Your search keyword '"*HOARY bat"' showing total 198 results

1. A genomic hotspot of diversifying selection and structural change in the hoary bat (Lasiurus cinereus).

Author

Cornman, Robert S.

Subjects

BATS, GENE expression, PHYLOGENY, COMPARATIVE genomics

Abstract

Background: Previous work found that numerous genes positively selected within the hoary bat (Lasiurus cinereus) lineage are physically clustered in regions of conserved synteny. Here I further validate and expand on those finding utilizing an updated L. cinereus genome assembly and additional bat species as well as other tetrapod outgroups. Methods: A chromosome-level assembly was generated by chromatin-contact mapping and made available by DNAZoo (www.dnazoo.org). The genomic organization of orthologous genes was extracted from annotation data for multiple additional bat species as well as other tetrapod clades for which chromosome-level assemblies were available from the National Center for Biotechnology Information (NCBI). Tests of branch-specific positive selection were performed for L. cinereus using PAML as well as with the HyPhy package for comparison. Results: Twelve genes exhibiting significant diversifying selection in the L. cinereus lineage were clustered within a 12-Mb genomic window; one of these (Trpc4) also exhibited diversifying selection in bats generally. Ten of the 12 genes are landmarks of two distinct blocks of ancient synteny that are not linked in other tetrapod clades. Bats are further distinguished by frequent structural rearrangements within these synteny blocks, which are rarely observed in other Tetrapoda. Patterns of gene order and orientation among bat taxa are incompatible with phylogeny as presently understood, implying parallel evolution or subsequent reversals. Inferences of positive selection were found to be robust to alternative phylogenetic topologies as well as a strong shift in background nucleotide composition in some taxa. Discussion: This study confirms and further localizes a genomic hotspot of protein-coding divergence in the hoary bat, one that also exhibits an increased tempo of structural change in bats compared with other mammals. Most genes in the two synteny blocks have elevated expression in brain tissue in humans and model organisms, and genetic studies implicate the selected genes in cranial and neurological development, among other functions. [ABSTRACT FROM AUTHOR]

Published

2024

2. A genomic hotspot of diversifying selection and structural change in the hoary bat (Lasiurus cinereus)

Author

Robert S. Cornman

Subjects

Hoary bat, Evolutionary rate analysis, Comparative genomics, Adaptation, Medicine, Biology (General), QH301-705.5

Abstract

Background Previous work found that numerous genes positively selected within the hoary bat (Lasiurus cinereus) lineage are physically clustered in regions of conserved synteny. Here I further validate and expand on those finding utilizing an updated L. cinereus genome assembly and additional bat species as well as other tetrapod outgroups. Methods A chromosome-level assembly was generated by chromatin-contact mapping and made available by DNAZoo (www.dnazoo.org). The genomic organization of orthologous genes was extracted from annotation data for multiple additional bat species as well as other tetrapod clades for which chromosome-level assemblies were available from the National Center for Biotechnology Information (NCBI). Tests of branch-specific positive selection were performed for L. cinereus using PAML as well as with the HyPhy package for comparison. Results Twelve genes exhibiting significant diversifying selection in the L. cinereus lineage were clustered within a 12-Mb genomic window; one of these (Trpc4) also exhibited diversifying selection in bats generally. Ten of the 12 genes are landmarks of two distinct blocks of ancient synteny that are not linked in other tetrapod clades. Bats are further distinguished by frequent structural rearrangements within these synteny blocks, which are rarely observed in other Tetrapoda. Patterns of gene order and orientation among bat taxa are incompatible with phylogeny as presently understood, implying parallel evolution or subsequent reversals. Inferences of positive selection were found to be robust to alternative phylogenetic topologies as well as a strong shift in background nucleotide composition in some taxa. Discussion This study confirms and further localizes a genomic hotspot of protein-coding divergence in the hoary bat, one that also exhibits an increased tempo of structural change in bats compared with other mammals. Most genes in the two synteny blocks have elevated expression in brain tissue in humans and model organisms, and genetic studies implicate the selected genes in cranial and neurological development, among other functions.

Published

2024

3. Lasiurusvillosissimus (Chiroptera: Vespertilionidae).

Author

Díaz, M. Mónica, Núñez-Rodríguez, Álvaro, Allendes, Juan Luis, Barquez, Rubén M., and Pedro, Annia Rodríguez-San

Subjects

*VESPERTILIONIDAE, *BATS, *SPECIES

Abstract

The South American hoary bat, Lasiurus villosissimus (É. Geoffroy Saint-Hilaire, 1806), is a vespertilionid bat, endemic to South America and occurring in all countries except Guyana, French Guiana, and Suriname. It is one of the four species included in the subgenus Aeorestes. Lasiurus villosissimus is distinguishable from all other species of the genus by its larger size and coloration (except Lasiurus cinereus, but it only occurs in Mexico, Central America, and the Hawaiian Islands). Pelage is dark brownish and grayish mixed with yellow, tinged with white, producing a frosty or hoary appearance which is always evident. It is an insectivorous species that inhabits a great variety of habitats. Resumen : El murciélago escarchado sudamericano, Lasiurus villosissimus (É. Geoffroy Saint-Hilaire, 1806), es un murciélago vespertiliónido, endémico de Sudamérica, que está presente en todos los países excepto Guyana, Guyana Francesa y Surinam. Es una de las cuatro especies incluidas en el subgénero Aeorestes. Lasiurus villosissimus se distingue de las otras especies de su género por un mayor tamaño y una coloración diferencial (excepto por Lasiurus cinereus, pero éste sólo se distribuye por México, América Central y el archipiélago de Hawái). El pelaje es marrón oscuro y grisáceo mezclado con amarillo, teñido de blanco, dándole una apariencia escarchada que es siempre patente. Es una especie insectívora presente en una gran variedad de hábitats. [ABSTRACT FROM AUTHOR]

Published

2023

4. Sampling methodology influences habitat suitability modeling for chiropteran species.

Author

Gaulke, Sarah M., Hohoff, Tara, Rogness, Brittany A., and Davis, Mark A.

Subjects

*HABITATS, *LIFE history theory, *FORESTS & forestry, *ZOOLOGICAL surveys, *HABITAT conservation, *SPECIES

Abstract

Technological advances increase opportunities for novel wildlife survey methods. With increased detection methods, many organizations and agencies are creating habitat suitability models (HSMs) to identify critical habitats and prioritize conservation measures. However, multiple occurrence data types are used independently to create these HSMs with little understanding of how biases inherent to those data might impact HSM efficacy. We sought to understand how different data types can influence HSMs using three bat species (Lasiurus borealis, Lasiurus cinereus, and Perimyotis subflavus). We compared the overlap of models created from passive‐only (acoustics), active‐only (mist‐netting and wind turbine mortalities), and combined occurrences to identify the effect of multiple data types and detection bias. For each species, the active‐only models had the highest discriminatory ability to tell occurrence from background points and for two of the three species, active‐only models preformed best at maximizing the discrimination between presence and absence values. By comparing the niche overlaps of HSMs between data types, we found a high amount of variation with no species having over 45% overlap between the models. Passive models showed more suitable habitat in agricultural lands, while active models showed higher suitability in forested land, reflecting sampling bias. Overall, our results emphasize the need to carefully consider the influences of detection and survey biases on modeling, especially when combining multiple data types or using single data types to inform management interventions. Biases from sampling, behavior at the time of detection, false positive rates, and species life history intertwine to create striking differences among models. The final model output should consider biases of each detection type, particularly when the goal is to inform management decisions, as one data type may support very different management strategies than another. [ABSTRACT FROM AUTHOR]

Published

2023

5. One model to rule them all: identifying priority bat habitats from multi‐species habitat suitability models.

Author

Gaulke, Sarah M., Cable, Ashleigh B., Hohoff, Tara C., Rogness, Brittany A., and Davis, Mark A.

Subjects

*HABITATS, *CORRIDORS (Ecology), *RIPARIAN areas, *BATS, *HABITAT selection, *ENERGY development, *WIND power

Abstract

Bats are important components of global ecosystems, providing essential ecosystem services with substantial economic benefit. Yet North American bat populations have been negatively affected by numerous factors (e.g., disease, habitat loss, wind energy development) with compounding effects. Bats use habitats at a variety of scales, from small, isolated patches to large, contiguous corridors. Landscape‐level research is necessary to identify important habitats, patches, and corridors to strategically target management interventions. We created habitat suitability models (HSMs) for hoary bats (Lasiurus cinereus), eastern red bats (L. borealis), and tri‐colored bats (Perimyotis subflavus) across Illinois, USA, using species‐specific landscape and climate variables. With the 3 models from this study and a previously published HSM for Indiana bats (Myotis sodalis), we stacked binary HSMs, thereby identifying priority conservation areas across Illinois. Species exhibited different distributional patterns and habitat preferences across Illinois. Multi‐species HSMs highlight high quality habitat (i.e., ecologically important habitat that provides preferred resources for roosting, foraging, and raising young) in southern Illinois and along river riparian areas. This approach identified priority conservation areas mainly following hydrologic zones, which allows managers to strategically target restoration and conservation measures, invest funds in habitat likely to have high return‐on‐investment, and assist with decisions that affect bats (e.g., siting wind turbines, purchasing mitigation lands). [ABSTRACT FROM AUTHOR]

