Publication Details

Albedo estimates for land surface models and support for a new paradigm based on foliage nitrogen concentration

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Hollinger, D.Y.; Ollinger, S.V.; Richardson, A.D.; Meyers, T.P.; Dails, D.B.; Martin, M.E.; Scott, N.A.; Arkebauer, T.J.; Baldocchi, D.D.; Clark, K.L.; Curtis, P.S.; Davis, K.J.; Desai, A.R.; Dragoni, D.; Goulden, M.L.; Gu, L.; Katul, G.G.; Pallardy, S.G.; Paw U, K.T.; Schmid, H.P.; Stoy, P.C.; Suyker, A.E.; Verma, S.B.

Year Published

2010

Publication

Global Change Biology. 16: 696-710.

Abstract

Vegetation albedo is a critical component of the Earth’s climate system, yet efforts to evaluate and improve albedo parameterizations in climate models have lagged relative to other aspects of model development. Here, we calculated growing season albedos for deciduous and evergreen forests, crops, and grasslands based on over 40 site-years of data from the AmeriFlux network and compared them with estimates presently used in the land surface formulations of a variety of climate models. Generally, the albedo estimates used in land surface models agreed well with this data compilation. However, a variety of models using fixed seasonal estimates of albedo overestimated the growing season albedo of northerly evergreen trees. In contrast, climatemodels that rely on a common two-stream albedo submodel provided accurate predictions of boreal needle-leaf evergreen albedo but overestimated grassland albedos.

Citation

Hollinger, D.Y.; Ollinger, S.V.; Richardson, A.D.; Meyers, T.P.; Dails, D.B.; Martin, M.E.; Scott, N.A.; Arkebauer, T.J.; Clark, K.L. 2010. Albedo estimates for land surface models and support for a new paradigm based on foliage nitrogen concentration. Global Change Biology. 16(2): 696-710.

Last updated on: November 29, 2010