Climate change and ocean acidification impacts on lower trophic levels and the export of organic carbon to the deep ocean

Most future projections forecast significant and ongoing climate change during the 21st century, but with the severity of impacts dependent on efforts to restrain or reorganise human activity to limit carbon dioxide (CO2) emissions. A major sink for atmospheric CO2, and a key source of biological re...

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Published in:	Biogeosciences
Main Authors:	Yool, A., Popova, E.E., Coward, A.C., Bernie, D., Anderson, T.R.
Format:	Article in Journal/Newspaper
Language:	English
Published:	2013
Subjects:	Arctic Medusa Climate change Ocean acidification
Online Access:	https://eprints.soton.ac.uk/358802/ https://eprints.soton.ac.uk/358802/1/bg-10-5831-2013.pdf

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spelling	ftsouthampton:oai:eprints.soton.ac.uk:358802 2023-07-30T04:02:06+02:00 Climate change and ocean acidification impacts on lower trophic levels and the export of organic carbon to the deep ocean Yool, A. Popova, E.E. Coward, A.C. Bernie, D. Anderson, T.R. 2013-09-05 text https://eprints.soton.ac.uk/358802/ https://eprints.soton.ac.uk/358802/1/bg-10-5831-2013.pdf en English eng https://eprints.soton.ac.uk/358802/1/bg-10-5831-2013.pdf Yool, A., Popova, E.E., Coward, A.C., Bernie, D. and Anderson, T.R. (2013) Climate change and ocean acidification impacts on lower trophic levels and the export of organic carbon to the deep ocean. Biogeosciences, 10 (9), 5831-5854. (doi:10.5194/bg-10-5831-2013 <http://dx.doi.org/10.5194/bg-10-5831-2013>). other Article PeerReviewed 2013 ftsouthampton https://doi.org/10.5194/bg-10-5831-2013 2023-07-09T21:49:44Z Most future projections forecast significant and ongoing climate change during the 21st century, but with the severity of impacts dependent on efforts to restrain or reorganise human activity to limit carbon dioxide (CO2) emissions. A major sink for atmospheric CO2, and a key source of biological resources, the World Ocean is widely anticipated to undergo profound physical and – via ocean acidification – chemical changes as direct and indirect results of these emissions. Given strong biophysical coupling, the marine biota is also expected to experience strong changes in response to this anthropogenic forcing. Here we examine the large-scale response of ocean biogeochemistry to climate and acidification impacts during the 21st century for Representative Concentration Pathways (RCPs) 2.6 and 8.5 using an intermediate complexity global ecosystem model, MEDUSA-2.0. The primary impact of future change lies in stratification-led declines in the availability of key nutrients in surface waters, which in turn leads to a global decrease (1990s vs. 2090s) in ocean productivity (?6.3%). This impact has knock-on consequences for the abundance of the low trophic level biogeochemical actors modelled by MEDUSA-2.0 (?5.8%), and these would be expected to similarly impact higher trophic level elements such as fisheries. Related impacts are found in the flux of organic material to seafloor communities (?40.7% at 1000 m), and in the volume of ocean suboxic zones (+12.5%). A sensitivity analysis removing an acidification feedback on calcification finds that change in this process significantly impacts benthic communities, suggesting that a~better understanding of the OA-sensitivity of calcifying organisms, and their role in ballasting sinking organic carbon, may significantly improve forecasting of these ecosystems. For all processes, there is geographical variability in change – for instance, productivity declines ?21% in the Atlantic and increases +59% in the Arctic – and changes are much more pronounced under RCP 8.5 than the RCP ... Article in Journal/Newspaper Arctic Climate change Ocean acidification University of Southampton: e-Prints Soton Arctic Medusa ENVELOPE(157.417,157.417,-79.633,-79.633) Biogeosciences 10 9 5831 5854
institution	Open Polar
collection	University of Southampton: e-Prints Soton
op_collection_id	ftsouthampton
language	English