Published

2023

6. Seasonal and Elevational Differences by Sex in Capture Rate of 'Ōpe'ape'a (Lasiurus semotus) on Hawai'i Island.

Author

Hoeh, Julia P.S., Aguirre, Aaron A., Calderon, Flor A., Casler, Sean P., Ciarrachi, Sarah G., Courtot, Karen N., Montoya-Aiona, Kristina M., Pinzari, Corinna A., and Gorresen, P. Marcos

Subjects

*RADIO transmitters & transmission, *ENDANGERED species, *ISLANDS, *SEASONS, *BATS, *FEMALES

Abstract

The study of nocturnally active bats is difficult even for those species that seasonally congregate. This challenge is particularly acute for 'ōpe'ape'a (Hawaiian hoary bat; Lasiurus semotus) because of its solitary foliage-roosting behavior. Yet surveys are essential for conservation and management of this endangered species and only land mammal endemic to the Hawaiian Islands. We surveyed for 'ōpe'ape'a at 23 sites and a range of elevations (33–2,341 m) on Hawai'i Island from May 2018 to August 2021. We captured 138 unique bats (37 female, 101 male) over 224 mist-netting events. We averaged 16 net-hours per bat capture, with peak captures 30–90 min after sunset. We marked all captured individuals in this study with identifying forearm bands and recaptures represented 7% of total captures (10 of 148). We developed generalized linear mixed models to examine the relationship of nightly bat captures by sex to elevation and time-of-year while accounting for variable sampling effort and repeated sampling in this study. Both males and females were captured at low and high elevations with peak capture rates occurring at approximately 930 m. The capture rate for females was highest during the reproductive season (May to September), whereas it was highest for males during the non-reproductive season (October to April). This study informs future fieldwork with a description of 'ōpe'ape'a capture on Hawai'i Island by sex, elevation, time-of-year and time-of-night, radio transmitter retention, and recapture frequency. [ABSTRACT FROM AUTHOR]

Published

2023

7. Genetic diversity, structure, and effective population size of an endangered, endemic hoary bat, 'ōpe'ape'a, across the Hawaiian Islands.

Author

Pinzari, Corinna A., Bellinger, M. Renee, Price, Donald, and Bonaccorso, Frank J.

Subjects

GENETIC variation, ARCHIPELAGOES, WILDLIFE conservation, ENDANGERED species, ISLANDS, BATS

Abstract

Island bat species are disproportionately at risk of extinction, and Hawai'i's only native terrestrial land mammal, the Hawaiian hoary bat (Lasiurus semotus) locally known as 'ōpe'ape'a, is no exception. To effectively manage this bat species with an archipelago-wide distribution, it is important to determine the population size on each island and connectivity between islands. We used 18 nuclear microsatellite loci and one mitochondrial gene from 339 individuals collected from 1988-2020 to evaluate genetic diversity, population structure and estimate effective population size on the Islands of Hawai'i, Maui, O'ahu, and Kaua'i. Genetic differentiation occurred between Hawai'i and Maui, both of which were differentiated from O'ahu and Kaua'i. The population on Maui presents the greatest per-island genetic diversity, consistent with their hypothesized status as the original founding population. A signature of isolation by distance was detected between islands, with contemporary migration analyses indicating limited gene flow in recent generations, and male-biased sex dispersal within Maui. Historical and long-term estimates of genetic effective population sizes were generally larger than contemporary estimates, although estimates of contemporary genetic effective population size lacked upper bounds in confidence intervals for Hawai'i and Kaua'i. Contemporary genetic effective population sizes were smaller on O'ahu and Maui. We also detected evidence of past bottlenecks on all islands with the exception of Hawai'i. Our study provides population-level estimates for the genetic diversity and geographic structure of 'ōpe'ape'a, that could be used by agencies tasked with wildlife conservation in Hawai'i. [ABSTRACT FROM AUTHOR]

Published

2023

8. Genetic diversity, structure, and effective population size of an endangered, endemic hoary bat, ʻōpeʻapeʻa, across the Hawaiian Islands

Author

Corinna A. Pinzari, M. Renee Bellinger, Donald Price, and Frank J. Bonaccorso

Subjects

Hawaiian hoary bat, Hawaiʻi, Population genetics, Endangered species, Island bat conservation, Lasiurus, Medicine, Biology (General), QH301-705.5

Abstract

Island bat species are disproportionately at risk of extinction, and Hawaiʻi’s only native terrestrial land mammal, the Hawaiian hoary bat (Lasiurus semotus) locally known as ʻōpeʻapeʻa, is no exception. To effectively manage this bat species with an archipelago-wide distribution, it is important to determine the population size on each island and connectivity between islands. We used 18 nuclear microsatellite loci and one mitochondrial gene from 339 individuals collected from 1988–2020 to evaluate genetic diversity, population structure and estimate effective population size on the Islands of Hawaiʻi, Maui, Oʻahu, and Kauaʻi. Genetic differentiation occurred between Hawaiʻi and Maui, both of which were differentiated from Oʻahu and Kauaʻi. The population on Maui presents the greatest per-island genetic diversity, consistent with their hypothesized status as the original founding population. A signature of isolation by distance was detected between islands, with contemporary migration analyses indicating limited gene flow in recent generations, and male-biased sex dispersal within Maui. Historical and long-term estimates of genetic effective population sizes were generally larger than contemporary estimates, although estimates of contemporary genetic effective population size lacked upper bounds in confidence intervals for Hawaiʻi and Kauaʻi. Contemporary genetic effective population sizes were smaller on Oʻahu and Maui. We also detected evidence of past bottlenecks on all islands with the exception of Hawaiʻi. Our study provides population-level estimates for the genetic diversity and geographic structure of ‘ōpeʻapeʻa, that could be used by agencies tasked with wildlife conservation in Hawaiʻi.

Published

2023

9. NEW RECORDS ABOUT THE DIVERSITY, DISTRIBUTION, AND SEASONAL ACTIVITY PATTERNS BY BATS IN YUKON AND NORTHWESTERN BRITISH COLUMBIA.

Author

Slough, Brian G, Lausen, Cori L, Paterson, Brian, Hansen, Ingebjorg Jean, Thomas, Julie P, Kukka, Piia M, Jung, Thomas S, Rae, Jason, and de Wetering, Debbie van

Subjects

*BATS, *MYOTIS, *SEASONS, *DETECTORS, *WINTER, *INVENTORIES

Abstract

The bat fauna of northwestern Canada remains poorly known, principally owing to a lack of dedicated surveys across this vast region. To better assess the diversity of bats in the region, we compiled records from several acoustic survey projects and capture sessions whose purpose was to inventory bats in Yukon and northwestern British Columbia (BC) from 2013 to 2018. During our surveys we obtained the 1st apparent acoustic records for Yuma Myotis (Myotis yumanensis), Californian Myotis (M. californicus), Long-eared Myotis (M. evotis), Silver-haired Bat (Lasionycteris noctivagans) and Eastern Red Bat (Lasiurus borealis) from this region. We also captured 2 Long-eared Myotis in northwestern BC. Additionally, our surveys provided range extensions of Northern Myotis (M. septentrionalis), Long-legged Myotis (M. volans), and Hoary Bat (Lasiurus cinereus). Finally, by deploying bat detectors in late autumn, and in some cases throughout the winter, we provide data about seasonal patterns for bat activity in some locations, revealing that bats in northwestern BC may be active as late as 29 October and emerge as early as 30 March, a pattern similar to that observed in southern BC. By combining data from several disparate surveys, conducted for different reasons by different researchers, we were able to provide a fuller picture of the bat fauna of this vast region. Our data provides further evidence that the bat fauna of northwestern Canada is richer than previously documented. [ABSTRACT FROM AUTHOR]

Published

2022

10. Positively selected genes in the hoary bat (Lasiurus cinereus) lineage: prominence of thymus expression, immune and metabolic function, and regions of ancient synteny.

Author

Cornman, Robert S. and Cryan, Paul M.

