Little pied bat | |
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Conservation status | |
Near Threatened (IUCN 3.1) | |
Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Chordata |
Class: | Mammalia |
Order: | Chiroptera |
Family: | Vespertilionidae |
Genus: | Chalinolobus |
Species: | C. picatus |
Binomial name | |
Chalinolobus picatus Gould, 1852 |
The little pied bat (Chalinolobus picatus) is a species of vesper bat in the family Vespertilionidae. It is found only in semi-arid woodlands in eastern Australia.
Description
The little pied bat is the smallest bat of the genus. The coat is a glossy black with a slight grey wash ventrally. Along the sides is a pure white stripe that meets at the pubic area to form a ‘V’. Weighing between 4-8 g. There is no significant difference in appearance between the sexes of the species.
Anatomy and physiology
Little is known about the specifics of the anatomy and physiology of C. picatus.
Skeletal structure
Its bone structure is similar to many other bats, with minor differences that define the species. Its skull is only small, with a braincase breadth of only 7 mm. The supraorbital swellings are not pronounced and there is no median crest on the brain case. The total skull length is about 12 mm. Little pied bats have seven cervical vertebrae, eleven thoracic vertebrae, four lumbar vertebrae and are thought to have three caudal vertebrae that make up the small tail structure. The pelvic girdle bones (ilium, ischium and pubis) are strongly fused, more so than in other mammals. The lower hind limb is composed mainly of the tibia, the fibula being vestigial and fused to the tibia. The hind limb is rotated through 180°, so when walking knees point ventrally. The entire hindlimb is capable of a wide angle rotation, allowing a complete 360° turn when hanging. The toes of this hind limb have claws that are extremely strong and laterally compressed. A tendon that runs through cartilaginous rings attached to the phalange allow an automatic locking system. The weight of the bat keeps the tendon taught, and hence the toes gripping when hanging, so the bat may sleep without falling from its roost. The uropatagium, the flap of skin that extends between the back legs and tail is supported by the calcaneum bone, which is located near the ankle. The forelimb bones are all elongated, with the degree of elongation increasing the farther the bones are from the body. The ulna is vestigial and fused to the radius. The forearm commonly between 31 and 33 mm in length. The thumb is not overly enlarged but is capable of free movement. The wrist is highly flexible. The fusing of the radius and ulna allow for strength to hold up the wing. The bones of the wing are controlled by a single muscle for each action. At the elbow, there is a small bone called the ulna sesamoid, it is similar to the patella.
Circulatory system
Bats have a four-chambered heart, similar to that of other mammals. It can be 0.6–1.3% of the bats' body weight. For more information refer to Circulatory System.
Habitat and distribution
It is known to range from north-western and south-western New South Wales, central and southern Queensland, eastern South Australia and north-western Victoria. However, they are only in a few large remnants of habitat that remain in these areas. Some specific places the little pied bat can be found include Willandra lakes NSW, Idalia National Park QLD, Sturt National Park NSW, Gluepot Reserve SA and Yarrara Flora and Fauna Reserve VIC. It often roosts in tree hollows of the various bushland trees of NSW and QLD such as semi-arid tall shrublands and vine forests, however, are often found in Eucalypt and Acacia open woodlands. The little pied bat is also found in abandoned buildings around these types of habitats. The colonies of little pied bats can range from a few individuals to 50 bats. Each bat generation is between 3–5 years. The population is decreasing.
Diet
It eats insects such as moths, beetles, wingless ants, cockroaches, stoneflies, katydids, crickets, cicadas, spiders, flies, termites and grasshoppers. They hunt mainly in the low and midrange areas of the canopy.
Behaviour
There is little known about its behaviour, especially roosting behaviour and mating tactics. Further research is required in this area. It is presumed they are similar to most bats, having breeding seasons and nocturnal, thought they have been spotted during daylight.
Evolution and taxonomy
Taxonomy
It is a part of the genus Chalinolobus of the family Vespertilionidae. It shares this genus with six other bat species: C. dwyeri, C. gouldii, C. morio, C. gouldii, C. nigrogriseus and C. tuberculatus.
Evolution
It is thought that the genus Glauconycteris, commonly known as African butterfly bats, are closely related to the genus Chalinolobus in Australia. If you refer to the ‘Classification and evolution’ section of Bats, the relationship of the order is shown.
Echolocation
The little pied bat hunts and perceives its surrounding by emitting short pulses of high frequency sounds and interpreting the returning echoes. This technique is a unique adaptation called echolocation in 1944. A call sequence consists of a train of pulses, with the gaps between each pulse controlled by the bat. The call can vary due to behaviour, age, sex or hunting strategy. Different bat species will emit different calls, and this is thought to be a reflection of their morphology and habitat use. The little pied bat uses pulses with an sR shape pulse, refer to image on the left 'Echolocation Shapes of bats'.
Health and zoonoses
There are many diseases bats can contract in the QLD and NSW regions. These diseases can also be transferred to Humans (zoonoses). There are two main diseases in bats that can transfer to humans and thought to be carried by the little pied bat.
