MODELING LAND-SURFACE ALBEDOS FROM VEGETATION CANOPY ARCHITECTURE |
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Authors: | Clinton M Rowe |
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Institution: | Department of Geography , University of Nebraska , Lincoln, Nebraska 68588–0135 |
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Abstract: | Over the past decade, the climatic impact of changes in terrestrial albedo has been studied using numerous climate models, ranging from simple, one-dimensional energy balance climate models to the more sophisticated, three-dimensional general circulation models of the atmosphere. In most of these, however, the land-surface albedos have been prescribed both spatially and temporally from albedo observations. To overcome the limitations of using prescribed land-surface albedos, a model of radiation transfer in plant canopies was used to predict vegetation albedos. Because of the model's reliance on the physical properties of the land-surface cover, it is able to account explicitly for albedo variations caused by factors both internal to and external from the vegetation canopy. The model is described and the results of simulations for three representative canopy types are discussed. The dependence of albedo on irradiance distribution predicted by the model agrees well with established theory. Key words: albedo, modeling, vegetation canopy, climatology.] |
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Keywords: | forest-tundra treeline geostatistical modeling Hudson Bay boreal forest |
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