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Time-lag effects of vegetation responses to soil moisture evolution: a case study in the Xijiang basin in South China |
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| Authors: | |
| Institution: | 1.Center for Agricultural Water Research in China,China Agricultural University,Beijing,China;2.Department of Civil Engineering,The University of Hong Kong,Pokfulam,China;3.Shenzhen Institutes of Advanced Technology,Chinese Academy of Sciences,Shenzhen,China;4.School of Civil and Environmental Engineering,The University of New South Wales,Sydney,Australia;5.Department of Land Air and Water Resources,University of California,Davis,USA |
| Abstract: | The time-lag effects of droughts on vegetation responses vary significantly across a large-scale river basin. The spatio-temporal response characteristics obtained are important for decision making processes on the allocation and transportation of regional water resources in mitigating drought impacts. Here we consider the Xijiang (West River) basin in South China as a case study, which has experienced severe drought events since the beginning of the 21st century. A threshold level approach is employed to identify the major drought events over the basin in the first decade of this century. The vegetation responses to land soil water evolution are examined, particularly for the severe drought events occurred. The time-lag effects of the vegetation responses within the basin range within 0–96 days. The lower reaches of the headwater sub-basins in the west part of the Xijiang basin are identified as the regions with short time-lag effects. The enhanced vegetation index (EVI) shows consistent responses to the soil water evolution in conjunction with the climate aridity in this area, which is the drought-vulnerable area in the Xijiang basin. |
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