Is the Pearl River basin, China, drying or wetting? Seasonal variations, causes and implications

Soil moisture plays crucial roles in the hydrological cycle and is also a critical link between land surface and atmosphere. The Pearl River basin (PRb) is climatically subtropical and tropical and is highly sensitive to climate changes. In this study, seasonal soil moisture changes across the PRb w...

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Bibliographic Details
Published in:Global and planetary change 2018-07, Vol.166, p.48-61
Main Authors: Zhang, Qiang, Li, Jianfeng, Gu, Xihui, Shi, Peijun
Format: Article
Language:English
Subjects:
China
Climate change
Seasonal variation
Soil moisture
Variable Infiltration Capacity model
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Summary:Soil moisture plays crucial roles in the hydrological cycle and is also a critical link between land surface and atmosphere. The Pearl River basin (PRb) is climatically subtropical and tropical and is highly sensitive to climate changes. In this study, seasonal soil moisture changes across the PRb were analyzed using the Variable Infiltration Capacity (VIC) model forced by the gridded 0.5° × 0.5° climatic observations. Seasonal changes of soil moisture in both space and time were investigated using the Mann-Kendall trend test method. Potential influencing factors behind seasonal soil moisture changes such as precipitation and temperature were identified using the Maximum Covariance Analysis (MCA) technique. The results indicated that: (1) VIC model performs well in describing changing properties of soil moisture across the PRb; (2) Distinctly different seasonal features of soil moisture can be observed. Soil moisture in spring decreased from east to west parts of the PRb. In summer however, soil moisture was higher in east and west parts but was lower in central parts of the PRb; (3) A significant drying trend was identified over the PRb in autumn, while no significant drying trends can be detected in other seasons; (4) The increase/decrease in precipitation can generally explain the wetting/drying tendency of soil moisture. However, warming temperature contributed significantly to the drying trends and these drying trends were particularly evident during autumn and winter; (5) Significant decreasing precipitation and increasing temperature combined to trigger substantially decreasing soil moisture in autumn. In winter, warming temperature is the major reason behind decreased soil moisture although precipitation is in slightly decreasing tendency. Season variations of soil moisture and related implications for hydro-meteorological processes in the subtropical and tropical river basins over the globe should arouse considerable human concerns. •Insightful inspection of seasonal changes in soil moisture and underlying causes is conducted.•Areas without annual changes in soil moisture are detected with drying trends at the seasonal scale.•Contributions of precipitation and temperature to changes in soil moisture vary in seasons.•Seasonal changes in soil moisture cause larger impacts on agricultural productions.
ISSN:0921-8181
1872-6364
DOI:10.1016/j.gloplacha.2018.04.005