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2. A new species of Peropteryx (Chiroptera, Emballonuridae) from western Amazonia with comments on phylogenetic relationships within the genus /

Author

Lim,Burton K., Engstrom, Mark D., Reid, Fiona, 1955, Simmons, Nancy B., Voss, Robert S., Fleck, David W. (David William), 1969, American Museum of Natural History Library, Lim,Burton K., Engstrom, Mark D., Reid, Fiona, 1955, Simmons, Nancy B., Voss, Robert S., and Fleck, David W. (David William), 1969

Subjects
Bats, Classification, Ecuador, Emballonuridae, Loreto (Department), Mammals, Orellana, Peropteryx, Peropteryx pallidoptera, Peru, Phylogeny
Published
2010

8. Wing morphology is related to niche specialization and interaction networks in stenodermatine bats (Chiroptera: Phyllostomidae).

Author

García-Herrera, Leidy Viviana, Ramírez-Fráncel, Leidy Azucena, Guevara, Giovany, Lim, Burton K, and Losada-Prado, Sergio

Subjects
BATS, PHYLLOSTOMIDAE, TROPICAL dry forests, BEETLE anatomy, FINGER joint, ANIMAL-plant relationships, TROPICAL forests
Abstract

Plant–animal interactions constitute some of the most important ecological processes for the maintenance of tropical forests. Bats are the only group of mammals capable of true flight and have been recognized as important dispersers of pioneer and secondary successional plant species. Although progress has been made in the study of Neotropical bats, morphological variation of the wing and its influence on niche separation between species is unknown. We evaluated relationships among habitat structures of selected Colombian tropical dry forest patches, the diet through interaction networks, and wing morphology of 11 species of bats in the Stenodermatinae subfamily (297 individuals) using geometric morphometry in a phylogenetic context. The results indicate that the phylogenetic signal for wing size is greater than for wing shape, thus providing some evidence for evolutionary convergence. Wing shape variation was associated primarily with the distal anatomical tip of the third finger and the joint between the humerus and the radius and ulna. Species with wide, short wings, as in the genus Artibeus had generalist diets and less nested positions within the interaction networks. In contrast, species with elongated and pointed wings, such as Sturnira and Platyrrhinus , had specialized diets and more nested positions within the interaction networks. We argue that wing shape variation may play an important role as a source of interspecific variation leading to food specialization within tropical bat communities. [ABSTRACT FROM AUTHOR]

Published
2023
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9. Interpretation and application of bat diversity and phylogeny.

Author

Clare, Elizabeth L. and Lim, Burton K.

Abstract

Brock Fenton has devoted his career to the study of the ecological adaptations of bats and their diversity. In this paper, we describe his interest and research on the subject of bat evolution and how he has used phylogenetic hypotheses to revise our understanding of divergences and convergences of specific traits within this mammalian order. While he has always been fascinated by the evolution of echolocation, he has also written about the evolution of reproductive, morphological, and behavioural traits and his recent methods of documenting diversity incorporates his lifelong love of photography. We describe these and taxonomic attempts to honour his contributions to the study of bat species diversity. Brock has supported hundreds of students and colleagues with his endless enthusiasm and generosity and inspired them with his ongoing research on bats. [ABSTRACT FROM AUTHOR]

Published
2023
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17. Does evolution of echolocation calls and morphology in Molossus result from convergence or stasis?

Author

Livia O. Loureiro, Mark D. Engstrom, and Burton K. Lim

Subjects
0106 biological sciences, 0301 basic medicine, Speciation, Social Sciences, Morphology (biology), Animal Phylogenetics, 01 natural sciences, Chiroptera, Convergent evolution, Bats, Psychology, Clade, Phylogeny, Data Management, Mammals, Multidisciplinary, Animal Behavior, Phylogenetic tree, Eukaryota, Phylogenetic Analysis, Adaptation, Physiological, Biological Evolution, Phylogenetics, Vertebrates, Medicine, Research Article, Computer and Information Sciences, Species complex, Evolutionary Processes, Science, Human echolocation, Biology, 010603 evolutionary biology, 03 medical and health sciences, Species Specificity, Evolutionary Adaptation, Cryptic Speciation, Animals, Evolutionary Systematics, Taxonomy, Local adaptation, Behavior, Evolutionary Biology, Organisms, Biology and Life Sciences, 030104 developmental biology, Evolutionary biology, Echolocation, Amniotes, Zoology
Abstract

Although many processes of diversification have been described to explain variation of morphological traits within clades that have obvious differentiation among taxa, not much is known about these patterns in complexes of cryptic species. Molossus is a genus of bats that is mainly Neotropical, occurring from the southeastern United States to southern Argentina, including the Caribbean islands. Molossus comprises some groups of species that are morphologically similar but phylogenetically divergent, and other groups of species that are genetically similar but morphologically distinct. This contrast allows investigation of unequal trait diversification and the evolution of morphological and behavioural characters. In this study, we assessed the role of phylogenetic history in a genus of bat with three cryptic species complexes, and evaluated if morphology and behavior are evolving concertedly. The Genotype by Sequence genomic approach was used to build a species-level phylogenetic tree for Molossus and to estimate the ancestral states of morphological and echolocation call characters. We measured the correlation of phylogenetic distances to morphological and echolocation distances, and tested the relationship between morphology and behavior when the effect of phylogeny is removed. Morphology evolved via a mosaic of convergence and stasis, whereas call design was influenced exclusively through local adaptation and convergent evolution. Furthermore, the frequency of echolocation calls is negatively correlated with the size of the bat, but other characters do not seem to be evolving in concert. We hypothesize that slight variation in both morphology and behaviour among species of the genus might result from niche specialization, and that traits evolve to avoid competition for resources in similar environments.

Published
2020

18. A new species of Peropteryx (Chiroptera, Emballonuridae) from western Amazonia with comments on phylogenetic relationships within the genus. (American Museum novitates, no. 3686)

Author

Engstrom, Mark D., Fleck, David W. (David William), 1969, Lim, Burton K., Reid, Fiona, 1955, Simmons, Nancy B., Voss, Robert S., American Museum of Natural History Library, Engstrom, Mark D., Fleck, David W. (David William), 1969, Lim, Burton K., Reid, Fiona, 1955, Simmons, Nancy B., and Voss, Robert S.