Subjects

BAT ecology, THYMUS, PREY availability, GENES, GENE families, ROOSTING, PHARYNGEAL muscles

Abstract

Background: Bats of the genus Lasiurus occur throughout the Americas and have diversified into at least 20 species among three subgenera. The hoary bat (Lasiurus cinereus) is highly migratory and ranges farther across North America than any other wild mammal. Despite the ecological importance of this species as a major insect predator, and the particular susceptibility of lasiurine bats to wind turbine strikes, our understanding of hoary bat ecology, physiology, and behavior remains poor. Methods: To better understand adaptive evolution in this lineage, we used whole-genome sequencing to identify protein-coding sequence and explore signatures of positive selection. Gene models were predicted with Maker and compared to seven well-annotated and phylogenetically representative species. Evolutionary rate analysis was performed with PAML. Results: Of 9,447 single-copy orthologous groups that met evaluation criteria, 150 genes had a significant excess of nonsynonymous substitutions along the L. cinereus branch (P < 0.001 after manual review of alignments). Selected genes as a group had biased expression, most strongly in thymus tissue. We identified 23 selected genes with reported immune functions as well as a divergent paralog of Steep1 within suborder Yangochiroptera. Seventeen genes had roles in lipid and glucose metabolic pathways, partially overlapping with 15 mitochondrion-associated genes; these adaptations may reflect the metabolic challenges of hibernation, long-distance migration, and seasonal variation in prey abundance. The genomic distribution of positively selected genes differed significantly from background expectation by discrete Kolmogorov-Smirnov test (P < 0.001). Remarkably, the top three physical clusters all coincided with islands of conserved synteny predating Mammalia, the largest of which shares synteny with the human cat-eye critical region (CECR) on 22q11. This observation coupled with the expansion of a novel Tbx1-like gene family may indicate evolutionary innovation during pharyngeal arch development: both the CECR and Tbx1 cause dosage-dependent congenital abnormalities in thymus, heart, and head, and craniodysmorphy is associated with human orthologs of other positively selected genes as well. [ABSTRACT FROM AUTHOR]

Published

2022

11. Positively selected genes in the hoary bat (Lasiurus cinereus) lineage: prominence of thymus expression, immune and metabolic function, and regions of ancient synteny

Author

Robert S. Cornman and Paul M. Cryan

Subjects

Hoary bat, Adaptation, Positive selection, Immunogenetics, Thymus, Conserved synteny, Medicine, Biology (General), QH301-705.5

Abstract

Background Bats of the genus Lasiurus occur throughout the Americas and have diversified into at least 20 species among three subgenera. The hoary bat (Lasiurus cinereus) is highly migratory and ranges farther across North America than any other wild mammal. Despite the ecological importance of this species as a major insect predator, and the particular susceptibility of lasiurine bats to wind turbine strikes, our understanding of hoary bat ecology, physiology, and behavior remains poor. Methods To better understand adaptive evolution in this lineage, we used whole-genome sequencing to identify protein-coding sequence and explore signatures of positive selection. Gene models were predicted with Maker and compared to seven well-annotated and phylogenetically representative species. Evolutionary rate analysis was performed with PAML. Results Of 9,447 single-copy orthologous groups that met evaluation criteria, 150 genes had a significant excess of nonsynonymous substitutions along the L. cinereus branch (P < 0.001 after manual review of alignments). Selected genes as a group had biased expression, most strongly in thymus tissue. We identified 23 selected genes with reported immune functions as well as a divergent paralog of Steep1 within suborder Yangochiroptera. Seventeen genes had roles in lipid and glucose metabolic pathways, partially overlapping with 15 mitochondrion-associated genes; these adaptations may reflect the metabolic challenges of hibernation, long-distance migration, and seasonal variation in prey abundance. The genomic distribution of positively selected genes differed significantly from background expectation by discrete Kolmogorov–Smirnov test (P < 0.001). Remarkably, the top three physical clusters all coincided with islands of conserved synteny predating Mammalia, the largest of which shares synteny with the human cat-eye critical region (CECR) on 22q11. This observation coupled with the expansion of a novel Tbx1-like gene family may indicate evolutionary innovation during pharyngeal arch development: both the CECR and Tbx1 cause dosage-dependent congenital abnormalities in thymus, heart, and head, and craniodysmorphy is associated with human orthologs of other positively selected genes as well.

Published

2022

12. Silence and reduced echolocation during flight are associated with social behaviors in male hoary bats (Lasiurus cinereus).

Author

Corcoran, Aaron J., Weller, Theodore J., Hopkins, Annalise, and Yovel, Yossi

Subjects

*ECHOLOCATION (Physiology), *HOARY bat, *SOCIAL behavior in mammals, *ANIMAL orientation, *STATISTICAL hypothesis testing

Abstract

Bats are renowned for their sophisticated echolocation. However, recent research has indicated that bats may be less reliant on echolocation than has long been assumed. To test the hypothesis that bats reduce their use of echolocation to avoid eavesdropping by conspecifics, we deployed miniature tags that recorded ultrasound and accelerations on 10 wild hoary bats (Lasiurus cinereus) for one or two nights. This resulted in 997 10-s recordings. Bats switched between periods predominated by their typical high-intensity echolocation, or periods predominated by micro calls (unusually short, quiet calls), or no detectable calls ("silence"). Periods of high-intensity echolocation included high rates of feeding buzzes, whereas periods of micro calls and silence included high rates of social interactions with other bats. Bats switched back to high-intensity echolocation during actual social interactions. These data support the hypothesis that bats use reduced forms of echolocation and fly in silence to avoid eavesdropping from conspecifics, perhaps in the context of mating-related behavior. They also provide the strongest demonstration to date that bats fly for extended periods of time without the use of echolocation. [ABSTRACT FROM AUTHOR]

Published

2021

13. Challenging hibernation limits of hoary bats: the southernmost record of Lasiurus cinereus hibernating in North America.

Author

Marín, Ganesh, Ramos-H, Daniel, Cafaggi, Daniela, Sierra-Durán, Cárol, Gallegos, Alejandra, Romero-Ruiz, Aarón, and Medellín, Rodrigo A.

Subjects

*HIBERNATION, *BATS, *CONIFEROUS forests, *BAT conservation, *ALTITUDES, *ROOSTING

Abstract

It has been suggested that Lasiurus cinereus cinereus migrates from summer roosts at higher latitudes to the coastal regions and southern latitudes in the United States and Mexico to overwinter, where little is known about its winter ecology. We found a hoary bat in a shrub in a conifer forest at high elevation in central Mexico in November 2019. We installed a camera trap and recorded it was hibernating for at least 12.7 days. Our record is by far the most southern hibernation location of tree bats in North America and it shows L. cinereus is capable of hibernating in a non-typical roost. We also open the possibility that camera traps may provide an additional, practical, and easy-to-use tool to study bat hibernation. Our finding expands the ultimate questions of why and where hoary bats decide to hibernate, migrate or both. [ABSTRACT FROM AUTHOR]

Published

2021

14. Historical effective population size of North American hoary bat (Lasiurus cinereus) and challenges to estimating trends in contemporary effective breeding population size from archived samples

Author

Robert S. Cornman, Jennifer A. Fike, Sara J. Oyler-McCance, and Paul M. Cryan

Subjects

Hoary bat, Effective population size, Population genetics, Genome sequencing, Reduced representation sequencing, Wind turbine mortality, Medicine, Biology (General), QH301-705.5

Abstract

Background Hoary bats (Lasiurus cinereus) are among the bat species most commonly killed by wind turbine strikes in the midwestern United States. The impact of this mortality on species census size is not understood, due in part to the difficulty of estimating population size for this highly migratory and elusive species. Genetic effective population size (Ne) could provide an index of changing census population size if other factors affecting Ne are stable. Methods We used the NeEstimator package to derive effective breeding population size (Nb) estimates for two temporally spaced cohorts: 93 hoary bats collected in 2009–2010 and an additional 93 collected in 2017–2018. We sequenced restriction-site associated polymorphisms and generated a de novo genome assembly to guide the removal of sex-linked and multi-copy loci, as well as identify physically linked markers. Results Analysis of the reference genome with psmc suggested at least a doubling of Ne in the last 100,000 years, likely exceeding Ne = 10,000 in the Holocene. Allele and genotype frequency analyses confirmed that the two cohorts were comparable, although some samples had unusually high or low observed heterozygosities. Additionally, the older cohort had lower mean coverage and greater variability in coverage, and batch effects of sampling locality were observed that were consistent with sample degradation. We therefore excluded samples with low coverage or outlier heterozygosity, as well as loci with sequence coverage far from the mode value, from the final data set. Prior to excluding these outliers, contemporary Nb estimates were significantly higher in the more recent cohort, but this finding was driven by high values for the 2018 sample year and low values for all other years. In the reduced data set, Nb did not differ significantly between cohorts. We found base substitutions to be strongly biased toward cytosine to thymine or the complement, and further partitioning loci by substitution type had a strong effect on Nb estimates. Minor allele frequency and base quality bias thresholds also had strong effects on Nb estimates. Instability of Nb with respect to common data filtering parameters and empirically identified factors prevented robust comparison of the two cohorts. Given that confidence intervals frequently included infinity as the stringency of data filtering increased, contemporary trends in Nb of North American hoary bats may not be tractable with the linkage disequilibrium method, at least using the protocol employed here.

Published

2021

15. Historical effective population size of North American hoary bat (Lasiurus cinereus) and challenges to estimating trends in contemporary effective breeding population size from archived samples.

Author

Cornman, Robert S., Fike, Jennifer A., Oyler-McCance, Sara J., and Cryan, Paul M.

