DETECTION OF MAGNETIC INCLINATION ANGLE BY SEA TURTLES: A POSSIBLE MECHANISM FOR DETERMINING LATITUDE

For animals that migrate long distances, the magnetic field of the earth provides not only a possible cue for compass orientation, but a potential source of world-wide positional information. At each location on the globe, the geomagnetic field lines intersect the earth's surface at a specific...

Full description

Bibliographic Details
Format: Article in Journal/Newspaper
Language:English
Published: 1994
Subjects:
Champ magnétique
Latitude
Magnetic field
Angle inclinaison
Orientación
Orientation
Angulo inclinación
Chelonia
Latitud
Campo magnético
Reptilia
Vertebrata
Tilt angle
Caretta caretta
North Atlantic
Online Access:https://doi.org/10.17615/y8ag-7805
https://cdr.lib.unc.edu/downloads/b2774488t?file=thumbnail
https://cdr.lib.unc.edu/downloads/b2774488t
id ftcarolinadr:cdr.lib.unc.edu:1544bz69s
record_format openpolar
spelling ftcarolinadr:cdr.lib.unc.edu:1544bz69s 2023-09-05T13:21:42+02:00 DETECTION OF MAGNETIC INCLINATION ANGLE BY SEA TURTLES: A POSSIBLE MECHANISM FOR DETERMINING LATITUDE 1994 https://doi.org/10.17615/y8ag-7805 https://cdr.lib.unc.edu/downloads/b2774488t?file=thumbnail https://cdr.lib.unc.edu/downloads/b2774488t English eng https://doi.org/10.17615/y8ag-7805 https://cdr.lib.unc.edu/downloads/b2774488t?file=thumbnail https://cdr.lib.unc.edu/downloads/b2774488t http://rightsstatements.org/vocab/InC/1.0/ The Journal of Experimental Biology, 194(1) Champ magnétique Latitude Magnetic field Angle inclinaison Orientación Orientation Angulo inclinación Chelonia Latitud Campo magnético Reptilia Vertebrata Tilt angle Caretta caretta Article 1994 ftcarolinadr https://doi.org/10.17615/y8ag-7805 2023-08-19T22:24:09Z For animals that migrate long distances, the magnetic field of the earth provides not only a possible cue for compass orientation, but a potential source of world-wide positional information. At each location on the globe, the geomagnetic field lines intersect the earth's surface at a specific angle of inclination. Because inclination angles vary with latitude, an animal able to distinguish between different field inclinations might, in principle, determine its approximate latitude. Such an ability, however, has never been demonstrated in any animal. We studied the magnetic orientation behavior of hatchling loggerhead sea turtles (Caretta caretta L.) exposed to earth-strength magnetic fields of different inclinations. Hatchlings exposed to the natural field of their natal beach swam eastward, as they normally do during their offshore migration. In contrast, those subjected to an inclination angle found on the northern boundary of the North Atlantic gyre (their presumed migratory path) swam south-southwest. Hatchlings exposed to an inclination angle found near the southern boundary of the gyre swam in a northeasterly direction, and those exposed to inclination angles they do not normally encounter, or to a field inclination found well within the northern and southern extremes of the gyre, were not significantly oriented. These results demonstrate that sea turtles can distinguish between different magnetic inclination angles and perhaps derive from them an approximation of latitude. Most sea turtles nest on coastlines that are aligned approximately north­south, so that each region of nesting beach has a unique inclination angle associated with it. We therefore hypothesize that the ability to recognize specific inclination angles may largely explain how adult sea turtles can identify their natal beaches after years at sea. Article in Journal/Newspaper North Atlantic Carolina Digital Repository (UNC - University of North Carolina)
institution Open Polar
collection Carolina Digital Repository (UNC - University of North Carolina)
op_collection_id ftcarolinadr
