The planktonic stages of the salmon louse (Lepeophtheirus salmonis) are tolerant of end-of-century pCO2 concentrations

The planktonic stages of the salmon louse (Lepeophtheirus salmonis) are tolerant of end-of-century pCO2 concentrations

The copepod Lepeophtheirus salmonis is an obligate ectoparasite of salmonids. Salmon lice are major pests in salmon aquaculture and due to its economic impact Lepeophtheirus salmonis is one of the most well studied species of marine parasite. However, there is limited understanding of how increased...

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Main Authors: Cameron R.S. Thompson, David M. Fields, Reidun M. Bjelland, Vera B.S. Chan, Caroline M.F. Durif, Andrew Mount, Jeffrey A. Runge, Steven D. Shema, Anne Berit Skiftesvik, Howard I. Browman
Format: Article
Language:English
Published: PeerJ Inc. 2019-10-01
Series:PeerJ
Subjects:
Salmon lice
Copepod
Ocean acidification
Parasite
Energetics
Metabolism
Online Access:https://peerj.com/articles/7810.pdf
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spelling doaj-b29608830cc5410387e715c5c6287a3a2020-11-25T00:13:12ZengPeerJ Inc.PeerJ2167-83592019-10-017e781010.7717/peerj.7810The planktonic stages of the salmon louse (Lepeophtheirus salmonis) are tolerant of end-of-century pCO2 concentrationsCameron R.S. Thompson0David M. Fields1Reidun M. Bjelland2Vera B.S. Chan3Caroline M.F. Durif4Andrew Mount5Jeffrey A. Runge6Steven D. Shema7Anne Berit Skiftesvik8Howard I. Browman9Institute of Marine Research, Bergen, NorwayBigelow Laboratory for Ocean Sciences, East Boothbay, ME, United States of AmericaAustevoll Research Station, Institute of Marine Research, Storebø, NorwayLEMAR, Institut Français de Recherche pour l’Exploitation de la Mer, UMR 6539 (UBO/CNRS/IRD/Ifremer), Plouzané, FranceAustevoll Research Station, Institute of Marine Research, Storebø, NorwayDepartment of Biological Sciences, Clemson University, Clemson, SC, United States of AmericaSchool of Marine Sciences, University of Maine, Orono, ME, United States of AmericaAustevoll Research Station, Institute of Marine Research, Storebø, NorwayAustevoll Research Station, Institute of Marine Research, Storebø, NorwayAustevoll Research Station, Institute of Marine Research, Storebø, NorwayThe copepod Lepeophtheirus salmonis is an obligate ectoparasite of salmonids. Salmon lice are major pests in salmon aquaculture and due to its economic impact Lepeophtheirus salmonis is one of the most well studied species of marine parasite. However, there is limited understanding of how increased concentration of pCO2 associated with ocean acidification will impact host-parasite relationships. We investigated the effects of increased pCO2 on growth and metabolic rates in the planktonic stages, rearing L. salmonis from eggs to 12 days post hatch copepodids under three treatment levels: Control (416 µatm), Mid (747 µatm), and High (942 µatm). The pCO2 treatment had a significant effect on oxygen consumption rate with the High treatment animals exhibiting the greatest respiration. The treatments did not have a significant effect on the other biological endpoints measured (carbon, nitrogen, lipid volume, and fatty acid content). The results indicate that L. salmonis have mechanisms to compensate for increased concentration of pCO2and that populations will be tolerant of projected future ocean acidification scenarios. The work reported here also describes catabolism during the lecithotrophic development of L. salmonis, information that is not currently available to parameterize models of dispersal and viability of the planktonic free-living stages.https://peerj.com/articles/7810.pdfSalmon liceCopepodOcean acidificationParasiteEnergeticsMetabolism
collection DOAJ
language English
format Article
sources DOAJ
author Cameron R.S. Thompson
David M. Fields
Reidun M. Bjelland
Vera B.S. Chan
Caroline M.F. Durif
Andrew Mount
Jeffrey A. Runge
Steven D. Shema
Anne Berit Skiftesvik
Howard I. Browman
spellingShingle Cameron R.S. Thompson
David M. Fields
Reidun M. Bjelland
Vera B.S. Chan
Caroline M.F. Durif
Andrew Mount
Jeffrey A. Runge
Steven D. Shema
Anne Berit Skiftesvik
Howard I. Browman
The planktonic stages of the salmon louse (Lepeophtheirus salmonis) are tolerant of end-of-century pCO2 concentrations
PeerJ
Salmon lice
Copepod
Ocean acidification
Parasite
Energetics
Metabolism
author_facet Cameron R.S. Thompson
David M. Fields
Reidun M. Bjelland
Vera B.S. Chan
Caroline M.F. Durif
Andrew Mount
Jeffrey A. Runge
Steven D. Shema
Anne Berit Skiftesvik
Howard I. Browman
author_sort Cameron R.S. Thompson
title The planktonic stages of the salmon louse (Lepeophtheirus salmonis) are tolerant of end-of-century pCO2 concentrations
title_short The planktonic stages of the salmon louse (Lepeophtheirus salmonis) are tolerant of end-of-century pCO2 concentrations
title_full The planktonic stages of the salmon louse (Lepeophtheirus salmonis) are tolerant of end-of-century pCO2 concentrations
title_fullStr The planktonic stages of the salmon louse (Lepeophtheirus salmonis) are tolerant of end-of-century pCO2 concentrations
title_full_unstemmed The planktonic stages of the salmon louse (Lepeophtheirus salmonis) are tolerant of end-of-century pCO2 concentrations
title_sort planktonic stages of the salmon louse (lepeophtheirus salmonis) are tolerant of end-of-century pco2 concentrations
publisher PeerJ Inc.
series PeerJ
issn 2167-8359
publishDate 2019-10-01
description The copepod Lepeophtheirus salmonis is an obligate ectoparasite of salmonids. Salmon lice are major pests in salmon aquaculture and due to its economic impact Lepeophtheirus salmonis is one of the most well studied species of marine parasite. However, there is limited understanding of how increased concentration of pCO2 associated with ocean acidification will impact host-parasite relationships. We investigated the effects of increased pCO2 on growth and metabolic rates in the planktonic stages, rearing L. salmonis from eggs to 12 days post hatch copepodids under three treatment levels: Control (416 µatm), Mid (747 µatm), and High (942 µatm). The pCO2 treatment had a significant effect on oxygen consumption rate with the High treatment animals exhibiting the greatest respiration. The treatments did not have a significant effect on the other biological endpoints measured (carbon, nitrogen, lipid volume, and fatty acid content). The results indicate that L. salmonis have mechanisms to compensate for increased concentration of pCO2and that populations will be tolerant of projected future ocean acidification scenarios. The work reported here also describes catabolism during the lecithotrophic development of L. salmonis, information that is not currently available to parameterize models of dispersal and viability of the planktonic free-living stages.
topic Salmon lice
Copepod
Ocean acidification
Parasite
Energetics
Metabolism
url https://peerj.com/articles/7810.pdf
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