Subjects

CENSUS, LINKAGE disequilibrium, BATS, GENE frequency, HETEROZYGOSITY

Abstract

Background. Hoary bats (Lasiurus cinereus) are among the bat species most commonly killed by wind turbine strikes in the midwestern United States. The impact of this mortality on species census size is not understood, due in part to the difficulty of estimating population size for this highly migratory and elusive species. Genetic effective population size (Ne) could provide an index of changing census population size if other factors affecting Ne are stable. Methods. Weused the NeEstimator package to derive effective breeding population size (Nb) estimates for two temporally spaced cohorts: 93 hoary bats collected in 2009-2010 and an additional 93 collected in 2017-2018. We sequenced restriction-site associated polymorphisms and generated a de novo genome assembly to guide the removal of sex-linked and multi-copy loci, as well as identify physically linked markers. Results. Analysis of the reference genome with psmc suggested at least a doubling of Ne in the last 100,000 years, likely exceeding Ne D 10,000 in the Holocene. Allele and genotype frequency analyses confirmed that the two cohorts were comparable, although some samples had unusually high or low observed heterozygosities. Additionally, the older cohort had lower mean coverage and greater variability in coverage, and batch effects of sampling locality were observed that were consistent with sample degradation. We therefore excluded samples with low coverage or outlier heterozygosity, as well as loci with sequence coverage far from the mode value, from the final data set. Prior to excluding these outliers, contemporary Nb estimates were significantly higher in the more recent cohort, but this finding was driven by high values for the 2018 sample year and low values for all other years. In the reduced data set, Nb did not differ significantly between cohorts. We found base substitutions to be strongly biased toward cytosine to thymine or the complement, and further partitioning loci by substitution type had a strong effect on Nb estimates. Minor allele frequency and base quality bias thresholds also had strong effects on Nb estimates. Instability of Nb with respect to common data filtering parameters and empirically identified factors prevented robust comparison of the two cohorts. Given that confidence intervals frequently included infinity as the stringency of data filtering increased, contemporary trends in Nb of North American hoary bats may not be tractable with the linkage disequilibrium method, at least using the protocol employed here. [ABSTRACT FROM AUTHOR]

Published

2021

16. Evaluation of selected bat habitat sites along the Mammoth-Norris Grand Loop Road Corridor, Yellowstone National Park, Wyoming, 1997-1998 / by Sam Martinez; prepared for the Montana Natural Heritage Program, the Nature Conservancy.

Author

Martinez, Sam, Montana Natural Heritage Program, Montana State Library (archive.org), Martinez, Sam, and Montana Natural Heritage Program

Subjects

Anabat bat detection systems, Bats, Big brown bat, Caves, Detection, Fringed myotis, Grand Loop Road (Yellowstone National Park), Habitat, Hoary bat, Long-eared myotis, Mist netting, Plecotus townsendii, Silver-haired bat, Yellowstone National Park

Published

1999

17. Timing and Weather Offer Alternative Mitigation Strategies for Lowering Bat Mortality at Wind Energy Facilities in Ontario

Author

Kelly A. Squires, Bethany G. Thurber, J. Ryan Zimmerling, and Charles M. Francis

Subjects

bat activity, eastern red bat, Eptesicus fuscus, hoary bat, Lasionycteris noctivagans, Lasiurus borealis, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Relatively high mortality of migratory bats at wind energy facilities has prompted research to understand the underlying spatial and temporal factors, with the goal of developing more effective mitigation approaches. We examined acoustic recordings of echolocation calls at 12 sites and post-construction carcass survey data collected at 10 wind energy facilities in Ontario, Canada, to quantify the degree to which timing and regional-scale weather predict bat activity and mortality. Rain and low temperatures consistently predicted low mortality and activity of big brown bats (Eptesicus fuscus) and three species of migratory tree bats: hoary bat (Lasiurus cinereus), eastern red bat (L. borealis), and silver-haired bat (Lasionycteris noctivagans). Bat activity occurred in waves with distinct peaks through the season; regardless of seasonal timing, most activities occurred in the first half of the night. We conclude that wind energy facilities could adopt a novel and more effective curtailment strategy based on weather and seasonal and nocturnal timing that would minimize mortality risks for bats while increasing the opportunities for power generation, relative to the mitigation strategy of increasing cut-in wind speed to 5.5 m/s.

Published

2021

18. Acoustic and Genetic Data Can Reduce Uncertainty Regarding Populations of Migratory Tree-Roosting Bats Impacted by Wind Energy

Author

Amanda M. Hale, Cris D. Hein, and Bethany R. Straw

Subjects

acoustic monitoring, hoary bat, migratory bats, NABat, population genetics, population genomics, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Wind turbine-related mortality may pose a population-level threat for migratory tree-roosting bats, such as the hoary bat (Lasiurus cinereus) in North America. These species are dispersed within their range, making it impractical to estimate census populations size using traditional survey methods. Nonetheless, understanding population size and trends is essential for evaluating and mitigating risk from wind turbine mortality. Using various sampling techniques, including systematic acoustic sampling and genetic analyses, we argue that building a weight of evidence regarding bat population status and trends is possible to (1) assess the sustainability of mortality associated with wind turbines; (2) determine the level of mitigation required; and (3) evaluate the effectiveness of mitigation measures to ensure population viability for these species. Long-term, systematic data collection remains the most viable option for reducing uncertainty regarding population trends for migratory tree-roosting bats. We recommend collecting acoustic data using the statistically robust North American Bat Monitoring Program (NABat) protocols and that genetic diversity is monitored at repeated time intervals to show species trends. There are no short-term actions to resolve these population-level questions; however, we discuss opportunities for relatively short-term investments that will lead to long-term success in reducing uncertainty.

Published

2021

19. Patagonian bats: new size limits, southernmost localities and updated distribution for Lasiurus villosissimus and Myotis dinellii (Chiroptera: Vespertilionidae).

Author

Giménez, Analía Laura and Schiaffini, Mauro Ignacio

Subjects

*BATS, *VESPERTILIONIDAE, *MYOTIS, *SPECIES distribution

Abstract

Vespertilionid species are widely distributed in South America. They are highly diverse, with physiological and behavioral adaptations which allow them to extend their distributions into temperate areas. In Patagonia, this family is represented by seven species in three genera (Histiotus, Lasiurus and Myotis). In this study, we analyzed the distribution of two vespertilionid species, Lasiurus villosissimus and Myotis dinellii, including new southernmost records, and their relationship with environmental variables. Two different spatial scales were analyzed: a continental approach for species distribution analyses (South America), and local trapping of bats in northwestern Chubut province, Argentina. We present new southern limits for L. villosissimus and M. dinellii, and included new records for Patagonian bats. The big hoary bat L. villosissimus was recorded as the largest bat inhabiting Patagonia, relating it as a bat mainly inhabiting low, humid and temperate/warm areas. The little yellow bat M. dinellii, instead, is the smallest mammal and the smallest bat recorded in Patagonia to date, related mainly with dry, mid-altitude and temperate/warm areas. [ABSTRACT FROM AUTHOR]

Published

2020

20. Bat survey of the Kootenai National Forest, Montana : 1994 / a report to USDA Forest Service, Kootenai National Forest; submitted by Paul Hendricks ... [et al.].

Author

Genter, David Leon, Hendricks, P., Jurist, Katharine A., Reichel, James D., Kootenai National Forest (Agency : U.S.), Montana Natural Heritage Program, Montana State Library (archive.org), Genter, David Leon, Hendricks, P., Jurist, Katharine A., Reichel, James D., Kootenai National Forest (Agency : U.S.), and Montana Natural Heritage Program

Subjects

Anabat bat detection systems, Bats, Big brown bat, Detection, Equipment and supplies, Flathead County, Geographical distribution, Habitat, Hoary bat, Kootenai National Forest (Mont. and Idaho), Lincoln County, Little brown bat, Long-eared myotis, Long-legged myotis, Mist netting, Mixed conifer forest, Montana, Myotis californicus, Myotis yumanensis, Plecotus townsendii, Sanders County, Silver-haired bat, Surveys, Western small-footed myotis

Published

1995

21. Bat survey of the Sioux District, Custer National Forest : 1994 / a report to USDA Forest Service, Custer National Forest; submitted by Paul Hendricks ... [et al.].

Author

Genter, David Leon, Hendricks, P., Jurist, Kathy, Reichel, James D., Custer National Forest (Agency : U.S.), Montana Natural Heritage Program, Montana State Library (archive.org), Genter, David Leon, Hendricks, P., Jurist, Kathy, Reichel, James D., Custer National Forest (Agency : U.S.), and Montana Natural Heritage Program

Subjects

Anabat bat detection systems, Bats, Big brown bat, Carter County, Custer National Forest, Detection, Fringed myotis, Geographical distribution, Harding County, Hoary bat, Long-eared myotis, Long-legged myotis, Mist netting, Montana, Plecotus townsendii, Silver-haired bat, South Dakota, Surveys, Western small-footed myotis

Published

1995

22. Results of field surveys for bats on the Kootenai National Forest and the Lolo National Forest of western Montana, 1993 / by David M. Roemer for the Kootenai National Forest.

Author

Roemer, David M., Montana Natural Heritage Program, Montana State Library (archive.org), Roemer, David M., and Montana Natural Heritage Program

Subjects

Adits, Bats, Conservation, Detection, Echolocation monitoring, Geographical distribution, Hoary bat, Kootenai National Forest (Mont. and Idaho), Little brown bat, Lolo National Forest, Lolo National Forest (Mont.), Long-eared myotis, Long-legged myotis, Mist netting, Montana, Myotis californicus, Plecotus townsendii, Silver-haired bat, Surveys, Western small-footed myotis

Published

1994

23. A preliminary survey of the bats of the Deerlodge National Forest Montana : 1991 / by Thomas W. Butts for the U.S.D.A. Forest Service, Deerlodge National Forest.