Australian bat lyssavirus
Australian bat lyssavirus (ABLV) was identified in 1996. It has been found in many fruit bats and only one insect-eating microbat. The chances of the little pied bat contracting the disease is slim, however still possible and after blood test of many bats, evidence shows any bat in Australia can carry the virus. Since the virus was discovered, three people have dies from contracting ABLV. ABVL is closely, but not identical, to the rabies virus. The virus is transmitted via bites, scratches or any other body fluids, for example mucous membrane exposure in the eyes. ABLV infection in humans causes a serious illness which results in paralysis, delirium, convulsions and death. Death is usually due to respiratory paralysis. There is no specific treatment for ABLV. Cleansing properly of the wound will reduce the risk of infection.
Hendra virus
The natural hosts for Hendra virus are fruit bats. However Hendra virus has been found in dogs, so there is a possibility of other bats carrying the disease. It is most commonly transmitted to horses by ingesting the faecal matter of bats. Hendra was discovered in 1994 after a large racing stable had an outbreak of sick horses. Since this time, over 60 horses have been infected and either died or were euthanised. Whilst many humans have been exposed to Hendra virus infected horses and not contracted the virus, several have, most of them veterinarians, four of whom died. features may include difficulty breathing and/or weakness and neurological signs such as uncoordinated gait and muscle twitching, quickly leading to death in most cases. Whilst there is no specific treatment for Hendra, the making of a vaccination is now underway (2013) and will be released within the next few years.
Conservation
The little pied bat is facing population decline and threatened by habitat loss. Clearing for cotton in NSW over the last 50 years has reduced the range of its habitat by 10% and the clearance is ongoing. There is similar habitat loss in QLD however, the effects on the habitat for the little pied bat at this stage in unclear. Roost disturbance, timber harvesting in state forest lands and changing fire regimes are all potential threats to the Little Pied bat. The little pied bat is listed as Near Threatened due to its significant decline, probably due to substantial habitat conversion and range contraction. However, the rates of decline are less than 30% over 3 generations, so they do not qualify for Vulnerable.
References
- Pennay, M. (2020). "Chalinolobus picatus". IUCN Red List of Threatened Species. 2020: e.T4422A21984147. doi:10.2305/IUCN.UK.2020-3.RLTS.T4422A21984147.en. Retrieved 16 November 2021.
- Thompson, T., Shulz, M., Clague, C., Ellis, M. and Young, A. (1999). Little Pied Bat. In: The Action Plan for Australian Bats (A. Duncan, G. B. Baker and N. Montgomery eds.) (Environment Australia, Canberra)
- ^ Ellis, M. & Pennay, M. (2008). "Chalinolobus picatus". IUCN Red List of Threatened Species. 2008: e.T4422A10873953. doi:10.2305/IUCN.UK.2008.RLTS.T4422A10873953.en.
- ^ Ryan, M. (1966) A new and some imperfectly known Australian Chalinolobus and the taxonomic status of African Glauconycteris. American Society of Mammalogists 47(1) 86-91.
- ^ Neuweiler, G. (1993). The Biology of bats. Oxford University Press
- ^ Young, R. A.; Ford, G. I. (2000). "Bat fauna of a semi-arid environment in central western Queensland, Australia". Wildlife Research. 27 (2): 203–215. doi:10.1071/WR98071.
- ^ Bewsher, S.; De Angelis, D.; Hansen, K. (2019). "The little pied bat Chalinolobus picatus: A confirmed addition to the mammal fauna of Victoria". The Victorian Naturalist. 136: 70–77.
- Radford, J.Q.; Bennett, A.F. (2006). "Factors affecting patch occupancy by the White-browed Treecreeper Climacteris affinis in an agricultural landscape in north-west Victoria, Australia". Pacific Conservation Biology. 12 (3): 195–206. doi:10.1071/PC060195.
- Tidemann, C. R. (2014). "A survey of the mammal fauna of the Willandra Lakes World Heritage region, New South Wales". Australian Zoologist. 24 (4): 197–204. doi:10.7882/AZ.1988.002.
- Pennay, Michael; Freeman, Jade (2005). "Day roost of Little Pied Bat Chalinolobus picatus (Gould) (Microchiroptera: Vespertilionidae) in north inland New South Wales, Australia". Australian Zoologist. 33 (2): 166–167. doi:10.7882/AZ.2005.012.
- Jackson, S. (2003). Australian Mammals: Biology and Captive Management. CSIRO Publishing.
- ^ de Oliveira, Maritza Carla (2014). "Towards standardized descriptions of the echolocation calls of microchiropteran bats: pulse design terminology for seventeen species from Queensland". Australian Zoologist. 30 (4): 405–411. doi:10.7882/AZ.1998.006.
- "Topic: Australian Bat Lyssavirus". Queensland Government. 2013. Archived from the original on 2013-04-20. Retrieved 2013-06-05.
- "Topic: Hendra Virus Infection". Queensland Government. 2009. Archived from the original on 2009-10-13. Retrieved 2009-09-04.
Taxon identifiers | |
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Chalinolobus picatus |