Your search keyword '"*ROOSTING"' showing total 2,302 results

1. Disentangling direct and indirect effects of forest structure on biodiversity: Bottom‐up and top‐down effects between forestry, bats and their insect prey.

Author

Hendel, Anna‐Lena, Douma, Jacob C., Klingenfuß, Sara, Pereira, João M. C., Ruppert, Laura, Spînu, Andreea P., Frey, Julian, Denter, Martin, Liu, Xiang, Storch, Ilse, Klein, Alexandra M., and Braunisch, Veronika

Subjects

*FOREST conservation, *FOREST management, *STRUCTURAL equation modeling, *FOREST insects, *BIODIVERSITY conservation, *ROOSTING, *PREDATION, *FOREST biodiversity

Abstract

Timber‐oriented forest management profoundly alters forest structure and composition, with complex effects on associated biodiversity. However, while species' responses to forest management and resulting structural characteristics have been the subject of numerous studies, direct and indirect effects that cascade through trophic levels are rarely disentangled. As insectivorous bats are particularly sensitive to changes in forest structure, that shape their available flight space, we investigated how forest structure, composition and management also indirectly modify their habitats, for example, by affecting important insect prey groups. We used structural equation models (SEMs) to test bat responses to forest composition, structure (forest heterogeneity, old‐growth attributes) and management intensity, quantifying direct and indirect prey‐mediated effects. For that, three bat guilds—short‐ (SRE), mid‐ (MRE) and long‐range echolocating (LRE) bats—and their prey insects (moths and ground beetles) were analysed from 64 sites in the Black Forest, Germany. We found guild‐specific effects on bats: While the structural heterogeneity of forests directly influenced the activity of bat guilds, the main influence of forest management, composition and structure was mediated through their prey‐groups. SRE activity responded to moths and LRE activity was associated with ground beetles, with positive effects of the insect groups' abundance, but negative effects of the same group's species richness. In addition, the SEM approach revealed a negative top‐down relationship between MRE activities and moths, suggesting predation or avoidance behaviour of moths. While forest management directly or indirectly increased prey insect abundance, it negatively affected the availability of roosting structures for bats. Synthesis and applications. The results highlight the indirect and positive effects of forest management on bats and support the important role of bats in insect regulation within continuous cover forests. Although forest management created small gaps that improved foraging habitats for most bats, it compromised the roosting functionality for bats. The ‘close‐to‐nature forestry’ currently prevalent in Europe mainly promotes continuous‐cover forests in mid‐successional stages. Expanding the forest management portfolio towards open and old‐growth forests would increase roosting opportunities and provide complementary foraging habitats for different bat species, while promoting high biodiversity in managed forest landscapes. [ABSTRACT FROM AUTHOR]

Published

2024

2. Application of the MENTOR model to advance One Health by promoting bat conservation and reducing zoonotic spillover risk.

Author

Smith, Lindsay J., Gelman, Nancy, O'Mara, M. Teague, Frick, Winifred F., Ronis, Emily M., Cameron, Kenneth N., Gonzales, Amanda, Coleman, Jeremy T. H., Reichard, Jonathan D., and de Wit, Luz A.

Subjects

BAT conservation, BAT ecology, STRATEGIC communication, DEVELOPING countries, CAPACITY building, ROOSTING

Abstract

For few taxonomic groups do conservation efforts have such a disproportionate impact on biodiversity and human well-being as they do with bats. Bats face significant conservation challenges that affect their long-term viability, inhibit their ecosystem functions and services, and increase zoonotic spillover risks. Protecting bat populations and their habitats ultimately reduces these conservation threats, helps prevent pandemics, and supports essential ecosystem services. MENTOR-Bat is a fellowship program focused on strengthening technical research, and leadership capacity in the Global South to promote healthy environments where bats and humans can coexist with reduced risks of pathogen transmission. Co-designed by the United States Fish and Wildlife Service (USFWS) and Bat Conservation International (BCI), MENTOR-Bat mirrors the One Health framework by featuring a transdisciplinary team of three mentors and nine fellows from Cameroon, Colombia, and Indonesia. Fellows and mentors receive academic and field-based training on bat ecology and conservation, One Health, human dimensions of conservation, behavior change, strategic communications, international policy, adaptive management, project planning, conservation leadership, and public health. Fellows will then design and implement team pilot projects to advance One Health and bat conservation in their respective countries. Program evaluation of MENTOR-Bat is based on Kirkpatrick's Hierarchy and focuses on measuring the development of established One Health core competences. By incorporating One Health and conservation within its activities, MENTOR-Bat can become a valuable programmatic template for transdisciplinary programming advancing evidence-based strategies for improving the well-being of bats, humans, and the environment. [ABSTRACT FROM AUTHOR]

Published

2024

3. Roost characteristics and fidelity of silver‐haired bat maternity colonies in a floodplain cottonwood forest.

Author

Schwab, Nathan A., Chesonis, Tessa N., Doherty, Kyle, and Ramsey, Philip

Subjects

*ROOSTING, *FLOODPLAIN forests, *COLONIES (Biology), *WILDLIFE conservation, *TREE size, *TREE height

Abstract

The maternal roosting behavior of migratory, tree‐dwelling bat species remains poorly understood. From 2016 to 2020 we radio‐tagged 53 adult female silver‐haired bats (Lasionycteris noctivagans) and tracked them to their day roosts to evaluate roosting habits in a cottonwood (Populus) forest in the floodplain of the Bitterroot River in western Montana. We investigated roost tree characteristics of maternity colonies such as canopy closure, tree size, and decay stage, as well as the daily roost fidelity of tagged bats. Additionally, we marked 55 bats with passive integrated transponder (PIT) tags to assess interannual fidelity to summer habitat. We tracked bats to 94 unique roost trees. Based on previous studies, we expected silver‐haired bat maternity colonies to roost in tall, large diameter trees. We modeled roosting probability as a function of tree height, day of year, and the interaction of these terms. We found bats preferred taller trees earlier in the year, but overall roosting probability decreased throughout the season and tree height had lesser influence on roosting probability later in the year. Bats used tall trees with high canopy closure in early stages of decay during periods of pregnancy and lactation, while the effect of these tree attributes lessened later in the season, perhaps after lactation when energetic constraints were reduced for adult females to prepare for migration by entering torpor during the day. Bats used an average of 5.2 roost trees during the young rearing period and remained in the same roost for an average of 1.5 consecutive days. While daily roost fidelity was low, we documented interannual fidelity to summer habitat from nine individuals. We found silver‐haired bat roosting preferences vary with time, are tree‐specific, and policies targeting conservation of the species should manage flood regimes to promote cottonwood establishment, height growth, and a mosaic of riparian habitats. [ABSTRACT FROM AUTHOR]

Published

2024

4. Dramatic recent declines in the size of monarch butterfly (Danaus plexippus) roosts during fall migration.

Author

Davis, Andrew K., Croy, Jordan R., and Snyder, William E.

Subjects

*ANIMAL migration, *MONARCH butterfly, *HONEY plants, *OVERALL survival, *ROOSTING

Abstract

The conservation status of monarch butterflies in North America is a topic of intense scrutiny and debate. It is clear that winter colonies in Mexico are declining, yet some recent studies suggest that summer breeding populations are relatively stable and similar to historical abundances. One possible explanation for these discordant patterns is that fall migration success has been recently disrupted. Here, we use a relatively unexplored citizen-scientist dataset on the size of monarch “roosts,” which are resting aggregations on vegetation, to infer changes in monarch abundance along the fall migration route over the last 17 y. We found that the timing of migration remained relatively unchanged while the flyway has generally become warmer and greener. Warmer and greener conditions were associated with larger roosts, yet we found steady, dramatic declines in roost sizes through time that were independent of climate and landscape factors. Roost sizes have declined as much as 80%, with losses increasing from north to south along the migration route. These findings suggest that failure during the fall migration could explain the apparent drop in monarch numbers from summer breeding to overwintering populations. This in turn suggests that conservation efforts that support fall migration success are most needed, such as providing high quality nectar plants along the migration route or limiting the planting of nonnative milkweeds that enhance monarch parasite loads. Overall, it appears the fall migration of monarch butterflies is under imminent threat, even if the species’ overall survival is not. [ABSTRACT FROM AUTHOR]

Published

2024

5. Bat box monitoring: testing the efficacy of eDNA to confirm box use.

Author

Davies, Fiona, Jonker, Michiel, Wilkinson, Shaun, and Witton, Morgan

Subjects

*DNA, *OCCUPANCY rates, *CITY councils, *BATS, *GENETIC barcoding, *ROOSTING

Abstract

Bat boxes can be employed to provide short-term mitigation for the loss of trees with bat roost potential. Traditionally bat box utilisation (by long-tailed bats) has been difficult to confirm in NZ, partly due to a lack of published survey techniques to confirm bat box utilisation when bats are not present at the time of sampling. While environmental deoxyribonucleic acid (eDNA) has been widely applied as a biomonitoring tool, it has not been used previously in the context of bat box surveys in New Zealand. Here we present a method for collecting eDNA from bat boxes using swabs and test the efficacy of eDNA in validating bat box utilisation as confirmation of roosting. Bat boxes were deployed by the Hamilton City Council as part of the bat mitigation strategy for the Southern Links Project in southern Hamilton. The eDNA method confirmed a total of 25 boxes out of the 73 (34%) included in this study were being utilised by long-tailed bats. The results indicate that eDNA can be applied with confidence to demonstrate box use, even at very low and infrequent occupancy rates. [ABSTRACT FROM AUTHOR]

