Your search keyword '"Rachel E. Wheat"' showing total 7 results

1. Challenges and opportunities for estimating abundance of a low‐density moose population

Author

Joseph W. Hinton, Rachel E. Wheat, Paul Schuette, Jeremy E. Hurst, David W. Kramer, James H. Stickles, and Jacqueline L. Frair

Subjects

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

Published

2022

2. To migrate, stay put, or wander? Varied movement strategies in bald eagles (Haliaeetus leucocephalus)

Author

Yiwei Wang, Christopher C. Wilmers, Rachel E. Wheat, Stephen B. Lewis, and Taal Levi

Subjects

0106 biological sciences, education.field_of_study, Movement (music), Ecology, Movement strategies, GPS, Foraging, Population, Space use, Zoology, Haliaeetus leucocephalus, Biology, 010603 evolutionary biology, 01 natural sciences, Intraspecific competition, 010601 ecology, lcsh:Biology (General), Nest, Animal ecology, Brownian bridge movement modeling, education, lcsh:QH301-705.5, Alternative movement, Ecology, Evolution, Behavior and Systematics

Abstract

Background Quantifying individual variability in movement behavior is critical to understanding population-level patterns in animals. Here, we explore intraspecific variation in movement strategies of bald eagles (Haliaeetus leucocephalus) in the north Pacific, where there is high spatiotemporal resource variability. We tracked 28 bald eagles (five immature, 23 adult) using GPS transmitters between May 2010 and January 2016. Results We found evidence of four movement strategies among bald eagles in southeastern Alaska and western Canada: breeding individuals that were largely sedentary and remained near nest sites year-round, non-breeding migratory individuals that made regular seasonal travel between northern summer and southern winter ranges, non-breeding localized individuals that displayed fidelity to foraging sites, and non-breeding nomadic individuals with irregular movement. On average, males traveled farther per day than females. Most nomadic individuals were immature, and all residential individuals (i.e. breeders and localized birds) were adults. Conclusions Alternative movement strategies among north Pacific eagles are likely associated with the age and sex class, as well as breeding status, of an individual. Intraspecific variation in movement strategies within the population results in different space use patterns among contingents, which has important implications for conservation and management.

Published

2017

3. To migrate, stay put, or wander? Varied movement strategies in bald eagles (

Author

Rachel E, Wheat, Stephen B, Lewis, Yiwei, Wang, Taal, Levi, and Christopher C, Wilmers

Subjects

Research, Movement strategies, GPS, Space use, Haliaeetus leucocephalus, Brownian bridge movement modeling

Abstract

Background Quantifying individual variability in movement behavior is critical to understanding population-level patterns in animals. Here, we explore intraspecific variation in movement strategies of bald eagles (Haliaeetus leucocephalus) in the north Pacific, where there is high spatiotemporal resource variability. We tracked 28 bald eagles (five immature, 23 adult) using GPS transmitters between May 2010 and January 2016. Results We found evidence of four movement strategies among bald eagles in southeastern Alaska and western Canada: breeding individuals that were largely sedentary and remained near nest sites year-round, non-breeding migratory individuals that made regular seasonal travel between northern summer and southern winter ranges, non-breeding localized individuals that displayed fidelity to foraging sites, and non-breeding nomadic individuals with irregular movement. On average, males traveled farther per day than females. Most nomadic individuals were immature, and all residential individuals (i.e. breeders and localized birds) were adults. Conclusions Alternative movement strategies among north Pacific eagles are likely associated with the age and sex class, as well as breeding status, of an individual. Intraspecific variation in movement strategies within the population results in different space use patterns among contingents, which has important implications for conservation and management. Electronic supplementary material The online version of this article (doi:10.1186/s40462-017-0102-4) contains supplementary material, which is available to authorized users.

Published

2016

4. The golden age of bio-logging: how animal-borne sensors are advancing the frontiers of ecology

Author

Rachel E. Wheat, Caleb M. Bryce, Veronica Yovovich, Justine A. Smith, Christopher C. Wilmers, and Barry A. Nickel

Subjects

Engineering, Conservation of Natural Resources, Behavior, Animal, business.industry, Ecology, Ecology (disciplines), Logging, Foraging, Wearable computer, Motor Activity, Animal ecology, Environmental monitoring, Accelerometry, Animals, Telemetry, business, Ecology, Evolution, Behavior and Systematics, Sociality, Ecosystem, Biotelemetry, Environmental Monitoring, Monitoring, Physiologic

Abstract

Great leaps forward in scientific understanding are often spurred by innovations in technology. The explosion of miniature sensors that are driving the boom in consumer electronics, such as smart phones, gaming platforms, and wearable fitness devices, are now becoming available to ecologists for remotely monitoring the activities of wild animals. While half a century ago researchers were attaching balloons to the backs of seals to measure their movement, today ecologists have access to an arsenal of sensors that can continuously measure most aspects of an animal's state (e.g., location, behavior, caloric expenditure, interactions with other animals) and external environment (e.g., temperature, salinity, depth). This technology is advancing our ability to study animal ecology by allowing researchers to (1) answer questions about the physiology, behavior, and ecology of wild animals in situ that would have previously been limited to tests on model organisms in highly controlled settings, (2) study cryptic or wide-ranging animals that have previously evaded investigation, and (3) develop and test entirely new theories. Here we explore how ecologists are using these tools to answer new questions about the physiological performance, energetics, foraging, migration, habitat selection, and sociality of wild animals, as well as collect data on the environments in which they live.

