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Effects of Ocean Acidification on Juvenile Red King Crab (Paralithodes camtschaticus) and Tanner Crab (Chionoecetes bairdi) Growth, Condition, Calcification, and Survival

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  • William Christopher Long
  • Katherine M Swiney
  • Caitlin Harris
  • Heather N Page
  • Robert J Foy

Abstract

Ocean acidification, a decrease in the pH in marine waters associated with rising atmospheric CO2 levels, is a serious threat to marine ecosystems. In this paper, we determine the effects of long-term exposure to near-future levels of ocean acidification on the growth, condition, calcification, and survival of juvenile red king crabs, Paralithodes camtschaticus, and Tanner crabs, Chionoecetes bairdi. Juveniles were reared in individual containers for nearly 200 days in flowing control (pH 8.0), pH 7.8, and pH 7.5 seawater at ambient temperatures (range 4.4–11.9 °C). In both species, survival decreased with pH, with 100% mortality of red king crabs occurring after 95 days in pH 7.5 water. Though the morphology of neither species was affected by acidification, both species grew slower in acidified water. At the end of the experiment, calcium concentration was measured in each crab and the dry mass and condition index of each crab were determined. Ocean acidification did not affect the calcium content of red king crab but did decrease the condition index, while it had the opposite effect on Tanner crabs, decreasing calcium content but leaving the condition index unchanged. This suggests that red king crab may be able to maintain calcification rates, but at a high energetic cost. The decrease in survival and growth of each species is likely to have a serious negative effect on their populations in the absence of evolutionary adaptation or acclimatization over the coming decades.

Suggested Citation

  • William Christopher Long & Katherine M Swiney & Caitlin Harris & Heather N Page & Robert J Foy, 2013. "Effects of Ocean Acidification on Juvenile Red King Crab (Paralithodes camtschaticus) and Tanner Crab (Chionoecetes bairdi) Growth, Condition, Calcification, and Survival," PLOS ONE, Public Library of Science, vol. 8(4), pages 1-10, April.
  • Handle: RePEc:plo:pone00:0060959
    DOI: 10.1371/journal.pone.0060959
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    References listed on IDEAS

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    1. Ken Caldeira & Michael E. Wickett, 2003. "Anthropogenic carbon and ocean pH," Nature, Nature, vol. 425(6956), pages 365-365, September.
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    1. Punt, André E. & Poljak, Dusanka & Dalton, Michael G. & Foy, Robert J., 2014. "Evaluating the impact of ocean acidification on fishery yields and profits: The example of red king crab in Bristol Bay," Ecological Modelling, Elsevier, vol. 285(C), pages 39-53.
    2. Frisch, L.C. & Mathis, J.T. & Kettle, N.P. & Trainor, S.F., 2015. "Gauging perceptions of ocean acidification in Alaska," Marine Policy, Elsevier, vol. 53(C), pages 101-110.
    3. Chang K. Seung & Michael G. Dalton & André E. Punt & Dusanka Poljak & Robert Foy, 2015. "Economic Impacts Of Changes In An Alaska Crab Fishery From Ocean Acidification," Climate Change Economics (CCE), World Scientific Publishing Co. Pte. Ltd., vol. 6(04), pages 1-35, November.

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