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

•Juvenile spring Chinook Salmon from three streams were analyzed for fin ray chemical composition.•Element/calcium and isotopic ratios in fin rays were correlated with those in the water.•Geochemical signatures in fin rays can distinguish juvenile Chinook Salmon from different streams with high accu...

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Published in:Fisheries research Vol. 181; pp. 234 - 246
Main Authors: Linley, Timothy J., Krogstad, Eirik J., Nims, Megan K., Langshaw, Russell B.
Format: Journal Article
Language:English
Published: United States Elsevier B.V 01-09-2016
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Summary:•Juvenile spring Chinook Salmon from three streams were analyzed for fin ray chemical composition.•Element/calcium and isotopic ratios in fin rays were correlated with those in the water.•Geochemical signatures in fin rays can distinguish juvenile Chinook Salmon from different streams with high accuracy. Rebuilding fish populations that have undergone a major decline is a challenging task that can be made more complicated when estimates of abundance obtained from physical tags are biased or imprecise. Abundance estimates based on natural tags where each fish in the population is marked can help address these problems, but generally requires that the samples be obtained in a nonlethal manner. We evaluated the potential of using geochemical signatures in fin rays as a nonlethal method to determine the natal tributaries of endangered juvenile spring Chinook Salmon in the Wenatchee River, Washington. Archived samples of anal fin clips collected from yearling smolt in 2009, 2010 and 2011 were analyzed for Ba/Ca, Mn/Ba, Mg/Ca, Sr/Ca, Zn/Ca and 87Sr/86Sr by inductively coupled plasma mass spectrometry. Water samples collected from these same streams in 2012 were also quantified for geochemical composition. Fin ray and water Ba/Ca, Sr/Ca, and 87Sr/86Sr were highly correlated despite the samples having been collected in different years. Fin ray Ba/Ca, Mg/Ca, Sr/Ca, Zn/Ca and 87Sr/86Sr ratios differed significantly among the natal streams, but also among years within streams. A linear discriminant model that included Ba/Ca, Mg/Ca, Sr/Ca, and 87Sr/86Sr correctly classified 95% of the salmon to their natal stream. Our results suggest that fin ray geochemistry may provide an effective, nonlethal method to identify mixtures of Wenatchee River spring Chinook Salmon for recovery efforts when these involve the capture of juvenile fish to estimate population abundance.
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USDOE
AC05-76RL01830
PNNL-SA-117248
ISSN:0165-7836
1872-6763
DOI:10.1016/j.fishres.2016.04.004