Warming temperatures and ectoparasitic sea lice impair internal organs in juvenile Atlantic salmon

Kate E. Medcalf; Jeffrey A. Hutchings; Mark D. Fast; Anna Kuparinen; Sean C. Godwin

doi:10.3354/meps13610

Warming temperatures and ectoparasitic sea lice impair internal organs in juvenile Atlantic salmon

Kate E. Medcalf, Jeffrey A. Hutchings, Mark D. Fast, Anna Kuparinen, Sean C. Godwin

Medicine

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

7 Citas (Scopus)

Resumen

As a consequence of climate change and open net-pen salmon farming, wild Atlantic salmon Salmo salar are increasingly likely to encounter elevated temperatures and parasite abundances during their early marine migration. Such stressors can compromise fitness by diminishing liver energy stores and impairing cardiac muscle. To assess whether temperature and infestation by salmon lice Lepeophtheirus salmonis are important correlates of liver energy stores and cardiac muscle performance in juvenile salmon, we experimentally infested fish at 3 abundances of louse infestation (zero, low, and high) and 5 temperatures (10, 13, 16, 19, and 22°C). At the end of the experiment (i.e. when sea lice reached adulthood), we calculated the percent dry weight of the liver (%DWL; a proxy for liver energy stores) and cardiosomatic index (CSI; a proxy for cardiac muscle performance) of each fish and fitted 5 linear mixed-effects models to both of these responses. For both %DWL and CSI, the best-supported model included additive fixed effects for both infestation level and temperature. Our top models predicted that, relative to zero infestation, high infestation reduces %DWL by 5.7% (95% CI: 5.3-6.2%) and increases CSI by 15.9% (14.4-18.0%), and low infestation reduces %DWL by 2.6% (2.2-3.0%) and increases CSI by 7.8% (6.7-10.0%). Our work suggests that stressors associated with ocean warming and coastal salmon aquaculture can compromise wild salmon fitness through the impairment of vital organs.

Idioma original	English
Páginas (desde-hasta)	161-169
Número de páginas	9
Publicación	Marine Ecology - Progress Series
Volumen	660
DOI	https://doi.org/10.3354/meps13610
Estado	Published - feb. 2021

Nota bibliográfica

Funding Information:
Acknowledgements. We thank J. Eddington, S. Fowler, L. Jarrett, and G. Tobin-Huxley at Dalhousie’s Aquatron for facilitating this project in spite of delays and weather-related disruptions. We are grateful to S. Purcell and D. Michaud from the Atlantic Veterinary College for their expertise and resource sharing, to K. Gilmour for discussion, and to Huntsman Marine Science Centre for their involvement in procuring sea-louse copepodites, made possible by the Mitigating Impacts of Climate Change in Salmon Aquaculture (MICCSA) grant funded by the ACOA-AIF program. We acknowledge S. Barrett, S. Ferderber-Skripsky, G. Mullin, S. Williams, and many other volunteers for their invaluable assistance in fish husbandry and dissections. This research was funded by a Liber Ero Postdoctoral Fellowship (to S.C.G.), an Atlantic Salmon Conservation Foundation Research Grant (to S.C.G. and J.A.H.), 2 Natural Sciences and Engineering Research Council Discovery Grants (to J.A.H. [170146-2013] and A.K. [04249-2015]), the Academy of Finland (to A.K.), and the European Research Council (COMPLEX-FISH 770884 to A.K.). The present study reflects only the authors’ views; the European Research Council is not responsible for any use that may be made of the information it contains. The use of animals for this research was in accordance with Dalhousie University Animal Ethics protocol 19-015.

Publisher Copyright:
© The authors 2021.

