Biology:Common vampire bat

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Short description: South and Central American bat

Common vampire bat
Desmo-Flug-01.jpg
Scientific classification edit
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Chiroptera
Family: Phyllostomidae
Genus: Desmodus
Species:
D. rotundus
Binomial name
Desmodus rotundus
(Geoffroy, 1810)
Desmodus rotundus map.svg
Range map

The common vampire bat (Desmodus rotundus) is a small, leaf-nosed bat native to the Neotropics. It is one of three extant species of vampire bat, the other two being the hairy-legged and the white-winged vampire bats. The common vampire bat practices hematophagy, mainly feeding on the blood of livestock. The bat usually approaches its prey at night while they are sleeping. It then uses its razor-sharp teeth to cut open the skin of its hosts and lap up their blood with its long tongue.

The species is highly polygynous, and dominant adult males defend groups of females. It is one of the most social of bat species with a number of cooperative behaviors such as social grooming and food sharing. Because it feeds on livestock and is a carrier of rabies, the common vampire bat is considered a pest. Its conservation status is categorized as Least Concern by the International Union for Conservation of Nature (IUCN) because of "its wide distribution, presumed large population tolerance of a degree of habitat modification, and because it is unlikely to be declining at nearly the rate required to qualify for listing in a threatened category."[1]

Taxonomy

The common vampire bat was first described as Phyllostoma rotundum by Étienne Geoffroy Saint-Hilaire in 1810.[2][3] Another description was published in 1826 as a new species Desmodus rufus by Maximilian Wied, in the second volume of his work detailing his explorations in Brazil, erecting a new genus Desmodus.[4][5] The species received several scientific names before being given its current one—Desmodus rotundus—by Oldfield Thomas in 1901.[6] It is classified under the subfamily Desmodontinae along with two other species: the hairy-legged vampire bat (Diphylla ecaudata), and the white-winged vampire bat (Diaemus youngi). These three species compose the "true" vampire bats, as opposed to the "false" vampires of the family Megadermatidae and the spectral bat. All three species of Desmodontinae specialize in feeding on the blood of warm-blooded animals.[7] However, the common vampire bat feeds on mammalian blood more than the other two species, which primarily feed on that of birds.[8][9] The three species resemble each other, but the common vampire bat can be distinguished by its longer thumb.[8] It is the only extant member of its genus, although other fossil species have been described.[3] It has a haploid number of 14, for a karyotype of 28 chromosomes.[10]

A description published under the name Desmodus puntajudensi (Cuban vampire bat) by Woloszyn and Mayo in 1974 was later recognized as synonymous with this species.[11]

Physical description

The image depicts the skull of the common vampire bat.
A vampire bat skull, showing the distinctive incisors and canines

The common vampire bat is short-haired, with silver-gray fur on its undersides, demarcated from the darker fur on its back.[3] It has a deeply grooved lower lip, and a flat, leaf-shaped nose.[3] A well-developed, clawed thumb on each wing is used to climb onto prey and to assist the animal in take-off.[3] The bat averages about 9 cm (3.5 in) long with a wingspan of 18 cm (7 in). It commonly weighs about 25–40  grams (2 oz), but its weight can drastically increase after a single feeding.[12] The braincase is relatively large, but the snout is reduced to accommodate large incisors and canines.[3] It has the fewest teeth among bats. The upper incisors lack enamel, which keeps them razor-sharp.[3] Its dental formula is 1.1.2.01.1.3.0, for a total of 18 teeth.[7]

While most other bats have almost completely lost the ability to maneuver on land, vampire bats are an exception.[13] They can run using a unique, bounding gait in which the forelimbs are used instead of the hindlimbs to propel forward, as the wings are much more powerful than the legs.[13] This ability likely evolved independently within the bat lineage.[13] Three pads under the thumb function like a sole.[3] It is also capable of leaping in various directions, heights, and distances.[14] When making a jump, the bat pushes up with its pectoral limbs. The hindlimbs keep the body over the pectoral limbs which are stabilized by the thumbs.[15]

