Open AccessGravity anomalies without geomagnetic disturbances interfere with pigeon homing – a GPS tracking study
Author(s) -
Nicole Blaser,
S. I. Guskov,
V. A. Entin,
David P Wolfer,
Valeryi A. Kanevskyi,
HansPeter Lipp
Publication year - 2014
Publication title -
journal of experimental biology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.367
H-Index - 185
eISSN - 1477-9145
pISSN - 0022-0949
DOI - 10.1242/jeb.108670
Subject(s) - geodesy , gravity anomaly , earth's magnetic field , geology , homing (biology) , anomaly (physics) , geophysics , magnetic anomaly , free air gravity anomaly , equidistant , physics , bouguer anomaly , paleontology , mathematics , geometry , magnetic field , condensed matter physics , quantum mechanics , oil field
The gravity vector theory postulates that birds determine their position to set a home course by comparing the memorized gravity vector at the home loft with the local gravity vector at the release site, and that they should adjust their flight course to the gravity anomalies encountered. As gravity anomalies are often intermingled with geomagnetic anomalies, we released experienced pigeons from the center of a strong circular gravity anomaly (25 km diameter) not associated with magnetic anomalies and from a geophysical control site, equidistant from the home loft (91 km). After crossing the border zone of the anomaly--expected to be most critical for pigeon navigation--they dispersed significantly more than control birds, except for those having met a gravity anomaly en route. These data increase the credibility of the gravity vector hypothesis.
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