Your search keyword '"Muthersbaugh, Michael"' showing total 24 results

1. Assessing the space between science and practice in endangered species conservation

Author

Jachowski, David S., Harris, Stephen N., Jensen, Alex J., Keating, Meghan P., Muthersbaugh, Michael S., Nelson, Dana L., Pruitt, Brianna R., Rosales, Eduardo, Saldo, Elizabeth A., and Titus, Keifer L.

Published

2024

2. Poleward expansion of Turkey Vultures (Cathartes aura) under future conditions/Expansión hacia los polos del zopilote de cabeza roja (Cathartes aura) bajo condiciones futuras

Author

Marneweck, Courtney J., Harris, Stephen N., Jensen, Alex J., Keating, Meghan P., Muthersbaugh, Michael, Nelson, Dana L., Rosales, Eduardo, Saldo, Elizabeth A., Titus, Keifer, and Jachowski, David S.

Subjects

Ecosystems -- Analysis, Precipitation (Meteorology) -- Analysis, Vultures -- Analysis, Biological sciences

Abstract

With rapid global change in the Anthropocene, it is important to understand and predict changes in species distributions that could potentially impact entire ecosystems. Turkey Vulture (Cathartes aura) distribution has been expanding and, as an obligate scavenger, its presence can have an impact on the ecosystems it inhabits. Here we investigated the relative impact of human population density and climate (temperature and precipitation) on Turkey Vulture presence. We used eBird community science data from 2010-2020 to create a species distribution model for Turkey Vultures across their entire range using a Random Forests algorithm. We then projected this distribution for the year 2070 to estimate any changes. Our model predicted an expansion in Turkey Vulture distribution during the breeding season of May-August. This suggests that areas of both North and South America where only seasonal, migratory Turkey Vultures currently exist can expect resident populations of Turkey Vultures in the future. Mild temperature was an important variable for presence during the nonbreeding season, whereas low human density was more important for predicting presence during the breeding season. The distribution of Turkey Vultures is widest during the breeding season, meaning that factors influencing the breeding range could be considered more important when considering range expansion. As such, our findings suggest that warmer boreal winters coupled with the potential presence of domestic carcasses in agricultural areas (i.e., low human density) are facilitating Turkey Vulture range expansion. This expansion has important implications for the scavenging community in northern latitudes where increased Turkey Vulture presence might impact other species relying on carrion. Key words: climate, global change, human density, random forests, range expansion, scavenger. Con el rápido cambio global en el Antropoceno, es importante entender y predecir cambios en distribución de especies que podrían potencialmente tener un impacto en ecosistemas completos. La distribución del zopilote de cabeza roja (Cathartes aura) se ha ido expandiendo y, como carroñero obligado, su presencia puede tener un impacto en los ecosistemas que habita. Aqui investigamos el impacto relativo de la densidad de población humana y del clima (temperatura y precipitación) en la presencia del zopilote de cabeza roja. Utilizamos datos de ciencia ciudadana de eBird del 2010-2020 para crear modelos de distribución de especies de los zopilotes de cabeza roja en su rango completo usando un algoritmo de Random Forests. Luego proyectamos su distribución para el año 2070 para estimar cambios posibles. Nuestro modelo predijo una expansión en la distribución del zopilote de cabeza roja durante la temporada reproductiva de mayo-agosto. Esto sugiere que áreas tanto de Norte como Sudamérica donde los zopilotes de cabeza roja eran solo estacionales migratorios podrían esperar tener poblaciones residentes de este zopilote en el futuro. La variable temperatura templada fue importante para la presencia durante la temporada no-reproductiva, mientras que la baja densidad humana fue un predictor más importante durante la temporada reproductiva. La distribución de los zopilotes de cabeza roja es más amplia durante la temporada reproductiva, lo que significa que los factores que influyen en el rango reproductivo podrían ser considerados más importantes al considerar la expansión de rango. Asi, nuestros hallazgos sugieren que inviernos boreales más cálidos junto con la presencia potencial de restos de animales domésticos en áreas agrícolas (es decir, de baja densidad humana) facilitan el rango de expansión del zopilote de cabeza roja. Esta expansión tiene implicaciones importantes para la comunidad de carroñeros en latitudes norteñas donde la presencia en aumento del zopilote de cabeza roja puede tener un impacto en otras especies dependientes de la carroña. Palabras clave: cambio global, carroñero, clima, densidad humana, expansión de rango., Vultures are declining on a global scale, with 62% of species showing declining populations and 57% threatened with extinction (IUCN 2020). In contrast to vulture populations in Africa and Asia, [...]

