Your search keyword '"Susan W. Murray"' showing total 6 results

1. A Taxonomic Review ofHipposideros halophyllus, with Additional Information onH. aterandH. cineraceus(Chiroptera: Hipposideridae) from Thailand and Myanmar

Author

Paul J. J. Bates, Sébastien J. Puechmaille, Bounsavane Douangboubpha, David L. Harrison, Si Si Hla Bu, Sara Bumrungsri, Pipat Soisook, Susan W. Murray, and Chutamas Satasook

Subjects

Hipposideros cineraceus, biology, Ecology, Endangered species, Zoology, biology.organism_classification, Hipposideros bicolor, Hipposideridae, Geography, Hipposideros ater, Small species, Animal Science and Zoology, Taxonomy (biology), Hipposideros halophyllus

Abstract

Based on recent field surveys in Thailand, Myanmar, and northern peninsular Malaysia, this paper reviews the taxonomy, morphometric and acoustic characters, distribution and ecology of the little known, globally endangered species Hipposideros halophyllus. It lists nine new localities records, including the first from northern and peninsular Thailand, which represent a substantial increase in the species' known range; it confirms the record from northern peninsular Malaysia. In addition, it provides further information on two other small species of the Hipposideros bicolor group, H. ater and H. cineraceus.

Published

2010

2. Molecular phylogenetic analysis of nycteribiid and streblid bat flies (Diptera: Brachycera, Calyptratae): Implications for host associations and phylogeographic origins

Author

Megan L. Porter, Katharina Dittmar, Michael F. Whiting, and Susan W. Murray

Subjects

biology, Phylogenetic tree, Diptera, Zoology, Cytochromes b, biology.organism_classification, Streblidae, DNA, Mitochondrial, DNA, Ribosomal, Maximum parsimony, Nycteribiidae, Electron Transport Complex IV, Monophyly, Phylogenetics, RNA, Ribosomal, 16S, RNA, Ribosomal, 18S, Genetics, Animals, Hippoboscoidea, Calyptratae, Molecular Biology, Phylogeny, Ecology, Evolution, Behavior and Systematics

Abstract

Bat flies are a small but diverse group of highly specialized ectoparasitic, obligatory bloodsucking Diptera. For the first time, the phylogenetic relationships of 26 species and five subfamilies were investigated using four genes (18S rDNA, 16S rDNA, COII, and cytB) under three optimality criteria (maximum parsimony (MP), maximum likelihood (ML), and Bayesian inference). Tree topology tests of previous hypotheses were conducted under likelihood (Shimodaira-Hasegawa test). Major findings include the non-monophyly of the Streblidae and the recovery of an Old World- and a New World-Clade of bat flies. These data ambiguously resolve basal relationships between Hippoboscidae, Glossinidae, and bat flies. Recovered phylogenies resulted in either monophyly (Bayesian approach) or paraphyly (MP/ML topologies) of the bat flies, thus obscuring the potential number of possible associations with bats throughout the history of this group. Dispersal-vicariance analysis suggested the Neotropical region as the possible ancestral distribution area of the New World Streblidae and the Oriental region for the Old World bat flies. The genes examined show conflicting support across the nodes of the tree, particularly in the basal positions. Additionally, there is poor character support among all genes for the nodes associated with early hippoboscoid diversification. This results in extremely short basal branches, adding support to the idea of a rapid radiation among the four major groups of Hippoboscoidea.

Published

2006

3. PHILOPATRY AND MIGRATION OF BANDED INDIANA BATS (MYOTIS SODALIS) AND EFFECTS OF RADIO TRANSMITTERS

Author

Susan W. Murray and Allen Kurta

Subjects

geography, geography.geographical_feature_category, Sodalis, food.ingredient, Ecology, Adult male, Endangered species, Biology, biology.organism_classification, Mark and recapture, food, Investigation methods, Cave, Genetics, Animal Science and Zoology, Philopatry, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, Indiana bat

Abstract

We banded 29 adult females, 2 juveniles, and 1 adult male from a maternity colony of Indiana bats (Myotis sodalis) during 1995‐1998. Four banded bats were later found hibernating in caves that were separated by #325 km, indicating that all members of a summer colony do not hibernate or mate in the same location. We recaptured 41% of adult females (12 bats) near the initial banding site in later years, and because of this strong interannual fidelity, we recommend that resource managers reevaluate policies that allow removal of roost trees during winter. Eleven of these 12 females were radiotracked initially, but all were reproductively active and had normal body masses in subsequent years, suggesting negligible, long-term effects of the radiotracking process.

