Daily torpor in the gray mouse lemur (Microcebus murinus) in Madagascar: energetic consequences and biological significance |
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Authors: | J Schmid |
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Institution: | Instititut of Zoology, Hamburg University, Martin-Luther-King-Platz 3, D-20146 Hamburg, Germany, DE
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Abstract: | Patterns and energetic consequences of spontaneous daily torpor were measured in the gray mouse lemur (Microcebus murinus) under natural conditions of ambient temperature and photoperiod in a dry deciduous forest in western Madagascar. Over a
period of two consecutive dry seasons, oxygen consumption (VO2) and body temperature (T
b) were measured on ten individuals kept in outdoor enclosures. In all animals, spontaneous daily torpor occurred on a daily
basis with torpor bouts lasting from 3.6 to 17.6 h, with a mean torpor bout duration of 9.3 h. On average, body temperatures
in torpor were 17.3±4.9°C with a recorded minimum value of 7.8°C. Torpor was not restricted to the mouse lemurs’ diurnal resting
phase: entries occurred throughout the night and arousals mainly around midday, coinciding with the daily ambient temperature
maximum. Arousal from torpor was a two-phase process with a first passive, exogenous heating where the T
b of animals increased from the torpor T
b minimum to a mean value of 27.1°C before the second, endogenous heat production commenced to further raise T
b to normothermic values. Metabolic rate during torpor (28.6±13.2 ml O2 h–1) was significantly reduced by about 76% compared to resting metabolic rate (132.6±50.5 ml O2 h–1). On average, for all M. murinus individuals measured, hypometabolism during daily torpor reduced daily energy expenditure by about 38%. In conclusion, all
these energy-conserving mechanisms of the nocturnal mouse lemurs, with passive exogenous heating during arousal from torpor,
low minimum torpor T
bs, and extended torpor bouts into the activity phase, comprise an important and highly adapted mechanism to minimize energetic
costs in response to unfavorable environmental conditions and may play a crucial role for individual fitness.
Received: 8 July 1999 / Accepted: 3 December 1999 |
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Keywords: | Microcebus murinus Torpor Thermoregulation Metabolism Madagascar |
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