Published

2023

3. Unintended consequences of wildlife feeders on spatiotemporal activity of white‐tailed deer, coyotes, and wild pigs.

Author

Saldo, Elizabeth A., Jensen, Alex J., Muthersbaugh, Michael S., Ruth, Charles, Cantrell, Jay, Butfiloski, Joseph W., Yarrow, Greg K., Kilgo, John C., and Jachowski, David S.

Subjects

WILD boar, WHITE-tailed deer, COMPETITION (Biology), ANIMAL populations, UNGULATES, DEER

Abstract

Supplemental feeding of wild ungulates has long been and remains a common practice across Europe and North America. Yet by drawing animals together, supplemental feeding can have unintended, negative effects on individual species and broader ecological processes. These include increased risk of disease transmission, intraspecific and interspecific competition, and predation, which are of management concern for white‐tailed deer (Odocoileus virginianus) in the southeastern United States given the arrival of nonnative wild pigs (Sus scrofa) and coyotes (Canis latrans). We conducted a field experiment between March and July of 2021 to assess the effects of supplemental feeding on spatiotemporal activity patterns of deer and wild pigs at wildlife feeders, and space use of coyotes in the Piedmont region of South Carolina, USA. We observed support for our hypothesis that interspecific competition through increased visitation by larger groups of competitor species reduces use of foraging sites by other subordinate ungulates, where feeders highly visited by wild pigs were rarely visited by deer. While adult deer and wild pigs generally did not shift their temporal activity patterns at feeders, juvenile temporal activity shifted to more frequent visits of feeders during the night, supporting our hypothesis that supplemental feed could increase risk to predator exposure, as coyotes tend to be active during crepuscular hours. Our findings suggest that supplemental feed put out to encourage deer activity could actually deter deer if wild pigs occupy that area, and has potential negative demographic effects if juveniles are at increased risk of predation. Collectively, based on our data, we do not recommend supplemental feeding in the southeastern United States where white‐tailed deer, coyotes, and wild pigs co‐occur. More broadly, given how widespread the legal use of supplemental feed remains across the United States, we encourage landowners and policymakers to consider the full suite of potential direct and indirect, short‐term and long‐term negative impacts supplemental feeding can have on both target and nontarget wildlife populations. [ABSTRACT FROM AUTHOR]

Published

2024

4. Maternal behaviors influence survival of ungulate neonates under heavy predation risk.

Author

Muthersbaugh, Michael S., Boone, Wesley W., Saldo, Elizabeth A., Jensen, Alex J., Cantrell, Jay, Ruth, Charles, Kilgo, John C., and Jachowski, David S.

Subjects

*ANIMAL ecology, *DEER behavior, *WILD boar, *BIRTH intervals, *POPULATION dynamics, *PREDATION

Abstract

Predators impose top‐down forces on prey populations, with the strength of those effects often varying over space and time and among demographic groups. In ungulates, predation risk is typically greatest for neonatal offspring, with some suggesting that predators can key in on adult activity to locate hidden neonates. However, few field studies to date have been able to directly assess the influence of maternal care on ungulate neonate survival. Using a population of white‐tailed deer under heavy coyote predation pressure, we tested the maternal dispersion hypothesis, which suggests the dispersion of maternal activity temporally and spatially attenuates risk of predation for ungulate neonates during this vulnerable altricial phase. We compared support for this hypothesis with more commonly tested hypotheses regarding the influence of habitat conditions and intrinsic factors on neonatal survival. Fawn survival to 16 weeks was 27.7%, with coyotes accounting for 59% of fawn mortalities. In support of our maternal temporal diffusion hypothesis, we found that neonatal survival decreased as more maternal visits (proportionally) occurred at night. The only other significant (p <.1) predictor of fawn survival was birth timing, with fawn survival decreasing as the season progressed. Given that fawn survival declined as the proportion of nighttime visits increased, and that wild pig presence and human disturbance can push doe and fawn activity toward nocturnal hours, additional research is needed to determine whether managing pig and human disturbance can decrease fawn mortality. More broadly, given the importance of recruitment in ungulate population dynamics, our finding opens a potentially important new line of inquiry on how maternal behaviors influence predation risk in large animal predator–prey ecology. [ABSTRACT FROM AUTHOR]

Published

2024

5. Resource pulses shape seasonal and individual variation in the diet of an omnivorous carnivore.

Author

Jensen, Alex J., Muthersbaugh, Michael, Ruth, Charles R., Butfiloski, Joseph W., Cantrell, Jay, Adams, Jennifer, Waits, Lisette, Kilgo, John C., and Jachowski, David S.

