Vespertilionidae

Vespertilionidae is a family of microbats, of the order Chiroptera, flying, insect-eating mammals variously described as the common, vesper, or simple nosed bats. The vespertilionid family is the most diverse and widely distributed of bat families, specialised in many forms to occupy a range of habitats and ecological circumstances, and it is frequently observed or the subject of research. The facial features of the species are often simple, as they mainly rely on vocally emitted echolocation. The tails of the species are enclosed by the lower flight membranes between the legs. Over 300 species are distributed all over the world, on every continent except Antarctica. It owes its name to the genus Vespertilio, which takes its name from a word for bat, vespertilio, derived from the Latin term vesper meaning 'evening'; they are termed as evening bats and once referred to as 'evening birds'.

Vespertilionidae
Temporal range: Early Eocene to recent[1]
Greater mouse-eared bat (Myotis myotis)
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Chiroptera
Suborder: Yangochiroptera
Superfamily: Vespertilionoidea
Family: Vespertilionidae
Gray, 1821
Subfamilies

Evolution

They are allied to the suborder Microchiroptera, the families of microbats separated from the flying foxes and fruit bats of the megabat group Megachiroptera. The treatments of bat taxonomy have also included a placement amongst the Vespertilioniformes, or Yangochiroptera, as suborder Vespertilionoidea.

Molecular data indicate the Vespertilionidae diverged from the Molossidae in the early Eocene period.[2] The family is thought to have originated somewhere in Laurasia, possibly North America.[3] A recently extinct species, Synemporion keana, is known from the Holocene of Hawaii.[4]

Characteristics

All species are carnivorous and most are insectivores, exceptions are bats of genera Myotis and Pizonyx that catch fish and the larger Nyctalus species known to capture small passerine birds in flight. The dentition of the family varies between species; the dental formula of the family is:

Dentition
1–2.1.1–3.3
2–3.1.2–3.3

They rely mainly on echolocation to navigate and obtain food, but they lack the elaborate nose appendages of microbats that focus nasal emitted ultrasound. The ultrasound signal is usually produced orally, and many species have large external ears to capture and reflect sound, enabling them to discriminate and extract information.

The vespertilionids employ a range of flight techniques. The wing surface is extended to the lower limbs, and the tails of this family are enclosed in an interfemoral membrane.[5] Some are relatively slow-flying genera, such as Pipistrellus, that manipulate the configuration of their broader wing shape and may give a fluttery appearance as they forage and glean. Others are specialised as long-winged genera, such as Lasiurus and Nyctalus, that use rapid pursuit to capture insects. The size range of the family is 3 to 13 cm (1.2 to 5.1 in) in head and body length; this excludes the tail, which is itself quite long in many species. They are generally brown or grey in colour, often an indiscriminate appearance as a 'little brown bat', although some species have fur that is brightly colored, with reds, oranges, and yellows all being known. The patterns of the superficial appearance include white patches or stripes that may distinguish some species.[6]

Most species roost in caves, although some make use of hollow trees, rocky crevices, animal burrows, or other forms of shelter. Colony sizes also vary greatly, with some roosting alone, and others in groups up to a million individuals. Species native to temperate latitudes typically hibernate to avoid cooler weather, while a few of the tropical species employ aestivation as a method of evading extremes of climate.[6]

Systematics

Vespertilionidae

Vespertilioninae

Myotinae

Kerivoulinae

Murininae

Subfamily relationships of Vespertilionidae[7]

The four subfamilies of Vespertilionidae separate the presumably related taxa, tribes, and genera of extant and extinct taxa. The subfamilial treatments, based on morphological, geographical, and ecological comparisons have been recombined since the inclusion of the phylogenetic implications of molecular genetics; only the Murininae and Kerivoulinae have not been changed in light of genetic analysis.[7] Subfamilies that were once recognized as valid, such as the Nyctophilinae, are considered dubious, as molecular evidence suggests they are paraphyletic in their arrangements.[7] Within the concept Yangochiroptera, an acknowledged cladistic treatment, the closest relatives to the family are the free-tailed bats of family Molossidae.[7]

The monotypic genus Tomopeas, represented by the blunt-eared bat (Tomopeas ravus), is acknowledged as the potentially closest link between the Vespertilionidae and Molossidae, as it is the most basal member of the Molossidae and has intermediate characteristics of both families.[8]

Classification

The grouping of these subfamilies is the classification published by Simmons and Geisler (1998). Other authorities raise three subfamilies more: Antrozoinae (which is here the separate family of pallid bats), Tomopeatinae (now regarded as a subfamily of the free-tailed bats), and Nyctophilinae (here included in Vespertilioninae).

