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RESEARCH ARTICLE
Contents Vol 38(4)

Refuge site selection by the eastern chestnut mouse in recently burnt heath

F. Pereoglou A C , C. Macgregor A , S. C. Banks A , F. Ford B , J. Wood A and D. B. Lindenmayer A
+ Author Affiliations
- Author Affiliations

A Fenner School of Environment and Society, Australian National University, Canberra, ACT 0200, Australia.

B CSIRO Ecosystem Sciences, Australian National Wildlife Collection, GPO Box 284, Canberra, ACT 2601, Australia.

C Corresponding author. Email: felicia.pereoglou@anu.edu.au

Wildlife Research 38(4) 290-298 https://doi.org/10.1071/WR11007
Submitted: 14 January 2011  Accepted: 28 May 2011   Published: 6 September 2011

Abstract

Context: Temporal reduction in shelter is an indirect primary impact of fire. Removal of animal refugia has implications for shelter site selection and fidelity – factors that have been largely overlooked in studies of Australian rodent fauna. This information is critical for guiding species conservation and appropriate land management including prescribed burning practices.

Aims: We sought to determine which features of burnt heath were selected as shelter sites by the eastern chestnut mouse, whether there was sex and/or seasonal variation in shelter site selection and whether we could identify primary refugia.

Methods: We completed a radio-telemetry study to identify diurnal refuge sites and compare habitat attributes with those of a matched set of control sites. We then used habitat features and fidelity parameters to classify refuge site use.

Key results: We found the eastern chestnut mouse selected shelters with the presence of specific structures and had taller, denser vegetation than randomly selected control sites. There were no differences in habitat selection between the sexes. Shelter sites in the non-breeding season had greater vegetation density compared with those used in the breeding season. In the breeding season, the eastern chestnut mouse showed no evidence of increased fidelity to particular refuges. Vegetation density in winter was the best predictor of a primary refuge compared with whether or not an animal returned to a shelter site or the amount of time spent in a shelter site. Mice were ephemeral and non-gregarious in their refuge use. There was some evidence for inheritance of refuge sites from a parent, as well as inter-season shelter site fidelity.

Conclusions: The eastern chestnut mouse selected refugia that had habitat attributes offering maximum protection. Seasonality in refuge site selection is likely to reflect the reproductive and environmental trade-offs in critical resources during different seasons. The maintenance of multiple, rarely occupied shelters by the eastern chestnut mouse is consistent with data for other mammals.

Implications: Fire management should ensure retention of vegetation structure on the ground layer, dense habitat patches in burned areas, and be carefully planned during the winter season to maintain shelter and refuge sites to assist population persistence.


References

Banks, S. C., Dujardin, M., McBurney, L., Blair, D., Barker, M., and Lindenmayer, D. B. (2011). Starting points for small mammal population recovery after wildfire: recolonisation or residual populations? Oikos 120, 26–37.
Starting points for small mammal population recovery after wildfire: recolonisation or residual populations?Crossref | GoogleScholarGoogle Scholar |

Braithwaite, R. W. (1990). Australia’s unique biota: implications for ecological processes. Journal of Biogeography 17, 347–354.
Australia’s unique biota: implications for ecological processes.Crossref | GoogleScholarGoogle Scholar |

Breed, B., and Ford, F. (2007). ‘Native Mice and Rats.’ (CSIRO Publishing: Melbourne.)

Bubela, T. M., and Happold, D. C. D. (1993). The social organisation and mating system of an Australian sub-alpine rodent, the broad-toothed rat Mastacomys fuscus Thomas. Wildlife Research 20, 405–417.
The social organisation and mating system of an Australian sub-alpine rodent, the broad-toothed rat Mastacomys fuscus Thomas.Crossref | GoogleScholarGoogle Scholar |

Catling, P. C. (1986). Rattus lutreolus, coloniser of heathland after fire in the absence of Pseudomys species. Australian Wildlife Research 13, 127–139.
Rattus lutreolus, coloniser of heathland after fire in the absence of Pseudomys species.Crossref | GoogleScholarGoogle Scholar |

Catling, P. C. (1991). Ecological effects of prescribed burning practices on the mammals of southeastern Australia. In ‘Conservation of Australia’s Forest Fauna’. (Ed. D. Lunney.) pp. 353–363. (Royal Zoological Society of NSW: NSW.)