Subjects

*RESOURCE availability (Ecology), *BIOTIC communities, *TOP predators, *COYOTE, *DIET

Abstract

Resource pulses are ecologically important phenomenon that occur in most ecosystems globally. Following optimal foraging theory, many consumers switch to pulsatile foods when available, examples of which include fruit mast and vulnerable young prey. Yet how the availability of resource pulses shapes the ecology of predators is still an emerging area of research; and how much individual variation there is in response to pulses is not well understood. We hypothesized that resource pulses would lead to dietary convergence in our population, which we tested by tracking both population‐level and individual coyote diets for 3 years in South Carolina, USA. We (1) described seasonal dietary shifts in relation to resource pulses; (2) compared male and female diets across seasons; and (3) tested this dietary convergence hypothesis by quantifying individual dietary variation both across and within periods when resource pulses were available. We found that pulses of white‐tailed deer fawns and blackberries composed over half of coyote diet in summer, and persimmon fruits were an important component in fall. Male and female coyotes generally had similar diets, but males consumed more deer in fall, perhaps driven by scavenging more. We found support for our dietary convergence hypothesis, where individuals had more similar diets during resource pulses compared to a non‐pulse period. We also found that this convergence happened before peak availability, suggesting a non‐symmetric response to pulse availability. We show that nearly all coyotes eat fawns, suggesting that targeted efforts to remove "fawn killers" would be in vain. Instead, given how quickly coyotes collectively converge on resource pulses, our findings show that resource pulses could potentially be used by managers to alter the behavior of apex predators. More broadly, we open a new line of inquiry into how variation in individual foraging decisions scales up to shape the effects of resource pulses on ecological communities. [ABSTRACT FROM AUTHOR]

Published

2024

6. Bat Activity Following Restoration Prescribed Burning in the Central Appalachian Upland and Riparian Habitats

Author

Austin, Lauren V., Silvis, Alexander, Ford, W. Mark, Muthersbaugh, Michael, and Powers, Karen E.

Published

2018

7. Bat activity following repeated prescribed fire in the central Appalachians, USA

Author

Austin, Lauren V, Silvis, Alexander, Muthersbaugh, Michael S, Powers, Karen E, and Mark Ford, W

Published

2018

8. Middle‐out ecology: small carnivores as sentinels of global change

Author

Marneweck, Courtney J., primary, Allen, Benjamin L., additional, Butler, Andrew R., additional, Do Linh San, Emmanuel, additional, Harris, Stephen N., additional, Jensen, Alex J., additional, Saldo, Elizabeth A., additional, Somers, Michael J., additional, Titus, Keifer, additional, Muthersbaugh, Michael, additional, Vanak, Abi, additional, and Jachowski, David S., additional

Published

2022

9. Middle-out ecology: small carnivores as sentinels of global change

Author

Marneweck, Courtney J., Allen, Benjamin L., Butler, Andrew R., Do Linh San, Emmanuel, Harris, Stephen N., Jensen, Alex J., Saldo, Elizabeth A., Somers, Michael J., Titus, Keifer, Muthersbaugh, Michael, Vanak, Abi, Jachowski, David S., Marneweck, Courtney J., Allen, Benjamin L., Butler, Andrew R., Do Linh San, Emmanuel, Harris, Stephen N., Jensen, Alex J., Saldo, Elizabeth A., Somers, Michael J., Titus, Keifer, Muthersbaugh, Michael, Vanak, Abi, and Jachowski, David S.

Abstract

Species that respond to ecosystem change in a timely, measurable, and interpretable way can be used as sentinels of global change. Contrary to a pervasive view, we suggest that, among Carnivora, small carnivores are more appropriate sentinels than large carnivores. This reasoning is built around six key points: that, compared to large carnivores, small carnivores 1) are more species-rich and diverse, providing more potential sentinels in many systems; 2) occupy a wider range of ecological niches, exhibiting a greater variety of sensitivities to change; 3) hold an intermediate trophic position that is more directly affected by changes at the producer, primary consumer, and tertiary consumer levels; 4) have shorter life spans and higher reproductive rates, exhibiting more rapid responses to change; 5) have smaller home ranges and are more abundant, making it easier to investigate fine-scale management interventions; 6) are easier to monitor, manage, and manipulate. Therefore, we advocate for incorporating a middle-out approach, in addition to the established top-down and bottom-up approaches, to assessing the responses of ecosystems to global change.

