The roller coaster flight strategy of bar-headed geese conserves energy during Himalayan migrations

The roller coaster flight strategy of bar-headed geese conserves energy during Himalayan migrations

The physiological and biomechanical requirements of flight at high altitude have been the subject of much interest. Here, we uncover a steep relation between heart rate and wingbeat frequency (raised to the exponent 3.5) and estimated metabolic power and wingbeat frequency (exponent 7) of migratory...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2015-01, Vol.347 (6219), p.250-254
Hauptverfasser: Bishop, C. M., Spivey, R. J., Hawkes, L. A., Batbayar, N., Chua, B., Frappell, P. B., Milsom, W. K., Natsagdorj, T., Newman, S. H., Scott, G. R., Takekawa, J. Y., Wikelski, M., Butler, P. J.
Format: Artikel
Sprache:eng
Schlagworte:
Altitude
Animal Migration
Animal populations
Animals
Bioenergetics
Biomechanical Phenomena
Bird migration
Body Temperature
Body Weight
Energy conservation
Energy Metabolism
Exponents
Flight, Animal - physiology
Geese - physiology
Heart Rate
Himalayas
Migration
Mountains
Roller coasters
Strategy
Tibet
Wildfowl
Wings, Animal - physiology
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Zusammenfassung:The physiological and biomechanical requirements of flight at high altitude have been the subject of much interest. Here, we uncover a steep relation between heart rate and wingbeat frequency (raised to the exponent 3.5) and estimated metabolic power and wingbeat frequency (exponent 7) of migratory bar-headed geese. Flight costs increase more rapidly than anticipated as air density declines, which overturns prevailing expectations that this species should maintain high-altitude flight when traversing the Himalayas. Instead, a "roller coaster" strategy, of tracking the underlying terrain and discarding large altitude gains only to recoup them later in the flight with occasional benefits from orographic lift, is shown to be energetically advantageous for flights over the Himalayas.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1258732