Your search keyword '"Fralick, Gary"' showing total 10 results

1. Diel timing of migration is not plastic in a migratory ungulate

Author

Jakopak, Rhiannon P., Sawyer, Hall, LaSharr, Tayler N., Randall, Jill, Dwinnell, Samantha P.H., Fralick, Gary L., and Monteith, Kevin L.

Published

2022

2. Ungulate migrations of the Western United States, volume 4

Author

Kauffman, Matthew, primary, Lowrey, Blake, additional, Beaupre, Chloe, additional, Bergen, Scott, additional, Bergh, Stefanie, additional, Blecha, Kevin, additional, Bundick, Samantha, additional, Burkett, Hunter, additional, Cain III, James W., additional, Carl, Peyton, additional, Casady, David, additional, Class, Corey, additional, Courtemanch, Alyson, additional, Cowardin, Michelle, additional, Diamond, Jennifer, additional, Dugger, Katie, additional, Duvuvuei, Orrin, additional, Ennis, Joanna R., additional, Flenner, Michelle, additional, Fort, Jessica, additional, Fralick, Gary, additional, Freeman, Ian, additional, Gagnon, Jeff, additional, Garcelon, David, additional, Garrison, Kyle, additional, Gelzer, Emily, additional, Greenspan, Evan, additional, Hinojoza-Rood, Valerie, additional, Hnilicka, Pat, additional, Holland, Andy, additional, Hudgens, Brian, additional, Kroger, Bart, additional, Lawson, Art, additional, McKee, Cody, additional, McKee, Jennifer L., additional, Merkle, Jerod, additional, Mong, Tony W., additional, Nelson, Haley, additional, Oates, Brendan, additional, Poulin, Marie-Pier, additional, Reddell, Craig, additional, Ritson, Robert, additional, Sawyer, Hall, additional, Schroeder, Cody, additional, Shapiro, Jessie, additional, Sprague, Scott, additional, Steiner, Erik, additional, Steingisser, Alethea, additional, Stephens, Sam, additional, Stringham, Blair, additional, Swazo-Hinds, Patrick Ryan, additional, Tatman, Nicole, additional, Wallace, Cody F., additional, Whittaker, Don, additional, Wise, Benjamin, additional, Wittmer, Heiko U., additional, and Wood, Erin, additional

Published

2024

3. Warm places, warm years, and warm seasons increase parasitizing of moose by winter ticks.

Author

DeCesare, Nicholas J., Harris, Richard B., Atwood, M. Paul, Bergman, Eric J., Courtemanch, Alyson B., Cross, Paul C., Fralick, Gary L., Hersey, Kent R., Hurley, Mark A., Koser, Troy M., Levine, Rebecca L., Monteith, Kevin L., Newby, Jesse R., Peterson, Collin J., Robertson, Samuel, and Wise, Benjamin L.

Subjects

TICKS, MOOSE, LIFE cycles (Biology), WEATHER, ANIMAL populations, CLIMATE change & health, ANIMAL population density

Abstract

Observed links between parasites, such as ticks, and climate change have aroused concern for human health, wildlife population dynamics, and broader ecosystem effects. The one‐host life history of the winter tick (Dermacentor albipictus) links each annual cohort to environmental conditions during three specific time periods when they are predictably vulnerable: spring detachment from hosts, summer larval stage, and fall questing for hosts. We used mixed‐effects generalized linear models to investigate the drivers of tick loads carried by moose (Alces alces) relative to these time periods and across 750 moose, 10 years, and 16 study areas in the western United States. We tested for the effects of biotic factors (moose density, shared winter range, vegetation, migratory behavior) and weather conditions (temperature, snow, humidity) during each seasonal period when ticks are vulnerable and off‐host. We found that warm climatic regions, warm seasonal periods across multiple partitions of the annual tick life cycle, and warm years relative to long‐term averages each contributed to increased tick loads. We also found important effects of snow and other biotic factors such as host density and vegetation. Tick loads in the western United States were, on average, lower than those where tick‐related die‐offs in moose populations have occurred recently, but loads carried by some individuals may be sufficient to cause mortality. Lastly, we found interannual variation in tick loads to be most correlated with spring snowpack, suggesting this environmental component may have the highest potential to induce change in tick load dynamics in the immediate future of this region. [ABSTRACT FROM AUTHOR]

Published

2024

4. Maternal effects and the legacy of extreme environmental events for wild mammals

Author

LaSharr, Tayler N., primary, Jakopak, Rhiannon P., additional, Dwinnell, Samantha P. H., additional, Rafferty, Rebekah T., additional, Thonhoff, Mark, additional, Kaiser, Rusty C., additional, Fralick, Gary L., additional, and Monteith, Kevin L., additional

Published

2023

5. Behavior, nutrition, and environment drive survival of a large herbivore in the face of extreme winter conditions.

Author

LaSharr, Tayler N., Dwinnell, Samantha P. H., Jakopak, Rhiannon P., Randall, Jill, Kaiser, Rusty C., Thonhoff, Mark, Scurlock, Brandon, Fieseler, Troy, Hymas, Neil, Hymas, Adam, Roberts, Nick, Hobbs, James, Zornes, Mark, Brimeyer, Douglas G., Fralick, Gary, and Monteith, Kevin L.

