Advanced search
Publication Cover
Transactions of the American Fisheries Society Volume 146, 2017 - Issue 4
Journal homepage
326
Views
7
CrossRef citations to date
0
Altmetric
ARTICLE

Matching Watershed and Otolith Chemistry to Establish Natal Origin of an Endangered Desert Lake Sucker

Deanna D. StrohmDepartment of Watershed Sciences and The Ecology Center, Utah State University, 5210 Old Main Hill, Logan, Utah84322, USACorrespondence[email protected]
,
Phaedra BudyU.S. Geological Survey, Utah Cooperative Fish and Wildlife Research Unit, 5290 Old Main Hill, Logan, Utah 84322, USA; and Department of Watershed Science and The Ecology Center, Utah State University, 5210 Old Main Hill, Logan, Utah84322, USA
&
Todd A. CrowlSoutheast Environmental Research Center and Department of Biological Sciences, Florida International University, 11200 Southwest 8th Street, Miami, Florida33199, USA
Pages 732-743 | Received 27 Aug 2016, Accepted 28 Feb 2017, Published online: 22 May 2017

REFERENCES

  • Bailey, M. M., and J. D. Zydlewski. 2013. To stock or not to stock? Assessing the restoration potential of a remnant American Shad spawning run with hatchery supplementation. North American Journal of Fisheries Management 33:459–467.
  • Bath, G. E., S. R. Thorrold, C. M. Jones, S. E. Campana, J. W. McLaren, and J. W. Lam. 2000. Strontium and barium uptake in aragonitic otoliths of marine fish. Geochimica et Cosmochimica Acta 64:1705–1714.
  • Belk, M. C., M. J. Whitney, and G. B. Schaalje. 2001. Complex effects of predators: determining vulnerability of the endangered June Sucker to an introduced predator. Animal Conservation 4:251–256.
  • Bond, N. R., and P. S. Lake. 2003. Local habitat restoration in streams: constraints on the effectiveness of restoration for stream biota. Ecological Management and Restoration 4:193–198.
  • Brenkman, S. J., S. C. Corbett, and E. C. Volk. 2007. Use of otolith chemistry and radiotelemetry to determine age-specific migratory patterns of anadromous Bull Trout in the Hoh River, Washington. Transactions of the American Fisheries Society 136:1–11.
  • Brown, C., and K. Laland. 2001. Social learning and life skills training for hatchery reared fish. Journal of Fish Biology 59:471–493.
  • Budy, P., and H. Schaller. 2007. Evaluating tributary restoration potential for Pacific salmon recovery. Ecological Applications 17:1068–1086.
  • Buelow, K. A. 2006. Investigation of movement behaviors of Utah Lake fish: part I, Utah Lake Sucker movement. Utah State University, Crowl Aquatic Ecology Laboratory, Final Report, Logan.
  • Campana, S. E. 1999. Chemistry and composition of fish otoliths: pathways, mechanisms and applications. Marine Ecology Progress Series 188:236–297.
  • Campana, S. E., and J. D. Neilson. 1985. Microstructure of fish otoliths. Canadian Journal of Fisheries and Aquatic Sciences 42:1014–1032.
  • Carlisle, D. M., J. Falcone, and M. R. Meador. 2009. Predicting the biological condition of streams: use of geospatial indicators of natural and anthropogenic characteristics of watersheds. Environmental Monitoring and Assessment 151:143–160.
  • Chuman, T., J. Hruška, F. Oulehle, P. Gürtlerová, and V. Majer. 2012. Does stream water chemistry reflect watershed characteristics? Environmental Monitoring and Assessment 185:5683–5701.
  • Cooperman, M., and D. Markle. 2003. Rapid out-migration of Lost River Shortnose Sucker larvae from in-river spawning beds to in-lake rearing grounds. Transactions of the American Fisheries Society 132:1138–1153.
  • Cutler, D. R., T. C. Edwards Jr., K. H. Beard, A. Cutler, K. T. Hess, J. Gibson, and J. J. Lawler. 2007. Random forests for classification in ecology. Ecology 88:2783–2792.
  • Ebner, B. C., and J. D. Thiem. 2009. Monitoring by telemetry reveals differences in movement and survival following hatchery or wild rearing of an endangered fish. Marine and Freshwater Research 60:45–57.
  • Ellsworth, C. M., M. C. Belk, and C. J. Keleher. 2010. Residence time and drift patterns of larval June Sucker Chasmistes liorus in the lower Provo River as determined by otolith microstructure. Journal of Fish Biology 77:526–537.