Subjects
Bats, Ecuador, Emballonuridae, Loreto (Dept.), Orellana, Peropteryx, Peropteryx pallidoptera, Peru

21. 50 Years of Bat Research : Foundations and New Frontiers

Author

Burton K. Lim, M. Brock Fenton, R. Mark Brigham, Shahroukh Mistry, Allen Kurta, Erin H. Gillam, Amy Russell, Jorge Ortega, Burton K. Lim, M. Brock Fenton, R. Mark Brigham, Shahroukh Mistry, Allen Kurta, Erin H. Gillam, Amy Russell, and Jorge Ortega

Subjects
Ecology, Conservation biology, Physiology, Animal genetics, Bats--Research, Bats, Zoology, Biodiversity, Animal ecology
Abstract

With more than 1,400 species, bats are an incredibly diverse and successful group of mammals that can serve as model systems for many unique evolutionary adaptations. Flight has allowed them to master the sky, while echolocation enables them to navigate in the dark. Being small, secretive, nocturnal creatures has made bats a challenge to study, but over the past 50 years, innovative research has made it possible to dispel some of the mystery and myth surrounding them to give us a better understanding of the role these animals play in the ecosystem. The structure of the book is based on several broad themes across the biological sciences, including the evolution of bats, their ecology and behavior, and conservation of biodiversity. Within these themes are more specific topics on important aspects of bat research, such as morphology, molecular biology, echolocation, taxonomy, systematics, threats to bats, social structure, reproduction, movements, and feeding strategies. Given its scope, the book will appeal to the wider scientific community, environmental organizations, and government policymakers who are interested in the interdisciplinary aspects of biology and nature.

Published
2021

22. Bats and their vital ecosystem services: a global review.

Author

RAMÍREZ‐FRÁNCEL, Leidy Azucena, GARCÍA‐HERRERA, Leidy Viviana, LOSADA‐PRADO, Sergio, REINOSO‐FLÓREZ, Gladys, SÁNCHEZ‐HERNÁNDEZ, Alfonso, ESTRADA‐VILLEGAS, Sergio, LIM, Burton K., and GUEVARA, Giovany

Subjects
ECOSYSTEM services, ECOSYSTEMS, BATS, SEED dispersal, INSECT pest control, POLLINATORS, POISSON distribution, INTRODUCED plants
Abstract

Bats play crucial ecosystem services as seed dispersers, pollinators, controllers of insects, and nutrient recyclers. However, there has not been a thorough global review evaluating these roles in bats across all biogeographical regions of the world. We reviewed the literature published during the last two decades and identified 283 relevant studies: 78 dealt with the control of potential insect pests by bats, 80 related to the suppression of other arthropods, 60 on the dispersal of native or endemic seeds, 11 dealt with the dispersal of seeds of introduced plants, 29 on the pollination of native or endemic plants, 1 study on pollination of introduced plants, and 24 on the use of guano as fertilizer. Our literature search showed that queries combining the terms "seed dispersal," "insectivorous bats," "nectarivorous bats," "use of guano," and "ecosystem services" returned 577 studies, but half were experimental in nature. We found that the evaluation of ecosystem services by bats has been mostly conducted in the Neotropical and Palearctic regions. To detect differences across relevant studies, and to explain trends in the study of ecosystem services provided by bats, we performed generalized linear mixed models (GLMM) fitted with a Poisson distribution to analyze potential differences among sampling methods. We identified 409 bat species that provide ecosystem services, 752 insect species consumed by bats and 549 plant species either dispersed or pollinated by bats. Our review summarizes the importance of conserving bat populations and the ecological services they provide, which is especially important during the current pandemic. [ABSTRACT FROM AUTHOR]

Published
2022
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25. Interrogating Phylogenetic Discordance Resolves Deep Splits in the Rapid Radiation of Old World Fruit Bats (Chiroptera: Pteropodidae).

Author

Nesi, Nicolas, Tsagkogeorga, Georgia, Tsang, Susan M, Nicolas, Violaine, Lalis, Aude, Scanlon, Annette T, Riesle-Sbarbaro, Silke A, Wiantoro, Sigit, Hitch, Alan T, Juste, Javier, Pinzari, Corinna A, Bonaccorso, Frank J, Todd, Christopher M, Lim, Burton K, Simmons, Nancy B, McGowen, Michael R, and Rossiter, Stephen J

Subjects
BATS, FRUIT, RECOMMENDER systems, BASE pairs, INFORMATION filtering
Abstract

The family Pteropodidae (Old World fruit bats) comprises |$>$| 200 species distributed across the Old World tropics and subtropics. Most pteropodids feed on fruit, suggesting an early origin of frugivory, although several lineages have shifted to nectar-based diets. Pteropodids are of exceptional conservation concern with |$>$| 50% of species considered threatened, yet the systematics of this group has long been debated, with uncertainty surrounding early splits attributed to an ancient rapid diversification. Resolving the relationships among the main pteropodid lineages is essential if we are to fully understand their evolutionary distinctiveness, and the extent to which these bats have transitioned to nectar-feeding. Here we generated orthologous sequences for |$>$| 1400 nuclear protein-coding genes (2.8 million base pairs) across 114 species from 43 genera of Old World fruit bats (57% and 96% of extant species- and genus-level diversity, respectively), and combined phylogenomic inference with filtering by information content to resolve systematic relationships among the major lineages. Concatenation and coalescent-based methods recovered three distinct backbone topologies that were not able to be reconciled by filtering via phylogenetic information content. Concordance analysis and gene genealogy interrogation show that one topology is consistently the best supported, and that observed phylogenetic conflicts arise from both gene tree error and deep incomplete lineage sorting. In addition to resolving long-standing inconsistencies in the reported relationships among major lineages, we show that Old World fruit bats have likely undergone at least seven independent dietary transitions from frugivory to nectarivory. Finally, we use this phylogeny to identify and describe one new genus. [Chiroptera; coalescence; concordance; incomplete lineage sorting; nectar feeder; species tree; target enrichment.] [ABSTRACT FROM AUTHOR]

Published
2021
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26. Foraging strategies, craniodental traits, and interaction in the bite force of Neotropical frugivorous bats (Phyllostomidae: Stenodermatinae).