Published

2022

10. Broad-scale geographic and temporal assessment of northern long-eared bat (Myotis septentrionalis) maternity colony-landscape association

Author

Gorman, Katherine M., Deeley, Sabrina M., Barr, Elaine L., Freeze, Samuel R., Kalen, Nicholas, Muthersbaugh, Michael S., Ford, W. Mark, Gorman, Katherine M., Deeley, Sabrina M., Barr, Elaine L., Freeze, Samuel R., Kalen, Nicholas, Muthersbaugh, Michael S., and Ford, W. Mark

Abstract

As the federally threatened northern long-eared bat Myotis septentrionalis continues to decline due to white-nose syndrome (WNS) impacts, the application of effective conservation measures is needed but often hindered by the lack of ecological data. To date, recommended management practices have been adopted in part from other federally listed sympatric species such as the endangered Indiana bat M. sodalis. During the maternity season, these measures have largely focused on conservation of known day-roost habitat, often with little consideration for foraging habitat, particularly riparian areas. We examined acoustic activity of northern longeared bats relative to day-roost and capture data at coastal and interior sites in the District of Columbia, New York, Pennsylvania, Virginia, and West Virginia, USA, over the course of 6 summers (2015-2020), where maternity activity was still documented after the initial arrival and spread of WNS. Acoustic activity of northern long-eared bats relative to forest cover decreased at the acoustic site level (fine scale) but increased at the sampling region level (coarse scale). We observed a positive association of northern long-eared bat acoustic activity with riparian areas. Additionally, we observed higher levels of activity during pregnancy through early lactation period of the reproductive cycle prior to juvenile volancy. Our findings suggest the need for more explicit inclusion of forested riparian habitats in northern long-eared bat conservation planning. Acoustic sampling in spring and early summer rather than mid- to late summer and in forested riparian areas is the most effective strategy for identifying potential active northern long-eared bat maternity colonies on the local landscape.

Published

2022

11. Mid-Atlantic Big Brown and Eastern Red Bats: Relationships between Acoustic Activity and Reproductive Phenology

Author

Deeley, Sabrina, Ford, W. Mark, Kalen, Nicholas J., Freeze, Samuel R., St. Germain, Michael, Muthersbaugh, Michael, Barr, Elaine, Kniowski, Andrew, Silvis, Alexander, De La Cruz, Jesse, Deeley, Sabrina, Ford, W. Mark, Kalen, Nicholas J., Freeze, Samuel R., St. Germain, Michael, Muthersbaugh, Michael, Barr, Elaine, Kniowski, Andrew, Silvis, Alexander, and De La Cruz, Jesse

Abstract

Acoustic data are often used to describe bat activity, including habitat use within the summer reproductive period. These data inform management activities that potentially impact bats, currently a taxa of high conservation concern. To understand the relationship between acoustic and reproductive timing, we sampled big brown bats (Eptesicus fuscus) and eastern red bats (Lasiurus borealis) on 482 mist-netting and 35,410 passive acoustic sampling nights within the District of Columbia, Maryland, Pennsylvania, Virginia, and West Virginia, 2015-2018. We documented the proportion of female, pregnant, lactating, and juvenile big brown and eastern red bats within each mist-net sampling event and calculated locally estimated non-parametric scatterplot smoothing (LOESS) lines for each reproductive and acoustic dataset. We compared the peak in acoustic activity with the peaks of each reproductive condition. We determined that the highest levels of acoustic activity within the maternity season were most associated with the period wherein we captured the highest proportions of lactating bats, not juvenile bats, as often assumed.

Published

2022

12. Multi-scale analysis of habitat fragmentation on small-mammal abundance and tick-borne pathogen infection prevalence in Essex County, MA

Author

Mason, Samuel D., primary, Sherratt, Samuel C. R., additional, Kruguer, Samantha M., additional, Muthersbaugh, Michael, additional, Harris, Jonathan P., additional, Gatlin, Wayne C., additional, Topp, Justin D., additional, and Keller, Gregory S., additional

Published

2022

13. Mid-Atlantic Big Brown and Eastern Red Bats: Relationships between Acoustic Activity and Reproductive Phenology

Author

Deeley, Sabrina, primary, Ford, W. Mark, additional, Kalen, Nicholas J., additional, Freeze, Samuel R., additional, St. Germain, Michael, additional, Muthersbaugh, Michael, additional, Barr, Elaine, additional, Kniowski, Andrew, additional, Silvis, Alexander, additional, and De La Cruz, Jesse, additional

Published

2022

14. Spatiotemporal overlap with invasive wild pigs (Sus scrofa) varies by species and season in a temperate ecosystem.

Author

Saldo, Elizabeth A., Jensen, Alex J., Muthersbaugh, Michael S., Butfiloski, Joseph W., Cantrell, Jay, Kilgo, John C., Ruth, Charles, Yarrow, Greg K., and Jachowski, David S.

