Navigation of marine, freshwater and coastal animals: concepts and current problems

The animals from the environments focused on here share the same navigational mechanisms with terrestrial animals. However, some of them seem to rely on additional ways of detecting and/or processing navigational cues, some of which are perhaps still unknown. A classification of the mechanisms of navigation is given. This is based on the source of information that animals use to head for their targets. A selected series of phenomena of current interest is presented, starting with olfactory beaconing in oceanic birds, which allows the detection of patchily distributed food and productive areas from long distances. Animals of sandy beaches rely on an array of mechanisms of orientation, which have an adaptive value for their ecotonal system. As some species are capable of using both the moon and sun compass in orientation, attention and experiments are focused on the significance of these celestial cues in the navigational process. Two clocks of different periods, one of which would appear to regulate both the activity rhythm and the sun compass, are presumed to underlie the two compass mechanisms. The feats of global navigators in and over the oceans are especially puzzling considering their ability of homing to the natal and nesting sites after long lasting, extended wandering in the open ocean, and of pinpointing tiny, isolated oceanic islands. The existent literature allows comparison of the navigational capabilities of oceanic birds with those of sea turtles. Their performances in natural conditions seem to be similar, but sea turtles exhibit a reduced capacity of compensation for experimental relocation. Capacity of positioning based on geomagnetic parameters has been indicated for sea turtles through laboratory experiments, but this is not confirmed by the routes of magnetically disturbed turtles tracked while migrating or attempting to compensate for relocation. Also albatrosses with fitted magnets are not disturbed in their homing.