Author

García‐Herrera, Leidy Viviana, Ramírez‐Fráncel, Leidy Azucena, Guevara, Giovany, Reinoso‐Flórez, Gladys, Sánchez‐Hernández, Alfonso, Lim, Burton K., and Losada‐Prado, Sergio

Subjects
BATS, PHYLLOSTOMIDAE, SKULL morphology, BITES & stings, MANDIBLE, SKULL, FORAGE
Abstract

Bats in the family Phyllostomidae exhibit great diversity in skull size and morphology that reflects the degree of resource division and ecological overlap in the group. In particular, the subfamily Stenodermatinae has high morphological diversification associated with cranial and mandibular traits that are associated with the ability to consume the full range of available fruits (soft and hard).We analyzed craniodental traits and their relationship to the bite force in 343 specimens distributed in seven species of stenodermatine bats with two foraging strategies: nomadic and sedentary frugivory. We evaluated 19 traits related to feeding and bite force in live animals by correcting bite force with body size.We used a generalized linear model (GLM) and post hoc tests to determine possible relationships and differences between cranial traits, species, and sex. We also used Blomberg's K to measure the phylogenetic signal and phylogenetic generalized least‐squares (PGLS) to ensure the phylogenetic independence of the traits.We found that smaller nomadic species, A. anderseni and A. phaeotis , have a similar bite force to the large species A. planirostris and A. lituratus; furthermore, P. helleri registered a bite force similar to that of the sedentary bat, S. giannae. Our study determined that all the features of the mandible and most of the traits of the skull have a low phylogenetic signal. Through the PGLS, we found that the diet and several cranial features (mandibular toothrow length, dentary length, braincase breadth, mastoid breadth, greatest length of skull, condylo‐incisive length, and condylo‐canine length) determined bite force performance among Stenodermatiane.Our results reinforce that skull size is a determining factor in the bite force, but also emphasize the importance of its relationships with morphology, ecology, and phylogeny of the species, which gives us a better understanding of the evolutionary adaptions of this highly diverse Neotropical bat group. [ABSTRACT FROM AUTHOR]

Published
2021
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27. Biogeography of Neotropical mastiff bats: A case of multiple dispersals between the Caribbean and mainland.

Author

Loureiro, Livia O., Engstrom, Mark D., and Lim, Burton K.

Subjects
SYMPATRIC speciation, SPECIES diversity, BATS, PLEISTOCENE Epoch, MAMMAL conservation, ADAPTIVE radiation, PLANT dispersal
Abstract

Aim: Bats are the only group of mammals with extant native species present throughout the islands of the Antilles, Central America, and South America. Here, we test competing hypotheses of species diversification in mastiff bats and deepen our understanding of the dominant biogeographical processes involved in evolution and distribution in the Neotropics. We estimated the number of dispersals between the major geographic areas and whether vicariant events, such as the Andean uplift in the Miocene/Pliocene and Pleistocene glaciations, disrupted gene flow. Location: South America, Central America, and Caribbean. Taxon: Molossus, Neotropical mastiff bats. Methods: We used the phylogeny derived from a Genotype by Sequencing approach to test different biogeographical models in the Neotropics. Bayesian inference with molecular and geological calibration points was also used to estimate the age of major lineage divergences within Molossus and to infer speciation events. Results: Most diversification within Molossus occurred relatively recently and over a short period of time during the Pleistocene. The best‐fit model, dispersal‐extinction cladogenesis, showed that anagenetic dispersal, sympatric speciation, and vicariance all appear to have been involved in the evolutionary history of the Neotropics. Divergence times suggest that geological and paleo‐climatic events were important factors in Molossus diversification. Main conclusions: Pleistocene refugia in South America and the formation of the Panama Isthmus are likely to have played an important role in speciation within Molossus, while the Caribbean species are the result of at least two independent dispersal events to the archipelago from South America and Central America, coinciding with low sea levels during the Pleistocene. [ABSTRACT FROM AUTHOR]

Published
2021
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28. Optimization of Genotype by Sequencing data for phylogenetic purposes

Author

Burton K. Lim, Livia O. Loureiro, and Mark D. Engstrom

Subjects
Genotype by Sequencing, Clinical Biochemistry, Inference, 010501 environmental sciences, Biology, 01 natural sciences, 03 medical and health sciences, symbols.namesake, Biochemistry, Genetics and Molecular Biology, Bats, Genetic variation, lcsh:Science, Clade, 030304 developmental biology, 0105 earth and related environmental sciences, Sanger sequencing, 0303 health sciences, Phylogenetic tree, Evolutionary relationships, Medical Laboratory Technology, Taxon, Genetic distance, Evolutionary biology, symbols, Molossidae, lcsh:Q, Reference genome
Abstract

• Herein we propose a framework for assembling and analyzing Genotype by Sequencing (GBS) data to better understand evolutionary relationships within a group of closely related species using the mastiff bats (Molossus) as our model system. Many species within this genus have low-levels of genetic variation within and between morphologically distinct species, and the relationships among them remain unresolved using traditional Sanger sequencing methods. Given that both de novo and reference genome pipelines can be used to assemble next generation sequences, and that several tree inference methodologies have been proposed for single nucleotide polymorphism (SNP) data, we test whether different alignments and phylogenetic approaches produce similar results. We also examined how the process of SNP identification and mapping can affect the consistency of the analyses. Different alignments and phylogenetic inferences produced consistent results, supporting the GBS approach for answering evolutionary questions on a macroevolutionary scale when the genetic distance among phenotypically identifiable clades is low. We highlight the importance of exploring the relationships among groups using different assembly assumptions and also distinct phylogenetic inference methods, particularly when addressing phylogenetic questions in genetic and morphologically conservative taxa. • The method uses the comparison of several filter settings, alignments, and tree inference approaches on Genotype by Sequencing data. • Consistent results were found among several approaches. • The methodology successfully recovered well supported species boundaries and phylogenetic relationships among species of mastiff bats not hypothesized by previous methods., Graphical abstract Image, graphical abstract

Published
2020

29. On the utility of taxonomy to reflect biodiversity: the example of Lasiurini (Chiroptera: Vespertilionidae).

Author

BAIRD, AMY B., BRAUN, JANET K., ENGSTROM, MARK D., LIM, BURTON K., MARES, MICHAEL A., PATTON, JOHN C., and BICKHAM, JOHN W.

