Serotine bat

The serotine bat (Eptesicus serotinus), also known as the common serotine bat, big brown bat, or silky bat,[2] is a fairly large Eurasian bat with quite large ears. It has a wingspan of around 37 cm (15 in) and often hunts in woodland. It sometimes roosts in buildings, hanging upside down, in small groups or individually. The name serotine is derived from the Latin serotinus, which means 'evening', while the generic name derives from Greek ἔπιεν and οίκος, which means 'house flyer'.[3]

Serotine bat
The image depicts Eptesicus serotinus (i.e. Serotine bat) crawling on a wooden surface.
A serotine bat, crawling across a wooden surface
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Chiroptera
Family: Vespertilionidae
Genus: Eptesicus
Species:
E. serotinus
Binomial name
Eptesicus serotinus
(Schreber, 1774)
Global range of E. serotinus (red) (includes E. pachyomus)

Taxonomy

The following subspecies have been recognised.[4][1][5][6]

  • Eptesicus serotinus boscai: southern Iberia and Morocco
  • Eptesicus serotinus pashtonus: Pakistan and Afghanistan
  • Eptesicus serotinus serotinus: northern and eastern Europe and western Asia
  • Eptesicus serotinus turcomanus: central Asia and Xinjiang[4]

The Oriental serotine (E. pachyomus) and its constituent subspecies were formerly considered a subspecies of E. serotinus, comprising its eastern populations, and is still considered its closest relative, but phylogenetic evidence indicates a deep genetic divergence between E. serotinus and E. pachyomus, so they have been split as distinct species. The same occurred with the meridional serotine (E. isabellinus), which was formerly thought to comprise the southernmost populations of E. serotinus.[7]

Description

The serotine bat has long fur which on the back is smoky-brown in colour, while the underparts are a paler yellowish-brown, the nose and triangular shaped ears are black, and the membranes of the wings are dark black or brown. The juveniles are darker than the adults. Serotine bats are easy to identify in flight, because its broad wings combined with its slow, highly manoeuvrable, flapping flight interspersed with brief glides is distinctive.[8] The tragus has a relatively thin and pointed shape and is not kidney shaped as in Nyctalus.[4]

Distribution

The serotine bat has a Palaearctic distribution lying between about 58 degrees and 30 degrees from southern Great Britain and Spain in the west, east to along the Himalayas to northeastern India and along the Tian Shan to southern Mongolia and northern China, and south to Turkey and Iran. It has been recorded as a vagrant on Lanzarote in the Canary Islands.[1]

Habitat

The serotine bat utilises in a wide variety of habitats including temperate and subtropical dry forest, maquis, agricultural land, semi-desert and suburban areas.[1]

Biology

In Europe serotine bats start to establish maternity colonies consisting almost exclusively of females from late May. Colonies usually remain at a single roost site during the breeding season, although occasionally the larger colonies will change roost sites. The female bats usually give birth to a single pup in early July, though births have been recorded as late as mid-August.[9]

The female bats normally give birth to a single young in late summer, and the baby is occasionally carried by its mother for the first few days. The young bats usually make their first flights at around three weeks old, and at six weeks they can forage for themselves. Breeding colonies usually disperse by early September, although a few bats may use the colony site as a roost until early October. The male bats probably remain solitary or in small groups but are occasionally found with females in spring or autumn. Mating seems to take place in the autumn, but very little is known about the mating behaviour. Both sexes reach sexual maturity at one year old.[9]

Serotine bats mainly use buildings for summer roosts, especially those older buildings with high gables and cavity walls, and often occur in churches; modern buildings are used infrequently. The roost is normally accessed at or near the gable apex or the lower eaves. The serotine bat is hardly ever found in trees, which were the most likely pre-human roost sites, and the species seems to be very oriented towards using buildings. The roost is sometimes shared with pipistrelles or brown long-eared bats, and this species has also been recorded associating with Natterer's bats, whiskered bats and noctule bats. Only a few serotine bats have been found in winter, but it seems likely that most hibernate in buildings in cavity walls and disused chimneys. There are a few records of them being found in the coldest parts of caves, either in roof crevices or in accumulations of boulders.[9]