Published

2024

6. Use of synanthropic roosts by bats in Europe and North America.

Author

Lučan, Radek K., Jor, Tomáš, Romportl, Dušan, and Morelli, Federico

Subjects

*HABITAT destruction, *ROOSTING, *BATS, *LAND use, *LATITUDE, *LAND cover

Abstract

ABSTRACT Diurnal roosts are vital to bats and growing evidence suggests that bats increasingly exploit synanthropic structures, such as buildings. The use of synanthropic roosts (SRs) has been explained as a consequence of the decreased availability of natural roosts imposed by habitat destruction, although growing evidence suggests that the use of SRs may be beneficial to bats in many ways, including enabling the expansion of distributional ranges. Based on data from Europe and North America, our study aimed to (1) analyse the proportion of use of synanthropic vs. natural roosts, (2) test the hypothesis that bats are forced to use SRs in response to the destruction of natural habitats, (3) analyse latitudinal variation of the proportion of use of SRs and (4) address the highly contrasting pattern in the proportion of use of SRs between the two continents in the light of historical aspects of coexistence between bats and humans. We compiled published data on day roosts obtained by means of radio‐telemetry, providing unbiased evidence of the proportion of synanthropic and natural roosts. We compared the obtained patterns between the two continents, analysed the relationship between the proportion of use of SRs, land cover and latitude and analysed historical reconstruction of anthropogenic land use. In Europe (n = 3385 roosts), SRs were used by twice more (26) bat species and were used 17× more frequently than in North America (n = 6795). We found no support for the hypothesis that bats use SRs in response to habitat destruction. The use of SRs increases with latitude in Europe, but not in North America, despite decreasing areas of human‐altered habitats. Historical processes related to the length of coexistence between bats and humans on both continents, rather than the current state of nature, may underlie the contrasting patterns observed. [ABSTRACT FROM AUTHOR]

Published

2024

7. Vulnerability of Southern Hemisphere bats to white‐nose syndrome based on global analysis of fungal host specificity and cave temperatures.

Author

Wu, Nicholas C., Welbergen, Justin A., Villada‐Cadavid, Tomás, Lumsden, Lindy F., and Turbill, Christopher

Subjects

*NUMBERS of species, *PSEUDOGYMNOASCUS destructans, *BATS, *HIBERNATION, *CAVES, *ROOSTING

Abstract

White‐nose syndrome (WNS), a disease affecting hibernating bats, is caused by the fungal pathogen Pseudogymnoascus destructans (Pd). Since the initial introduction of Pd from Eurasia to the United States in 2006, WNS has killed millions of bats throughout the temperate parts of North America. There is concern that if Pd is accidentally introduced to the Southern Hemisphere, WNS could pose similar threats to the bat fauna of the Southern Hemisphere's more temperate regions. Efforts are required to better understand the vulnerability of bats globally to WNS. We examined phylogenetic distances among cave roosting bat species globally to estimate the probability of infection by Pd. We predicted cave thermal suitability for Pd for 441 cave‐roosting bat species across the globe via spatial analysis. We used host specificity models based on 65 species tested for Pd to determine phylogenetic specificity of Pd. Phylogenetic distance was not an important predictor of Pd infection, confirming that Pd has low host specificity. We found extensive areas (i.e., South America, Africa, and Australia) in the Southern Hemisphere with caves that were suitable for cave‐roosting bat species and for Pd growth. Hence, if Pd spreads to the Southern Hemisphere, the risk of exposure is widespread for cave‐roosting bats, and infection is possible regardless of relatedness to infected species in the Northern Hemisphere. Predicting the consequences of infection remains difficult due to lack of species‐specific information about bat winter biology. Nevertheless, WNS is an important threat to naive Southern Hemisphere bat populations. Hence, biosecurity measures and planning of management responses that can help prevent or minimize a potential WNS outbreak in the Southern Hemisphere are urgently needed. [ABSTRACT FROM AUTHOR]

Published

2024

8. Bat box monitoring: comparing multiple contemporary methods.

Author

Jonker, Michiel, Davies, Fiona, and Witton, Morgan

Subjects

*THERMOGRAPHY, *RAINFALL, *CITY councils, *BATS, *ROOSTING

Abstract

Bat boxes can be employed to provide mitigation for the loss of trees with bat roost potential. Eighty bat boxes were deployed by the Hamilton City Council as part of the bat mitigation strategy for the Southern Links Project in southern Hamilton. Several contemporary methods were employed to determine bat box occupancy to ensure effective monitoring. This included visual scoring assessments (e.g. staining, wetness), endoscope surveys, thermal imaging, and eDNA. Emergence survey data were provided by the University of Waikato which provided further insight into the accuracy of the methods. Jointly the methods confirmed the use of 34 Kent style boxes (n = 70; 49%). Indicating a high success rate of box utilisation over a relatively short period (two years). Of the methods, eDNA confirmed the largest percentage of bat box use. Comparatively, thermal imaging provided an alternative and less intrusive means of surveying on-the-day bat presence. However, there were instances where survey conditions (e.g. terrain, vegetation clutter, solar irradiance, rainfall) influenced the reliability of thermal imaging. While visual assessment and thermal imaging cannot be solely relied on, they provide a supportive tool for other monitoring techniques. They can help guide the application of more definitive methods such as eDNA. [ABSTRACT FROM AUTHOR]

Published

2024

9. Individual foraging site fidelity persists within and across stopover seasons in a migratory shorebird, Numenius phaeopus (Whimbrel).

Author

Handmaker, Maina C, Sanders, Felicia J, Smith, Adam D, Shealy, Ethan P, Fontaine, Natasza, Kaplin, Madelyn B, Thibault, Janet M, Martin, Mary Catherine, Duquet, Camille, Sterling, Abby V, and Senner, Nathan R

Subjects

*MIGRATORY animals, *BIRD migration, *ROOSTING, *HOME improvement centers, *SHORE birds, *HABITATS

Abstract

Site fidelity—returning repeatedly to the same site—can help many migratory species reduce uncertainty in their environment, especially when migratory stopover periods leave little time to explore and evaluate new habitat. Avian taxa, though, have shown wide variation in their levels of site fidelity during migration, and few studies have been able to examine individual-level fidelity at fine spatiotemporal scales. We used a high-resolution GPS tracking dataset of Numenius phaeopus (Whimbrel), a long-distance migratory shorebird, to assess levels of fidelity to specific foraging and roosting sites during migration, both within and between stopover seasons. We found that individuals are almost exclusively faithful to one shared roost site at night, but disperse to individual foraging territories during the day that overlap with each other by <20%. Individuals remain faithful to these distinct territories over time, on average shifting the center of their daily home ranges by <1.5 km within a single season, and overlapping with their previous season's home range by 70% when they return during subsequent stopovers. Our findings reveal for the first time that a shorebird species exhibits fine-scale, individual foraging site fidelity during and between migratory stopovers—an important insight to inform effective conservation and management action. [ABSTRACT FROM AUTHOR]

Published

2024

10. Reduced ornamentation became elaborated in benign environments in Pacific Swallows.

Author

Hasegawa, Masaru, Arai, Emi, and Kato, Takahiro

Subjects

*PHYSIOLOGICAL stress, *MAINTENANCE costs, *FEATHERS, *DECORATION & ornament, *ROOSTING, *DEGLUTITION

Abstract

Many empirical studies have focused on highly ornamented species to identify ecological factors that maintain the ornamentation or favour its exaggeration. By contrast, although reduction or loss of ornamentation appears to be widespread, species with reduced/lost ornamentation and its relationship with ecological factors are rarely focused on. Here, based on data collected over 4 years, we studied outermost tail feather length, i.e. a well-known sexual ornamentation in this clade, in relation to roosting location in the Pacific Swallow Hirundo tahitica during winter. In contrast to congeners, this species has inconspicuous tail ornamentation, i.e. very shallowly forked tails with vestigial streamers, providing a rare opportunity to study the ecological factors driving reduced ornamentation. We found that Pacific Swallows mainly roost in old nests under bridges over rivers, which resemble their original roosting sites, but some roost in much warmer sites, i.e. old nests under the eaves of houses above the ground. Individuals roosting under the eaves of houses had significantly longer outermost (but not central) tail feathers than those roosting under bridges. Individuals roosting under the eaves of houses were heavier and showed lower physiological stress, and thus might better endure the maintenance cost, favouring ornament elaboration. Because we controlled for the effects of sex and age, these factors would not confound the observed pattern. Reduced ornamentation, as found in Pacific Swallows roosting under their original roosting sites, could become elaborated in benign environments (i.e. under eaves, here), stressing the importance of balance between the costs and benefits of ornamentation. [ABSTRACT FROM AUTHOR]

Published

2024

11. The mite Dentocarpus silvai (Acari, chirodiscidae) as a parasite of the bat Molossus molossus (Chiroptera, molossidae) in southeastern Brazil.