Common vampire bats have good eyesight. They are able to distinguish different optical patterns and may use vision for long-range orientation.[3] These bats also have well-developed senses of smell and hearing: the cochlea is highly sensitive to low-frequency acoustics, and the nasal passages are relatively large.[3] They emit echolocation signals orally, and thus fly with their mouths open for navigation.[16] They can identify a metal strip 1 centimetre (0.39 in) wide at a distance of 50 centimetres (20 in), which is moderate compared to other bats.[16]

Range and habitat

The common vampire bat is found in parts of Mexico, Central America, and South America, as well as the Caribbean islands of Margarita and Trinidad.[3] They can be found as far north as 280 kilometres (170 mi) south of the Mexico–United States border. Fossils of this species have been found in Florida and states bordering Mexico. The common vampire is the most common bat species in southeastern Brazil.[17] The southern extent of its range is Uruguay, northern Argentina, and central Chile. In the West Indies, the bat is only found on Trinidad. It prefers warm and humid climates,[18][19] and uses tropical and subtropical woodlands and open grasslands for foraging.[7] Bats roost in trees, caves, abandoned buildings, old wells, and mines.[18][20] Vampire bats will roost with about 45 other bat species,[3] and tend to be the most dominant at roosting sites.[20] They occupy the darkest and highest places in the roosts; when they leave, other bat species move in to take over these vacated spots.

Behavior

Feeding

The image depicts a common vampire bat on all fours, drinking water from a dish.
A vampire bat drinking at the Buffalo Zoo

The common vampire bat feeds primarily on mammalian blood, particularly that of livestock such as cattle and horses.[18] Vampire bats feed on wild prey like the tapir, but seem to prefer domesticated animals, and favor horses over cattle when given the choice.[21] Female animals, particularly those in estrus, are more often targeted than males. This could be because of the hormones.[22]

Vampire bats hunt at night,[18] using echolocation and olfaction to track down prey.[23] They feed in a distance of 5 to 8 km (3.1 to 5.0 mi) from their roosts.[24] When a bat selects a target, it lands on it, or jumps up onto it from the ground,[18][24] usually targeting the rump, flank, or neck of its prey;[18] heat sensors in the nose help it to detect blood vessels near the surface of the skin.[21] It pierces the animal's skin with its teeth, biting away a small flap,[24] and laps up the blood with its tongue, which has lateral grooves adapted to this purpose.[25] The blood is kept from clotting by an anticoagulant in the saliva.[24]

They are protective of their host and will fend off other bats while feeding.[19][23] It is uncommon for two or more bats to feed on the same host, with the exception of mothers and their offspring.[19][23]

Mating and reproduction

File:Desmo-kolonie-baum.tif Male vampire bats guard roosting sites that attract females,[26] but females often switch roosts. [26]

During estrus, a female releases one egg.[3] Mating usually lasts three to four minutes; the male bat mounts the female from the posterior end, grasps her back with his teeth, holds down her folded wings, and inseminates her.[25] Vampire bats are reproductively active year-round, although the number of conceptions and births peak in the rainy season.[18][24] Females give birth to one offspring per pregnancy,[18][24] following a gestation period of about seven months.[3] The young are raised primarily by the females. Mothers leave their young to hunt, and call their young to feed upon returning.[18] The young accompany their mothers to hunt at six months, but are not fully weaned until nine months.[18] Female offspring usually remain in their natal groups into adulthood, unless their mothers die or move.[26] The occasional movements of unrelated females between groups leads to the formation of multiple matrilines within groups.[26] Male offspring tend to live in their natal groups until they are one to two years old, sometimes being forced out by the resident adult males.[26]

Cooperation

The image depicts two common vampire bats sharing food with one another.
Vampire bats sharing food

Regurgitated food sharing in common vampire bats has been studied in both the lab and field, and is predicted by kinship, association, and reciprocal help [27] In a field study conducted in Costa Rica from 1978 to 1983,[21] vampire bats frequently switched between several roost trees and co-roosted with kin and non-kin.[27] Mean genetic kinship within roosting groups was low (r = 0.03 − 0.11), but 95% of food sharing observed in the wild occurred between close kin (first cousins or higher). Most observed food sharing (70%) was mothers feeding their pups. The non-maternal sharing events were kin-biased suggesting that vampire bats prefer to help relatives.[27] However, non-maternal food sharing is even better explained by frequency of interaction, even after controlling for kinship. Food sharing was only observed when the co-roosting association was greater than 60%. Food sharing appears to require social bonds that require development over long periods of time.[27] Among familiar bats, the amount of food given from bat A to bat B is best predicted by the amount of food given from bat B to A.[27] Reciprocal sharing is most obvious over longer time spans as found in primate cooperation.

