The impacts of ocean acidification on marine trace gases and the implications for atmospheric chemistry and climate

Surface ocean biogeochemistry and photochemistry regulate ocean-atmosphere fluxes of trace gases critical for Earth's atmospheric chemistry and climate. The oceanic processes governing these fluxes are often sensitive to the changes in ocean pH (or pCO(2)) accompanying ocean acidification (OA),...

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Published in:Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences
Main Authors: Hopkins, Frances E., Suntharalingam, Parvadha, Gehlen, Marion, Andrews, Oliver, Archer, Stephen D., Bopp, Laurent, Buitenhuis, Erik, Dadou, Isabelle, Duce, Robert, Goris, Nadine, Jickells, Tim, Johnson, Martin, Keng, Fiona, Law, Cliff S., Lee, Kitack, Liss, Peter S., Lizotte, Martine, Malin, Gillian, Murrell, J. Colin, Naik, Hema, Rees, Andrew P., Schwinger, Joerg, Williamson, Philip
Format: Article in Journal/Newspaper
Language:English
Published: ROYAL SOC 2020
Subjects:
DIMETHYL SULFIDE PRODUCTION
DISSOLVED ORGANIC-MATTER
ELEVATED CARBON-DIOXIDE
PHOTOCHEMICAL PRODUCTION
HIGH CO2
DMS-PRODUCTION
MULTIPLE STRESSORS
METHANE EMISSIONS
NORTH-ATLANTIC
METHYL-IODIDE
ocean acidification
marine trace gases
climate
atmospheric chemistry
North Atlantic
Ocean acidification
Online Access:https://oasis.postech.ac.kr/handle/2014.oak/107228
https://doi.org/10.1098/rspa.2019.0769
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spelling ftponangunivst:oai:oasis.postech.ac.kr:2014.oak/107228 2023-05-15T17:34:56+02:00 The impacts of ocean acidification on marine trace gases and the implications for atmospheric chemistry and climate Hopkins, Frances E. Suntharalingam, Parvadha Gehlen, Marion Andrews, Oliver Archer, Stephen D. Bopp, Laurent Buitenhuis, Erik Dadou, Isabelle Duce, Robert Goris, Nadine Jickells, Tim Johnson, Martin Keng, Fiona Law, Cliff S. Lee, Kitack Liss, Peter S. Lizotte, Martine Malin, Gillian Murrell, J. Colin Naik, Hema Rees, Andrew P. Schwinger, Joerg Williamson, Philip Lee, Kitack 2020-05 https://oasis.postech.ac.kr/handle/2014.oak/107228 https://doi.org/10.1098/rspa.2019.0769 English eng ROYAL SOC PROCEEDINGS OF THE ROYAL SOCIETY A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES Multidisciplinary Sciences Science & Technology - Other Topics 1364-5021 https://oasis.postech.ac.kr/handle/2014.oak/107228 doi:10.1098/rspa.2019.0769 41697 PROCEEDINGS OF THE ROYAL SOCIETY A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES, v.476, no.2237 000535685500004 2-s2.0-85086081371 DIMETHYL SULFIDE PRODUCTION DISSOLVED ORGANIC-MATTER ELEVATED CARBON-DIOXIDE PHOTOCHEMICAL PRODUCTION HIGH CO2 DMS-PRODUCTION MULTIPLE STRESSORS METHANE EMISSIONS NORTH-ATLANTIC METHYL-IODIDE ocean acidification marine trace gases climate atmospheric chemistry Article ART Review 2020 ftponangunivst https://doi.org/10.1098/rspa.2019.0769 2022-10-20T21:02:53Z Surface ocean biogeochemistry and photochemistry regulate ocean-atmosphere fluxes of trace gases critical for Earth's atmospheric chemistry and climate. The oceanic processes governing these fluxes are often sensitive to the changes in ocean pH (or pCO(2)) accompanying ocean acidification (OA), with potential for future climate feedbacks. Here, we review current understanding (from observational, experimental and model studies) on the impact of OA on marine sources of key climate-active trace gases, including dimethyl sulfide (DMS), nitrous oxide (N2O), ammonia and halocarbons. We focus on DMS, for which available information is considerably greater than for other trace gases. We highlight OA-sensitive regions such as polar oceans and upwelling systems, and discuss the combined effect of multiple climate stressors (ocean warming and deoxygenation) on trace gas fluxes. To unravel the biological mechanisms responsible for trace gas production, and to detect adaptation, we propose combining process rate measurements of trace gases with longer term experiments using both model organisms in the laboratory and natural planktonic communities in the field. Future ocean observations of trace gases should be routinely accompanied by measurements of two components of the carbonate system to improve our understanding of how in situ carbonate chemistry influences trace gas production. Together, this will lead to improvements in current process model capabilities and more reliable predictions of future global marine trace gas fluxes. 1 1 Y scie scopus Article in Journal/Newspaper North Atlantic Ocean acidification Pohang University of Science and Technology (POSTECH): Open Access System for Information Sharing (OASIS) Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences 476 2237 20190769
institution Open Polar
collection Pohang University of Science and Technology (POSTECH): Open Access System for Information Sharing (OASIS)
op_collection_id ftponangunivst
language English
topic DIMETHYL SULFIDE PRODUCTION
DISSOLVED ORGANIC-MATTER
ELEVATED CARBON-DIOXIDE
PHOTOCHEMICAL PRODUCTION
HIGH CO2
DMS-PRODUCTION
MULTIPLE STRESSORS
METHANE EMISSIONS
NORTH-ATLANTIC
METHYL-IODIDE
ocean acidification
marine trace gases
climate
atmospheric chemistry
spellingShingle DIMETHYL SULFIDE PRODUCTION
DISSOLVED ORGANIC-MATTER
ELEVATED CARBON-DIOXIDE
PHOTOCHEMICAL PRODUCTION
HIGH CO2
DMS-PRODUCTION
MULTIPLE STRESSORS
METHANE EMISSIONS
NORTH-ATLANTIC
METHYL-IODIDE
ocean acidification
marine trace gases
climate
atmospheric chemistry
Hopkins, Frances E.
