Brandt's bat explained

Brandt's bat or Brandt's myotis (Myotis brandtii) is a species of vesper bat in the family Vespertilionidae. It is native throughout most of Europe and parts of western Asia.

Taxonomy and etymology

The species was described in 1845 by German zoologist Eduard Friedrich Eversmann, who placed it the genus Vespertilio.[1] For a time, the Brandt's bat was considered a subspecies of the whiskered bat, Myotis mystacinus.In 1958, one author proposed that the two might be separate species, based on baculum differences; this idea gained traction in papers authored in 1970 and 1971.[2] It is named for the German zoologist Johann Friedrich von Brandt.[3]

Formerly, populations in central and eastern Asia were classified in this species. However, more recent studies indicate that they form a distinct species, the Siberian bat (Myotis sibiricus).[4]

Range and habitat

It is found throughout Europe and western Asia, and can be found in the following regions: Great Britain, Western Europe, Central Europe, Fennoscandia, and western Russia. In the Balkans it is limited to the mountains.[5] In 2010, Brandt's bat was documented in Ireland for the first time.[6] Throughout its range, it has been documented at elevations from NaNm (-2,147,483,648feet) above sea level. It can be found in deciduous forests, or forests that are a mix of deciduous and coniferous trees. It is often found in close proximity to water.

Description

It has dark gray or brown fur that is grayish underneath with golden tips. The face and the tips of ears are pinkish in color.

Biology

Like primates and other bats, the Brandt's bat has lost the ability to synthesize vitamin C.

Reproduction

During the summer, females will form maternity colonies to raise their young. The litter size is one pup. Pups are born in early summer, with pups becoming volant around one month of age. Maternity colonies have also been found in tree cavities and in bat houses. Some females reach sexual maturity at three months of age, but most do not breed until after reaching a year of age. Mating occurs in the fall,[7] but females store the sperm until the spring, which is when fertilization occurs.

Longevity

Brandt's bats had previously been reported to have very long lifespans nearing 40 years, but these populations have since been reclassified into a different species, the Siberian bat (Myotis sibiricus).[8] Populations of Brandt's bat do not have as long life expectancies as the Siberian bat. Populations of Brandt's bat near Saint Petersburg live approximately 8.5 years; populations in the Baltic region do not live longer than 18.5 years.[9] However, researchers have also identified molecular evidence for long lifespans in true Brandt's bats, including changes in growth hormone receptors and insulin-like growth factor 1 receptors that likely contribute to a long life expectancy. By roosting in caves, it is able to avoid extreme weather conditions and predators, increasing its chances of living a long life. It also hibernates, which is linked to longer life expectancies in bats.[10]

Senses

Like other echolocating bats that use echolocation to detect prey instead of other senses, it has a reduction in the number of genes responsible for the sense of smell. Its eyes are small and adapted to vision in low-light levels. They are likely totally or partially color-blind, and likely unable to see clearly in bright daylight. The frequencies used by this bat species for echolocation lie between 32 and 103 kHz, have maximum energy density at 51 kHz and have an average duration of 4.2 ms.[11] [12]

Conservation

It is currently evaluated as least concern by the IUCN. It meets the criteria for this designation because it is an abundant, widespread species, with no indication of a decline in its population. Like all bat species in Europe, the Brandt's bat is a European Protected Species, meaning that it is illegal to deliberately capture, kill, injure, or disturb individuals; in addition, their roosts are protected as "breeding or resting" places.[13]

