Wildlife Resources, Nongame Division, Salt Lake City, UT; PN - Upper Colorado River Recovery Implementation Program, Denver, CO)

Approaches and concerns of floodplain restoration in the Upper Colorado River Basin: An overview

ABSTRACT

The Upper Basin Recovery Program has placed a high priority on developing and enhancing floodplain habitats within the upper Colorado River Basin. These actions are intended to provide nursery habitats for native fishes, usable habitats for adult native fishes and increase the overall productivity of the riverine ecosystem. The enhancement activities depend on being able to decrease dikes surrounding historic depressions and terraces so that the flooding frequency and duration is enhanced with our much diminished, current flow regimes. One question that must be resolved before this strategy can be wholly adopted and implemented is how the nonnative fish community will respond to the new habitats.

RESUMEN

El Upper Basin Recovery Program ha puesto una alta prioridad al desarrollo y mejoramiento de los hábitats de llanura aluvial dentro de la cuenca alta del Colorado River. Estas acciones están dirigidas a proveer hábitats de crianza para peces nativos, hábitats aprovechables para peces nativos adultos y para aumentar la productividad general del ecosistema ribereño. Estas actividades de mejoramiento dependen en la capacidad de disminuir los diques que rodean depresiones antiguas y terrazas. De esta manera, la frecuencia y duración de las inundaciones serán incrementadas con nuestros regímenes actuales de flujos disminuidos. Una pregunta que ha de ser resuelta antes de asumir y implementar completamente esta estrategia es, cómo responderán la comunidad de peces no nativos a los nuevos hábitats.

Dávila, J. (Fundación del Valle, Cuatro Ciénegas, Coahuila, México)

Strategies and prospects for conservation in Cuatro Ciénegas / Estrategias y persp