Foraging and Roosting Behaviors of Rafinesque's Big-eared Bat (Corynorhinus rafinesquii) at the Northern Edge of the Species Range

Johnson, Joseph S

01 January 2012

Bat populations in the eastern United States are currently declining at unprecedented rates as a result of habitat loss, commercial wind energy development, and white-nose syndrome. Effective conservation of these declining populations requires knowledge of several aspects of summer and winter ecology, including daytime habitat use (day-roost selection and social behaviors), nocturnal habitat use (foraging habitat selection, prey selection, and prey abundance), and winter hibernation (torpor) patterns. This dissertation addresses these questions for Rafinesque’s big-eared bat (Corynorhinus rafinesquii), a species of conservation concern in the southeastern United States. Kentucky represents the northern edge of the range of Rafinesque’s big-eared bat, and summer and winter behaviors in Kentucky are likely to differ from what has been observed in southern portion of the range, where available habitats and climate are different. My research occurred in two study areas in Kentucky, Mammoth Cave National Park in central Kentucky, and the Ballard Wildlife Management areas in western Kentucky. This dissertation includes all of the work done in western Kentucky, where I radio-tagged 48 adult big-eared bats and documented daytime and nighttime habitat use. Also included is a portion of the work done in central Kentucky, focusing on hibernation patterns of 14 adult big-eared bats radio-tagged during the winter at Mammoth Cave. Data disseminated in this dissertation provide insights into the summer and winter ecology of Rafinesque’s big-eared bat in Kentucky, and can be used to manage populations threatened by habitat loss and white-nose syndrome.

Chiroptera

habitat use

hibernation

social network analysis

torpor

Behavior and Ethology

Comparative and Evolutionary Physiology

Forest Management

Terrestrial and Aquatic Ecology

Zoology

Light pollution & biodiversity : What are the levers of action to limit the impact of artificial lighting on nocturnal fauna ? / Pollution lumineuse & biodiversité : Quels leviers d'actions pour limiter l'impact de l'éclairage artificiel sur la faune nocturne ?

