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New Zealand lesser short-tailed bat

February 16, 2024

The New Zealand lesser short-tailed bat (Mystacina tuberculata) is a small-sized omnivorous mammal endemic to the islands of New Zealand. It is one of two extant and three overall terrestrial mammal species unique to New Zealand. Its closest relative, the New Zealand greater short-tailed bat (M. robusta), was last seen in 1965 and is presumed extinct due to intense predation from ship rats introduced in the last few centuries. These bats are also commonly referred to as pekapeka, their Māori-language name. Lesser short-tailed bats have unique adaptations that differentiate them from bats found in other parts of the world. For example, they are fully capable of moving along the ground to search for food, and the males sing to attract partners, taking turns to do so. Lesser short-tailed bats are a vulnerable species, so extensive conservation work and research are being done to prevent extinction.

Lesser short-tailed bat
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Chiroptera
Family: Mystacinidae
Genus: Mystacina
Species:
M. tuberculata
Binomial name
Mystacina tuberculata
Gray, 1843
Subspecies

M. t. tuberculata
M. t. aupourica
M. t. rhyacobia

Key:
  Range of M. t. aupourica
  Range of M. t. rhyacobia
  Range of M. t. tuberculata

Taxonomy and evolution edit

 
Illustration of an individual

Taxonomic classification edit

Mystacina tuberculata are members of the suborder Yangochiroptera and have recently been placed in the superfamily Noctillionoidea. They are members of the family Mystacinidae, which contains the single genus Mystacina. Within Mystacina are the two closely related species, M. tuberculata and M. robusta. As it is likely that M. robusta has gone extinct, M. tuberculata is the only confirmed extant species within the genus and the family. The placement of this species within taxonomies and phylogenetic trees was previously a hotly debated topic. The current standing within the superfamily Noctillionoidea is the result of DNA sequencing and analysis.[2] In opposition to this, some scientists believe physical similarities indicate Mystacinidae falls under the superfamily Vespertilionoidea.[3] The phylogenetic position of this species has had a variety of other suggested propositions, including within the Phyllostomidae (Leaf-nosed bats) or the Emballonuridae (sac-winged and sheath-tailed bats).[4] While this species is considered to have subspecies, some sources refer to the species as one unit. The New Zealand Department of Conservation recognises three subspecies. These are divided by the region each inhabits; northern (Mystacina tuberculata aupourica), central (Mystacina tuberculata rhyacobi), and southern (Mystacina tuberculata tuberculata).[5]

Evolutionary history edit

It has been suggested that the Mystacinidae originated on the Australian continent[6] and that the superfamily Noctillionoidea originated on Gondwana.[7] When Gondwana split into smaller continents, the superfamily members became geographically isolated. This isolation led to millions of years of unique evolutionary history for each family. It has been estimated that Mystacinidae first became a distinct family between 68 and 35 million years ago.[8] Twenty million years ago, two genera emerged from the family; Mystacina and Icarops. Fossils of Icarops have been found throughout Australia, indicating the now-extinct species was once well dispersed there.[8] It is unknown when the species within this genera (I. aenae, I. breviceps, and I. paradox) became extinct.

Mystacina migrated from Australia to New Zealand, settling as the first mammals on these islands. Based on fossil evidence, this genus was definitely in New Zealand during the Miocene.[9] Therefore, we know that Mystacina became a distinct genus around 20 million years ago and travelled from Australia to New Zealand anywhere from approximately 5.3 - 20 million years ago.[citation needed] This assumes that Icarops did not migrate to New Zealand, and that the colonisation event occurred after the genera became distinct. It is unclear when M. tuberculata and M. robusta became distinct species.

Distribution and range edit

Lesser short-tailed bats have been found in a few populations dispersed around the country. There are populations on both of the main islands, as well as various surrounding islands. There are a few key populations currently known. There is one on Little Barrier Island (Hauturu), one near the top of the North Island, seven in the central area of the North Island, and one on the south-eastern side of the North Island. There are at least two on the mainland of the South Island; and one on Codfish island further south.[10] The bats can live at a wide range of altitudes, from sea level to high up among the forest-covered mountains.[6] M. tuberculata prefer to live in untouched forest settings. However, they have been reported in various habitats, such as farmland and shrubland.[11]

Anatomy and physiology edit

The lesser short-tailed bats appear similar to their microbat relatives. They are small in size, and typically weigh between 12 and 15 grams (0.42 and 0.53 oz) once fully grown.[12] They have relatively large ears compared to their head and body sizes, which face forward to assist with echolocation. Lesser short-tailed bats also have relatively large nostrils that face outwards, allowing these animals to use olfaction to guide their movements. Their eyes are small and their vision is relatively weak, justifying their reliance on sound and olfactory senses.[citation needed] These features are common throughout Chiroptera.

Their wings are relatively smaller than those of other bat species. Because of this, they have reduced agility, and cannot fly as fast.[13] Despite this, they are still very capable of flight; just less so than other bat species. Each bat is covered in a layer of thick fur that ranges in colour from light brown to dark brown. The underbelly is typically a lighter colour than the rest of the body. At the posterior end of their bodies are short yet strong hindlegs, useful in their terrestrial locomotion. The relatively short stubby tails are what gives this species its common name. At the top centre of each forelimb, the thumb extends outwards. This, as well as their toes, are equipped with nails referred to as basal talons. Having distinct talons further enables movement along the ground, and are useful when climbing trees.[12] Basal talons are not seen in other Chiropteran species.

Torpor edit

One of the key adaptations the lesser short-tailed bats have is entering a state of torpor. Torpor allows for continued survival during periods of physiological stress, such as when the air temperature drops during winter. During this state, the bats are inactive and only essential body functions are operating to reduce energy expenditure. Entering torpor slows the body's metabolic rate down, yet it is different from hibernation, as the periods are much shorter and repetitive.

