The efficiency of photovoltaic solar panels is important for sustainable, renewable and environmentally friendly energy. Panels must be positioned correctly for maximum sun exposure, but
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Soil bacterial community in a photovoltaic system adopted different survival strategies to cope with small-scale light stress under different vegetation restoration modes
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We conducted a systematic investigation into the effects of small-scale light stress caused by shading of PV panels and sampling depth on the composition, diversity, survival strategy,
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The analysis of microbial communities between and under various types of PV panels at Gonghe PV power station, Qinghai Province, has allowed researchers to examine the community
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Background and Aims Agrophotovoltaic systems (APV) co-locate photovoltaic power generation and crop production within the same land unit, providing a solution to mitigate climate
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Conversely, other studies have noted that soil bulk density under PV panels increases compared to unshaded areas, while soil moisture content, available phosphorus, and available
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However, the impact pathway and underlying mechanisms of photovoltaic array on soil bacterial community are imperfectly known. This study quantified the impacts of different photovoltaic
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Soiling is caused by a dual action of dust deposition and biofouling. However, surprisingly, the microbiological contribution to PV soiling is often overlooked or underestimated. In this study, a
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In the present study, we have weekly monitored the photovoltaic efficiency of 54 small‐sized solar panels, and we have analysed the microbiome composition – including fungi and bacteria – every
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Soil bacterial community composition and diversity can be an important bioindicator for assessing ecosystem stability, and photovoltaic (PV) shading is a key factor influencing soil bacterial
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