Pauwels, Julie

11 October 2018

L’emprise de la lumière artificielle s’étend de manière importante et rapide à travers le monde entier et est en train de changer le paysage nocturne menaçant ainsi une large part des écosystèmes. L’augmentation des niveaux de lumière la nuit entraîne une perturbation du rythme circadien et par là une modification des comportements des espèces nocturnes mais aussi diurnes et des interactions entre espèces. Malgré l’importance de l’enjeu que représente la pollution lumineuse, le manque de connaissances dans le domaine limite la création de réglementations pour réduire l’impact de l’éclairage nocturne sur la biodiversité. Il est donc urgent d’apporter des éléments concrets pour construire des recommandations et des outils d’évaluation à destination des gestionnaires du territoire.Dans ce contexte, l’objectif de cette thèse est d’étudier l’impact de la pollution lumineuse sur la faune nocturne à deux échelles paysagères afin de préconiser des méthodes d’évaluation et de gestion de l’éclairage artificiel. Nous avons utilisé les chauves-souris comme modèle d’étude car elles sont longévives et nocturnes et donc fortement affectées par la pollution lumineuse. De plus, il a été montré que les tendances de leurs populations tendent à refléter celles d’espèces plus basses dans la chaîne trophique, les rendant ainsi d’autant plus sensibles aux pressions anthropiques. Dans un premier temps, nous avons étudié l’effet de la pollution lumineuse à l’échelle de villes, une échelle paysagère en cohérence à la fois avec les distances de déplacement des individus et avec une réalité de gestion de l’éclairage. Malgré que les espèces anthropophiles vivant toujours dans les grandes villes soient considérée comme bénéficiant de l’éclairage artificiel, ce travail a montré qu’à une échelle regroupant tous les aspects des déplacements quotidiens des individus, l’effet global de la lumière est négatif. De plus, bien qu’une part significative de la pollution lumineuse soit due à l’éclairage public de par sa permanence et son étende, l’étude montre que l’éclairage privé n’est pourtant pas à négliger. Au-delà d’un effet sur le niveau d’activité, la lumière artificielle peut avoir un effet de barrière dans le déplacement des individus et ainsi réduire la connectivité du paysage. Alors que les politiques environnementales sont en faveur du développement de corridors écologiques, la non-inclusion du facteur pollution lumineuse pourrait réduire significativement leur efficacité pour les espèces nocturnes. Un travail de modélisation mettant en lien des données biologiques d’activité avec des aspects paysagers mais aussi lumière a permis de construire des corridors adaptés pour les espèces nocturnes. Cela a aussi mené à des outils d’évaluation de scénarios d’éclairage qui peuvent être utilisés en amont d’aménagements afin de prédire l’impact d’un changement et de les adapter aux enjeux de biodiversité. A une échelle plus fine, il est nécessaire de comprendre quelles caractéristiques des points lumineux sont les plus pertinents à maîtriser afin de formuler des recommandations pour limiter l’impact sur la biodiversité. Nous avons mené une étude de terrain dans un espace protégé où les enjeux sur les chauves-souris sont d’autant plus importants que les espèces les plus sensibles à la lumière y sont protégées, ainsi que leurs habitats, à l’échelle européenne. En travaillant à l’interface entre urbanisation et habitats semi-naturels, nous avons pu montrer que c’est la quantité de lumière émise qui ont l’effet le plus notable. C’est donc ce paramètre sur lequel il faut travailler en priorité pour limiter l’impact de la lumière sur des zones pouvant servir de corridor ou de zone refuge aux espèces sensibles. / The spatial extent of artificial light is increasing rapidly and significantly on Earth surface hence changing the nocturnal lightscape and threatening an important part of ecosystems. The rise in nighttime light levels induces a perturbation of the circadian rhythm and thus a modification of nocturnal, but also some diurnal, species behavior and interactions between species. Despite the spread of light pollution being of major concern, the knowledge gaps in this field limit the creation of regulations to reduce the impact of nighttime lighting on biodiversity. Therefore it is urgent to produce clear and practical information to build tools and define recommendations for land managers. In this context, the aim of the PhD thesis is to study the impact of light pollution on nocturnal fauna through two spatial scales in order to propose methods to evaluate and manage artificial light. We used bats as a model species as they are long-lived and nocturnal and thus highly impacted by light pollution. In addition, it has been shown that their population trends tend to reflect those of species lower in the trophic chain which makes them even more sensitive to anthropic pressures. First, we studied the effect of light pollution within cities. This spatial scale is both coherent with bats distance of movement and with the reality of public lighting management. Although some urban-adapted species living within large cities are considered to benefit from artificial light, this work showed that, at a scale including all aspects of bats daily travels, light has a negative effect on bats activity level. Also, even if a large part of light pollution is due to public lighting, the results show that private lighting should not be neglected. Beyond the impact on bat activity, artificial light can have a barrier effect when individuals are transiting and thus reduce the landscape connectivity. Whereas environmental policies are promoting the development of ecological corridors, not considering light pollution could significantly reduce their efficiency for nocturnal species. Modelling the link between biological data and landscape variables including light level allowed us to build adapted corridors for nocturnal species. This lead to the development of a tool to evaluate lighting scenarios that could be used prior to the implementation of a lighting plan in order to predict the impact it would have and hence adapt it to the local biodiversity issues. At a finer scale, it is necessary to understand which light characteristics are the most relevant levers of actions to formulate recommendations to limit light pollution impact on biodiversity. We carried a field work experiment in a protected area where conservation issues on bat species are even higher as the species most sensitive to light are protected there, together with their habitat, at the EU level. We worked at the interface between urban and semi-natural areas and showed that the illuminance was the most important light characteristic. Hence it is on this parameters that regulations should be applied in priority to limit the impact of light on areas that could potentially be used as corridors or dark refuges for sensitive species.

Biologie de la conservation

Aménagement du territoire

Urbanisation

Éclairage artificiel

Chiroptères

Connectivité du paysage

Conservation biology

Land management

Urbanization

Artificial lighting

Chiroptera

Landscape connectivity

Sociální chování a akustická komunikace u netopýra velkého (Myotis myotis) / Social behaviour and acoustic communication in greater mouse-eared bat (Myotis myotis)

Porteš, Michal

January 2014

Order Chiroptera is characterized by great variability in foraging, roost and social strategies. Greater mouse-eared bat (Myotis myotis, Borkhausen 1797) is a model species of a bat in Europe and his seasonal organisation of population represents typical temperate bat cycle with females aggregated in large maternity colonies and solitery roosting males. Although the M.myotis is a model species, the majority of studies were focused on different aspects of maternity colonies biology and the biology of males is still poorly known. Recently founded aggregations of males of M. myotis in highway bridges allow to study social behaviour and acoustic communication of males on between individual level and discuss these findings with known information. While the bridge in Bernartice was inhabited by aggregation of males in individual roosts, in Voznice bridge we found besides males also a maternity colony of M. myotis. Harems of males were established from august until october. We found different pattern of seasonal roost occupancy in males with males with the highest level of mean occupancy having the highest level of female presence in roost. Vocalisation activity of males increased in august with highest level of activity in september. Males roosting closer to the flight entrance tended to have higher...

