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Global Patterns, Trends, And Drivers Of Water Use Efficiency From 2000 To 2013, Bao-Lin Xue, Qinghua Guo, Alvarez Otto, Jingfeng Xiao, Shengli Tao, Le Li
Global Patterns, Trends, And Drivers Of Water Use Efficiency From 2000 To 2013, Bao-Lin Xue, Qinghua Guo, Alvarez Otto, Jingfeng Xiao, Shengli Tao, Le Li
Earth Systems Research Center
Water use efficiency (WUE; gross primary production [GPP]/evapotranspiration [ET]) estimates the tradeoff between carbon gain and water loss during photosynthesis and is an important link of the carbon and water cycles. Understanding the spatiotemporal patterns and drivers of WUE is helpful for projecting the responses of ecosystems to climate change. Here we examine the spatiotemporal patterns, trends, and drivers of WUE at the global scale from 2000 to 2013 using the gridded GPP and ET data derived from the Moderate Resolution Imaging Spectroradiometer (MODIS). Our results show that the global WUE has an average value of 1.70 g C/kg H2O …
Water Use Efficiency Of China's Terrestrial Ecosystems And Responses To Drought, Yibo Liu, Jingfeng Xiao, Weimin Ju, Shaoqiang Wang, Xiaocui Wu
Water Use Efficiency Of China's Terrestrial Ecosystems And Responses To Drought, Yibo Liu, Jingfeng Xiao, Weimin Ju, Shaoqiang Wang, Xiaocui Wu
Earth Systems Research Center
Water use efficiency (WUE) measures the trade-off between carbon gain and water loss of terrestrial ecosystems, and better understanding its dynamics and controlling factors is essential for predicting ecosystem responses to climate change. We assessed the magnitude, spatial patterns, and trends of WUE of China’s terrestrial ecosystems and its responses to drought using a process-based ecosystem model. During the period from 2000 to 2011, the national average annual WUE (net primary productivity (NPP)/evapotranspiration (ET)) of China was 0.79 g C kg−1 H2O. Annual WUE decreased in the southern regions because of the decrease in NPP and the increase in ET …