Free Standard AU & NZ Shipping For All Book Orders Over $80!
Register      Login
Wildlife Research Wildlife Research Society
Ecology, management and conservation in natural and modified habitats
RESEARCH ARTICLE

Timing of breeding and female fecundity of the greater bilby (Macrotis lagotis) in the temperate zone of South Australia: implications for translocations of a previously widespread species

Karleah K. Berris https://orcid.org/0000-0002-7223-8902 A E , Steven J. B. Cooper B C , William G. Breed A and Susan M. Carthew D
+ Author Affiliations
- Author Affiliations

A School of Biological Sciences, University of Adelaide, Adelaide, SA 5005, Australia.

B Evolutionary Biology Unit, South Australian Museum, Adelaide, SA 5000, Australia.

C Australian Centre for Evolutionary Biology and Biodiversity, School of Biological Sciences, University of Adelaide, Adelaide, SA 5005, Australia.

D Research Institute for Environment and Livelihoods, Charles Darwin University, Casuarina, NT 0909, Australia.

E Corresponding author. Email: karleah.trengove@gmail.com

Wildlife Research 46(5) 444-453 https://doi.org/10.1071/WR18159
Submitted: 10 October 2018  Accepted: 15 May 2019   Published: 18 July 2019

Abstract

Context: Many of Australia’s threatened mammals were once widespread across the continent and present in both arid, semiarid and temperate habitats. However, data on breeding biology can be lacking for some climatic regions due to local extinctions of populations. The breeding biology of the greater bilby (Macrotis lagotis) has previously only been studied in captive colonies or free-ranging arid zone populations. Between 1997 and 2005, captive-bred bilbies were released at two sites in temperate South Australia. These populations provided an opportunity to determine whether bilbies adopt a seasonal reproductive strategy in the temperate zone, where this species has not been present since the early 1900s.

Aims: To determine the season of births, litter size and female reproductive potential in two free-ranging populations of the bilby in the temperate zone of South Australia.

Methods: Bilbies were regularly cage-trapped at Venus Bay Conservation Park and Thistle Island between August 2007 and April 2010 to obtain data on reproductive activity in both populations.

Key results: Births of pouch young in both populations occurred in winter (June–August), spring and early summer, but not between February and mid-May. Males had a significantly smaller mean testes size relative to head length in late summer, when breeding activity ceased. Average litter size at pouch emergence was between 1.00 and 1.47 pouch young, with females producing up to three litters per annum. The mean head length of females that successfully raised twins was significantly larger than that of females who raised a single pouch young.

Conclusions: The seasonal breeding pattern observed in the present study differs from that of year-round reproductive activity in captivity and the arid zone. The present study suggests that female body size influences fecundity, and that releasing large females at the start of the breeding season in temperate areas may maximise the initial rate of increase of a translocated bilby population.

Implications: The present study suggests previously widespread species such as the bilby can adapt their reproductive strategy to suit local conditions. Cessation of breeding in autumn, as observed in this study, has also been observed in other bandicoot species in southern Australia.

Additional keywords: Marsupialia, reintroduction, reproduction, seasonality.


References

Atlas of Living Australia (2018). Available at http://www.ala.org.au [verified 2 October 2018].

Bradley, K., Lees, C., Lundie-Jenkins, G., Copley, P., Paltridge, R., Dziminski, M., Southgate, R., Nally, S., and Kemp, L. (Eds.) (2015). 2015 greater bilby conservation summit and interim conservation plan: an initiative of the Save the Bilby Fund. IUCN SSC Conservation Breeding Specialist Group, Apple Valley, MN.

Campbell, I. (2007). Chi-squared and Fisher–Irwin tests of two-by-two tables with small sample recommendations. Statistics in Medicine 26, 3661–3675.
Chi-squared and Fisher–Irwin tests of two-by-two tables with small sample recommendations.Crossref | GoogleScholarGoogle Scholar | 17315184PubMed |

Colls, K., and Whitaker, D. (2012). ‘The Australian Weather Book.’ (Reed New Holland: Sydney.)