Subjects

RACCOON, COMPETITION (Biology), BOBCAT, COYOTE, TURKEYS, WILD boar, WHITE-tailed deer

Abstract

Wild pigs (Sus scrofa), which are invasive in many regions globally, can alter ecosystems and compete with native species through interference competition and resource exploitation. Wild pig impacts on other species may increase with greater niche overlap, which could vary over time based on environmental conditions, resource availability, or biological traits like diet, especially as seasonal variation in wild pig diet has been widely documented. A limited number of studies have assessed spatial or temporal overlap between native species and invasive wild pigs, with only a handful simultaneously assessing overlap in these niche dimensions. We investigated the potential for interspecific interactions involving invasive wild pigs in the Piedmont region of South Carolina, USA, by examining seasonal spatiotemporal overlap with other wildlife using N‐mixture models and diel activity overlap analyses. Site use by white‐tailed deer (Odocoileus virginianus) and coyote (Canis latrans) was negatively associated with wild pig activity in the fall, when the species had high diel activity overlap, indicating spatial partitioning could reduce interference competition with wild pigs in this season. Conversely, white‐tailed deer site use was positively associated with wild pig activity in the winter, suggesting higher spatial overlap may be necessary if resources are limited. Site use by bobcat (Lynx rufus) and nine‐banded armadillo (Dasypus novemcinctus) in the spring, along with raccoon (Procyon lotor) and wild turkey (Meleagris gallopavo) site use in the summer, was positively associated with wild pig activity. With the exception of diurnal wild turkey, diel activity overlap between these species and wild pigs was high, although temporal partitioning could have occurred at finer spatiotemporal scales than we examined. Our results collectively emphasize the importance of accounting for seasonal spatial and temporal responses by individual species to invasive wild pigs, with special consideration given to species in seasons where high niche overlap with wild pigs is anticipated. [ABSTRACT FROM AUTHOR]

Published

2023

15. Activity Patterns of Bats During the Fall and Spring Along Ridgelines in the Central Appalachians

Author

Muthersbaugh, Michael S., Ford, W. Mark, Powers, Karen E., Silvis, Alexander, Muthersbaugh, Michael S., Ford, W. Mark, Powers, Karen E., and Silvis, Alexander

Abstract

Many central Appalachian ridges offer high wind potential, making them attractive to future wind-energy development. Understanding seasonal and hourly activity patterns of migratory bat species may help to reduce fatalities at wind-energy facilities and provide guidance for the development of best management practices for bats. To examine hourly migratory bat activity patterns in the fall and spring in Virginia in an exploratory fashion with a suite of general temporal, environmental, and weather variables, we acoustically monitored bat activity on five ridgelines and side slopes from early September through mid-November 2015 and 2016 and from early March through late April 2016 and 2017. On ridges, bat activity decreased through the autumn sample period, but was more variable through the spring sample period. In autumn, migratory bat activity had largely ceased by mid-November. Activity patterns were species specific in both autumn and spring sample periods. Generally, migratory bat activity was negatively associated with hourly wind speeds but positively associated with ambient temperatures. These data provide further evidence that operational mitigation strategies at wind-energy facilities could help protect migratory bat species in the Appalachians; substantially slowing or locking wind turbine blade spin during periods of low wind speeds, often below where electricity is generated, and warm ambient temperatures may minimize mortality during periods of high bat activity.

Published

2019

16. Activity Patterns of Cave-Dwelling Bat Species during Pre-Hibernation Swarming and Post-Hibernation Emergence in the Central Appalachians

Author

Muthersbaugh, Michael S., Ford, W. Mark, Silvis, Alexander, Powers, Karen E., Muthersbaugh, Michael S., Ford, W. Mark, Silvis, Alexander, and Powers, Karen E.

Abstract

In North America, bat research efforts largely have focused on summer maternity colonies and winter hibernacula, leaving the immediate pre- and post-hibernation ecology for many species unstudied. Understanding these patterns and processes is critical for addressing potential additive impacts to White-nose Syndrome (WNS)-affected bats, as autumn is a time of vital weight gain and fat resources are largely depleted in early spring in surviving individuals. Our study sought to examine autumn and spring bat activity patterns in the central Appalachian Mountains around three hibernacula to better understand spatio-temporal patterns during staging for hibernation and post-hibernation migration in the post-WNS environment. From early September through November 2015 and 2016, and from early March through April 2016 and 2017, we assessed the effects of distance to hibernacula and ambient conditions on nightly bat activity for Myotis spp. and big brown bats (Eptesicus fuscus) using zero-crossing frequency division bat detectors near cave entrances and 1 km, 2 km, and 3 km distant from caves. Following identification of echolocation calls, we used generalized linear mixed effects models to examine patterns of activity across the landscape over time and relative to weather. Overall bat activity was low at all sample sites during autumn and spring periods except at sites closest to hibernacula. Best-supported models describing bat activity varied, but date and ambient temperatures generally appeared to be major drivers of activity in both seasons. Total activity for all species had largely ceased by mid-November. Spring bat activity was variable across the sampling season, however, some activity was observed as early as mid-March, almost a month earlier than the historically accepted emergence time regionally. Current timing of restrictions on forest management activities that potentially remove day-roosts near hibernacula when bats are active on the landscape may

Published

2019

17. Activity Patterns of Cave-Dwelling Bat Species during Pre-Hibernation Swarming and Post-Hibernation Emergence in the Central Appalachians

Author

Fish and Wildlife Conservation, Muthersbaugh, Michael S., Ford, W. Mark, Silvis, Alexander, Powers, Karen E., Fish and Wildlife Conservation, Muthersbaugh, Michael S., Ford, W. Mark, Silvis, Alexander, and Powers, Karen E.