Cockburn, A. (1981a). Diet and habitat preference of the silky desert mouse Pseudomys apodemoides (Rodentia). Australian Wildlife Research 8, 475–497.
Diet and habitat preference of the silky desert mouse Pseudomys apodemoides (Rodentia).Crossref | GoogleScholarGoogle Scholar |

Cockburn, A. (1981b). Population processes of the silky desert mouse Pseudomys apodemoides (Rodentia) in mature heathlands. Australian Wildlife Research 8, 499–514.
Population processes of the silky desert mouse Pseudomys apodemoides (Rodentia) in mature heathlands.Crossref | GoogleScholarGoogle Scholar |

Cockburn, A., Braithwaite, R. W., and Lee, A. K. (1981). The response of the heath rat, Pseudomys shortridgei, to pyric succession – a temporally dynamic life-history strategy. Journal of Animal Ecology 50, 649–666.
The response of the heath rat, Pseudomys shortridgei, to pyric succession – a temporally dynamic life-history strategy.Crossref | GoogleScholarGoogle Scholar |

Collett, D. (2002). ‘Modelling Binary Data.’ 2nd edn. (Chapman and Hall: London.)

Ebensperger, L. A., Sobrero, R., Campos, V., and Giannoni, S. M. (2008). Activity, range areas, and nesting patterns in the viscacha rat Octomys mimax. Journal of Arid Environments 72, 1174–1183.
Activity, range areas, and nesting patterns in the viscacha rat Octomys mimax.Crossref | GoogleScholarGoogle Scholar |

Fox, B. J. (1982). Fire and mammalian secondary succession in an Australian coastal heath. Ecology 63, 1332–1341.
Fire and mammalian secondary succession in an Australian coastal heath.Crossref | GoogleScholarGoogle Scholar |

Fox, B. J. (1995). Eastern chestnut mouse Pseudomys gracilicaudatus. In ‘The Mammals of Australia’. 2nd edn. (Ed. R. Strahan) pp. 601–3. (Reed: Sydney.)

Fox, B. J., and Monamy, V. (2007). A review of habitat selection by the swamp rat Rattus lutreolus (Rodentia : Muridae). Austral Ecology 32, 837–849.
A review of habitat selection by the swamp rat Rattus lutreolus (Rodentia : Muridae).Crossref | GoogleScholarGoogle Scholar |

Fox, B. J., Taylor, J. E., and Thompson, P. T. (2003). Experimental manipulation of habitat structure: a retrogression of the small mammal succession. Journal of Animal Ecology 72, 927–940.
Experimental manipulation of habitat structure: a retrogression of the small mammal succession.Crossref | GoogleScholarGoogle Scholar |

Frank, P. A., and Layne, J. N. (1992). Nests and daytime refugia of cotton mice (Peromyscus gossypinus) and golden mice (Ochrotomys nuttalli) in south central Florida. American Midland Naturalist 127, 21–30.
Nests and daytime refugia of cotton mice (Peromyscus gossypinus) and golden mice (Ochrotomys nuttalli) in south central Florida.Crossref | GoogleScholarGoogle Scholar |

Friend, G. R. (1993). Impact of fire on small vertebrates in mallee woodlands and heathlands of temperate Australia: a review. Biological Conservation 65, 99–114.
Impact of fire on small vertebrates in mallee woodlands and heathlands of temperate Australia: a review.Crossref | GoogleScholarGoogle Scholar |

Gill, A. M., and Ingwersen, F. (1976). Growth of Xanthorrhoea australis R.Br. in relation to fire. Journal of Applied Ecology 13, 195–203.
Growth of Xanthorrhoea australis R.Br. in relation to fire.Crossref | GoogleScholarGoogle Scholar |

Gray, S. J., Hurst, J. L., Stidworthy, R., Smith, J., Preston, R., and MacDougall, R. (1998). Microhabitat and spatial dispersion of the grassland mouse (Mus spretus Lataste). Journal of Zoology 246, 299–308.
Microhabitat and spatial dispersion of the grassland mouse (Mus spretus Lataste).Crossref | GoogleScholarGoogle Scholar |