Subjects

WINTER, BEHAVIOR modification, MULE deer, SNOW accumulation, ANIMAL behavior, NUTRITION

Abstract

For many species, behavioral modification is an effective strategy to mitigate negative effects of harsh and unpredictable environmental conditions. When behavioral modifications are not sufficient to mitigate extreme environmental conditions, intrinsic factors may be the primary determinant of survival. We investigated how movement behavior, and internal (i.e., nutrition and age) and external (i.e., food availability and snow depth) states affect survival over winter of a long‐lived and highly faithful species (mule deer; Odocoileus hemionus). We first tested whether animals changed their behavior during winter based on internal and external states; we subsequently investigated how behavior and state interacted to influence survival in the face of extraordinary winter conditions. Movement behavior changed minimally as a function of age and nutrition; yet, movement behavior affected survival—animals that exhibited more restricted movements were more likely to succumb to mortality overwinter than animals with less restricted movements. Additionally, nutrition and cumulative snow depth had a strong effect on survival: animals that were exposed to deep snow and began winter with low fat were much less likely to survive. Behavior was an effective tool in securing survival during mild or moderate winters, but nutrition ultimately underpinned survival during harsh winters. [ABSTRACT FROM AUTHOR]

Published

2023

6. Evaluating risks associated with capture and handling of mule deer for individual‐based, long‐term research

Author

LaSharr, Tayler N., primary, Dwinnell, Samantha P. H., additional, Wagler, Brittany L., additional, Sawyer, Hall, additional, Jakopak, Rhiannon P., additional, Ortega, Anna C., additional, Wilde, Luke R., additional, Kauffman, Matthew J., additional, Huggler, Katey S., additional, Burke, Patrick W., additional, Valdez, Miguel, additional, Lionberger, Patrick, additional, Brimeyer, Douglas G., additional, Scurlock, Brandon, additional, Randall, Jill, additional, Kaiser, Rusty C., additional, Thonhoff, Mark, additional, Fralick, Gary L., additional, and Monteith, Kevin L., additional

Published

2022

7. Evaluating risks associated with capture and handling of mule deer for individual‐based, long‐term research.

Author

LaSharr, Tayler N., Dwinnell, Samantha P. H., Wagler, Brittany L., Sawyer, Hall, Jakopak, Rhiannon P., Ortega, Anna C., Wilde, Luke R., Kauffman, Matthew J., Huggler, Katey S., Burke, Patrick W., Valdez, Miguel, Lionberger, Patrick, Brimeyer, Douglas G., Scurlock, Brandon, Randall, Jill, Kaiser, Rusty C., Thonhoff, Mark, Fralick, Gary L., and Monteith, Kevin L.

Subjects

MULE deer, ANIMAL ecology, SURVIVAL rate, OVERALL survival, LIFE history theory

Abstract

Capture and handling techniques for individual‐based, long‐term research that tracks the life history of animals by recapturing the same individuals for several years has vastly improved study inferences and our understanding of animal ecology. Yet there are corresponding risks to study animals associated with physical trauma or capture myopathy that can occur during or following capture events. Rarely has empirical evidence existed to guide decisions associated with understanding the magnitude of capture‐related risks, how to reduce these risks when possible, and implications for mortality censoring and survival estimates. We used data collected from 2,399 capture events of mule deer (Odocoileus hemionus) via helicopter net‐gunning to compare daily survival probabilities within a 10‐week period centered on a capture event and evaluated how animal age, nutritional condition (body fat), and various handling methods influenced survival before, during, and following a capture event. Direct mortality resulting from capture efforts was 1.59%. Mean daily survival was 0.9993 ± 0.0001 (SE) during the 5‐week pre‐capture window, was depressed the day of capture at 0.9841 ± 0.0004, and rebounded to 0.9990 ± 0.0008 during the 5‐week post‐capture window. Neither capture nor handling had a detectable effect on post‐capture survival, including handling time (x¯ $\bar{x}$ = 13.30 ± 1.87 min), capture time of year (i.e., Dec or Mar), tooth extraction, and the number of times an animal had been recaptured (2–17 times). Although mortality rate was slightly elevated during capture (resulting from physical trauma associated with capture), age and nutritional condition did not influence the probability of mortality during a capture event. Following a capture event, nutritional condition influenced survival; however, that relationship was consistent with expected effects of nutritional condition on winter survival and independent of capture and handling. Overall survival rates 5 weeks before capture and 5 weeks after capture were not different. A specified window of time with depressed survival following capture and handling was not evident, which contradicts the implementation of a predetermined window often used by researchers and managers for censoring mortalities that occur after capture. Previous notions that censorship of all mortality data in the 2 weeks following capture is unwarranted and risks removal of meaningful data. With previous evidence guiding our protocols for capture (e.g., reduced chase time) and handling (e.g., temperature mitigation), low direct mortality and almost undetectable indirect mortality post capture reinforces the efficacy of helicopter net‐gunning for capture and recapture of mule deer in long‐term, individual‐based studies. [ABSTRACT FROM AUTHOR]

