Patterns of surface temperatures in two mole-rats (Bathyergidae) with different social systems as revealed by IR-thermography

R Šumbera, J Zelová, P Kunc, I Knížková, H Burda - Physiology & Behavior, 2007 - Elsevier
R Šumbera, J Zelová, P Kunc, I Knížková, H Burda
Physiology & Behavior, 2007Elsevier
Furred subterranean mammals face the problem of dissipating heat to the environment
because high humidity and absence of air flow in sealed belowground tunnels constrain
heat loss from body by convection and evaporation. In order to detect body areas
responsible for heat loss, surface temperatures in two species of African mole-rats were
measured at different ambient air temperatures by infrared thermography. Fur characteristics
were also evaluated. Thinner pelage of the ventrum, its moderate temperature and large …
Furred subterranean mammals face the problem of dissipating heat to the environment because high humidity and absence of air flow in sealed belowground tunnels constrain heat loss from body by convection and evaporation. In order to detect body areas responsible for heat loss, surface temperatures in two species of African mole-rats were measured at different ambient air temperatures by infrared thermography. Fur characteristics were also evaluated. Thinner pelage of the ventrum, its moderate temperature and large size suggest that ventral side of the body is the main thermal avenue for heat loss in both species. Interspecific differences could be explained by different fur characteristics connected with social thermoregulation. Compared to the social Fukomys mechowii, the solitary Heliophobius argenteocinereus has denser and longer fur on most of its body; its surface temperature was thus lower than in F. mechowii at lowered ambient temperatures. On the other hand, the denser and longer hair cover in H. argenteocinereus impedes heat dissipation at highest ambient temperatures (and probably also during digging activity) resulting in increase of core body temperature. H. argenteocinereus seems to be more sensitive to overheating than F. mechowii. At lower air temperatures, the social species may uses huddling to combat hypothermia.
Elsevier
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