Author

Gomes, Luiz Antonio Costa and Esbérard, Carlos Eduardo Lustosa

Subjects

*MANGO, *MITE infestations, *TREE cavities, *ROOSTING, *BATS, *ECTOPARASITES

Abstract

Factors that influence the parasite load in a host bat include sex, age, reproductive condition, health, and body condition. Among the ectoparasitic mites found on bats, species from the family Chirodiscidae are commonly observed on molossid bats. This study aimed to analyse the parasitism of Dentocarpus silvai on Molossus molossus in two roosts, discussing the ecology of the host–ectoparasite relationship. We sampled a colony of M. molossus sheltering in the roof lining of a house and in the hollow of a Mangifera indica tree located on Itacuruçá Island, Rio de Janeiro state, southeastern Brazil. A total of 495 D. silvai were collected from 176 M. molossus. Parasitological indices (mean intensity and prevalence) were higher in the tree hollow than in the roof lining, with females being more heavily parasitized than males. Among the six models evaluated, bat abundance best explained the variation in the number of mites. The dispersal success and infestation of D. silvai are associated with roost commuting by individuals (mainly females) of M. molossus that favours the infestation of new bats, which may extend the parasite occurrence. The present study is the first to analyse the infestation of D. silvai on a host species. [ABSTRACT FROM AUTHOR]

Published

2024

12. Comparison of roosting behavior between two disparate landscapes by a Neotropical bat (Artibeus lituratus) in the Atlantic Forest of Paraguay.

Author

Langlois, Garret D. and Stevens, Richard D.

Subjects

BEHAVIOR modification, ENVIRONMENTAL health, BIOINDICATORS, ROOSTING, LANDSCAPE changes

Abstract

1. Species should optimally modify behavior to local conditions, a concept we examined in bats. If landscapes differ, changes in roost use should manifest, influenced by habitat characteristics and conspecifics. We tested the relationship between bats and landscape, contrasting roosting behavior between contiguous forest and fragmented matrix. 2. Artibeus lituratus is a common bat in the Atlantic Forests of Paraguay. We collected day-roosting behavior data by following radio-telemetered bats, and compared observations between bat groups in the contiguous reserve and surrounding fragmented matrix. 3. Bats exhibited no difference between landscapes in the average number of roost trees used, frequency of roost switching, and area of roosting range. 4. Shared roosts were less available in the matrix landscape; on average matrix bats used shared roosts more often than contiguous landscape bats. However, the proportion of roost days shared were not different between landscapes. Roosting group sizes were found to differ, but not between landscapes. Instead, adult bats roosted in larger groups while pups were present. 5. Roost trees in the matrix landscape may provide less protection from predators. On average, we were less likely to visually confirm bats roosting in the contiguous landscape than those in the matrix. Bats in the contiguous landscape also roosted higher than those in the matrix, unless the roost tree was uncommonly short. Bats exhibited no difference in flushing frequency between landscapes. 6. Some of the behavioral differences observed could be heuristic and diagnostic when assessing the ecological condition of a landscape. Significance statement: Where species range across changing landscapes, evolutionary theory predicts their behaviors will adapt accordingly. When landscapes change by human activities, native biodiversity can be negatively affected. Wildlife that persists in human-modified landscapes are often subjected to increased environmental stressors, which emerge from those new environments. Stressors can manifest as altered behaviors, which are different from the behaviors of populations occurring in unmodified habitats. Researchers can then quantify behavioral differences to compare unmodified and modified habitats. We provide proof of concept, comparing roosting behaviors between two groups of the great fruit-eating bat (Artibeus lituratus). Behaviors differed between two landscapes in visual detection ease, roosting height, and proportion of roost trees shared. Such behaviors — when consistent — are potential indicators of declining ecological health. [ABSTRACT FROM AUTHOR]

Published

2024

13. Improved Early Childhood Balance Skills: Through Footboard Play and Shell Stretch.

Author

Faizah, Khairani, Sumaryanti, Sulistiyono, Sumaryanto, Guntur, and Nugroho, Sigit

Subjects

SCHOOL children, LEARNING, ROOSTING, JUDGMENT sampling

Abstract

Copyright of Retos: Nuevas Perspectivas de Educación Física, Deporte y Recreación is the property of Federacion Espanola de Asociaciones de Docentes de Educacion Fisica 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

2024

14. Kleptoparasitism in seabirds—A potential pathway for global avian influenza virus spread.

Author

Gorta, Simon B. Z., Berryman, Alex J., Kingsford, Richard T., Klaassen, Marcel, and Clarke, Rohan H.

Subjects

*AVIAN influenza A virus, *ROOSTING, *VIRAL transmission, *AVIAN influenza, *THEFT, *OCEAN

Abstract

Wild birds have experienced unprecedented, near‐global mass mortalities since 2021, driven by outbreaks of high‐pathogenicity avian influenza virus (HPAIV) H5N1 lineage 2.3.4.4b. Managing this panzootic requires identification of transmission pathways. We investigated potential HPAIV transmission via kleptoparasitism (food theft) by examining the distribution, behaviors, and movements of two globally widespread and commonly kleptoparasitic seabird families: Fregatidae (frigatebirds) and Stercorariidae (skuas). These kleptoparasites force other seabirds (targets) to regurgitate food, which the kleptoparasite then ingests, potentially facilitating direct transfer of viral particles from target to kleptoparasite. Scavenging and predation probably contribute further to viral spread. Although frigatebirds use kleptoparasitism on a year‐round basis, skuas more commonly do so outside of the breeding season. Both frequently forage, disperse, or migrate across oceans and hemispheres. Dense aggregations of kleptoparasitic and target seabirds at breeding and/or roosting sites may facilitate the spread of HPAIV. In addition, the migration of these species could also facilitate broadscale geographic spread of HPAIV. Surveillance of kleptoparasites for HPAIVs could aid in early detection and may be important for seabird conservation. [ABSTRACT FROM AUTHOR]

Published

2024

15. Importance of Heritage Structures as Bat Roosts in the Sahara Desert.

Author

Węgiel, Andrzej, Fushiya, Tomomi, Obłuski, Artur, and Tryjanowski, Piotr

Subjects

*WATER supply, *ROOSTING, *HISTORIC structures, *ENVIRONMENTAL protection, *BATS, *BAT conservation

Abstract

In addition to the availability of water and invertebrate prey, roost sites are considered the main factors enabling bats to survive in desert areas. Because suitable roost sites are often limiting resources, human constructions are also important for these animals. Conversely, in the context of built heritage conservation, bats are often discussed as a cause of damages. However, if historic structures deteriorate, they may lose their suitability as roosting sites for bats. This study examines how the condition of domed tombs in Sudan affects their use by bats. Inspections of 19 tombs revealed that bats occupied only undamaged structures, with 1652 individuals of four species found. Slightly and partially damaged tombs were not used by bats. These findings highlight the importance of preserving man‐made structures as critical roosting sites in arid environments to support local bat populations. [ABSTRACT FROM AUTHOR]

Published

2024

16. Population Size and Spatial Distribution of the Mexican Blind Cavefish (Astyanax) within the Caves.

Author

Espinasa, Luis, Tatarsky, Rose L., Girard, Michael Kevin, Sandone, Michael, Rétaux, Sylvie, and Espinasa, Jordi

Subjects

*TRANSECT method, *ASTYANAX, *CAVES, *SAMPLING methods, *ROOSTING, *BATS

Abstract

The most studied cavefish in the world is Astyanax mexicanus, and the most frequently used specimens in research come from the Pachón cave in Northeast Mexico. A recent study using the capture–mark–recapture technique revealed that the Pachón population size is only in the hundreds of individuals, not in the thousands. This result raises serious concerns about their long-term survival and highlights the need to accurately estimate the population size of other Astyanax caves. In our study, we used a well-established, non-invasive method for estimating population size: the transect sampling method, which counts the abundance of organisms along a line at regular intervals. We used the 310 m long Sabinos Cave's Pool #1 for measurements and estimated a population of 1142 individuals. Most importantly, we found that cavefish are not distributed uniformly: 68% of the individuals were clustered under a bat roost. To corroborate this observation, we used drones to explore submerged galleries inaccessible to scientists. Results from the Toro/Calera Cave system confirmed that most galleries were essentially void of cavefish, except for in those few areas with high amounts of nutrients. Scientists visiting the most studied Astyanax localities (Pachón, Sabinos, Tinaja, and Chica) experience what appear to be high-density populations of about 10 fish/m2, possibly because the pool they visit happens to be under bat roosts. Our study shows that one cannot extrapolate the density at these localities to the rest of the habitat, where densities might be two orders of magnitude lower. Future studies should consider that the apparent high density at visited sites is overrepresenting the total population size when calculating the number of fish specimens to be captured. [ABSTRACT FROM AUTHOR]

Published

2024

17. Monarch Butterfly (Danaus plexippus (L.) (Lepidoptera: Nymphalidae) Migration and Overwintering Behavior in South-Eastern Queensland, Australia.

Author

Sanderson, Chris, Sanderson, Helen, and James, David G

Subjects

*MONARCH butterfly, *NATURAL history, *ANIMAL migration, *NYMPHALIDAE, *ENTOMOLOGY

Abstract

This article explores the migration and overwintering behavior of the Monarch butterfly in South-Eastern Queensland, Australia. The Monarch butterfly is known for its long-distance migration and overwintering as adults. It is believed that the species arrived and naturalized in Australia through island-hopping in the Pacific Ocean. The article highlights the discovery of two new overwintering sites in South-Eastern Queensland, which expands the known range of overwintering populations. Previously, it was thought that only continuously breeding populations existed in this region. The article provides information on migration patterns and identifies potential source areas for migrating monarchs. The Oxley Creek Common and St Helena Island in the Brisbane area have been identified as overwintering sites, and further research is recommended to gain a better understanding of this phenomenon. [Extracted from the article]

Published

2024

18. Winter occurrence and roosting behavior of the secretive Northern Saw-whet Owl (Aegolius acadicus) at the southern edge of its range.

Author

Pruitt, Mitchell L., Smith, Kimberly G., and Mortensen, Jennifer L.

