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Global dryland aridity changes indicated by atmospheric, hydrological, and vegetation observations at meteorological stations

Haiyang Shi, Geping Luo, Olaf Hellwich, Xiufeng He, Alishir Kurban, Philippe De Maeyer, Tim Van de Voorde

2023Hydrology and earth system sciences11 citationsDOIOpen Access PDF

Abstract

Abstract. In the context of global warming, an increase in atmospheric aridity and global dryland expansion under the future climate has been expected in previous studies. However, this conflicts with observed greening over drylands and the insignificant increase in hydrological and ecological aridity from the ecohydrology perspective. Combining climatic, hydrological, and vegetation data, this study evaluated global dryland aridity changes at meteorological stations from 2003 to 2019. A decoupling between atmospheric, hydrological, and vegetation aridity was found. Atmospheric aridity represented by the vapor pressure deficit (VPD) increased, hydrological aridity indicated by machine-learning-based precipitation minus evapotranspiration (P − ET) data did not change significantly, and ecological aridity represented by the leaf area index (LAI) decreased. P − ET showed nonsignificant changes in most of the dominant combinations of the VPD, LAI, and P − ET. This study highlights the added value of using station-scale data to assess dryland change as a complement to results based on coarse-resolution reanalysis data and land surface models.

Topics & Concepts

Aridity indexEvapotranspirationEnvironmental scienceAridVegetation (pathology)EcohydrologyNormalized Difference Vegetation IndexPrecipitationClimatologyClimate changeAtmospheric sciencesAlbedo (alchemy)Leaf area indexContext (archaeology)Hydrology (agriculture)EcosystemGeographyEcologyMeteorologyGeologyGeotechnical engineeringArt historyBiologyPathologyMedicineArchaeologyArtPerformance artPlant Water Relations and Carbon DynamicsClimate variability and modelsHydrology and Watershed Management Studies