A comparative study of the land-atmosphere energy and water exchanges over the Tibetan Plateau and the Yangtze River RegionOA
正确认识不同区域能量和水分循环特征是研究局地地气相互作用及准确预测区域天气,气候变化的关键.为了研究属于干旱/半干旱气候的青藏高原(TP)和湿润/半湿润气候的长江流域(YRR)之间地表能量和水分交换的异同,本文对比分析了两个区域8个不同地表类型(包括高山荒漠,高山草地,(平原)城市和(平原)草地等)观测站点的地表辐射和能量通量数据.结果显示:(1)TP由于高原大气层稀薄且空气洁净,年平均入射短波辐射为251.3W m^(-2),是YRR的1.7倍.加之高原地表反照率高导致反射辐射(59.6 W m^(-2))是YRR的2.87倍.入射及出射的长波辐射为231.5和338.0 W m^(-2),分别为YRR的0.64和0.83.而两个区域的净辐射差异不大;(2)草地站更多的潜热释放使得地表总加热效率高于城市和高山荒漠,TP和YRR的草地站的年平均潜热分别为35.0和38.8 W m^(-2),而植被稀疏且土壤干燥的高山荒漠地区感热最大,年平均感热为42.1 W m^(-2);其次是城市下垫面,其年平均感热为37.7 W m^(-2).研究结果揭示了不同气候背景下典型下垫面地气相互作用特征,为地气相互作用过程深入分析奠定了基础.
Nan Yao;Yaoming Ma;Binbin Wang;Jun Zou;Jianning Sun;Zhipeng Xie;
Land–Atmosphere Interaction and Its Climatic Effects Group,State Key Laboratory of Tibetan Plateau Earth System,Environment and Resources(TPESER),Institute of Tibetan Plateau Research,Chinese Academy of Sciences,Beijing,China College of Earth and Planetary Sciences,University of Chinese Academy of Sciences,Beijing,ChinaLand–Atmosphere Interaction and Its Climatic Effects Group,State Key Laboratory of Tibetan Plateau Earth System,Environment and Resources(TPESER),Institute of Tibetan Plateau Research,Chinese Academy of Sciences,Beijing,China College of Earth and Planetary Sciences,University of Chinese Academy of Sciences,Beijing,China College of Atmospheric Science,Lanzhou University,Lanzhou,China National Observation and Research Station for Qomolongma Special Atmospheric Processes and Environmental Changes,Dingri,China Kathmandu Center of Research and Education,Chinese Academy of Sciences,Beijing,China China–Pakistan Joint Research Center on Earth Sciences,Chinese Academy of Sciences,Islamabad,PakistanSchool of Atmospheric Sciences,Nanjing University,Nanjing,China Jiangsu Provincial Collaborative Innovation Center for Climate Change,Nanjing,China
地球科学
能量和水分交换辐射分量地表能量通量青藏高原长江流域不同地表类型
《Atmospheric and Oceanic Science Letters》 2024 (002)
P.52-59 / 8
supported by the National Natural Science Foundation of China,under the project entitled“The study of land-atmosphere water and heat flux interaction over the complex terrain of the north and south slopes of the Qomolangma region"[grant number 42230610];a Ministry of Science and Technology of China project called“Landatmosphere interaction and its climate effect of the Second Tibetan Plateau Scientific Expedition and Research Program"[grant number 2019QzKK0103];the Youth Innovation Promotion Association of the Chinese Academy of Sciences[2022069].
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