Torpor use during gestation and lactation in a primate

• Published in: Die Naturwissenschaften Vol. 99; no. 2; pp. 159 - 163
• Main Authors: Canale, Cindy I, Perret, Martine, Henry, Pierre-Yves
• Format: Journal Article
• Language: English
• Published: Berlin/Heidelberg Springer-Verlag 01.02.2012; Springer Verlag
• Subjects: Animal biology; Animals; Biomedical and Life Sciences; Body Temperature; Body Temperature Regulation - physiology; Caloric Restriction; Cheirogaleidae - metabolism; Cheirogaleidae - physiology; energy; Environment; Female; females; food availability; food shortages; gestation period; lactation; Lactation - physiology; Lemuridae; Life Sciences; Microcebus; Pregnancy; progeny; pups; Reproduction - physiology; resting periods; Short Communication; skin temperature; temperature profiles; Weight Loss - physiology; Pregnancy; Thermoregulation; Heterothermy; Physiological flexibility; Body temperature; Calorie restriction
• ISSN: 0028-1042; 1432-1904
• DOI: 10.1007/s00114-011-0872-2

Torpor is an energy-saving mechanism that allows endotherms to overcome energetic challenges. Torpor should be avoided during reproduction because of potential incompatibility with offspring growth. To test if torpor can be used during gestation and lactation to compensate for food shortage, we exposed reproductive female grey mouse lemurs (Microcebus murinus), a heterothermic primate, to different levels of food availability. Torpor use was characterised by daily skin temperature profiles, and its energetic outcome was assessed from changes in body mass. Food shortage triggered torpor during the end of the gestation period (n = 1), ranging from shallow in response to 40% food restriction to deep daily torpor in response to 80% restriction. During the early period of lactation, females fed ad libitum (n = 2) or exposed to a 40% restriction (n = 4) remained normothermic; but 80% food restricted females (n = 5) gave priority to energy saving, increasing the frequency and depth of torpor bouts. The use of torpor was insufficient to compensate for 80% energetic shortage during lactation resulting in loss of mass from the mother and delayed growth in the pups. This study provides the first evidence that a heterothermic primate can use torpor to compensate for food shortages even during reproduction. This physiological flexibility likely evolved as a response to climate-driven fluctuations in food availability in Madagascar.