Progress in modeling the impact of land cover change on the global climate

The prediction of the impact of anthropogenic land use change on the climate system hinges on the ability to properly model the interaction between the heterogeneous land surface and the atmosphere in global climate models. This paper contains a review of techniques in general use for modeling this...

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Bibliographic Details
Published in:Progress in physical geography 2006-12, Vol.30 (6), p.737-749
Main Authors: Salmun, Haydee, Molod, Andrea
Format: Article
Language:English
Subjects:
Areal geology. Maps
Atmosphere
Bgi / Prodig
Climatology
Earth sciences
Earth, ocean, space
Ecology
Exact sciences and technology
Geography
Geologic maps, cartography
Geology
Geomorphology, landform evolution
Land use
Methods. Forecasting
Physical geography
Research methodology
Simulation
Surficial geology
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Summary:The prediction of the impact of anthropogenic land use change on the climate system hinges on the ability to properly model the interaction between the heterogeneous land surface and the atmosphere in global climate models. This paper contains a review of techniques in general use for modeling this interaction in general circulation models (GCMs) that have been used to assess the impact of land use change on climate. The review includes a summary of GCM simulations of land cover change using these techniques, along with a description of the simulated physical mechanisms by which land cover change affects the climate. The vertical extent to which surface heterogeneities retain their individual character is an important consideration for the land-atmosphere coupling, and the description of a recently developed technique that improves this aspect of the coupling is presented. The differences in the simulated climate between this new technique and a technique in general use include the presence of a boundary layer feedback mechanism that is not present in simulations with the standard technique. We postulate that the new technique when implemented in a GCM has the potential to guide an improved understanding of the mechanisms by which anthropogenic land use change affects climate.
ISSN:0309-1333
1477-0296
DOI:10.1177/0309133306071956