Škálování prostorové aktivity letounů / Scaling of spatial activity in bats

Křemenová, Jana

January 2016

2 ABSTRACT The degree of spatial activity, especially the home-range size, is one of the basic biolog- ical characteristics of animals and whether it has enough resources is crucial for the survival and reproduction of the individual. Therefore, it is not surprising that many studies trying to make clear the effect of various ecological and morphological variables and explain the varia- bility of space activities. Bats are a group of mammals, for which until recently, existed only few information about their spatial activity. However, due to the miniaturization of technology and the use of radiotelemetry amount of information rapidly increasing. The aim of this study was to assemble the most complete information about the home- range size and foraging distance of bats and analyze the effect of variables that can influence the spatial activity. From published papers I collected data on 106 species representing 8 fami- lies. The influence of 6 variables (weight, wing loading, aspect ratio, food specialization, colony size, primary productivity of environment) on home-range size and average foraging distance of bat was analysed by phylogenetic regression (PGLS). The best predictor of the home-range size is the primary productivity of the environment, food specialization and body size. The best explanation of...

Populační a geografická proměnlivost létavců (Miniopterus) v západní Palearktidě / Population and geographic variation in long-winged bats (Miniopterus) in the western Palaearctic

Šrámek, Jan

January 2010

In this study the sexual and geographical variations in the genus Miniopterus were deeply investigated, using multidisciplinary analysis (morphometric cranial, dental, fenetic and shape analysis; molecular analysis of mt gene ND2). Different populations from western Palearctic and adjacent regions were analysed: Miniopterus schreibersii (Morocco, West Europe, Pannonia, Balkans, Crete, Near East, Middle East), Miniopterus natalensis (Yemen, Ethiopia) a Miniopterus inflatus (Ethiopia). Extensove samples of Miniopterus schreibersii were tested and existence of sexual dimorphism in cranial constitution was showed: males had generally bigger and relatively higher, shorter and narrower skulls than females; female mandibles were generally bigger than the male ones, females showed also more robust and larger teeth than males. On the other hand, males had markedly bigger canines and relatively higher P4 (in relation to other premolares). The sexes also deiffered in shape of P4 and upper molars. According to the interpopulation variation found, Miniopterus schreibersii samples from West Europe, Pannonia, Balkans, Crete, Sicily, Georgia, coastal Turkish and Moroccan areas belong most probably to the subspecies M. s. schreibersii (Kuhl, 1817). The samples from Afganistan, Iran, Azerbaijan, and from localities...

Assessing the distribution of bats in southern Africa to highlight conservation priorities

