Add to ORKGMetabolism, body temperature (Tb), and feather reflectance was measured for dark Louisiana herons (LOU), little blue herons (LB), snowy egrets (SE), and cattle egrets (CE); only LOU nest preferentiallyin shade. The reflectance of LOU and adult LB was 13%-15%; it was 80%-82% for SE, CE, and immature (white) LB. Tb for all four species approximated 40 C; hypothermy was never observed. Basal metabolism (HJb) was 107% of the expected level for LOU, 85% for SE and CE, and 66% for LB. Minimal thermal conductance (C) was calculated as approximately 131% of the expected value for LOU, 115% for SE and CE, and 110% for LB. Metabolism and solar radiation may combine to produce heat stress in hot climates, particularly in dark birds; reduced Hb allows ...
Little is known about the phylogenetic variation of avian evaporative cooling efficiency and heat t...
The oxygen consumption (VO2) of the lesser double-collared sunbird, Nectarinia chalybea, was measure...
1. Animal pigmentation has evolved because of several adaptive functions. In the case of pigmentatio...
Endotherms, unlike ectotherms, generate metabolic heat to meet their thermoregulatory demands. As ho...
1. Facultative hyperthermia, the elevation of body temperature above normothermic levels, during ...
Evaporative cooling is a prerequisite for avian occupancy of hot, arid environments, and is the onl...
Recently, gaining knowledge about thermal refuges for vulnerable species has been a major focal poin...
Small birds inhabiting northern temperate and boreal latitudes typically increase metabolic rates d...
The physiological response to variation in air temperature (T-a) can provide insights into how anima...
Recently, gaining knowledge about thermal refuges for vulnerable species has been a major focal poin...
How different kinds of organisms adapt to environmental temperature is central to understanding how ...
Animal flight uses metabolic energy at a higher rate than any other mode of locomotion. A relatively...
Avian species are known to have the capacity to respond to environmental changes through physiologic...
Heat production relative to dissipation rates have constrained reproductive effort and reduced fitne...
Endotherms dissipate heat to the environment to maintain a stable body temperature at high ambient t...
Little is known about the phylogenetic variation of avian evaporative cooling efficiency and heat t...
The oxygen consumption (VO2) of the lesser double-collared sunbird, Nectarinia chalybea, was measure...
1. Animal pigmentation has evolved because of several adaptive functions. In the case of pigmentatio...
Endotherms, unlike ectotherms, generate metabolic heat to meet their thermoregulatory demands. As ho...
1. Facultative hyperthermia, the elevation of body temperature above normothermic levels, during ...
Evaporative cooling is a prerequisite for avian occupancy of hot, arid environments, and is the onl...
Recently, gaining knowledge about thermal refuges for vulnerable species has been a major focal poin...
Small birds inhabiting northern temperate and boreal latitudes typically increase metabolic rates d...
The physiological response to variation in air temperature (T-a) can provide insights into how anima...
Recently, gaining knowledge about thermal refuges for vulnerable species has been a major focal poin...
How different kinds of organisms adapt to environmental temperature is central to understanding how ...
Animal flight uses metabolic energy at a higher rate than any other mode of locomotion. A relatively...
Avian species are known to have the capacity to respond to environmental changes through physiologic...
Heat production relative to dissipation rates have constrained reproductive effort and reduced fitne...
Endotherms dissipate heat to the environment to maintain a stable body temperature at high ambient t...
Little is known about the phylogenetic variation of avian evaporative cooling efficiency and heat t...
The oxygen consumption (VO2) of the lesser double-collared sunbird, Nectarinia chalybea, was measure...
1. Animal pigmentation has evolved because of several adaptive functions. In the case of pigmentatio...