Add to ORKGMountain chickadees and juniper titmice from northern Utah were examined to determine metabolic and body-composition characteristics associated with seasonal acclimatization. These species use behavioral adaptations and nocturnal hypothermia, which reduce energetic costs. These adjustments could reduce the need for extensive metabolic adjustments typically found in small passerines that overwinter in cold regions. In addition, these species live at higher altitudes, which may also decrease metabolic acclimatization found in birds. Winter birds tolerated colder test temperatures than summer birds. This improved cold tolerance was associated with an increase in maximal ther-mogenic capacity or summit metabolism (Msum). Winter Msum exceeded su...
Graduation date: 1990Winters in north-temperate climates impose high\ud thermogenic demands upon sma...
House finches ( Carpodacus mexicanus ) from the introduced population in the eastern United States w...
Resident temperate passerines adjust their phenotypes to cope with winter constraints, with peak per...
Mountain chickadees and juniper titmice from northern Utah were examined to determine metabolic and ...
Biogeographic patterns of animals are shaped by biotic interactions, such as competition, and by abi...
Biogeographic patterns of animals are shaped by biotic interactions, such as competition, and by abi...
Challenges that small diurnal birds resident at middle and high latitudes face during winter include...
Dissertation (Ph.D.) University of Alaska Fairbanks, 1997Winter in interior Alaska (64$\sp\circ$N) i...
Small resident bird species living at northern latitudes increase their metabolism in winter, and th...
Stochastic winter weather events are predicted to increase in occurrence and amplitude at northern l...
Research on winter energy management in small vertebrates has focused on the regulation of body mass...
Research on winter energy management in small vertebrates has focused on the regulation of body mass...
Research on winter energy management in small vertebrates has focused on the regulation of body mass...
Abstract Research on winter energy management in small vertebrates has focused on the regulation of...
Seasonal phenotypic flexibility in small birds produces a winter phenotype with elevated maximum col...
Graduation date: 1990Winters in north-temperate climates impose high\ud thermogenic demands upon sma...
House finches ( Carpodacus mexicanus ) from the introduced population in the eastern United States w...
Resident temperate passerines adjust their phenotypes to cope with winter constraints, with peak per...
Mountain chickadees and juniper titmice from northern Utah were examined to determine metabolic and ...
Biogeographic patterns of animals are shaped by biotic interactions, such as competition, and by abi...
Biogeographic patterns of animals are shaped by biotic interactions, such as competition, and by abi...
Challenges that small diurnal birds resident at middle and high latitudes face during winter include...
Dissertation (Ph.D.) University of Alaska Fairbanks, 1997Winter in interior Alaska (64$\sp\circ$N) i...
Small resident bird species living at northern latitudes increase their metabolism in winter, and th...
Stochastic winter weather events are predicted to increase in occurrence and amplitude at northern l...
Research on winter energy management in small vertebrates has focused on the regulation of body mass...
Research on winter energy management in small vertebrates has focused on the regulation of body mass...
Research on winter energy management in small vertebrates has focused on the regulation of body mass...
Abstract Research on winter energy management in small vertebrates has focused on the regulation of...
Seasonal phenotypic flexibility in small birds produces a winter phenotype with elevated maximum col...
Graduation date: 1990Winters in north-temperate climates impose high\ud thermogenic demands upon sma...
House finches ( Carpodacus mexicanus ) from the introduced population in the eastern United States w...
Resident temperate passerines adjust their phenotypes to cope with winter constraints, with peak per...