Potential impacts of future ocean acidification on marine ecosystems and fisheries: current knowledge and recommendations for future research

Potential impacts of future ocean acidification on marine ecosystems and fisheries: current knowledge and recommendations for future research

Denman, K., Christian, J.R., Steiner, N., Pörtner, H-O., and Nojiri, Y. 2011. Potential impacts of future ocean acidification on marine ecosystems and fisheries: current knowledge and recommendations for future research. - ICES Journal of Marine Science, 68: 1019-1029. As CO2 from fossil fuel emissi...

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Published in:ICES journal of marine science Vol. 68; no. 6; pp. 1019 - 1029
Main Authors: Denman, Kenneth, Christian, James R., Steiner, Nadja, Pörtner, Hans-Otto, Nojiri, Yukihiro
Format: Journal Article
Language:English
Published: Oxford University Press 01-07-2011
Subjects:
Acidification
Carbon dioxide
Ecosystems
Fisheries
Marine
Mathematical models
Oceans
Japan, Honshu, Miyagi Prefect., Sendai
INW, Japan
ocean acidification
behavioural response
calcification
physiological response
climate change
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Summary:Denman, K., Christian, J.R., Steiner, N., Pörtner, H-O., and Nojiri, Y. 2011. Potential impacts of future ocean acidification on marine ecosystems and fisheries: current knowledge and recommendations for future research. - ICES Journal of Marine Science, 68: 1019-1029. As CO2 from fossil fuel emissions enters the ocean, it is becoming acidified. Global surface pH has already decreased by more than 0.1 units since preindustrial times and might decrease by 0.10-0.35 additional units by 2100. The level of supersaturation of calcium carbonate has decreased and the partial pressure of carbon dioxide has increased over much of the upper ocean. We present predicted changes in ocean surface pH from the Canadian Earth System Model (CanESM-1). Results presented at a 2010 workshop in Sendai, Japan, of experiments on marine animals under elevated CO2 conditions indicate that few general conclusions across species can as yet be made. Recommendations include protocols that mimic natural diel and seasonal fluctuations in and that extend over multiple generations. Projections from CanESM-1 suggest that other changes associated with climate change have little influence on acidification relative to the addition of CO2 and that freshwater dilution at high northern latitudes exacerbates acidification and results in undersaturation with respect to carbonate minerals at higher pH than in undiluted seawater. Finally, we recommend a framework that considers the effects of multiple stressors associated with a changing climate on the "thermal window" of activity of marine animals.
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ISSN:1054-3139
1095-9289
DOI:10.1093/icesjms/fsr074