Cooper-Bohannon, Rachael

January 2015

Approximately 25% of bats globally are threatened, but limited data on African bats, which account for 20% of bat species, hinders our understanding of their conservation status across this ecologically diverse continent. This study combined: modelling techniques, to predict current species distributions for 58 southern African bat species and project past, current and future distributions of 22 endemic and near-endemic species; bat acoustic surveys, to assess landscape features influencing bat activity in arid and semi-arid regions; and conservation planning software to design a large-scale monitoring network for bats across this subcontinent. Species distribution models were employed using a robust and well established presence-only modelling technique (Maximum Entropy – Maxent) to model the current distributions of 58 species in southern Africa. Although the important eco-geographical variables were species- or in some cases family-specific, overall water availability (both temporary and permanent), seasonal precipitation, vegetation and karst (caves/limestone) areas were the most important factors associated with distribution patterns. These species distributions were then used to identify range-restricted and narrow niche breadth species, alongside other life-history strategies considered to put species at risk, such as Old World pteropodids and cave-dwelling bats to identify species most at risk. Nine of the 58 species in this study were identified as ‘at risk’. Considering range-restriction and endemism separately, the results showed that range-restricted species were a higher proportion (50%) of ‘at risk’ species than endemics (41%) but six of the nine identified species were endemic and range restricted (67%). If only areas of high species richness are prioritised, important areas with low species richness but rare, ‘at risk’ or endemic species would be excluded. Species distributions are not fixed but may shift due to changes in environmental conditions. Accurately predicting changes in species’ distributions due to anthropogenic climate change remains a fundamental challenge for conservation biologists, and this is amplified when dealing with taxa such as bats that are inherently difficult to study and in areas, such as Africa, with sparse ecological data. To better understand endemic bat species risk to climate change in southern Africa and to highlight historical and future likely refugia, Maxent was employed to forecast range-shifts for 22 southern African endemic or near-endemic species. Species distributions were projected during the Last Glacial Maximum (LGM ~22,000 BP), present (1950-2000) and future (2070: averaged 2061-2080, using IPCC5 scenarios) climatic conditions. Climate change was predicted to change species composition extensively within a relatively short timescale (within 60 years). By 2070, 86% of species modelled are predicted to have range contractions and six species were highlighted to be most at risk, with range contractions of more than 20%. The majority of southern Africa is composed or arid or semi-arid regions. Generally arid and semi-arid areas are overlooked and understudied due to low species richness, yet these areas are known to have a high proportion of endemic species. As part of this study, driven transects were carried out across arid and semi-arid areas to assess bat activity in these areas. Bat activity was recorded at 94% of the acoustic surveys, demonstrating that driven transects are an effective method of surveying bats in southern Africa. Bat activity increased at lower altitudes and higher latitudes, which characteristically have more rainfall, permanent water and vegetation. Although water has been shown in other studies to be important for bats, temporary water was not shown to influence bat activity and permanent water was positively correlated with bat activity for hipposiderids and rhinolophids and FM bats, which may reflect the fact that water features important for bats at smaller scale. The same two vegetation types that were consistently negatively correlated with bat activity were drier vegetation types (Karoo-Namib shrubland) and high salinity halophytic vegetation. Finally, a systematic conservation planning software tool (Marxan) was used to design multi-species monitoring networks that incorporated all 58 target species across the 11 ecoregions found in southern Africa. To ensure rare, endemic and range-restricted species were monitored at the same level as widespread species, species distributions (mapped using Maxent) were extracted by ecoregion. Monitoring targets (i.e. a percentage of species distribution across ecoregions) were standardised to ensure the same percentage of predicted distribution was included across all species (rare and widespread). To account for different resources and capacity, three optimal monitoring networks (minimum monitoring stations to achieve the monitoring targets) were proposed to survey 1, 5 or 10% of all species distributions within each ecoregion. The optimal solution for monitoring 1% of species distributions within ecoregions was found by monitoring 1,699 stations (survey sites), or for 5% 8,486 stations and finally for 10% 17,867 stations would be needed. In conclusion, the findings presented in this thesis have important conservation implications and have the potential to inform the practical steps required towards the introduction of a bat monitoring programme in southern Africa. While this study has highlighted challenges to African bat conservation, it has also demonstrated that an integrated and multi-disciplinary approach, using emerging techniques and conservation tools (e.g. conservation planning and automated call analysis software) can be used to fill knowledge gaps and inform conservation priorities in the absence of systematically collected data.

599.4

Ljusföroreningars påverkan på fladdermöss : Sambandet mellan fladdermössarters antal och ljusföroreningar i Stockholm / Lightpollutions effect on bats : The relationship between number of bat species and lightpollution in Stockholm

Putnik, Martina

January 2019

På grund av den globalt snabba tillväxten av mänskliga samhällen har mängden artificiellt ljus ökat. Artificiella ljuset hotar fladdermössens överlevnad på grund av de störningar som ljuset orsakar i fladdermössens födosökande, parning, habitat samt deras cirkadianska system. Syftet med denna studie är att se om det finns ett samband mellan förekomsten av fladdermöss och ljusföroreningar i Stockholms län samt om förekomsten av ljusopportunistiska respektive ljuskänsliga fladdermöss skiljer sig vid olika grader av ljusföroreningar. I studien delades Stockholm i tre stycken zoner: zon 1 har mest ljusföroreningar, zon 2 har mindre, och zon 3 har minst. Styrkan på ljusföroreningar mättes med Sky Quality Meter version L vid 15 stycken fladdermusinventeringar i vardera zonen. Fladdermusarterna delades in i två grupper, ljusopportunistiska och ljuskänsliga. Resultatet av studien visar ingen signifikant interaktion mellan fladdermusgrupp och zonindelningens påverkan på fladdermusandel. Ljusföroreningarna indikerar ingen signifikant påverkan på fladdermössantal. Variablerna ljusförorening, avstånd till väg och järnväg samt molnighet har ingen signifikant påverkan på fladdermössantalet.

