Behavioral patterns of bats at a wind turbine confirm seasonality of fatality risk
Goldenberg, Shifra; Cryan, Paul; Gorresen, Paulo; and Fingersh, Lee
Goldenberg, Shifra; Cryan, Paul; Gorresen, Paulo; and Fingersh, Lee
Abstract: Bat fatalities at wind energy facilities in North America are predominantly comprised of migratory, tree‐dependent species, but it is unclear why these bats are at higher risk. Factors influencing bat susceptibility to wind turbines might be revealed by temporal patterns in their behaviors around these dynamic landscape structures. In northern temperate zones, fatalities occur mostly from July through October, but whether this reflects seasonally variable behaviors, passage of migrants, or some combination of factors remains unknown. In this study, we examined video imagery spanning one year in the state of Colorado in the United States, to characterize patterns of seasonal and nightly variability in bat behavior at a wind turbine. We detected bats on 177 of 306 nights representing approximately 3,800 hr of video and > 2,000 discrete bat events. We observed bats approaching the turbine throughout the night across all months during which bats were observed. Two distinct seasonal peaks of bat activity occurred in July and September, representing 30% and 42% increases in discrete bat events from the preceding months June and August, respectively. Bats exhibited behaviors around the turbine that increased in both diversity and duration in July and September. The peaks in bat events were reflected in chasing and turbine approach behaviors. Many of the bat events involved multiple approaches to the turbine, including when bats were displaced through the air by moving blades. The seasonal and nightly patterns we observed were consistent with the possibility that wind turbines invoke investigative behaviors in bats in late summer and autumn coincident with migration and that bats may return and fly close to wind turbines even after experiencing potentially disruptive stimuli like moving blades. Our results point to the need for a deeper understanding of the seasonality, drivers, and characteristics of bat movement across spatial scales.
[1]Migratory tree bats, like this silver-haired bat (Lasionycteris noctivagans) seen roosting on a tree trunk during autumn, are among the most frequently found dead at wind turbines in North America during late summer and autumn.
Shifra Z. Goldenberg, Conservation Ecology Center, Smithsonian Conservation Biology Institute, Front Royal, VA; Institute for Conservation Research, San Diego Zoo Global, Escondido, CA
Paul M. Cryan, US Geological Survey (USGS), Fort Collins, CO
Paulo Marcos Gorresen, University of Hawaii at Hilo, HI; US Geological Survey Pacific Island Ecosystems Science Center, Hawaii Volcanoes National Park
Lee Jay Fingersh, US Department of Energy, National Renewable Energy Laboratory, National Wind Technology Center, Boulder, CO
Ecology and Evolution, 18 March 2021
doi: 10.1002/ece3.7388 [2]
Download original document: “Behavioral patterns of bats at a wind turbine confirm seasonality of fatality risk [3]”
URL to article: https://www.wind-watch.org/documents/behavioral-patterns-of-bats-at-a-wind-turbine-confirm-seasonality-of-fatality-risk/
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[1] Image: https://docs.wind-watch.org/migratory-tree-bat.png
[2] doi: 10.1002/ece3.7388: https://doi.org/10.1002/ece3.7388
[3] Behavioral patterns of bats at a wind turbine confirm seasonality of fatality risk: https://docs.wind-watch.org/seasonal-migratory-bat-risk.pdf