Four subfamilies are recognized by Mammal Species of the World (2005),[9] the highly diverse Vespertilioninae are also separated as tribes. Newer or resurrected genera are noted. The genus Cistugo is no longer included following its move to the separate family Cistugidae.[10][11] Miniopterinae is additionally no longer recognized as a subfamily, as it was elevated to family status.[12][13]

Family Vespertilionidae

  • genus Harpiocephalus – hairy-winged bats
  • genus Harpiola
  • genus Murina – tube-nosed insectivorous bats

References

  1. Fenton, M. B. (2001). Bats. New York: Checkmark Books. p. 5. ISBN 0-8160-4358-2.
  2. Miller-Butterworth, C. M., Murphy, W. J., O'Brien, S. J., Jacobs, D. S., Springer, M. S. & Teeling, E. C. (2007). "A family matter: conclusive resolution of the taxonomic position of the long-fingered bats, Miniopterus". Molecular Biology and Evolution. 24 (7): 1553–1561. doi:10.1093/molbev/msm076. PMID 17449895.CS1 maint: multiple names: authors list (link)
  3. Teeling, E. C., Springer, M. S., Madsen, O., Bates, P., O'Brien, S. J. & Murphy, W. J. (2005). "A molecular phylogeny for bats illuminates biogeography and the fossil record". Science. 307 (5709): 580–584. Bibcode:2005Sci...307..580T. doi:10.1126/science.1105113. PMID 15681385. S2CID 25912333.CS1 maint: multiple names: authors list (link)
  4. Discovery of Extinct Bat Doubles Diversity of Native Hawaiian Land Mammals, at the American Museum of Natural History; published March 21, 2016; retrieved June 20, 2016
  5. Richards, G.C.; Hall, L.S.; Parish, S. (photography) (2012). A natural history of Australian bats : working the night shift. CSIRO Pub. p. 48. ISBN 9780643103740.
  6. Macdonald, D., ed. (1984). The Encyclopedia of Mammals. New York: Facts on File. pp. 807. ISBN 0-87196-871-1.
  7. Hoofer, S. R.; Bussche, R. A. V. D. (2003). "Molecular phylogenetics of the chiropteran family Vespertilionidae". Acta Chiropterologica. 5 (1): 1–63. doi:10.3161/001.005.s101.
  8. Sudman, P. D; Barkley, L. J; Hafner, M. S (1994). "Familial Affinity of Tomopeas ravus (Chiroptera) Based on Protein Electrophoretic and Cytochrome b Sequence Data". Journal of Mammalogy. 75 (2): 365. doi:10.2307/1382555. JSTOR 1382555.
  9. Simmons, N.B. (2005). "Order Chiroptera". In Wilson, D.E.; Reeder, D.M (eds.). Mammal Species of the World: A Taxonomic and Geographic Reference (3rd ed.). Johns Hopkins University Press. pp. 312–529. ISBN 978-0-8018-8221-0. OCLC 62265494.
  10. Lack, J. B.; Roehrs, Z. P.; Stanley Jr, C. E.; Ruedi, M.; Van Den Bussche, R. A. (2010). "Molecular phylogenetics of Myotis indicate familial-level divergence for the genus Cistugo (Chiroptera)". Journal of Mammalogy. 91 (4): 976–992. doi:10.1644/09-mamm-a-192.1.
  11. "Vespertilionidae". Species 2000 & ITIS Catalogue of Life. Species 2000: Naturalis, Leiden, the Netherlands.
  12. Kulemzina, A. I.; Nie, W.; Trifonov, V. A.; Staroselec, Y.; Vasenkov, D. A.; Volleth, M.; Graphodatsky, A. S. (2011). "Comparative chromosome painting of four Siberian Vespertilionidae species with Aselliscus stoliczkanus and Human probes". Cytogenetic and Genome Research. 134 (3): 200–205. doi:10.1159/000328834. PMID 21709413. S2CID 8258899.
  13. Burgin, Connor J.; Colella, Jocelyn P.; Kahn, Philip L.; Upham, Nathan S. (February 1, 2018). "How many species of mammals are there?". Journal of Mammalogy. 99 (1): 1–14. doi:10.1093/jmammal/gyx147.
  14. Hoofer, Steven R.; Van Den Bussche, Ronald A.; Horáček, Ivan (2006-10-01). "Generic Status of the American Pipistrelles (Vespertilionidae) with Description of a New Genus". Journal of Mammalogy. 87 (5): 981–992. doi:10.1644/05-MAMM-A-425R1.1. ISSN 0022-2372. JSTOR 4094268.
  15. Solari, S. 2018. Perimyotis subflavus. The IUCN Red List of Threatened Species 2018* e.T17366A22123514. https://doi.org/10.2305/IUCN.UK.2018-2.RLTS.T17366A22123514.en. Downloaded on 05 March 2019.

Further reading

  • Corbet, GB, Hill JE. 1992. The mammals of the Indomalayan region: a systematic review. Oxford University Press, Oxford.
  • Karim, C., A.A. Tuen and M.T. Abdullah. 2004. Mammals. Sarawak Museum Journal Special Issue No. 6. 80: 221–234.
  • Wilson DE, Reeder DM. 2005. Mammal species of the world. Smithsonian Institution Press, Washington DC.
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