Resonance effects indicate a radical-pair mechanism for avian magnetic compass (original) (raw)

References

  1. Wiltschko, W. & Wiltschko, R. Magnetic compass of European robins. Science 176, 62–64 (1972)
    Article ADS CAS PubMed Google Scholar
  2. Wiltschko, R. & Wiltschko, W. Magnetic Orientation in Animals (Springer, Berlin, 1995)
    Book Google Scholar
  3. Kirschvink, J. & Gould, J. Biogenic magnetite as a basis for magnetic field detection in animals. BioSystems 13, 181–201 (1981)
    Article CAS PubMed Google Scholar
  4. Edmonds, D. T. A sensitive optically detected magnetic compass for animals. Proc. R. Soc. Lond. B 263, 295–298 (1996)
    Article ADS CAS Google Scholar
  5. Shcherbakov, V. P. & Winklhofer, M. The osmotic magnetometer: a new model for a magnetite-based magnetoreceptor in animals. Eur. Biophys. J. 28, 380–392 (1999)
    Article CAS Google Scholar
  6. Leask, M. J. A physico-chemical mechanism for magnetic field detection by migratory birds and homing pigeons. Nature 267, 144–145 (1977)
    Article ADS CAS PubMed Google Scholar
  7. Schulten, K. Magnetic field effects in chemistry and biology. Festkörperprobleme (Adv. Solid State Phys.) 22, 61–83 (1982)
    Article CAS Google Scholar
  8. Ritz, T., Adem, S. & Schulten, K. A photoreceptor-based model for magnetoreception in birds. Biophys. J. 78, 707–718 (2000)
    Article CAS PubMed PubMed Central Google Scholar
  9. Wiltschko, W., Munro, U., Ford, H. & Wiltschko, R. Red light disrupts magnetic orientation of migratory birds. Nature 364, 525–527 (1993)
    Article ADS Google Scholar
  10. Wiltschko, W. & Wiltschko, R. Magnetic compass orientation in birds and its physiological basis. Naturwissenschaften 89, 445–452 (2002)
    Article ADS CAS PubMed Google Scholar
  11. Wiltschko, W., Traudt, J., Güntürkün, O., Prior, H. & Wiltschko, R. Lateralization of magnetic compass orientation in a migratory bird. Nature 419, 467–470 (2002)
    Article ADS CAS PubMed Google Scholar
  12. Kobayashi, A. & Kirschvink, J. in Electromagnetic Fields: Biological Interactions and Mechanisms (ed. Blank, M.) 367–394 (American Chemical Society Books, Washington DC, 1995)
    Book Google Scholar
  13. Weaver, J., Vaughn, T. & Astumian, R. Biological sensing of small differences by magnetically sensitive chemical reactions. Nature 405, 707–709 (2000)
    Article ADS CAS PubMed Google Scholar
  14. Kirschvink, J. et al. in Sensory Transduction (eds Corey, D. & Roper, S.) 225–240 (Society of General Physiologists 45th Annu. Symp., Rockefeller Univ. Press, New York, 1992)
    Google Scholar
  15. Cintolesi, F., Ritz, T., Kay, C., Timmel, C. & Hore, P. Anisotropic recombination of an immobilized photoinduced radical pair in a 50 µT magnetic field: a model avian photomagnetoreceptor. Chem. Phys. 294, 384–399 (2003)
    Article Google Scholar
  16. Wiltschko, W. & Wiltschko, R. The effect of yellow and blue light on magnetic compass orientation in European Robins, Erithacus rubecula. J. Comp. Physiol. A 184, 295–299 (1999)
    Article Google Scholar
  17. Wiltschko, W., Gesson, M. & Wiltschko, R. Magnetic compass orientation of European robins under 565 nm green light. Naturwissenschaften 88, 387–390 (2001)
    Article ADS CAS PubMed Google Scholar
  18. Canfield, J., Belford, R., Debrunner, P. & Schulten, K. A perturbation theory treatment of oscillating magnetic fields in the radical pair mechanism. Chem. Phys. 182, 1–18 (1994)
    Article CAS Google Scholar
  19. Kirschvink, J. Microwave absorption by magnetite: a possible mechanism for coupling nonthermal levels of radiation to biological systems. Bioelectromagnetics 17, 187–194 (1996)
    Article CAS PubMed Google Scholar
  20. Beason, R. C. & Nichols, J. E. Magnetic orientation and magnetically sensitive material in a transequatorial migratory bird. Nature 309, 151–153 (1984)
    Article ADS Google Scholar
  21. Fleissner, G. et al. Ultrastructural analysis of a putative magnetoreceptor in the beak of homing pigeons. J. Comp. Neurol. 458, 350–360 (2003)
    Article CAS PubMed Google Scholar
  22. Beason, R. & Semm, P. Does the ophthalmic nerve carry magnetic navigational information? J. Exp. Biol. 199, 1241–1244 (1996)
    CAS PubMed Google Scholar
  23. Munro, U., Munro, J. A., Phillips, J. B., Wiltschko, R. & Wiltschko, W. Evidence for a magnetite-based navigational ‘map’ in birds. Naturwissenschaften 84, 26–28 (1997)
    Article ADS CAS Google Scholar
  24. Wiltschko, W., Munro, U., Ford, H. & Wiltschko, R. Effect of a magnetic pulse on the orientation of silvereyes, Zosterops l. lateralis, during spring migration. J. Exp. Biol. 201, 3257–3261 (1998)
    PubMed Google Scholar
  25. Semm, P. & Beason, R. C. Responses to small magnetic variations by the trigeminal system of the bobolink. Brain Res. Bull. 25, 735–740 (1990)
    Article CAS PubMed Google Scholar
  26. Beason, R. C. & Semm, P. in Acta XX Congr. Int. Ornithol. (ed. Bell, B. D.) 1813–1819 (New Zealand Ornithol. Congr. Trust Board, Wellington, 1991)
    Google Scholar
  27. Batschelet, E. Circular Statistics in Biology (Academic, London, 1981)
    MATH Google Scholar
  28. Timmel, C., Cintolesi, F., Brocklehurst, B. & Hore, P. Model calculations of magnetic field effects on the recombination reactions of radicals with anisotropic hyperfine interactions. Chem. Phys. Lett. 334, 387–395 (2001)
    Article ADS CAS Google Scholar
  29. Wiltschko, W. in Animal Migration, Navigation and Homing (eds Koenig, K. & Keeton, W.) 302–310 (Springer, Berlin, 1978)
    Book Google Scholar

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