Subjects

*RADIO telemetry, *SPECIES distribution, *PATTERNMAKING, *OWLS, *BIRDS of prey, *HABITAT selection

Abstract

Understanding a species' distribution is vital for making sound conservation and management decisions. Secretive behaviors and complicated seasonal movement patterns have made range delimitation surprisingly elusive for some North American birds, including the Northern Saw-whet Owl (Aegolius acadicus). Despite being among the most common of North American forest owls, only the species' breeding range is well demarcated. This has resulted in the species historically being considered a "northern" bird, with eastern migratory and nonbreeding ranges extending only as far south as central Missouri and eastern Tennessee. Recent banding efforts have shown that saw-whet owls are fall migrants much farther south. We extend this work by investigating stopover duration and nonbreeding habitat selection during 2 winters at the edge of the species' southern distribution in the Ozark Highlands of northwest Arkansas. We used radio telemetry to track 27 owls, with 17 individuals detected at least once post-release (n = 54 surveys and 131 total detections). Length of stay in the study area was most influenced by year—birds remained an average of 3.6 weeks longer during an irruption year—and our data suggest that the species uses the Ozark Highlands for both nonbreeding residency and brief stopover periods. During the 2 year study, 37% of marked owls were winter residents, 26% remained in the area temporarily, and 37% were not redetected. Winter habitat preferences of saw-whet owls in the southeast are consistent with what is known about the species in its more northernly range, with birds selecting conifers on south-facing slopes in areas with an open understory. Overall, our results suggest that saw-whet owls are not rare fall migrants and winter residents in Arkansas as was previously assumed, and more generally, are likely underappreciated winter predators in southern pine ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

19. First record of Great Himalayan leaf-nosed bat, Hipposideros armiger (Hipposideridae) from Bangladesh.

Author

Aziz, M. Abdul, Marma, Aung Shew Nu, Hamza, Ameer, Rahman, Md. Abdur, Rahman, Md. Aminur, and Naznin, Sumaiya

Subjects

*BATS, *CAVES, *ROOSTING, *INVENTORIES, *PHOTOGRAPHS

Abstract

We report the first record of the Great Himalayan leaf-nosed bat, Hipposideros armiger from a cave in the Chittagong Hill Tracts of Bangladesh. We confirmed its identity using morphometric measurements and visual observations supplemented with photographs. This report steps up the number of national bat fauna, suggesting countrywide surveys for a comprehensive inventory of bats for Bangladesh. [ABSTRACT FROM AUTHOR]

Published

2024

20. Pre-Roost Habitats of Western Marsh Harriers (Circus aeruginosus) Wintering in Keoladeo National Park, Bharatpur in Northwestern India.

Author

Verma, Ashok

Subjects

*ROOSTING, *NATIONAL parks & reserves, *INFORMATION resources, *CIRCUS, *TREES

Abstract

I recorded information on pre-roost habitats of Western Marsh Harriers (Circus aeruginosus) near communal roost sites located in and around Keoladeo National Park (KNP), India, during three winters from 1997 to 2000. Harriers pre-roosted in different habitats in KNP compared to the surrounding areas (25-km radius). Harriers used trees as their main pre-roosting perches in KNP, but mainly used open fields in the surrounding areas. All nine tree species present near roost sites in KNP were used for pre-roosting. Among tree species used for pre-roosting, harriers preferred sacred fig (Ficus religiosa), a tall tree with a wide canopy. Babul (Vachellia nilotica) trees, though not preferred, were more utilized for pre-roosting, probably because of their abundance. The lack of suitable open areas near the primary roost site in KNP may help explain why harriers used trees as pre-roosting perches there. At other roost sites outside KNP where trees were sparse, harriers mainly pre-roosted on the ground. By perching on trees, harriers may be conspicuous to other arriving harriers, which likely helps the birds gather into a large roosting flock. Such large roosts may benefit harriers by providing protection from predators and a site where birds may obtain information on food resources. Although trees were used as pre-roosting sites at KNP, I did not observe any harriers roosting on trees overnight during the 3-yr study. [ABSTRACT FROM AUTHOR]

Published

2024

21. Fragments of Bone, Fragments of Light.

Author

SMITH, NELL

Subjects

*TOTAL solar eclipses, *MULTICELLULAR organisms, *CRANES (Birds), *GRASSLAND birds, *ROOSTING, *KISSING, MIGRATORY Bird Treaty Act (U.S. : 1918)

Abstract

The article "Fragments of Bone, Fragments of Light" in the Southern Humanities Review discusses the geological and paleontological history of Little Box Elder Cave in Wyoming, focusing on the discovery of thousands of animal bones, including bird species dating back over eleven thousand years. The text explores the evolutionary history of birds, geological changes in the region, and the significance of the cave's contents in understanding ancient ecosystems. Through personal reflections and observations of nature, the author contemplates the interconnectedness of time, nature, and extinction, prompting readers to consider the importance of preserving ecological diversity and the transient beauty of existence. [Extracted from the article]

Published

2024

22. CAPTURE: MAGICAL MACRO.

Author

Fenech, Peter

Subjects

DEPTH of field, FOCAL planes, FOCAL length, BODIES of water, DAYLIGHT, ROOSTING, MINDFULNESS

Abstract

This article from Digital Photographer offers practical advice and techniques for capturing stunning macro photographs with a fairytale-like atmosphere. It acknowledges the unique challenges of macro photography, such as short focus distances and high magnifications, and provides tips for composing shots, maintaining focus on important details, and effectively lighting the scene. The article emphasizes the importance of creativity in macro photography and suggests alternative approaches to lighting, timing, and background selection. Two professional photographers with different creative styles share their processes and explain how to transform ordinary macro scenes into works of art. The article also provides guidance on controlling focus and creating enchanting bokeh backgrounds. Overall, this document offers valuable tips and techniques for capturing high-quality macro and close-up images, emphasizing the significance of subject distance, lighting effects, and fieldcraft skills. The author recommends using natural lighting, capturing glowing light, and adjusting camera settings to achieve a magical aesthetic. Additionally, the document offers advice on finding subjects, including being patient, observing their habits, and exploring different habitats. The author also suggests specific equipment, such as LED lights, clamps, tripods, and tele-macro lenses. [Extracted from the article]

Published

2024

23. The use of artificial roosting structures by long-tailed bats (<italic>Chalinolobus tuberculatus</italic>) and non-target wildlife.

Author

O’Donnell, Colin F. J.

Subjects

*FOREST birds, *HABITATS, *BIRDHOUSES, *ROOSTING, *THERMAL properties, *BATS

Abstract

Globally, artificial wildlife structures are used widely to enhance breeding habitat or provide shelter for a host of wildlife species. They are commonly used to enhance roosting habitat for tree-dwelling bats. A remnant population of Nationally Critical long-tailed bats (Chalinolobus tuberculatus) survives in South Canterbury, New Zealand, but optimal roosting habitat is rare and breeding success low. To enhance breeding habitat, 96 Schwegler bat boxes were deployed as artificial wildlife structures in trees in regenerating indigenous forest (n = 44) and farmland (n = 52) close to known, but poor quality, maternity roosts. Schwegler boxes have similar thermal properties to high quality natural roosts. Boxes were inspected five times over 12 years. Long-tailed bats, or their signs, were detected in 10% of boxes. In addition, a new population of geckos (Woodworthia ‘Southern Alps’) was detected (occupying 26% of boxes), South Island rifleman (Acanthisitta chloris chloris) nested in 35% of boxes and a range of invertebrates was detected, but not identified, except for Canterbury tree wētā (Hemideina femorata; 40% of the boxes). Most occupancies were in regenerating forest. While boxes were unsuccessful at attracting large numbers of long-tailed bats, use by other wildlife was unforeseen, suggesting a useful tool for sampling wildlife in arboreal habitats. [ABSTRACT FROM AUTHOR]

Published

2024

24. Accelerated forest restoration may benefit spotted owls through landscape complementation.

Author

Jones, G. M., Stanley, C. K., Peery, M. Z., Maxwell, C., and Wilson, K. N.

Subjects

*FOREST restoration, *FOREST resilience, *ECOLOGICAL disturbances, *FUELWOOD, *ROOSTING

Abstract

Animals often rely on the presence of multiple, spatially segregated cover types to satisfy their ecological needs; the juxtaposition of these cover types is called landscape complementation. In ecosystems that have been homogenized because of human land use, such as fire‐suppressed forests, management activities have the potential to increase the heterogeneity of cover types and, therefore, landscape complementation. We modeled changes to California spotted owl (Strix occidentalis occidentalis) nesting/roosting habitat, foraging habitat and habitat co‐occurrence (i.e. landscape complementation) within a 971 245‐ha forest landscape restoration project area, the Tahoe‐Central Sierra Initiative (TCSI) landscape, through mid‐century as a function of fuels reduction, fire and climate change. Compared to a minimal management scenario, accelerated management within the TCSI landscape was predicted to increase the number of potential 400‐ha spotted owl territories containing a high degree of landscape complementation (defined as containing >20% nest/roost habitat and >20% foraging habitat) at lower elevations (<5000 ft.) by an average of 90 to 118 territories by 2050, depending on the climate scenario examined. At higher elevations (>5000 ft.), potential benefits of treatments to spotted owl nesting/roosting and foraging habitat were less evident, but accelerated management did not result in habitat loss. Our results suggest that accelerated fuels reduction and forest restoration treatments within this large landscape are expected to benefit spotted owls by improving the spatial juxtaposition of nesting/roosting and foraging cover types by 2050 compared to a minimal management scenario. Fuels reduction and forest restoration in this landscape thus can both increase the resilience of forest ecosystems to disturbances as well as benefit the habitat of a sensitive old‐forest species. [ABSTRACT FROM AUTHOR]

Published

2024

25. Testing the information centre hypothesis in a multilevel society.

Author

Papageorgiou, Danai, Cherono, Wismer, Gall, Gabriella, Nyaguthii, Brendah, and Farine, Damien R.