Vampire bats also participate in mutual grooming;[23] two bats groom each other simultaneously to clean one another, and to strengthen social bonds.[28] Bats that groom one another also share food. It was suggested that while grooming, a bat might assess the size of its partner's abdomen to determine if it really needs to eat.[28]

Relationship with humans

The image depicts a taxidermied common vampire bat.
Taxidermied bat on display

The highest occurrence of rabies in vampire bats occurs in the large populations found in South America. The danger is not so much to the human population, but rather to livestock.[29] Joseph Lennox Pawan, a government bacteriologist in Trinidad, found the first infected vampire bat in March 1932.[30] He soon proved various species of bat, including the common vampire bat, are capable of transmitting rabies for an extended period of time without artificial infection or external symptoms.[30] Fruit bats of the genus Artibeus were later shown to demonstrate the same abilities. During this asymptomatic stage, the bats continue to behave normally and breed. At first, Pawan's finding that bats transmitted rabies to people and animals were thought fantastic and were ridiculed.[citation needed]

Although most bats do not have rabies, those that do may be clumsy, disoriented, and unable to fly, which makes them more likely to come into contact with humans. There is evidence that it is possible for the rabies virus to infect a host purely through airborne transmission, without direct physical contact of the victim with the bat.[31][32] Although one should not have an unreasonable fear of bats, one should avoid handling them or having them in one's living space, as with any wild animal. Medical attention should be given to any person who awakens to discover a vampire bat in their sleeping quarters. It is possible that young children may not fully awaken due to the presence of a bat (or its bite).[33]

The unique properties of the vampire bats' saliva have found some positive use in medicine. A genetically engineered drug called desmoteplase, which uses the anticoagulant properties of the saliva of Desmodus rotundus, has been shown to increase blood flow in stroke patients.[34]

