Change in terrestrial ecosystem water‐use efficiency over the last three decades

蒸散量 环境科学 蒸腾作用 生态系统 初级生产 用水效率 纬度 气候变化 大气科学 气孔导度 水循环 植被(病理学) 陆地生态系统 气候学 降水 生产力 全球变化 光合作用 自然地理学 生态学 地理 生物 植物 地质学 气象学 经济 病理 宏观经济学 医学 大地测量学
作者
Mengtian Huang,Shilong Piao,Yan Sun,Philippe Ciais,Lei Cheng,Jiafu Mao,Benjamin Poulter,Xiaoying Shi,Zhenzhong Zeng,Ying‐Ping Wang
出处
期刊:Global Change Biology [Wiley]
卷期号:21 (6): 2366-2378 被引量:331
标识
DOI:10.1111/gcb.12873
摘要

Defined as the ratio between gross primary productivity (GPP) and evapotranspiration (ET), ecosystem-scale water-use efficiency (EWUE) is an indicator of the adjustment of vegetation photosynthesis to water loss. The processes controlling EWUE are complex and reflect both a slow evolution of plants and plant communities as well as fast adjustments of ecosystem functioning to changes of limiting resources. In this study, we investigated EWUE trends from 1982 to 2008 using data-driven models derived from satellite observations and process-oriented carbon cycle models. Our findings suggest positive EWUE trends of 0.0056, 0.0007 and 0.0001 g C m(-2) mm(-1) yr(-1) under the single effect of rising CO2 ('CO2 '), climate change ('CLIM') and nitrogen deposition ('NDEP'), respectively. Global patterns of EWUE trends under different scenarios suggest that (i) EWUE-CO2 shows global increases, (ii) EWUE-CLIM increases in mainly high latitudes and decreases at middle and low latitudes, (iii) EWUE-NDEP displays slight increasing trends except in west Siberia, eastern Europe, parts of North America and central Amazonia. The data-driven MTE model, however, shows a slight decline of EWUE during the same period (-0.0005 g C m(-2) mm(-1) yr(-1) ), which differs from process-model (0.0064 g C m(-2) mm(-1) yr(-1) ) simulations with all drivers taken into account. We attribute this discrepancy to the fact that the nonmodeled physiological effects of elevated CO2 reducing stomatal conductance and transpiration (TR) in the MTE model. Partial correlation analysis between EWUE and climate drivers shows similar responses to climatic variables with the data-driven model and the process-oriented models across different ecosystems. Change in water-use efficiency defined from transpiration-based WUEt (GPP/TR) and inherent water-use efficiency (IWUEt , GPP×VPD/TR) in response to rising CO2 , climate change, and nitrogen deposition are also discussed. Our analyses will facilitate mechanistic understanding of the carbon-water interactions over terrestrial ecosystems under global change.
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