Subjects

*ANIMAL species, *FIELD research, *GUINEAFOWL, *SOCIAL groups, *ROOSTING

Abstract

In various animal species conspecifics aggregate at sleeping sites. Such aggregations can act as information centres where individuals acquire up‐to‐date knowledge about their environment. In some species, communal sleeping sites comprise individuals from multiple groups, where each group maintains stable membership over time.We used GPS tracking to simultaneously record group movement in a population of wild vulturine guineafowl (Acryllium vulturinum) to investigate whether communal sleeping sites can facilitate the transfer of information among individuals across distinct groups. These birds live in large and stable groups that move both together and apart, often forming communal roosts containing up to five groups.We first test whether roosts provide the opportunity for individuals to acquire information from members of other groups by examining the spatial organization at roosts. The GPS data reveal that groups intermix, thereby providing an opportunity for individuals to acquire out‐group information.We next conduct a field experiment to test whether naïve groups can locate novel food patches when co‐roosting with knowledgeable groups. We find that co‐roosting substantially increases the chances for the members of a naïve group to discover a patch known to individuals from other groups at the shared roost. Further, we find that the discovery of food patches by naïve groups subsequently shapes their space use and inter‐group associations. We also draw on our long‐term tracking to provide examples that demonstrate natural cases where communal roosting has preceded large‐scale multi‐group collective movements that extend into areas beyond the groups' normal ranges.Our findings support the extension of the information centre hypothesis to communal sleeping sites that consist of distinct social groups. [ABSTRACT FROM AUTHOR]

Published

2024

26. Victorian reports of Black Flying-foxes Pteropus alecto.

Author

Mo, Matthew

Subjects

WILDLIFE rescue, YOUNG adults, SPECIES distribution, ROOSTING, HAWTHORNS, SUBURBS

Abstract

To date, there have been only 3 reports of Black Flying-foxes Pteropus alecto in Victoria, all in Melbourne. The first and second reports occurred within one week of each other, in July 2010. The first report was of an adult female rescued from a suburban garden in Hawthorn. The second report was of 2 individuals observed roosting in an existing Grey-headed Flying-fox Pteropus poliocephalus roost in Fairfield, within 2 km of the Hawthorn sighting. The third report was of 2 young adults collected in October 2019 from the same suburb as the first report. The Black Flying-fox has notably undergone a dramatic southerly range expansion: prior to 1920, it occurred no further south than Rockhampton, Queensland. Now, it roosts regularly as far south as Sydney, New South Wales. However, the Victorian reports are unusual, since the distance between Sydney and Melbourne is approximately 700 km. [ABSTRACT FROM AUTHOR]

Published

2024

27. Nesting habits of Baya Weaver Ploceus philippinus (Linnaeus, 1766) on power and television cables in the agricultural landscape of Kallakurichi district, Tamil Nadu, India.

Author

Pandian, M.

Subjects

CABLE television, COLONIAL birds, NEST predation, AGRICULTURE, NEST building, SUGARCANE

Abstract

The nesting habits of Baya Weaver Ploceus philippinus with nesting site (e.g., power and television cables), source of nest materials, various developmental stages of nests, abnormal nests, number of individuals and their association with other bird species, and threats to their nests were studied between March and September 2021 in the agrarian landscapes of 42 villages in Kallakurichi District, Tamil Nadu. A total of 155 nest colonies containing 1,725 nests of various developmental stages and 1,993 adult birds were counted on power/television cables. The number of nests per colony found varied from one to 57. The average number of nests per colony was eleven. Baya Weaver had preferred power/television cables as nesting sites in the study area in spite of availability of potential nest-supporting trees, such as Cocos nucifera and Borassus flabellifer within 500 m radii from cables bearing nests. Birds used fibres of sugarcane leaves (Saccharum officinarum) for the construction of nests. Out of 778 helmet stage nests observed, 90% (n = 716) helmet stage nests had clay deposits on their inner walls and no clay deposits were found in the remaining 10% (n = 62) helmet stage nests. Eleven types of abnormal nests constituted 17% (n = 286) of the total nests. Sixteen other bird species (e.g., birds of order: Passeriformes, Coraciiformes, Piciformes, Cuculiformes and Columbiformes) were found associated with the individuals of Baya Weaver. These bird species strictly shared similar roosting and foraging grounds. The avian predators such as House Crow Corvus splendens, Large-billed Crow Corvus macrorhynchos, Black Drongo Dicrurus macrocercus, Rufous Treepie Dendrocitta vagabunda, Coucal Centropus senegalensis, and Shikra Accipiter badius had damaged the nests, eggs and chicks. The study revealed that about 1.1% nests (n = 197) were probably damaged by these avian predators. Power cables in the study sites had provided suitable nesting sites for Baya Weavers. The causes for utilization of power cables as nesting sites in larger geographical areas require further studies. [ABSTRACT FROM AUTHOR]

Published

2024

28. Characterisation of germline progenitor cells in the testes of phylostomid bats: Artibeus jamaicensis and Sturnira lilium.

Author

Moreno-Mendoza, Norma, Cabrera-Campos, Iván, Zacaula-Juárez, Noe, and Porras-Gómez, Tania J.

Subjects

*SPERMATOGENESIS, *PROGENITOR cells, *SERTOLI cells, *TESTIS, *GERM cells, *SOMATIC cells, *ROOSTING

Abstract

Context: A population of sperm progenitor cells, known as Asingle spermatogonia, has been described in mammalian testes. During division cycles in spermatogenesis, some cells will form part of the Asingle spermatogonia group, while others form primary spermatocytes. Thus, during spermatogenesis, spermatogonia are the progenitor cells of spermatozoa. Aims: In this study, we characterise the spermatogonial stem cells (SSCs) in the testicles of Artibeus jamaicensis and Sturnira lilium bats. The knowledge generated from this will contribute to the understanding of the biology of germ cells and the mechanisms of spermatogenesis in mammals, generating information on wildlife species that are important for biodiversity. Methods: Testes were analysed by light and electron microscopy. Likewise, the expression of specific factors of stem cells (Oct4 and C-kit), germ cells (Vasa), cell proliferation (pH3 and SCP1) and testicular somatic cells (MIS, 3βHSD and Sox9) was characterised by immunofluorescence and western blot. Key results: The histological analysis enabled the location of type Asingle, Apaired and Aaligned spermatogonia in the periphery of the seminiferous tubules adjacent to Sertoli cells. The expression of genes of stem and germ cells made it possible to corroborate the distribution of the SSCs. Conclusions: Results indicate that type Asingle spermatogonia were not randomly distributed, since proliferative activity was detected in groups of cells adjacent to the seminiferous tubules membrane, suggesting the localisation of spermatogonial niches in a specific region of testes. Implications: This study provides evidence for the existence of SSCs in the testis of chiropterans that contribute to the renewal of germline progenitor cells to maintain the reproduction of the organisms. A population of sperm progenitor cells, known as Asingle spermatogonia, has been described in mammalian testes, but these cells have not been studied in bat testes. Bats are a good model due to their human-like reproductive characteristics. The results show the existence of spermatogonial stem cells that constantly renew spermatogenesis in these chiropterans, similar to that described in other mammals such as humans. Image by Tania Porras-Gómez and Norma Moreno-Mendoza. [ABSTRACT FROM AUTHOR]

Published

2024

29. Group vocal composition and decision-making during roost finding in Spix's disk-winged bats.

Author

Sagot, Maria, Rose, Nicole, and Chaverri, Gloriana

Subjects

*GROUP dynamics, *BAT sounds, *SOCIAL cohesion, *SOCIAL groups, *ROOSTING

Abstract

Theoretical work suggests that having many informed individuals within social groups can promote efficient resource location. However, it may also give rise to group fragmentation if members fail to reach consensus on their direction of movement. In this study, we investigate whether the number of informed individuals, exemplified by bats emitting calls from different roosts, influences group cohesion in Spix's disk-winged bats (Thyroptera tricolor). Additionally, we explore the role of signal reliability, quantified through signalling rates, in group consensus on where to roost. These bats use contact calls to announce the location of a roost site and recruit conspecifics. The groups they form exhibit high levels of cohesion and consist of both vocal and non-vocal bats, with vocal behaviour being consistent over time. Our findings revealed that an increase in the number of roosts broadcasting calls is strongly associated with the likelihood of groups fragmenting among multiple roosts. Additionally, we found that a majority of group members enter the roost with higher calling rates. This phenomenon can mitigate the risk of group fragmentation, as bats emitting more calls may contribute to greater group consensus on roosting locations, thereby reducing the likelihood of individuals separating and enhancing overall group cohesion. Our results highlight the potential costs of having too many information producers for group coordination, despite their established role in finding critical resources. This article is part of the theme issue 'The power of sound: unravelling how acoustic communication shapes group dynamics'. [ABSTRACT FROM AUTHOR]

Published

2024

30. Fishers (Pekania pennanti) are forest structure specialists when resting and generalists when moving: behavior influences resource selection in a northern Rocky Mountain fisher population.

Author

Olson, Lucretia E., Sauder, Joel D., Fekety, Patrick A., Golding, Jessie D., Lewis, Carly W., Sadak, Rema B., and Schwartz, Michael K.

