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Enhanced soil moisture–temperature coupling could exacerbate drought under net-negative emissions

Sanjit Kumar Mondal, Soon‐Il An, Seung‐Ki Min, Tong Jiang, Buda Su

2024npj Climate and Atmospheric Science21 citationsDOIOpen Access PDF

Abstract

Our understanding of drought evolution and land-atmosphere interactions under climate mitigation scenarios remains limited. Here, we analyzed future drought under net-zero and net-negative emission scenarios using the Community Earth System Model version 2, particularly focusing on three atmospheric CO 2 states: linearly increases, decreases, and a return to the initial state. Interestingly, results revealed that net-zero emissions are more effective for drought mitigation than net-negative targets. Drying trends and drought characteristics — such as the duration, frequency, intensity, and area expansion are prominently increased under net-negative emissions due to higher potential evapotranspiration (PET). This is because the soil moisture and temperature couplings are stronger over drought regions and years, especially under net-negative forcing, with notable impacts in Central Africa and South Asia. Nevertheless, both target scenarios offer regional benefits, such as weakened dryness. This suggests that mitigating CO 2 alone may not be sufficient to manage future droughts, highlighting the need for advanced water management strategies.

Topics & Concepts

Environmental scienceMoistureCoupling (piping)Water contentClimate changeNet (polyhedron)Atmospheric sciencesSoil scienceMaterials scienceEcologyGeotechnical engineeringMeteorologyGeologyBiologyGeographyMathematicsGeometryMetallurgyPlant Water Relations and Carbon DynamicsClimate variability and modelsHydrology and Drought Analysis
Enhanced soil moisture–temperature coupling could exacerbate drought under net-negative emissions | Litcius