抄録
Wood mice (Apodemus argenteus) were trapped live at three different altitudes (below 1, 000, 1, 900, and 2, 400m) during a 1-year period (Feb. 1984-Jan. 1985). After remaining at the trapped locations for 10-14 days, they were transferred into a climatic chamber at an altitude of 610m. Oxygen consumption (VO2) and colonic temperature (Tco) were measured at chamber temperatures (Ta) of five steps (30, 20, 10, 0, and -10°C) in freely moving conditions. In response to Ta of 0°C for the mice trapped in winter when their mean local habitat temperature (Te) were lower than 0°C, there was a significant inverse correlation between VO2 and Te (r=-0.70, p<0.001) whereas no significant correlation (r=0.23) was observed in the mice trapped in other seasons when Te was higher than 0°C. The correlation between Tco and Te was significant (r=-0.66, p<0.001) over the entire range of Te. The pelt weight of the mice trapped at Te higher than 0°C had a significant inverse correlation with Te (r=-0.65, p<0.001), but not in the mice trapped at Te lower than 0°C. After measurement of VO2 and Tco at Ta of 0°C, the mice who had lived in colder habitats (below 0°C) showed 0% mortality, whereas the mortality of the populations which had lived in warmer habitats was 13%. These results suggest that, in wood mice, adaptation to severe cold is established by an enhanced thermogenesis and by an increased insulation of the pelt in moderate cold.