Department for Environment and Heritage (2006). Venus Bay Conservation Park Management Plan. South Australian Department for Environment and Heritage, Adelaide.

Field, A., Miles, J., and Field, Z. (2012). ‘Discovering Statistics Using R.’ (Sage Publishing: London.)

Finlayson, H. H. (1961). On central Australian mammals. Part IV – the distribution and status of central Australian species. Records of the South Australian Museum 14, 141–191.

Gardner, M. (2017). ‘Statistics for Ecologists using R and Excel.’ (Pelagic Publishing: Exeter, UK.)

Gibson, L. A. (2001). Seasonal changes in the diet, food availability and food preference of the greater bilby (Macrotis lagotis) in south-western Queensland. Wildlife Research 28, 121–134.
Seasonal changes in the diet, food availability and food preference of the greater bilby (Macrotis lagotis) in south-western Queensland.Crossref | GoogleScholarGoogle Scholar |

Gibson, L. A., and Hume, I. D. (2000). Seasonal field energetics and water influx rates of the greater bilby (Macrotis lagotis). Australian Journal of Zoology 48, 225–239.
Seasonal field energetics and water influx rates of the greater bilby (Macrotis lagotis).Crossref | GoogleScholarGoogle Scholar |

Hanna, E., and Cardillo, M. (2013). A comparison of current and reconstructed historic geographic range sizes as predictors of extinction risk in Australian mammals. Biological Conservation 158, 196–204.
A comparison of current and reconstructed historic geographic range sizes as predictors of extinction risk in Australian mammals.Crossref | GoogleScholarGoogle Scholar |

Heinsohn, G. E. (1966). Ecology and reproduction of the Tasmanian bandicoots (Perameles gunnii and Isoodon obesulus). University of California Publications in Zoology 80, 1–107.

Hulbert, A. J. (1972). Growth and development of pouch young in the rabbit-eared bandicoot, Macrotis lagotis, (Peramelidae. Australian Mammalogy 1, 38–39.

Kemper, C. (1990). Status of bandicoots in South Australia. In ‘Bandicoots and Bilbies’. (Eds J. H. Seebeck, P. R. Brown, R. I. Wallis and C. M. Kemper.) pp. 67–72. (Surrey Beatty and Sons: Sydney.)

Lobert, B., and Lee, A. K. (1990). Reproduction and life history of Isoodon obesulus in Victorian heathland. In ‘Bandicoots and Bilbies’. (Eds J. H. Seebeck, P. R. Brown, R. I. Wallis and C. M. Kemper.) pp. 311–318. (Surrey Beatty and Sons: Sydney.)

Lomolino, M. V. (2005). Body size evolution in insular vertebrates: generality of the island rule. Journal of Biogeography 32, 1683–1699.
Body size evolution in insular vertebrates: generality of the island rule.Crossref | GoogleScholarGoogle Scholar |

McCracken, H. E. (1986). Observations on the oestrous cycle and gestation period of the greater bilby, Macrotis lagotis (Reid) (Marsupialia: Thylacomyidae). Australian Mammalogy 9, 5–16.

McCracken, H. E. (1990). Reproduction in the greater bilby, Macrotis lagotis (Reid) – a comparison with other perameloids. In ‘Bandicoots and Bilbies’. (Eds J. H. Seebeck, P. R. Brown, R. I. Wallis and C. M. Kemper.) pp. 199–204. (Surrey Beatty and Sons: Sydney.)

Moseby, K. E., and O’Donnell, E. O. (2003). Reintroduction of the greater bilby, Macrotis lagotis (Reid) (Marsupialia: Thylacomyidae), to northern South Australia: survival, ecology and notes on reintroduction protocols. Wildlife Research 30, 15–27.
Reintroduction of the greater bilby, Macrotis lagotis (Reid) (Marsupialia: Thylacomyidae), to northern South Australia: survival, ecology and notes on reintroduction protocols.Crossref | GoogleScholarGoogle Scholar |

Price-Rees, S. J., Congdon, B. C., and Krockenberger, A. K. (2012). Size delays female senescence in a medium sized marsupial: the effects of maternal traits on annual fecundity in the northern brown bandicoot (Isoodon macrourus). Austral Ecology 37, 313–322.
Size delays female senescence in a medium sized marsupial: the effects of maternal traits on annual fecundity in the northern brown bandicoot (Isoodon macrourus).Crossref | GoogleScholarGoogle Scholar |

Quin, D. G. (1985a). Observations on the diet of the southern brown bandicoot, Isoodon obesulus (Marsupialia: Permelidae), in southern Tasmania. Australian Mammalogy 11, 15–25.