Subjects
VESPERTILIONIDAE, TAXONOMY, BIODIVERSITY, GENETIC distance, LITERATURE reviews, BATS
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
2021
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30. Cryptic diversity and range extension in the big-eyed bat genus Chiroderma (Chiroptera, Phyllostomidae).

Author

Lim, Burton K., Loureiro, Livia O., and Garbino, Guilherme S. T.

Subjects
*BATS, *PHYLLOSTOMIDAE, *SPECIES diversity, *SPECIES distribution, *CYTOCHROME oxidase, *META-analysis
Abstract

Since the last systematic review of Chiroderma (big-eyed bats) more than two decades ago, we report on biodiversity surveys that expand the distribution and species diversity of this Neotropical genus. The Caribbean endemic species Chiroderma improvisum is documented for the first time from Nevis in the northern Lesser Antilles. A broader geographic sampling for a molecular analysis identifies a paraphyletic relationship in Chiroderma trinitatum with respect to Chiroderma doriae. Cis-Andean populations of C. trinitatum are most closely related to the morphologically distinctive and allopatrically distributed C. doriae in the Cerrado and Atlantic Forest of Brazil and Paraguay. The sister taxon to this grouping includes trans-Andean populations of C. trinitatum, which we recommend to elevate to species status as C. gorgasi. This is an example of a cryptic species because C. gorgasi was previously considered morphologically similar to C. trinitatum, but more detailed examination revealed that it lacks a posterolabial accessory cusp on the lower second premolar and has a narrower breadth of the braincase. We provide an amended description of Chiroderma gorgasi. [ABSTRACT FROM AUTHOR]

Published
2020
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31. Comparative phylogeography of mainland and insular species of Neotropical molossid bats (Molossus).

Author

Loureiro, Livia O., Engstrom, Mark D., and Lim, Burton K.

Subjects
PHYLOGEOGRAPHY, GENETIC drift, HABITAT selection, GENE flow, BATS, SPECIES
Abstract

Historical events, habitat preferences, and geographic barriers might result in distinct genetic patterns in insular versus mainland populations. Comparison between these two biogeographic systems provides an opportunity to investigate the relative role of isolation in phylogeographic patterns and to elucidate the importance of evolution and demographic history in population structure. Herein, we use a genotype‐by‐sequencing approach (GBS) to explore population structure within three species of mastiff bats (Molossus molossus, M. coibensis, and M. milleri), which represent different ecological histories and geographical distributions in the genus. We tested the hypotheses that oceanic straits serve as barriers to dispersal in Caribbean bats and that isolated island populations are more likely to experience genetic drift and bottlenecks in comparison with highly connected ones, thus leading to different phylogeographic patterns. We show that population structures vary according to general habitat preferences, levels of population isolation, and historical fluctuations in climate. In our dataset, mainland geographic barriers played only a small role in isolation of lineages. However, oceanic straits posed a partial barrier to the dispersal for some populations within some species (M. milleri), but do not seem to disrupt gene flow in others (M. molossus). Lineages on distant islands undergo genetic bottlenecks more frequently than island lineages closer to the mainland, which have a greater exchange of haplotypes. [ABSTRACT FROM AUTHOR]

Published
2020
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32. UCE-derived mitochondrial phylogeny reveals pervasive mito-nuclear discordances in serotine bats (genus Eptesicus) and complex evolutionary history in Eptesicus (Histiotus).

Author

Yi, Xueling, Latch, Emily K., Lim, Burton K., Koroiva, Ricardo, Da Rocha, Patricio Adriano, and Feijó, Anderson

Subjects
*PHYLOGENY, *MITOCHONDRIA, *BATS, *MOLECULAR phylogeny, *SHORT tandem repeat analysis, *DATABASES
Abstract

Studies of evolution and biodiversity require solid understanding of species systematics revealed by molecular phylogeny using multilocus genomic data. Multilocus analyses, nevertheless, remain difficult in non-model taxa due to limited access to samples and molecular resources. To help overcome this limitation, ultra-conserved elements (UCEs) have been developed to generate large nuclear datasets and build more robust species phylogenies. Recently, MitoFinder pipeline was developed to further extract mitochondrial genes from the off-target sequences in UCE libraries to allow mito-nuclear comparison and increase the mitochondrial genomic database. Here we applied MitoFinder to published UCE datasets of serotine bats (genus Eptesicus) and focused on E. (Histiotus) whose evolutionary history is poorly understood. Our results showed extensive mito-nuclear discordances in the divergence of major clades in Eptesicus and within E. (Histiotus), indicating potential incomplete lineage sorting and historical mitochondrial introgression within and across subgenera. Moreover, we collected several new samples of E. (Histiotus), including the first molecular data of the recently described E. (H) diaphanopterus, and combined available published sequences to generate the most taxa-complete mitochondrial phylogeny of E. (Histiotus) bats. Results supported the early divergence of E. (H.) magellanicus and the species status of E. (H.) diaphanopterus. In addition, we found strong evidence of cryptic diversity, with potentially new taxa in Peru, Uruguay, and Brazil, which needs to be evaluated in future studies using complementary data. Our study enriched the sequence database of serotine bats and shed light on the hidden diversity and complex evolutionary history of E. (Histiotus). [ABSTRACT FROM AUTHOR]

Published
2024
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33. Nuclear and mtDNA phylogenetic analyses clarify the evolutionary history of two species of native Hawaiian bats and the taxonomy of Lasiurini (Mammalia: Chiroptera)