Author

Butts, Thomas W., Beaverhead-Deerlodge National Forest (Agency : U.S.), Montana Natural Heritage Program, Montana State Library (archive.org), Butts, Thomas W., Beaverhead-Deerlodge National Forest (Agency : U.S.), and Montana Natural Heritage Program

Subjects

Adits, Bats, Big brown bat, Caves, Conservation, Deerlodge National Forest, Deerlodge National Forest (Mont.), Detection, Equipment and supplies, Geographical distribution, Habitat, Harp trap, Hoary bat, Little brown bat, Long-eared myotis, Mist netting, Montana, Myotis yumanensis, Silver-haired bat, Surveys

Published

1993

24. A survey of the bats of the Deerlodge National Forest Montana : 1992 / by Thomas W. Butts for the Deerlodge National Forest, U.S. Forest Service.

Author

Butts, Thomas W., Beaverhead-Deerlodge National Forest (Agency : U.S.), Montana Natural Heritage Program, Montana State Library (archive.org), Butts, Thomas W., Beaverhead-Deerlodge National Forest (Agency : U.S.), and Montana Natural Heritage Program

Subjects

Adits, Bats, Big brown bat, Caves, Conservation, Deerlodge National Forest, Deerlodge National Forest (Mont.), Detection, Equipment and supplies, Fringed myotis, Geographical distribution, Habitat, Harp trap, Hoary bat, Little brown bat, Long-eared myotis, Mist netting, Montana, Myotis yumanensis, Plecotus townsendii, Silver-haired bat, Surveys, Western small-footed myotis

Published

1993

25. A survey of the bats of the Townsend Ranger District Helena National Forest, Montana / by Thomas W. Butts for the Helena National Forest, U.S. Forest Service.

Author

Butts, Thomas W., Helena National Forest (Agency : U.S.), Montana Natural Heritage Program, Montana State Library (archive.org), Butts, Thomas W., Helena National Forest (Agency : U.S.), and Montana Natural Heritage Program

Subjects

Bats, Big Belt Mountains (Mont.), Big brown bat, Conservation, Detection, Elkhorn Mountains (Mont.), Equipment and supplies, Geographical distribution, Habitat, Helena National Forest, Helena National Forest (Mont.), Hoary bat, Little brown bat, Long-eared myotis, Long-legged myotis, Maternity colonies, Mist netting, Montana, Myotis thyanodes, Plecotus townsendii, Surveys, Western small-footed myotis

Published

1993

26. Abundance and distribution of bats in the Pryor Mountains of south central Montana and north eastern Wyoming / David J. Worthington for the Montana Natural Heritage Program, Bureau of Land Management-Billings Resource Area, [and] Custer National Forest.

Author

Worthington, David J., Custer National Forest (Agency : U.S.), Montana Natural Heritage Program, United States. Billings Resource Area, University of Montana--Missoula. Division of Biological Sciences, Montana State Library (archive.org), Worthington, David J., Custer National Forest (Agency : U.S.), Montana Natural Heritage Program, United States. Billings Resource Area, and University of Montana--Missoula. Division of Biological Sciences

Subjects

Bats, Big brown bat, Geographical distribution, Habitat, Hibernacula, Hoary bat, Little brown bat, Long-eared myotis, Long-legged myotis, Mist netting, Pallid bat, Plecotus townsendii, Pryor Mountain Wilderness (Mont. and Wyo.), Silver-haired bat, Spotted bat, Summer roost habitat, Western small-footed myotis

Published

1991

27. Abundance and distribution of bats in the Pryor Mountains of south central Montana

Author

Worthington, David J., Ross, H. Nelson, Custer National Forest (Agency : U.S.), Montana Natural Heritage Program, Montana Nature Conservancy, United States. Bureau of Land Management. Billings Resource Area, University of Montana--Missoula. Division of Biological Sciences, Montana State Library (archive.org), Worthington, David J., Ross, H. Nelson, Custer National Forest (Agency : U.S.), Montana Natural Heritage Program, Montana Nature Conservancy, United States. Bureau of Land Management. Billings Resource Area, and University of Montana--Missoula. Division of Biological Sciences

Subjects

Bats, Big brown bat, Caves, Geographical distribution, Hibernacula, Hoary bat, Little brown bat, Long-eared myotis, Long-legged myotis, Mist netting, Pallid bat, Pryor Mountain Wilderness (Mont. and Wyo.), Silver-haired bat, Western small-footed myotis

Published

1990

28. Evaluation of an acoustic deterrent to reduce bat mortalities at an Illinois wind farm.

Author

Romano, W. Brad, Skalski, John R., Townsend, Richard L., Kinzie, Kevin W., Coppinger, Karyn D., and Miller, Myron F.

Subjects

*WIND power plants, *BATS, *WIND power, *ULTRASONIC testing, *OFFSHORE wind power plants, *PERIODICAL publishing

Abstract

From 2014 to 2016, GE Renewable Energy and California Ridge Wind Energy tested an ultrasonic bat deterrent system during the autumn bat migration period at an operating wind farm in Illinois, USA. The deterrent system consisted of air‐jet ultrasonic emitters mounted on nacelles and towers in a different configuration each year. Each year we conducted a randomized block experiment to determine whether the acoustic deterrent reduced bat mortalities at the wind farm. Effectiveness was based on estimates of bat mortalities during 3‐day trials. The operation of the acoustic deterrent resulted in significant overall bat fatality reductions of 29.2% (SE^ = 7.5%) and 32.5% (SE^ = 6.8%) in 2014 and 2015, respectively. All‐bat fatality rates were not reduced in 2016; however, annual all‐bat effectiveness estimates were influenced by species composition. We analyzed deterrent effectiveness for eastern red (Lasiurus borealis), hoary (Lasiurus cinereus), and silver‐haired (Lasionycteris noctivagans) bats, the 3 species most commonly found during the carcass searches. Hoary bats were consistently deterred each year, but annual deterrent effectiveness varied for eastern red and silver‐haired bats. © 2019 The Authors. Wildlife Society Bulletin published by Wiley Periodicals, Inc. on behalf of The Wildlife Society. We assessed the effectiveness of ultrasonic bat deterrent systems deployed at an operational wind farm in Illinois USA, during 2014–2016. The 3‐year study demonstrated these systems' effectiveness in reducing bat fatalities. [ABSTRACT FROM AUTHOR]

Published

2019

29. Summer movements of a radio-tagged Hoary Bat (Lasiurus cinereus) captured in southwestern Ontario.

Author

MORNINGSTAR, DEREK and SANDILANDS, AL

Abstract

Hoary Bat (Lasiurus cinereus) is a migratory species known to travel long distances during migration. Little is known about its movement patterns during other periods. An adult male Hoary Bat that we radio-tagged in southwestern Ontario in summer was tracked using the Motus Wildlife Tracking System. It travelled a minimum of 827 km in a circular route over a 2-week period and was last recorded 46 km from the original capture site. Hoary Bat is highly vulnerable to being killed at wind turbines and its propensity to travel great distances during summer and migration may exacerbate the impacts of wind farms. [ABSTRACT FROM AUTHOR]

Published

2019

30. Abstracts of Papers Presented at the 48th Annual Symposium of the North American Society for Bat Research Puerto Vallarta, JA, Mexico October 24th - 27 th, 2018.

Subjects

BLACK-tailed prairie dog, HOARY bat, ECOSYSTEMS

Published

2019

31. Echolocation activity of migratory bats at a wind energy facility: testing the feeding-attraction hypothesis to explain fatalities.

Author

Reimer, Jesika P, Baerwald, Erin F, and Barclay, Robert M R

Subjects

*BAT sounds, *WIND turbine bat collisions, *ECHOLOCATION (Physiology), *WIND power plants, *MIGRATION of bats, *ANIMAL feeding behavior, *MAMMALS

Abstract

As development of wind energy facilities continues, questions of why fatalities of migrating insectivorous bats occur at turbines still remain. Numerous hypotheses have been proposed, including a feeding-attraction hypothesis that suggests bats may be attracted to insects congregating near turbine nacelles. To test this hypothesis, we analyzed echolocation calls of hoary (Lasiurus cinereus) and silver-haired (Lasionycteris noctivagans) bats recorded over 72 nights at a wind energy facility in Southern Alberta, Canada. We recorded calls at 3 heights: 67 m at turbine nacelles, 30 m at meteorological towers, and ground level at turbines and meteorological towers. We used feeding buzzes as indicators of foraging behavior. We compared the occurrence of feeding buzzes across heights, and between turbines and meteorological towers to test the prediction that if bats are attracted to turbines for foraging, there will be a greater proportion of feeding buzzes at turbines, and in particular, at nacelle height. We found no significant evidence that foraging rates were higher at nacelle height compared to 30 m or ground level, or between turbines and meteorological towers for either species. For silver-haired bats, foraging activity was greater at meteorological towers, and in particular, at 30 m height. These results do not support the feeding-attraction hypothesis for silver-haired or hoary bats, and suggest that while some bats forage in the vicinity of wind turbines, they are not specifically attracted to turbines to feed. [ABSTRACT FROM AUTHOR]

Published

2018

32. Multi-state occupancy models of foraging habitat use by the Hawaiian hoary bat (Lasiurus cinereus semotus).

Author

Gorresen, P. Marcos, Brinck, Kevin W., DeLisle, Megan A., Montoya-Aiona, Kristina, Pinzari, Corinna A., and Bonaccorso, Frank J.