  • Elsdon, T. S., and B. M. Gillanders. 2003. Reconstructing migratory patterns of fish based on environmental influences on otolith chemistry. Reviews in Fish Biology and Fisheries 13:217–235.
  • Elsdon, T. S., and B. M. Gillanders. 2006. Identifying migratory contingents of fish by combining otolith Sr: Cawith temporal collections of ambient Sr: Caconcentrations. Journal of Fish Biology 69:643–657.
  • Elsdon, T. S., B. K. Wells, S. E. Campana, B. M. Gillanders, C. M. Jones, K. E. Limburg, D. H. Secor, S. R. Thorrold, and B. D. Walther. 2008. Otolith chemistry to describe movements and life-history parameters of fishes: hypotheses, assumptions, limitations and inferences. Oceanography and Marine Biology 46:297–330.
  • Fitzpatrick, M. L., D. T. Long, and B. C. Pijanowski. 2007. Exploring the effects of urban and agricultural land use on surface water chemistry across a regional watershed using multivariate statistics. Applied Geochemistry 22:1825–1840.
  • Gemperline, P. J., R. A. Rulifson, and L. Paramore. 2002. Multi-way analysis of trace elements in fish otoliths to track migratory patterns. Chemometrics and Intelligent Laboratory Systems 60:135–146.
  • Gibson-Reinemer, D. K., B. M. Johnson, P. J. Martinez, D. L. Winkelman, A. E. Koenig, and J. D. Woodhead. 2009. Elemental signatures in otoliths of hatchery Rainbow Trout (Oncorhynchus mykiss): distinctiveness and utility for detecting origins and movement. Canadian Journal of Fisheries and Aquatic Sciences 66:513–524.
  • Hand, C. P., S. A. Ludsin, B. J. Fryer, and J. E. Marsden. 2008. Statolith microchemistry as a technique for discriminating among Great Lakes Sea Lamprey (Petromyzon marinus) spawning tributaries. Canadian Journal of Fisheries and Aquatic Sciences 65:1153–1164.
  • Honea, J. M., J. C. Jorgensen, M. M. McClure, T. D. Cooney, K. Engie, D. M. Holzer, and R. Hilborn. 2009. Evaluating habitat effects on population status: influence of habitat restoration on spring-run Chinook Salmon. Freshwater Biology 54:1576–1592.
  • Jelks, H. L., S. J. Walsh, N. M. Burkhead, S. Contreras-Balderas, E. Diaz-Pardo, D. A. Hendrickson, and M. L. Warren Jr. 2008. Conservation status of imperiled North American freshwater and diadromous fishes. Fisheries 33:372–407.
  • Kauffman, J. B., R. L. Beschta, N. Otting, and D. Lytjen. 1997. An ecological perspective of riparian and stream restoration in the western United States. Fisheries 22(5):12–24.
  • Landom, K. 2010. Utah Lake food web, part I—introduced sport fish and fish conservation in a novel food web: evidence of predatory impact. Final Report submitted to the June Sucker Recovery Implementation Program by the Utah State University, Ecology Center, Logan.
  • Lee, C.-T. A. 2006. Laser ablation ICP-MS: data reduction. Available: www.cintylee.org/s/LASERABLATIONICP.pdf. ( April 2017).
  • Ludsin, S. A., B. J. Fryer, and J. E. Gagnon. 2006. Comparison of solution-based versus laser ablation inductively coupled plasma mass spectrometry for analysis of larval fish otolith microelemental composition. Transactions of the American Fisheries Society 135:218–231.
  • Mayer, F. L. Jr., J. L. Marking, T. D. Bills, and G. E. Howe. 1994. Bioavailability: physical, chemical and biological interactions. Pages 5–22 in J. L. Hamelink, P. F. Landrum, H. L. Bergman, and W. H. Benson, editors. Physicochemical factors affecting toxicity in freshwater: hardness, pH, and temperature. Lewis Publishers, Boca Raton, Florida.
  • McCleery, R. A., R. R. Lopez, N. J. Silvy, and W. E. Grant. 2005. Effectiveness of supplemental stockings for the endangered Key Largo woodrat. Biological Conservation 124:27–33.
  • McDonald, J. H. 2014. Kruskal–Wallis test. Pages 157–164 in J. H. McDonald, editor. Handbook of biological statistics, 3rd edition. Sparky House Publishing, Baltimore, Maryland.
