Litcius/Paper detail

Climate change has increased global evaporative demand except in South Asia

Saeed Karimzadeh, Arman Ahmadi, Dennis Baldocchi, Joshua B. Fisher

2025Communications Earth & Environment11 citationsDOIOpen Access PDF

Abstract

Abstract Climate change alters how strongly the atmosphere draws water from the land, yet a consistent global assessment of this evaporative demand has been lacking. Here, we analyze 45 years of climate data and global models to quantify trends in the key drivers—air temperature, humidity, radiation, wind speed, and cloud cover—that determine the atmosphere’s drying power. We find that evaporative demand has increased worldwide, indicating a stronger atmospheric thirst, except in South Asia, where it has declined. There, widespread irrigation has increased soil and air moisture, enhanced cloud formation, and reduced sunlight reaching the surface, counteracting the global signal. These contrasting trends reveal how human water use can locally reshape the climate’s influence on the water cycle.

Topics & Concepts

Climate changeEnvironmental scienceGlobal warmingAtmosphere (unit)ClimatologyGlobal changeEvaporative coolerAtmospheric sciencesAir temperatureSouth asiaIrrigationGlobal climateClimate modelWater resourcesGlobal temperatureEffects of global warmingCloud coverNatural resource economicsMeteorologyEvapotranspirationGeographyWater resource managementWater cycleGlobal SouthClimate variability and modelsWater-Energy-Food Nexus StudiesSolar-Powered Water Purification Methods