Subjects

*HABITATS, *HAWAIIAN hoary bat, *ENDANGERED species, *DISEASE prevalence, *BIOACOUSTICS

Abstract

Multi-state occupancy modeling can often improve assessments of habitat use and site quality when animal activity or behavior data are available. We examine the use of the approach for evaluating foraging habitat suitability of the endangered Hawaiian hoary bat (Lasiurus cinereus semotus) from classifications of site occupancy based on flight activity levels and feeding behavior. In addition, we used data from separate visual and auditory sources, namely thermal videography and acoustic (echolocation) detectors, jointly deployed at sample sites to compare the effectiveness of each method in the context of occupancy modeling. Video-derived observations demonstrated higher and more accurate estimates of the prevalence of high bat flight activity and feeding events than acoustic sampling methods. Elevated levels of acoustic activity by Hawaiian hoary bats were found to be related primarily to beetle biomass in this study. The approach may have a variety of applications in bat research, including inference about species-resource relationships, habitat quality and the extent to which species intensively use areas for activities such as foraging. [ABSTRACT FROM AUTHOR]

Published

2018

33. Bat Use of an Island off the Coast of Massachusetts.

Author

Dowling, Zara R. and O'Dell, Danielle I.

Subjects

*BAT ecology, *HOARY bat, *EASTERN red bat, *BIG brown bat, *NORTHERN long-eared myotis

Abstract

Abstract Nantucket, Massachusetts, could provide unique habitat for bats, but few data are available regarding bat populations on the island. We conducted passive acoustic surveys in 2015 and 2016 to inventory bat species and identify seasonal activity patterns. We detected at least 6 species of bats on Nantucket. Lasiurus cinereus (Hoary Bat) and Lasionycterisnoctivagans (Silver-haired Bat) were detected as probable migrants, and Lasiurusborealis (Eastern Red Bat), Eptesicus fuscus (Big Brown Bat), and Myotis species were also present in summer. We detected Perimyotis subflavus (Tricolored Bat) in fall and early winter, suggesting that the species may hibernate on the island. In 2016, we mist-netted and radio-tagged Myotis septentrionalis (Northern Long-eared Bat), and documented individuals reproducing and hibernating on Nantucket. Given the persistence of this rare species on the island, we suggest that land-conservation organizations should consider maintenance of mature forest stands in their suite of planned management activities. [ABSTRACT FROM AUTHOR]

Published

2018

34. Comparative short-term variation of urine concentration among three sigmodontine rodent species from contrasting habitats.

Author

Finotti, Ricardo, Santori, Ricardo Tadeu, Almeida, Paulo José, and Cerqueira, Rui

Subjects

*URINE, *HOARY bat, *CONSERVATION biology, *FLUORINE compounds, *FASCIOLA hepatica, *FLUORIDES

Abstract

We compared urine concentration capacity among three phylogenetically closed sigmodontine rodent species that occur in two distinct habitats: Necromys lasiurus (xeric), Akodon cursor and Akodon lindberghi (mesic). Water conservation ability was evaluated in 30 h-trials, with urine collected every 6 h. A control (I- water and food ad libitum ) and a test (II- food and water deprivation) were conducted for each species. Body mass loss (BML), urine volume (UV), urine relative volume (UVr) and urine concentration (UC) were compared between experiments I and II for each species and among species. Changes in urine osmolality between experiments were modeled using exponential and sine functions. Circadian variation of urine concentration was obtained by sine functions fit to the experiments I. Best fit was achieved for sine functions with an accumulation term for experiments II, showing that even in stressful conditions the circadian variation is still present. Highest UC and lowest BML were obtained from Necromys lasiurus individuals, which achieved them at faster rates. The lowest UC with highest BML were obtained for A. cursor individuals at slower rates and values than A. lindberghi , which were intermediate. Necromys lasiurus is more adapted for xeric habitats achieving higher urine concentration in shorter time and faster rate than species of genus Akodon . [ABSTRACT FROM AUTHOR]

Published

2018

35. Nuclear and mtDNA phylogenetic analyses clarify the evolutionary history of two species of native Hawaiian bats and the taxonomy of Lasiurini (Mammalia: Chiroptera).

Author

Baird, Amy B., Braun, Janet K., Engstrom, Mark D., Holbert, Ashlyn C., Huerta, Maritza G., Lim, Burton K., Mares, Michael A., Patton, John C., and Bickham, John W.

Subjects

*MITOCHONDRIAL DNA, *HOARY bat, *NUCLEOTIDE sequencing, *BIOLOGICAL classification, *BIOLOGICAL evolution, *GENETICS

Abstract

Previous studies on genetics of hoary bats produced differing conclusions on the timing of their colonization of the Hawaiian Islands and whether or not North American (Aeorestes cinereus) and Hawaiian (A. semotus) hoary bats are distinct species. One study, using mtDNA COI and nuclear Rag2 and CMA1, concluded that hoary bats colonized the Hawaiian Islands no more than 10,000 years ago based on indications of population expansion at that time using Extended Bayesian Skyline Plots. The other study, using 3 mtDNA and 1 Y-chromosome locus, concluded that the Hawaiian Islands were colonized about 1 million years ago. To address the marked inconsistencies between those studies, we examined DNA sequences from 4 mitochondrial and 2 nuclear loci in lasiurine bats to investigate the timing of colonization of the Hawaiian Islands by hoary bats, test the hypothesis that Hawaiian and North American hoary bats belong to different species, and further investigate the generic level taxonomy within the tribe. Phylogenetic analysis and dating of the nodes of mtDNA haplotypes and of nuclear CMA1 alleles show that A. semotus invaded the Hawaiian Islands approximately 1.35 Ma and that multiple arrivals of A. cinereus occurred much more recently. Extended Bayesian Skyline plots show population expansion at about 20,000 years ago in the Hawaiian Islands, which we conclude does not represent the timing of colonization of the Hawaiian Islands given the high degree of genetic differentiation among A. cinereus and A. semotus (4.2% divergence at mtDNA Cytb) and the high degree of genetic diversity within A. semotus. Rather, population expansion 20,000 years ago could have resulted from colonization of additional islands, expansion after a bottleneck, or other factors. New genetic data also support the recognition of A. semotus and A. cinereus as distinct species, a finding consistent with previous morphological and behavioral studies. The phylogenetic analysis of CMA1 alleles shows the presence of 2 clades that are primarily associated with A. semotus mtDNA haplotypes, and are unique to the Hawaiian Islands. There is evidence for low levels of hybridization between A. semotus and A. cinereus on the Hawaiian Islands, but it is not extensive (<15% of individuals are of hybrid origin), and clearly each species is able to maintain its own genetic distinctiveness. Both mtDNA and nuclear DNA sequences show deep divergence between the 3 groups (genera) of lasiurine bats that correspond to the previously recognized morphological differences between them. We show that the Tribe Lasiurini contains the genera Aeorestes (hoary bats), Lasiurus (red bats), and Dasypterus (yellow bats). [ABSTRACT FROM AUTHOR]

Published

2017

36. Do you hear what I see? Vocalization relative to visual detection rates of Hawaiian hoary bats ( Lasiurus cinereus semotus).

Author

Gorresen, Paulo. Marcos, Cryan, Paul M., Montoya ‐ Aiona, Kristina, and Bonaccorso, Frank J.

Subjects

*HAWAIIAN hoary bat, *VOCALIZATION in mammals, *ECHOLOCATION (Physiology), *MAMMAL conservation, *ACOUSTIC transducers, *MAMMALS

Abstract

Bats vocalize during flight as part of the sensory modality called echolocation, but very little is known about whether flying bats consistently call. Occasional vocal silence during flight when bats approach prey or conspecifics has been documented for relatively few species and situations. Bats flying alone in clutter-free airspace are not known to forgo vocalization, yet prior observations suggested possible silent behavior in certain, unexpected situations. Determining when, why, and where silent behavior occurs in bats will help evaluate major assumptions of a primary monitoring method for bats used in ecological research, management, and conservation. In this study, we recorded flight activity of Hawaiian hoary bats ( Lasiurus cinereus semotus) under seminatural conditions using both thermal video cameras and acoustic detectors. Simultaneous video and audio recordings from 20 nights of observation at 10 sites were analyzed for correspondence between detection methods, with a focus on video observations in three distance categories for which accompanying vocalizations were detected. Comparison of video and audio detections revealed that a high proportion of Hawaiian hoary bats 'seen' on video were not simultaneously 'heard.' On average, only about one in three visual detections within a night had an accompanying call detection, but this varied greatly among nights. Bats flying on curved flight paths and individuals nearer the cameras were more likely to be detected by both methods. Feeding and social calls were detected, but no clear pattern emerged from the small number of observations involving closely interacting bats. These results may indicate that flying Hawaiian hoary bats often forgo echolocation, or do not always vocalize in a way that is detectable with common sampling and monitoring methods. Possible reasons for the low correspondence between visual and acoustic detections range from methodological to biological and include a number of biases associated with the propagation and detection of sound, cryptic foraging strategies, or conspecific presence. Silent flight behavior may be more prevalent in echolocating bats than previously appreciated, has profound implications for ecological research, and deserves further characterization and study. [ABSTRACT FROM AUTHOR]

Published

2017

37. Fatalities at wind turbines may threaten population viability of a migratory bat.

Author

Frick, W.F., Baerwald, E.F., Pollock, J.F., Barclay, R.M.R., Szymanski, J.A., Weller, T.J., Russell, A.L., Loeb, S.C., Medellin, R.A., and McGuire, L.P.