Haering, R., and Fox, B. J. (1995). Habitat utilisation patterns of sympatric populations of Pseudomys gracilicaudatus and Rattus lutreolus in coastal heathland: a multivariate analysis. Australian Journal of Ecology 20, 427–441.
Habitat utilisation patterns of sympatric populations of Pseudomys gracilicaudatus and Rattus lutreolus in coastal heathland: a multivariate analysis.Crossref | GoogleScholarGoogle Scholar |

Haim, A., and Rozenfeld, F. M. (1995). Temporal segregation in coexisting Acomys species: the possible role of nest site. Journal of Arid Environments 29, 505–509.
Temporal segregation in coexisting Acomys species: the possible role of nest site.Crossref | GoogleScholarGoogle Scholar |

Hall, L. S., and Morrison, M. L. (1997). Den and relocation site characteristics and home ranges of Peromyscus truei in the White Mountains of California. The Great Basin Naturalist 57, 124–130.

Happold, M. (1976). Social behavior of conilurine rodents (Muridae) of Australia. Zeitschrift Fur Tierpsychologie – Journal of Comparative Ethology 40, 113–182.
Social behavior of conilurine rodents (Muridae) of Australia.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DyaE287otVKisQ%3D%3D&md5=70924340cb83191d3c2c459e539a98f6CAS |

Hartung, T. G., and Dewsbury, D. A. (1979). Nest-building behavior in seven species of muroid rodents. Behavioral and Neural Biology 27, 532–539.
Nest-building behavior in seven species of muroid rodents.Crossref | GoogleScholarGoogle Scholar |

Higgs, P., and Fox, B. J. (1993). Interspecific competition: a mechanism for rodent succession after fire in wet heathland. Australian Journal of Ecology 18, 193–201.
Interspecific competition: a mechanism for rodent succession after fire in wet heathland.Crossref | GoogleScholarGoogle Scholar |

Hinkelman, T. M., and Loeb, S. C. (2007). Effect of woody debris abundance on daytime refuge use by cotton mice. Southeastern Naturalist (Steuben, ME) 6, 393–406.
Effect of woody debris abundance on daytime refuge use by cotton mice.Crossref | GoogleScholarGoogle Scholar |

Ingwersen, F. (1977). Vegetation development after fire in the Jervis Bay Territory. Masters Thesis, The Australian National University, Canberra.

Keith, D. A., McCaw, W. L., and Whelan, R. J. (2002). Fire regimes in Australian heathlands and their effects on plants and animals. In ‘Flammable Australia: the Fire Regimes and Biodiversity of a Continent’. (Eds R. A. Bradstock, J. E. Williams and A. M. Gill.) pp. 199–237. (Cambridge University Press: New York.)

Kemper, C. M. (1981). Description of Pseudomys novaehollandiae burrows located with radioisotopes. Australian Mammalogy 4, 141–143.

Klein, H. G., and Layne, J. N. (1978). Nesting behaviour in four species of mice. Journal of Mammalogy 59, 103–108.
Nesting behaviour in four species of mice.Crossref | GoogleScholarGoogle Scholar |

Letnic, M. (2003). The effects of experimental patch burning and rainfall on small mammals in the Simpson Desert, Queensland. Wildlife Research 30, 547–563.
The effects of experimental patch burning and rainfall on small mammals in the Simpson Desert, Queensland.Crossref | GoogleScholarGoogle Scholar |

Letnic, M., Dickman, C. R., Tischler, M. K., Tamayo, B., and Beh, C. L. (2004). The responses of small mammals and lizards to post-fire succession and rainfall in arid Australia. Journal of Arid Environments 59, 85–114.
The responses of small mammals and lizards to post-fire succession and rainfall in arid Australia.Crossref | GoogleScholarGoogle Scholar |

