Spatial and Temporal Variation in Reference Evapotranspiration and Its Climatic Drivers in Northeast China: Fid-Bau Portal

Spatial and Temporal Variation in Reference Evapotranspiration and Its Climatic Drivers in Northeast China

Xiaoshuang Liu / Chenxi Liu / Xiaoyu Liu / Cheng Li / Linshan Cai / Manyu Dong

Reference evapotranspiration (ET₀) is an important component of the global water cycle, and its long-term change directly influences the regional water supply and demand balance. Under the background of global change, investigating spatiotemporal trends in ET₀ and its response to climate change is of great importance for the conservation and rational utilization of water resources. Based on daily climate data from 91 meteorological stations during 1960–2017 in Northeast China, this study calculated ET₀ using the Penman-Monteith method and analyzed its spatiotemporal change trends and primary driving factors. The results show the following: (1) During 1960–2017, the annual ET₀ in Northeast China showed a nonsignificant upward trend at a rate of 1.45 mm/10a. A mutation point of ET₀ was detected in 1993. From 1960 to 1993, ET₀ experienced a significant decrease (p < 0.1), while annual air temperature showed a significant upward trend (p < 0.01), which indicated the appearance of an evaporation paradox. This was because the remarkable drop in wind speed and sunshine duration played a great role in the reduction of ET₀. From 1994 to 2017, the evaporation paradox disappeared. (2) ET₀ trend in Northeast China was significantly and positively related to altitude. In the lower altitude regions (<500 m), ET₀ generally decreased, while in the higher altitude areas (>500 m), ET₀ displayed an upward trend. (3) Based on the results of multiple regression analysis, relative humidity was the primary driving factor for ET₀ trends in Northeast China during 1960–2017. At diverse altitudes, the primary climatic factors influencing ET₀ were different. In high-altitude areas (>500 m), the change in ET₀ was mainly influenced by relative humidity, while wind speed was the primary driving factor at low altitudes (<500 m).