Temperature effects on metabolic rate and torpor in southern forest bats (Vespadelus regulus)

Christopher Turbill

doi:10.1071/ZO09029

Temperature effects on metabolic rate and torpor in southern forest bats (Vespadelus regulus)

Christopher Turbill

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

I measured the metabolic rate (MR) of four male southern forest bats (Vespadelus regulus; 5.5g) exposed to a diurnal increase in air temperature (T a) from 13 to 26Â°C, simulating conditions in natural tree roosts. Three bats remained in torpor throughout the day, despite the rise in T a, whereas one bat aroused at a T a of 25.2Â°C and was normothermic for 108min until re-entering torpor when T a declined in the afternoon. All bats aroused shortly after lights off. Torpid MR increased exponentially with rising T a, yet even at 26Â°C remained only 16% of minimum resting MR at the same T a. Rest-phase energy expenditure (12h), including the estimated cost of an evening arousal, ranged from 0.62 to 1.23kJ. Thus, torpor provides these small bats with an enormous reduction in energy consumption even at T a close to their thermoneutral zone.

Original language	English
Pages (from-to)	125-127
Number of pages	3
Journal	Australian Journal of Zoology
Volume	57
Issue number	2
DOIs	https://doi.org/10.1071/ZO09029
Publication status	Published - 2009

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@article{62a606ce325144ae901de5351ef8e331,

title = "Temperature effects on metabolic rate and torpor in southern forest bats (Vespadelus regulus)",

abstract = "I measured the metabolic rate (MR) of four male southern forest bats (Vespadelus regulus; 5.5g) exposed to a diurnal increase in air temperature (T a) from 13 to 26{\^A}°C, simulating conditions in natural tree roosts. Three bats remained in torpor throughout the day, despite the rise in T a, whereas one bat aroused at a T a of 25.2{\^A}°C and was normothermic for 108min until re-entering torpor when T a declined in the afternoon. All bats aroused shortly after lights off. Torpid MR increased exponentially with rising T a, yet even at 26{\^A}°C remained only 16% of minimum resting MR at the same T a. Rest-phase energy expenditure (12h), including the estimated cost of an evening arousal, ranged from 0.62 to 1.23kJ. Thus, torpor provides these small bats with an enormous reduction in energy consumption even at T a close to their thermoneutral zone.",

author = "Christopher Turbill",

year = "2009",

doi = "10.1071/ZO09029",

language = "English",

volume = "57",

pages = "125--127",

journal = "Australian Journal of Zoology",

issn = "0004-959X",

publisher = "CSIRO Publishing",

number = "2",

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TY - JOUR

T1 - Temperature effects on metabolic rate and torpor in southern forest bats (Vespadelus regulus)

AU - Turbill, Christopher

PY - 2009

Y1 - 2009

N2 - I measured the metabolic rate (MR) of four male southern forest bats (Vespadelus regulus; 5.5g) exposed to a diurnal increase in air temperature (T a) from 13 to 26Â°C, simulating conditions in natural tree roosts. Three bats remained in torpor throughout the day, despite the rise in T a, whereas one bat aroused at a T a of 25.2Â°C and was normothermic for 108min until re-entering torpor when T a declined in the afternoon. All bats aroused shortly after lights off. Torpid MR increased exponentially with rising T a, yet even at 26Â°C remained only 16% of minimum resting MR at the same T a. Rest-phase energy expenditure (12h), including the estimated cost of an evening arousal, ranged from 0.62 to 1.23kJ. Thus, torpor provides these small bats with an enormous reduction in energy consumption even at T a close to their thermoneutral zone.

AB - I measured the metabolic rate (MR) of four male southern forest bats (Vespadelus regulus; 5.5g) exposed to a diurnal increase in air temperature (T a) from 13 to 26Â°C, simulating conditions in natural tree roosts. Three bats remained in torpor throughout the day, despite the rise in T a, whereas one bat aroused at a T a of 25.2Â°C and was normothermic for 108min until re-entering torpor when T a declined in the afternoon. All bats aroused shortly after lights off. Torpid MR increased exponentially with rising T a, yet even at 26Â°C remained only 16% of minimum resting MR at the same T a. Rest-phase energy expenditure (12h), including the estimated cost of an evening arousal, ranged from 0.62 to 1.23kJ. Thus, torpor provides these small bats with an enormous reduction in energy consumption even at T a close to their thermoneutral zone.

UR - http://handle.uws.edu.au:8081/1959.7/558400

U2 - 10.1071/ZO09029

DO - 10.1071/ZO09029

M3 - Article

SN - 0004-959X

VL - 57

SP - 125

EP - 127

JO - Australian Journal of Zoology

JF - Australian Journal of Zoology

IS - 2

ER -

Temperature effects on metabolic rate and torpor in southern forest bats (Vespadelus regulus)

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