Koertner, Gerhard; Pavey, Christoph Robert; Geiser, Fritz

Author(s)

Koertner, Gerhard

Pavey, Christoph Robert

Geiser, Fritz

Publication Date

2008

Abstract

Little is known about the energy conservation strategies of freeranging marsupials living in resource-poor Australian deserts. We studied activity patterns and torpor of free-living mulgaras ('Dasycercus blythi') in arid central Australia during the winter of 2006. Mulgaras are small (~75 g), nocturnal, insectivorous marsupials, with a patchy distribution in hummock grasslands. Mulgaras (six males, three females) were implanted intraperitoneally with temperature-sensitive transmitters and monitored for 6–55 d. Temperature profiles for different microhabitats and the thermal properties of soil and a number of burrows were also measured. Air temperature ranged from -3°C at night to 30°C during the day. Although burrows buffered temperature extremes, the thermal diffusivity of the sandy soil was high, and many burrows were shallow. Hence, soil and burrow temperatures averaged about 15°C. The activity of mulgaras was often restricted to a few hours after sunset, before they retired into their burrows. Mulgaras employed torpor frequently, often entering torpor during the night and arousing around midday, with arousals occurring later on cooler days. Shallow burrows allowed cooling below mean Tsoil. Consequently, body temperatures as low as 10.8°C were observed. The longest torpor bout was 20.8 h. Torpor patterns changed seasonally and differed between males and females. From June to August, females entered torpor almost daily despite mating and gestation, but from the end of the gestation period onward, they remained normothermic. In contrast, males showed only shallow and short torpor during the mating season, but from mid-July, a transition to more frequent and deeper torpor resembling that of females was observed. Apparently, in both sexes, the reproductive effort entails energetic costs, but torpor, as an energy-saving mechanism, and reproduction are not exclusive in mulgaras. In a resource-poor environment during the least productive part of the year, frequent torpor seems to provide the means to compensate for the increased energetic costs associated with reproduction.

Citation

Physiological and Biochemical Zoology, 81(4), p. 442-451

ISSN

1537-5293

1522-2152

Link

https://hdl.handle.net/1959.11/3639

Publisher

University of Chicago Press

Title

Thermal Biology, Torpor, and Activity in Free-Living Mulgaras in Arid Zone Australia during the Winter Reproductive Season

Type of document

Journal Article

Entity Type

Publication

Author(s)	Koertner, Gerhard Pavey, Christoph Robert Geiser, Fritz
Publication Date	2008
Abstract	Little is known about the energy conservation strategies of freeranging marsupials living in resource-poor Australian deserts. We studied activity patterns and torpor of free-living mulgaras ('Dasycercus blythi') in arid central Australia during the winter of 2006. Mulgaras are small (~75 g), nocturnal, insectivorous marsupials, with a patchy distribution in hummock grasslands. Mulgaras (six males, three females) were implanted intraperitoneally with temperature-sensitive transmitters and monitored for 6–55 d. Temperature profiles for different microhabitats and the thermal properties of soil and a number of burrows were also measured. Air temperature ranged from -3°C at night to 30°C during the day. Although burrows buffered temperature extremes, the thermal diffusivity of the sandy soil was high, and many burrows were shallow. Hence, soil and burrow temperatures averaged about 15°C. The activity of mulgaras was often restricted to a few hours after sunset, before they retired into their burrows. Mulgaras employed torpor frequently, often entering torpor during the night and arousing around midday, with arousals occurring later on cooler days. Shallow burrows allowed cooling below mean Tsoil. Consequently, body temperatures as low as 10.8°C were observed. The longest torpor bout was 20.8 h. Torpor patterns changed seasonally and differed between males and females. From June to August, females entered torpor almost daily despite mating and gestation, but from the end of the gestation period onward, they remained normothermic. In contrast, males showed only shallow and short torpor during the mating season, but from mid-July, a transition to more frequent and deeper torpor resembling that of females was observed. Apparently, in both sexes, the reproductive effort entails energetic costs, but torpor, as an energy-saving mechanism, and reproduction are not exclusive in mulgaras. In a resource-poor environment during the least productive part of the year, frequent torpor seems to provide the means to compensate for the increased energetic costs associated with reproduction.
Citation	Physiological and Biochemical Zoology, 81(4), p. 442-451
ISSN	1537-5293 1522-2152
Link	https://hdl.handle.net/1959.11/3639
Publisher	University of Chicago Press
Title	Thermal Biology, Torpor, and Activity in Free-Living Mulgaras in Arid Zone Australia during the Winter Reproductive Season
Type of document	Journal Article
Entity Type	Publication

Thermal Biology, Torpor, and Activity in Free-Living Mulgaras in Arid Zone Australia during the Winter Reproductive Season

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