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Oxygen Consumption in Lemur fulvus: Deviation from the Ideal Model

Holly L. Daniels
DOI: http://dx.doi.org/10.2307/1380841 584-592 First published online: 30 November 1984

Abstract

The pattern of oxygen consumption (Embedded Image) for Lemur fulvus deviated from the Scholander-Irving model of energetics. Minimal rate of metabolism was 0.139 cm2 O2 g−1 h−1, which is 28% of the basal value expected from the Kleiber relationship for a mammal of 2.33 kg. This minimal rate occurred at ambient temperatures (Ta) from 30–40°C; thermal conductance (C) at Ta of 22–30°C was 0.235 cm2 O2 g−1 h−1 °C−1. Deviation from the standard model occurred most notably at Ta < 22°C as rate of metabolism and thermal conductance decreased. At Ta = 0–7°C, #### was 0.152 cm3 O2 g−1 h−1, and C was 0.0037 cm3 O2 g−1 h−1 °C−1, which are 31% and 18% of the expected values, respectively. Below 0°C, #### increased. A high body temperature, 38.2°C, was maintained at Ta from −2 to 40°C. The low minimal rate of metabolism of L. fulvus may be partially explained by its folivorous diet. It is also possible the minimal rate was a depressed rate, below that referred to as basal in the standard model. Low #### and C at cold Ta's probably resulted from decreased peripheral circulation and a heat conserving posture at abnormally cold environmental temperatures.

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