Subjects

HABITAT selection, HABITATS, CONIFEROUS forests, FOREST management, ANIMAL mechanics, ROOSTING, MATE selection

Abstract

Background: Studies of animal habitat selection are important to identify and preserve the resources species depend on, yet often little attention is paid to how habitat needs vary depending on behavioral state. Fishers (Pekania pennanti) are known to be dependent on large, mature trees for resting and denning, but less is known about their habitat use when foraging or moving within a home range. Methods: We used GPS locations collected during the energetically costly pre-denning season from 12 female fishers to determine fisher habitat selection during two critical behavioral activities: foraging (moving) or resting, with a focus on response to forest structure related to past forest management actions since this is a primary driver of fisher habitat configuration. We characterized behavior based on high-resolution GPS and collar accelerometer data and modeled fisher selection for these two behaviors within a home range (third-order selection). Additionally, we investigated whether fisher use of elements of forest structure or other important environmental characteristics changed as their availability changed, i.e., a functional response, for each behavior type. Results: We found that fishers exhibited specialist selection when resting and generalist selection when moving, with resting habitat characterized by riparian drainages with dense canopy cover and moving habitat primarily influenced by the presence of mesic montane mixed conifer forest. Fishers were more tolerant of forest openings and other early succession elements when moving than resting. Conclusions: Our results emphasize the importance of considering the differing habitat needs of animals based on their movement behavior when performing habitat selection analyses. We found that resting fishers are more specialist in their habitat needs, while foraging fishers are more generalist and will tolerate greater forest heterogeneity from past disturbance. [ABSTRACT FROM AUTHOR]

Published

2024

31. The relative influence of landscape features on maternity roost and hibernaculum selection in temperate bats.

Author

Legros, Jade, McGuire, Liam P., Elliott, Kyle H., and Simard, Anouk

Subjects

*ROOSTING, *BAT conservation, *LANDSCAPE assessment, *BATS, *SCIENCE databases, *LANDSCAPES

Abstract

Many animal life-history stages center around residences (nests, roosts, etc.) where the availability of resources within an optimal range can affect fitness. Understanding factors influencing residence selection is fundamental for efficient management or recovery plans. Many bat species use permanent roosts during different periods of the year, and while most conservation plans aim to protect these roosts, the availability of suitable habitat near the roosts (e.g., foraging habitat) is also critical to consider. We evaluated the importance of landscape features at multiple scales surrounding seasonal bat roosts in two regions (north and south) of Québec (Canada), using data from participatory science and government databases. In the human-altered environment of south Québec, bats selected maternity roosts with high anthropogenic cover and water edge density at the 150 m and 2 km scales, respectively. Conversely, roost selection in north Québec, a forested area, could not be explained by any landscape features. In winter, fewer bats used hibernacula located in heavily human-modified landscapes—opposite to the trend observed with maternity roost selection. Our study demonstrates how considering landscape features at the appropriate temporal and spatial scales can promote more efficient conservation for bats. [ABSTRACT FROM AUTHOR]

Published

2024

32. Perspectives on forestry management: How do bats fit in?

Author

Hohoff, Tara, Rogness, Brittany, and Davis, Mark

Subjects

*FOREST management, *ROOSTING, *BAT conservation, *WILDLIFE conservation, *ENDANGERED species, *WHITE-nose syndrome

Abstract

In the last decade, bat conservation guidance has received increasing attention, as many United States bat species are in decline due to white‐nose syndrome and have been listed or considered for federal endangered species status. Research on how these species are impacted by forestry management decisions has advanced to provide specific conservation actions for these imperiled species. We set out to better understand the level of knowledge land managers had in relation to forestry techniques and their impact on wildlife conservation in order to more effectively strategize how we can efficiently provide educational resources. We surveyed 78 land managers in Illinois to identify their priorities for management and how familiar they were with forestry management guidelines for bat conservation. We followed up with a subset of voluntary participants with semistructured phone interviews to generate more in‐depth responses. Using these tools, we reveal that a top priority for most managers in Illinois is invasive species management. Most have some familiarity with bat conservation actions, but few were confident in their knowledge of threatened and endangered species. Thirteen of the twenty phone interviews identified a preference for talking to/hearing from experts to receive information on bat conservation. These results highlighted where there are information gaps on best practices for forestry management from a conservation perspective, and identified how we can best address these through partnerships with land managers. Implementation of these practices is likely how recovery of these vulnerable species will happen—through protection of their basic needs, including availability of roosts, abundance of prey, and access to uncontaminated water resources. [ABSTRACT FROM AUTHOR]

Published

2024

33. Observations of a greater sac-winged bat pup (Saccopteryx bilineata) with a chromatic disorder.

Author

Fernandez, Ahana A., Tietge, Marisa, and Ripperger, Simon

Subjects

*ROOSTING, *SOCIAL groups, *SOCIAL integration, *BATS

Abstract

Chromatic disorders in bats are typically documented by brief, incidental observations of individuals at day roosts or by accidental captures during mist-netting. Such descriptions usually lack observations on social behaviour including interactions between bats with aberrant pigmentation and other individuals. Here, we report the first observation of leucism in the greater sac-winged bat Saccopteryx bilineata. Over the course of six weeks, we were able to follow the development of a wild pup with a conspicuous aberrant pigmentation, by observing it in its day roost. Our observations indicate that the vocal and behavioural development of the pup was entirely normal, as well as the integration into its social group. After six weeks, when the pup was already foraging individually, it did not return to its colony in the morning, indicating that it may have been preyed on. [ABSTRACT FROM AUTHOR]

Published

2024

34. My cave, my rules: Specialization, modularity, and topology of bat‐fly interactions in hot and cold caves from eastern South America.

Author

Urbieta, Gustavo Lima and da Cunha Tavares, Valéria

Subjects

CAVES, TOPOLOGY, BATS, ROOSTING, ECTOPARASITES

Abstract

Copyright of Biotropica is the property of Wiley-Blackwell 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

2024

35. Characterizing diurnal roosts of male Little Brown Myotis (Myotis lucifugus) during summer.

Author

Hilty, Shannon L, Litt, Andrea R, Maxell, Bryce A, Gower, Claire N, Garrott, Robert A, and Hanauska-Brown, Lauri

Subjects

*BATS, *LITTLE brown bat, *ROOSTING, *TREE cavities, *WHITE-nose syndrome, *WINTER, *HABITATS

Abstract

Shelter is one critical aspect of an animal's habitat, providing refuge from predators and weather, protection for offspring, and aiding in physiological homeostasis. During the day, bats find shelter in roosts—spaces created under tree bark, in tree cavities, or between rocks—after spending the night searching for food. Finding a roost with a microclimate that enables bats to remain in their thermoneutral zone could reduce energetic demands or allow bats to allocate energy to other activities such as reproduction and fighting disease. We aimed to characterize the structural features and microclimate (i.e. temperature) of roosts used by male Little Brown Myotis (Myotis lucifugus) during the summer and determine whether bats select certain characteristics disproportionally to what is available at different spatial scales. During the summers of 2017 and 2018, we radio-tracked 34 male M. lucifugus in Lodgepole Pine-dominated forests. We located at least 1 roost for 20 individuals (average = 2.85 roosts/bat, range = 1 to 6). Although snags were available, most of the roosts were in rock features (86% in rocks, 14% in trees or snags). Male M. lucifugus were more likely to select rock roosts with less canopy closure that were closer to water compared to available roosts on the landscape. They also selected roosts in rock features occurring within larger areas of rock cover that had wider entrances and access to crevices that faced the sky; these roosts also had warmer microclimates relative to other locations available on the landscape. Crevices that allow the bat to bask in the sun and change locations within a roost, minimizing energy needed for active thermoregulation, could be very beneficial for individuals recovering from diseases such as white-nose syndrome. Our work indicates that rock features provide habitat for male M. lucifugus during summer; other studies have shown that bats roost in these features during autumn and winter, further supporting their importance. By protecting these important rock structures, managers can help bats meet their habitat needs throughout the year. [ABSTRACT FROM AUTHOR]

Published

2024

36. Diurnal activity in an insectivorous bat during migration period.

Author

Lučan, Radek K and Bartonička, Tomáš

Subjects

*AUTUMN, *SPRING, *BATS, *FOOD shortages, *DAYLIGHT, *ROOSTING

Abstract

Diurnal flight activity in otherwise strictly nocturnal bats has typically been linked to random disturbance from day roosts, an urgent need to balance food shortage caused by adverse weather during nighttime, or the absence of diurnal predators. However, migration may be another reason why bats fly during daylight, at least in some areas. Using community-science data collection, we obtained more than 500 records of over 15,000 bats displaying diurnal flight activity, suggesting that it is relatively common in Central Europe. The vast majority of sightings were of common noctules (Nyctalus noctula), with most records concentrated in spring and autumn. The seasonal dynamics of diurnal flights exactly coincided with migratory periods, and directional movements in autumn—when diurnal activity was most frequent and included highest numbers of observed bats—suggest that the behavior may ultimately be linked to migration ecology. The highest frequency of diurnal flights in autumn coincided with highest body mass in the studied territory, thereby refuting the hypothesis of early roost emergence due to poor body condition or decreased predation risk related to increased maneuverability. A shift from strictly nocturnal to partly diurnal activity may balance increased energetic demands imposed by migration, which is temporally synchronized with periods of cold nights when prey density is limited. Common noctule diurnal activity during the migratory period may be beneficial as they can acquire energy by foraging on daily abundant prey while saving nighttime for long endurance flights—alternatively, they may forage on the way to their migratory destination, thereby saving time. Predation risk from diurnal predators may be significantly decreased by choosing high flight altitudes, as observed particularly during autumn. We suggest that observations on the geographic distribution of diurnally flying noctules may help identify migration corridors. [ABSTRACT FROM AUTHOR]

Published

2024

37. Animal behaviour: diverse insights across Aotearoa New Zealand and the South Pacific.

Author

Cain, Kristal E., Godfrey, Stephanie S., and Painting, Christina J.