Lindenmayer, D. B., Welsh, A., Donnelly, C. F., and Meggs, R. A. (1996). Use of nest trees by the mountain brushtail possum (Trichosurus caninus) (Phalangeridae : Marsupialia). I. Number of occupied trees and frequency of tree use. Wildlife Research 23, 343–361.
Use of nest trees by the mountain brushtail possum (Trichosurus caninus) (Phalangeridae : Marsupialia). I. Number of occupied trees and frequency of tree use.Crossref | GoogleScholarGoogle Scholar |

Lindenmayer, D. B., Cunningham, R. B., and Peakall, R. (2005). The recovery of populations of bush rat Rattus fuscipes in forest fragments following major population reduction. Journal of Applied Ecology 42, 649–658.
The recovery of populations of bush rat Rattus fuscipes in forest fragments following major population reduction.Crossref | GoogleScholarGoogle Scholar |

Lindenmayer, D. B., MacGregor, C., Welsh, A., Donnelly, C., Crane, M., Michael, D., Montague-Drake, R., Cunningham, R. B., Brown, D., Fortescue, M., Dexter, N., Hudson, M., and Gill, A. M. (2008). Contrasting mammal responses to vegetation type and fire. Wildlife Research 35, 395–408.
Contrasting mammal responses to vegetation type and fire.Crossref | GoogleScholarGoogle Scholar |

Lindenmayer, D. B., MacGregor, C., Wood, J. T., Cunningham, R. B., Crane, M., Michael, D., Montague-Drake, R., Brown, D., Fortescue, M., Dexter, N., Hudson, M., and Gill, A. M. (2009). What factors influence rapid post-fire site re-occupancy? A case study of the endangered eastern bristlebird in eastern Australia. International Journal of Wildland Fire 18, 84–95.
What factors influence rapid post-fire site re-occupancy? A case study of the endangered eastern bristlebird in eastern Australia.Crossref | GoogleScholarGoogle Scholar |

Luo, J., and Fox, B. J. (1994). Diet of the eastern chestnut mouse (Pseudomys gracilicaudatus). II. Seasonal and successional patterns. Wildlife Research 21, 419–431.
Diet of the eastern chestnut mouse (Pseudomys gracilicaudatus). II. Seasonal and successional patterns.Crossref | GoogleScholarGoogle Scholar |

Luo, J., and Fox, B. J. (1995). Competitive effects of Rattus lutreolus presence on food resource use by Pseudomys gracilicaudatus. Australian Journal of Ecology 20, 556–564.
Competitive effects of Rattus lutreolus presence on food resource use by Pseudomys gracilicaudatus.Crossref | GoogleScholarGoogle Scholar |

Luo, J., Fox, B. J., and Jefferys, E. (1994). Diet of the eastern chestnut mouse (Pseudomys gracilicaudatus). I. Composition, diversity and individual variation. Wildlife Research 21, 401–417.
Diet of the eastern chestnut mouse (Pseudomys gracilicaudatus). I. Composition, diversity and individual variation.Crossref | GoogleScholarGoogle Scholar |

Madison, D. M., Hill, J. P., and Gleason, P. E. (1984). Seasonality in the nesting behavior of Peromyscus leucopus. American Midland Naturalist 112, 201–204.
Seasonality in the nesting behavior of Peromyscus leucopus.Crossref | GoogleScholarGoogle Scholar |

Masters, P. (1993). The effects of fire driven succession and rainfall on small mammals in spinifex grassland at Uluru National Park, Northern Territory. Wildlife Research 20, 803–813.
The effects of fire driven succession and rainfall on small mammals in spinifex grassland at Uluru National Park, Northern Territory.Crossref | GoogleScholarGoogle Scholar |

McCullagh, P., and Nelder, J. A. (1989). ‘Generalized Linear Models.’ 2nd edn. (Chapman and Hall: New York.)

McCulloch, C. E., Searle, S. R., and Neuhaus, J. M. (2008). ‘Generalized, Linear, and Mixed Models.’ 2nd edn. (Wiley: Hoboken, NJ, USA.)