Subjects

*BATS, *WIND turbines, *HOARY bat, *POPULATION forecasting, *ANIMAL mortality, *ANIMAL populations

Abstract

Large numbers of migratory bats are killed every year at wind energy facilities. However, population-level impacts are unknown as we lack basic demographic information about these species. We investigated whether fatalities at wind turbines could impact population viability of migratory bats, focusing on the hoary bat ( Lasiurus cinereus ), the species most frequently killed by turbines in North America. Using expert elicitation and population projection models, we show that mortality from wind turbines may drastically reduce population size and increase the risk of extinction. For example, the hoary bat population could decline by as much as 90% in the next 50 years if the initial population size is near 2.5 million bats and annual population growth rate is similar to rates estimated for other bat species (λ = 1.01). Our results suggest that wind energy development may pose a substantial threat to migratory bats in North America. If viable populations are to be sustained, conservation measures to reduce mortality from turbine collisions likely need to be initiated soon. Our findings inform policy decisions regarding preventing or mitigating impacts of energy infrastructure development on wildlife. [ABSTRACT FROM AUTHOR]

Published

2017

38. Dietary overlap between the invasive coquí frog ( Eleutherodactylus coqui) and the Hawaiian hoary bat ( Lasiurus cinereus semotus) on the Island of Hawai'i.

Author

Bernard, Riley and Mautz, William

Abstract

The invasive coquí frog is a likely insectivorous competitor to the native Hawaiian hoary bat. The frog is a sit-and-wait predator native to Puerto Rico, but it has the capacity for producing dense populations in its invasive range and the potential to reduce arthropod populations, including aerial arthropods in the orders Coleoptera, Lepidoptera and Isoptera, which are primary food sources of the Hawaiian hoary bat. Dietary analysis of the coquí frog showed that aerial insects made up 33.8 % of the diet. The dietary similarity of the bat and frog was relatively low (Pianka index = 0.25), however, coquí frogs consumed a wide range of juvenile flying insects. Population densities of coquí frogs at two low elevation sites were projected to range from 750 to 14,000 individuals/hectare, and could consume an estimated 1500-19,000 aerial insects/hectare/night, or nearly 90.6 % of all available aerial insects/hectare. Although direct competition between coquí frogs and Hawaiian hoary bats was not confirmed, the coquí frogs could reduce available prey for bats in newly invaded upland sites where bats appear to be more selective of prey species among available aerial insects. [ABSTRACT FROM AUTHOR]

Published

2016

39. Are migratory behaviours of bats socially transmitted?

Author

E. F. Baerwald and R. M. R. Barclay

Subjects

hoary bat, lasiurus cinereus, lasionycteris noctivagans, migration, relatedness, silver-haired bat, Science

Abstract

To migrate, animals rely on endogenous, genetically inherited programmes, or socially transmitted information about routes and behaviours, or a combination of the two. In long-lived animals with extended parental care, as in bats, migration tends to be socially transmitted rather than endogenous. For a young bat to learn migration via social transmission, they would need to follow an experienced individual, most likely one roosting nearby. Therefore, we predicted that bats travelling together originate from the same place. It is also likely that young bats would follow their mothers or other kin, so we predicted that bats travelling together are more closely related to each other than bats not travelling together. To test our predictions, we used microsatellite genotypes and stable isotope values of δ13C, δ15N and δ2H to analyse the relatedness and geographical origins of migrating hoary bats (Lasiurus cinereus/Aeorestes cinereus (Baird et al. 2015 J. Mammal. 96, 1255–1274 (doi:10.1093/jmammal/gyv135)); n = 133) and silver-haired bats (Lasionycteris noctivagans; n = 87) killed at wind turbines over two consecutive autumn migrations. Contrary to our predictions, there was no evidence that related dyads of hoary bats or silver-haired bats were killed on the same night more frequently than expected by chance, or that the number of days between the fatalities of dyad members was influenced by relatedness or latitude of origin. Our data suggest that these bats do not socially transmit migration routes and behaviours among close kin.

Published

2016

40. Another Account of Interspecific Aggression Involving a Hoary Bat ( Lasiurus cinereus).

Author

Brokaw, Alyson F, Clerc, Jeff, and Weller, Theodore J

Subjects

*SILVER-haired bat, *HOARY bat, *RABIES, *ANIMAL aggression, *COAST redwood

Abstract

We observed an incident of interspecific aggression between a male Hoary Bat ( Lasiurus cinereus) and a male Silver-haired Bat ( Lasionycteris noctivagans). The Silver-haired Bat suffered few external injuries, the most conspicuous of which were a missing lower right canine and small puncture wounds on the left wing membrane. The Hoary Bat experienced much more extensive external injuries, including sub-dermal bleeding on wing and tail membranes and bite marks and tears in both wings. Few published accounts describe physical altercations among bats, but Hoary Bats are frequently involved. Rabies is often implicated as a driving factor in the aggressive interactions. We decided not to euthanize the bat for rabies testing, but encourage others who encounter these types of interactions to have bats tested. [ABSTRACT FROM AUTHOR]

Published

2016

41. Geographic origins and population genetics of bats killed at wind-energy facilities.

Author

Pylant, Cortney L., Nelson, David M., Fitzpatrick, Matthew C., Gates, J. Edward, and Keller, Stephen R.

Subjects

POPULATION genetics, WIND power plants, EASTERN red bat, STABLE isotopes, WIND turbines

Abstract

An unanticipated impact of wind-energy development has been large-scale mortality of insectivorous bats. In eastern North America, where mortality rates are among the highest in the world, the hoary bat ( Lasiurus cinereus) and the eastern red bat ( L. borealis) comprise the majority of turbine-associated bat mortality. Both species are migratory tree bats with widespread distributions; however, little is known regarding the geographic origins of bats killed at wind-energy facilities or the diversity and population structure of affected species. We addressed these unknowns by measuring stable hydrogen isotope ratios (δ2H) and conducting population genetic analyses of bats killed at wind-energy facilities in the central Appalachian Mountains ( USA) to determine the summering origins, effective size, structure, and temporal stability of populations. Our results indicate that ~1% of hoary bat mortalities and ~57% of red bat mortalities derive from non-local sources, with no relationship between the proportion of non-local bats and sex, location of mortality, or month of mortality. Additionally, our data indicate that hoary bats in our sample consist of an unstructured population with a small effective size ( Ne) and either a stable or declining history. Red bats also showed no evidence of population genetic structure, but in contrast to hoary bats, the diversity contained in our red bat samples is consistent with a much larger Ne that reflects a demographic expansion after a bottleneck. These results suggest that the impacts of mortality associated with intensive wind-energy development may affect bat species dissimilarly, with red bats potentially better able to absorb sustained mortality than hoary bats because of their larger Ne. Our results provide important baseline data and also illustrate the utility of stable isotopes and population genetics for monitoring bat populations affected by wind-energy development. [ABSTRACT FROM AUTHOR]

Published

2016

42. Polychlorinated biphenyls (PCBs): impact on bat activity and foraging behaviour along the upper Hudson River, New York.

Author

Hooton, L.A., Dzal, Y.A., Veselka, N., and Fenton, M.B.

Subjects

*POLYCHLORINATED biphenyls, *LITTLE brown bat, *HOARY bat, *FORAGING behavior, *PREY availability

Abstract

Sediments of the upper Hudson River, New York, USA, contain polychlorinated biphenyls (PCBs). Consequently, elevated levels of PCBs have been found in the tissues of bats and their insect prey along this region. However, it is not clear whether bat activity and foraging behaviour have been affected. To assess possible effects of PCBs on bat activity and foraging behaviour, we measured the activity of little brown bats ( Myotis lucifugus (LeConte, 1831)) and hoary bats ( Lasiurus cinereus (Palisot de Beauvois, 1796)) along the upper Hudson River, as well as abundance of insect prey at the same locations. We also measured foraging duration and distances travelled by radio-tagged M. lucifugus. We found that bat activity and insect abundance did not differ with PCB concentration. We did, however, find that foraging behaviour along the Hudson River differed from a control site. Specifically, M. lucifugus foraging along PCB-contaminated areas of the Hudson River travelled shorter distances from their roosts and spent less time foraging than bats at an uncontaminated site. Our results show that while bats roost and forage in areas historically exposed to PCBs, this exposure has not adversely affected bat activity, foraging behaviour, or abundance of insect prey. [ABSTRACT FROM AUTHOR]

Published

2016

43. Molecular systematic revision of tree bats (Lasiurini): doubling the native mammals of the Hawaiian Islands.

Author

BAIRD, AMY B., BRAUN, JANET K., MARES, MICHAEL A., MORALES, JUAN CARLOS, PATTON, JOHN C., RAN, CHRISTINA Q. T., and BICKHAM, JOHN W.