description	Most future projections forecast significant and ongoing climate change during the 21st century, but with the severity of impacts dependent on efforts to restrain or reorganise human activity to limit carbon dioxide (CO2) emissions. A major sink for atmospheric CO2, and a key source of biological resources, the World Ocean is widely anticipated to undergo profound physical and – via ocean acidification – chemical changes as direct and indirect results of these emissions. Given strong biophysical coupling, the marine biota is also expected to experience strong changes in response to this anthropogenic forcing. Here we examine the large-scale response of ocean biogeochemistry to climate and acidification impacts during the 21st century for Representative Concentration Pathways (RCPs) 2.6 and 8.5 using an intermediate complexity global ecosystem model, MEDUSA-2.0. The primary impact of future change lies in stratification-led declines in the availability of key nutrients in surface waters, which in turn leads to a global decrease (1990s vs. 2090s) in ocean productivity (?6.3%). This impact has knock-on consequences for the abundance of the low trophic level biogeochemical actors modelled by MEDUSA-2.0 (?5.8%), and these would be expected to similarly impact higher trophic level elements such as fisheries. Related impacts are found in the flux of organic material to seafloor communities (?40.7% at 1000 m), and in the volume of ocean suboxic zones (+12.5%). A sensitivity analysis removing an acidification feedback on calcification finds that change in this process significantly impacts benthic communities, suggesting that a~better understanding of the OA-sensitivity of calcifying organisms, and their role in ballasting sinking organic carbon, may significantly improve forecasting of these ecosystems. For all processes, there is geographical variability in change – for instance, productivity declines ?21% in the Atlantic and increases +59% in the Arctic – and changes are much more pronounced under RCP 8.5 than the RCP ...
format	Article in Journal/Newspaper
author	Yool, A. Popova, E.E. Coward, A.C. Bernie, D. Anderson, T.R.
spellingShingle	Yool, A. Popova, E.E. Coward, A.C. Bernie, D. Anderson, T.R. Climate change and ocean acidification impacts on lower trophic levels and the export of organic carbon to the deep ocean
author_facet	Yool, A. Popova, E.E. Coward, A.C. Bernie, D. Anderson, T.R.
author_sort	Yool, A.
title	Climate change and ocean acidification impacts on lower trophic levels and the export of organic carbon to the deep ocean
title_short	Climate change and ocean acidification impacts on lower trophic levels and the export of organic carbon to the deep ocean
title_full	Climate change and ocean acidification impacts on lower trophic levels and the export of organic carbon to the deep ocean
title_fullStr	Climate change and ocean acidification impacts on lower trophic levels and the export of organic carbon to the deep ocean
title_full_unstemmed	Climate change and ocean acidification impacts on lower trophic levels and the export of organic carbon to the deep ocean
title_sort	climate change and ocean acidification impacts on lower trophic levels and the export of organic carbon to the deep ocean
publishDate	2013
url	https://eprints.soton.ac.uk/358802/ https://eprints.soton.ac.uk/358802/1/bg-10-5831-2013.pdf
long_lat	ENVELOPE(157.417,157.417,-79.633,-79.633)
geographic	Arctic Medusa
geographic_facet	Arctic Medusa
genre	Arctic Climate change Ocean acidification
genre_facet	Arctic Climate change Ocean acidification
op_relation	https://eprints.soton.ac.uk/358802/1/bg-10-5831-2013.pdf Yool, A., Popova, E.E., Coward, A.C., Bernie, D. and Anderson, T.R. (2013) Climate change and ocean acidification impacts on lower trophic levels and the export of organic carbon to the deep ocean. Biogeosciences, 10 (9), 5831-5854. (doi:10.5194/bg-10-5831-2013 <http://dx.doi.org/10.5194/bg-10-5831-2013>).
op_rights	other
op_doi	https://doi.org/10.5194/bg-10-5831-2013
container_title	Biogeosciences
container_volume	10
container_issue	9
container_start_page	5831
op_container_end_page	5854
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Climate change and ocean acidification impacts on lower trophic levels and the export of organic carbon to the deep ocean

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