The duration of torpor is usually a few to several hours at a time, and the bats will enter this state several times within a season. Torpor is utilised throughout the year, but in particular during winter, where they also enter into this state for longer each time.[14][15]

Foraging and diet edit

Preferred foods edit

 
Huhu beetle

New Zealand lesser short-tailed bats are omnivores. Their diet consists of various food items, typically including insects, other small invertebrates, fruit, and flower parts.[16] In general, they prefer to consume insects when possible. One study found traces of moths, spiders, and huhu beetles present in their guano.[17] Another study found that these bats are capable of consuming half their body weight in moths.[12] An average body weight of 12 to 15 grams (0.42 to 0.53 oz) equates to 6 to 7.5 grams (0.21 to 0.26 oz) of moths eaten per day. The bats consume include nectar and pollen, the latter of which is believed to provide them with protein.[12] However, there has been speculation and debate on whether the bats consume the pollen intentionally or if the pollen found in their guano was actually ingested by their prey.[17] Nectar is consumed as the sugars provide a good, uncomplicated source of energy. Lesser short-tailed bats are an important pollinator species within New Zealand through their consumption of flowers (either by ingestion or secondarily through their prey). Researchers found that these bats will carry large quantities of pollen from a select few plant species, such as Collospermum microspermum and Dactylanthus taylorii (the Wood rose).[18] Ensuring conservation of the lesser short-tailed bats may also ensure conservation of the plant species they pollinate.

Foraging methods edit

One of the defining features of New Zealand lesser short-tailed bats is their ability to forage both in the air and on the ground. Their ability to forage on the ground is unusual for a bat species. However, New Zealand's early geographic separation around 80 million years ago[19] meant the islands developed free from predators. Without predators, the lesser short-tailed bat evolved to survive in both aerial and ground habitats. Like other bats, in the air, they catch food by using echolocation to detect the location of prey. The lesser short-tailed bats forage on the ground by moving around on their limbs, sourcing prey by using olfaction.[16] The species has several adaptations that aid in their search for food on the ground. For example, when on the ground, individuals will fold in their wings to utilise them as forelimbs—all four limbs in quadrupedal locomotion. In addition, they have talons specialised in helping them dig down among leaf litter and dirt layers for prey.[12] While moving about terrestrially, the bats walk similarly to other four-legged animals.[20] New Zealand lesser short-tailed bats have an increased sense of smell compared with other bats, as seen in their relatively larger and rounder nostrils.[6] Although, like other bats, they are not blind they are not heavily reliant on visual hunting, with cues like scent and sound being much more critical. Foraging on the ground can be used to dig up insects and spiders, collect flowers or fallen fruit, and collect other stationary forms of food. Foraging in the air is often associated with hunting flying insects, such as moths. During heavy rain foraging is uncommon, and during lighter rain foraging activity increases slightly.[21]

 
Bat using echolocation to hunt prey

Echolocation edit

Like other microbats, these bats employ echolocation when flying.[22] Lesser short-tailed bats emit sounds in the range of 20-40 kHz. Each call lasts between seven and nine milliseconds.[23] Echolocation does not work as efficiently while foraging on the ground, because the echoes can be disrupted by the forest floor and anything occupying this space. Another reason echolocation does not work when foraging on the ground is that the echoes bouncing back can interrupt the new echoes being sent out, causing confusion for the animal and preventing the system from working correctly. This issue does not occur when the bats are mid-air, as the sound has more distance to travel, and fewer objects could disrupt the signal or cause confusion.[citation needed]

Life cycle and social systems edit

Social systems and mating behaviour edit

Lesser short-tailed bats form fission-fusion societies. This means populations will congregate at certain times, separate, and recongregate later. Where these animals group together are known as roosts. For roosting, they prefer to find trees with large internal cavities, where they create their 'home'. A roosting site will contain multiple trees within the same general vicinity. The number of individuals present at a roosting site vary greatly, with some colonies consisting of hundreds or thousands of individual bats.[24]

Male bats attempt to attract a mate during the spring and summer months before mating begins, which is usually during autumn (March–May in New Zealand). Like many other species, the males attract mates at night by using vocal calls. The males will sing from one of the roosting trees within the colony for several minutes. Multiple males will aggregate at this same roost, taking turns singing.[24] This behaviour is classified as a lek breeding system. In this type of mating, sexual selection occurs, as the males signal to potential females in the hopes they will be impressed and mate with the male. Lek breeding is how the male bats 'prove their worth'. The mating events that follow are non-monogamous, and males have been observed to mate with multiple different females.[25] While lek breeding systems are observed throughout the animal kingdom, they are rare in bats and have only been observed in one other species.

Early life and life cycle edit

 
Lesser short-tailed bats roosting

Lesser short-tailed bat pups become active within a day of being born. For the first two days, they are hairless, with underdeveloped teeth, wings, and ears.[12][26] The pups are capable of flying within roughly four weeks. Six weeks post-birth, they leave the maternity roosts they were raised in. After a few months they have reached their adult body size.[6] The pups are born in summer (December–February in New Zealand). During this summer birthing period, the dispersed individuals will regroup, forming a large colony. Pups will feed first on milk produced by their mothers. Each mother will give birth to a single pup per season. The result of this is higher maternal investment per offspring, however the non-monogamous mating system results in low paternal investment. The pups are raised in special sections of the colony's roosting site dedicated to maternal activities. Other female bats will group at these maternal roosts and aid in the rearing of pups.[citation needed]

There are no records of the average lifespan of lesser short-tailed bats. Other bats within the suborder Yangochiroptera have been observed to live for upwards of thirty years, which is unexpected for their small body sizes.[27] During spring/summer, male bats attract a female mate. These pairs will mate during autumn. During autumn and winter, the bats will disperse into smaller colony groups while the female bats are pregnant. Then, when it becomes summer again the bats regroup into a larger colony and the pups are born. Around autumntime, the pups have reached physical maturity. It is unclear at what age they reach sexual maturity.[citation needed]

