ISSN:
1432-136X
Source:
Springer Online Journal Archives 1860-2000
Topics:
Biology
,
Medicine
Notes:
Summary Genetic and environmental components of adaptation to cold inMus musculus were assessed in a study of the effects of selective breeding for behavioral temperature regulation (indexed by high and low levels of nest-building), rearing mice from birth in the cold, and cold acclimation of adult animals, on thermoregulatory traits. Mice from the eleventh selected generation of a high-nesting line maintained higher resting metabolic rates and body temperatures, while at the same time consuming less food when compared with mice from the low-nesting line (Table 1). High-nesting mice were also more discriminating in their temperature preference when placed on a thermal gradient. Thus, common genetic loci must influence a variety of energy conservation measures important for survival in the cold, including insulative nest-building, metabolic efficiency, and optimum microhabitat selection. Rearing mice at 5°C from birth until 70 days of age resulted in permanent increases in nonshivering thermogenesis, weight of interscapular brown adipose tissue, and core body temperature when compared to mice raised at 22°C (Table 1). These greater heat production capacities were accompanied by consumption of more food. Cold acclimation of adults at 5°C for 3 weeks similarly increased measures of thermogenic capacity (nonshivering thermogenesis and interscapular brown adipose tissue) as well as food consumption, when compared to the effects of warm acclimation, but differed from the effects of cold-rearing in that while resting metabolic rates were elevated, no significant differences in body temperature were found (Table 1). Sex differences were also noted for most of the thermoregulatory measures, with the lighter females scoring higher on thermal preference, resting metabolic rate, nonshivering thermogenesis, brown fat, and food consumption. In general, these results suggest that a more precise partitioning of the genetic and environmental factors which influence thermoregulatory traits in mammals could eventually result in a better understanding of the differences which exist between acclimated and acclimatized animals.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF00687848
Permalink