The mechanism of feather movements: implications for the evolution of birds and avian flight

[1]  Bret W. Tobalske,et al.  SCALING OF MUSCLE COMPOSITION, WING MORPHOLOGY, AND INTERMITTENT FLIGHT BEHAVIOR IN WOODPECKERS , 1996 .

[2]  Tobalske,et al.  Flight kinematics of black-billed magpies and pigeons over a wide range of speeds , 1996, The Journal of experimental biology.

[3]  K P Dial,et al.  Flight style of the black-billed magpie: variation in wing kinematics, neuromuscular control, and muscle composition. , 1997, The Journal of experimental zoology.

[4]  Jeremy M. V. Rayner,et al.  Bounding and undulating flight in birds , 1985 .

[5]  Tobalske,et al.  NEUROMUSCULAR CONTROL AND KINEMATICS OF INTERMITTENT FLIGHT IN BUDGERIGARS (MELOPSITTACUS UNDULATUS) , 1994, The Journal of experimental biology.

[6]  A. M. Lucas,et al.  Avian anatomy : integument , 1974 .

[7]  C. J. Pennycuick,et al.  Empirical estimates of body drag of large waterfowl and raptors , 1988 .

[8]  J. R. Jehl Fat loads and flightlessness in Wilson's Phalaropes , 1997 .

[9]  Tobalske Neuromuscular control and kinematics of intermittent flight in the European starling (Sturnus vulgaris) , 1995, The Journal of experimental biology.

[10]  Dominique G. Homberger,et al.  Functional Microanatomy of the Feather-Bearing Integument: Implications for the Evolution of Birds and Avian Flight1 , 2000 .

[11]  C. Pennycuick,et al.  Wingbeat frequency and the body drag anomaly: wind-tunnel observations on a thrush nightingale (Luscinia luscinia) and a teal (Anas crecca) , 1996, The Journal of experimental biology.

[12]  J N Langley,et al.  On the sympathetic system of birds, and on the muscles which move the feathers 1 , 1903, The Journal of physiology.