See also

References

  1. 1.0 1.1 Barquez, R.; Perez, S.; Miller, B.; Diaz, M. (2015). "Desmodus rotundus". IUCN Red List of Threatened Species 2015: e.T6510A21979045. doi:10.2305/IUCN.UK.2015-4.RLTS.T6510A21979045.en. https://www.iucnredlist.org/species/6510/21979045. Retrieved 17 March 2022. 
  2. Geoffroy, E. (1810). "Sur les Phyllostomes et les Mégadermes, deux Genres de la famille des Chauve-souris.". Annales du Muséum d'histoire naturelle. (G. Dufour, et Ed. d'Ocagne.) 15: 181. https://biodiversitylibrary.org/page/3546866. 
  3. 3.00 3.01 3.02 3.03 3.04 3.05 3.06 3.07 3.08 3.09 3.10 3.11 3.12 3.13 Greenhall, A.M.; Joermann, G.; Schmidt, U. (1983). "Desmodus rotundus". Mammalian Species (202): 1–6. doi:10.2307/3503895. http://www.science.smith.edu/departments/Biology/VHAYSSEN/msi/pdf/i0076-3519-202-01-0001.pdf. 
  4. Wied, M. (1826). Beiträge zur Naturgeschichte von Brasilien /. 2. Weimar: Im Verlage des Landes-Industrie-Comptoirs. pp. 231–238. https://biodiversitylibrary.org/page/32972279. 
  5. Wilson, Don E. and Reeder, DeeAnn M. (editors). (2005). Mammal Species of the World. A Taxonomic and Geographic Reference (3rd ed), Johns Hopkins University Press. ISBN:9780801882210
  6. Thomas, O. (1901). "List of the mammals obtained by Dr. G. Franco Grillo in the Province of Parana, Brazil". Annali del Museo Civico di Storia Naturale di Genova.. 2 (Tip. del R. Istituto Sordo-Muti) 40: 546–549. https://www.biodiversitylibrary.org/page/7991830#page/555/mode/1up. 
  7. 7.0 7.1 7.2 Eisenberg, John F; Redford, Kent Hubbard (1992). Mammals of the Neotropics, Volume 3. University of Chicago Press. pp. 187–88. ISBN 978-0-226-19542-1. 
  8. 8.0 8.1 Greenhall, A.M.; Schutt Jr, W.A. (1996). "Diaemus youngi". Mammalian Species (533): 1–7. doi:10.2307/3504240. http://www.science.smith.edu/msi/pdf/i0076-3519-227-01-0001.pdf. Retrieved 2011-11-29. 
  9. Greenhall, A.M.; Joermann, G.; Schmidt, U. (1984). "Diphylla ecaudata". Mammalian Species (227): 1–3. doi:10.2307/3504022. http://www.science.smith.edu/msi/pdf/i0076-3519-227-01-0001.pdf. Retrieved 2011-11-29. 
  10. Ritter, Jana; Smedley, Rebecca and Benirschke, Kurt. "Vampire Bat Desmodus rotundus murinus". Diagnostic Center for Population and Animal Health, Michigan University. http://placentation.ucsd.edu/vampirebatfs.htm. 
  11. Orihuela, Johanset (2011). "Skull variation of the vampire bat Desmodus rotundus (Chiroptera: Phyllostomidae): Taxonomic implications for the Cuban fossil vampire bat Desmodus puntajudensis" (in en-US). Chiroptera Neotropical 17 (1): 863–876. ISSN 2317-6105. http://chiropteraneotropical.net/index.php/cn/article/view/113. Retrieved 2019-07-31. 
  12. Foraging vampire bats can expect big meals or none at all. socialbat.org (2015-08-31).
  13. 13.0 13.1 13.2 Riskin, Daniel K.; Hermanson, John W. (2005). "Biomechanics: Independent evolution of running in vampire bats". Nature 434 (7031): 292. doi:10.1038/434292a. PMID 15772640. Bibcode2005Natur.434..292R. video
  14. Altenbach, J. S. (1979) "Locomotor morphology of the vampire bat, Desmodus rotundus", Special publication (American Society of Mammalogists), no. 6.
  15. Schutt, W.A. Jr.; Hermanson, J.W.; Chang, Y.H.; Cullinane, D.; Altenbach, J.S.; Muradali, F.; Bertram, J.E.A. (1997). "The dynamics of flight-initiating jumps in the common vampire bat Desmodus rotundus". The Journal of Experimental Biology 200 (23): 3003–12. doi:10.1242/jeb.200.23.3003. PMID 9359889. 
  16. 16.0 16.1 "Echolocation performance of the vampire bat (Desmodus rotundus)". Zeitschrift für Tierpsychologie 45 (4): 349–58. 2007. doi:10.1111/j.1439-0310.1977.tb02025.x. PMID 610226. 
  17. Trajano, E. (1996). "Movements of Cave Bats in Southeastern Brazil, With Emphasis on the Population Ecology of the Common Vampire Bat, Desmodus rotundus (Chiroptera)". Biotropica 28 (1): 121–29. doi:10.2307/2388777. 