Author

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

Subjects
0106 biological sciences, 0301 basic medicine, Topography, Time Factors, Heredity, lcsh:Medicine, Biochemistry, 01 natural sciences, Geographical Locations, Chiroptera, Bats, lcsh:Science, Clade, Phylogeny, Data Management, Mammals, Islands, education.field_of_study, Multidisciplinary, Phylogenetic tree, biology, Eukaryota, Phylogenetic Analysis, Mitochondrial DNA, Nucleic acids, Phylogenetics, Genetic Mapping, Vertebrates, Taxonomy (biology), Research Article, Computer and Information Sciences, Forms of DNA, Oceania, Population, Zoology, Locus (genetics), DNA, Mitochondrial, 010603 evolutionary biology, Hawaii, Electron Transport Complex IV, Evolution, Molecular, 03 medical and health sciences, Species Specificity, Genetics, Animals, Evolutionary Systematics, education, Alleles, Taxonomy, Cell Nucleus, Evolutionary Biology, Landforms, Genetic diversity, Lasiurus, Base Sequence, lcsh:R, Organisms, Biology and Life Sciences, Bayes Theorem, Geomorphology, Sequence Analysis, DNA, DNA, biology.organism_classification, United States, 030104 developmental biology, Haplotypes, Genetic Loci, Amniotes, People and Places, North America, Earth Sciences, lcsh:Q
Abstract

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

Published
2017

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

Author

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

Subjects
MITOCHONDRIAL DNA, HOARY bat, NUCLEOTIDE sequencing, BIOLOGICAL classification, BIOLOGICAL evolution, GENETICS
Abstract

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

Published
2017
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35. Phylogeography of Dominican Republic bats and implications for systematic relationships in the Neotropics.

Author

LIM, BURTON K., LOUREIRO, LIVIA O., UPHAM, NATHAN S., and BROCCA, JORGE L.

Subjects
*BATS, *ENDEMIC animals, *BIODIVERSITY, *PHYLOGENY, *GENETIC barcoding, *BIOLOGICAL divergence
Abstract

The majority (90%) of native terrestrial mammal species living in the Dominican Republic are bats, and two-thirds of these species are endemic to the Caribbean. However, recent molecular studies using DNA barcoding of the mitochondrial cytochrome c oxidase subunit 1 gene have suggested at least a 25% underestimation of biodiversity in bats throughout the world. A recent survey of bats in the Dominican Republic documented 15 of the 18 known species on the island of Hispaniola. Phylogenetic analysis of 132 individuals resulted in well-supported monophyletic species-level clades (maximal bootstrap values) with intraspecific variation ranging from 0% to 4.7% and interspecific variation ranging from 14.1% to 32.5%. A phylogeographic pattern separating the northern and southern Dominican Republic was recovered in 3 species of bats (Macrotus waterhousii, Pteronotus parnellii, and Pteronotus quadridens). The inclusion of broader geographic sampling across the Neotropics indicated that 3 widely distributed species (Eptesicus fuscus, Molossus molossus, and Monophyllus redmani) have high sequence divergence among insular or between insular and continental populations. Further systematic study is needed to identify morphologically cryptic species and their implications for conservation priorities in the Caribbean. [ABSTRACT FROM AUTHOR]

Published
2017
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36. New insights into the evolution of the Trypanosoma cruzi clade provided by a new trypanosome species tightly linked to Neotropical Pteronotus bats and related to an Australian lineage of trypanosomes.

Author

Lima, Luciana, Espinosa-Álvarez, Oneida, Pinto, C. Miguel, Cavazzana Jr., Manzelio, Pavan, Ana Carolina, Carranza, Julio C., Lim, Burton K., Campaner, Marta, Takata, Carmen S. A., Camargo, Erney P., Hamilton, Patrick B., and Teixeira, Marta M. G.

Subjects
BATS, BIOLOGICAL evolution, RNA analysis, SPECIES distribution
Abstract

Background: Bat trypanosomes are implicated in the evolution of the T. cruzi clade, which harbours most African, European and American trypanosomes from bats and other trypanosomes from African, Australian and American terrestrial mammals, including T. cruzi and T. rangeli, the agents of the American human trypanosomiasis. The diversity of bat trypanosomes globally is still poorly understood, and the common ancestor, geographical origin, and evolution of species within the T. cruzi clade remain largely unresolved. Methods: Trypanosome sequences were obtained from cultured parasites and from museum archived liver/blood samples of bats captured from Guatemala (Central America) to the Brazilian Atlantic Coast. Phylogenies were inferred using Small Subunit (SSU) rRNA, glycosomal glyceraldehyde phosphate dehydrogenase (gGAPDH), and Spliced Leader (SL) RNA genes. Results: Here, we described Trypanosoma wauwau n. sp. from Pteronotus bats (Mormoopidae) placed in the T. cruzi clade, then supporting the bat-seeding hypothesis whereby the common ancestor of this clade likely was a bat trypanosome. T. wauwau was sister to the clade T. spp-Neobats from phyllostomid bats forming an assemblage of trypanosome species exclusively of Noctilionoidea Neotropical bats, which was sister to an Australian clade of trypanosomes from indigenous marsupials and rodents, which possibly evolved from a bat trypanosome. T. wauwau was found in 26.5 % of the Pteronotus bats examined, and phylogeographical analysis evidenced the wide geographical range of this species. To date, this species was not detected in other bats, including those that were sympatric or shared shelters with Pteronotus. T. wauwau did not develop within mammalian cells, and was not infective to Balb/c mice or to triatomine vectors of T. cruzi and T. rangeli. Conclusions: Trypanosoma wauwau n. sp. was linked to Pteronotus bats. The positioning of the clade T. wauwau/ T.spp-Neobats as the most basal Neotropical bat trypanosomes and closely related to an Australian lineage of trypanosomes provides additional evidence that the T. cruzi clade trypanosomes likely evolved from bats, and were dispersed in bats within and between continents from ancient to unexpectedly recent times. [ABSTRACT FROM AUTHOR]

Published
2015
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37. Seed Dispersal by Frugivorous Bats in Central Guyana and a Description of Previously Unknown Plant-Animal Interactions No Access.

Author

HORSLEY, THOMAS W. B., BICKNELL, JAKE E., LIM, BURTON K., and AMMERMAN, LOREN K.