Human impacts and conservation edit

Threats edit

Currently, NZ lesser short-tailed bats are classified as Vulnerable by the IUCN, with the number of individuals observed as declining over time.[28] The introduction of mammalian predators has had a massive impact on the species' numbers. Since the colonisation of New Zealand and the introduction of three key rat species the endemic bat populations have experienced a reduction in numbers. Polynesian rats (R. exulans) were one of the bat's main predators up until the 19th century, when the introduction of the black rat (R. rattus) and the brown rat (R. norvegicus) led to heavier predation.[29] Before mammalian predators colonised New Zealand, the lesser short-tailed bat was preyed on by predatory birds, such as the laughing owl.[11] Another common predator of these bats are common house cats, which will catch the bats as they fly out of their roosting sites. The bat roosts are very vulnerable, as they contain more potential prey within a single area. If these roosts were found by a predator, they could experience mass mortality events; in one incident, 102 lesser short-tailed bat deaths were caused by a single house cat in central North Island.[30]

 
Department of Conservation New Zealand

Another cause for their decline is increased use of the land for anthropogenic activities, such as logging and agriculture. These activities can often result in negative consequences for the local ecosystem, such as forest fragmentation.[31] For native animals in New Zealand, fragmentation poses threats such as reduced genetic diversity. However, it is possible that the lesser short-tailed bats will not be affected by forest fragmentation, as the species has been observed to show behavioural plasticity, through the ability to change/occupy different habitats.[25]

Current conservation plans edit

The current state of conservation for lesser short-tailed bats is being managed by the New Zealand Department of Conservation (DOC). The recovery plan in place since the late 1990s involves a multi-pronged approach of different actions to take to prevent this species from further endangerment. Some of the detailed actions include creating new bat populations on the various predator-free islands around New Zealand, surveying the mainlands to identify areas that require extra conservation efforts, and potentially creating a captive population.[32]

