Projected impacts of climate change and ocean acidification on the global biogeography of planktonic Foraminifera

Planktonic Foraminifera are a major contributor to the deep carbonate flux and their microfossil deposits form one of the richest databases for reconstructing paleoenvironments, particularly through changes in their taxonomic and shell composition. Using an empirically based planktonic foraminifer m...

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Published in:	Biogeosciences
Main Authors:	Roy, T., Lombard, F., Bopp, L., Gehlen, M.
Format:	Text
Language:	English
Published:	2018
Subjects:	Ocean acidification Planktonic foraminifera
Online Access:	https://doi.org/10.5194/bg-12-2873-2015 https://www.biogeosciences.net/12/2873/2015/

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spelling	ftcopernicus:oai:publications.copernicus.org:bg25178 2023-05-15T17:50:56+02:00 Projected impacts of climate change and ocean acidification on the global biogeography of planktonic Foraminifera Roy, T. Lombard, F. Bopp, L. Gehlen, M. 2018-09-27 application/pdf https://doi.org/10.5194/bg-12-2873-2015 https://www.biogeosciences.net/12/2873/2015/ eng eng doi:10.5194/bg-12-2873-2015 https://www.biogeosciences.net/12/2873/2015/ eISSN: 1726-4189 Text 2018 ftcopernicus https://doi.org/10.5194/bg-12-2873-2015 2019-12-24T09:53:27Z Planktonic Foraminifera are a major contributor to the deep carbonate flux and their microfossil deposits form one of the richest databases for reconstructing paleoenvironments, particularly through changes in their taxonomic and shell composition. Using an empirically based planktonic foraminifer model that incorporates three known major physiological drivers of their biogeography – temperature, food and light – we investigate (i) the global redistribution of planktonic Foraminifera under anthropogenic climate change and (ii) the alteration of the carbonate chemistry of foraminiferal habitat with ocean acidification. The present-day and future (2090–2100) 3-D distributions of Foraminifera are simulated using temperature, plankton biomass and light from an Earth system model forced with a historical and a future (IPCC A2) high CO 2 emission scenario. Foraminiferal abundance and diversity are projected to decrease in the tropics and subpolar regions and increase in the subtropics and around the poles. Temperature is the dominant control on the future change in the biogeography of Foraminifera. Yet food availability acts to either reinforce or counteract the temperature-driven changes. In the tropics and subtropics the largely temperature-driven shift to depth is enhanced by the increased concentration of phytoplankton at depth. In the higher latitudes the food-driven response partly offsets the temperature-driven reduction both in the subsurface and across large geographical regions. The large-scale rearrangements in foraminiferal abundance and the reduction in the carbonate ion concentrations in the habitat range of planktonic foraminifers – from 10–30 μmol kg −1 in their polar and subpolar habitats to 30–70 μmol kg −1 in their subtropical and tropical habitats – would be expected to lead to changes in the marine carbonate flux. High-latitude species are most vulnerable to anthropogenic change: their abundance and available habitat decrease and up to 10% of the volume of their habitat drops below the calcite saturation horizon. Text Ocean acidification Planktonic foraminifera Copernicus Publications: E-Journals Biogeosciences 12 10 2873 2889
institution	Open Polar
collection	Copernicus Publications: E-Journals
op_collection_id	ftcopernicus
language	English
description	Planktonic Foraminifera are a major contributor to the deep carbonate flux and their microfossil deposits form one of the richest databases for reconstructing paleoenvironments, particularly through changes in their taxonomic and shell composition. Using an empirically based planktonic foraminifer model that incorporates three known major physiological drivers of their biogeography – temperature, food and light – we investigate (i) the global redistribution of planktonic Foraminifera under anthropogenic climate change and (ii) the alteration of the carbonate chemistry of foraminiferal habitat with ocean acidification. The present-day and future (2090–2100) 3-D distributions of Foraminifera are simulated using temperature, plankton biomass and light from an Earth system model forced with a historical and a future (IPCC A2) high CO 2 emission scenario. Foraminiferal abundance and diversity are projected to decrease in the tropics and subpolar regions and increase in the subtropics and around the poles. Temperature is the dominant control on the future change in the biogeography of Foraminifera. Yet food availability acts to either reinforce or counteract the temperature-driven changes. In the tropics and subtropics the largely temperature-driven shift to depth is enhanced by the increased concentration of phytoplankton at depth. In the higher latitudes the food-driven response partly offsets the temperature-driven reduction both in the subsurface and across large geographical regions. The large-scale rearrangements in foraminiferal abundance and the reduction in the carbonate ion concentrations in the habitat range of planktonic foraminifers – from 10–30 μmol kg −1 in their polar and subpolar habitats to 30–70 μmol kg −1 in their subtropical and tropical habitats – would be expected to lead to changes in the marine carbonate flux. High-latitude species are most vulnerable to anthropogenic change: their abundance and available habitat decrease and up to 10% of the volume of their habitat drops below the calcite saturation horizon.
format	Text
author	Roy, T. Lombard, F. Bopp, L. Gehlen, M.
spellingShingle	Roy, T. Lombard, F. Bopp, L. Gehlen, M. Projected impacts of climate change and ocean acidification on the global biogeography of planktonic Foraminifera
author_facet	Roy, T. Lombard, F. Bopp, L. Gehlen, M.
author_sort	Roy, T.
title	Projected impacts of climate change and ocean acidification on the global biogeography of planktonic Foraminifera
title_short	Projected impacts of climate change and ocean acidification on the global biogeography of planktonic Foraminifera
title_full	Projected impacts of climate change and ocean acidification on the global biogeography of planktonic Foraminifera
title_fullStr	Projected impacts of climate change and ocean acidification on the global biogeography of planktonic Foraminifera
title_full_unstemmed	Projected impacts of climate change and ocean acidification on the global biogeography of planktonic Foraminifera
title_sort	projected impacts of climate change and ocean acidification on the global biogeography of planktonic foraminifera
publishDate	2018
url	https://doi.org/10.5194/bg-12-2873-2015 https://www.biogeosciences.net/12/2873/2015/
genre	Ocean acidification Planktonic foraminifera
genre_facet	Ocean acidification Planktonic foraminifera
op_source	eISSN: 1726-4189
op_relation	doi:10.5194/bg-12-2873-2015 https://www.biogeosciences.net/12/2873/2015/
op_doi	https://doi.org/10.5194/bg-12-2873-2015
container_title	Biogeosciences
container_volume	12
container_issue	10
container_start_page	2873
op_container_end_page	2889
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Projected impacts of climate change and ocean acidification on the global biogeography of planktonic Foraminifera

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