Add to ORKGproperties of the pigeon supracoracoideus during different modes of flight (Article begins on next page) The Harvard community has made this article openly available. Please share how this access benefits you. Your story matters. Citation Tobalske, Brett W., and Andrew A. Biewener. 2008. Contractileproperties of the pigeon supracoracoideus during different mode
1. Five pigeons were trained to fly in a boundary-layer wind-tunnel at a velocity of 10 m s"1 f...
SYNOPSIS. Body size, pectoralis composition, aspect ratio of the wing, and for-ward speed affect the...
Flying birds often form flocks, with social1, navigational2 and anti-predator3 implications. Further...
Takeoff and landing are critical phases in a flight. To better understand the functional importance ...
Muscle function during takeoff and landing flight in the pigeon (Columba livia) (Article begins on n...
This study explored the muscle strain and activation patterns of several key flight muscles of the p...
Avian wings change shape during the flapping cycle due to the activity of a network of intrinsic win...
Bird flight is a remarkable adaptation that has allowed the approximately 10,000 extant species to c...
The complexity of low speed maneuvering flight is apparent from the combination of two critical aspe...
We undertook this study to test a current hypothesis that, during locomotion, proximal, parallel-fib...
SYNOPSIS. While useful in describing the efficiency of maneuvering flight, steady-state (i.e., fixed...
Downstroke force produced by Rock Doves (Columba livia) as they negotiated an obstacle course was me...
Flapping flight places strenuous requirements on the physiological performance of an animal. Bird fl...
Similar flight control principles operate across insect and vertebrate fliers. These principles indi...
The ability of racing pigeons to navigate and to find their way home is determined by many factors. ...
1. Five pigeons were trained to fly in a boundary-layer wind-tunnel at a velocity of 10 m s"1 f...
SYNOPSIS. Body size, pectoralis composition, aspect ratio of the wing, and for-ward speed affect the...
Flying birds often form flocks, with social1, navigational2 and anti-predator3 implications. Further...
Takeoff and landing are critical phases in a flight. To better understand the functional importance ...
Muscle function during takeoff and landing flight in the pigeon (Columba livia) (Article begins on n...
This study explored the muscle strain and activation patterns of several key flight muscles of the p...
Avian wings change shape during the flapping cycle due to the activity of a network of intrinsic win...
Bird flight is a remarkable adaptation that has allowed the approximately 10,000 extant species to c...
The complexity of low speed maneuvering flight is apparent from the combination of two critical aspe...
We undertook this study to test a current hypothesis that, during locomotion, proximal, parallel-fib...
SYNOPSIS. While useful in describing the efficiency of maneuvering flight, steady-state (i.e., fixed...
Downstroke force produced by Rock Doves (Columba livia) as they negotiated an obstacle course was me...
Flapping flight places strenuous requirements on the physiological performance of an animal. Bird fl...
Similar flight control principles operate across insect and vertebrate fliers. These principles indi...
The ability of racing pigeons to navigate and to find their way home is determined by many factors. ...
1. Five pigeons were trained to fly in a boundary-layer wind-tunnel at a velocity of 10 m s"1 f...
SYNOPSIS. Body size, pectoralis composition, aspect ratio of the wing, and for-ward speed affect the...
Flying birds often form flocks, with social1, navigational2 and anti-predator3 implications. Further...