References edit

  1. ^ O'Donnell, C. (2021). "Mystacina tuberculata". IUCN Red List of Threatened Species. 2021: e.T14261A22070543. doi:10.2305/IUCN.UK.2021-2.RLTS.T14261A22070543.en. Retrieved 22 November 2021.
  2. ^ Kennedy, Martyn; Paterson, Adrian M.; Morales, Juan Carlos; Parsons, Stuart; Winnington, Andrew P.; Spencer, Hamish G. (November 1999). "The Long and Short of It: Branch Lengths and the Problem of Placing the New Zealand Short-Tailed Bat, Mystacina". Molecular Phylogenetics and Evolution. 13 (2): 405–416. doi:10.1006/mpev.1999.0660. ISSN 1055-7903. PMID 10603267.
  3. ^ Jones Jr, J Knox; Carter, Dilford C (1976). "Annotated checklist, with keys to subfamilies and genera. Biology of bats of the new world family Phyllostomidae, part I." Lubbock: Museum Texas Tech. University. 10: 7–38. doi:10.5962/BHL.TITLE.142603. S2CID 83452376.
  4. ^ Kirsch, John A. W.; Hutcheon, James M.; Byrnes, Deanna G. P.; Lloyd, Brian D. (1998). "Affinities and Historical Zoogeography of the New Zealand Short-Tailed Bat, Mystacina tuberculata Gray 1843, Inferred from DNA-Hybridization Comparisons". Journal of Mammalian Evolution. 5 (1): 33–64. doi:10.1023/A:1020519019830. S2CID 23809083.
  5. ^ "Short-tailed bat". www.doc.govt.nz. Retrieved 2021-12-25.
  6. ^ a b c d Carter, Gerald G.; Riskin, Daniel K. (2006-05-24). "Mystacina tuberculata". Mammalian Species (790): 1–8. doi:10.1644/790.1. ISSN 0076-3519. S2CID 198122536.
  7. ^ Hand, Suzanne J.; Beck, Robin M. D.; Archer, Michael; Simmons, Nancy B.; Gunnell, Gregg F.; Scofield, R. Paul; Tennyson, Alan J. D.; De Pietri, Vanesa L.; Salisbury, Steven W.; Worthy, Trevor H. (2018-01-10). "A new, large-bodied omnivorous bat (Noctilionoidea: Mystacinidae) reveals lost morphological and ecological diversity since the Miocene in New Zealand". Scientific Reports. 8 (1): 235. Bibcode:2018NatSR...8..235H. doi:10.1038/s41598-017-18403-w. ISSN 2045-2322. PMC 5762892. PMID 29321543.
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  13. ^ Norberg, Ulla M.; Rayner, J. M. V.; Lighthill, Michael James (1987-09-16). "Ecological morphology and flight in bats (Mammalia; Chiroptera): wing adaptations, flight performance, foraging strategy and echolocation". Philosophical Transactions of the Royal Society of London. B, Biological Sciences. 316 (1179): 335–427. Bibcode:1987RSPTB.316..335N. doi:10.1098/rstb.1987.0030.
  14. ^ Czenze, Zenon J.; Brigham, R. Mark; Hickey, Anthony J. R.; Parsons, Stuart (January 2017). "Cold and alone? Roost choice and season affect torpor patterns in lesser short-tailed bats". Oecologia. 183 (1): 1–8. Bibcode:2017Oecol.183....1C. doi:10.1007/s00442-016-3707-1. hdl:10294/8901. ISSN 0029-8549. PMID 27561779. S2CID 37006674.
  15. ^ Geiser, F.; Brigham, R. M. (2000-03-01). "Torpor, thermal biology, and energetics in Australian long-eared bats (Nyctophilus)". Journal of Comparative Physiology B. 170 (2): 153–162. doi:10.1007/s003600050270. ISSN 1432-136X. PMID 10791575. S2CID 5775476.
  16. ^ a b Jones, Gareth; Webb, Peter I.; Sedgeley, Jane A.; O'Donnell, Colin F. J. (2003-12-01). "Mysterious Mystacina: how the New Zealand short-tailed bat(Mystacina tuberculata) locates insect prey". Journal of Experimental Biology. 206 (23): 4209–4216. doi:10.1242/jeb.00678. ISSN 0022-0949. PMID 14581591. S2CID 36430937.
  17. ^ a b Daniel, M. J. (1976-12-01). "Feeding by the short-tailed bat (Mystacina tuberculata) on fruit and possibly nectar". New Zealand Journal of Zoology. 3 (4): 391–398. doi:10.1080/03014223.1976.9517927. ISSN 0301-4223.
  18. ^ Cummings, G.; Anderson, S.; Dennis, T.; Toth, C.; Parsons, S. (2014). "Competition for pollination by the lesser short-tailed bat and its influence on the flowering phenology of some New Zealand endemics". Journal of Zoology. 293 (4): 281–288. doi:10.1111/jzo.12147. ISSN 1469-7998.
  19. ^ Goldberg, Julia; Trewick, Steven A; Paterson, Adrian M (2008-10-27). "Evolution of New Zealand's terrestrial fauna: a review of molecular evidence". Philosophical Transactions of the Royal Society B: Biological Sciences. 363 (1508): 3319–3334. doi:10.1098/rstb.2008.0114. PMC 2607375. PMID 18782728.
  20. ^ Riskin, Daniel K.; Parsons, Stuart; Schutt, William A. Jr; Carter, Gerald G.; Hermanson, John W. (2006-05-01). "Terrestrial locomotion of the New Zealand short-tailed bat Mystacina tuberculata and the common vampire bat Desmodus rotundus". Journal of Experimental Biology. 209 (9): 1725–1736. doi:10.1242/jeb.02186. ISSN 0022-0949. PMID 16621953. S2CID 18305396.
  21. ^ Czenze, Zenon; Thurley, Tertia (February 2021). "Dactylanthus flower visitation by New Zealand lesser short-tailed bats appears to be influenced by daily rainfall". New Zealand Journal of Ecology. doi:10.20417/nzjecol.45.8. ISSN 0110-6465. S2CID 231983713.
  22. ^ Simmons, James A.; Stein, Roger A. (1980). "Acoustic imaging in bat sonar: Echolocation signals and the evolution of echolocation". Journal of Comparative Physiology A. 135 (1): 61–84. doi:10.1007/bf00660182. ISSN 0340-7594. S2CID 20515827.
  23. ^ Parsons, Stuart (January 1998). "The effect of recording situation on the echolocation calls of the New Zealand lesser short-tailed bat(Mystacina tuberculataGray)". New Zealand Journal of Zoology. 25 (2): 147–156. doi:10.1080/03014223.1998.9518145. ISSN 0301-4223.
  24. ^ a b Collier, K. (2020). Attributes of Social Organisation and Male Singing Behaviour in the Lesser Short-Tailed Bat, Mystacina tuberculata (Doctoral dissertation, ResearchSpace@ Auckland).
  25. ^ a b Toth, Cory A.; Dennis, Todd E.; Pattemore, David E.; Parsons, Stuart (2015). "Females as mobile resources: communal roosts promote the adoption of lek breeding in a temperate bat". Behavioral Ecology. 26 (4): 1156–1163. doi:10.1093/beheco/arv070. ISSN 1045-2249.
  26. ^ Searchfield, D. (January 2016). "First breeding and hand rearing of the New Zealand lesser short-tailed bat Mystacina tuberculata at Auckland Zoo". International Zoo Yearbook. 50 (1): 165–173. doi:10.1111/izy.12121. ISSN 0074-9664.
  27. ^ Dammann, Philip (October 2017). "Slow aging in mammals—Lessons from African mole-rats and bats". Seminars in Cell & Developmental Biology. 70: 154–163. doi:10.1016/j.semcdb.2017.07.006. ISSN 1084-9521. PMID 28698112.
  28. ^ O'Donnell, C. (2020-10-15). "Mystacina tuberculata". The IUCN Red List of Threatened Species 2021. doi:10.2305/iucn.uk.2021-2.rlts.t14261a22070543.en. S2CID 239146418. {{cite journal}}: Cite journal requires |journal= (help)
  29. ^ King, Carolyn M.; Foster, Stacey; Miller, Steven (2011-06-23). "Invasive European rats in Britain and New Zealand: same species, different outcomes". Journal of Zoology. 285 (3): 172–179. doi:10.1111/j.1469-7998.2011.00827.x. ISSN 0952-8369.
  30. ^ Scrimgeour, J; Beath, A; Swanney, M (September 2012). "Cat predation of short-tailed bats (Mystacina tuberculata rhyocobia) in Rangataua Forest, Mount Ruapehu, Central North Island, New Zealand". New Zealand Journal of Zoology. 39 (3): 257–260. doi:10.1080/03014223.2011.649770. ISSN 0301-4223. S2CID 84907680.
  31. ^ Adepoju, Kayode Adewale; Salami, Ayobami T. (2017-10-25). "Geospatial Assessment of Forest Fragmentation and its Implications for Ecological Processes in Tropical Forests". Journal of Landscape Ecology. 10 (2): 19–34. doi:10.1515/jlecol-2017-0002. ISSN 1805-4196. S2CID 89729777.
  32. ^ Molloy, Janice (1995). Bat (Peka peka) recovery plan (Mystacina, Chalinolobus). M. J. Daniel, New Zealand. Threatened Species Unit. Wellington, N.Z.: Threatened Species Unit, Dept. of Conservation. ISBN 0-478-01570-4. OCLC 154583004.

