Litcius/Paper detail

Amplified local cooling effect of forestation in warming Europe

Yitao Li, Jun Ge, Hua Wu, Ronglin Tang, Yuanliang Cheng, Xiangyang Liu, Yi Wang, Wei Zhao, Caixia Gao, Si‐Bo Duan, Qian Shi, Pei Leng, Enyu Zhao, Guangjian Yan, Xiaoning Song, Chenghu Zhou, Zhao-Liang Li

2025Nature Communications9 citationsDOIOpen Access PDF

Abstract

Forests exhibit local cooling or warming effects compared to adjacent openlands through biophysical processes. These temperature effects are predicted by earth system models to evolve in response to climate change. However, such temporal patterns remain unconstrained by observations and have not been detected in historical records. Here, by comparing the satellite observations of spatially nearby forests and openlands over the last two decades, we quantify temporal trends in local land surface temperature (LST) effects of forest change in Europe. During winter, the daytime warming effect of potential forestation weakens and reverses to cooling (−0.142 K/decade) with decreasing snow cover, as forests show less pronounced surface darkening trends than openlands. During summer, the daytime cooling effect intensifies (−0.188 K/decade) because forests remain more physiologically and hydrologically resilient to increasing soil dryness. These negative trends are broadly supported by state-of-the-art earth system models, though substantial inter-model variability persists. Given continued climate change, we emphasize the need to consider the dynamics of biophysical effects when comprehensive forest-related climate policies are formed. The authors present evidence based on satellite observations that the local cooling effect of potential forestation in Europe has intensified over the past two decades, driven by the reduced winter snow cover and declining summer soil moisture under global warming.

Topics & Concepts

Environmental scienceDaytimeClimate changeAfforestationSnowAtmospheric sciencesGlobal warmingClimate modelClimatologyEffects of global warmingAir temperatureGreenhouse effectClimate systemGreenhouse gasSatelliteGlobal changePhysical geographyEcologySnowmeltTemporal scalesLand useAtmospheric temperatureLand use, land-use change and forestrySpatial ecologySoil waterPlant Water Relations and Carbon DynamicsTree-ring climate responsesUrban Heat Island Mitigation