Temporal niche switching and reduced nest attendance in response to heat dissipation limits in lactating common voles ( Microtus arvalis )

According to the heat dissipation limit theory, maximum metabolic turnover is limited by the capacity of the body to dissipate excess heat. Small mammals, including common voles (Microtus arvalis), face a heat dissipation limitation during lactation. Pup growth and milk production are reduced under...

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Bibliographic Details
Published in:Physiology & Behavior
Main Authors: van der Vinne, Vincent, Simons, Mirre J.P., Reimert, Inonge, Gerkema, Menno P.
Format: Article in Journal/Newspaper
Language:English
Published: 2014
Subjects:
Sustained energy intake
Ambient temperature
Lactation
Nest attendance
Temporal niche switch
Circadian thermo-energetics hypothesis
Circadian rhythm
Ultradian rhythm
SUSTAINED ENERGY-INTAKE
ULTRADIAN RHYTHMS
LABORATORY MICE
INSULATED NESTS
FUR REMOVAL
FOOD
FEMALES
THERMONEUTRALITY
REPRODUCTION
TEMPERATURE
Microtus arvalis
Online Access:https://hdl.handle.net/11370/ca98a6da-72cd-4655-a550-1ae2fe69312d
https://research.rug.nl/en/publications/ca98a6da-72cd-4655-a550-1ae2fe69312d
https://doi.org/10.1016/j.physbeh.2014.01.019
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Summary:According to the heat dissipation limit theory, maximum metabolic turnover is limited by the capacity of the body to dissipate excess heat. Small mammals, including common voles (Microtus arvalis), face a heat dissipation limitation during lactation. Pup growth and milk production are reduced under higher ambient temperatures. Heat dissipation problems might in part be alleviated by modifying behavior, such as reducing nest attendance and being active at energetically optimal times of day. According to the circadian thermo-energetics hypothesis, animals can make use of daily ambient temperature fluctuations to alter their energetic expenditure. In this study we test whether heat challenged (housing at 30 degrees C compared to 21 degrees C) lactating common voles allocate their time differently among behaviors and whether their ultradian and circadian behavioral rhythmicity are altered. Behavior was scored every 13 min from automated picture recordings, while general locomotor activity was measured by passive infrared detectors to assess ultradian and circadian organization. The effects of ambient temperature on the ultradian organization of behavior were assessed by determining the ultradian period length and the distribution of activity within the ultradian bout. Changes in circadian organization were assessed by the distribution of activity over the light and dark phase. As a complementary measure nest temperature recordings were used to quantify nest attendance distribution between day and night. Lactating dams at 30 degrees C reduced the fraction of time spent on the nest while increasing the fraction of time resting without pups away from the nest. The ultradian period of locomotor activity was longer in voles housed at 30 degrees C during pregnancy and lactation, but not after weaning when the pups were removed. No differences in the distribution of activity within the ultradian bout could be detected. The circadian organization was also modulated by ambient temperature. lactating voles housed at 30 ...

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