February 16, 2024
zealand, lesser, short, tailed, mystacina, tuberculata, small, sized, omnivorous, mammal, endemic, islands, zealand, extant, three, overall, terrestrial, mammal, species, unique, zealand, closest, relative, zealand, greater, short, tailed, robusta, last, seen,. The New Zealand lesser short tailed bat Mystacina tuberculata is a small sized omnivorous mammal endemic to the islands of New Zealand It is one of two extant and three overall terrestrial mammal species unique to New Zealand Its closest relative the New Zealand greater short tailed bat M robusta was last seen in 1965 and is presumed extinct due to intense predation from ship rats introduced in the last few centuries These bats are also commonly referred to as pekapeka their Maori language name Lesser short tailed bats have unique adaptations that differentiate them from bats found in other parts of the world For example they are fully capable of moving along the ground to search for food and the males sing to attract partners taking turns to do so Lesser short tailed bats are a vulnerable species so extensive conservation work and research are being done to prevent extinction Lesser short tailed batConservation statusVulnerable IUCN 3 1 1 Scientific classificationDomain EukaryotaKingdom AnimaliaPhylum ChordataClass MammaliaOrder ChiropteraFamily MystacinidaeGenus MystacinaSpecies M tuberculataBinomial nameMystacina tuberculataGray 1843SubspeciesM t tuberculataM t aupouricaM t rhyacobiaKey Range of M t aupourica Range of M t rhyacobia Range of M t tuberculata Contents 1 Taxonomy and evolution 1 1 Taxonomic classification 1 2 Evolutionary history 2 Distribution and range 3 Anatomy and physiology 3 1 Torpor 4 Foraging and diet 4 1 Preferred foods 4 2 Foraging methods 4 3 Echolocation 5 Life cycle and social systems 5 1 Social systems and mating behaviour 5 2 Early life and life cycle 6 Human impacts and conservation 6 1 Threats 6 2 Current conservation plans 7 ReferencesTaxonomy and evolution edit nbsp Illustration of an individualTaxonomic classification edit Mystacina tuberculata are members of the suborder Yangochiroptera and have recently been placed in the superfamily Noctillionoidea They are members of the family Mystacinidae which contains the single genus Mystacina Within Mystacina are the two closely related species M tuberculata and M robusta As it is likely that M robusta has gone extinct M tuberculata is the only confirmed extant species within the genus and the family The placement of this species within taxonomies and phylogenetic trees was previously a hotly debated topic The current standing within the superfamily Noctillionoidea is the result of DNA sequencing and analysis 2 In opposition to this some scientists believe physical similarities indicate Mystacinidae falls under the superfamily Vespertilionoidea 3 The phylogenetic position of this species has had a variety of other suggested propositions including within the Phyllostomidae Leaf nosed bats or the Emballonuridae sac winged and sheath tailed bats 4 While this species is considered to have subspecies some sources refer to the species as one unit The New Zealand Department of Conservation recognises three subspecies These are divided by the region each inhabits northern Mystacina tuberculata aupourica central Mystacina tuberculata rhyacobi and southern Mystacina tuberculata tuberculata 5 Evolutionary history edit It has been suggested that the Mystacinidae originated on the Australian continent 6 and that the superfamily Noctillionoidea originated on Gondwana 7 When Gondwana split into smaller continents the superfamily members became geographically isolated This isolation led to millions of years of unique evolutionary history for each family It has been estimated that Mystacinidae first became a distinct family between 68 and 35 million years ago 8 Twenty million years ago two genera emerged from the family Mystacina and Icarops Fossils of Icarops have been found throughout Australia indicating the now extinct species was once well dispersed there 8 It is unknown when the species within this genera I aenae I breviceps and I paradox became extinct Mystacina migrated from Australia to New Zealand settling as the first mammals on these islands Based on fossil evidence this genus was definitely in New Zealand during the Miocene 9 Therefore we know that Mystacina became a distinct genus around 20 million years ago and travelled from Australia to New Zealand anywhere from approximately 5 3 20 million years ago citation needed This assumes that Icarops did not migrate to New Zealand and that the colonisation event occurred after the genera became distinct It is unclear when M tuberculata and M robusta became distinct species Distribution and range editLesser short tailed bats have been found in a few populations dispersed around the country There are populations on both of the main islands as well as various surrounding islands There are a few key populations currently known There is one on Little Barrier Island Hauturu one near the top of the North Island seven in the central area of the North Island and one on the south eastern side of the North Island There are at least two on the mainland of the South Island and one on Codfish island further south 10 The bats can live at a wide range of altitudes from sea level to high up among the forest covered mountains 6 M tuberculata prefer to live in untouched forest settings However they have been reported in various habitats such as farmland and shrubland 11 Anatomy and physiology editThe lesser short tailed bats appear similar to their microbat relatives They are small in size and typically weigh between 12 and 15 grams 0 42 and 0 53 oz once fully grown 12 They have relatively large ears compared to their head and body sizes which face forward to assist with echolocation Lesser short tailed bats also have relatively large nostrils that face outwards allowing these animals to use olfaction to guide their movements Their eyes are small and their vision is relatively weak justifying their reliance on sound and olfactory senses citation needed These features are common throughout Chiroptera Their wings are relatively smaller than those of other bat species Because of this they have reduced agility and cannot fly as fast 13 Despite