Quantitatively distinguishing the impact of solar photovoltaics programs on vegetation in dryland using satellite imagery

Xia, Zilong; Li, Yingjie; Zhang, Wei; Guo, Shanchuan; Zheng, Lilin; Jia, Nan; Chen, Ruishan; Guo, Xiaona; Du, Peijun

doi:10.1002/ldr.4783

Cited by 4 publications

(3 citation statements)

References 55 publications

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“…Nowak et al [131] called for collaboration between botanists and engineers in solar projects to preserve biological diversity and promote the trend of ecovoltaics. An additional benefit of vegetation within solar installations is carbon sequestration [132]; however, as noted by Lambert et al [133], several ecosystem functions in solar parks are limited, including carbon sequestration.…”

Section: Solar Panels and Urban Agriculturementioning

confidence: 99%

Advancements in Solar Panel Technology in Civil Engineering for Revolutionizing Renewable Energy Solutions—A Review

Vijayan,

Koda,

Sivasuriyan

et al. 2023

Energies

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Globally, solar energy has become a major contributor to the rapid adoption of renewable energy. Significant energy savings have resulted from the widespread utilization of solar energy in the industrial, residential, and commercial divisions. This review article comprises research conducted over the past 15 years (2008–2023), utilizing a comprehensive collection of 163 references. Significantly, a considerable focus is directed towards the period from 2020 to 2023, encompassing an extensive investigation into the latest developments in solar panel technology in civil engineering. The article examines the incorporation of solar panels into building designs and addresses installation-related structural considerations. In addition, the present review examines the applications of solar panels in terms of innovative infrastructure development applications of solar panels, such as photovoltaic parking lot canopies and photovoltaic noise barriers, which contribute to improved energy efficiency. It also emphasizes their role in water management systems, including water treatment plants, water pumping and irrigation systems, energy-efficient solar desalination technologies, and promoting sustainable water practices. In addition, this study examines how solar panels have been incorporated into urban planning, including smart cities and public parks, thereby transforming urban landscapes into greener alternatives. This study also examined the use of solar panels in building materials, such as façade systems and solar-powered building envelope solutions, demonstrating their versatility in the construction industry. This review explores the diverse applications of solar energy, which promotes sustainable practices in various industries. Owing to the ongoing research, solar energy holds great promise for a greener and cleaner future.

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Section: Solar Panels and Urban Agriculturementioning

confidence: 99%

Advancements in Solar Panel Technology in Civil Engineering for Revolutionizing Renewable Energy Solutions—A Review

Vijayan,

Koda,

Sivasuriyan

et al. 2023

Energies

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“…Remote sensing observations show that Chinese PV desert control projects have achieved positive greening benefits in desert areas (Xia, Li, Zhang, et al, 2022). Based on the significant environmental improvements, the compatibility of PV facilities with other dryland industries, such as cash-crop farming and grazing, is also being actively explored to deliver socioeconomic and environmental co-benefits (Xia et al, 2023). However, the physical characteristics of the site and the local climate have a big influence on the techno-ecological synergistic outcomes (Tanner et al, 2020).…”

Section: Introductionmentioning

confidence: 99%

Satellites Reveal Spatial Heterogeneity in Dryland Photovoltaic Plants' Effects on Vegetation Dynamics

Xia,

Li,

Guo

et al. 2024

Earth's Future

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Large‐scale photovoltaic (PV) plants are growing rapidly in drylands because of the rich solar radiation and vast unutilized land. The transformation of landscapes in dryland has threatened local fragile vegetation. Existing studies have investigated the issue by field observations and satellite data, yet the spatial differences in vegetation changes due to dryland PV plants deployment and underlying driving mechanisms remain poorly understood. In this study, Landsat Normalized Difference Vegetation Index data were used to assess the vegetation changes disturbed by PV plants in China's drylands. We further identified environmental factors affecting vegetation changes based on random forest regression model. Our findings reveal the spatial heterogeneity in the impact of PV plants on vegetation dynamics—PV plant deployment promoted the growth of vegetation in the vast majority of arid and hyper‐arid drylands, while it tends to cause vegetation decline in the sub‐humid and semi‐arid drylands. The impact of PV plants on vegetation dynamics depends on local environmental conditions. We found that deploying PV plants in areas with sparse vegetation, low humidity, and long sunshine duration is more likely to promote vegetation restoration. The findings and data maps with highly detailed information can help guide solar energy operators in siting and ecological restoration to enhance techno–ecological synergies in the future.

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“…The environmental impact of photovoltaic panels varies according to latitude and altitude [31]. Installing photovoltaics in arid areas reduces the solar radiation absorbed by the surface under the PV panels, which creates a cold island effect that affects the surrounding area of the photovoltaic power station [32], reduces water evaporation, and increases vegetation growth [33]. Different underlying surfaces have different natural conditions that alter the environmental effects of the photovoltaic panels.…”

Section: Introductionmentioning

confidence: 99%

Mapping Photovoltaic Panels in Coastal China Using Sentinel-1 and Sentinel-2 Images and Google Earth Engine

et al. 2023

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Photovoltaic (PV) panels convert sunlight into electricity, and play a crucial role in energy decarbonization, and in promoting urban resources and environmental sustainability. The area of PV panels in China’s coastal regions is rapidly increasing, due to the huge demand for renewable energy. However, a rapid, accurate, and robust PV panel mapping approach, and a practical PV panel classification strategy for large-scale applications have not been established. Here, we developed a new approach that uses spectral and textural features to identify and map the PV panels there were in coastal China in 2021 using multispectral instrument (MSI) and synthetic aperture radar (SAR) images, and the Google Earth Engine (GEE), to differentiate PV panels according to their underlying surface properties. Our 10-m-spatial-resolution PV panel map had an overall accuracy of 94.31% in 2021. There was 510.78 km2 of PV panels in coastal China in 2021, which included 254.47 km2 of planar photovoltaic (PPV) panels, 170.70 km2 of slope photovoltaic (SPV) panels, and 85.61 km2 of water photovoltaic (WPV) panels. Our resultant PV panel map provides a detailed dataset for renewable layouts, ecological assessments, and the energy-related Sustainable Development Goals (SDGs).

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Quantitatively distinguishing the impact of solar photovoltaics programs on vegetation in dryland using satellite imagery

Cited by 4 publications

References 55 publications

Advancements in Solar Panel Technology in Civil Engineering for Revolutionizing Renewable Energy Solutions—A Review

Advancements in Solar Panel Technology in Civil Engineering for Revolutionizing Renewable Energy Solutions—A Review

Satellites Reveal Spatial Heterogeneity in Dryland Photovoltaic Plants' Effects on Vegetation Dynamics

Mapping Photovoltaic Panels in Coastal China Using Sentinel-1 and Sentinel-2 Images and Google Earth Engine

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