ljusföroreningar

fladdermöss

artificiellt ljus

ljusopportunistiska fladdermöss

ljuskänsliga fladdermöss

himmelströljus

belysning

Sky Quality Meter

autobox

belysningsmätning

statistisk analys

Chiroptera

ANOVA

regressionsanalys

Biological Sciences

Biologiska vetenskaper

Caracterização da comunidade de quirópteros (Mammalia) em áreas naturais e manejadas da Floresta Nacional do Tapajós, PA - Brasil

SALDANHA, Nélio

01 December 2000

Submitted by Edisangela Bastos (edisangela@ufpa.br) on 2013-08-02T20:52:28Z No. of bitstreams: 2 Dissertacao_CaracterizacaoComunidadeQuiropteros.pdf: 35283657 bytes, checksum: 3b24038a253cecc43bbb35cc3d820ddb (MD5) license_rdf: 23898 bytes, checksum: e363e809996cf46ada20da1accfcd9c7 (MD5) / Approved for entry into archive by Ana Rosa Silva(arosa@ufpa.br) on 2013-08-19T14:27:49Z (GMT) No. of bitstreams: 2 Dissertacao_CaracterizacaoComunidadeQuiropteros.pdf: 35283657 bytes, checksum: 3b24038a253cecc43bbb35cc3d820ddb (MD5) license_rdf: 23898 bytes, checksum: e363e809996cf46ada20da1accfcd9c7 (MD5) / Made available in DSpace on 2013-08-19T14:27:49Z (GMT). No. of bitstreams: 2 Dissertacao_CaracterizacaoComunidadeQuiropteros.pdf: 35283657 bytes, checksum: 3b24038a253cecc43bbb35cc3d820ddb (MD5) license_rdf: 23898 bytes, checksum: e363e809996cf46ada20da1accfcd9c7 (MD5) Previous issue date: 2000 / Fundação "O Boticário de Proteção à Natureza" / Os quirópteros representam 25 % da mastofauna mundial. São os mamíferos neotropicais mais diversificados e abundantes. A Amazônia brasileira apresenta cerca de 128 espécies de morcegos registradas. Eles possuem uma grande variabilidade morfológica, a qual os permite ocupar diferentes nichos tráficos no ecossistema. São muito importantes para a manutenção e regeneração dos ecossistemas em que vivem. São eficientes na dispersão de sementes, polinização e no controle biológico de insetos e constituem ótimos bioindicadores do estado e das dinâmicas sofridas por esses ecossistemas. O presente estudo objetivou caracterizar a quiropterofauna de uma região da Floresta Nacional do Tapajós, Pará, Brasil, em áreas de floresta primária, capoeira e de um experimento de corte seletivo de madeira. O nível de impacto sobre a comunidade de morcegos desse manejo e da área de capoeira foi comparado aos testemunhos de mata primária em cada habitat e em seus micro-habitats, ou fisionomias: matrizes de sub-bosques, clareiras e pátios de armazenamento de madeira. A comparação se deu através de análises de distribuição, diversidade, abundância, número de espécies e densidade das guildas. Foram amostradas 55 espécies, a maioria frugívoras, representantes de seis famílias. Ao comparar o número de espécies e a diversidade, as áreas de exploração exibem algum impacto, mas não tão acentuado como as áreas de capoeira. As amostras sugerem que a vegetação secundária proporciona uma maior densidade de quirópteros na comparação entre habitats. Mas poucas espécies são favorecidas por esta estrutura de vegetação. As guildas mais favorecidas nesta vegetação são de morcegos frugívoros/onívoros e insetívoros aéreos. A comparação entre fisionomias sugere que os quirópteros de sub-bosque evitam espaços abertos na vegetação. Os processos de sucessão aqui observados apresentam dinâmicas que necessitam de acompanhamento periódico, para a formulação de um modelo mais próximo da realidade. / Bats represent 25% of the mammal World fauna, being the most diversified and abundant mammals in the Neotropical region. About 128 species of bats have been recorded only in the Brazilian Amazonia. They possess a great morphological variability that allows them to occupy different trophic niches in an ecosystem. Bats play an important role on the maintenance and regeneration of the ecosystems they live, being efficient in seed dispersal, pollination, and biological contral of insects. They also constitute good bioindicators for the status and dynamics suffered by those ecosystems. The present study aims to characterize the batfauna of primary forest, secondary forest, and a selective logging experiment areas at the Tapajós National Forest - PA, Brazil. The levels of impact by the logging and by the secondary forest areas on the bat community were then compared to the primary forest controls in each habitat and in its microhabitats; or physiognomies: understory matrix, natural gaps, logging gaps, and wood storage decks. Comparisions were conducted trough analysis of distribution, diversity, relative abundance, number of species, and guild densities. The samples constitute 55 species, most of them frugivorous, and pertaining to six families. Concerning to the number of bat species and their diversity, the logging area exhibits some impact, but not so accentuated as the secondary forest area. Comparison among habitats suggests that the secondary vegetation provides a higher bat density. However, this vegetation structure benefits only a few species. Frugivores/omnivores and aerial insectivores bats are the most succeed guilds in secondary vegetation. Comparison among physiognomies have suggested that the understory bats avoid opened spaces in the vegetation. Succession stages observed hem show dynamics that need a periodic monitoring, so that a more realistic model could be designed.