Abstract

In North America, bat research efforts largely have focused on summer maternity colonies and winter hibernacula, leaving the immediate pre- and post-hibernation ecology for many species unstudied. Understanding these patterns and processes is critical for addressing potential additive impacts to White-nose Syndrome (WNS)-affected bats, as autumn is a time of vital weight gain and fat resources are largely depleted in early spring in surviving individuals. Our study sought to examine autumn and spring bat activity patterns in the central Appalachian Mountains around three hibernacula to better understand spatio-temporal patterns during staging for hibernation and post-hibernation migration in the post-WNS environment. From early September through November 2015 and 2016, and from early March through April 2016 and 2017, we assessed the effects of distance to hibernacula and ambient conditions on nightly bat activity for Myotis spp. and big brown bats (Eptesicus fuscus) using zero-crossing frequency division bat detectors near cave entrances and 1 km, 2 km, and 3 km distant from caves. Following identification of echolocation calls, we used generalized linear mixed effects models to examine patterns of activity across the landscape over time and relative to weather. Overall bat activity was low at all sample sites during autumn and spring periods except at sites closest to hibernacula. Best-supported models describing bat activity varied, but date and ambient temperatures generally appeared to be major drivers of activity in both seasons. Total activity for all species had largely ceased by mid-November. Spring bat activity was variable across the sampling season, however, some activity was observed as early as mid-March, almost a month earlier than the historically accepted emergence time regionally. Current timing of restrictions on forest management activities that potentially remove day-roosts near hibernacula when bats are active on the landscape may

Published

2019

18. Activity Patterns of Bats During the Fall and Spring Along Ridgelines in the Central Appalachians

Author

Fish and Wildlife Conservation, Muthersbaugh, Michael S., Ford, W. Mark, Powers, Karen E., Silvis, Alexander, Fish and Wildlife Conservation, Muthersbaugh, Michael S., Ford, W. Mark, Powers, Karen E., and Silvis, Alexander

Abstract

Many central Appalachian ridges offer high wind potential, making them attractive to future wind-energy development. Understanding seasonal and hourly activity patterns of migratory bat species may help to reduce fatalities at wind-energy facilities and provide guidance for the development of best management practices for bats. To examine hourly migratory bat activity patterns in the fall and spring in Virginia in an exploratory fashion with a suite of general temporal, environmental, and weather variables, we acoustically monitored bat activity on five ridgelines and side slopes from early September through mid-November 2015 and 2016 and from early March through late April 2016 and 2017. On ridges, bat activity decreased through the autumn sample period, but was more variable through the spring sample period. In autumn, migratory bat activity had largely ceased by mid-November. Activity patterns were species specific in both autumn and spring sample periods. Generally, migratory bat activity was negatively associated with hourly wind speeds but positively associated with ambient temperatures. These data provide further evidence that operational mitigation strategies at wind-energy facilities could help protect migratory bat species in the Appalachians; substantially slowing or locking wind turbine blade spin during periods of low wind speeds, often below where electricity is generated, and warm ambient temperatures may minimize mortality during periods of high bat activity.

Published

2019

19. Seasonal activity patterns of bats in the Central Appalachians

Author

Muthersbaugh, Michael S., Fish and Wildlife Conservation, Ford, W. Mark, Powers, Karen E., and Silvis, Alexander

Subjects

roost trees, atmospheric conditions, caves, White-nose Syndrome, activity, bats, Virginia, ridges, Central Appalachians, migration

Abstract

Two threats to bats are especially pervasive in the central Appalachian Mountains of the eastern United States: a fungal disease called White-nose Syndrome (WNS) and wind energy development. White-nose Syndrome has caused the death of millions of bats in North America, and multiple hibernating bat species are affected in the central Appalachians. Wind energy is one of the most rapidly-growing energy sources in eastern United States, and bats are often killed when they fly near wind turbines. Fatality rates at wind turbines is highest in bat species that migrate instead of hibernate. There is limited data on bats during the autumn and spring seasons in the central Appalachian Mountains, and the impacts of WNS and wind energy development may be exacerbated during these seasons. Therefore, I sought to determine patterns and drivers of activity for hibernating bat species during autumn and spring around hibernacula. Similarly, I set out to determine patterns and drivers of activity for migratory bat species during autumn and spring along mountain ridgelines in the central Appalachians. Lastly, I searched for evidence of potential WNS-induced changes in the summer ecology of the once common northern long eared bat. This study can help elucidate patterns of bat activity during largely understudied seasons. Furthermore, it can provide useful information needed by land managers to implement actions that could help alleviate and/or avoid potential additive negative impacts on bat species with existing conservation concerns. MS

