Scholars@Duke publication: Hibernation in a primate: does sleep occur?

Hibernation in a primate: does sleep occur?

Publication , Journal Article

Blanco, MB; Dausmann, KH; Faherty, SL; Klopfer, P; Krystal, AD; Schopler, R; Yoder, AD

Published in: R Soc Open Sci

August 2016

During hibernation, critical physiological processes are downregulated and thermogenically induced arousals are presumably needed periodically to fulfil those physiological demands. Among the processes incompatible with a hypome tabolic state is sleep. However, one hibernating primate, the dwarf lemur Cheirogaleus medius, experiences rapid eye movement (REM)-like states during hibernation, whenever passively reaching temperatures above 30°C, as occurs when it hibernates in poorly insulated tree hollows under tropical conditions. Here, we report electroencephalographic (EEG) recordings, temperature data and metabolic rates from two related species (C. crossleyi and C. sibreei), inhabiting high-altitude rainforests and hibernating underground, conditions that mirror, to some extent, those experienced by temperate hibernators. We compared the physiology of hibernation and spontaneous arousals in these animals to C. medius, as well as the much more distantly related non-primate hibernators, such as Arctic, golden-mantled and European ground squirrels. We observed a number of commonalities with non-primate temperate hibernators including: (i) monotonous ultra-low voltage EEG during torpor bouts in these relatively cold-weather hibernators, (ii) the absence of sleep during torpor bouts, (iii) the occurrence of spontaneous arousals out of torpor, during which sleep regularly occurred, (iv) relatively high early EEG non-REM during the arousal, and (v) a gradual transition to the torpid EEG state from non-REM sleep. Unlike C. medius, our study species did not display sleep-like states during torpor bouts, but instead exclusively exhibited them during arousals. During these short euthermic periods, non-REM as well as REM sleep-like stages were observed. Differences observed between these two species and their close relative, C. medius, for which data have been published, presumably reflect differences in hibernaculum temperature.

Duke Scholars

Author Andrew Darrell Krystal Psychiatry & Behavioral Sciences, Behavioral Medicine & Neur ...

Author Anne Daphne Yoder Biology

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Published In

R Soc Open Sci

DOI

10.1098/rsos.160282

ISSN

2054-5703

Publication Date

August 2016

Volume

Issue

Start / End Page

160282

Location

England

Citation

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Chicago

ICMJE

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Blanco, M. B., Dausmann, K. H., Faherty, S. L., Klopfer, P., Krystal, A. D., Schopler, R., & Yoder, A. D. (2016). Hibernation in a primate: does sleep occur? R Soc Open Sci, 3(8), 160282. https://doi.org/10.1098/rsos.160282

Blanco, Marina B., Kathrin H. Dausmann, Sheena L. Faherty, Peter Klopfer, Andrew D. Krystal, Robert Schopler, and Anne D. Yoder. “Hibernation in a primate: does sleep occur?” R Soc Open Sci 3, no. 8 (August 2016): 160282. https://doi.org/10.1098/rsos.160282.

Blanco MB, Dausmann KH, Faherty SL, Klopfer P, Krystal AD, Schopler R, et al. Hibernation in a primate: does sleep occur? R Soc Open Sci. 2016 Aug;3(8):160282.

Blanco, Marina B., et al. “Hibernation in a primate: does sleep occur?” R Soc Open Sci, vol. 3, no. 8, Aug. 2016, p. 160282. Pubmed, doi:10.1098/rsos.160282.

Blanco MB, Dausmann KH, Faherty SL, Klopfer P, Krystal AD, Schopler R, Yoder AD. Hibernation in a primate: does sleep occur? R Soc Open Sci. 2016 Aug;3(8):160282.

Published In

R Soc Open Sci

DOI

10.1098/rsos.160282

ISSN

2054-5703

Publication Date

August 2016

Volume

Issue

Start / End Page

160282

Location

England