CNPQ::CIENCIAS BIOLOGICAS::ZOOLOGIA

Mamíferos

Chiroptera

Morcego

Quiropterofauna

Floresta Nacional do Tapajós - PA

Pará - Estado

Amazônia Brasileira

Diversidade evolutiva de morcegos: padrões geográficos e aplicações em conservação / Evolutive diversity of bats: geographic patterns and conservation applications

Peixoto, Franciele Parreira

18 March 2013

Submitted by Erika Demachki (erikademachki@gmail.com) on 2014-09-23T21:19:16Z No. of bitstreams: 2 Peixoto, Franciele Parreira-Dissertação-2013.pdf: 995120 bytes, checksum: 365969ffce47a58af2a011eb0370ed04 (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) / Approved for entry into archive by Jaqueline Silva (jtas29@gmail.com) on 2014-09-23T21:58:54Z (GMT) No. of bitstreams: 2 Peixoto, Franciele Parreira-Dissertação-2013.pdf: 995120 bytes, checksum: 365969ffce47a58af2a011eb0370ed04 (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) / Made available in DSpace on 2014-09-23T21:58:54Z (GMT). No. of bitstreams: 2 Peixoto, Franciele Parreira-Dissertação-2013.pdf: 995120 bytes, checksum: 365969ffce47a58af2a011eb0370ed04 (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) Previous issue date: 2013-03-18 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Aim: To investigate global patterns of phylobetadiversity (PBD) in bats, with the purpose to better understand the mechanisms underlying current biodiversity patterns. We also aimed to use a metric that allows partitioning PBD into two components to distinguish the relative roles of local (e.g. lineage filtering) and regional processes (e.g. speciation) in shaping broad-scale patterns of PBD. Furthermore, we analyzed the distance-decay relationship of phylogenetic beta diversity to provide more information about factors that act in the PBD patterns. Location: global, delimited by biogeographic regions. Methods: Using the global distribution of bats and a supertree available for most species, we calculated PBD using the complement of phylosor index. We used a null model to test if two assemblages were more or less phylogenetically dissimilar than expected by chance. In addition, we decoupled PBD into turnover and nestednessresultant components, providing information about two factors that produce differences in assemblage phylogenetic composition. We also performed a Mantel analysis to analyze the distance-decay patterns of PBD and its two components. Results: The most striking difference in PBD was found between the Old and New World “phylogenetic composition”. We found the lowest values of PBD between adjacent regions (i.e., Neotropical/Neartic; Indo-Malay/Paleartic), revealing a strong geographical structure in PBD. These values were even lower when the turnover component was analyzed, demonstrating the differences in the role of regional processes in shaping regional diversity. On the other hand, we found out that for some adjacent regions (e.g., Afrotropical/Paleartic), the observed PBD was higher than expected by chance and comparatively different from expected by the distance decay relationship. This value remained high, even when we analyzed just the PBD turnover component. This demonstrates that although these regions are relatively close in space, there are other factors driving phylogenetic differences between them (e.g. an environmental barrier). Main conclusions: Our analyses revealed differences in the expected patterns of bat PBD among regions, suggesting that at broad scales, besides the effects of distance and geographic barriers, we also have to consider the importance of environmental gradients when studying the phylogenetic origin of bat assemblages. / A abordagem mais comum no uso de PD (diversidade filogenética) para conservação é selecionar locais com maior diversidade evolutiva. Essa estratégia parte do pressuposto de que locais com maior quantidade de PD indicam maior potencial para respostas evolutivas a mudanças ambientais futuras. No entanto, há um crescente debate sobre se as prioridades de conservação deveriam também ser voltadas para locais com baixo valor de PD, que podem representar centros de diversificação de espécies ou “berçários de diversidade”. Alguns trabalhos têm testado se os hotspots globais de biodiversidade, baseados em riqueza, também representam locais de desproporcional concentração de história evolutiva. Nós testamos aqui se os hotspots contêm mais, menos ou igual diversidade filogenética (PD) que o esperado por uma amostragem ao acaso de espécies em qualquer posição na filogenia, para a ordem Chiroptera. Buscamos responder qual a real contribuição de cada hotspot para a conservação de padrões e processos relacionados à diversidade filogenética. Nós utilizamos uma supertree disponível para a maioria das espécies da ordem, e dados de distribuição das espécies. Nós calculamos o PD para cada hotspot separadamente e utilizamos um modelo nulo para obter os valores esperados dado a riqueza. De 34 hotspots, apenas um apresentou maior PD do que o esperado, treze apresentaram valores menores e o restante valores iguais ao esperado. Nós demonstramos que a relação entre PD e riqueza varia entre regiões biogeográficas, de modo que não há como fazer generalizações acerca da contribuição dos hotspots para a conservação de diversidade evolutiva. De modo geral nossos resultados demonstram que devido ao fato da história evolutiva variar regionalmente, também devem ser estabelecidas as prioridades de conservação nessa escala.