Monamy, V., and Fox, B. J. (2000). Small mammal succession is determined by vegetation density rather than time elapsed since disturbance. Austral Ecology 25, 580–587.
Small mammal succession is determined by vegetation density rather than time elapsed since disturbance.Crossref | GoogleScholarGoogle Scholar |

Monamy, V., and Fox, B. J. (2010). Responses of two species of heathland rodents to habitat manipulation: vegetation density thresholds and the habitat accommodation model. Austral Ecology 35, 334–347.
Responses of two species of heathland rodents to habitat manipulation: vegetation density thresholds and the habitat accommodation model.Crossref | GoogleScholarGoogle Scholar |

Moro, D., and Morris, K. (2000). Movements and refugia of Lakeland Downs short-tailed mice, Leggadina lakedownensis, and house mice, Mus domesticus, on Thevenard Island, Western Australia. Wildlife Research 27, 11–20.
Movements and refugia of Lakeland Downs short-tailed mice, Leggadina lakedownensis, and house mice, Mus domesticus, on Thevenard Island, Western Australia.Crossref | GoogleScholarGoogle Scholar |

Morris, D. W., Fox, B. J., Luo, J., and Monamy, V. (2000). Habitat-dependent competition and the coexistence of Australian heathland rodents. Oikos 91, 294–306.
Habitat-dependent competition and the coexistence of Australian heathland rodents.Crossref | GoogleScholarGoogle Scholar |

Morzillo, A. T., Feldhamer, G. A., and Nicholson, M. C. (2003). Home range and nest use of the golden mouse (Ochrotomys nuttalli) in southern Illinois. Journal of Mammalogy 84, 553–560.
Home range and nest use of the golden mouse (Ochrotomys nuttalli) in southern Illinois.Crossref | GoogleScholarGoogle Scholar |

Newsome, A. E., and Catling, P. C. (1983). Animal demography in relation to fire and shortage of food: some indicative models. Ecological Studies 43, 490–505.

Newsome, A. E., McIlroy, J., and Catling, P. C. (1975). The effects of an extensive wildfire on populations of twenty ground vertebrates in southeast Australia. Proceedings of the Ecological Society of Australia 9, 107–123.

Ostfeld, R. S. (1985). Limiting resources and territoriality in microtine rodents. American Naturalist 126, 1–15.
Limiting resources and territoriality in microtine rodents.Crossref | GoogleScholarGoogle Scholar |

Sanecki, G. M., Green, K., Wood, H., Lindenmayer, D., and Sanecki, K. L. (2006). The influence of snow cover on home range and activity of the bush-rat (Rattus fuscipes) and the dusky antechinus (Antechinus swainsonii). Wildlife Research 33, 489–496.
The influence of snow cover on home range and activity of the bush-rat (Rattus fuscipes) and the dusky antechinus (Antechinus swainsonii).Crossref | GoogleScholarGoogle Scholar |

Schwarz, G. (1978). Estimating the dimension of a model. Annals of Statistics 6, 461–464.
Estimating the dimension of a model.Crossref | GoogleScholarGoogle Scholar |

Specht, R. L. (1981). Responses to fire in heathlands and related shrublands. In ‘Fire and the Australian Biota’. (Eds A. M. Gill, R. H. Groves and I. R. Noble.) pp. 395–415. (Australian Academy of Science: Canberra.)

Stokes, M. K. (1995). Selection of refuge sites by sympatric Microtus ochrogaster and Sigmodon hispidus. Journal of Mammalogy 76, 83.
Selection of refuge sites by sympatric Microtus ochrogaster and Sigmodon hispidus.Crossref | GoogleScholarGoogle Scholar |

Strahan, R. (Ed.) (1995). ‘The Mammals of Australia (2nd edn).’ (Reed: Chatswood.)

Sutherland, E. F., and Dickman, C. R. (1999). Mechanisms of recovery after fire by rodents in the Australian environment: a review. Wildlife Research 26, 405–419.
Mechanisms of recovery after fire by rodents in the Australian environment: a review.Crossref | GoogleScholarGoogle Scholar |

Taws, N. (1997). Vegetation survey and mapping of Jervis Bay Territory. Environment Australia Report, Canberra.

