Your search keyword '"Doug McWhirter"' showing total 8 results

1. Disparate home range dynamics reflect nutritional inadequacies on summer range for a large herbivore

Author

Brittany L. Wagler, Rachel A. Smiley, Alyson B. Courtemanch, Daryl Lutz, Doug McWhirter, Doug Brimeyer, Patrick Hnilicka, and Kevin L. Monteith

Subjects

alpine, forage quality, home range overlap, home range size, movement, nutritional limitation, Ecology, QH540-549.5

Abstract

Abstract The spatial distribution of animals has consequences for nutrition, predator–prey dynamics, spread of diseases, and population dynamics in general. Animals must establish a home range to secure adequate resources to fuel their energy needs. Home ranges, therefore, are temporally and spatially dynamic, given the changing requirements of an animal and the availability of resources on the landscape. We used data from two populations of bighorn sheep with contrasting population dynamics following pneumonia epizootics and different habitat quality on their summer range to test the hypothesis that the distribution and size of home ranges are influenced by environmental conditions and reproductive status. We used a combination of data from 768 vegetation transects and remotely sensed metrics to index forage quality of consecutive biweekly home ranges for 27 bighorn sheep, June–August 2019–2021. There were population differences in home range dynamics that were consistent with resource limitations in the population declining in abundance. Animals in both populations increased the size of their home range through the summer in association with declining forage quality indexed by plant phenology. Furthermore, animals in the Whiskey Mountain population without offspring had home ranges more than twice the size of animals with offspring, whereas there were no differences in the home range size between animals with and without offspring in Jackson. We demonstrated that limitations young offspring impose on space use of a mother may have consequences for animals living where larger home ranges are needed to secure adequate resources—sheep on Whiskey Mountain had to travel 1000 m from escape terrain to access the same amount of biomass that the Jackson sheep could access directly adjacent to escape terrain. Forage quality and availability influence movement and space use. In the presence of disease, movement and space use may influence pathogen transmission and persistence. Thus, forage availability may play an indirect role in population dynamics in the presence of disease, which is another line of evidence for how environmental and nutritional conditions may influence population dynamics when coping with disease.

Published

2024

2. Diverse migratory portfolios drive inter‐annual switching behavior of elk across the Greater Yellowstone Ecosystem

Author

Gabriel R. Zuckerman, Kristin J. Barker, Laura C. Gigliotti, Eric K. Cole, Justin A. Gude, Mark A. Hurley, Matthew J. Kauffman, Daryl Lutz, Daniel R. MacNulty, Eric J. Maichak, Doug McWhirter, Tony W. Mong, Kelly Proffitt, Brandon M. Scurlock, Daniel R. Stahler, Ben Wise, and Arthur D. Middleton

Subjects

elk, GPS tracking, Greater Yellowstone Ecosystem, migratory plasticity, migratory portfolios, migratory tactic, Ecology, QH540-549.5

Abstract

Abstract A growing body of evidence shows that some ungulates alternate between migratory and nonmigratory behaviors over time. Yet it remains unclear whether such short‐term behavioral changes can help explain reported declines in ungulate migration worldwide, as opposed to long‐term demographic changes. Furthermore, advances in tracking technology reveal that a simple distinction between migration and nonmigration may not sufficiently describe all individual behaviors. To better understand the dynamics and drivers of ungulate switching behavior, we investigated 14 years of movement data from 361 elk in 20 herds across the Greater Yellowstone Ecosystem (GYE). First, we categorized yearly individual behaviors using a clustering algorithm that identified similar migratory tactics across a continuum of behaviors. Then, we tested seven hypotheses to explain why some ungulates switch behaviors, and we evaluated how behavioral changes affected the proportions of different behaviors across the system. We identified four distinct behavioral tactics: residents (4.8% of elk‐years), short‐distance migrants (53.7%), elevational migrants (21.9%) and long‐distance migrants (19.6%). Of the 20 herds, 18 were partially migratory, and 5 had all four movement tactics present. We observed switches between migratory tactics in all sets of consecutive years during our study period, with an average of 22.5% of individual elk changing movement tactics from one year to the next. Elk in herds with higher movement tactic diversity were significantly more likely to switch tactics and often responded more effectively to adverse environmental conditions, compared to those in herds with low movement tactic diversity. During our study period, switching increased the prevalence of both short‐ and long‐distance migrants, decreased the prevalence of elevational migrants, and had no effect on the prevalence of residents. Our findings suggest that rather than contributing to the declining migratory behavior found in the GYE, switching behavior may enable greater resiliency to continuously changing environmental and anthropogenic conditions.

