Parentage-based tagging improves escapement estimates for ESA-listed adult Chinook salmon and steelhead in the Snake River basin
Parentage-based tagging (PBT) is a nonlethal, genetic tagging method that has been successfully applied in hatchery-supplemented populations to manage hatchery brood stock and monitor hatchery harvest and straying rates. We show that PBT can also improve the accuracy of escapement estimates by signi...
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| Published in | Canadian journal of fisheries and aquatic sciences Vol. 78; no. 4; pp. 349 - 360 |
|---|---|
| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
1840 Woodward Drive, Suite 1, Ottawa, ON K2C 0P7
NRC Research Press
01.04.2021
Canadian Science Publishing NRC Research Press |
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| Online Access | Get full text |
| ISSN | 0706-652X 1205-7533 1205-7533 |
| DOI | 10.1139/cjfas-2020-0152 |
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| Abstract | Parentage-based tagging (PBT) is a nonlethal, genetic tagging method that has been successfully applied in hatchery-supplemented populations to manage hatchery brood stock and monitor hatchery harvest and straying rates. We show that PBT can also improve the accuracy of escapement estimates by significantly reducing the number of hatchery-origin fish falsely classified as natural-origin. Unlike conventional abundance estimates, which use physical marks and tags to distinguish hatchery individuals from their wild counterparts, PBT identifies origin independent of physical form. We applied PBT to populations of Chinook salmon (Oncorhynchus tshawytscha) and steelhead (Oncorhynchus mykiss), which are classified as Threatened under the Endangered Species Act and subject to extensive hatchery supplementation efforts. For spawn years 2014–2018, 16 511 adipose-intact Chinook salmon and 21 953 adipose-intact steelhead were sampled, and PBT identified 19.6% of returning Chinook salmon and 8.3% of steelhead were of hatchery-origin, despite having no physical or mechanical marks. The 90% confidence intervals for escapement estimates of natural-origin Chinook salmon and steelhead made with and without corrections using PBT were nonoverlapping for nine of ten comparisons, indicating that failing to account for unmarked, untagged hatchery-origin fish would result in a significant overestimation of natural abundance. |
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| AbstractList | Parentage-based tagging (PBT) is a nonlethal, genetic tagging method that has been successfully applied in hatchery- supplemented populations to manage hatchery brood stock and monitor hatchery harvest and straying rates. We show that PBT can also improve the accuracy of escapement estimates by significantly reducing the number of hatchery-origin fish falsely classified as natural-origin. Unlike conventional abundance estimates, which use physical marks and tags to distinguish hatchery individuals from their wild counterparts, PBT identifies origin independent of physical form. We applied PBT to populations of Chinook salmon (Oncorhynchus tshawytscha) and steelhead (Oncorhynchus mykiss), which are classified as Threatened under the Endangered Species Act and subject to extensive hatchery supplementation efforts. For spawn years 2014-2018, 16 511 adipose-intact Chinook salmon and 21953 adipose-intact steelhead were sampled, and PBT identified 19.6% of returning Chinook salmon and 8.3% of steelhead were of hatchery-origin, despite having no physical or mechanical marks. The 90% confidence intervals for escapement estimates of natural-origin Chinook salmon and steelhead made with and without corrections using PBT were nonoverlapping for nine of ten comparisons, indicating that failing to account for unmarked, untagged hatchery-origin fish would result in a significant overestimation of natural abundance. L'etiquetage fonde sur la filiation (EFF) est une methode d'etiquetage genetique non letale qui a ete appliquee avec succes dans des populations enrichies de poissons d'ecloseries pour gerer les geniteurs d'ecloseries et surveiller les prises issues d'ecloseries et les taux de vagabondage. Nous demontrons que l'EFF peut aussi ameliorer l'exactitude des estimations de l'echappement en reduisant de maniere significative le nombre de poissons issus d'ecloseries erronement classes comme etant d'origine naturelle. Contrairement aux estimations d'abondance traditionnelles, qui emploient des marques et etiquettes physiques pour distinguer les specimens d'ecloseries des specimens sauvages, l'EFF identifie l'origine sans recours a la forme physique. Nous appliquons l'EFF a des populations de saumons chinooks (Oncorhynchus tshawytscha) et arcen-ciel (Oncorhynchus mykiss) designees Menacees en vertu de l'Endangered Species Act et faisant l'objet de vastes efforts d'enrichissement avec des poissons d'ecloseries. Pour les annees de frai 2014- 2018,16 511 saumons chinooks et 21953 saumons arc-en-ciel aux nageoires adipeuses intactes ont ete preleves, et l'EFF a permis de determiner que 19,6 % des saumons chinooks en montaison et 8,3 % des saumons arc-en-ciel provenaient d'ecloseries, meme s'ils ne presentaient pas de marque physique ou mecanique. Les intervalles de confiance de 90 % pour les estimations de l'echappement de saumons chinooks et arc-en-ciel d'origine naturelle etablies avec et sans corrections basees sur l'EFF ne se chevauchent pas pour neuf des dix comparaisons, ce qui indique que la non-prise en compte des poissons issus d'ecloseries non marques et non etiquetes entrainerait une surestimation significative de l'abondance naturelle. [Traduit par la Redaction] Parentage-based tagging (PBT) is a nonlethal, genetic tagging method that has been successfully applied in hatchery-supplemented populations to manage hatchery brood stock and monitor hatchery harvest and straying