Hostname: page-component-78c5997874-t5tsf Total loading time: 0 Render date: 2024-11-02T22:18:08.994Z Has data issue: false hasContentIssue false

Oceanic Long-distance Navigation: Do Experienced Migrants use the Earth's Magnetic Field?

Published online by Cambridge University Press:  02 October 2001

S. Åkesson
Affiliation:
(Lund University, Sweden)
P. Luschi
Affiliation:
(University of Pisa, Italy)
A. C. Broderick
Affiliation:
(University of Wales, Swansea)
F. Glen
Affiliation:
(University of Wales, Swansea)
B. J. Godley
Affiliation:
(University of Wales, Swansea)
F. Papi
Affiliation:
(University of Pisa, Italy)
G. C. Hays
Affiliation:
(University of Wales, Swansea)

Abstract

Albatrosses and sea turtles are known to perform extremely long-distance journeys between disparate feeding areas and breeding sites located on small, isolated, oceanic islands or at specific coastal sites. These oceanic journeys, performed mainly over or through apparently featureless mediums, indicate impressive navigational abilities, and the sensory mechanisms used are still largely unknown. This research used three different approaches to investigate whether bi-coordinate navigation based on magnetic field gradients is likely to explain the navigational performance of wandering albatrosses in the South Atlantic and Indian Oceans and of green turtles breeding on Ascension Island in the South Atlantic Ocean. The possibility that magnetic field parameters can potentially be used in a bi-coordinate magnetic map by wandering albatrosses in their foraging area was investigated by analysing satellite telemetry data published in the literature. The possibilities for using bi-coordinate magnetic navigation varied widely between different areas of the Southern Oceans, indicating that a common mechanism, based on a bi-coordinate geomagnetic map alone, was unlikely for navigation in these areas. In the second approach, satellite telemetry was used to investigate whether Ascension Island green turtles use magnetic information for navigation during migration from their breeding island to foraging areas in Brazilian coastal waters. Disturbing magnets were applied to the heads and carapaces of the turtles, but these appeared to have little effect on their ability to navigate. The only possible effect observed was that some of the turtles with magnets attached were heading for foraging areas slightly south of the control turtles along the Brazilian coast. In the third approach, breeding female green turtles were deliberately displaced in the waters around Ascension Island to investigate which cues these turtles might use to locate and return to the island; the results suggested that cues transported by wind might be involved in the final stages of navigation.

Type
Research Article
Copyright
© 2001 The Royal Institute of Navigation

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)