Changes in Dimethyl Sulfide Oceanic Distribution due to Climate Change

Dimethyl sulfide (DMS) is one of the major precursors for aerosols and cloud condensation nuclei in the marine boundary layer over much of the remote ocean. Here they report on coupled climate simulations with a state-of-the-art global ocean biogeochemical model for DMS distribution and fluxes using...

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Bibliographic Details
Main Authors: Cameron-Smith, P, Elliott, S, Maltrud, M, Erickson, D, Wingenter, O
Other Authors: United States. Department of Energy.
Format: Article in Journal/Newspaper
Language:English
Published: Lawrence Livermore National Laboratory 2011
Subjects:
Aerosols
Clouds
Equator
Ice
37 Inorganic
Organic
Physical And Analytical Chemistry
59 Basic Biological Sciences
Condensation Nuclei
Climatic Change
Dimethyl Sulfide
54 Environmental Sciences
Seas
Ecosystems
Comparative Evaluations
Distribution
Boundary Layers
Computerized Simulation
Southern Ocean
Sea ice
Online Access:http://digital.library.unt.edu/ark:/67531/metadc843596/
Description
Summary:Dimethyl sulfide (DMS) is one of the major precursors for aerosols and cloud condensation nuclei in the marine boundary layer over much of the remote ocean. Here they report on coupled climate simulations with a state-of-the-art global ocean biogeochemical model for DMS distribution and fluxes using present-day and future atmospheric CO{sub 2} concentrations. They find changes in zonal averaged DMS flux to the atmosphere of over 150% in the Southern Ocean. This is due to concurrent sea ice changes and ocean ecosystem composition shifts caused by changes in temperature, mixing, nutrient, and light regimes. The largest changes occur in a region already sensitive to climate change, so any resultant local CLAW/Gaia feedback of DMS on clouds, and thus radiative forcing, will be particularly important. A comparison of these results to prior studies shows that increasing model complexity is associted with reduced DMS emissions at the equator and increased emissions at high latitudes.

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