Published

2023

3. Heterogeneity in risk‐sensitive allocation of somatic reserves in a long‐lived mammal

Author

Rachel A. Smiley, Brittany L. Wagler, Tayler N. LaSharr, Kristin A. Denryter, Thomas R. Stephenson, Alyson B. Courtemanch, Tony W. Mong, Daryl Lutz, Doug McWhirter, Doug Brimeyer, Patrick Hnilicka, Blake Lowrey, and Kevin L. Monteith

Subjects

bighorn sheep, ingesta‐free body fat, life history, nutritional condition, Ovis canadensis canadensis, recruitment, Ecology, QH540-549.5

Abstract

Abstract Food quality and availability, when combined with energetic demands in seasonal environments, shape resource acquisition and allocation by animals and hold consequences for life‐history strategies. In long‐lived species with extensive maternal care, regulation of somatic reserves of energy and protein can occur in a risk‐sensitive manner, wherein resources are preferentially allocated to support survival at the cost of investment in reproduction. We investigated how Rocky Mountain bighorn sheep (Ovis canadensis), an alpine mammal in a highly seasonal environment, allocates somatic reserves across seasons. In accordance with the hypothesis of risk‐sensitive resource allocation, we expected accretion and catabolism of somatic reserves to be regulated relative to preseason nutritional state, reproductive state, and variation among populations in accordance with local environmental conditions. To test that hypothesis, we monitored seasonal changes in percent ingesta‐free body fat (IFBFat) and ingesta‐free, fat‐free body mass (IFFFBMass) in three populations of bighorn sheep in northwest Wyoming between 2015 and 2019 through repeated captures of female sheep in December and March of each year in a longitudinal study design. Regulation of somatic reserves was risk‐sensitive and varied relative to the amount of somatic reserves an animal had at the beginning of the season. Regulation of fat reserves was sensitive to reproductive state and differed by population, particularly over the summer. In one population with low rates of recruitment of young, sheep that recruited offspring lost fat over the summer in contrast to the other two populations where sheep that recruited gained fat. And yet, all populations exhibited similar changes in fat catabolism and risk sensitivity over winter. The magnitude of body fat and mass change across seasons may be indicative of sufficiency of seasonal ranges to meet energetic demands of survival and reproduction. Risk‐sensitive allocation of resources was pervasive, suggesting nutritional underpinnings are foundational to behavior, vital rates, and, ultimately, population dynamics. For species living in alpine environments, risk‐sensitive resource allocation may be essential to balance investment in reproduction with ensuring survival.

Published

2022

4. Bighorn Sheep Genetic Structure in Wyoming Reflects Geography and Management

Author

William R. Edwards, Doug McWhirter, Holly B. Ernest, Roderick B. Gagne, and Sierra M. Love Stowell

Subjects

Mitochondrial DNA, Ecology, symbols.heraldic_supporter, Population genetics, Chromosomal translocation, Geography, Effective population size, Evolutionary biology, Genetic structure, symbols, General Earth and Planetary Sciences, Microsatellite, Ecology, Evolution, Behavior and Systematics, Ovis canadensis, Nature and Landscape Conservation, General Environmental Science

Published

2020

5. Effects of helicopter net‐gunning on survival of bighorn sheep

Author

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, and Kevin L. Monteith

Subjects

Ecology, General Earth and Planetary Sciences, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, General Environmental Science

Published

2022

6. Range expansion and population growth of non-native mountain goats in the Greater Yellowstone Area: Challenges for management

Author

Michael A. Sawaya, Doug Brimeyer, Hollie M. Miyasaki, Doug McWhirter, Elizabeth P. Flesch, Robert A. Garrott, Sarah R. Dewey, Julie A. Cunningham, Andrew C. Pils, Gary L. Fralick, Shawn T. Stewart, Karen M. Loveless, P. J. White, and Alyson B. Courtemanch

Subjects

0106 biological sciences, Ungulate, biology, Ecology, Range (biology), 010604 marine biology & hydrobiology, symbols.heraldic_supporter, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Invasive species, Geography, Oreamnos americanus, symbols, Population growth, Population management, Ovis canadensis, Nature and Landscape Conservation

Published

2016

7. Mule deer and pronghorn migration in western Wyoming

Author

Doug McWhirter, Hall Sawyer, and Fred Lindzey

Subjects

Vegetation types, Geography, Seasonal distribution, biology, Ecology, biology.animal, Antilocapra americana, Odocoileus, biology.organism_classification, Nature and Landscape Conservation

Abstract

Migratory mule deer (Odocoileus hemionus) and pronghorn (Antilocapra americana) populations rely on seasonal ranges to meet their annual nutritional and energetic requirements. Because seasonal ranges often occur great distances apart and across a mix of vegetation types and land ownership, maintaining migration corridors to and from these ranges can be difficult, especially if managers do not have detailed information on mule deer and pronghorn seasonal movements. We captured, radiomarked, and monitored mule deer (n=171) and pronghorn (n=34) in western Wyoming to document seasonal distribution patterns and migration routes. Mule deer and pronghorn migrated 20–158 km and 116–258 km, respectively, between seasonal ranges. These distances represented the longest recorded migrations for either species. We identified a number of bottlenecks along the migration routes of mule deer and pronghorn, but the most critical appeared to be the 1.6-km-wide Trapper's Point bottleneck, which was used by both mul...

Published

2005

8. A Field Guide to the Birds of Japan Joseph A. Massey Shogo Matsui

Author

Doug McWhirter

Subjects

Field (Bourdieu), Art history, Animal Science and Zoology, Environmental ethics, Sociology, Ecology, Evolution, Behavior and Systematics

Published

1985