Suntharalingam, Parvadha
Gehlen, Marion
Andrews, Oliver
Archer, Stephen D.
Bopp, Laurent
Buitenhuis, Erik
Dadou, Isabelle
Duce, Robert
Goris, Nadine
Jickells, Tim
Johnson, Martin
Keng, Fiona
Law, Cliff S.
Lee, Kitack
Liss, Peter S.
Lizotte, Martine
Malin, Gillian
Murrell, J. Colin
Naik, Hema
Rees, Andrew P.
Schwinger, Joerg
Williamson, Philip
The impacts of ocean acidification on marine trace gases and the implications for atmospheric chemistry and climate
topic_facet DIMETHYL SULFIDE PRODUCTION
DISSOLVED ORGANIC-MATTER
ELEVATED CARBON-DIOXIDE
PHOTOCHEMICAL PRODUCTION
HIGH CO2
DMS-PRODUCTION
MULTIPLE STRESSORS
METHANE EMISSIONS
NORTH-ATLANTIC
METHYL-IODIDE
ocean acidification
marine trace gases
climate
atmospheric chemistry
description Surface ocean biogeochemistry and photochemistry regulate ocean-atmosphere fluxes of trace gases critical for Earth's atmospheric chemistry and climate. The oceanic processes governing these fluxes are often sensitive to the changes in ocean pH (or pCO(2)) accompanying ocean acidification (OA), with potential for future climate feedbacks. Here, we review current understanding (from observational, experimental and model studies) on the impact of OA on marine sources of key climate-active trace gases, including dimethyl sulfide (DMS), nitrous oxide (N2O), ammonia and halocarbons. We focus on DMS, for which available information is considerably greater than for other trace gases. We highlight OA-sensitive regions such as polar oceans and upwelling systems, and discuss the combined effect of multiple climate stressors (ocean warming and deoxygenation) on trace gas fluxes. To unravel the biological mechanisms responsible for trace gas production, and to detect adaptation, we propose combining process rate measurements of trace gases with longer term experiments using both model organisms in the laboratory and natural planktonic communities in the field. Future ocean observations of trace gases should be routinely accompanied by measurements of two components of the carbonate system to improve our understanding of how in situ carbonate chemistry influences trace gas production. Together, this will lead to improvements in current process model capabilities and more reliable predictions of future global marine trace gas fluxes. 1 1 Y scie scopus
author2 Lee, Kitack
format Article in Journal/Newspaper
author Hopkins, Frances E.
Suntharalingam, Parvadha
Gehlen, Marion
Andrews, Oliver
Archer, Stephen D.
Bopp, Laurent
Buitenhuis, Erik
Dadou, Isabelle
Duce, Robert
Goris, Nadine
Jickells, Tim
Johnson, Martin
Keng, Fiona
Law, Cliff S.
Lee, Kitack
Liss, Peter S.
Lizotte, Martine
Malin, Gillian
Murrell, J. Colin
Naik, Hema
Rees, Andrew P.
Schwinger, Joerg
Williamson, Philip
author_facet Hopkins, Frances E.
Suntharalingam, Parvadha
Gehlen, Marion
Andrews, Oliver
Archer, Stephen D.
Bopp, Laurent
Buitenhuis, Erik
Dadou, Isabelle
Duce, Robert
Goris, Nadine
Jickells, Tim
Johnson, Martin
Keng, Fiona
Law, Cliff S.
Lee, Kitack
Liss, Peter S.
Lizotte, Martine
Malin, Gillian
Murrell, J. Colin
Naik, Hema
Rees, Andrew P.
Schwinger, Joerg
Williamson, Philip
author_sort Hopkins, Frances E.
title The impacts of ocean acidification on marine trace gases and the implications for atmospheric chemistry and climate
title_short The impacts of ocean acidification on marine trace gases and the implications for atmospheric chemistry and climate
title_full The impacts of ocean acidification on marine trace gases and the implications for atmospheric chemistry and climate
title_fullStr The impacts of ocean acidification on marine trace gases and the implications for atmospheric chemistry and climate
title_full_unstemmed The impacts of ocean acidification on marine trace gases and the implications for atmospheric chemistry and climate
title_sort impacts of ocean acidification on marine trace gases and the implications for atmospheric chemistry and climate
publisher ROYAL SOC
publishDate 2020
url https://oasis.postech.ac.kr/handle/2014.oak/107228
https://doi.org/10.1098/rspa.2019.0769
genre North Atlantic
Ocean acidification
genre_facet North Atlantic
Ocean acidification
op_relation PROCEEDINGS OF THE ROYAL SOCIETY A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES
Multidisciplinary Sciences
Science & Technology - Other Topics
1364-5021
https://oasis.postech.ac.kr/handle/2014.oak/107228
doi:10.1098/rspa.2019.0769
41697
PROCEEDINGS OF THE ROYAL SOCIETY A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES, v.476, no.2237
000535685500004
2-s2.0-85086081371
op_doi https://doi.org/10.1098/rspa.2019.0769
container_title Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences
container_volume 476
container_issue 2237
container_start_page 20190769
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