Published

2015

5. Environmental DNA from Residual Saliva for Efficient Noninvasive Genetic Monitoring of Brown Bears (Ursus arctos)

Author

Taal Levi, Jennifer M. Allen, Sophie D. L. Miller, Christopher C. Wilmers, and Rachel E. Wheat

Subjects

Male, 0106 biological sciences, 0301 basic medicine, Saliva, Oncorhynchus, Physiology, Marine and Aquatic Sciences, lcsh:Medicine, Artificial Gene Amplification and Extension, Polymerase Chain Reaction, 01 natural sciences, Geographical locations, law.invention, Salmon, law, Medicine and Health Sciences, Environmental DNA, Ursus, lcsh:Science, Polymerase chain reaction, Mammals, Multidisciplinary, Geography, Fishes, Body Fluids, Osteichthyes, Vertebrates, Female, Seasons, Anatomy, Ursidae, Research Article, Freshwater Environments, Genotyping, Genotype, Muscle Tissue, Zoology, Bears, Population biology, Environment, Biology, Research and Analysis Methods, 010603 evolutionary biology, Specimen Handling, 03 medical and health sciences, Species Specificity, Animals, Molecular Biology Techniques, Molecular Biology, Feces, Ecology and Environmental Sciences, lcsh:R, Organisms, Biology and Life Sciences, Aquatic Environments, DNA, Sequence Analysis, DNA, Bodies of Water, biology.organism_classification, United States, Lakes, Biological Tissue, 030104 developmental biology, Predatory Behavior, Amniotes, North America, Earth Sciences, lcsh:Q, People and places, Alaska, Genetic monitoring

Abstract

Noninvasive genetic sampling is an important tool in wildlife ecology and management, typically relying on hair snaring or scat sampling techniques, but hair snaring is labor and cost intensive, and scats yield relatively low quality DNA. New approaches utilizing environmental DNA (eDNA) may provide supplementary, cost-effective tools for noninvasive genetic sampling. We tested whether eDNA from residual saliva on partially-consumed Pacific salmon (Oncorhynchus spp.) carcasses might yield suitable DNA quality for noninvasive monitoring of brown bears (Ursus arctos). We compared the efficiency of monitoring brown bear populations using both fecal DNA and salivary eDNA collected from partially-consumed salmon carcasses in Southeast Alaska. We swabbed a range of tissue types from 156 partially-consumed salmon carcasses from a midseason run of lakeshore-spawning sockeye (O. nerka) and a late season run of stream-spawning chum (O. keta) salmon in 2014. We also swabbed a total of 272 scats from the same locations. Saliva swabs collected from the braincases of salmon had the best amplification rate, followed by swabs taken from individual bite holes. Saliva collected from salmon carcasses identified unique individuals more quickly and required much less labor to locate than scat samples. Salmon carcass swabbing is a promising method to aid in efficient and affordable monitoring of bear populations, and suggests that the swabbing of food remains or consumed baits from other animals may be an additional cost-effective and valuable tool in the study of the ecology and population biology of many elusive and/or wide-ranging species.

Published

2016

6. Raising money for scientific research through crowdfunding

Author

Rachel E. Wheat, Jarrett E. K. Byrnes, Jai Ranganathan, and Yiwei Wang

Subjects

Ecology, business.industry, Ecology (disciplines), Perspective (graphical), MEDLINE, Fund Raising, Public relations, Crowdsourcing, Raising (linguistics), Political science, Fund raising, business, Ecology, Evolution, Behavior and Systematics

Abstract

In this article we discuss the utility of crowdfunding from the perspective of individual scientists or laboratory groups looking to fund research. We address some of the main factors determining the success of crowdfunding campaigns, and compare this approach with the use of traditional funding sources.

Published

2012

7. Differential use of salmon by vertebrate consumers: implications for conservation

Author

Christopher C. Wilmers, Rachel E. Wheat, Taal Levi, and Jennifer M. Allen

Subjects

Resource (biology), Conservation Biology, Resource pulse, Wildlife, lcsh:Medicine, STREAMS, Biology, General Biochemistry, Genetics and Molecular Biology, Scavenger, Life history theory, biology.animal, Anadromous fish, Bald eagle, Life history, Fish migration, Ecology, General Neuroscience, Ephemeral key, lcsh:R, Marine-derived nutrients, Vertebrate, General Medicine, Bear, Fishery, General Agricultural and Biological Sciences, Zoology

Abstract

Salmon and other anadromous fish are consumed by vertebrates with distinct life history strategies to capitalize on this ephemeral pulse of resource availability. Depending on the timing of salmon arrival, this resource may be in surplus to the needs of vertebrate consumers if, for instance, their populations are limited by food availability during other times of year. However, the life history of some consumers enables more efficient exploitation of these ephemeral resources. Bears can deposit fat and then hibernate to avoid winter food scarcity, and highly mobile consumers such as eagles, gulls, and other birds can migrate to access asynchronous pulses of salmon availability. We used camera traps on pink, chum, and sockeye salmon spawning grounds with various run times and stream morphologies, and on individual salmon carcasses, to discern potentially different use patterns among consumers. Wildlife use of salmon was highly heterogeneous. Ravens were the only avian consumer that fed heavily on pink salmon in small streams. Eagles and gulls did not feed on early pink salmon runs in streams, and only moderately at early sockeye runs, but were the dominant consumers at late chum salmon runs, particularly on expansive river flats. Brown bears used all salmon resources far more than other terrestrial vertebrates. Notably, black bears were not observed on salmon spawning grounds despite being the most frequently observed vertebrate on roads and trails. From a conservation and management perspective, all salmon species and stream morphologies are used extensively by bears, but salmon spawning late in the year are disproportionately important to eagles and other highly mobile species that are seasonally limited by winter food availability.

Published

2015