  18. 18.0 18.1 18.2 18.3 18.4 18.5 18.6 18.7 18.8 18.9 Lord R. D. (1993). "A Taste for Blood: The Highly Specialized Vampire Bat Will Dine on Nothing Else". Wildlife Conservation 96: 32–38. 
  19. 19.0 19.1 19.2 Wilkinson, G. S. (1985). "The Social Organization of the Common Vampire Bat 1: Pattern and Cause of Association". Behav. Ecol. Sociobiol. 17 (1): 111–21. doi:10.1007/BF00299243. 
  20. 20.0 20.1 Wohlgenant, T. (1994). "Roost Interactions Between the Common Vampire Bat (Desmodus rotundus) and Two Frugivorous Bats (Phyllostomus discolor and Sturnira lilium) in Guanacaste, Costa Rica". Biotropica 26 (3): 344–48. doi:10.2307/2388857. 
  21. 21.0 21.1 21.2 Wilkinson G (1990). "Food Sharing in Vampire Bats". Scientific American 262 (21): 76–82. doi:10.1038/scientificamerican0290-76. Bibcode1990SciAm.262b..76W. http://facstaff.unca.edu/cnicolay/BIO379/wilkinson-foodsharing.pdf. Retrieved 2011-09-11. 
  22. Schutt, WA Jr.; Muradali, F; Mondol N; Joseph, K; Brockmann, K (1999). "Behavior and Maintenance of Captive White-Winged Vampire Bats, Diaemus youngi". Journal of Mammalogy 80 (1): 71–81. doi:10.2307/1383209. 
  23. 23.0 23.1 23.2 23.3 Wilkinson, J. (2001) "Bat Blood Donors", pp. 766-767 in The Encyclopedia of Mammals. Facts on File. Eds. D. MacDonald & S. Norris. ISBN:0-87196-871-1
  24. 24.0 24.1 24.2 24.3 24.4 24.5 Nowak, R. M. (1991) Walker's Mammals of the World. pp. 1629. Johns Hopkins Press. ISBN:0-8018-3970-X
  25. 25.0 25.1 Michael Mulheisen; Anderson, Rebecca. "Desmodus rotundus". Animal Diversity Web. http://animaldiversity.ummz.umich.edu/site/accounts/information/Desmodus_rotundus.html. 
  26. 26.0 26.1 26.2 26.3 26.4 Wilkinson, G. S. (1985). "The Social Organization of the Common Vampire Bat II: Mating system, genetic structure, and relatedness". Behav. Ecol. Sociobiol. 17 (2): 123–34. doi:10.1007/BF00299244. ISSN 0340-5443. http://www.life.umd.edu/faculty/wilkinson/Wilk_BES85b.pdf. 
  27. 27.0 27.1 27.2 27.3 27.4 Carter, GG; Wilkinson, GSD (2013). "Does food sharing in vampire bats demonstrate reciprocity?". Comm Integ Biol 6 (6): e25783. doi:10.4161/cib.25783. PMID 24505498. 
  28. 28.0 28.1 Wilkinson G. S. (1986). "Social Grooming in the Common Vampire Bat, Desmodus rotundus". Anim. Behav. 34 (6): 1880–1889. doi:10.1016/s0003-3472(86)80274-3. http://www.life.umd.edu/faculty/wilkinson/Wilk_AB86.pdf. 
  29. Bat Facts Smithsonian. Retrieved 6 April 2011.
  30. 30.0 30.1 Joseph Lennox Pawan , Caribbean Council for Science and Technology. Retrieved 1 April 2011
  31. Constantine, Denny G. (April 1962). "Rabies transmission by nonbite route". Public Health Reports 77 (4): 287–289. doi:10.2307/4591470. PMID 13880956. "These findings support consideration of an airborne medium, such as an aerosol, as the mechanism of rabies transmission in this instance.". 
  32. Messenger, Sharon L.; Jean S. Smith; Charles E. Rupprecht (2002-09-15). "Emerging Epidemiology of Bat-Associated Cryptic Cases of Rabies in Humans in the United States". Clinical Infectious Diseases 35 (6): 738–747. doi:10.1086/342387. PMID 12203172. "Cryptic rabies cases are those in which a clear history of exposure to rabies virus cannot be documented, despite extensive case‐history investigation. Absence of a documented bite history reflects inherent difficulties in obtaining accurate animal‐contact information.... <gap> Thus, the absence of bite-history data does not mean that a bite did not occur.". 
  33. CDC (April 22, 2011). "Learning about bats and rabies". https://www.cdc.gov/rabies/bats/education/index.html. 
  34. Liberatore, G. T.; Samson, A.; Bladin, C.; Schleuning, W.; Medcalf, R. (2003). "Vampire Bat Salivary Plasminogen Activator (Desmoteplase) A Unique Fibrinolytic Enzyme That Does Not Promote Neurodegeneration". Stroke 34 (2): 537–43. doi:10.1161/01.str.0000049764.49162.76. PMID 12574572. http://www.med.monash.edu.au/medicine/boxhill/research/Liberatore_Stroke_2003.pdf. 

External links

Wikidata ☰ Q300981 entry