Litcius/Paper detail

Meteorological flash droughts risk projections based on CMIP6 climate change scenarios

Vijay Sreeparvathy, V. V. Srinivas

2022npj Climate and Atmospheric Science77 citationsDOIOpen Access PDF

Abstract

Abstract Meteorological flash droughts (MFDs) are sub-seasonal-to-seasonal drought phenomena characterized by rapid onset/intensification. This study assesses the changes in trends and hotspot regions of MFDs for the present and five future CMIP6 SSP forcing scenarios (SSP-FS) at global-, continental- and regional-scales. Analysis with 12 GCMs indicates that globally, frequency, duration and severity of MFDs are projected to increase ~20–50%, 20–58%, and 26–62%, respectively, with the highest occurrence probability during the summer season. The MFD hotspot regions appeared prominent in arid and semi-arid zones. MFD exposure risk is projected to exceed ~1.5 folds in most continents, with the highest risk in the Indian sub-continent. Furthermore, in Europe and South America, which are currently less impacted by MFDs, a considerable increase in hotspot regions (~122–127%) is projected under the warmest SSP-FS. The LULC-classes and elevation range most vulnerable to MFDs, and regional potential hydrometeorological drivers that trigger the development of MFDs are identified.

Topics & Concepts

Hotspot (geology)ClimatologyAridEnvironmental scienceHydrometeorologyFlash floodClimate changeGeographyPhysical geographyMeteorologyPrecipitationGeologyOceanographyFlood mythPaleontologyGeophysicsArchaeologyHydrology and Drought AnalysisClimate variability and modelsFlood Risk Assessment and Management