  • Mercier, L., A. M. Darnaude, O. Bruguier, R. P. Vasconcelos, H. N. Cabral, M. J. Costa, M. Lara, D. L. Jones, and D. Mouillot. 2011. Selecting statistical models and variable combinations for optimal classification using otolith microchemistry. Ecological Applications 21:1352–1364.
  • Modde, T., and N. Muirhead. 1994. Spawning chronology and larval emergence of June Sucker (Chasmistes liorus). Great Basin Naturalist 54:366–370.
  • NRC (National Research Council). 1995. Science and the Endangered Species Act. National Academies Press, Washington, D.C.
  • Pangle, K. L., S. A. Ludsin, and B. J. Fryer. 2010. Otolith microchemistry as a stock identification tool for freshwater fishes: testing its limits in Lake Erie. Canadian Journal of Fisheries and Aquatic Sciences 67:1475–1489.
  • Pracheil, B. M., J. D. Hogan, J. Lyons, and P. B. McIntyre. 2014. Using hard-part microchemistry to advance conservation and management of North American freshwater fishes. Fisheries 39:451–465.
  • R Core Team. 2012. R: a language and environment for statistical computing. R Foundation for Statistical Computing, Vienna. Available: http://www.R-project.org/. ( April 2017).
  • Ricciardi, A., and J. B. Rasmussen. 1999. Extinction rates of North American freshwater fauna. Conservation Biology 13:1220–1222.
  • Richter, B. D., D. P. Braun, M. A. Mendelson, and L. L. Master. 1997. Threats to imperiled freshwater fauna. Conservation Biology 11:1081–1093.
  • Roni, P., T. J. Beechie, R. E. Bilby, F. E. Leonetti, M. M. Pollock, and G. R. Pess. 2002. A review of stream restoration techniques and a hierarchical strategy for prioritizing restoration in Pacific Northwest watersheds. North American Journal of Fisheries Management 22:1–20.
  • SWCA Environmental Consultants. 2002. Nonnative fish control feasibility study to benefit June Sucker in Utah Lake, Final Report 4989-014 to the June Sucker Recovery Implementation Program and the Utah Department of Natural Resources. SWCA Environmental Consultants, Salt Lake City, Utah.
  • Turner, S. M., and K. E. Limburg. 2014. Determination of river herring natal origin using otolith chemical markers: accuracy as a function of spatial scale and choice of markers. Transactions of the American Fisheries Society 143:1530–1543.
  • USDOI (U.S. Department of the Interior). 2008. Hobble Creek stream restoration project final environmental assessment. Prepared for the U.S. Department of the Interior by Bio-West, Logan, Utah.
  • USFWS (U.S. Fish and Wildlife Service). 2013. June Sucker (Chasmistes liorus) recovery plan draft. U.S. Fish and Wildlife Service, Region 6, Denver.
  • Veinott, G., and R. Porter. 2004. Using otolith microchemistry to distinguish Atlantic Salmon (Salmo salar) parr from different natal streams. Fisheries Research 71:349–355.
  • Wells, B. K., B. E. Rieman, J. L. Clayton, D. L. Horan, and C. M. Jones. 2003. Relationship between water, otolith, and scale chemistries of Westslope Cutthroat Trout from the Coeur d’Alene River, Idaho: the potential application of hard-part chemistry to describe movements in freshwater. Transactions of the American Fisheries Society 132:409–424.
  • Wolff, B. A., B. M. Johnson, and C. M. Landress. 2013. Classification of hatchery and wild fish using natural geochemical signatures in otoliths, fin rays, and scales of an endangered catostomid. Canadian Journal of Fisheries and Aquatic Sciences 70:1775–1784.
  • Woodcock, S. H., A. R. Munro, A. D. Crook, and B. M. Gillanders. 2012. Incorporation of magnesium into fish otoliths: determining contribution from water and diet. Geochimica et Cosmochimica Acta 94:12–21.
  • Zimmerman, C. E., G. W. Edwards, and K. Perry. 2009. Maternal origin and migratory history of steelhead and Rainbow Trout captured in rivers of Central Valley, California. Transactions of the American Fisheries Society 138:208–291.
  • Zimmerman, C. E., and G. H. Reeves. 2000. Population structure of sympatric anadromous and nonanadromous Oncorhynchus mykiss: evidence from spawning surveys and otolith microchemistry. Canadian Journal of Fisheries and Aquatic Sciences 57:2152–2162.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.