ASJC Scopus Subject Areas

Ecology, Evolution, Behavior and Systematics
Aquatic Science
Ecology

ODS de las Naciones Unidas

Este resultado contribuye a los siguientes Objetivos de Desarrollo Sostenible

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10.3354/meps13610

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title = "Warming temperatures and ectoparasitic sea lice impair internal organs in juvenile Atlantic salmon",

abstract = "As a consequence of climate change and open net-pen salmon farming, wild Atlantic salmon Salmo salar are increasingly likely to encounter elevated temperatures and parasite abundances during their early marine migration. Such stressors can compromise fitness by diminishing liver energy stores and impairing cardiac muscle. To assess whether temperature and infestation by salmon lice Lepeophtheirus salmonis are important correlates of liver energy stores and cardiac muscle performance in juvenile salmon, we experimentally infested fish at 3 abundances of louse infestation (zero, low, and high) and 5 temperatures (10, 13, 16, 19, and 22°C). At the end of the experiment (i.e. when sea lice reached adulthood), we calculated the percent dry weight of the liver (%DWL; a proxy for liver energy stores) and cardiosomatic index (CSI; a proxy for cardiac muscle performance) of each fish and fitted 5 linear mixed-effects models to both of these responses. For both %DWL and CSI, the best-supported model included additive fixed effects for both infestation level and temperature. Our top models predicted that, relative to zero infestation, high infestation reduces %DWL by 5.7% (95% CI: 5.3-6.2%) and increases CSI by 15.9% (14.4-18.0%), and low infestation reduces %DWL by 2.6% (2.2-3.0%) and increases CSI by 7.8% (6.7-10.0%). Our work suggests that stressors associated with ocean warming and coastal salmon aquaculture can compromise wild salmon fitness through the impairment of vital organs.",

author = "Medcalf, {Kate E.} and Hutchings, {Jeffrey A.} and Fast, {Mark D.} and Anna Kuparinen and Godwin, {Sean C.}",

note = "Funding Information: Acknowledgements. We thank J. Eddington, S. Fowler, L. Jarrett, and G. Tobin-Huxley at Dalhousie{\textquoteright}s Aquatron for facilitating this project in spite of delays and weather-related disruptions. We are grateful to S. Purcell and D. Michaud from the Atlantic Veterinary College for their expertise and resource sharing, to K. Gilmour for discussion, and to Huntsman Marine Science Centre for their involvement in procuring sea-louse copepodites, made possible by the Mitigating Impacts of Climate Change in Salmon Aquaculture (MICCSA) grant funded by the ACOA-AIF program. We acknowledge S. Barrett, S. Ferderber-Skripsky, G. Mullin, S. Williams, and many other volunteers for their invaluable assistance in fish husbandry and dissections. This research was funded by a Liber Ero Postdoctoral Fellowship (to S.C.G.), an Atlantic Salmon Conservation Foundation Research Grant (to S.C.G. and J.A.H.), 2 Natural Sciences and Engineering Research Council Discovery Grants (to J.A.H. [170146-2013] and A.K. [04249-2015]), the Academy of Finland (to A.K.), and the European Research Council (COMPLEX-FISH 770884 to A.K.). The present study reflects only the authors{\textquoteright} views; the European Research Council is not responsible for any use that may be made of the information it contains. The use of animals for this research was in accordance with Dalhousie University Animal Ethics protocol 19-015. Publisher Copyright: {\textcopyright} The authors 2021.",

year = "2021",

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AU - Medcalf, Kate E.

AU - Hutchings, Jeffrey A.

AU - Fast, Mark D.

AU - Kuparinen, Anna

AU - Godwin, Sean C.