Published

2018

20. Activity Patterns of Bats During the Fall and Spring Along Ridgelines in the Central Appalachians

Author

Muthersbaugh, Michael S., primary, Ford, W. Mark, additional, Powers, Karen E., additional, and Silvis, Alexander, additional

Published

2019

21. Bat activity following repeated prescribed fire in the central Appalachians, USA

Author

Austin, Lauren V., Silvis, Alexander, Muthersbaugh, Michael S., Powers, Karen E., Ford, W. Mark, Austin, Lauren V., Silvis, Alexander, Muthersbaugh, Michael S., Powers, Karen E., and Ford, W. Mark

Abstract

Background To restore and manage fire-adapted forest communities in the central Appalachians, USA, land managers are now increasingly prioritizing use of prescribed fire. However, it is unclear how the reintroduction of fire following decades of suppression will affect bat communities, particularly where white-nose syndrome-related population declines of many cave-hibernating bat species have occurred. To address this concern, we monitored and compared bat activity in burned and unburned habitat across a temporal gradient in western Virginia. Results We found evidence for slightly positive fire effects on activity levels of the northern long-eared bat (Myotis septentrionalis [Trouessart, 1897]), Indiana bat (Myotis sodalis [Miller and Allen, 1928]), little brown bat (Myotis lucifugus [Le Conte, 1831]), big brown bat (Eptesicus fuscus [Palisot de Beauvois, 1796])/silver-haired bat (Lasionycteris noctivagans [Le Conte, 1831]) group, all high-frequency bats, and all bat species combined. We observed temporal effects only for the big brown bat, with a negative relationship between activity and time since fire. Conclusions Because response of bat activity was neutral to weakly positive relative to burned forest condition, our results suggest that bats are not a resource that would impede the use of this management tool in the central Appalachians.

Published

2018

22. Bat Activity Following Restoration Prescribed Burning in the Central Appalachian Upland and Riparian Habitats

Author

Fish and Wildlife Conservation, Austin, Lauren V., Silvis, Alexander, Ford, W. Mark, Muthersbaugh, Michael S., Powers, Karen E., Fish and Wildlife Conservation, Austin, Lauren V., Silvis, Alexander, Ford, W. Mark, Muthersbaugh, Michael S., and Powers, Karen E.

Abstract

After decades of fire suppression in eastern North America, land managers now are prioritizing prescribed fire as a management tool to restore or maintain fire-adapted vegetation communities. However, in long-fire-suppressed landscapes, such as the central and southern Appalachians, it is unknown how bats will respond to prescribed fire in both riparian and upland forest habitats. To address these concerns, we conducted zero-crossing acoustic surveys of bat activity in burned, unburned, riparian, and non-riparian areas in the central Appalachians, Virginia, USA. Burn and riparian variables had model support (Delta AICc < 4) to explain activity of all bat species. Nonetheless, parameter estimates for these conditions were small and confidence intervals overlapped zero for all species, indicating effect sizes were marginal. Our results suggest that bats respond to fire differently between upland and riparian forest habitats, but overall, large landscape-level prescribed fire has a slightly positive to neutral impact on all bats species identified at our study site post-fire application.

Published

2018

23. Bat activity following repeated prescribed fire in the central Appalachians, USA

Author

Fish and Wildlife Conservation, Freshwater Mollusk Conservation Center, Austin, Lauren V., Silvis, Alexander, Muthersbaugh, Michael S., Powers, Karen E., Ford, W. Mark, Fish and Wildlife Conservation, Freshwater Mollusk Conservation Center, Austin, Lauren V., Silvis, Alexander, Muthersbaugh, Michael S., Powers, Karen E., and Ford, W. Mark

Abstract

Background To restore and manage fire-adapted forest communities in the central Appalachians, USA, land managers are now increasingly prioritizing use of prescribed fire. However, it is unclear how the reintroduction of fire following decades of suppression will affect bat communities, particularly where white-nose syndrome-related population declines of many cave-hibernating bat species have occurred. To address this concern, we monitored and compared bat activity in burned and unburned habitat across a temporal gradient in western Virginia. Results We found evidence for slightly positive fire effects on activity levels of the northern long-eared bat (Myotis septentrionalis [Trouessart, 1897]), Indiana bat (Myotis sodalis [Miller and Allen, 1928]), little brown bat (Myotis lucifugus [Le Conte, 1831]), big brown bat (Eptesicus fuscus [Palisot de Beauvois, 1796])/silver-haired bat (Lasionycteris noctivagans [Le Conte, 1831]) group, all high-frequency bats, and all bat species combined. We observed temporal effects only for the big brown bat, with a negative relationship between activity and time since fire. Conclusions Because response of bat activity was neutral to weakly positive relative to burned forest condition, our results suggest that bats are not a resource that would impede the use of this management tool in the central Appalachians.