Taylor, J. M., and Horner, B. E. (1972). Observations on reproductive biology of Pseudomys (Rodentia : Muridae). Journal of Mammalogy 53, 318–328.
Observations on reproductive biology of Pseudomys (Rodentia : Muridae).Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DyaE383htVehsw%3D%3D&md5=9daf58eeb2c5f2bcd7a5c80198b738b9CAS |

Thompson, P. T., and Fox, B. J. (1993). Asymmetric competition in Australian heathland rodents: a reciprocal removal experiment demonstrating the influence of size-class structure. Oikos 67, 264–278.
Asymmetric competition in Australian heathland rodents: a reciprocal removal experiment demonstrating the influence of size-class structure.Crossref | GoogleScholarGoogle Scholar |

Thompson, M. B., Medlin, G., Hutchinson, R., and West, N. (1989). Short-term effects of fuel reduction burning on populations of small terrestrial mammals. Australian Wildlife Research 16, 117–129.
Short-term effects of fuel reduction burning on populations of small terrestrial mammals.Crossref | GoogleScholarGoogle Scholar |

Townley, S. J. (2000). The ecology of the Hastings River mouse Pseudomys oralis (Rodentia : Muridae) in northeastern New South Wales and southeastern Queensland. PhD Thesis, Southern Cross University, Lismore.

Townley, S. (2007). ‘Targeted Survey for the Eastern Chestnut Mouse Pseudomys gracilicaudatus, New Holland Mouse Pseudomys novaehollandiae, Eastern Pygmy-possum Cercartetus nanus, and Long-nosed Bandicoot Perameles nasuta on Pacific City Estate Lands, Jervis Bay National Park.’ (NSW Department of Environment.)

Wagner, D. M., Feldhamer, G. A., and Newman, J. A. (2000). Microhabitat selection by golden mice (Ochrotomys nuttalli) at arboreal nest sites. American Midland Naturalist 144, 220–225.
Microhabitat selection by golden mice (Ochrotomys nuttalli) at arboreal nest sites.Crossref | GoogleScholarGoogle Scholar |

Ward, G. D. (1978). Habitat use and home range of radio-tagged opossums Trichosurus vulpecula (Kerr) in New Zealand lowland forest. In ‘The Ecology of Arboreal Folivores’. (Ed. G. G. Montogomery.) pp. 305–313. (Smithsonian Institute Press: Washington DC.)

West, S. D., and Dublin, H. T. (1984). Behavioural strategies of small mammals under winter conditions: solitary or social? In ‘Proceedings of the International Colloquium: Winter Ecology of Small Mammals’. (Ed. J. F. Merritt.) pp. 293–299. (Carnegie Museum of Natural History: Pittsburgh, PA, USA.)

Whelan, R. J. (1995). ‘The Ecology of Fire.’ (Cambridge University Press: Cambridge.)

Whelan, R. J., Rodgerson, L., Dickman, C. R., and Sutherland, E. F. (2002). Critical life cycles of plants and animals: developing a process-based understanding of population changes in fire-prone landscapes. In ‘Flammable Australia: the Fire Regimes and Biodiversity of a Continent’. (Eds R. A. Bradstock, J. E. Williams and A. M. Gill.) pp. 94–124. (Cambridge University Press: New York.)

Wolfe, J. L. (1970). Experiments on nest-building behaviour in Peromyscus (Rodentia : Cricetinae). Animal Behaviour 18, 613–615.
Experiments on nest-building behaviour in Peromyscus (Rodentia : Cricetinae).Crossref | GoogleScholarGoogle Scholar |

Wolff, J. O., and Hurlbutt, B. (1982). Day refuges of Peromyscus leucopus and Peromyscus maniculatus. Journal of Mammalogy 63, 666–668.
Day refuges of Peromyscus leucopus and Peromyscus maniculatus.Crossref | GoogleScholarGoogle Scholar |

Wolton, R. J., and Trowbridge, B. J. (1985). The ranging and nesting behavior of wood mice, Apodemus sylvaticus (Rodentia : Muridae), as revealed by radio-tracking. Journal of Zoology 206, 203–224.

Woods, R. E., and Ford, F. D. (2000). Observations on the behaviour of the smoky mouse Pseudomys fumeus (Rodentia: Muridae). Australian Mammalogy 22, 35–42.