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Zu Kapitel 21: Elektrorezeption, Magnetorezeption, Infrarotortung
Akesson S et al. (2001) Avian orientation at steep angles of inclination: experiments with migratory white-crowned sparrows at the magnetic North Pole. Proc Roy Soc London B Biol Sci 268: 1907–1913
Brown K (2001) Magnetoreception. Animal magnetism guides migration. Science 294: 283–284
Emde G von der (1999) Active electrolocation of objects in weakly electric fish. J Exp Biol 202: 1205–1215
Emde G von der (2001) Electric fields and electroreception. In: Barth FG, Schmid A (eds) Ecology of sensing. Springer, Berlin Heidelberg New York Tokyo, pp 313–329
Emde G von der, Schwartz S, Gomez L, Budelli R, Grant K (1998) Electric fish measure distance in the dark. Nature 395: 890–894
Harada Y (2002) Experimental analysis of behavior of homing pigeons as a result of functional disorders of their lagena. Acta Otolaryngological 122: 132–137
Hsu C-Y, Li C-W (1994) Magnetoreception in honeybees. Science 265: 95–97
Keim CN et al. (2002) Ferritin in iron containing granules from the fat body of the honeybees Apis mellifera and Scaptotrigona postica. Micron 33: 53–59
Kimchi T, Terkel J (2001) Magnetic compass orientation in the blind mole rat Spalax ehrenbergi. J Exp Biol 204: 751–758
Kirschvink JL et al. (2001) Magnetite-based magnetoreception. Curr Opin Neurobiol 11: 462–467
Kramer B (1996) Electroreception and Communication in Fishes. Fischer, Stuttgart
Liboff AR, Jenrow KA (2000) New model for the avian magnetic compass. Bioelectromagnetics 21: 555–565
Lohmann KJ, Johnen S (2000) The neurobiology of magneto-reception in vertebrate animals. Trends Neurosci 23: 153–159
Lohmann KJ et al. (2001) Regional magnetic fields as navigational markers for sea turtles. Science 294: 364–366
Hsu C-Y, Li C-W (1994) Magnetoreception in honeybees. Science 265: 95–97
Nemec P et al. (2005) Towards the neural basis of magnetoreception: a neuroanatomical approach. Naturwissenschaften 92(4): 151–157
Nishi T et al. (2004) Magnetic sense in the Japanese eel, Anguilla japonica, as determined by conditioning and electrocardiography. J Exp Biol 207 (Pt 7): 2965–2970
Phillips JB (2001) The role of extraocular photoreceptors in new magnetic compass orientation: parallels between light-dependent magnetoreception and polarized light detection in vertebrates. J Exp Biol 2004: 2543–2552
Ritz T, Adem S, Schulten K (2000) A model for photoreceptor-based magnetoreception in birds. Biophys J 78: 707–718
Ritz T et al. (2002) Shedding light on vertebrate magnetoreception. Neuron 34: 503–506
Walker MM et al. (2002) The magnetic sense and its use in long-distance navigation by animals. Curr Opin Neurobiol 12(6): 735–744
Wiltschko W (2001) Magnetic Orientation. In: Dudel J, Menzel R, Schmidt RF (Hrsg) Neurowissenschaft. Vom Molekül zur Kognition. Springer, Berlin Heidelberg New York Tokyo
Wiltschko W, Wiltschko R (2002) Magnetic compass orientation in birds and its physiological basis. Naturwissenschaften 89: 445–452
Wiltschko W et al. (2002) Lateralization of magnetic compass orientation in a migratory bird. Nature 419: 467–470
Wiltschko W et al. (2004) Light-dependent magnetoreception in birds: analysis of the behaviour under red light after pre-exposure to red light. J Exp Biol 207 (pt 7): 1193–1202
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(2007). Wahrnehmung elektrischer und magnetischer Felder — Infrarotortung. In: Tier- und Human-physiologie. Springer-Lehrbuch. Springer, Berlin, Heidelberg . https://doi.org/10.1007/3-540-32733-9_21
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DOI: https://doi.org/10.1007/3-540-32733-9_21
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