Temporal activity patterns of the swamp rat (Rattus lutreolus) and other rodents in north-eastern New South Wales, Australia

Article

<< Previous

Next >>

Contents Vol 34(2)

doi:10.1071/AM11032

The Journal of the Australian Mammal Society

	Search




	Advanced Search



	Journal Home

	About the Journal

	Editorial Board

	Contacts



	Content

	Online Early

	Current Issue

	Just Accepted

	All Issues

	Special Issues

	Sample Issue



	For Authors

	General Information

	Notice to Authors

	Submit Article



	For Referees

	Referee Guidelines

	Review Article



	For Subscribers

	Subscription Prices

	Customer Service

	Print Publication Dates

e-Alerts

Subscribe to our Email Alert or

feeds for the latest journal papers.

Connect with us

Temporal activity patterns of the swamp rat (Rattus lutreolus) and other rodents in north-eastern New South Wales, Australia

Paul D. Meek ^A ^B ^E, Frances Zewe ^C and Greg Falzon ^D

^A Invasive Animals Cooperative Research Centre, PO Box 4019, Coffs Harbour Jetty, NSW 2450, Australia.
^B University of New England, Ecosystem Management, Armidale, NSW 2351, Australia.
^C School of Animal Biology, University of Western Australia, Crawley, WA 6009, Australia.
^D C4D: Centre for Dimensions, University of New England, Armidale, NSW 2351, Australia.
^E Corresponding author. Email: paul.meek@invasiveanimals.com

Australian Mammalogy 34(2) 223-233 http://dx.doi.org/10.1071/AM11032
Submitted: 18 August 2011 Accepted: 01 February 2012 Published: 25 May 2012





	PDF (925 KB) $25



	Export Citation

Print

Abstract

The activity patterns and partitioning of time by four small mammal species, with a focus on the swamp rat (Rattus lutreolus) in north-eastern New South Wales, was investigated using camera trap data from two studies. Analysis was carried out on 1079 camera trap events over 1530 camera trap–nights or 36 720 h of camera trap deployment in the field. The activity patterns of Rattus lutreolus were distinctly diurnal with crepuscular peaks of activity but this differed between sites and when in the presence of competitors. The Hastings River mouse (Pseudomys oralis) and the bush rat (Rattus fuscipes) displayed typical bimodal patterns of nocturnal activity. Antechinus were mostly nocturnal but were occasionally active during the day. These data indicate that where species of Muridae co-occur, diurnal time partitioning by R. lutreolus may reduce competition for food resources. It also confirms the speculation that R. lutreolus displays diurnal behaviour, albeit dependent on the presence of other murids.

Additional keywords: camera trap.

References

Ashby, K. R. (1972). Patterns of daily activity in mammals. Mammal Review 1, 171–185.
| CrossRef |

Braithwaite, R. W. (1977). Preliminary observations on the activity patterns of Rattus lutreolus and other Victorian small mammals. Victorian Naturalist 94, 216–218.

Braithwaite, R. W. (1978). The ecology and evolution of Rattus lutreolus. Ph.D. Thesis, Monash University, Melbourne.

Cheal, D. C. (1987). The diets and dietary preferences of Rattus fuscipes and Rattus lutreolus at Walkerville in Victoria. Australian Wildlife Research 14, 35–44.

Crowcroft, P., and Godfrey, G. K. (1968). The daily cycle of activity patterns in two species of Sminthopsis (Marsupialia: Dasyuridae). Journal of Animal Ecology 37, 63–73.
| CrossRef |

Dodge, W. E., and Snyder, D. P. (1960). An automatic camera service for recording wildlife activity. The Journal of Wildlife Management 24, 340–342.
| CrossRef |

Doucet, G. J., and Bider, J. R. (1974). The effects of weather on the activity of the masked shrew. Journal of Mammalogy 55, 348–363.
| CrossRef |

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.
| CrossRef |

Green, K, Stein, J. A, and Driessen, M. M (2008). The projected distributions of Mastacomys fuscus and Rattus lutreolus in south-eastern Australia under a scenario of climate change: potential for increased competition? Wildlife Research 35, 113–119.

Hall, S. (1980). Diel activity of three small mammals coexisting in forest in southern Victoria. Australian Mammalogy 3, 67–79.

Harling, J. (1971). A technique for precisely timing captures of Peromyscus maniculatus. Canadian Journal of Zoology 49, 1275–1277.
| CrossRef |

Higgs, P., and Fox, B. (1993). Interspecific competition: a mechanism for rodent succession after fire in wet heath. Austral Ecology 18, 193–201.
| CrossRef |

Jacob, G.H. (2010). Recent progress in understanding mammalian colour vision. Ophthalmic and Physiological Optics 30, 422–434.
| CrossRef |

Kearney, N., Handasude, K., Ward, S., and Kearney, M. (2007). Fine-scale microhabitat selection for dense vegetation in a heathland rodent, Rattus lutreolus: insights from intraspecific and temporal patterns. Austral Ecology 32, 315–325.
| CrossRef |

Kortner, G., and Geiser, F. (1995). Body temperature rhythms and activity in reproductive Antechinus (Marsupialia). Physiology & Behavior 58, 31–36.
| CrossRef | CAS |

Kronfeld-Schor, N., and Dayan, T. (2003). Partitioning of time as an ecological resource. Annual Review of Ecology and Systematics 34, 153–181.
| CrossRef |

Lunney, D., Lunney, H. W. M., and Recher, H. F. (2008). Bushfire and the Malthusian guillotine: survival of small mammals in a refuge in Nadgee Nature Reserve, south-eastern New South Wales. Pacific Conservation Biology 14, 263–278.