Quin, D. G. (1985b). Aspects of the feeding ecology of the bandicoots, Perameles gunnii (Gray 1838) and Isoodon obesulus (Shaw and Nodder 1797) (Marsupialia: Peramelidae) in southern Tasmania. Honours Thesis: University of Tasmania, Hobart.

R Core Team (2018). R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna. Available at http://www.R-project.org/ [verified 12 September 2018].

Robinson, T., Canty, P., Mooney, T., and Rudduck, P. (1996). ‘South Australia’s Offshore Islands.’ (Australian Government Publishing Services: Canberra.)

Southgate, R. I. (1990a). Distribution and abundance of the greater bilby Macrotis lagotis Reid (Marsupialia: Peramelidae). In ‘Bandicoots and Bilbies’. (Eds J. H. Seebeck, P. R. Brown, R. I. Wallis and C. M. Kemper.) pp. 293–302. (Surrey Beatty and Sons: Sydney.)

Southgate, R. I. (1990b). Habitats and diet of the greater bilby Macrotis lagotis Reid (Marsupialia: Peramelidae). In ‘Bandicoots and Bilbies’. (Eds J. H. Seebeck, P. R. Brown, R. I. Wallis and C. M. Kemper.) pp. 303–309. (Surrey Beatty and Sons: Sydney.)

Southgate, R. I., and Carthew, S. M. (2006). Diet of the bilby (Macrotis lagotis) in relation to substrate, fire and rainfall characteristics in the Tanami Desert. Wildlife Research 33, 507–519.
Diet of the bilby (Macrotis lagotis) in relation to substrate, fire and rainfall characteristics in the Tanami Desert.Crossref | GoogleScholarGoogle Scholar |

Southgate, R. I., and Paltridge, R. (1998). Recovery of the greater bilby Macrotis lagotis. Nature Australia final report for project number 185. (Nature Australia, Biodiversity Group, Endangered Species Program and Feral Pests Program: Melbourne.)

Southgate, R. I., Christie, P., and Bellchambers, K. (2000). Breeding biology of captive, reintroduced and wild greater bilbies, Macrotis lagotis (Marsupialia: Peramelidae). Wildlife Research 27, 621–628.
Breeding biology of captive, reintroduced and wild greater bilbies, Macrotis lagotis (Marsupialia: Peramelidae).Crossref | GoogleScholarGoogle Scholar |

Stoddart, D. M., and Braithwaite, R. W. (1979). A strategy for utilization of regenerating heathland habitat by the brown bandicoot (Isoodon obesulus; Marsupialia, Peramelidae). Journal of Animal Ecology 48, 165–179.
A strategy for utilization of regenerating heathland habitat by the brown bandicoot (Isoodon obesulus; Marsupialia, Peramelidae).Crossref | GoogleScholarGoogle Scholar |

Tyndale-Biscoe, H., and Renfree, M. (1987). ‘Monographs of Marsupial Biology: Reproductive Physiology of Marsupials.’ (Cambridge University Press: London.)

Woinarski, J. C. Z., Burbidge, A. A., and Harrison, P. L. (2015). Ongoing unravelling of a continental fauna: decline and extinction of Australian mammals since European settlement. Proceedings of the National Academy of Sciences of the United States of America 112, 4531–4540.
Ongoing unravelling of a continental fauna: decline and extinction of Australian mammals since European settlement.Crossref | GoogleScholarGoogle Scholar |

Wood Jones, F. (1924). ‘The Mammals of South Australia. Part II.’ (Government Printer: Adelaide.)