Litcius/Paper detail

Diverse vegetation responses to solar farm installation are also driven by climate change

Chuandong Wu, Hu Liu, Lemin Wei, Yang Yu, Wenzhi Zhao, Li Guo, Zhibin He, Ömer Yetemen, Dawen Yang

2025Communications Earth & Environment22 citationsDOIOpen Access PDF

Abstract

Solar farms play an integral role in the global energy transition and climate change mitigation. However, criticism has emerged, arguing that mitigating climate change cannot come at the expense of ecosystem degradation due to an ambiguous understanding of solar farms’ environmental impacts. Here we developed a harmonic regression model to conduct a nuanced global analysis of solar farms’ influences on vegetation. Results show that 52% of solar farms exhibited beneficial effects on vegetation coverage, with the highest enhancement (136.72%) found in regions where the aridity index is 0.39. However, changes in coverage are not triggered solely by solar farms; rather, there is a counterbalance between the contributions from climate change and from solar farms, implying that observed coverage changes could be stalled or even reversed in the future. Furthermore, plant functional type transition is an additional potential driver. Our findings could improve solar farm site selection and policies. Vegetation responses to solar farm installations are often attributed to the altered microclimates, but climate change also determines habitat changes and vegetation growth, according to an analysis that uses satellite data of enhanced vegetation index and harmonic regression model.

Topics & Concepts

Vegetation (pathology)Climate changeEnvironmental scienceClimatologyGeographyMeteorologyPhysical geographyEnvironmental resource managementEcologyGeologyBiologyPathologyMedicinePhotovoltaic Systems and SustainabilitySolar Radiation and PhotovoltaicsLight effects on plants