this they are still very capable of flight just less so than other bat species Each bat is covered in a layer of thick fur that ranges in colour from light brown to dark brown The underbelly is typically a lighter colour than the rest of the body At the posterior end of their bodies are short yet strong hindlegs useful in their terrestrial locomotion The relatively short stubby tails are what gives this species its common name At the top centre of each forelimb the thumb extends outwards This as well as their toes are equipped with nails referred to as basal talons Having distinct talons further enables movement along the ground and are useful when climbing trees 12 Basal talons are not seen in other Chiropteran species Torpor edit One of the key adaptations the lesser short tailed bats have is entering a state of torpor Torpor allows for continued survival during periods of physiological stress such as when the air temperature drops during winter During this state the bats are inactive and only essential body functions are operating to reduce energy expenditure Entering torpor slows the body s metabolic rate down yet it is different from hibernation as the periods are much shorter and repetitive The duration of torpor is usually a few to several hours at a time and the bats will enter this state several times within a season Torpor is utilised throughout the year but in particular during winter where they also enter into this state for longer each time 14 15 Foraging and diet editPreferred foods edit nbsp Huhu beetleNew Zealand lesser short tailed bats are omnivores Their diet consists of various food items typically including insects other small invertebrates fruit and flower parts 16 In general they prefer to consume insects when possible One study found traces of moths spiders and huhu beetles present in their guano 17 Another study found that these bats are capable of consuming half their body weight in moths 12 An average body weight of 12 to 15 grams 0 42 to 0 53 oz equates to 6 to 7 5 grams 0 21 to 0 26 oz of moths eaten per day The bats consume include nectar and pollen the latter of which is believed to provide them with protein 12 However there has been speculation and debate on whether the bats consume the pollen intentionally or if the pollen found in their guano was actually ingested by their prey 17 Nectar is consumed as the sugars provide a good uncomplicated source of energy Lesser short tailed bats are an important pollinator species within New Zealand through their consumption of flowers either by ingestion or secondarily through their prey Researchers found that these bats will carry large quantities of pollen from a select few plant species such as Collospermum microspermum and Dactylanthus taylorii the Wood rose 18 Ensuring conservation of the lesser short tailed bats may also ensure conservation of the plant species they pollinate Foraging methods edit One of the defining features of New Zealand lesser short tailed bats is their ability to forage both in the air and on the ground Their ability to forage on the ground is unusual for a bat species However New Zealand s early geographic separation around 80 million years ago 19 meant the islands developed free from predators Without predators the lesser short tailed bat evolved to survive in both aerial and ground habitats Like other bats in the air they catch food by using echolocation to detect the location of prey The lesser short tailed bats forage on the ground by moving around on their limbs sourcing prey by using olfaction 16 The species has several adaptations that aid in their search for food on the ground For example when on the ground individuals will fold in their wings to utilise them as forelimbs all four limbs in quadrupedal locomotion In addition they have talons specialised in helping them dig down among leaf litter and dirt layers for prey 12 While moving about terrestrially the bats walk similarly to other four legged animals 20 New Zealand lesser short tailed bats have an increased sense of smell compared with other bats as seen in their relatively larger and rounder nostrils 6 Although like other bats they are not blind they are not heavily reliant on visual hunting with cues like scent and sound being much more critical Foraging on the ground can be used to dig up insects and spiders collect flowers or fallen fruit and collect other stationary forms of food Foraging in the air is often associated with hunting flying insects such as moths During heavy rain foraging is uncommon and during lighter rain foraging activity increases slightly 21 nbsp Bat using echolocation to hunt preyEcholocation edit Like other microbats these bats employ echolocation when flying 22 Lesser short tailed bats emit sounds in the range of 20 40 kHz Each call lasts between seven and nine milliseconds 23 Echolocation does not work as efficiently while foraging on the ground because the echoes can be disrupted by the forest floor and anything occupying this space Another reason echolocation does not work when foraging on the ground is that the echoes bouncing back can interrupt the new echoes being sent out causing confusion for the animal and preventing the system from working correctly This issue does not occur when the bats are mid air as the sound has more distance to travel and fewer objects could disrupt the signal or cause confusion citation needed Life cycle and social systems editSocial systems and mating behaviour edit Lesser short tailed bats form fission fusion societies This means populations will congregate at certain times separate and recongregate later Where these animals group together are known as roosts For roosting they prefer to find trees with large internal cavities where they create their home A roosting site will contain multiple trees within the same general vicinity The number of individuals present at a roosting site vary greatly with some colonies consisting of hundreds or thousands of individual bats 24 Male bats attempt to attract a mate during the spring and summer months before mating begins which is usually during autumn March May in New Zealand Like many other species the males attract mates at night by using vocal calls The males will sing from one of the roosting trees within the colony for several minutes Multiple males