Published

2023

8. Biomarkers of Animal Nutrition: From Seasonal to Lifetime Indicators of Environmental Conditions

Author

Smiley, Rachel A., primary, LaSharr, Tayler N., additional, Abernathy, Heather N., additional, Shakeri, Yasaman N., additional, Levine, Rebecca L., additional, Rankins, Seth T., additional, Jakopak, Rhiannon P., additional, Rafferty, Rebekah T., additional, Kolek, Jaron T., additional, Wagler, Brittany L., additional, Dwinnell, Samantha P. H., additional, Robinson, Timothy J., additional, Randall, Jill E., additional, Kaiser, Rusty C., additional, Thonhoff, Mark, additional, Scurlock, Brandon, additional, Fieseler, Troy, additional, Fralick, Gary L., additional, and Monteith, Kevin L., additional

Published

2022

9. Ungulate migrations of the western United States, volume 3

Author

Kauffman, Matthew, primary, Lowrey, Blake, additional, Berg, Jodi, additional, Bergen, Scott, additional, Brimeyer, Doug, additional, Burke, Patrick, additional, Cufaude, Teal, additional, Cain III, James W., additional, Cole, Jeffrey, additional, Courtemanch, Alyson, additional, Cowardin, Michelle, additional, Cunningham, Julie, additional, DeVivo, Melia, additional, Diamond, Jennifer, additional, Duvuvuei, Orrin, additional, Fattebert, Julien, additional, Ennis, Joanna, additional, Finley, Darby, additional, Fort, Jessica, additional, Fralick, Gary, additional, Freeman, Eric, additional, Gagnon, Jeff, additional, Garcia, Julie, additional, Gelzer, Emily, additional, Graham, Morgan, additional, Gray, Jacob, additional, Greenspan, Evan, additional, Hall, L. Embere, additional, Hendricks, Curtis, additional, Holland, Andy, additional, Holmes, Brian, additional, Huggler, Katey, additional, Hurley, Mark A., additional, Jeffreys, Emily, additional, Johnson, Aran, additional, Knox, Lee, additional, Krasnow, Kevin, additional, Lockyer, Zack, additional, Manninen, Hannah, additional, McDonald, Mike, additional, McKee, Jennifer L., additional, Meacham, James, additional, Merkle, Jerod, additional, Moore, Barb, additional, Mong, Tony W., additional, Nielsen, Clayton, additional, Oates, Brendan, additional, Olsen, Kim, additional, Olson, Daniel, additional, Olson, Lucas, additional, Pieron, Matt, additional, Powell, Jake, additional, Prince, Annemarie, additional, Proffitt, Kelly, additional, Reddell, Craig, additional, Riginos, Corinna, additional, Ritson, Robert, additional, Robatcek, Sierra, additional, Roberts, Shane, additional, Sawyer, Hall, additional, Schroeder, Cody, additional, Shapiro, Jessie, additional, Simpson, Nova, additional, Sprague, Scott, additional, Steingisser, Alethea, additional, Tatman, Nicole, additional, Turnock, Benjamin, additional, Wallace, Cody, additional, and Wolf, Laura, additional

Published

2022

10. EXTENDING BODY CONDITION SCORING BEYOND MEASUREABLE RUMP FAT TO ESTIMATE FULL RANGE OF NUTRITIONAL CONDITION FOR MOOSE.

Author

Levine, Rebecca L., Smiley, Rachel A., Jesmer, Brett R., Oates, Brendan A., Goheen, Jacob R., Stephenson, Thomas R., Kauffman, Matthew J., Fralick, Gary L., and Monteith, Kevin L.

Subjects

*MOOSE, *FAT, *VITAL statistics, *UNGULATES, *LEANNESS

Abstract

Moose (Alces alces) populations along the southern extent of their range are largely declining, and there is growing evidence that nutritional condition -- which influences several vital rates - is a contributing factor. Moose body condition can presently be estimated only when there is measurable subcutaneous rump fat, which equates to animals with >6% ingesta-free body fat (IFBFat). There is need for a technique to allow body fat estimation of animals in poorer body condition (i.e., <6% body fat). We advance current methods for moose, following those used and validated with other ungulate species, by establishing a moose-specific body condition score (BCS) that can be used to estimate IFBFat in the lower range of condition. Our modified BCS was related strongly (r² = 0.89) to IFBFat estimates based on measurable rump fat. By extending the predicted relationship to individuals without measurable fat, the BCS equated severe emaciation with 0.67% IFBFat, supporting the accuracy of the method. The lower end of nutritional condition is important for identifying relationships involving life-history characteristics because most state-dependent changes occur at lower levels of condition. Therefore, until the BCS can be validated with moose carcasses, we believe our method to estimate body fat across the full range of condition should yield better understanding of the drivers underlying declining moose populations. [ABSTRACT FROM AUTHOR]

Published

2022