The metabolic costs of flight at a natural range of speeds were investigated in Rose Coloured Starlings (Sturnus roseus, Linnaeus) using doubly labelled water. Eight birds flew repeatedly and unrestrained for bouts of 6 h at speeds from 9 to 14 m s-1 in a low-turbulence wind tunnel, corresponding to travel distances between 200 and 300 km, respectively. This represents the widest speed range where we could obtain voluntarily sustained flights. From a subset of these flights, data on the wing beat frequency (WBF) and intermittent flight behaviour were obtained. Over the range of speeds that were tested, flight costs did not change with velocity and were on an average 8.17±0.64 W or 114 W kg-1. Body mass was the only parameter with a signific...
The relationship between mass loss rate and chemical power in flying birds is analysed with regard t...
The relationship between mass loss rate and chemical power in Eying birds is analysed with regard to...
International audienceAnimal flight uses metabolic energy at a higher rate than any other mode of lo...
The metabolic costs of flight at a natural range of speeds were investigated in Rose Coloured Starli...
The metabolic costs of flight at a natural range of speeds were investigated in Rose Coloured Starli...
The metabolic costs of flight at a natural range of speeds were investigated in Rose Coloured Starli...
The metabolic costs of flight at a natural range of speeds were investigated in Rose Coloured Starli...
The metabolic costs of flight at a natural range of speeds were investigated in Rose Coloured Starli...
Exhaled air temperature (T exh) has a paramount effect on respiratory water loss during flight. For ...
Methods of observing birds in flight now include training them to fly under known conditions in wind...
Methods of observing birds in flight now include training them to fly under known conditions in wind...
Water imbalance during flight is considered to be a potentially limiting factor for flight ranges in...
Migratory bird, bat and insect species tend to have more pointed wings than non-migrants. Pointed wi...
Migratory bird, bat and insect species tend to have more pointed wings than non-migrants. Pointed wi...
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 flying birds is analysed with regard t...
The relationship between mass loss rate and chemical power in Eying birds is analysed with regard to...
International audienceAnimal flight uses metabolic energy at a higher rate than any other mode of lo...
The metabolic costs of flight at a natural range of speeds were investigated in Rose Coloured Starli...
The metabolic costs of flight at a natural range of speeds were investigated in Rose Coloured Starli...
The metabolic costs of flight at a natural range of speeds were investigated in Rose Coloured Starli...
The metabolic costs of flight at a natural range of speeds were investigated in Rose Coloured Starli...
The metabolic costs of flight at a natural range of speeds were investigated in Rose Coloured Starli...
Exhaled air temperature (T exh) has a paramount effect on respiratory water loss during flight. For ...
Methods of observing birds in flight now include training them to fly under known conditions in wind...
Methods of observing birds in flight now include training them to fly under known conditions in wind...
Water imbalance during flight is considered to be a potentially limiting factor for flight ranges in...
Migratory bird, bat and insect species tend to have more pointed wings than non-migrants. Pointed wi...
Migratory bird, bat and insect species tend to have more pointed wings than non-migrants. Pointed wi...
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 flying birds is analysed with regard t...
The relationship between mass loss rate and chemical power in Eying birds is analysed with regard to...
International audienceAnimal flight uses metabolic energy at a higher rate than any other mode of lo...
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