Litcius/Paper detail

The prevalent life cycle of agricultural flash droughts

Miguel A. Lovino, M. Josefina Pierrestegui, Omar V. Müller, Gabriela V. Müller, Ernesto Hugo Berbery

2024npj Climate and Atmospheric Science52 citationsDOIOpen Access PDF

Abstract

Abstract This work examines the characteristics and prevalent life cycle of agricultural flash droughts globally. Using ERA5 data, the study introduces a flash drought indicator based on soil water availability. This approach integrates root-zone soil moisture and hydraulic soil properties, such as field capacity and wilting point, to couple the rapid soil moisture depletion and plant water stress. Our findings reveal that agricultural flash droughts present their higher frequency predominantly during the critical growth periods of crops. Notably, these droughts exhibit a similar life cycle regardless of the location or climatic regime. The primary cause of the rapid soil moisture depletion is the precipitation deficit, but evapotranspiration also plays a significant role. In an energy-limited environment, evapotranspiration rapidly increases before the onset and decreases rapidly during the intensification period as the system becomes water-limited. Upon concluding the intensification period, most crops experience water stress, diminishing their yields.

Topics & Concepts

Flash (photography)AgricultureEnvironmental scienceGeographyArchaeologyArtVisual artsHydrology and Drought AnalysisClimate variability and modelsPlant Water Relations and Carbon Dynamics
The prevalent life cycle of agricultural flash droughts | Litcius