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西南地区植被水分利用效率时空演变及驱动机制OA

Spatiotemporal evolution and driving mechanism of vegetation water use efficiency in Southwest China

中文摘要英文摘要

基于2000-2020 年西南地区植被总初级生产力和蒸散发数据,运用趋势分析、偏相关分析和残差趋势分析等方法,探究了西南地区植被水分利用效率的时空演变规律及驱动机制.结果表明:2000-2020 年西南地区植被水分利用效率在时间上呈不显著下降趋势,下降速率为0.002 4 g/(m2·mm·a)(以碳含量计);在空间上总体呈南高北低的空间分布格局,空间分布受植被总初级生产力主导;植被水分利用效率与相对湿度、日照时数、气温呈正相关关系,与降水量和风速呈负相关关系;对于植被水分利用效率的变化,气候变化的相对贡献为 52.6%,人类活动的相对贡献为47.4%;在广西丘陵、云贵高原和四川盆地,气候变化和人类活动对植被水分利用效率以负向影响为主,而在横断山地和若尔盖高原,正向和负向影响占比相当.

Based on the total primary productivity and evapotranspiration data of vegetation in Southwest China from 2000 to 2020,this study used methods such as trend analysis,partial correlation analysis,and residual trend analysis to explore the spatiotemporal evolution laws and driving mechanisms of vegetation water use efficiency in Southwest China.The results showed that from 2000 to 2020,the vegetation water use efficiency in Southwest China showed a non-significant downward trend over time,with a decrease rate of 0.0024 g/(m2·mm·a)(in terms of carbon content).The overall spatial distribution pattern is high in the south and low in the north,and the spatial distribution is dominated by the total primary productivity of vegetation.The vegetation water use efficiency is positively correlated with relative humidity,sunshine hours,and temperature,and negatively correlated with precipitation and wind speed.The relative contribution of climate change to changes in vegetation water use efficiency is 52.6%,while the relative contribution of human activities is 47.4%.Climate change and human activities have a negative impact on vegetation water use efficiency in Guangxi hills,the Yunnan-Guizhou Plateau and Sichuan Basin,while the positive and negative impacts in Hengduan Mountains and Ruoergai Plateau account for the same proportion.

靖娟利;覃世萍;王永锋;蓝肖玉;郭文焱

桂林理工大学测绘地理信息学院||广西生态时空大数据感知服务重点实验室桂林理工大学测绘地理信息学院桂林理工大学测绘地理信息学院桂林理工大学测绘地理信息学院桂林理工大学测绘地理信息学院

植被水分利用效率时空演变气候变化人类活动西南地区

vegetation water use efficiencyspatiotemporal evolutionclimate changehuman activitiesSouthwest China

《水资源保护》 2026 (2)

89-99,11

国家自然科学基金项目(42161028)

10.3880/j.issn.1004-6933.2026.02.010

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