rates. We show that PBT can also improve the accuracy of escapement estimates by significantly reducing the number of hatchery-origin fish falsely classified as natural-origin. Unlike conventional abundance estimates, which use physical marks and tags to distinguish hatchery individuals from their wild counterparts, PBT identifies origin independent of physical form. We applied PBT to populations of Chinook salmon (Oncorhynchus tshawytscha) and steelhead (Oncorhynchus mykiss), which are classified as Threatened under the Endangered Species Act and subject to extensive hatchery supplementation efforts. For spawn years 2014–2018, 16 511 adipose-intact Chinook salmon and 21 953 adipose-intact steelhead were sampled, and PBT identified 19.6% of returning Chinook salmon and 8.3% of steelhead were of hatchery-origin, despite having no physical or mechanical marks. The 90% confidence intervals for escapement estimates of natural-origin Chinook salmon and steelhead made with and without corrections using PBT were nonoverlapping for nine of ten comparisons, indicating that failing to account for unmarked, untagged hatchery-origin fish would result in a significant overestimation of natural abundance. Parentage-based tagging (PBT) is a nonlethal, genetic tagging method that has been successfully applied in hatchery- supplemented populations to manage hatchery brood stock and monitor hatchery harvest and straying rates. We show that PBT can also improve the accuracy of escapement estimates by significantly reducing the number of hatchery-origin fish falsely classified as natural-origin. Unlike conventional abundance estimates, which use physical marks and tags to distinguish hatchery individuals from their wild counterparts, PBT identifies origin independent of physical form. We applied PBT to populations of Chinook salmon (Oncorhynchus tshawytscha) and steelhead (Oncorhynchus mykiss), which are classified as Threatened under the Endangered Species Act and subject to extensive hatchery supplementation efforts. For spawn years 2014-2018, 16 511 adipose-intact Chinook salmon and 21953 adipose-intact steelhead were sampled, and PBT identified 19.6% of returning Chinook salmon and 8.3% of steelhead were of hatchery-origin, despite having no physical or mechanical marks. The 90% confidence intervals for escapement estimates of natural-origin Chinook salmon and steelhead made with and without corrections using PBT were nonoverlapping for nine of ten comparisons, indicating that failing to account for unmarked, untagged hatchery-origin fish would result in a significant overestimation of natural abundance. |
| Abstract_FL | L’étiquetage fondé sur la filiation (EFF) est une méthode d’étiquetage génétique non létale qui a été appliquée avec succès dans des populations enrichies de poissons d’écloseries pour gérer les géniteurs d’écloseries et surveiller les prises issues d’écloseries et les taux de vagabondage. Nous démontrons que l’EFF peut aussi améliorer l’exactitude des estimations de l’échappement en réduisant de manière significative le nombre de poissons issus d’écloseries erronément classés comme étant d’origine naturelle. Contrairement aux estimations d’abondance traditionnelles, qui emploient des marques et étiquettes physiques pour distinguer les spécimens d’écloseries des spécimens sauvages, l’EFF identifie l’origine sans recours à la forme physique. Nous appliquons l’EFF à des populations de saumons chinooks (Oncorhynchus tshawytscha) et arc-en-ciel (Oncorhynchus mykiss) désignées Menacées en vertu de l’Endangered Species Act et faisant l’objet de vastes efforts d’enrichissement avec des poissons d’écloseries. Pour les années de frai 2014–2018, 16 511 saumons chinooks et 21 953 saumons arc-en-ciel aux nageoires adipeuses intactes ont été prélevés, et l’EFF a permis de déterminer que 19,6 % des saumons chinooks en montaison et 8,3 % des saumons arc-en-ciel provenaient d’écloseries, même s’ils ne présentaient pas de marque physique ou mécanique. Les intervalles de confiance de 90 % pour les estimations de l’échappement de saumons chinooks et arc-en-ciel d’origine naturelle établies avec et sans corrections basées sur l’EFF ne se chevauchent pas pour neuf des dix comparaisons, ce qui indique que la non-prise en compte des poissons issus d’écloseries non marqués et non étiquetés entraînerait une surestimation significative de l’abondance naturelle. [Traduit par la Rédaction] |
| Audience | Academic |
| Author | Powell, John H Schrader, William C Delomas, Thomas A Hess, Jon E Narum, Shawn R Campbell, Matthew R Hargrove, John S Camacho, Carlos A |
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| Snippet | Parentage-based tagging (PBT) is a nonlethal, genetic tagging method that has been successfully applied in hatchery-supplemented populations to manage hatchery... Parentage-based tagging (PBT) is a nonlethal, genetic tagging method that has been successfully applied in hatchery- supplemented populations to manage... |
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| SubjectTerms | Abundance adults Analysis Animal behavior Animal marking Biological sampling Breeding stock Case studies Censuses Chinook salmon Confidence intervals Endangered & extinct species Endangered species Endangered Species Act of 1973 Escapement Estimates Fins Fish Fish hatcheries Fishery management Freshwater Genetic aspects Genetics Genotypes hatcheries Marking Methods Monitoring Natural populations Oncorhynchus mykiss Oncorhynchus tshawytscha Physiological aspects Populations Rare species Restocking River basins River fisheries Salmon Salmoniformes Snake River Spawning migrations Sport fishing Steelhead (Fish) Tagging Threatened species Trap nets watersheds |
| Title | Parentage-based tagging improves escapement estimates for ESA-listed adult Chinook salmon and steelhead in the Snake River basin |
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