Diversidade filogenética

Biogeografia

Chiroptera

Hotspots de biodiversidade

Filobetadiversidade

Phylogenetic diversity

Biogeography

Biodiversity hotspots

Environmental gradients

Biogeographical regions

Nestednessresultant

Phylosor

Turnover

CIENCIAS BIOLOGICAS::BIOLOGIA GERAL

THE ECOLOGY AND BEHAVIOR OF SPRING MIGRATING INDIANA BATS (<em>MYOTIS SODALIS</em>)

Roby, Piper Lee

01 January 2019

Migration of animals has been studied for decades and has included everything from large terrestrial and pelagic mammals traveling thousands of kilometers to many types of birds flying through several countries to insects going through multiple life cycles in a single migration. The migration of bats has been studied in broad terms to gather coarse information such as distance traveled, connecting summer and winter habitat, and a general understanding of timing. However, only recently have researchers begun to understand the specifics of bat migration including physiology and fine resolution behavior. Using nine years of spring migration data collected on VHF radio-tagged federally endangered female Indiana bats (Myotis sodalis), I predicted behavior based on previous migration studies for bats that used various methods such as band recovery data, stable hydrogen isotopes, and automated telemetry. My project used aerial telemetry to collect location points while tracking individual bats throughout the migration. I describe distances traveled, how much time bats spent in migration, traveling and foraging behavior during migration, and how weather affects bat behavior. In addition, this project resulted in the location of 17 previously unknown maternity colonies for the species including the southernmost colony known to date. Next, I used temperature data collected from individual bats along with ambient temperature to determine how air temperature affects specific bat behavior. I calculated air temperature thresholds for use of torpor in Indiana bats and described how air temperature affects transition states between torpor and normothermy. Finally, I determined landscape preferences for migrating bats during travel and foraging. Indiana bats tend to migrate in a direct path from hibernaculum to summer grounds and use the habitat in the proportion that it is available. Although bats used forested cover when possible, they did travel in open areas (e.g., across agricultural fields) when necessary to continue along the intended trajectory. This data set is the first to track individual nocturnally migrating bats via aerial telemetry for the entirety of the spring migration journey. It provides specific information about how far Indiana bats travel and how long they are migrating across the landscape, illustrates a web of connections between summer and winter habitat, describes the effect of weather on bat behavior, and provides landscape use information that can be useful for land managers and developers.

aerial radio-telemetry

bat migration

Chiroptera

compositional analysis

landscape use

torpor-assisted migration

Behavior and Ethology

Biology

Ecology and Evolutionary Biology

Forest Biology