J. 2001. The orientation system and migration pattern of long-distance migrants: conflict between model predictions and observed patterns. -J. Avian Biol. 32: 111-119.The requirements of the orientation system of naïve long-distance night migrants were analysed by comparing data on Barred Warbler Syl6ia nisoria, Marsh Warbler Acrocephalus palustris and Spotted Flycatcher Muscicapa striata with data from a computer model of a clock-and-compass system. These species show, respectively, a rather restricted winter distribution in East Africa, migration through a very narrow corridor in East Africa, and rather widely distributed recoveries in the Mediterranean with more concentrated recoveries south of the Sahara. For all three species, to obtain the observed concentrations either a very high directional migratory concentration was needed in computer simulations to bring the birds successfully to their wintering areas or misorientating individuals would be subjected to a very high mortality. Neither the very high directional concentration nor the high mortality amongst misorientating individuals fit the empirical data sets. On the basis of the present study, the observed patterns seem difficult to explain by a simple clock-andcompass system only, and to account for the exceptionally precise migratory routes shown in this study it is proposed that first-time migrants might be able to use landscape topography on a regional scale in combination with corrections of directional mistakes/wind displacements.
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To what degree juvenile migrant birds are able to correct for orientation errors
or wind drift is still largely unknown. We studied the orientation of passerines
on the Faroe Islands far off the normal migration routes of European migrants.
The ability to compensate for displacement was tested in naturally occurring
vagrants presumably displaced by wind and in birds experimentally displaced 1100
km from Denmark to the Faroes. The orientation was studied in orientation cages
as well as in the free-flying birds after release by tracking departures using
small radio transmitters. Both the naturally displaced and the experimentally
displaced birds oriented in more easterly directions on the Faroes than was
observed in Denmark prior to displacement. This pattern was even more pronounced
in departure directions, perhaps because of wind influence. The clear
directional compensation found even in experimentally displaced birds indicates
that first-year birds can also possess the ability to correct for displacement
in some circumstances, possibly involving either some primitive form of true
navigation, or ‘sign posts’, but the cues used for this are highly
speculative. We also found some indications of differences between species in
the reaction to displacement. Such differences might be involved in the
diversity of results reported in displacement studies so far.
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