N1 - Funding Information: Acknowledgements. We thank J. Eddington, S. Fowler, L. Jarrett, and G. Tobin-Huxley at Dalhousie’s Aquatron for facilitating this project in spite of delays and weather-related disruptions. We are grateful to S. Purcell and D. Michaud from the Atlantic Veterinary College for their expertise and resource sharing, to K. Gilmour for discussion, and to Huntsman Marine Science Centre for their involvement in procuring sea-louse copepodites, made possible by the Mitigating Impacts of Climate Change in Salmon Aquaculture (MICCSA) grant funded by the ACOA-AIF program. We acknowledge S. Barrett, S. Ferderber-Skripsky, G. Mullin, S. Williams, and many other volunteers for their invaluable assistance in fish husbandry and dissections. This research was funded by a Liber Ero Postdoctoral Fellowship (to S.C.G.), an Atlantic Salmon Conservation Foundation Research Grant (to S.C.G. and J.A.H.), 2 Natural Sciences and Engineering Research Council Discovery Grants (to J.A.H. [170146-2013] and A.K. [04249-2015]), the Academy of Finland (to A.K.), and the European Research Council (COMPLEX-FISH 770884 to A.K.). The present study reflects only the authors’ views; the European Research Council is not responsible for any use that may be made of the information it contains. The use of animals for this research was in accordance with Dalhousie University Animal Ethics protocol 19-015. Publisher Copyright: © The authors 2021.

PY - 2021/2

Y1 - 2021/2

N2 - As a consequence of climate change and open net-pen salmon farming, wild Atlantic salmon Salmo salar are increasingly likely to encounter elevated temperatures and parasite abundances during their early marine migration. Such stressors can compromise fitness by diminishing liver energy stores and impairing cardiac muscle. To assess whether temperature and infestation by salmon lice Lepeophtheirus salmonis are important correlates of liver energy stores and cardiac muscle performance in juvenile salmon, we experimentally infested fish at 3 abundances of louse infestation (zero, low, and high) and 5 temperatures (10, 13, 16, 19, and 22°C). At the end of the experiment (i.e. when sea lice reached adulthood), we calculated the percent dry weight of the liver (%DWL; a proxy for liver energy stores) and cardiosomatic index (CSI; a proxy for cardiac muscle performance) of each fish and fitted 5 linear mixed-effects models to both of these responses. For both %DWL and CSI, the best-supported model included additive fixed effects for both infestation level and temperature. Our top models predicted that, relative to zero infestation, high infestation reduces %DWL by 5.7% (95% CI: 5.3-6.2%) and increases CSI by 15.9% (14.4-18.0%), and low infestation reduces %DWL by 2.6% (2.2-3.0%) and increases CSI by 7.8% (6.7-10.0%). Our work suggests that stressors associated with ocean warming and coastal salmon aquaculture can compromise wild salmon fitness through the impairment of vital organs.

AB - As a consequence of climate change and open net-pen salmon farming, wild Atlantic salmon Salmo salar are increasingly likely to encounter elevated temperatures and parasite abundances during their early marine migration. Such stressors can compromise fitness by diminishing liver energy stores and impairing cardiac muscle. To assess whether temperature and infestation by salmon lice Lepeophtheirus salmonis are important correlates of liver energy stores and cardiac muscle performance in juvenile salmon, we experimentally infested fish at 3 abundances of louse infestation (zero, low, and high) and 5 temperatures (10, 13, 16, 19, and 22°C). At the end of the experiment (i.e. when sea lice reached adulthood), we calculated the percent dry weight of the liver (%DWL; a proxy for liver energy stores) and cardiosomatic index (CSI; a proxy for cardiac muscle performance) of each fish and fitted 5 linear mixed-effects models to both of these responses. For both %DWL and CSI, the best-supported model included additive fixed effects for both infestation level and temperature. Our top models predicted that, relative to zero infestation, high infestation reduces %DWL by 5.7% (95% CI: 5.3-6.2%) and increases CSI by 15.9% (14.4-18.0%), and low infestation reduces %DWL by 2.6% (2.2-3.0%) and increases CSI by 7.8% (6.7-10.0%). Our work suggests that stressors associated with ocean warming and coastal salmon aquaculture can compromise wild salmon fitness through the impairment of vital organs.

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Warming temperatures and ectoparasitic sea lice impair internal organs in juvenile Atlantic salmon

Resumen

Nota bibliográfica

ASJC Scopus Subject Areas

ODS de las Naciones Unidas

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