Subjects
BATS, PLANT species, RAIN forests
Abstract

Species of bats in the subfamilies Stenodermatinae and Carolliinae are primarily frugivores, and through the ingestion of fruit and defecation of seeds, they play a crucial role in their environment through the dispersal of early successional and pioneer plants contributing to reforestation. These ecosystem services provided by frugivorous bats are becoming more critical with time, as anthropogenic habitat destruction continues to rise. The objective of this study was to survey the plant species dispersed by frugivorous bats in a tropical rainforest in Guyana. Fecal samples were taken from captured frugivorous bats and stomach contents were taken from a representative collection. The four most common bats were Artibeus planirostris, A. obscurus, A. lituratus, and Carollia perspicillata, which accounted for 67% of total captures in mist nets set in the forest understory. Twenty plant species were identified in fecal and stomach content samples with the most abundant (Ficus nymphaeifolia, Piper bartlingianum, Cecropia latiloba, and C. sciadophylla) accounting for 60% of the total. Cecropia latiloba, which is an early colonizer of floodplains throughout the Guiana Shield and Amazon River Basin was previously unknown to be bat dispersed. Seven plant species were documented as being dispersed by nine bat species for the first time. These results enhance our understanding of seed dispersal by Neotropical bats, specifically by revealing previously unknown bat/plant relationships. [ABSTRACT FROM AUTHOR]

Published
2015
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38. Speciation processes in putative island endemic sister bat species: false impressions from mitochondrial DNA and microsatellite data.

Author

Kuo, Hao‐Chih, Chen, Shiang‐Fan, Fang, Yin‐Ping, Cotton, James A., Parker, Joe D., Csorba, Gábor, Lim, Burton K., Eger, Judith L., Chen, Chia‐Hong, Chou, Cheng‐Han, and Rossiter, Stephen J.

Subjects
BATS, GENETIC speciation, MITOCHONDRIAL DNA, MICROSATELLITE repeats, SPECIES hybridization, TAXONOMY, SPECIES diversity, GENE flow
Abstract

Cases of geographically restricted co-occurring sister taxa are rare and may point to potential divergence with gene flow. The two bat species Murina gracilis and Murina recondita are both endemic to Taiwan and are putative sister species. To test for nonallopatric divergence and gene flow in these taxa, we generated sequences using Sanger and next-generation sequencing, and combined these with microsatellite data for coalescent-based analyses. Mt DNA phylogenies supported the reciprocally monophyletic sister relationship between M. gracilis and M. recondita; however, clustering of microsatellite genotypes revealed several cases of species admixture suggesting possible introgression. Sequencing of microsatellite flanking regions revealed that admixture signatures stemmed from microsatellite allele homoplasy rather than recent introgressive hybridization, and also uncovered an unexpected sister relationship between M. recondita and the continental species Murina eleryi, to the exclusion of M. gracilis. To dissect the basis of these conflicts between nc DNA and mt DNA, we analysed sequences from 10 anonymous nc DNA loci with * beast and isolation-with-migration and found two distinct clades of M. eleryi, one of which was sister to M. recondita. We conclude that Taiwan was colonized by the ancestor of M. gracilis first, followed by the ancestor of M. recondita after a period of allopatric divergence. After colonization, the mitochondrial genome of M. recondita was replaced by that of the resident M. gracilis. This study illustrates how apparent signatures of sympatric divergence can arise from complex histories of allopatric divergence, colonization and hybridization, thus highlighting the need for rigorous analyses to distinguish between such scenarios. [ABSTRACT FROM AUTHOR]

Published
2015
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39. Molecular Phylogeny of Hantaviruses Harbored by Insectivorous Bats in Côte d'Ivoire and Vietnam.

Author

Se Hun Gu, Lim, Burton K., Kadjo, Blaise, Arai, Satoru, Jeong-Ah Kim, Nicolas, Violaine, Lalis, Aude, Denys, Christiane, Cook, Joseph A., Dominguez, Samuel R., Holmes, Kathryn V., Urushadze, Lela, Sidamonidze, Ketevan, Putkaradze, Davit, Kuzmin, Ivan V., Kosoy, Michael Y., Jin-Won Song, and Yanagihara, Richard

Subjects
*MOLECULAR phylogeny, *HANTAVIRUSES, *ENTOMOPHAGOUS insects, *INSECT diversity, *BATS, *HIPPOSIDERIDAE
Abstract

The recent discovery of genetically distinct hantaviruses in multiple species of shrews and moles prompted a further exploration of their host diversification by analyzing frozen, ethanol-fixed and RNAlater®-preserved archival tissues and fecal samples from 533 bats (representing seven families, 28 genera and 53 species in the order Chiroptera), captured in Asia, Africa and the Americas in 1981-2012, using RT-PCR. Hantavirus RNA was detected in Pomona roundleaf bats (Hipposideros pomona) (family Hipposideridae), captured in Vietnam in 1997 and 1999, and in banana pipistrelles (Neoromicia nanus) (family Vespertilionidae), captured in Côte d'Ivoire in 2011. Phylogenetic analysis, based on the full-length S- and partial M- and L-segment sequences using maximum likelihood and Bayesian methods, demonstrated that the newfound hantaviruses formed highly divergent lineages, comprising other recently recognized bat-borne hantaviruses in Sierra Leone and China. The detection of bat-associated hantaviruses opens a new era in hantavirology and provides insights into their evolutionary origins. [ABSTRACT FROM AUTHOR]

Published
2014
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40. Three new species of Murina from southern China (Chiroptera: Vespertilionidae).

Author

Eger, Judith L. and Lim, Burton K.

Subjects
SPECIES, BATS, ANIMAL morphology, BIODIVERSITY, SURVEYS
Abstract

The article presents a study on three new species of tube-nosed bats (Murininae) from southern China. It found that these species have unique characteristics from the 19 species already known. It provides details of morphological differences of new species including the pelage color, size, and skull shape, of species collected from biodiversity survey of the Diding Headwater Forest Nature reserves from 2004-2007. It discusses the morphometric and genetic analyses of DNA barcodes of the cytochrome c oxidase subunit I (COI) gene.

Published
2011
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41. Neotropical Bats: Estimating Species Diversity with DNA Barcodes.

Author

Clare, Elizabeth L., Lim, Burton K., Fenton, M. Brock, and Hebert, Paul D. N.