Subjects

*ANIMAL behavior, *SEXUAL cycle, *BIOTIC communities, *SEX change in animals, *ANIMAL sexual behavior, *CHICKS, *ROOSTING, *BIRD populations

Abstract

The New Zealand Journal of Zoology has published a special issue on animal behavior in Aotearoa New Zealand and the South Pacific. The issue covers a wide range of topics, including habitat use in birds and bats, species and population differences in behavior, reproductive behaviors, vocal behavior, and the neural mechanisms underlying sex-changing behavior in the New Zealand spotty wrasse. The research presented in this issue highlights the importance of studying animal behavior for conservation and understanding native and exotic species. The editors express excitement for future special issues that further explore this field in Aotearoa New Zealand and beyond. [Extracted from the article]

Published

2024

38. Occupation of artificial roosts by long-tailed bats (Chalinolobus tuberculatus) in Hamilton City, New Zealand.

Author

Robinson, Hannah, Ling, Nicholas, and Tempero, Grant W.

Subjects

*BATS, *ROOSTING, *URBAN growth, *URBAN parks, *LOGISTIC regression analysis

Abstract

Deforestation, increasing urban development and associated infrastructure have resulted in widespread loss of roosting habitat for New Zealand's long-tailed bat (Chalinolobus tuberculatus, pekapeka-tou-roa). As a result, artificial roosts are increasingly proposed as a short to medium-term mitigation measure, despite the absence of specific protocols for the installation, maintenance, and suitability for New Zealand bats. As of 2021, more than 110 artificial roosts had been installed in urban parks within Hamilton City, New Zealand. To determine their uptake and suitability for long-tailed bats, 74 Kent style roosts of varying ages were monitored for 1 year, with 24 (32%) roosts observed occupied by long-tailed bats. Occupation was generally infrequent, with no clear seasonal pattern or specific areas of occupation. However, two older roosts were consistently occupied, with numbers notably increasing during the summer maternity season. Distance to stand edge was the only factor that could be used to predict occupation, with logistic regression indicating that long-tailed bats may prefer roosts in less exposed areas with stable microclimates, within tree stands or sheltered landscape features. Future artificial roost installations should site roosts away from the stand edge in sheltered locations, ideally near natural or already occupied roosts to facilitate discovery and uptake. [ABSTRACT FROM AUTHOR]

Published

2024

39. Effects of innovative dynamic moment of inertia bat on swing speed and muscle activation during batting.

Author

Kuo-Hwa Lin, Wei-Han Chen, Chiang Liu, and Tzu-Lin Wong

Subjects

*MOMENTS of inertia, *MOTION capture (Human mechanics), *COLLEGE baseball, *ROOSTING, *BATTING (Baseball), *ECHOLOCATION (Physiology), *TRICEPS

Abstract

Introduction: To assess differences in swing speed and muscle activation during swinging, including the wind-up, swing, bat-ball contact moment, and follow through, between an innovative baseball bat with dynamic moment of inertia (DMOI) and a conventional baseball bat. Methods: Eight division-1 college baseball players participated in this study. The Motion Analysis System with 10 infrared cameras (250 Hz) and a biovision signal acquisition system (1000 Hz) were used to simultaneously record swing movement and muscle activity during the swinging of the DMOI bat and the regular bat. The dependent sample t-test was used for statistical analysis. Results: Significantly (p < .05) higher swing speeds during the stride phase (0.91 ± 0.32 m/s vs. 0.65 ± 0.28 m/s) and the pre-swing phase (3.43 ± 1.69 m/s vs. 2.84±1.61 m/s) were achieved with the DMOI bat than with the conventional bat. However, the conventional bat was significantly (p < .05) faster during the mid-swing phase (12.84 ± 2.53 m/s vs. 11.19 ± 1.64 m/s), the late-swing phase (22.54 ± 2.15 m/s vs. 20.22 ± 2.41 m/s), and at the moment of impact (23.09 ± 1.91 m/s vs. 21.27 ± 2.57 m/s) than the DMOI bat. During the swing phase, average electromyographic (EMG) activity in wrist flexor in the trailing hand was significantly (p < .05) greater (44.27 ± 17.19% vs. 34.07 ± 11.46% maximal voluntary contraction [MVC]) and the leading arm's triceps brachii activity during the late swing phase was significantly (p < .05) higher (92.57 ± 40.66% vs. 64.13 ± 30.48% MVC) with the DMOI bat than with the conventional bat. Conclusion: Swinging a DMOI bat results in a higher initial swing speed. As the BMOI bat's sliding block moves to the outermost part of the bat during the mid-swing phase and collides, it increases the bat's moment of inertia, leading to a decrease in swing speed during the late swing phase and at the moment of impact. This also increases the swing load, resulting in higher muscle activation in related muscle groups. Incorporation of DMOI bats in baseball swing training is recommended to enhance initial swing speed and muscle activation in later stages. [ABSTRACT FROM AUTHOR]

Published

2024

40. Climate Change and Implications for Monitoring Pipistrellus pygmaeus Populations at Nursery Roosts in the U.K.

Author

Andrews, Margaret M., Harries, David J., Andrews, Peter T., and Crump, Robin G.

Subjects

ATMOSPHERIC temperature, DAY care centers, CLIMATE change, ROOSTING, BATS

Abstract

Integrated air temperature between January 1 and March 31 was recorded from 1983 to 2023 near a nursery roost of Pipistrellus pygmaeus in West Wales, U.K. Integrated air temperature was defined as accumulated heat above a threshold temperature above 5°C when Chironomid prey flew. Between 2003–2023 integrated air temperatures were in the same range (71–264 degree days) as those from 1983 to 2002 but the incidence of warm years increased. There were eight years from 2003–2023 when records were > 203 degree days compared with four years from 1983–2002. The effect on P. pygmaeus was investigated and weekly exit records from April 1 to September 27 during 1983–2002 showed six years when the first peak exit count in May–June (NJN) occurred earlier than anticipated (weeks 6–8, April 1 = week 1) so NJN counts were not within the U.K. national monitoring period (weeks 9–12). Subsequently, the probability of early NJN counts in weeks 6–8, based on the changes in the integrated air temperature January to March, was calculated. A binary logistic model predicted that for 95% of the time, the likelihood of an earlier peak exit count in six to eight weeks exceeded 1.0 (OR = 1.06, 95% CI = 1.02–1.10) for every one degree day of increase in the integrated air temperature. The probability of an early peak exit count in weeks 6 to 8 stabilized to 0.80 to 0.95, when the integrated air temperature increased linearly from 210 to 264 degree days. The annual integrated air temperatures from January to March at 66.7% of 24 nursery roost sites in the U.K. from 2019–2023 ranged from 150–259 degree days, so prediction of early peak exit events could optimize nursery roost counts by addition of counts in weeks 6–8 at selected maternity roosts when the annual integrated air temperature ranged from 210–264 degree days and enable assessment of the extent and pace of climate change on P. pygmaeus. [ABSTRACT FROM AUTHOR]

Published

2024

41. Upward Trends in Some Bat Populations from Central Poland between 2000 and 2023 Revealed in Small Hibernacula.

Author

Lesiński, Grzegorz and Stolarz, Przemysław

Subjects

BATS, MYOTIS, HIBERNATION, ROOSTING, SPECIES, WINTER

Abstract

Results of a long-term study conducted in large bat hibernacula of central Europe showed upward trends in populations of many species over the last three decades. This study was aimed to check if similar changes in numbers could be observed in smaller underground winter roosts of bats. Surveys were made in three military shelters near Warsaw between 2000 and 2023 (once a year in February). These roosts hosted relatively small number of hibernating individuals (up to 38). Six bat species were recorded: Myotis nattereri, Myotis daubentonii, Eptesicus serotinus, Plecotus auritus, P. austriacus and Barbastella barbastellus. The species preferring cold sites for hibernation (P. auritus and B. barbastellus) predominated in the studied roosts, representing together over 86% of the recorded individuals. The numbers of the two most abundant species and of all bats showed statistically significant upward trends. [ABSTRACT FROM AUTHOR]

Published

2024

42. Social situations differ in their contribution to population-level social structure in griffon vultures.

Author

Sharma, Nitika, Anglister, Nili, Spiegel, Orr, and Pinter-Wollman, Noa

Subjects

GPS‐telemetry, Gyps fulvus, collective movement, communal roosting, social environment, social foraging, social network analysis, GPS-telemetry, Ecology, Evolutionary Biology

Abstract

Social relationships among animals emerge from interactions in multiple ecological and social situations. However, we seldom ask how each situation contributes to the global structure of a population, and whether different situations contribute different information about social relationships and the position of individuals within the social fabric. Griffon vultures (Gyps fulvus) interact socially in multiple situations, including communal roosting, joint flights, and co-feeding. These social interactions can influence population-level outcomes, such as disease transmission and information sharing that determine survival and response to changes. We examined the unique contribution of each social and ecological situation to the social structure of the population and individuals' positions within the overall social network using high-resolution GPS tracking. We found that the number of individuals each vulture interacted with (degree) was best predicted by diurnal interactions-both during flights and on the ground (such as when feeding). However, the strength of social bonds, that is, the number of interactions an individual had (strength), was best predicted by interactions on the ground-both during the day (e.g., while feeding) and at night (e.g., while roosting) but not by interactions while flying. Thus, social situations differ in their impact on the relationships that individuals form. By incorporating the ecological situations in which social interactions occur we gain a more complete view of how social relationships are formed and which situations are important for different types of interactions.

