Gliding Flight Of The White-backed Vulture Gyps Africanus
1. Glide-comparison measurements were made on ten species of East African soaring birds using a Schleicher ASK-14 powered sailplane. Horizontal and vertical speed differences between bird and glider were measured by a photographic method, and used to estimate the bird's horizontal and vertical...
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University of Nairobi
1970
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ftunivnairobi:oai:http://erepository.uonbi.ac.ke:11295/72787 2023-05-15T18:43:03+02:00 Gliding Flight Of The White-backed Vulture Gyps Africanus Pennycuick, C J 1970-11 application/pdf http://hdl.handle.net/11295/72787 http://jeb.biologists.org/content/55/1/13.short unknown University of Nairobi Pennycuick, C. J. (1971). Gliding flight of the white-backed vulture Gyps africanus. Journal of Experimental Biology, 55(1), 13-38. http://jeb.biologists.org/content/55/1/13.short http://hdl.handle.net/11295/72787 Article en 1970 ftunivnairobi 2022-12-28T09:41:17Z 1. Glide-comparison measurements were made on ten species of East African soaring birds using a Schleicher ASK-14 powered sailplane. Horizontal and vertical speed differences between bird and glider were measured by a photographic method, and used to estimate the bird's horizontal and vertical speeds relative to the air. The analysis refers to the white-backed vulture, since by far the largest number of measurements was obtained on this species. 2. A regression analysis using a two-term approximation to the glide polar yielded an implausibly high estimate of induced drag, which was attributed to a lack of observations at lift coefficients above 0.72. An amended glide polar was constructed assuming elliptical lift distribution and a maximum lift coefficient of 1.6 to define the low-speed end, while the high-speed end was made to pass through the mean horizontal and sinking speeds of all the experimental points. This curve gave a minimum sinking speed of 0.76 m/s at a forward speed of 10 m/s, and a best glide ratio of 15.3:1 at 13 m/s. It did not differ significantly (in the statistical sense) from the original regression curve. 3. In comparing the estimated circling performance, based on the amended glide polar, with that of the ASK-14, it was concluded that the rates of sink of both should be comparable, but that the glider would require thermals with radii about 4.3 times as great as those needed to sustain the birds. The conclusions are consistent with experience of soaring in company with birds. 4. In an attempt to assess the adaptive significance of the low-aspect-ratio wings of birds specializing in thermal soaring, the white-backed vulture's circling performance was compared with that of an ‘albatross-shaped vulture’, an imaginary creature having the same mass as a white-backed vulture, combined with the body proportions of a wandering albatross. It appears that the real white-back would be at an advantage when trying to remain airborne in thermals with radii between 14 and 17 m, but that the ... Article in Journal/Newspaper Wandering Albatross University of Nairobi Digital Repository |
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1. Glide-comparison measurements were made on ten species of East African soaring birds using a Schleicher ASK-14 powered sailplane. Horizontal and vertical speed differences between bird and glider were measured by a photographic method, and used to estimate the bird's horizontal and vertical speeds relative to the air. The analysis refers to the white-backed vulture, since by far the largest number of measurements was obtained on this species. 2. A regression analysis using a two-term approximation to the glide polar yielded an implausibly high estimate of induced drag, which was attributed to a lack of observations at lift coefficients above 0.72. An amended glide polar was constructed assuming elliptical lift distribution and a maximum lift coefficient of 1.6 to define the low-speed end, while the high-speed end was made to pass through the mean horizontal and sinking speeds of all the experimental points. This curve gave a minimum sinking speed of 0.76 m/s at a forward speed of 10 m/s, and a best glide ratio of 15.3:1 at 13 m/s. It did not differ significantly (in the statistical sense) from the original regression curve. 3. In comparing the estimated circling performance, based on the amended glide polar, with that of the ASK-14, it was concluded that the rates of sink of both should be comparable, but that the glider would require thermals with radii about 4.3 times as great as those needed to sustain the birds. The conclusions are consistent with experience of soaring in company with birds. 4. In an attempt to assess the adaptive significance of the low-aspect-ratio wings of birds specializing in thermal soaring, the white-backed vulture's circling performance was compared with that of an ‘albatross-shaped vulture’, an imaginary creature having the same mass as a white-backed vulture, combined with the body proportions of a wandering albatross. It appears that the real white-back would be at an advantage when trying to remain airborne in thermals with radii between 14 and 17 m, but that the ... |
format |
Article in Journal/Newspaper |
author |
Pennycuick, C J |
spellingShingle |
Pennycuick, C J Gliding Flight Of The White-backed Vulture Gyps Africanus |
author_facet |
Pennycuick, C J |
author_sort |
Pennycuick, C J |
title |
Gliding Flight Of The White-backed Vulture Gyps Africanus |
title_short |
Gliding Flight Of The White-backed Vulture Gyps Africanus |
title_full |
Gliding Flight Of The White-backed Vulture Gyps Africanus |
title_fullStr |
Gliding Flight Of The White-backed Vulture Gyps Africanus |
title_full_unstemmed |
Gliding Flight Of The White-backed Vulture Gyps Africanus |
title_sort |
gliding flight of the white-backed vulture gyps africanus |
publisher |
University of Nairobi |
publishDate |
1970 |
url |
http://hdl.handle.net/11295/72787 http://jeb.biologists.org/content/55/1/13.short |
genre |
Wandering Albatross |
genre_facet |
Wandering Albatross |
op_relation |
Pennycuick, C. J. (1971). Gliding flight of the white-backed vulture Gyps africanus. Journal of Experimental Biology, 55(1), 13-38. http://jeb.biologists.org/content/55/1/13.short http://hdl.handle.net/11295/72787 |
_version_ |
1766232841194045440 |