A wind tunnel for bird flight studies at high altitudes
Linderoth, L.S.
Journal of Applied Physiology 39(3): 501-502
1975
ISSN/ISBN: 0021-8987 PMID: 1176418 DOI: 10.1152/jappl.1975.39.3.501
Accession: 026127298
PDF emailed within 0-6 h: $19.90
Related References
Grogger, H.A.; Gossar, M.; Makovec, M.; Fritz, J.; Neugebauer, K.; Amann, F.; Voelkl, B. 2022: A low-cost wind tunnel for bird flight experiments Journal of Ornithology 163(2): 599-610Klaassen, M.; Kvist, A.; Lindstrom, A. 2000: Flight costs and fuel composition of a bird migrating in a wind tunnel Condor 102(2): 444-451
Pennycuick; Alerstam; HedenstrÖM 1997: A new low-turbulence wind tunnel for bird flight experiments at Lund University, Sweden Journal of Experimental Biology 200(Pt 10): 1441-1449
Rothe, R.J.; Nachtigall, W. 1987: Pigeon flight in a wind tunnel i. aspects of wind tunnel design training methods and flight behavior of different pigeon races Journal of Comparative Physiology B Biochemical Systemic and Environmental Physiology 157(1): 91-98
Rothe, H.J.; Nachtigall, W. 1987: Pigeon flight in a wind tunnel. I: Aspects of wind tunnel design, training methods and flight behaviour of different pigeon races Journal of Comparative Physiology. B, Biochemical, Systemic, and Environmental Physiology 157(1): 91-98
Lange, R.; Weissinger, M. 1972: Contributions to the flight behaviour of the pine shoot moth. II The influence of wind and light on the direction of flight of male moths in a wind tunnel Oecologia, Berlin 10(1): 69-78
Huston, R.J.; Tapscott, R.J. 2006: Results of Some Wind Tunnel and Flight Studies with Helicopters at Nasa Annals of the New York Academy of Sciences 107(1): 57-69
Black, R.L. 1969: High-speed store separation - Correlation between wind-tunnel and flight-test data Journal of Aircraft 6(1): 42-45
Henningsson, P.; Spedding, G. R.; Hedenstrom, A. 2011: Vortex wake and flight kinematics of a swift in cruising flight in a wind tunnel Journal of Experimental Biology 214(4): 697-697
Henningsson, P.; Spedding, G.R.; Hedenström, A. 2008: Vortex wake and flight kinematics of a swift in cruising flight in a wind tunnel Journal of Experimental Biology 211(Pt 5): 717-730
Heath, J.J.; Williams, R.N.; Phelan, P.L. 2001: High light intensity: a critical factor in the wind-tunnel flight of two scarabs, the rose chafer and Japanese beetle Journal of Chemical Ecology 27(3): 419-429
Nicholls, C.F. 1961: A low speed wind tunnel for determining the effects of wind on flight activity of insects Canadian Entomol 93(10): 865-866
Schnitzler, H.U. 1972: Flight speed of a white crowned sparrow in a wind tunnel at different wind speeds Journal fuer Ornithologie 113(1): 21-28
Huang, M.; Wang, Z.; Guo, Z.; Niu, Y. 2016: Design of the wind tunnel based virtual flight testing evaluation method for flight control systems Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering 232(1): 17-29
Paynter, Q.; Brady, J. 1996: The effect of wind speed on the flight responses of tsetse flies to CO2: a wind-tunnel study Physiological Entomology 21(4): 309-312
Charlton, R.E.; Kanno, H.; Collins, R.D.; Cardé, R.T. 2008: Influence of pheromone concentration and ambient temperature on flight of the gypsy moth, Lymantria dispar (L), in a sustained-flight wind tunnel Physiological Entomology 18(4): 349-362
Charlton, R.E.; Kanno, H.; Collins, R.D.; Carde, R.T. 1993: Influence of pheromone concentration and ambient temperature on flight of the gypsy moth, Lymantria dispar , in a sustained-flight wind tunnel Physiological Entomology 18(4): 349-362
Sanders, C. J. 1985: Flight speed of male spruce bud worm moths in a wind tunnel at different wind speeds and at different distances from a pheromone source Physiological Entomology 10(1): 83-88
Sanders, CJ. 1985: Flight speed of male spruce budworm moths in a wind tunnel at different wind speeds and at different distances from a pheromone source Physiological Entomology 101: 83-88
Faghani, G.; Ashrafi, Z.N.; Sedaghat, A. 2018: Extrapolating wind data at high altitudes with high precision methods for accurate evaluation of wind power density, case study: Center of Iran Energy Conversion and Management 157: 317-338