Subjects
*BATS, *SPECIES diversity, *CYTOCHROME oxidase, *DNA, *HAPLOTYPES, *LINEAGE, *LOCUS (Genetics)
Abstract

DNA barcoding using the cytochrome c oxidase subunit 1 gene (COI) is frequently employed as an efficient method of species identification in animal life and may also be used to estimate species richness, particularly in understudied faunas. Despite numerous past demonstrations of the efficiency of this technique, few studies have attempted to employ DNA barcoding methodologies on a large geographic scale, particularly within tropical regions. In this study we survey current and potential species diversity using DNA barcodes with a collection of more than 9000 individuals from 163 species of Neotropical bats (order Chiroptera). This represents one of the largest surveys to employ this strategy on any animal group and is certainly the largest to date for land vertebrates. Our analysis documents the utility of this tool over great geographic distances and across extraordinarily diverse habitats. Among the 163 included species 98.8% possessed distinct sets of COI haplotypes making them easily recognizable at this locus. We detected only a single case of shared haplotypes. Intraspecific diversity in the region was high among currently recognized species (mean of 1.38%, range 0- 11.79%) with respect to birds, though comparable to other bat assemblages. In 44 of 163 cases, well-supported, distinct intraspecific lineages were identified which may suggest the presence of cryptic species though mean and maximum intraspecific divergence were not good predictors of their presence. In all cases, intraspecific lineages require additional investigation using complementary molecular techniques and additional characters such as morphology and acoustic data. Our analysis provides strong support for the continued assembly of DNA barcoding libraries and ongoing taxonomic investigation of bats [ABSTRACT FROM AUTHOR]

Published
2011
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42. Mammalia, Chiroptera, Emballonuridae, Peropteryx leucoptera Peters, 1867 and Peropteryx pallidoptera Lim, Engstrom, Reid, Simmons, Voss and Fleck, 2010: Distributional range extensions in Ecuador.

Author

McDonough, Molly M., Lim, Burton K., Ferguson, Adam W., Brown, Carson M., Burneo, Santiago F., and Ammerman, Loren K.

Subjects
*MAMMALS, *BATS, *EMBALLONURIDAE, *ANIMAL species, *ZOOLOGICAL surveys, *ANIMAL morphology
Abstract

We reevaluate vouchered records of Peropteryx leucoptera in Ecuador with regard to the morphologically similar and newly described species, P. pallidoptera. The western-most distributional occurrence of P. pallidoptera is documented. Additionally, we describe a new record of P. leucoptera collected at Palma Roja, Cuyabeno Faunistic Reserve in Sucumbíos Province, Ecuador that represents the first record for this species in Sucumbíos Province and the northern-most distributional occurrence for Ecuador. [ABSTRACT FROM AUTHOR]

Published
2010
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43. A NEW SPECIES FROM SOUTHWESTERN CHINA IN THE AFRO-PALEARCTIC LINEAGE OF THE HORSESHOE BATS (RHINOLOPHUS).

Author

ZHAO-MIN ZHOU, GUILLÉN-SERVENT, ANTONIO, LIM, BURTON K., EGER, JUDITH L., YING-XIANG WANG, and XUE-LONG JIANG

Subjects
HORSESHOE bats, ANIMAL species, MITOCHONDRIAL DNA, CYTOCHROMES, BATS
Abstract

Copyright of Journal of Mammalogy is the property of Oxford University Press / USA 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
2009
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44. Systematic review of small fruit-eating bats (Artibeus) from the Guianas, and a re-evaluation of A. glaucus bogotensis.

Author

LIM, BURTON K., ENGSTROM, MARK D., PATTON, JOHN C., and BICKHAM, JOHN W.

Subjects
BATS, MOLECULAR phylogeny, CYTOCHROME b, HABITATS, BAYESIAN analysis, PARSIMONIOUS models
Abstract

The article discusses a study which used a molecular phylogenetic approach to establish species boundaries for small-sized fruit eating bats Artibeus (A.) in the Guianas. In this study, the approach served as a guide to find out morphological and morphometric limits and to examine the extent of distribution and habitat preference of the bats. The study conducted molecular phylogeny based on the Bayesian and parsimony analyses of cythocrome b variation. The three species with overlapping distribution within the Guiana region included A. bogotensis, A. cinerus and A. gnomus.

Published
2008
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45. Molecular phylogeny of New World sheath-tailed bats (Emballonuridae: Diclidurini) based on loci from the four genetic transmission systems in mammals.

Author

LIM, BURTON K., ENGSTROM, MARK D., BICKHAM, JOHN W., and PATTON, JOHN C.

Subjects
*BATS, *EMBALLONURIDAE, *MOLECULAR phylogeny, *MITOCHONDRIA, *GENETIC mutation, *MAMMALS
Abstract

Multiple unlinked loci are surveyed in a methodological approach for mammalian systematics that uses genes from the four pathways of genetic transmission: mitochondrial, autosomal, and X and Y sex chromosomes. Each of these components has different properties, such as effective population size, mutation rate, and recombination, that result in a robust hypothesis of evolutionary history. The utility of this experimental design is tested with bats in the family Emballonuridae and the hypothesis that the New World taxa are monophyletic. Parsimony and Bayesian analyses of the individual data sets give generally congruent topologies with high bootstrap proportions and posterior probabilities for monophyletic clades representing species and genera. The mitochondrial gene has significantly faster rates of substitution, higher levels of homoplasy, and a greater degree of saturation than the nuclear genes that contributed to the loss of phylogenetic signal at deeper branches of the tree. However, there is better resolution and support for the more slowly evolving nuclear introns including a New World clade, indicating a single origin of emballonurid bats in the Neotropics (tribe Diclidurini). One novel subtribe has a hard basal polytomy that is unresolved for all of the nuclear partitions, suggesting a rapid burst of evolution during the diversification of genera. © 2008 The Linnean Society of London, Biological Journal of the Linnean Society, 2008, 93, 189–209. [ABSTRACT FROM AUTHOR]

Published
2008
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46. Divergence times and origin of neotropical sheath-tailed bats (Tribe Diclidurini) in South America

Author

Lim, Burton K.