Published

2018

24. Drivers of White-Tailed Deer (Odocoileus Virginianus) Behavior, Survival, and Population Growth in the Piedmont of South Carolina

Author

Muthersbaugh, Michael

Subjects

Predator, Prey, Ungulate, Ecology, South Carolina, Behavior, Behavior and Ethology

Abstract

Prey species adjust behaviors in response to various stimuli, responding to both top-down and bottom-up pressures. Large herbivores must attempt to avoid predation either through adjusting behaviors or seeking spatial or temporal refugia, which can scale up to influence individual fitness and ultimately population dynamics. Specifically, predation risk has a great potential to influence ungulate populations by impacting behaviors and survival. Our objective was to quantify ungulate behavioral and population response to a regionally important predator through a case study – white-tailed deer (Odocoileus virginianus) responses to coyotes (Canis latrans) on private lands in the Piedmont of South Carolina at multiple spatial, temporal and behavioral scales. In Chapter 1, we simultaneously examined three deer behaviors: spatial activity patterns, diel activity patterns, and vigilance, and tested for evidence deer modify these behaviors in response to various abiotic and biotic factors including different scales of coyote encounter risk. We found that multiple deer behaviors were responsive to different scales of coyote encounter risk, but behavioral responses varied among demographics. Specifically, does increased vigilance at sites with greater long-term coyote encounter risk, but does’ spatial activity was positively related to short-term coyote encounter risk. Contrary to our predictions, does did not increase vigilance in the presence of juveniles, and does with fawns (nursery groups) did not increase vigilance at sites with greater long-term nor short-term coyote encounter risk. We also found that invasive competitors (wild pigs; Sus scrofa) variably impacted behaviors among deer demographics, potentially increasing risk of does with fawns encountering coyotes. Further, we found that nursery groups were significantly more diurnal compared to bucks and does travelling alone, indicating does with fawns attempt to seek temporal refugia in order to reduce coyote predation risk for their offspring. In Chapter 2, we investigated the effects of deer maternal behaviors and long-term coyote encounter risk on fawn survival. We found that fawn survival was positively related to doe core home range size, but negatively related to the interactive effects of long-term coyote encounter risk and doe-fawn visitation rates. Further, we found that fawn survival was negatively related to the proportion of nocturnal doe-fawn visits. In Chapter 3, we quantified the effects of abiotic and biotic factors on the deer maternal behaviors important to fawn survival. We found that edge density within doe core home ranges was positively related to the size of doe core home ranges and the average distance between doe-fawn pairs. Collectively, these results suggest that habitat conditions impacted maternal behaviors whereas long-term coyote encounter risk did not influence maternal behaviors. In Chapter 4, we developed population models to project population growth rate under current conditions and theoretical scenarios representing specific management actions. We found that the population was gradually declining under current conditions, but even modest increases in fawn survival could stabilize the population. We found that increased availability of alternative coyote food items (and associated reduction in fawn predation) could lead to a stable population, and we showed how managers can likely use a combination of strategies (i.e., reduced doe harvest and increased alternative food for coyotes) to achieve population goals without the need for attempts to eliminate or limit coyote populations. Our study adds to the mounting evidence that coyotes can impact southeastern deer populations, and provide novel insights into how deer are behaviorally responding to coyote predation risk and how those behaviors scale up to population dynamics. Does in our study area likely perceive coyote predation risk and seek temporal refugia for their fawns, yet did not adjust fine-scale maternal behaviors in response to long-term coyote encounter risk. While it is possible that does modify behaviors at other scales, such as birth site selection, our results collectively suggest that does are not exhibiting fine-scale maternal behaviors during the rearing of vulnerable fawns as would be expected based on other studies of ungulates under similarly high levels of predation risk. Further, given population-level declines, our findings collectively suggest deer are not able to modify their behaviors to maximize their reproductive fitness and novel coyotes are outpacing deer in the predator-prey arms race. Fawn survival is paramount to deer population growth in the Southeast, and because coyote predation on fawns likely will remain omnipresent in the region despite any eradication efforts, our study provides important insights into potential ways managers can help sustain and grow deer populations despite coyote presence on the landscape. More broadly, our study highlights the importance of understanding population-specific responses to a novel predator and provides guidance on potential management strategies to increase fawn survival and achieve population goals.

Published

2023