The foraging activity of serotine bats peaks at dusk, and there is a second period of activity around dawn. They commute on average 6.5 km (4.0 mi) to and from feeding areas per night, and forage in up to five distinct areas per night. This species uses three main feeding strategies: short flights, ground feeding and aerial hawking. It normally forages quite low, 0–5 m (0–16 ft) above the ground.[4]

Diet

Similarly to the Nyctalus or Plecotus species, the serotine is mainly an aerial hawker focusing on hunting flying insects.[10][11][12]

Echolocation

The frequencies used by this bat species for echolocation lie between 25–55 kHz, have most energy at 31 kHz and have an average duration of 8.8 ms.[13][14]

Conservation

The serotine bat has declined in many areas in its European range. Loss of feeding habitat is thought to have played a part in the decline. In addition, as this bat almost exclusively roosts in buildings, it is highly vulnerable to disturbance from construction work and toxic timber treatments. In the United Kingdom serotine bats benefit from a very comprehensive level of legal protection, as is the case across much of Europe.[8]

References

  1. Godlevska, L.; Kruskop, S.V.; Gazaryan, S. (2021) [amended version of 2020 assessment]. "Eptesicus serotinus". IUCN Red List of Threatened Species. 2021: e.T85199559A195834153. doi:10.2305/IUCN.UK.2021-1.RLTS.T85199559A195834153.en. Retrieved 18 April 2021.
  2. "Serotine, Serotine Bat, Common Serotine Bat, Big Brown Bat, Silky Bat". Ch Boudet - Mammals' Planet. Retrieved 18 October 2016.
  3. "Eptesicus". Animalia. Archived from the original on 2016-10-19. Retrieved 18 October 2016.
  4. "Common serotine". University of Bristol. Retrieved 17 October 2016.
  5. "Eptesicus serotinus (Schreber, 1774)". itis.gov. Retrieved 18 October 2016.
  6. Srinivasulu, Chelmala; Srinivasulu, Bhargavi (2012). South Asian Mammals: Their Diversity, Distribution, and Status. p. 269. ISBN 978-1-4614-3449-8.
  7. Juste, Javier; Benda, Petr; Garcia-Mudarra, Juan-Luis; Ibanez, Carlos (2013). "Phylogeny and systematics of Old World serotine bats (genus Eptesicus, Vespertilionidae, Chiroptera): an integrative approach" (PDF). Zoologica Scripta. 42 (5): 441–457. doi:10.1111/zsc.12020. hdl:10261/80441. S2CID 52950923.
  8. "Serotine bat (Eptesicus serotinus)". Wildscreen Arkive. Archived from the original on 2016-10-08. Retrieved 18 October 2016.
  9. "Serotine" (PDF). Bat Conservation Trust. Archived from the original (PDF) on 2016-10-22. Retrieved 17 October 2016.
  10. GAJDOŠÍK M. & GAISLER J., 2004: Diet of two Eptesicus bat species in Moravia (Czech Republic). Folia Zoologica, 53: 7–16.
  11. ANDĚRA M. & HORÁČEK I., 2005: Poznáváme naše savce [We Identify Our Mammals]. Sobotáles, Praha, 328 pp. [in Czech]
  12. MIKULA, P., & ČMOKOVÁ, A. Lepidopterans in the summer diet of Eptesicus serotinus in Central Bohemia. Vespertilio 16: 197-201.
  13. Parsons, S.; Jones, G. (2000). "Acoustic identification of twelve species of echolocating bat by discriminant function analysis and artificial neural networks" (PDF). J Exp Biol. 203 (17): 2641–2656. doi:10.1242/jeb.203.17.2641.
  14. Obrist, M.K.; Boesch, R.; Fluckiger, P.F. (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" (PDF). Mammalia. 68 (4): 307–32. doi:10.1515/mamm.2004.030. S2CID 86180828.
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