干旱区生态环境知识资源中心(Arid): Response of Vegetation and Soil Property Changes by Photovoltaic Established Stations Based on a Comprehensive Meta-Analysis

Arid

DOI	10.3390/land13040478
	Response of Vegetation and Soil Property Changes by Photovoltaic Established Stations Based on a Comprehensive Meta-Analysis
	Chen, Xiaoxin; Chen, Bojian; Wang, Yongdong; Zhou, Na; Zhou, Zhibin
通讯作者	Wang, YD ; Zhou, N
来源期刊	LAND
EISSN	2073-445X
出版年	2024
卷号	13 期号:4
英文摘要	Since the commencement of Sustainable Development Goals (SDGs), renewable energy has faced many challenges in reaching the target of SDGs, while the potential ecological impact on the environment cannot be ignored. The expansion of photovoltaic (PV) networks is raising concerns regarding the potential impact of large-scale PV power stations on local ecosystems. However, a comprehensive understanding of the specific responses of vegetation and soil factors to PV con-struction across different study locations is still lacking. To address this knowledge gap, we con-ducted a comprehensive meta-analysis of 28 studies internationally representing 31 observational points that evaluated 432 different vegetation and soil factor responses to the installation of PV power stations. We used piecewiseSEM to explore the responses of predictors/factors to the eco-logical environment. This study investigated the geographical and environmental conditions associated with PV construction and their responses to vegetation and soil factors, considering the advantages and disadvantages of PV power station construction in different ecosystems. The results indicate that (1) the response of the ecosystems to PV power station construction increased by 58.89%. Among these, the most significant improvement is in the desert, which accounts for 77.26%. Im-provement in temperate regions is 59.62%, while there is a decrease of 19.78% in boreal regions. Improvement in arid regions is 84.45%, while improvement in humid regions is 9.84%. (2) PV construction promotes SWC, vegetation diversity, vegetation coverage, and vegetation biomass, significantly enhancing vegetation productivity. (3) Among the different ecosystems, PV power station effects were most significant in deserts, while showing negative impacts on croplands. (4) Compared to below-panel treatments, between-panel treatments were more effective in improving ecological conditions. The study contributes to mitigating adverse effects associated with photovoltaic site development, offering insights into site selection planning for solar power stations and the advancement of the renewable energy sector.
英文关键词	desert ecological impact soil vegetation photovoltaic power station piecewiseSEM
类型	Article
语种	英语
开放获取类型	gold
收录类别	SSCI
WOS记录号	WOS:001210348200001
WOS关键词	SOLAR-ENERGY DEVELOPMENT ; ENVIRONMENTAL IMPACTS ; CARBON DYNAMICS ; LAND ; IMPROVEMENTS ; PLANTS
WOS类目	Environmental Studies
WOS研究方向	Environmental Sciences & Ecology
资源类型	期刊论文
条目标识符	http://119.78.100.177/qdio/handle/2XILL650/404794
推荐引用方式 GB/T 7714	Chen, Xiaoxin,Chen, Bojian,Wang, Yongdong,et al. Response of Vegetation and Soil Property Changes by Photovoltaic Established Stations Based on a Comprehensive Meta-Analysis[J],2024,13(4).
APA	Chen, Xiaoxin,Chen, Bojian,Wang, Yongdong,Zhou, Na,&Zhou, Zhibin.(2024).Response of Vegetation and Soil Property Changes by Photovoltaic Established Stations Based on a Comprehensive Meta-Analysis.LAND,13(4).
MLA	Chen, Xiaoxin,et al."Response of Vegetation and Soil Property Changes by Photovoltaic Established Stations Based on a Comprehensive Meta-Analysis".LAND 13.4(2024).