will aggregate at this same roost taking turns singing 24 This behaviour is classified as a lek breeding system In this type of mating sexual selection occurs as the males signal to potential females in the hopes they will be impressed and mate with the male Lek breeding is how the male bats prove their worth The mating events that follow are non monogamous and males have been observed to mate with multiple different females 25 While lek breeding systems are observed throughout the animal kingdom they are rare in bats and have only been observed in one other species Early life and life cycle edit nbsp Lesser short tailed bats roostingLesser short tailed bat pups become active within a day of being born For the first two days they are hairless with underdeveloped teeth wings and ears 12 26 The pups are capable of flying within roughly four weeks Six weeks post birth they leave the maternity roosts they were raised in After a few months they have reached their adult body size 6 The pups are born in summer December February in New Zealand During this summer birthing period the dispersed individuals will regroup forming a large colony Pups will feed first on milk produced by their mothers Each mother will give birth to a single pup per season The result of this is higher maternal investment per offspring however the non monogamous mating system results in low paternal investment The pups are raised in special sections of the colony s roosting site dedicated to maternal activities Other female bats will group at these maternal roosts and aid in the rearing of pups citation needed There are no records of the average lifespan of lesser short tailed bats Other bats within the suborder Yangochiroptera have been observed to live for upwards of thirty years which is unexpected for their small body sizes 27 During spring summer male bats attract a female mate These pairs will mate during autumn During autumn and winter the bats will disperse into smaller colony groups while the female bats are pregnant Then when it becomes summer again the bats regroup into a larger colony and the pups are born Around autumntime the pups have reached physical maturity It is unclear at what age they reach sexual maturity citation needed Human impacts and conservation editThreats edit Currently NZ lesser short tailed bats are classified as Vulnerable by the IUCN with the number of individuals observed as declining over time 28 The introduction of mammalian predators has had a massive impact on the species numbers Since the colonisation of New Zealand and the introduction of three key rat species the endemic bat populations have experienced a reduction in numbers Polynesian rats R exulans were one of the bat s main predators up until the 19th century when the introduction of the black rat R rattus and the brown rat R norvegicus led to heavier predation 29 Before mammalian predators colonised New Zealand the lesser short tailed bat was preyed on by predatory birds such as the laughing owl 11 Another common predator of these bats are common house cats which will catch the bats as they fly out of their roosting sites The bat roosts are very vulnerable as they contain more potential prey within a single area If these roosts were found by a predator they could experience mass mortality events in one incident 102 lesser short tailed bat deaths were caused by a single house cat in central North Island 30 nbsp Department of Conservation New ZealandAnother cause for their decline is increased use of the land for anthropogenic activities such as logging and agriculture These activities can often result in negative consequences for the local ecosystem such as forest fragmentation 31 For native animals in New Zealand fragmentation poses threats such as reduced genetic diversity However it is possible that the lesser short tailed bats will not be affected by forest fragmentation as the species has been observed to show behavioural plasticity through the ability to change occupy different habitats 25 Current conservation plans edit The current state of conservation for lesser short tailed bats is being managed by the New Zealand Department of Conservation DOC The recovery plan in place since the late 1990s involves a multi pronged approach of different actions to take to prevent this species from further endangerment Some of the detailed actions include creating new bat populations on the various predator free islands around New Zealand surveying the mainlands to identify areas that require extra conservation efforts and potentially creating a captive population 32 References edit O Donnell C 2021 Mystacina tuberculata IUCN Red List of Threatened Species 2021 e T14261A22070543 doi 10 2305 IUCN UK 2021 2 RLTS T14261A22070543 en Retrieved 22 November 2021 Kennedy Martyn Paterson Adrian M Morales Juan Carlos Parsons Stuart Winnington Andrew P Spencer Hamish G November 1999 The Long and Short of It Branch Lengths and the Problem of Placing the New Zealand Short Tailed Bat Mystacina Molecular Phylogenetics and Evolution 13 2 405 416 doi 10 1006 mpev 1999 0660 ISSN 1055 7903 PMID 10603267 Jones Jr J Knox Carter Dilford C 1976 Annotated checklist with keys to subfamilies and genera Biology of bats of the new world family Phyllostomidae part I Lubbock Museum Texas Tech University 10 7 38 doi 10 5962 BHL TITLE 142603 S2CID 83452376 Kirsch John A W Hutcheon James M Byrnes Deanna G P Lloyd Brian D 1998 Affinities and Historical Zoogeography of the New Zealand Short Tailed Bat Mystacina tuberculata Gray 1843 Inferred from DNA Hybridization Comparisons Journal of Mammalian Evolution 5 1 33 64 doi 10 1023 A 1020519019830 S2CID 23809083 Short tailed bat www doc govt nz Retrieved 2021 12 25 a b c d Carter Gerald G Riskin Daniel K 2006 05 24 Mystacina tuberculata Mammalian Species 790 1 8 doi 10 1644 790 1 ISSN 0076 3519 S2CID 198122536 Hand Suzanne J Beck Robin M D Archer Michael Simmons Nancy B Gunnell Gregg F Scofield R Paul Tennyson Alan J D De Pietri Vanesa L Salisbury Steven W Worthy Trevor H 2018 01 10 A new large bodied omnivorous bat Noctilionoidea Mystacinidae reveals lost morphological and ecological diversity since the Miocene in New Zealand Scientific Reports 8 1 235 Bibcode 2018NatSR 8 235H doi 10 1038 s41598 017 18403 w ISSN 2045 2322 PMC 5762892 PMID 29321543 a