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Flash droughts in a hotspot region: Spatiotemporal patterns, possible climatic drivings and ecological impacts
Weather and Climate Extremes ( IF 6.1 ) Pub Date : 2024-06-01 , DOI: 10.1016/j.wace.2024.100700 Jiahao Sun , Qingsong Zhang , Xuemei Liu , Jingxuan Sun , Liwen Chen , Yanfeng Wu , Boting Hu , Guangxin Zhang
Weather and Climate Extremes ( IF 6.1 ) Pub Date : 2024-06-01 , DOI: 10.1016/j.wace.2024.100700 Jiahao Sun , Qingsong Zhang , Xuemei Liu , Jingxuan Sun , Liwen Chen , Yanfeng Wu , Boting Hu , Guangxin Zhang
Northeast China, recognized as a global flash drought hotspot and a region of nationally important commercial grains and ecological fragility, is highly susceptible to the profound impacts of droughts on both food security and ecological safety. However, the regional-scale characteristics, possible causes and impacts of flash droughts across Northeast China are rarely investigated. Soil moisture data from 2000 to 2022 were utilized to identify the onset, frequency and duration of flash droughts using the quantile method. The spatial trajectories of flash droughts were determined based on the patch-scale centroid transfers. Further, the possible drivings and ecological impacts of flash droughts were analyzed using datasets of climatic variables and gross primary productivity. We found that flash drought coverage with short onset (1- pentad onset) was generally larger than that with long onset (2-, 3- and 4-pentad onset). The affected area of flash droughts generally decreased, while the onset speed increased over the past two decades. Flash droughts frequently occurred the intersection of western Jilin Province, southern Inner Mongolia Autonomous Region, and northern Liaoning Province but with short duration. Compared with 2001–2011, the start, middle and end centroids of flash droughts in 2012–2021 showed more spatial dynamic changes, mainly shifting towards the northeast-southwest and southeast-northwest directions. The onset of flash drought due to potential evapotranspiration, temperature, precipitation deficit, and vapor pressure anomalies account for an average of 33%, 28%, 22%, and 16%, respectively. However, the contributions of dominant meteorological factors and their combinations varied remarkably in different sub-regions. Long onset flash droughts exhibited larger impact on GPP than short onset flash droughts. This study highlights that due to climate change, the affected area of flash droughts in hotspot regions decreased, but the onset speed and spatial dynamics increased, and followed by a more severe ecological impact of short-onset flash drought. Therefore, it is imperative to incorporate the increasing impacts of flash droughts, which is critical to ensuring regional food security and ecological safety in the Northeast China.
更新日期:2024-06-01