Flash droughts in a hotspot region: Spatiotemporal patterns, possible climatic drivings and ecological impacts

IF 6.1 1区 地球科学 Q1 METEOROLOGY & ATMOSPHERIC SCIENCES
Jiahao Sun , Qingsong Zhang , Xuemei Liu , Jingxuan Sun , Liwen Chen , Yanfeng Wu , Boting Hu , Guangxin Zhang
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引用次数: 0

Abstract

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.

热点地区的山洪暴发:时空模式、可能的气候驱动因素和生态影响
中国东北是全球公认的暴旱热点地区,也是全国重要的商品粮产区和生态脆弱区,极易受到干旱对粮食安全和生态安全的深刻影响。然而,对中国东北地区山洪灾害的区域尺度特征、可能的成因和影响却鲜有研究。本研究利用 2000 年至 2022 年的土壤水分数据,采用量子方法识别了山洪灾害的发生时间、频率和持续时间。根据斑块尺度中心点转移确定了山洪灾害的空间轨迹。此外,还利用气候变量和总初级生产力数据集分析了山洪灾害的可能驱动因素和生态影响。我们发现,短历时(1-五历时)的山洪灾害覆盖面一般大于长历时(2-3-4历时)的山洪灾害覆盖面。近 20 年来,山洪灾害的影响面积普遍减小,而发生速度则有所加快。吉林省西部、内蒙古自治区南部和辽宁省北部交汇处经常发生山洪灾害,但持续时间较短。与2001-2011年相比,2012-2021年山洪灾害的起点、中点和终点中心点在空间上呈现出较大的动态变化,主要向东北-西南和东南-西北方向移动。潜在蒸散量、气温、降水亏缺和水汽压异常导致的山洪灾害发生平均占比分别为33%、28%、22%和16%。然而,在不同的次区域,主要气象因子及其组合的贡献率差异显著。长发山洪干旱比短发山洪干旱对 GPP 的影响更大。该研究表明,由于气候变化,热点地区的山洪灾害影响面积减小,但发生速度和空间动态变化加剧,短发山洪灾害对生态的影响更加严重。因此,亟需将日益严重的山洪灾害影响纳入考虑范围,这对确保东北地区粮食安全和生态安全至关重要。
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来源期刊
Weather and Climate Extremes
Weather and Climate Extremes Earth and Planetary Sciences-Atmospheric Science
CiteScore
11.00
自引率
7.50%
发文量
102
审稿时长
33 weeks
期刊介绍: Weather and Climate Extremes Target Audience: Academics Decision makers International development agencies Non-governmental organizations (NGOs) Civil society Focus Areas: Research in weather and climate extremes Monitoring and early warning systems Assessment of vulnerability and impacts Developing and implementing intervention policies Effective risk management and adaptation practices Engagement of local communities in adopting coping strategies Information and communication strategies tailored to local and regional needs and circumstances
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