Published

2023

43. First record of the grand leaf-nosed bat, Hipposideros grandis (Hipposideridae), from Bangladesh.

Author

Aziz, Mohammad A., Hossain, Md M., Marma, Aung S.N., Rahman, Md A., Hamza, Ameer, Rahman, Mohammad A., Naznin, Sumaiya, and Abedin, Muhammad S.

Subjects

*CYTOCHROME b, *BATS, *NUMBER theory, *CAVES, *ROOSTING

Abstract

We report the first record of the grand leaf-nosed bat, Hipposideros grandis, from a cave in the Chittagong Hill Tracts of Bangladesh. We confirmed its identity using morphometric and molecular analyses. This study enhances the number of national bat fauna and underscores the importance of comprehensive bat surveys in Bangladesh. [ABSTRACT FROM AUTHOR]

Published

2024

44. Archaeological sites and historical monuments as refuges for threatened species: a call for integrated conservation management.

Author

Báez, José Carlos and Torreblanca, Davinia

Subjects

WILDLIFE conservation, HISTORIC sites, SUSTAINABILITY, MONUMENTS, ARCHAEOLOGICAL excavations, ROOSTING

Published

2024

45. Irish-Canadian botanist Diana Beresford-Kroeger enjoys whisky and shamrocks--but trees are her true love.

Author

UNDERWOOD, KATIE

Subjects

*ATMOSPHERIC carbon dioxide, *NATIVE species, *FOREST fire prevention & control, *FACIAL creams (Cosmetics), *WALNUT, *ORPHANS, *ROOSTING

Abstract

Irish-Canadian botanist Diana Beresford-Kroeger's life story is filled with unique experiences, from being orphaned at 13 to learning ancient Celtic plant medicine from her aristocratic family in Ireland. With two Ph.D.s in biology and biochemistry, she has become a global advocate for forests, likened to what Jane Goodall did for chimps. Beresford-Kroeger's latest project, Our Green Heart, encourages planting one tree per year to combat climate change and restore forests, emphasizing the importance of nature in our lives. Her spiritual connection to trees and her unconventional approach to environmentalism have garnered a cult following, with her message resonating with many who seek a deeper connection to the Earth. [Extracted from the article]

Published

2024

46. DRIVEN.

Author

HEIL, NICK

Subjects

*HOSPITAL birthing centers, *FATHERS, *MENTAL health, *CENTENARIANS, *ROOSTING, *WEIGHT lifting

Abstract

This article explores the work and ideas of Peter Attia, a physician and bestselling author who focuses on longevity and health. Attia believes that decline in old age can be prevented through exercise, lifestyle choices, and personalized healthcare. He emphasizes the importance of exercise as a powerful intervention for delaying physical and cognitive decline. Attia's approach, known as Medicine 3.0, challenges the current healthcare system and promotes prevention as a crucial aspect of health. The article also discusses the growing interest in longevity and the rise of products and services catering to this trend. It mentions the historical influence of fitness and health books like E. Harris's Jogging (1966) and Kenneth Cooper's Aerobics (1968), as well as initiatives like Exercise Is Medicine, launched in 2007 by the American College of Sports Medicine and the American Medical Association. However, incorporating fitness into prevention and therapy has been challenging due to time constraints and a focus on medication and procedures. Attia's approach requires patients to be well-informed, willing to change habits, and actively involved in their own health. The article concludes with the author's personal experience with a fitness program called Outlive, which aims to improve longevity and overall health. The program focuses on achieving a high VO2 max score and includes specific training sessions. The article highlights the importance of maintaining a healthy lifestyle and raises questions about the accessibility of such programs for individuals with limited resources. [Extracted from the article]

Published

2024

47. Large trees for larger urban gains.

Subjects

URBAN trees, ROOSTING

Abstract

The article discusses the Ashburton CBD revitalization project in New Zealand, which successfully transformed the area by incorporating a mixture of young and mature trees. The project has increased footfall numbers and dwell time, benefiting local businesses and residents. The design by Jaxmax Landscape Architects used a variety of trees, including natives and deciduous exotics, to provide year-round visual interest. The trees have numerous benefits, such as cooling the air, reducing carbon dioxide, filtering pollutants, absorbing sound, and increasing property values. Overall, the project has improved sustainability, supported business owners, and created a more liveable city center. [Extracted from the article]

Published

2024

48. Effects of tag mass on the physiology and behaviour of common noctule bats.

Author

Kelling, Marit, Currie, Shannon E., Troxell, Sara A., Reusch, Christine, Roeleke, Manuel, Hoffmeister, Uwe, Teige, Tobias, and Voigt, Christian C.

Subjects

ROOSTING, BATS, BODY mass index, WIND tunnels

Abstract

Background: External tags, such as transmitters and loggers, are often used to study bat movements. However, physiological and behavioural effects on bats carrying tags have rarely been investigated, and recommendations on the maximum acceptable tag mass are rather based on rules of thumb than on rigorous scientific assessment. Methods: We conducted a comprehensive three-step assessment of the potential physiological and behavioural effects of tagging bats, using common noctules Nyctalus noctula as a model. First, we examined seasonal changes in body mass. Second, we predicted and then measured potential changes in flight metabolic rate in a wind tunnel. Third, we conducted a meta-analysis of published data to assess effects of different tag masses on the weight and behaviour of bats. Results: Individual body mass of common noctules varied seasonally by 7.0 ± 2.6 g (range: 0.5–11.5 g). Aerodynamic theory predicted a 26% increase in flight metabolic rate for a common noctule equipped with a 3.8 g tag, equating to 14% of body mass. In a wind tunnel experiment, we could not confirm the predicted increase for tagged bats. Our meta-analysis revealed a weak correlation between tag mass and emergence time and flight duration in wild bats. Interestingly, relative tag mass (3–19% of bat body mass) was not related to body mass loss, but bats lost more body mass the longer tags were attached. Notably, relatively heavy bats lost more mass than conspecifics with a more average body mass index. Conclusion: Because heavy tags (> 3 g) were generally used for shorter periods of time than lighter tags (~ 1 g), the long-term effects of heavy tags on bats cannot be assessed at this time. Furthermore, the effects of disturbance and resource distribution in the landscape cannot be separated from those of tagging. We recommend that tags weighing 5–10% of a bat's mass should only be applied for a few days. For longer studies, tags weighing less than 5% of a bat's body mass should be used. To avoid adverse effects on bats, researchers should target individuals with average, rather than peak, body mass indices. [ABSTRACT FROM AUTHOR]

Published

2024

49. Flexible migration and habitat use strategies of an endangered waterbird during hydrological drought.

Author

Pearse, Aaron T., Caven, Andrew J., Baasch, David M., Bidwell, Mark T., Conkin, John A., and Brandt, David A.

Subjects

*DROUGHTS, *ROOSTING, *BIRD migration, *CLIMATE change, *CRANES (Birds), *MIGRATORY birds, *CLIMATE extremes

Abstract

Wildlife species confront threats from climate and land use change, exacerbating the influence of extreme climatic events on populations and biodiversity. Migratory waterbirds are especially vulnerable to hydrological drought via reduced availability of surface water habitats. We assessed how whooping cranes (Grus americana) modified habitat use and migration strategies during drought to evaluate their resilience to changing conditions and adaptive capacity. We categorized >8000 night‐roost sites used by 146 cranes from 2010 to 2022 and examined relative use during non‐drought, moderate drought, and extreme drought conditions. We found cultivated and uncultivated palustrine and lacustrine wetlands were generally used less during droughts than non‐drought conditions. Conversely, impounded palustrine and lacustrine systems and rivers served more frequently as drought refugia (i.e., used more during drought than non‐drought conditions). Night roosts occurred primarily on private lands (86% overall); public land use decreased with latitude and increased with drought severity, with greatest use (56%) occurring during severe autumn drought in the southern Great Plains. Quantifying use of identified critical habitats in the United States indicated that Cheyenne Bottoms State Waterfowl Management Area and Quivira National Wildlife Refuge were used less during drought, and the Central Platte River and Salt Plains National Wildlife Refuge received similar use during drought compared to non‐drought conditions. Our findings provide insights into compensatory use of habitats, where impounded surface water may function in a complementary fashion with natural wetlands. Collectively, these and other types of wetlands distributed across the migration corridor provided a reliable network of habitat available across the Great Plains. A diversity of wetlands available during variable environmental conditions would be useful in supporting continued recovery of whooping cranes and likely have benefits for a wide array of migratory birds. [ABSTRACT FROM AUTHOR]

Published

2024

50. Group structure and diurnal behavior in a large colony of Mimon cozumelae in Yucatán, México.

Author

ROMO-HERNÁNDEZ, KINARI, ORTEGA, JORGE, BOLÍVAR-CIMÉ, BEATRIZ, and MACSWINEY G., M. CRISTINA

Subjects

TROPICAL forests, WILDLIFE conservation, ORGANIZATIONAL behavior, SOCIAL structure, SEX ratio

Abstract

Copyright of Therya is the property of Asociacion Mexicana de Mastozoologia, A. C. 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

2024