Spatial and Temporal Variations of Potential Evapotranspiration in the Loess Plateau of China During 1960

Spatial and Temporal Variations of Potential Evapotranspiration in the Loess Plateau of China During 1960–2017

Congjian Sun / Zhenjing Zheng / Wei Chen / Yuyang Wang

Potential evapotranspiration (ET₀) is an integral component of the hydrological cycle and the global energy balance, and its long-term variation is of much concern in climate change studies. The Loess Plateau is an important area of agricultural civilization and water resources research. This study analyzed the spatial and temporal evolution processes and influential parameters of ET₀ at 70 stations in different topographical areas of the Chinese Loess Plateau (CLP). Using the Mann−Kendall trend, Cross wavelet transform, and the ArcGIS platform, the ET₀ of each station was quantified using the Penman−Monteith equation, and the effects of climatic factors on ET₀ were assessed by analyzing the correlation coefficients and contribution rates of the climatic factors. The results showed that: (1) the overall trend of the ET₀ in different terrains of the Loess Plateau is consistent, however, the ET₀ values differ; the hill region (HR) has the highest ET₀, followed by the valley region (VR), and the mountain region (MR) has the lowest, and ET₀ changes differ between seasons. (2) Spatial distribution characteristics of multiyear mean ET₀ in the study are as follows: the ET₀ values in mountain and hilly areas are decreasing from west to east, and the higher mean annual ET₀ value in the VR is mainly concentrated in the eastern CLP. (3) In the past 58 years, the annual mean and the seasonal ET₀ of the region showed increasing trends, however, differences in different terrains were obvious. (4) ET₀ has significant correlations with El Niño−Southern Oscillation (ENSO), Pacific−North American teleconnection (PNA), and Atlantic Multidecadal Oscillation (AMO). The resonance period of ET₀ and ENSO was 3−6 a, mainly in 1976−1985. The mean coherence phase angle was close to 360°, indicating that ET₀ lags behind PNA by approximately 2−6 a; ET₀ has a very strong positive correlation with AMO. (5) Relative humidity (RH) is the main influencing factor of ET₀ change in the Loess Plateau. Temperature (T) variation has the highest contribution rate (42%) to the regional ET₀ variation in the entire CLP. We should pay more attention to the variation of evaporation under future climate change, especially temperature change.