Thermobiology, energetics and activity patterns of the Eastern tube-nosed bat (Nyctimene robinsoni) in the Australian tropics: effect of temperature and lunar cycle

• Published in: Journal of experimental biology Vol. 213; no. Pt 15; pp. 2557 - 2564
• Main Authors: Riek, Alexander, Körtner, Gerhard, Geiser, Fritz
• Format: Journal Article
• Language: English
• Published: England 01.08.2010
• Subjects: Animals; Australia; Basal Metabolism - physiology; Body Temperature - physiology; Body Weight - physiology; Chiroptera - physiology; Energy Metabolism - physiology; Female; Male; Moon; Motor Activity; Oxygen Consumption - physiology; Tropical Climate; Australia
• ISSN: 0022-0949; 1477-9145
• DOI: 10.1242/jeb.043182

Currently, there are no data on the thermal biology of free-ranging pteropodid bats (Chiroptera). Therefore, our aim was to investigate physiological and behavioural strategies employed by the fruit bat Nyctimene robinsoni (body mass approximately 50 g) in winter in tropical Northern Queensland in relation to ambient temperature (T(a)) and the lunar cycle. Daily body temperature (T(b)) fluctuations in free-ranging bats were measured via radio-telemetry and metabolic rate was measured in captivity via open-flow respirometry (T(a), 15-30 degrees C). Free-ranging bats showed a significant 24 h circadian cycle in T(b), with the lowest T(b) at the end of the rest phase just after sunset and the highest T(b) at the end of the activity phase just before sunrise. Average daily core T(b) ranged from 34.7+/-0.6 to 37.3+/-0.8 degrees C (mean +/- s.d.) over an average daily T(a) range of 17.1+/-1.1 to 23.5+/-1.8 degrees C. T(b) never fell below 30 degrees C but T(b) was significantly reduced during the full moon period compared with that during the new moon period. T(b) was correlated with T(a) during the second half of the rest phase (P<0.001) but not during the active phase. Resting metabolic rate of bats was significantly affected by T(a) (P<0.001, R(2)=0.856). Our results show that tube-nosed bats exhibit reduced T(b) on moonlit nights when they reduce foraging activity, but during our study torpor was not expressed. The energy constraints experienced here by tube-nosed bats with relatively moderate T(a) fluctuations, short commuting distances between roosting and feeding locations, and high availability of food were probably not substantial enough to require use of torpor.