Halocarbon and dimethyl sulphide production around the Mascarene Plateau
Halocarbon and dimethyl sulphide production around the Mascarene Plateau
Air-sea exchange is thought to be one of the major routes by which halocarbons and dimethyl sulphide reach the troposphere and stratosphere. Once there, in different ways, they participate in chemical reactions that have implications for ozone depletion and climate change. The gases are released by phytoplankton and other algae, but our present understanding of the sources and sinks is insufficient to establish a balanced global budget. Published data suggest that there are regions of coastal and ocean waters that constitute a major source, but, for halocarbons, in other regions the ocean is a net sink. For example, in many open oceanic areas, the rate of degradation of methyl bromide outweighs production.
Here we present data from the Central Indian Ocean, a region considered to be low in terms of biological productivity. Little is known about trace-gas release from the Central Indian Ocean and without such data it is impossible to even hazard a guess at the global ocean source to the atmosphere.
Indian Ocean, methyl chloride, methyl iodide, methyl bromide, dimethyl sulphide, phytoplankton
169-185
Smythe-Wright, D.
18f22519-f0f3-4144-ad0d-051fd3374fe8
Boswell, S.M.
7bdb812b-6553-48ed-b15f-0a09fe3243f6
Lucas, C.H.
521743e3-b250-4c6b-b084-780af697d6bf
New, A.L.
69c2be8b-c6c2-408f-9612-6980b1a25802
Varney, M.S.
491a770d-6dd2-4bbd-b71c-a354813edde5
2005
Smythe-Wright, D.
18f22519-f0f3-4144-ad0d-051fd3374fe8
Boswell, S.M.
7bdb812b-6553-48ed-b15f-0a09fe3243f6
Lucas, C.H.
521743e3-b250-4c6b-b084-780af697d6bf
New, A.L.
69c2be8b-c6c2-408f-9612-6980b1a25802
Varney, M.S.
491a770d-6dd2-4bbd-b71c-a354813edde5
Smythe-Wright, D., Boswell, S.M., Lucas, C.H., New, A.L. and Varney, M.S.
(2005)
Halocarbon and dimethyl sulphide production around the Mascarene Plateau.
Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 363 (1826), .
(doi:10.1098/rsta.2004.1485).
Abstract
Air-sea exchange is thought to be one of the major routes by which halocarbons and dimethyl sulphide reach the troposphere and stratosphere. Once there, in different ways, they participate in chemical reactions that have implications for ozone depletion and climate change. The gases are released by phytoplankton and other algae, but our present understanding of the sources and sinks is insufficient to establish a balanced global budget. Published data suggest that there are regions of coastal and ocean waters that constitute a major source, but, for halocarbons, in other regions the ocean is a net sink. For example, in many open oceanic areas, the rate of degradation of methyl bromide outweighs production.
Here we present data from the Central Indian Ocean, a region considered to be low in terms of biological productivity. Little is known about trace-gas release from the Central Indian Ocean and without such data it is impossible to even hazard a guess at the global ocean source to the atmosphere.
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More information
Published date: 2005
Keywords:
Indian Ocean, methyl chloride, methyl iodide, methyl bromide, dimethyl sulphide, phytoplankton
Organisations:
National Oceanography Centre,Southampton
Identifiers
Local EPrints ID: 14874
URI: http://eprints.soton.ac.uk/id/eprint/14874
ISSN: 1364-503X
PURE UUID: a726aab8-205e-45e3-9e2b-7b22a31f2454
Catalogue record
Date deposited: 17 Mar 2005
Last modified: 16 Mar 2024 02:46
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Contributors
Author:
D. Smythe-Wright
Author:
S.M. Boswell
Author:
A.L. New
Author:
M.S. Varney
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