Your search keyword '"*BAT classification"' showing total 5 results

1. Timing and patterns of diversification in the Neotropical bat genus Pteronotus (Mormoopidae).

Author

Pavan, Ana C. and Marroig, Gabriel

Subjects

*PTERONOTUS, *BAT physiology, *BAT classification, *MAMMAL evolution

Abstract

We investigate the biogeographic processes related to the origin and current patterns of distribution of the extant species of the genus Pteronotus. This clade of insectivorous bats is widely distributed in the Neotropical Region and has recently gone through a taxonomic update which increased more than twice its diversity. Using six molecular markers of 15 Pteronotus lineages ranging from Mexico to Central Brazil, we reconstruct a time-calibrated tree and infer molecular evolutionary rates for this bat genus. In addition, estimates of range evolution across phylogeny were obtained through statistical model testing among six different biogeographic models. The origin of the genus Pteronotus occurred approximately 16 million years ago (Ma), with initial cladogenesis events being evenly distributed across the phylogeny. Divergence between most closely related species is recent, falling in the Pleistocene period less than 2.6 Ma. Mainland lineages present congruent patterns of north versus south continent splitting while insular clades differ in their time of arrival in the Caribbean Islands. Temporal and geographic range estimates for early nodes of Pteronotus phylogeny suggest a central role of Neogene tectonic reorganizations of Central America in the group diversification process. Also, South American colonization by Pteronotus occurred early in the genus history. Founder-event speciation was an important mode of lineage splitting in Pteronotus , with two independent dispersal jumps having occurred to the Greater Antilles. Finally, Pleistocenic sea-level variation and climatic oscillations are possibly associated with divergence between sister-species and recent ages of MRCA for Pteronotus species. [ABSTRACT FROM AUTHOR]

Published

2017

2. Integrating multiple evidences in taxonomy: species diversity and phylogeny of mustached bats (Mormoopidae: Pteronotus).

Author

Pavan, Ana Carolina and Marroig, Gabriel

Subjects

*BAT classification, *MAMMAL diversity, *MAMMAL phylogeny, *MAMMAL evolution, *MAMMAL population genetics, *PTERONOTUS

Abstract

A phylogenetic systematic perspective is instrumental in recovering new species and their evolutionary relationships. The advent of new technologies for molecular and morphological data acquisition and analysis, allied to the integration of knowledge from different areas, such as ecology and population genetics, allows for the emergence of more rigorous, accurate and complete scientific hypothesis on species diversity. Mustached bats (genus Pteronotus ) are a good model for the application of this integrative approach. They are a widely distributed and a morphologically homogeneous group, but comprising species with remarkable differences in their echolocation strategy and feeding behavior. The latest systematic review suggested six species with 17 subspecies in Pteronotus . Subsequent studies using discrete morphological characters supported the same arrangement. However, recent papers reported high levels of genetic divergence among conspecific taxa followed by bioacoustic and geographic agreement, suggesting an underestimated diversity in the genus. To date, no study merging genetic evidences and morphometric variation along the entire geographic range of this group has been attempted. Based on a comprehensive sampling including representatives of all current taxonomic units, we attempt to delimit species in Pteronotus through the application of multiple methodologies and hierarchically distinct datasets. The molecular approach includes six molecular markers from three genetic transmission systems; morphological investigations used 41 euclidean distances estimated through three-dimensional landmarks collected from 1628 skulls. The phylogenetic analysis reveals a greater diversity than previously reported, with a high correspondence among the genetic lineages and the currently recognized subspecies in the genus. Discriminant analysis of variables describing size and shape of cranial bones support the rising of the genetic groups to the specific status. Based on multiples evidences, we present an updated taxonomic arrangement composed by 16 extant species and a new and more robust phylogenetic hypothesis for the species included in the genus Pteronotus . Studies developed under such integrative taxonomic approach are timely for a deeper and wider comprehension of Neotropical diversity, representing the first step for answering broader questions on evolutionary and ecological aspects of Neotropical life history. [ABSTRACT FROM AUTHOR]

Published

2016

3. Circum-Mediterranean phylogeography of a bat coupled with past environmental niche modeling: A new paradigm for the recolonization of Europe?

Author

Bilgin, Raşit, Gürün, Kanat, Rebelo, Hugo, Puechmaille, Sebastien J., Maracı, Öncü, Presetnik, Primoz, Benda, Petr, Hulva, Pavel, Ibáñez, Carlos, Hamidovic, Daniela, Fressel, Norma, Horáček, Ivan, Karataş, Ayşegül, Karataş, Ahmet, Allegrini, Benjamin, Georgiakakis, Panagiotis, Gazaryan, Suren, Nagy, Zoltan L., Abi-Said, Mounir, and Lučan, Radek K.

Subjects

*PHYLOGEOGRAPHY, *ECOLOGICAL niche, *BAT classification, *MINIOPTERUS schreibersii, *GLACIAL Epoch

Abstract

The isolation of populations in the Iberian, Italian and Balkan peninsulas during the ice ages define four main paradigms that explain much of the known distribution of intraspecific genetic diversity in Europe. In this study we investigated the phylogeography of a wide-spread bat species, the bent-winged bat, Miniopterus schreibersii around the Mediterranean basin and in the Caucasus. Environmental Niche Modeling (ENM) analysis was applied to predict both the current distribution of the species and its distribution during the last glacial maximum (LGM). The combination of genetics and ENM results suggest that the populations of M. schreibersii in Europe, the Caucasus and Anatolia went extinct during the LGM, and the refugium for the species was a relatively small area to the east of the Levantine Sea, corresponding to the Mediterranean coasts of present-day Syria, Lebanon, Israel, and northeastern and northwestern Egypt. Subsequently the species first repopulated Anatolia, diversified there, and afterwards expanded into the Caucasus, continental Europe and North Africa after the end of the LGM. The fossil record in Iberia and the ENM results indicate continuous presence of Miniopterus in this peninsula that most probably was related to the Maghrebian lineage during the LGM, which did not persist afterwards. Using our results combined with similar findings in previous studies, we propose a new paradigm explaining the general distribution of genetic diversity in Europe involving the recolonization of the continent, with the main contribution from refugial populations in Anatolia and the Middle East. The study shows how genetics and ENM approaches can complement each other in providing a more detailed picture of intraspecific evolution. [ABSTRACT FROM AUTHOR]

Published

2016

4. Each flying fox on its own branch: A phylogenetic tree for Pteropus and related genera (Chiroptera: Pteropodidae).

Author

Almeida, Francisca C., Giannini, Norberto P., Simmons, Nancy B., and Helgen, Kristofer M.

Subjects

*FLYING foxes, *PTEROPODIDAE, *MAMMAL phylogeny, *BAT classification, *MOLECULAR biology

Abstract

Highlights: [•] Most complete Pteropodinae phylogeny to date including 85% of the 55 extant flying foxes and all pteropodine genera. [•] Many sequences obtained from museum specimens including those of an extinct species, Pteropus tokudae. [•] Proposal of a new classification for the flying foxes based on monophyletic groups. [•] Molecular evidence for the recognition of P. capistratus and P. ennisae as distinct species. [•] Inference of an additional, independent Pteropus diversification burst in the Pleistocene. [Copyright &y& Elsevier]

Published

2014

5. Corrigendum to “Multilocus phylogeny and species delimitation within the Natterer’s bat species complex in the Western Palearctic” [Molecular Phylogenetics and Evolution 61 (2011) 888–898].

Author

Salicini, I., Ibáñez, C., and Juste, J.

Subjects

*PHYLOGENY, *PALEARCTIC, *BAT classification

Published

2018