External links

Notes and References

  1. Book: Eversmann, E. F.. 1845. Vespertiliones in promontoriis Uralensibus tractibusque confinibus observati. Bulletin de la Société impériale des naturalistes de Moscou. Moscow. 18–21.
  2. Rybář. P.. 1976. A craniometric comparison of Holocene populations of Myotis mystacinus (Kuhl, 1817) and M. brandtii (Eversmann, 1845)(Chiroptera, Mammalia). Bijdragen tot de Dierkunde. 46. 1. 71–79. 10.1163/26660644-04601004. free.
  3. Book: Beolens. B.. Watkins. M.. Grayson. M.. 2009. The eponym dictionary of mammals. JHU Press. 978-0801895333. 54.
  4. Kruskop. Sergei V.. Borisenko. Alex V.. Ivanova. Natalia V.. Lim. Burton K.. Eger. Judith L.. June 1, 2012. Genetic Diversity of Northeastern Palaearctic Bats as Revealed by DNA Barcodes. Acta Chiropterologica. 14. 1. 1–14. 10.3161/150811012X654222. 1508-1109.
  5. http://batslife.eu/item/myotis-brandtii/ Myotis brandtii - Science for Nature Foundation
  6. Boston. E. S.. Buckley. D. J.. Bekaert. M.. Gager. Y.. Lundy. M. G.. Scott. D. D.. Prodöhl. P.A.. Montgomery. W.I.. Marnell. F.. Teeling. E. C.. 2010. The status of the cryptic bat species, Myotis mystacinus and Myotis brandtii in Ireland. Acta Chiropterologica. 12. 2. 457–461. 10.3161/150811010x538025. 83910263.
  7. Web site: Brandt's bat . 2010 . bats.org . Bat Conservation Trust . November 9, 2017 . https://web.archive.org/web/20171115221809/http://www.bats.org.uk/data/files/Species_Info_sheets/brandts_bat.pdf . November 15, 2017 . dead .
  8. Podlutsky. A. J.. Khritankov. A. M.. Ovodov. N. D.. Austad. S. N.. 2005-11-01. A New Field Record for Bat Longevity. The Journals of Gerontology Series A: Biological Sciences and Medical Sciences. 60. 11. 1366–1368. 10.1093/gerona/60.11.1366. 1079-5006. free. 16339320 .
  9. Podlutsky. A. J.. Khritankov. A. M.. Ovodov. N. D.. Austad. S. N.. 2005-11-01. A New Field Record for Bat Longevity. The Journals of Gerontology Series A: Biological Sciences and Medical Sciences. 60. 11. 1366–1368. 10.1093/gerona/60.11.1366. 1079-5006. free. 16339320 .
  10. Seim. I.. Fang. X.. Xiong. Z.. Lobanov. A. V.. Huang. Z.. Ma. S.. Feng. Y.. Turanov. A.. Zhu. Y. Lenz. T.. Gerashchenko. M.. Fan. F.. Yim. S.. Yao. X. Jordan. D.. Xiong. Y.. Ma. M.. Lyapunov. A.. Chen. G.. Kulakova. O.I.. Sun. Y.. Lee. S.. Bronson. R.T.. Moskalev. A.A.. Sunyaev. S.R.. Zhang. G.. Krogh. A.. Wang. J.. Gladyshev. V.N.. 2013. Genome analysis reveals insights into physiology and longevity of the Brandt's bat Myotis brandtii. Nature Communications. 4. 2212. 10.1038/ncomms3212. 23962925. 3753542. 2013NatCo...4.2212S.
  11. Parsons S, Jones G . amp . 2000 . Acoustic identification of twelve species of echolocating bat by discriminant function analysis and artificial neural networks . J Exp Biol . 203 . Pt 17 . 2641–2656. 10.1242/jeb.203.17.2641 . 10934005.
  12. Obrist MK, Boesch R, Flückiger PF . amp . 2004 . Variability in echolocation call design of 26 Swiss bat species: Consequences, limits and options for automated field identification with a synergic pattern recognition approach . Mammalia . 68 . 4 . 307–32 . 10.1515/mamm.2004.030. 86180828 .
  13. Web site: What are European Protected Species? . . 2011 . Biodiversity Planning Toolkit . Association of Local Government Ecologists (ALGE) . November 10, 2017.