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Australian Mammalogy Australian Mammalogy Society
Journal of the Australian Mammal Society
RESEARCH ARTICLE

Monitoring bent-wing bats at Bat Cleft in Central Queensland

John Augusteyn A C , Dennis Matthews B and Samuel Richards A
+ Author Affiliations
- Author Affiliations

A Queensland Parks and Wildlife Service and Partnerships, PO Box 3130, Red Hill, Qld 4701, Australia.

B 37 Second Street, Nuriootpa, SA 5355, Australia.

C Corresponding author. Email: John.Augusteyn@des.qld.gov.au

Australian Mammalogy 44(2) 236-242 https://doi.org/10.1071/AM21010
Submitted: 15 March 2021  Accepted: 24 July 2021   Published: 26 August 2021

Abstract

Undertaking accurate counts is an important part of managing cave-dwelling bats species such as the little bent-wing bat (Miniopterus australis) population at Mt Etna. A thermal camera and automated counting system were trialled to see if the technology would work at Mt Etna with the goal of producing accurate counts of bats. Although the heat radiating from the rock meant that the background at Mt Etna was not perfect, the automated system was able to recognise and count the bats as they emerged. The number of bats emerging from the cave varied from 82 677 in 2017/18 through to 139 783 in 2018/19. These estimates are within the range of those made in the 1960 to 1980s, which suggests that the population is stable, but we are unsure of the accuracy of these previous counts. These results demonstrate that it is possible to obtain accurate counts of reasonably large bat populations such as Bat Cleft and the methodology may have application for other gregarious and nocturnal species whose numbers can be difficult to count at night.

Keywords: capture-mark-recapture, Miniopterus australis, Bat Cleft, bats, thermal camera, population estimate, insectivorous bat, missile tracking, little bent-wing bat, caves, Thermal Target Tracker.


References

Department of Environment, Land, Water and Planning. (2020). ‘National Recovery Plan for the Southern Bent-wing Bat Miniopterus orianae bassanii.’ (Victorian Government: Melbourne.)

Duncan, A., Baker, G. B. and Montgomery, N. (Eds). (1999). ‘The Action Plan for Australian Bats.’ (Environment Australia: Canberra.)

Dwyer, P. D. (1967). Rockhampton Caves Mt Etna and district, a case for conservation; bat populations, University of Queensland Speleological Society Bulletin No 2.

Dwyer, P. D. (1968). The biology, origin, and adaptation of Miniopterus australis (Chiroptera) in New South Wales. Australian Journal of Zoology 16, 49–68.
The biology, origin, and adaptation of Miniopterus australis (Chiroptera) in New South Wales.Crossref | GoogleScholarGoogle Scholar |

Dwyer, P. D. (1970). Mammals in Mt Etna Caves. In ‘Mount Etna caves: a collection of papers covering several aspects of the Mt Etna and Limestone Ridge caves area of central Queensland’. (Eds J. K. Sprent and University of Queensland Speleological Society). pp. 44–64. (University of Queensland Speleological Society: St Lucia, Qld.)

Dwyer, P. D., and Hamilton-Smith, E. (1965). Breeding caves and maternity colonies of the bent-winged bat in south-eastern Australia. Helictite 4, 3–21.

Elliott, W. R., Shiels, D., Colatskie, S., and Dzurick, C. (2011). Gray Bat (Myotis grisescens) Thermal Infrared Monitoring in Missouri, 2008–2011. Jefferson City, MO: Missouri Department of Conservation, Resource Science Division.

Frick, W. F., Kingston, T., and Flanders, J. (2019). A review of the major threats and challenges to global bat conservation. Annals of the New York Academy of Sciences 1469, 5–25.
A review of the major threats and challenges to global bat conservation.Crossref | GoogleScholarGoogle Scholar | 30937915PubMed |

Ganow, K. B., Caire, W., and Matlack, R. S. (2015). Use of thermal imaging to estimate the population sizes of Brazilian free-tailed bat, Tadarida brasiliensis, maternity roosts in Oklahoma. The Southwestern Naturalist 60, 90–96.
Use of thermal imaging to estimate the population sizes of Brazilian free-tailed bat, Tadarida brasiliensis, maternity roosts in Oklahoma.Crossref | GoogleScholarGoogle Scholar |

Gazey, W. J., and Staley, M. J. (1986). Population estimation from mark‐recapture experiments using a sequential Bayes algorithm. Ecology 67, 941–951.
Population estimation from mark‐recapture experiments using a sequential Bayes algorithm.Crossref | GoogleScholarGoogle Scholar |

Hall, L. S. (1975). Bats of Mt Etna. Unpublished report.

Hall, L. S. and Richards, G. C. (1979). Bats of Eastern Australia. Queensland Museum Booklet No. 12: Brisbane.

Hoye, G. A., and Hall, L. S. (2008). Little bent-winged bat Miniopterus australis (Tomes, 1858). In: ‘The Mammals of Australia’. 3rd edn. (Eds S Van Dyck and R Strahan.), pp. 503–504. (Reed New Holland: Chatswood, NSW.)

Melton, R. E., Sabol, B. M., and Sherman, A. (2005). Poor man’s missile tracking technology: thermal IR detection and tracking of bats in flight. Proc. SPIE 5811, Targets and Backgrounds XI: Characterization and Representation, Vol. 5811. pp. 24–33. International Society for Optics and Photonics. 10.1117/12.603785

Mills, D., Pennay, M., and Spate, A. (2010). Monitoring cave bats using thermal imaging and ‘poor mans’ missile tracking software. The Australasian Bat Society Newsletter 35, 22.

Oceanics Australia (1982). Bat Cleft: Its occupation, history and the process of guano deposition within the cave, Unpublished report for Central Queensland Cement.

Robson, D. S., and Regier, H. A. (1964). Sample size in Petersen mark-recapture experiments. Transactions of the American Fisheries Society 93, 215–226.
Sample size in Petersen mark-recapture experiments.Crossref | GoogleScholarGoogle Scholar |

Sabol, B. M., and Hudson, M. K. (1995). Technique using thermal infrared-imaging for estimating populations of gray bats. Journal of Mammalogy 76, 1242–1248.
Technique using thermal infrared-imaging for estimating populations of gray bats.Crossref | GoogleScholarGoogle Scholar |

Sabol, B. M., and Melton, R. E. (2008). Users’ Guide: The Thermal Target Tracker (T3) System (Version 1.0) for Censuring Bats in Flight. Unpublished user guide.

Schorr, R. A., Ellison, L. E., and Lukacs, P. M. (2014). Estimating sample size for landscape-scale mark-recapture studies of North American migratory tree bats. Acta Chiropterologica 16, 231–239.
Estimating sample size for landscape-scale mark-recapture studies of North American migratory tree bats.Crossref | GoogleScholarGoogle Scholar |

Southern Bent-wing Bat National Recovery Team (2020). Submission on the Listing Eligibility and Conservation Actions for Miniopterus orianae bassanii (Southern Bent-wing Bat) 23rd August 2020. Unpublished report.

Tuttle, M. D. (1979). Status, causes of decline, and management of endangered gray bats. The Journal of Wildlife Management 43, 1–17.
Status, causes of decline, and management of endangered gray bats.Crossref | GoogleScholarGoogle Scholar |