Trade‐offs between utility‐scale solar development and ungulates on western rangelands

Utility‐scale solar energy (USSE) has become an efficient and cost‐effective form of renewable energy, with an expanding footprint into rangelands that provide important habitat for many wild ungulate populations. Using global positioning system data collected before and after construction, we docum...

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Veröffentlicht in:Frontiers in ecology and the environment 2022-08, Vol.20 (6), p.345-351
Hauptverfasser: Sawyer, Hall, Korfanta, Nicole M, Kauffman, Matthew J, Robb, Benjamin S, Telander, Andrew C, Mattson, Todd
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Sprache:eng
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Zusammenfassung:Utility‐scale solar energy (USSE) has become an efficient and cost‐effective form of renewable energy, with an expanding footprint into rangelands that provide important habitat for many wild ungulate populations. Using global positioning system data collected before and after construction, we documented the potential impacts of USSE on pronghorn (Antilocapra americana), including direct habitat loss, indirect habitat loss, and barrier effects to both resident and migratory population segments. Our case study highlights the challenges that USSE poses to ungulate conservation, including (1) impermeable security fencing that blocks access to and reduces connectivity between formerly available habitats, and (2) the lack of guidelines for minimizing USSE impacts on ungulates. Improved siting and ungulate‐specific best management practices would help to minimize habitat loss and retain landscape connectivity. Ungulate biodiversity and ecosystem services (for example, services provided by long‐distance migratory species) in arid rangelands are important considerations when balancing the global benefits of renewable energy with local wildlife impacts.
ISSN:1540-9295
1540-9309
DOI:10.1002/fee.2498