Add to ORKGBirds during normal sustained flight must be able to dissipate more than 8 times as much heat as during rest in order not to be overheated. The experiments reported in this note on the hemoglobin systems from two different birds indicate the existence of a molecular mechanism by which hemoglobin is used simultaneously for oxygen transport and heat dissipation
It has been proposed that water loss during flight in migratory birds under high evaporative conditi...
Hemolysate from white stork displayed a single hemoglobin component, thus resulting into two bands a...
The flight range of migrating birds depends crucially on the amount of fuel stored by the bird prior...
Birds during normal sustained flight must be able to dissipate more than 8 times as much heat as dur...
AbstractBirds during normal sustained flight must be able to dissipate more than 8 times as much hea...
AbstractBirds during normal sustained flight must be able to dissipate more than 8 times as much hea...
International audienceAnimal flight uses metabolic energy at a higher rate than any other mode of lo...
Animal flight uses metabolic energy at a higher rate than any other mode of locomotion. A relatively...
During flight, birds must dissipate heat to avoid hyperthermia. We used thermal imaging to determine...
The rate of evaporative cooling was calculated from the rate of mass loss in starlings (Sturnus vulg...
The relationship between mass loss rate and chemical power in Eying birds is analysed with regard to...
The relationship between mass loss rate and chemical power in Eying birds is analysed with regard to...
The relationship between mass loss rate and chemical power in flying birds is analysed with regard t...
Hemolysate from white stork displayed a single hemoglobin component, thus resulting into two bands a...
It has been proposed that water loss during flight in migratory birds under high evaporative conditi...
It has been proposed that water loss during flight in migratory birds under high evaporative conditi...
Hemolysate from white stork displayed a single hemoglobin component, thus resulting into two bands a...
The flight range of migrating birds depends crucially on the amount of fuel stored by the bird prior...
Birds during normal sustained flight must be able to dissipate more than 8 times as much heat as dur...
AbstractBirds during normal sustained flight must be able to dissipate more than 8 times as much hea...
AbstractBirds during normal sustained flight must be able to dissipate more than 8 times as much hea...
International audienceAnimal flight uses metabolic energy at a higher rate than any other mode of lo...
Animal flight uses metabolic energy at a higher rate than any other mode of locomotion. A relatively...
During flight, birds must dissipate heat to avoid hyperthermia. We used thermal imaging to determine...
The rate of evaporative cooling was calculated from the rate of mass loss in starlings (Sturnus vulg...
The relationship between mass loss rate and chemical power in Eying birds is analysed with regard to...
The relationship between mass loss rate and chemical power in Eying birds is analysed with regard to...
The relationship between mass loss rate and chemical power in flying birds is analysed with regard t...
Hemolysate from white stork displayed a single hemoglobin component, thus resulting into two bands a...
It has been proposed that water loss during flight in migratory birds under high evaporative conditi...
It has been proposed that water loss during flight in migratory birds under high evaporative conditi...
Hemolysate from white stork displayed a single hemoglobin component, thus resulting into two bands a...
The flight range of migrating birds depends crucially on the amount of fuel stored by the bird prior...