On the use of magnets to disrupt the physiological compass of birds

Behavioral researchers have attached magnets to birds during orientation experiments, assuming that such magnets will disrupt their ability to obtain magnetic information. Here, we investigate the effect of an attached magnet on the ability to derive directional information from a radical-pair based compass mechanism. We outline in some detail the geometrical symmetries that would allow a bird to identify magnetic directions in a radical-pair based compass. We show that the artificial field through an attached magnet will quickly disrupt the birds' ability to distinguish pole-ward from equator-ward headings, but that much stronger fields are necessary to disrupt their ability to detect the magnetic axis. Together with estimates of the functional limits of a radical-pair based compass, our calculations suggest that artificial fields of comparable size to the geomagnetic field are not generally sufficient to render a radical-pair based compass non-functional.

[1]  Wolfgang Wiltschko,et al.  Avian navigation: from historical to modern concepts , 2003, Animal Behaviour.

[2]  K. Schulten,et al.  A model for photoreceptor-based magnetoreception in birds. , 2000, Biophysical journal.

[3]  Thomas Ulrich,et al.  Magnetic field effects in chemical kinetics and related phenomena , 1989 .

[4]  S. Åkesson,et al.  Polarized Light Cues Underlie Compass Calibration in Migratory Songbirds , 2006, Science.

[5]  E. Visalberghi,et al.  MAGNETIC INFLUENCES ON PIGEON HOMING , 1979 .

[6]  Thorsten Ritz,et al.  Resonance effects indicate a radical-pair mechanism for avian magnetic compass , 2004, Nature.

[7]  P Jouventin,et al.  Orientation in the wandering albatross: interfering with magnetic perception does not affect orientation performance , 2005, Proceedings of the Royal Society B: Biological Sciences.

[8]  Frank C. Whitmore,et al.  A Preliminary Study of a Physical Basis of Bird Navigation , 1947 .

[9]  W. Cochran,et al.  Migrating Songbirds Recalibrate Their Magnetic Compass Daily from Twilight Cues , 2004, Science.

[10]  T. Ritz,et al.  Two Different Types of Light-Dependent Responses to Magnetic Fields in Birds , 2005, Current Biology.

[11]  J. Kirschvink,et al.  The magnetic sense and its use in long-distance navigation by animals , 2002, Current Opinion in Neurobiology.

[12]  Henrik Mouritsen,et al.  Waved albatrosses can navigate with strong magnets attached to their head , 2003, Journal of Experimental Biology.

[13]  W. Keeton,et al.  Magnets interfere with pigeon homing. , 1971, Proceedings of the National Academy of Sciences of the United States of America.

[14]  M. Davison,et al.  Magnetoreception and its trigeminal mediation in the homing pigeon , 2004, Nature.

[15]  P. Ioalè Pigeon orientation: effects of the application of magnets under overcast skies , 2000, Naturwissenschaften.

[16]  Sönke Johnsen,et al.  The physics and neurobiology of magnetoreception , 2005, Nature Reviews Neuroscience.

[17]  Thorsten Ritz,et al.  Anisotropic recombination of an immobilized photoinduced radical pair in a 50-μT magnetic field: a model avian photomagnetoreceptor , 2003 .

[18]  W. Southern Magnets Disrupt The Orientation Of Juvenile Ring-Billed Gulls , 1972 .

[19]  P. Kukura,et al.  Radio frequency magnetic field effects on a radical recombination reaction: a diagnostic test for the radical pair mechanism. , 2004, Journal of the American Chemical Society.

[20]  Klaus Schulten,et al.  A Biomagnetic Sensory Mechanism Based on Magnetic Field Modulated Coherent Electron Spin Motion , 1978 .

[21]  K. Schmidt-Koenig,et al.  The initial orientation of homing pigeons at the magnetic equator : compass mechanisms and the effect of applied magnets , 1991 .

[22]  B. R. Moore,et al.  Magnetic fields and orientation in homing pigeons: experiments of the late W. T. Keeton. , 1988, Proceedings of the National Academy of Sciences of the United States of America.

[23]  Homing Experiments with Pigeons at the Magnetic Equator , 1986 .

[24]  H. Weimerskirch,et al.  Magnetic cues: are they important in Black-browed Albatross Diomedea melanophris orientation? , 2002 .

[25]  Beason,et al.  Does the avian ophthalmic nerve carry magnetic navigational information? , 1996, The Journal of experimental biology.

[26]  W. Wiltschko,et al.  Avian magnetic compass: fast adjustment to intensities outside the normal functional window , 2006, Naturwissenschaften.

[27]  W. Wiltschko,et al.  Magnetic Compass of European Robins , 1972, Science.

[28]  W. Wiltschko,et al.  Ultrastructural analysis of a putative magnetoreceptor in the beak of homing pigeons , 2003, The Journal of comparative neurology.

[29]  P. Ioalé,et al.  Do bearing magnets affect the extent of deflection in clock-shifted homing pigeons? , 2006, Behavioral Ecology and Sociobiology.

[30]  P. J. Hore,et al.  Model calculations of magnetic field effects on the recombination reactions of radicals with anisotropic hyperfine interactions , 2001 .

[31]  O. Güntürkün,et al.  Lateralization of magnetic compass orientation in a migratory bird , 2002, Nature.

[32]  S. Åkesson,et al.  Avian orientation at steep angles of inclination: experiments with migratory white–crowned sparrows at the magnetic North Pole , 2001, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[33]  H. L. Yeagley,et al.  A Preliminary Study of a Physical Basis of Bird Navigation. Part II , 1951 .

[34]  H. Mouritsen,et al.  Migratory Birds Use Head Scans to Detect the Direction of the Earth's Magnetic Field , 2004, Current Biology.

[35]  W. Wiltschko Further Analysis of the Magnetic Compass of Migratory Birds , 1978 .

[36]  W. Wiltschko [On the effect of static magnetic fields on the migratory orientation of the robin (Erithacus rubecula)]. , 2010, Zeitschrift fur Tierpsychologie.

[37]  Henrik Mouritsen,et al.  Magnetoreception and its use in bird navigation , 2005, Current Opinion in Neurobiology.

[38]  Thorsten Ritz,et al.  Magnetic compass orientation of migratory birds in the presence of a 1.315 MHz oscillating field , 2005, Naturwissenschaften.