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- Title
The Influence of ENSO and MJO on Drought in Different Ecological Geographic Regions in China.
- Authors
Zhou, Lei; Wang, Siyu; Du, Mingyi; Chen, Qiang; He, Congcong; Zhang, Jun; Zhu, Yinuo; Gong, Yiting; Brocca, Luca
- Abstract
Mastering the spatial and temporal differences of ENSO (EI Niño-Southern Oscillation) and MJO (Madden–Julian Oscillation) and their influence on drought is very important for accurately monitoring and forecasting drought. In this study, spatiotemporal characteristics and variability of the impact of ENSO and MJO on drought were analyzed from the perspectives of meteorological drought and agricultural drought through temporal and spatial correlation analyses of China's 48 eco-geographical regions. The results show a strong correlation between drought and ENSO and MJO in general. The spatial correlation coefficients are different, and the response of extreme events varies in different regions. The influence of ENSO and MJO on agricultural drought is higher than that on meteorological drought. ENSO and MJO have a considerable influence on agricultural drought in regions such as the Qinghai-Tibet Plateau and Xinjiang, with the highest correlation coefficient of 0.72. A significant influence of ENSO and MJO on meteorological drought was found in the Jiangnan region with the highest correlation coefficient of 0.40. In addition, agricultural drought shows a significant time lag in response to ENSO events. When the lag time is six months, the time series presents the highest correlation coefficient with the mean value of the correlation coefficient reaching 0.38 and the maximum value reaching 0.75. This research is of great significance for understanding the spatiotemporal correlation between climate patterns and drought on a large regional scale and it provides further insights into the teleconnection mechanisms of drought.
- Subjects
XINJIANG Uygur Zizhiqu (China); CHINA; DROUGHT management; ECOLOGICAL regions; EL Nino; DROUGHT forecasting; MADDEN-Julian oscillation; DROUGHTS; TELECONNECTIONS (Climatology)
- Publication
Remote Sensing, 2021, Vol 13, Issue 5, p875
- ISSN
2072-4292
- Publication type
Article
- DOI
10.3390/rs13050875