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North American Journal of Fisheries Management Volume 27, 2007 - Issue 2
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Article

Otolith Chemistry Discriminates among Hatchery-Reared and Tributary-Spawned Salmonines in a Tailwater System

Stephen M. Coghlan Jr. Department of Wildlife Ecology, University of Maine, Orono, Maine, 04469, USA
,
Michael S. Lyerly Department of Biology, Arkansas State University, State University, Arkansas, 72567-0419, USA
,
Thomas R. Bly Arkansas Game and Fish Commission, District 10, Heber Springs, Arkansas, 72543, USA
,
Jeffrey S. Williams Arkansas Game and Fish Commission, Trout Management Program, Mountain Home, Arkansas, 72653, USA
,
Darrell Bowman Arkansas Game and Fish Commission, Trout Management Program, Mountain Home, Arkansas, 72653, USA
&
Robyn Hannigan Graduate Program in Environmental Sciences, Arkansas State University, State University, Arkansas, 72467-0847, USA
Pages 531-541 | Received 18 Apr 2006, Accepted 01 Sep 2006, Published online: 08 Jan 2011

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Matthew A. Perrion, Mark A. Kaemingk, Keith D. Koupal, Casey W. Schoenebeck & Nate A. Bickford. (2020) Use of otolith chemistry to assess recruitment and habitat use of a white bass fishery in a Nebraska reservoir. Lake and Reservoir Management 36:1, pages 64-74.
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Andrew K. Carlson, Mark J. Fincel & Brian D. S. Graeb. (2016) Otolith Microchemistry Reveals Natal Origins of Walleyes in Missouri River Reservoirs. North American Journal of Fisheries Management 36:2, pages 341-350.
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ChristianE. Zimmerman, HeidiK. Swanson, EricC. Volk & AdamJ. R. Kent. (2013) Species and Life History Affect the Utility of Otolith Chemical Composition for Determining Natal Stream of Origin for Pacific Salmon. Transactions of the American Fisheries Society 142:5, pages 1370-1380.
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Geoff Veinott & Rex Porter. (2013) Discriminating Rainbow Trout Sources Using Freshwater and Marine Otolith Growth Chemistry. North American Journal of Aquaculture 75:1, pages 7-17.
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Articles from other publishers (15)

Christopher Ryan Hill, Roger A. Rulifson & Norman M. Halden. (2022) A quantitative approach to investigate natal philopatry in Hickory Shad (Alosa mediocris) using otolith chemistry. Fisheries Research 249, pages 106232.
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Foyez Shams, Fiona Dyer, Ross Thompson, Richard P. Duncan, Jason D. Thiem, T. Gabriel Enge & Tariq Ezaz. (2020) Multiple Lines of Evidence Indicate Limited Natural Recruitment of Golden Perch (Macquaria ambigua) in the Highly Regulated Lachlan River. Water 12:6, pages 1636.
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Nicole M. Watson, Carson G. Prichard, Jory L. Jonas, James J. Student & Kevin L. Pangle. (2018) Otolith-Chemistry-Based Discrimination of Wild- and Hatchery-Origin Steelhead across the Lake Michigan Basin. North American Journal of Fisheries Management 38:4, pages 820-832.
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Alison R. Loeppky, Craig F. Purchase & Gail K. Davoren. (2018) Chemical signatures in embryonic otoliths of capelin, Mallotus villosus: Influence of family and environmental conditions. Journal of Experimental Marine Biology and Ecology 498, pages 25-31.
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A. K. Carlson, M. J. Fincel & B. D. S. Graeb. (2017) Otolith chemistry indicates walleye movement and entrainment in a large serial reservoir system. Fisheries Management and Ecology 24:3, pages 217-229.
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Timothy J. Linley, Eirik J. Krogstad, Megan K. Nims & Russell B. Langshaw. (2016) Geochemical signatures in fin rays provide a nonlethal method to distinguish the natal rearing streams of endangered juvenile Chinook Salmon Oncorhynchus tshawytscha in the Wenatchee River, Washington. Fisheries Research 181, pages 234-246.
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Michio Fukushima, Tuantong Jutagate, Chaiwut Grudpan, Pisit Phomikong & Seiichi Nohara. (2014) Potential Effects of Hydroelectric Dam Development in the Mekong River Basin on the Migration of Siamese Mud Carp (Henicorhynchus siamensis and H. lobatus) Elucidated by Otolith Microchemistry. PLoS ONE 9:8, pages e103722.
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N. P. Rude, K. T. Smith & G. W. Whitledge. (2014) Identification of stocked muskellunge and potential for distinguishing hatchery-origin and wild fish using pelvic fin ray microchemistry. Fisheries Management and Ecology 21:4, pages 312-321.
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Judson M. Curtis, Gregory W. Stunz, R. Deborah Overath & Robert R. Vega. (2014) Otolith chemistry can discriminate signatures of hatchery-reared and wild spotted seatrout. Fisheries Research 153, pages 31-40.
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Yasuo Tomida, Toshiya Suzuki, Tsutomu Yamada, Ryuji Asami, Hirofumi Yaegashi, Yasufumi Iryu & Tsuguo Otake. (2014) Differences in oxygen and carbon stable isotope ratios between hatchery and wild pink salmon fry. Fisheries Science 80:2, pages 273-280.
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Yongwen Gao, Robert Conrad, David Bean & David L. G. Noakes. (2012) Statistical analysis on otolith data of anadromous fishes. Environmental Biology of Fishes 96:7, pages 799-810.
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ZA Doubleday, C Izzo, SH Woodcock & BM Gillanders. (2013) Relative contribution of water and diet to otolith chemistry in freshwater fish. Aquatic Biology 18:3, pages 271-280.
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Christopher T. Boehler, Jeffrey G. Miner, John R. Farver & Brian J. Fryer. (2012) Within-stream release-site fidelity of steelhead trout from Lake Erie hatchery stocks. Journal of Great Lakes Research 38:2, pages 251-259.
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Stephen A.C. Marklevitz, Brian J. Fryer, David Gonder, Zhaoping Yang, James Johnson, Ashley Moerke & Yolanda E. Morbey. (2011) Use of otolith chemistry to discriminate juvenile Chinook salmon (Oncorhynchus tshawytscha) from different wild populations and hatcheries in Lake Huron. Journal of Great Lakes Research 37:4, pages 698-706.
Crossref
I. R. BRADBURY, S. E. CAMPANA & P. BENTZEN. (2008) Estimating contemporary early life-history dispersal in an estuarine fish: integrating molecular and otolith elemental approaches. Molecular Ecology 17:6, pages 1438-1450.
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