language English
topic Champ magnétique
Latitude
Magnetic field
Angle inclinaison
Orientación
Orientation
Angulo inclinación
Chelonia
Latitud
Campo magnético
Reptilia
Vertebrata
Tilt angle
Caretta caretta
spellingShingle Champ magnétique
Latitude
Magnetic field
Angle inclinaison
Orientación
Orientation
Angulo inclinación
Chelonia
Latitud
Campo magnético
Reptilia
Vertebrata
Tilt angle
Caretta caretta
DETECTION OF MAGNETIC INCLINATION ANGLE BY SEA TURTLES: A POSSIBLE MECHANISM FOR DETERMINING LATITUDE
topic_facet Champ magnétique
Latitude
Magnetic field
Angle inclinaison
Orientación
Orientation
Angulo inclinación
Chelonia
Latitud
Campo magnético
Reptilia
Vertebrata
Tilt angle
Caretta caretta
description For animals that migrate long distances, the magnetic field of the earth provides not only a possible cue for compass orientation, but a potential source of world-wide positional information. At each location on the globe, the geomagnetic field lines intersect the earth's surface at a specific angle of inclination. Because inclination angles vary with latitude, an animal able to distinguish between different field inclinations might, in principle, determine its approximate latitude. Such an ability, however, has never been demonstrated in any animal. We studied the magnetic orientation behavior of hatchling loggerhead sea turtles (Caretta caretta L.) exposed to earth-strength magnetic fields of different inclinations. Hatchlings exposed to the natural field of their natal beach swam eastward, as they normally do during their offshore migration. In contrast, those subjected to an inclination angle found on the northern boundary of the North Atlantic gyre (their presumed migratory path) swam south-southwest. Hatchlings exposed to an inclination angle found near the southern boundary of the gyre swam in a northeasterly direction, and those exposed to inclination angles they do not normally encounter, or to a field inclination found well within the northern and southern extremes of the gyre, were not significantly oriented. These results demonstrate that sea turtles can distinguish between different magnetic inclination angles and perhaps derive from them an approximation of latitude. Most sea turtles nest on coastlines that are aligned approximately north­south, so that each region of nesting beach has a unique inclination angle associated with it. We therefore hypothesize that the ability to recognize specific inclination angles may largely explain how adult sea turtles can identify their natal beaches after years at sea.
format Article in Journal/Newspaper
title DETECTION OF MAGNETIC INCLINATION ANGLE BY SEA TURTLES: A POSSIBLE MECHANISM FOR DETERMINING LATITUDE
title_short DETECTION OF MAGNETIC INCLINATION ANGLE BY SEA TURTLES: A POSSIBLE MECHANISM FOR DETERMINING LATITUDE
title_full DETECTION OF MAGNETIC INCLINATION ANGLE BY SEA TURTLES: A POSSIBLE MECHANISM FOR DETERMINING LATITUDE
title_fullStr DETECTION OF MAGNETIC INCLINATION ANGLE BY SEA TURTLES: A POSSIBLE MECHANISM FOR DETERMINING LATITUDE
title_full_unstemmed DETECTION OF MAGNETIC INCLINATION ANGLE BY SEA TURTLES: A POSSIBLE MECHANISM FOR DETERMINING LATITUDE
title_sort detection of magnetic inclination angle by sea turtles: a possible mechanism for determining latitude
publishDate 1994
url https://doi.org/10.17615/y8ag-7805
https://cdr.lib.unc.edu/downloads/b2774488t?file=thumbnail
https://cdr.lib.unc.edu/downloads/b2774488t
genre North Atlantic
genre_facet North Atlantic
op_source The Journal of Experimental Biology, 194(1)
op_relation https://doi.org/10.17615/y8ag-7805
https://cdr.lib.unc.edu/downloads/b2774488t?file=thumbnail
https://cdr.lib.unc.edu/downloads/b2774488t
op_rights http://rightsstatements.org/vocab/InC/1.0/
op_doi https://doi.org/10.17615/y8ag-7805
_version_ 1776202288032907264

Similar Items