Authors
Frances E Hopkins, Parvadha Suntharalingam, Marion Gehlen, Oliver Andrews, Stephen D Archer, Laurent Bopp, Erik Buitenhuis, Isabelle Dadou, Robert Duce, Nadine Goris, Tim Jickells, Martin Johnson, Fiona Keng, Cliff S Law, Kitack Lee, Peter S Liss, Martine Lizotte, Gillian Malin, J Colin Murrell, Hema Naik, Andrew P Rees, Jörg Schwinger, Philip Williamson
Publication date
2020/5/27
Source
Proceedings of the Royal Society A
Volume
476
Issue
2237
Pages
20190769
Publisher
The Royal Society Publishing
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 pCO2) 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 …
Scholar articles
FE Hopkins, P Suntharalingam, M Gehlen, O Andrews… - Proceedings of the Royal Society A, 2020