Authors
Wenping Yuan, Shuguang Liu, Guangsheng Zhou, Guoyi Zhou, Larry L Tieszen, Dennis Baldocchi, Christian Bernhofer, Henry Gholz, Allen H Goldstein, Michael L Goulden, David Y Hollinger, Yueming Hu, Beverly E Law, Paul C Stoy, Timo Vesala, Steven C Wofsy
Publication date
2007/4/10
Journal
Agricultural and Forest Meteorology
Volume
143
Issue
3-4
Pages
189-207
Publisher
Elsevier
Description
The quantitative simulation of gross primary production (GPP) at various spatial and temporal scales has been a major challenge in quantifying the global carbon cycle. We developed a light use efficiency (LUE) daily GPP model from eddy covariance (EC) measurements. The model, called EC-LUE, is driven by only four variables: normalized difference vegetation index (NDVI), photosynthetically active radiation (PAR), air temperature, and the Bowen ratio of sensible to latent heat flux (used to calculate moisture stress). The EC-LUE model relies on two assumptions: First, that the fraction of absorbed PAR (fPAR) is a linear function of NDVI; Second, that the realized light use efficiency, calculated from a biome-independent invariant potential LUE, is controlled by air temperature or soil moisture, whichever is most limiting. The EC-LUE model was calibrated and validated using 24,349 daily GPP estimates derived from …
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Scholar articles
W Yuan, S Liu, G Zhou, G Zhou, LL Tieszen… - Agricultural and Forest Meteorology, 2007