Published

2002

4. Bats

Author

Thomas H. Kunz, Susan W. Murray, and Nathan W. Fuller

Published

2012

5. List of Contributors

Author

Giuliana Allegrucci, Kevin Allred, Barbara Anne am Ende, Darlene M. Anthony, Manfred Asche, Augusto S. Auler, Michel Bakalowicz, Craig M. Barnes, Ofer Bar-Yosef, Barry Beck, Anne Bedos, Claude Boutin, James E. Brady, Anton Brancelj, Roger W. Brucker, Donatella Cesaroni, Weihai Chen, Kenneth Christiansen, Mary C. Christman, Gregg S. Clemmer, Marina Cobolli, Nicole Coineau, James G. Coke, Annalisa K. Contos, David C. Culver, Dan L. Danielopol, Nevin W. Davis, Donald G. Davis, Louis Deharveng, Rhawn F. Denniston, Joel Despain, Wolfgang Dreybrodt, Yvonne Droms, Yuri Dublyansky, Elzbieta Dumnicka, William R. Elliott, Derek Fabel, Danté B. Fenolio, Cene Fišer, Daniel W. Fong, Derek Ford, Andrew G. Fountain, Silvia Frisia, Nathan W. Fuller, Franci Gabrovšek, Janine Gibert, Pedro Gnaspini, Paul Goldberg, Špela Gorički, Darryl E. Granger, Jason D. Gulley, Philipp Häuselmann, Jill Heinerth, John C. Hempel, Janet S. Herman, Frédéric Hervant, Carol A. Hill, Horton H. Hobbs, Hannelore Hoch, John R. Holsinger, Francis G. Howarth, David A. Hubbard, William F. Humphreys, Kathrin Hϋppop, Julia M. James, Paul Jay Steward, Pierre-Yves Jeannin, William R. Jeffery, Patty Jo Watson, William K. Jones, Patricia Kambesis, Brian G. Katz, Georg Kaufmann, Stephan Kempe, Alexander Klimchouk, Thomas H. Kunz, Caroline M. Loop, Ivo Lučić, Joyce Lundberg, Li Ma, Florian Malard, Jim I. Mead, Douglas M. Medville, Mark Minton, Marianne S. Moore, Janez Mulec, Phillip J. Murphy, Susan W. Murray, John E. Mylroie, Matthew L. Niemiller, Bogdan P. Onac, Arthur N. Palmer, Jakob Parzefall, Aurel Perşoiu, Tanja Pipan, Victor J. Polyak, Thomas L. Poulson, Joseph A. Ray, James R. Reddell, Douchko Romanov, Raymond Rouch, Ira D. Sasowsky, Ugo Sauro, Valerio Sbordoni, Blaine W. Schubert, Stanka Šebela, William A. Shear, Kevin S. Simon, Boris Sket, James H. Smith, Gregory S. Springer, C.William Steele, Andrea Stone, Fred D. Stone, Annette Summers Engel, Oana Teodora Moldovan, Eleonora Trajano, Peter Trontelj, George Veni, Rudi Verovnik, Dorothy J. Vesper, Tony Waltham, Elizabeth L. White, William B. White, Mike Wiles, Horst Wilkens, John M. Wilson, Jon D. Woodhead, Stephen R.H. Worthington, Maja Zagmajster, Yuanhai Zhang, Ya-hui Zhao, Xuewen Zhu, and Nadja Zupan Hajna

Published

2012

6. Molecular phylogeny of hipposiderid bats from Southeast Asia and evidence of cryptic diversity

Author

Tigga Kingston, Susan W. Murray, Charles M. Francis, Polly Campbell, Akbar Zubaid, and Thomas H. Kunz

Subjects

Male, Species complex, Aselliscus, Genetic Speciation, Zoology, Southeast asian, Hipposideros, DNA, Mitochondrial, Monophyly, Coelops, Chiroptera, Genetics, Animals, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Asia, Southeastern, Phylogeny, Cell Nucleus, biology, Models, Genetic, Computational Biology, Genetic Variation, Bayes Theorem, Sequence Analysis, DNA, biology.organism_classification, Hipposideridae, Biological Evolution, Mitochondria, Echolocation, Molecular phylogenetics, Female

Abstract

Old World leaf-nosed bats (Hipposideridae) are among the most widespread and ecologically diverse groups of insectivorous bats in the Old World tropics. However, phylogenetic relationships in Hipposideridae are poorly resolved at both the generic and species levels, and deep genetic divergence within several Southeast Asian species suggests that current taxonomy underestimates hipposiderid diversity in this region. We used mitochondrial and nuclear sequence data to conduct the first extensive molecular phylogenetic analysis of Southeast Asian hipposiderid bats. Inclusion of multiple samples per taxon allowed testing for evidence of evolutionarily distinct lineages within taxa currently defined as single species. In contrast to earlier phylogenies based on morphometrics, molecular data support monophyly of Hipposideros, but are ambiguous regarding the monophyly of Hipposideridae. With a few exceptions, molecular data also support currently recognized species groups classified by qualitative morphological characters. Widespread paraphyly and polyphyly within many currently recognized species of Hipposideros indicates that evolutionary diversity in the genus is underrepresented by current nomenclature. Comparison of available morphological and echolocation data suggest that both geographic isolation and ecological selection have contributed to the diversification of Southeast Asian hipposiderid bats.

Published

2011