Effects of helicopter net-gunning on survival of bighorn sheep |
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| Authors: | Brittany L. Wagler Rachel A. Smiley Alyson B. Courtemanch Gregory Anderson Daryl Lutz Doug McWhirter Doug Brimeyer Patrick Hnilicka Cody P. Massing David W. German Thomas R. Stephenson Kevin L. Monteith |
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| Affiliation: | 1. Haub School of the Environment and Natural Resources, Wyoming Cooperative Fish and Wildlife Research Unit, Department of Zoology and Physiology, University of Wyoming, 804 E Fremont Street, Laramie, WY, 82071 USA;2. Wyoming Game and Fish Department, 420 N Cache Street, Jackson, WY, 83001 USA;3. Wyoming Game and Fish Department, 260 Buena Vista Drive, Lander, WY, 82520 USA;4. Wyoming Game and Fish Department, 5400 Bishop Boulevard, Cheyenne, WY, 82006 USA;5. US Fish and Wildlife Service, 170 N First Street, Lander, WY, 82520 USA;6. Sierra Nevada Bighorn Sheep Recovery Program, California Department of Fish and Wildlife, 787 N Main Street, Suite 220, Bishop, CA, 93514 USA |
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| Abstract: | Wildlife capture, and the data collection associated with it, has led to major advancements in ecology that are integral to decision making pertaining to wildlife conservation. Capturing wildlife, however, can cause lethal and non-lethal risks to animals. Understanding the factors that contribute to the level of risk involved in wildlife capture is therefore important for the development and implementation of the safest and most effective methodologies. We used data from 736 animal captures of 389 individuals for 2 subspecies of female bighorn sheep (Rocky Mountain bighorn [Ovis canadensis canadensis], Sierra Nevada bighorn sheep [O. c. sierrae]) in Wyoming and California, USA, in 2002–2020 to evaluate the degree and extent of time that capture via helicopter net-gunning affects survival. We compared pre- and post-capture survival during a 10-week window centered on a capture event, and post-capture survival between captured animals and animals that were monitored but not captured during the 10-week window. Additionally, we evaluated the effects of handling techniques (number of times captured, season of capture event, handling time, chase time, and body temp) and biological factors (age and nutritional condition) on probability of capture mortality. Mean daily survival was 0.9992 during a 5-week pre-capture window, dropped to 0.9864 on the day of capture, and rebounded within 3 days of capture to pre-capture levels and that of sheep that were not captured. Overall, direct mortality resulting from capture was 1.36%, with 0.54% mortality occurring within the 3 days following a capture event for an overall 1.90% capture-related mortality. The only handling and biological metrics that influenced the probability of capture mortality were rectal temperature and nutritional condition; high initial rectal temperatures and poor body condition were associated with increased risk of mortality in the days following capture. Overall, helicopter net-gunning imposed low and short-term risk to survival of female bighorn sheep. To reduce bias in survival estimates, we recommend using a 3-day censorship window for post-capture mortalities as opposed to the common practice of a 2–5-week censor window. Helicopter net-gunning, including annual or seasonal recaptures, remains an effective and comparatively safe technique for capture and associated data collection of bighorn sheep. |
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| Keywords: | capture mortality capture myopathy data censoring individual-based studies long-term studies recapture Rocky Mountain bighorn sheep Sierra Nevada bighorn sheep wildlife capture wildlife handling |
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