Subjects

*BATS, *PHYLOGENY, *HAIRY-tailed bats, *HOARY bat, *Y chromosome

Abstract

This study reports the phylogenetic relationships of 13 species of lasiurine bats using 4 loci from mitochondrial and Y-chromosomal DNA. Our results support a sister taxon relationship between the red and hoary bats, with the yellow bats being more distantly related. Several taxonomic revisions are suggested based on the results of this study. We support the recognition of 3 separate genera: Lasiurus (red bats), Dasypterus (yellow bats), and Aeorestes (hoary bats, including A. egregius which groups more closely to the hoary bats than its traditional placement with the red bats). We recognize L. frantzii as a distinct species and recognize L. blossevillii salinae as a subspecies rather than species. We elevate 3 previously recognized subspecies of A. cinereus to specific status. The phylogeography of the endangered Hawaiian hoary bat is studied in detail, and hoary bats are found to have undergone multiple invasions of the Hawaiian Islands from North America over its evolutionary history. We also report the presence of 2 species of Aeorestes on the Hawaiian Islands where only one previously had been known. [ABSTRACT FROM AUTHOR]

Published

2015

44. The relative influence of forest loss and fragmentation on insectivorous bats: does the type of matrix matter?

Author

Rodríguez-San Pedro, Annia and Simonetti, Javier

Subjects

FRAGMENTED landscapes, SPECIES distribution, BIODIVERSITY, ENTOMOPHAGOUS insects, BAT behavior, HOARY bat, TADARIDA brasiliensis

Abstract

Context: Disentangling the relative effects of forest loss versus fragmentation on species distribution and abundance is crucial for adopting efficient biodiversity conservation actions, which could change with the nature of the landscape matrix. Objectives: We tested the moderating effect of landscape matrix on insectivorous bats response to forest loss and fragmentation. Methods: We conducted acoustic surveys at forest patches surrounded by either an agricultural-dominated matrix or a pine-dominated matrix. We related bat activity to forest amount and the number of forest patches at multiple spatial scales, and compared their effects between landscape matrices. Results: Bat activity was associated with both predictors, however their effects varied with the matrix type. In agricultural landscapes, as the amount of forest increased, the activity of Histiotus montanus, Lasiurus cinereus and Tadarida brasiliensis increased, while activity of Myotis chiloensis decreased. Similarly, as fragmentation increased, the activity of Lasiurus varius and M. chiloensis increased, while activity of H. montanus decreased. In production-forest landscapes, only H. montanus decreased its activity with increasing forest amount. In contrast, activity of L. cinereus, M. chiloensis and T. brasiliensis increased with increasing fragmentation. Forest amount was a stronger predictor for agricultural landscapes than for production-forest landscapes, suggesting that low contrast matrices can mitigate the effects of forest loss. Conclusions: Fragmented landscapes with native forest patches surrounded by a low contrast matrix may support a higher activity of insectivorous bats. Management efforts in fragmented landscapes should aim to decrease the patch-matrix contrast, which will mitigate the effects of forest loss on bats. [ABSTRACT FROM AUTHOR]

Published

2015

45. Using sutures to attach miniature tracking tags to small bats for multimonth movement and behavioral studies.

Author

Castle, Kevin T., Weller, Theodore J., Cryan, Paul M., Hein, Cris D., and Schirmacher, Michael R.

Subjects

*SUTURES, *BIG brown bat, *HOARY bat, *GLOBAL Positioning System, *MIGRATION of bats, *BIOTELEMETRY, *ANIMAL behavior

Abstract

Determining the detailed movements of individual animals often requires them to carry tracking devices, but tracking broad-scale movement of small bats (<30 g) has been limited by transmitter technology and long-term attachment methods. This limitation inhibits our understanding of bat dispersal and migration, particularly in the context of emerging conservation issues such as fatalities at wind turbines and diseases. We tested a novel method of attaching lightweight global positioning system ( GPS) tags and geolocating data loggers to small bats. We used monofilament, synthetic, absorbable sutures to secure GPS tags and data loggers to the skin of anesthetized big brown bats ( Eptesicus fuscus) in Colorado and hoary bats ( Lasiurus cinereus) in California. GPS tags and data loggers were sutured to 17 bats in this study. Three tagged bats were recaptured 7 months after initial deployment, with tags still attached; none of these bats showed ill effects from the tag. No severe injuries were apparent upon recapture of 6 additional bats that carried tags up to 26 days after attachment; however, one of the bats exhibited skin chafing. Use of absorbable sutures to affix small tracking devices seems to be a safe, effective method for studying movements of bats over multiple months, although additional testing is warranted. This new attachment method has the potential to quickly advance our understanding of small bats, particularly as more sophisticated miniature tracking devices (e.g., satellite tags) become available. [ABSTRACT FROM AUTHOR]

Published

2015

46. THE DISTRIBUTION OF BATS OF GENUS LASIURUS (VESPERTILIONIDAE) IN COLOMBIA, WITH NOTES ON TAXONOMY, MORPHOLOGY AND ECOLOGY.

Author

MORALES-MARTÍNEZ, DARWIN M. and RAMÍREZ-CHAVES, HÉCTOR E.

Subjects

HAIRY-tailed bats, HOARY bat, BIOGEOGRAPHY

Abstract

Copyright of Caldasia is the property of Universidad Nacional de Colombia and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2015

47. Fulfilment of Koch's postulates and preliminary host range results for Septoria lepidii , a fungal pathogen for potential biological control of hoary cress ( Lepidium spp.).

Author

Berner, Dana, Eskandari, Farivar, Cavin, Craig, and Dubin, H.J.

Subjects

*KOCH'S postulates, *SEPTORIA, *PATHOGENIC fungi, *PHYSIOLOGICAL control systems, *HOARY bat, *FUNGI classification

Abstract

Koch's postulates were fulfilled on five geographical accessions ofLepidium drabaand preliminary host range tests were conducted withSeptoria lepidiiDesm. on 42 Brassicaceae species. Host range results showed the fungus specific toLepidiumspp. This fungus is potentially an important biological control agent for weedy species ofLepidium. [ABSTRACT FROM PUBLISHER]

Published

2015

48. Two Tickets to Paradise: Multiple Dispersal Events in the Founding of Hoary Bat Populations in Hawai'i.

Author

Russell, Amy L., Pinzari, Corinna A., Vonhof, Maarten J., Olival, Kevin J., and Bonaccorso, Frank J.

Subjects

*HOARY bat, *POPULATION biology, *MARINE ecology, *MOLECULAR biology, *BIOGEOGRAPHY

Abstract

The Hawaiian islands are an extremely isolated oceanic archipelago, and their fauna has long served as models of dispersal in island biogeography. While molecular data have recently been applied to investigate the timing and origin of dispersal events for several animal groups including birds, insects, and snails, these questions have been largely unaddressed in Hawai'i’s only native terrestrial mammal, the Hawaiian hoary bat, Lasiurus cinereus semotus. Here, we use molecular data to test the hypotheses that (1) Hawaiian L. c. semotus originated via dispersal from North American populations of L. c. cinereus rather than from South American L. c. villosissimus, and (2) modern Hawaiian populations were founded from a single dispersal event. Contrary to the latter hypothesis, our mitochondrial data support a biogeographic history of multiple, relatively recent dispersals of hoary bats from North America to the Hawaiian islands. Coalescent demographic analyses of multilocus data suggest that modern populations of Hawaiian hoary bats were founded no more than 10 kya. Our finding of multiple evolutionarily significant units in Hawai'i highlights information that should be useful for re-evaluation of the conservation status of hoary bats in Hawai'i. [ABSTRACT FROM AUTHOR]

Published

2015

49. Not to Put Too Fine a Point on It - Does Increasing Precision of Geographic Referencing Improve Species Distribution Models for a Wide-Ranging Migratory Bat?

Author

Hayes, Mark A., Ozenberger, Katharine, Cryan, Paul M., and Wunder, Michael B.

Subjects

HOARY bat, SPECIES distribution, ERROR correction (Information theory), DISPERSAL (Ecology)

Abstract

The article presents a study on the importance of geographic referencing and error correction in species distribution modeling (SDM) with the use of occurrence records of migratory hoary bats (Lasiurus cinereus). The findings include the species migrate long distances and of increasing concern due to fatalities documented at wind energy facilities in North America and georeferencing process and spatial error dependent on the quality of location data recorded for each specimen.

Published

2015

50. Species composition and mortality of bats at the Osório Wind Farm, southern Brazil.

Author

Barros, Marília A. S., de Magalhães, Rodrigo Gastal, and Rui, Ana Maria

Subjects

*TADARIDA femorosacca, *HOARY bat, *ARTIBEUS, *MOLOSSUS, *WIND turbines

Abstract

We present the results of a three-year study on the bat species killed by wind turbines at the Osório Wind Farm, a large wind power complex in southern Brazil, and compare these fatalities to the composition of the local bat fauna. Fatality searches around wind turbines were conducted from 2006 to 2009, as well as a bat inventory through mist-netting and searches for colonies from 2004 to 2010. We found a total of 336 bat fatalities:Tadarida brasiliensis(n = 245),Lasiurus cinereus(n = 44),Nyctinomops laticaudatus(n = 12),Molossus molossus(n = 9),Lasiurus blossevillii(n = 6),Promops nasutus(n = 3),Lasiurus ega(n = 3),Molossus rufus(n = 1), andArtibeus lituratus(n = 1). By mist-netting, we recorded 13 bat species in the region, of which only six were killed by wind turbines. Our results are similar to mortality patterns from the Northern Hemisphere in terms of: (1) uneven distribution of fatalities among species; (2) dominance of migratory species, including foliage/tree-roosting bats; and (3) discrepancy between presence and abundance of species recorded in the wind farm area and in the fatality sample. [ABSTRACT FROM AUTHOR]

Published

2015