b Hand Suzanne Archer Michael Godthelp Henk 2005 05 01 Australian Oligo Miocene Mystacinids Microchiroptera upper dentition new taxa and divergence of New Zealand species Geobios 38 3 339 352 doi 10 1016 j geobios 2003 11 005 ISSN 0016 6995 Tennyson Alan J D 2010 The origin and history of New Zealand s terrestrial vertebrates New Zealand Journal of Ecology 34 1 6 27 ISSN 0110 6465 JSTOR 24060711 Lloyd Brian D 2003 The demographic history of the New Zealand short tailed bat Mystacina tuberculata inferred from modified control region sequences Molecular Ecology 12 7 1895 1911 doi 10 1046 j 1365 294X 2003 01879 x ISSN 1365 294X PMID 12803640 S2CID 33906414 a b Lloyd B D 2001 03 01 Advances in New Zealand mammalogy 1990 2000 Short tailed bats Journal of the Royal Society of New Zealand 31 1 59 81 doi 10 1080 03014223 2001 9517639 ISSN 0303 6758 S2CID 129564107 a b c d e f Daniel M J 1979 04 01 The New Zealand short tailed bat Mystacina tuberculata a review of present knowledge New Zealand Journal of Zoology 6 2 357 370 doi 10 1080 03014223 1979 10428375 ISSN 0301 4223 Norberg Ulla M Rayner J M V Lighthill Michael James 1987 09 16 Ecological morphology and flight in bats Mammalia Chiroptera wing adaptations flight performance foraging strategy and echolocation Philosophical Transactions of the Royal Society of London B Biological Sciences 316 1179 335 427 Bibcode 1987RSPTB 316 335N doi 10 1098 rstb 1987 0030 Czenze Zenon J Brigham R Mark Hickey Anthony J R Parsons Stuart January 2017 Cold and alone Roost choice and season affect torpor patterns in lesser short tailed bats Oecologia 183 1 1 8 Bibcode 2017Oecol 183 1C doi 10 1007 s00442 016 3707 1 hdl 10294 8901 ISSN 0029 8549 PMID 27561779 S2CID 37006674 Geiser F Brigham R M 2000 03 01 Torpor thermal biology and energetics in Australian long eared bats Nyctophilus Journal of Comparative Physiology B 170 2 153 162 doi 10 1007 s003600050270 ISSN 1432 136X PMID 10791575 S2CID 5775476 a b Jones Gareth Webb Peter I Sedgeley Jane A O Donnell Colin F J 2003 12 01 Mysterious Mystacina how the New Zealand short tailed bat Mystacina tuberculata locates insect prey Journal of Experimental Biology 206 23 4209 4216 doi 10 1242 jeb 00678 ISSN 0022 0949 PMID 14581591 S2CID 36430937 a b Daniel M J 1976 12 01 Feeding by the short tailed bat Mystacina tuberculata on fruit and possibly nectar New Zealand Journal of Zoology 3 4 391 398 doi 10 1080 03014223 1976 9517927 ISSN 0301 4223 Cummings G Anderson S Dennis T Toth C Parsons S 2014 Competition for pollination by the lesser short tailed bat and its influence on the flowering phenology of some New Zealand endemics Journal of Zoology 293 4 281 288 doi 10 1111 jzo 12147 ISSN 1469 7998 Goldberg Julia Trewick Steven A Paterson Adrian M 2008 10 27 Evolution of New Zealand s terrestrial fauna a review of molecular evidence Philosophical Transactions of the Royal Society B Biological Sciences 363 1508 3319 3334 doi 10 1098 rstb 2008 0114 PMC 2607375 PMID 18782728 Riskin Daniel K Parsons Stuart Schutt William A Jr Carter Gerald G Hermanson John W 2006 05 01 Terrestrial locomotion of the New Zealand short tailed bat Mystacina tuberculata and the common vampire bat Desmodus rotundus Journal of Experimental Biology 209 9 1725 1736 doi 10 1242 jeb 02186 ISSN 0022 0949 PMID 16621953 S2CID 18305396 Czenze Zenon Thurley Tertia February 2021 Dactylanthus flower visitation by New Zealand lesser short tailed bats appears to be influenced by daily rainfall New Zealand Journal of Ecology doi 10 20417 nzjecol 45 8 ISSN 0110 6465 S2CID 231983713 Simmons James A Stein Roger A 1980 Acoustic imaging in bat sonar Echolocation signals and the evolution of echolocation Journal of Comparative Physiology A 135 1 61 84 doi 10 1007 bf00660182 ISSN 0340 7594 S2CID 20515827 Parsons Stuart January 1998 The effect of recording situation on the echolocation calls of the New Zealand lesser short tailed bat Mystacina tuberculataGray New Zealand Journal of Zoology 25 2 147 156 doi 10 1080 03014223 1998 9518145 ISSN 0301 4223 a b Collier K 2020 Attributes of Social Organisation and Male Singing Behaviour in the Lesser Short Tailed Bat Mystacina tuberculata Doctoral dissertation ResearchSpace Auckland a b Toth Cory A Dennis Todd E Pattemore David E Parsons Stuart 2015 Females as mobile resources communal roosts promote the adoption of lek breeding in a temperate bat Behavioral Ecology 26 4 1156 1163 doi 10 1093 beheco arv070 ISSN 1045 2249 Searchfield D January 2016 First breeding and hand rearing of the New Zealand lesser short tailed bat Mystacina tuberculata at Auckland Zoo International Zoo Yearbook 50 1 165 173 doi 10 1111 izy 12121 ISSN 0074 9664 Dammann Philip October 2017 Slow aging in mammals Lessons from African mole rats and bats Seminars in Cell amp Developmental Biology 70 154 163 doi 10 1016 j semcdb 2017 07 006 ISSN 1084 9521 PMID 28698112 O Donnell C 2020 10 15 Mystacina tuberculata The IUCN Red List of Threatened Species 2021 doi 10 2305 iucn uk 2021 2 rlts t14261a22070543 en S2CID 239146418 a href Template Cite journal html title Template Cite journal cite journal a Cite journal requires journal help King Carolyn M Foster Stacey Miller Steven 2011 06 23 Invasive European rats in Britain and New Zealand same species different outcomes Journal of Zoology 285 3 172 179 doi 10 1111 j 1469 7998 2011 00827 x ISSN 0952 8369 Scrimgeour J Beath A Swanney M September 2012 Cat predation of short tailed bats Mystacina tuberculata rhyocobia in Rangataua Forest Mount Ruapehu Central North Island New Zealand New Zealand Journal of Zoology 39 3 257 260 doi 10 1080 03014223 2011 649770 ISSN 0301 4223 S2CID 84907680 Adepoju Kayode Adewale Salami Ayobami T 2017 10 25 Geospatial Assessment of Forest Fragmentation and its Implications for Ecological Processes in Tropical Forests Journal of Landscape Ecology 10 2 19 34 doi 10 1515 jlecol 2017 0002 ISSN 1805 4196 S2CID 89729777 Molloy Janice 1995 Bat Peka peka recovery plan Mystacina Chalinolobus M J Daniel New Zealand Threatened Species Unit Wellington N Z Threatened Species Unit Dept of Conservation ISBN 0 478 01570 4 OCLC 154583004 Retrieved from https en wikipedia org w index php title New Zealand lesser short tailed bat amp oldid 1192940259, wikipedia, wiki, book, books, library,

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