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Abstract
The marine nudibranch mollusc Tritonia diotnedea orients to the geomagnetic field in the laboratory, and has identifiable brain cells (Pd5, 6) which respond electrically when the ambient magnetic field is rotated artificially. Field studies reported here seek to determine if and why Tritonia diomedea uses geomagnetic cues to orient in the field. Animals were collected in their natural habitat using SCUBA, and placed on lines with magnetic headings parallel to the shore, at different locations with respect to their site of origin. Observations made at two or more tidal cycles later indicate that most animals move from the line in a direction corresponding to the original shoreward direction, regardless of the actual shoreward direction at the site of release, suggesting guidance by geomagnetic cues. Tritonia diomedea are close to neutrally buoyant, and subject to transport over great distances when dislodged by tidal currents or during escape swimming behavior. Since the natural distribution of food and mates is along the shoreline, shoreward orientation using geomagnetic cues, particularly when other cues are weak or ambiguous, may have adaptive value.
Notes
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