Land use impacts the environmental benefits of wind energy farms in China

Journal Article

Title: Land use impacts the environmental benefits of wind energy farms in China

Author:

Xu, K.; Zhu, H.; Zhang, S.; Wang, M.; Li, W.; Zhou, W.; Li, S.; Shi, Z.; Chang, J.

Publication Date:

November 17, 2025

Journal:

Nature Communications Earth & Environment

Volume:

Issue:

905

Affiliation

Zhejiang University, Tsinghua University, Renmin University of China, Peking University

Technology:

Wind Energy, Land-Based Wind

Receptor:

Human Dimensions

Language:

English

Document Access

Website:

External Link

Attachment:

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Citation

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Xu, K.; Zhu, H.; Zhang, S.; Wang, M.; Li, W.; Zhou, W.; Li, S.; Shi, Z.; Chang, J. (2025). Land use impacts the environmental benefits of wind energy farms in China. Nature Communications Earth & Environment, 6(905) https://doi.org/10.1038/s43247-025-02833-w

@article{Xu-2025-,
author = {Xu, K and Zhu, H and Zhang, S and Wang, M and Li, W and Zhou, W and Li, S and Shi, Z and Chang, J},
title = {Land use impacts the environmental benefits of wind energy farms in China},
journal = {Nature Communications Earth & Environment},
year = {2025},
month = {nov},
volume = {6},
number = {905},
doi = {10.1038/s43247-025-02833-w},
url = {https://www.nature.com/articles/s43247-025-02833-w},
keywords = {Wind Energy, Land-Based Wind, Human Dimensions, Climate Change},
}

Export Citation to BibTex

TY - JOUR
TI - Land use impacts the environmental benefits of wind energy farms in China
AU - Xu, K
AU - Zhu, H
AU - Zhang, S
AU - Wang, M
AU - Li, W
AU - Zhou, W
AU - Li, S
AU - Shi, Z
AU - Chang, J
T2 - Nature Communications Earth & Environment
AB - Wind energy plays a vital role in meeting rising electricity demand and climate goals, but its land-use footprints from vegetation removal, construction, and road sprawl may overestimate greenhouse gas (GHG) mitigation benefits. Here we used life cycle assessment (LCA) to explore the land-use impacts on GHG emissions and energy performance for three typical wind farms located in forest, grassland and desert ecosystems. We incorporated vegetation/soil removal during the installation stage, and the loss of additional carbon sink capacity during the operation and maintenance stage. Land-use change (LUC) contributed 37.9% of the life cycle emissions for the forest farm, while much lower for the grassland and desert farm (4.3% and 1.2%, respectively). Grassland deployment offered a triple win with highest energy return, lowest land-use intensity, and lowest GHG emissions. With mitigation measures, all farms achieved low emission intensity (below 5 g CO2-eq kWh−1), greatly reducing land-use and ecosystem-based emission intensity differences.
DA - 2025/11//
PY - 2025
VL - 6
IS - 905
UR - https://www.nature.com/articles/s43247-025-02833-w
DO - 10.1038/s43247-025-02833-w
LA - English
KW - Wind Energy
KW - Land-Based Wind
KW - Human Dimensions
KW - Climate Change
ER -

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Abstract

Wind energy plays a vital role in meeting rising electricity demand and climate goals, but its land-use footprints from vegetation removal, construction, and road sprawl may overestimate greenhouse gas (GHG) mitigation benefits. Here we used life cycle assessment (LCA) to explore the land-use impacts on GHG emissions and energy performance for three typical wind farms located in forest, grassland and desert ecosystems. We incorporated vegetation/soil removal during the installation stage, and the loss of additional carbon sink capacity during the operation and maintenance stage. Land-use change (LUC) contributed 37.9% of the life cycle emissions for the forest farm, while much lower for the grassland and desert farm (4.3% and 1.2%, respectively). Grassland deployment offered a triple win with highest energy return, lowest land-use intensity, and lowest GHG emissions. With mitigation measures, all farms achieved low emission intensity (below 5 g CO2-eq kWh−1), greatly reducing land-use and ecosystem-based emission intensity differences.