Subjects
*MOLECULAR phylogeny, *MOLECULAR biology, *BATS
Abstract

Abstract: Times of divergence and origin of sheath-tailed bats (family Emballonuridae) in the New World were approximated with a relaxed molecular clock approach using Bayesian analysis of introns from the three nuclear genetic transmission systems in mammals (autosomal, X and Y sex chromosomes). An upper constraint of 30mya for the oldest known Neotropical emballonurid fossil and a lower constraint of 13mya for the only pre-Pleistocene fossil of an extant genus were used as calibration points. Differentiation began in the Late Oligocene with the appearance of two subtribes as independently corroborated by each gene. Following an explosive model of evolution, the genera diversified relatively suddenly in the Early Miocene with seven of the eight genera radiating within 1.4myr and most intrageneric speciation occurring before the Pliocene. Optimization of ancestral areas onto the phylogeny suggests that the ancestor of New World emballonurid bats has its origin in Africa and this is the third report of placental mammals colonizing South America by trans-Atlantic dispersal and subsequent speciation in allopatry. [Copyright &y& Elsevier]

Published
2007
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47. DNA barcoding of Neotropical bats: species identification and discovery within Guyana.

Author

Clare, Elizabeth L., Lim, Burton K., Engstrom, Mark D., Eger, Judith L., and Hebert, Paul D. N.

Subjects
*BATS, *DNA, *CYTOCHROME c, *MAMMALS, *SPECIES diversity
Abstract

Sequence diversity in the cytochrome c oxidase subunit 1 gene has been shown to be an effective tool for species identification and discovery in various groups of animals, but has not been extensively tested in mammals. We address this gap by examining the performance of DNA barcodes in the discrimination of 87 species of bats from Guyana. Eighty-one of these species showed both low intraspecific variation (mean = 0.60%), and clear sequence divergence from their congeners (mean = 7.80%), while the other six showed deeply divergent intraspecific lineages suggesting that they represent species complexes. Although further work is needed to examine patterns of sequence diversity at a broader geographical scale, the present study validates the effectiveness of barcoding for the identification of regional bat assemblages, even highly diverse tropical faunas. [ABSTRACT FROM AUTHOR]

Published
2007
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48. NEW SPECIES OF DISK-WINGED BAT THYROPTERA AND RANGE EXTENSION FOR T. DISCIFERA.

Author

Gregorin, Renato, Gonçalves, Edmara, Lim, Burton K., and Engstrom, Mark D.

Subjects
BATS, ANIMAL species, SAVANNA ecology, ANIMAL classification
Abstract

A new species of disk-winged bat (Thyroptera) is described from the savannah habitats of the Cerrado in Brazil and Rupununi in Guyana. It is most similar to the primarily forest-dwelling T. lavali because of shared morphology, including oval-shaped disks on the thumbs as opposed to circular disks in the other species (T. tricolor and T. discifera). However, the new species has distinct countershading with dark brown dorsal fur that is in contrast to pale brown ventral fur with frosted tips. The other species have either white or yellowish brown ventral fur. During the examination of comparative material for this description, some older material that was faded in color and previously reported as T. tricolor was assigned to T. discifera, representing a range extension of more than 1,000 km to the east and the 1st documentation of T. discifera in the Atlantic Forest of Brazil. [ABSTRACT FROM AUTHOR]

Published
2006
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49. Erratum to: Dietary Diversification and Specialization in Neotropical Bats Facilitated by Early Molecular Evolution.

Author

Potter, Joshua H T, Davies, Kalina T J, Yohe, Laurel R, Sanchez, Miluska K R, Rengifo, Edgardo M, Struebig, Monika, Warren, Kim, Tsagkogeorga, Georgia, Lim, Burton K, Reis, Mario dos, Dávalos, Liliana M, and Rossiter, Stephen J

Subjects
AGRICULTURAL diversification, BATS, MOLECULAR evolution
Abstract

A correction is presented to the article "Dietary Diversification and Specialization in Neotropical Bats Facilitated by Early Molecular Evolution."

Published
2021
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50. Skull Morphology, Bite Force, and Diet in Insectivorous Bats from Tropical Dry Forests in Colombia.

Author

Ramírez-Fráncel, Leidy Azucena, García-Herrera, Leidy Viviana, Losada-Prado, Sergio, Reinoso-Flórez, Gladys, Lim, Burton K., Sánchez, Francisco, Sánchez-Hernández, Alfonso, and Guevara, Giovany

Subjects
TROPICAL dry forests, SKULL morphology, BATS, ANIMAL nutrition, BODY size, CRANIOMETRY, JAWS
Abstract

Simple Summary: The cranial structure is highly variable among mammals and thought to reflect specializations for feeding and echolocation in bats. However, recent analyses of skull structure, feeding behavior and bite force across a wide range of bats suggest that correlations between morphology, performance, and ecology are not as delineated as previously thought. For example, most of the variations in bite force in insectivorous bats have been explained by differences in body size rather than specific cranial traits. We tested several relationships associated with the cranium to ascertain predictors of bite force in different bat species based on in vivo measurements from the Colombian tropical dry forests and museum specimens. Our data show that skull size had a significant contribution to bite force for beetle-eating bats, such as Noctilio albiventris, Molossus molossus, M. coibensis, and Molossops temminckii. Cranial traits and the combined action of the jaw morphology generate a biomechanical comparative advantage that allows these species to feed on "hard" prey, supporting the hypothesis that skull morphology, bite force, and diet are linked in insectivorous bats. In Neotropical bats, studies on bite force have focused mainly on differences in trophic ecology, and little is known about whether factors other than body size generate interspecific differences in bite force amongst insectivorous bats and, consequently, in their diets. We tested if bite force is related to skull morphology and also to diet in an assemblage of Neotropical insectivorous bats from tropical dry forests in the inter-Andean central valley in Colombia. It is predicted that the preference of prey types among insectivorous species is based on bite force and cranial characteristics. We also evaluated whether skull morphology varies depending on the species and sex. Cranial measurements and correlations between morphological variation and bite force were examined for 10 insectivorous bat species. We calculated the size-independent mechanical advantage for the mandibular (jaw) lever system. In all species, bite force increased with length of the skull and the jaw more than other cranial measurements. Obligate insectivorous species were morphologically different from the omnivorous Noctilio albiventris, which feeds primarily on insects, but also consumes fish and fruits. Our results show that bite force and skull morphology are closely linked to diets in Neotropical insectivorous bats and, consequently, these traits are key to the interactions within the assemblage and with their prey. [ABSTRACT FROM AUTHOR]

Published
2021
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