Seven theses on pigeon homing deduced from empirical findings

Experimental findings obtained in recent years make it possible to recognize and distinguish the most relevant components determining homing flights of displaced pigeons. Conclusions deduced from these experiments, more or less compelling or tentative, are presented in the form of seven theses, supplemented by several subtheses along with reference to empirical data. The principal theses are as follows. (1) Passively displaced pigeons find the way home by using location-dependent signals and not by path integration based on recording of motion. Pigeons are able to home, even from unfamiliar areas, without access to potentially useful information during transport to the release site. (2) Home-related orientation of pigeons in unfamiliar areas requires positional information acquired olfactorily from atmospheric trace gases. Empirically deduced details of olfactory navigation are enumerated (connection with winds and the sun, inaccuracy, spatial range, time course of sampling and memorizing spatial information, etc.). The critical gap in our knowledge, i.e. the nature and spatio-temporal distribution of the substances involved, is provisionally filled by speculation. (3) In familiar areas, known from previous flights, the visual landscape is used additionally to find the way home. (4) Initial orientation of pigeons does not exclusively reflect home-related navigation but includes components independent of the position with respect to home. Observed bearings are co-determined by a general preference for a certain compass direction and by distracting features of the nearby landscape. (5) Proportions among components controlling initial orientation according to theses 2-4 are highly variable depending on local, temporal and experimental conditions and on the life histories of the pigeons. This complexity greatly restricts recognition of the navigationally relevant components of behaviour at a given release site. (6) Sensory inputs, being neither olfactory nor visual, do not substantially contribute to determining the current position with respect to home. This thesis need not be definitive, but at present no contradicting evidence is available. (7) Pigeon homing is a model case of bird homing in general. Experiments with other species support this thesis. So far, there is no reason to assume that wild birds apply mechanisms fundamentally different from those of pigeons to find the way home.

[1]  G V T Matthews,et al.  'Nonsense' orientation in Mallard; a resum and an investigation of the mechanism of a sun-compass , 1984 .

[2]  R Wiltschko,et al.  The role of experience in avian navigation and homing. , 1991, EXS.

[3]  Hans Georg Wallraff,et al.  Initial orientation of homing pigeons as affected by the surrounding landscape , 1994 .

[4]  Hans Georg Wallraff,et al.  Critical comments on the discussion about olfactory navigation in homing pigeons , 1991 .

[5]  Paolo Ioalè,et al.  Preferred compass directions of homing pigeons in Italy , 1995 .

[6]  Wolfgang Wiltschko,et al.  Pigeon Homing: The Effect of Temporary Anosmia on Orientation Behavior , 1992 .

[7]  Our Animal Behaviour Correspondent Navigation: Homing by Pigeons , 1973, Nature.

[8]  Hans Georg Wallraff,et al.  Simulated Navigation Based on Observed Gradients of Atmospheric Trace Gases (Models on Pigeon Homing, Part 3) , 1989 .

[9]  P. Ioale,et al.  A New Experiment To Verify the Spatial Range of Pigeons' Olfactory Map , 1994 .

[10]  W. Schlund,et al.  INTRA-NASAL ZINC SULPHATE IRRIGATION IN PIGEONS: EFFECTS ON OLFACTORY CAPABILITIES AND HOMING , 1992 .

[11]  J. Phillips,et al.  Olfactory cues perceived at the home loft are not essential for the formation of a navigational map in pigeons. , 1991, The Journal of experimental biology.

[12]  P. Ioalé,et al.  The preferred compass directions of homing pigeons can be affected by suitable screening of the home loft , 1996 .

[13]  J. Waldvogel,et al.  Olfactory Orientation by Birds , 1989 .

[14]  P. Dall'antonia,et al.  Anosmic pigeons orient from familiar sites by relying on the map-and-compass mechanism , 1993, Animal Behaviour.

[15]  H. G. Wallraff,et al.  Relationships between initial orientation and subsequent homing of individual pigeons , 1994, Animal Behaviour.

[16]  W. Schlund,et al.  ANOSMIA IN ZnSO4-TREATED PIGEONS: LOSS OF OLFACTORY INFORMATION DURING ONTOGENY AND THE ROLE OF SITE FAMILIARITY IN HOMING EXPERIMENTS , 1993 .

[17]  Hans Georg Wallraff,et al.  Homing experiments with starlings deprived of the sense of smell , 1995 .

[18]  F. Papi,et al.  Recent Experiments on Pigeon Navigation , 1995 .

[19]  W. Keeton,et al.  Avian orientation and navigation. , 1979, Annual review of physiology.

[20]  Hans G. Wallraff,et al.  Home-related and home-independent orientation of displaced pigeons with and without olfactory access to environmental air , 1993, Animal Behaviour.

[21]  Hans G. Wallraff,et al.  To be the first in pigeon homing: championship or luck? , 1994, Animal Behaviour.

[22]  Hans Georg Wallraff,et al.  Long-distance navigation of homing pigeons based on airborne olfactory signals , 1990 .

[23]  R. Wiltschko,et al.  The function of olfactory input in pigeon orientation: does it provide navigational information or play another role? , 1996, The Journal of experimental biology.

[24]  Klaus Schmidt-Koenig,et al.  Bird Navigation: Has Olfactory Orientation Solved the Problem? , 1987, The Quarterly Review of Biology.