Luo, J., Monamy, V., and Fox, B. J. (1998). Competition between two Australian rodent species: a regression analysis. Journal of Mammalogy 79, 962–971.
| CrossRef |

MacDonald, I. L., and Zucchini, W. (1997). ‘Hidden Markov and Other Models for Discrete-valued Time Series.’ (Chapman & Hall/CRC: Boca Raton, FL.)

Maitz, W. E., and Dickman, C. R. (2001). Competition and habitat use in native Australian Rattus: is competition intense, or important? Oecologia 128, 526–538.
| CrossRef |

Meek, P. D. (2010). Remote camera monitoring of the Hastings River mouse (Pseudomys oralis): trial of a novel technique for monitoring populations. Unpublished Report for Gondwana Rainforests of Australia.

Meek, P. D. (2012). Hastings River Mouse Pseudomys oralis Thomas, 1921. In ‘Queensland’s Threatened Animals’ . (Eds L. K. Curtis, A. J. Dennis, K. R. McDonald, P. K. Kyne and S. J. S. Debus.) pp. 406–407. (CSIRO Publishing: Melbourne.)

Meek, P. D., Radford, S. L., and Tolhurst, B. L. (2006). Summer–autumn home range and habitat use of the Hastings River mouse Pseudomys oralis. Australian Mammalogy 28, 39–50.
| CrossRef |

Monamy, V. (1997). Sexual differences in habitat use by Rattus lutreolus (Rodentia: Muridae): the emergence of patterns in native rodent community structure. Australian Mammalogy 20, 43–48.

Monamy, V., and Fox, B. J. (1999). Habitat selection by female swamp rats (Rattus lutreolus) drives asymmetrical competition and coexistence with long-tailed mice (Pseudomys higginsi). Journal of Mammalogy 80, 232–242.
| CrossRef |

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.
| CrossRef |

O’Connell, A. F., Nichols, J. D., and Karanth, K. U. (Eds) (2011). ‘Camera Traps in Animal Ecology: Methods and Analyses.’ (Springer: New York.)

Packer, W. C. (1980). Nest-building and activity patterns in four sympatric rodent species. South African Journal of Zoology 15, 50–55.

Park, O. (1940). Nocturnalism – the development of a problem. Ecological Monographs 10, 485–536.
| CrossRef |

Roll, U., Dayan, T., and Kronfeld-Schor, N. (2006). On the role of phylogeny in determining activity patterns of rodents. Evolutionary Ecology 20, 479–490.

Sale, M. G., and Arnould, J. P. Y. (2009). Spatial and temporal organisation in the swamp antechinus: comparison between island and mainland populations. Journal of Mammalogy 90, 347–355.
| CrossRef |

Šklíba, J., Šumbera, R., Chitaukali, W. N., and Burda, H. (2007). Determinants of daily activity patterns in a free-living afrotropical solitary subterranean rodent. Journal of Mammalogy 88, 1009–1016.
| CrossRef |

Stokes, V. L., Pech, R. P., Banks, P. B., and Arthur, D. (2004). Foraging behaviour and habitat use by Antechinus flavipes and Sminthopsis murina (Marsupialia: Dasyuridae) in response to predation risk in eucalypt woodland. Biological Conservation 117, 331–342.
| CrossRef |

Stokes, V. L., Banks, P. B., Pech, R. P., and Spratt, D. M. (2009). Competition in an invaded rodent community reveals black rats as a threat to native bush rats in littoral rainforest of south-east Australia. Journal of Applied Ecology 46, 1239–1247.
| CrossRef |

Sutherland, D. R., and Predavec, M. (2010). Universal trap timer design to examine temporal activity of wildlife. The Journal of Wildlife Management 74, 906–909.
| CrossRef |

Vickery, W. L., and Bider, J. R. (1981). The influence of weather on rodent activity. Journal of Mammalogy 62, 140–145.
| CrossRef |

Watts, C. H. S., and Aslin, H. J. (1981). ‘The Rodents of Australia.’ (Angus & Robertson: Sydney.)

Wood, D. H. (1971). The ecology of Rattus fuscipes and Melomys cervinipes (Rodentia: Muridae) in a south-east Queensland rainforest. Australian Journal of Zoology 19, 371–392.
| CrossRef |

Zewe, F. (2010). Like a rat up a drainpipe: a black rat bait station to protect native rodents. B.Sc.(Honours) Thesis, University of New England, Armidale.

Subscriber Login

	Username: Password:

Legal & Privacy | Contact Us | Help