Light-dependent magnetoreception in birds: Increasing intensity of monochromatic light changes the nature of the response.

Wiltschko W, Bischof H-J (2007)
Frontiers in Zoology 4(1): 5.

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Frontiers in Zoology
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Wiltschko W, Bischof H-J. Light-dependent magnetoreception in birds: Increasing intensity of monochromatic light changes the nature of the response. Frontiers in Zoology. 2007;4(1): 5.
Wiltschko, W., & Bischof, H. - J. (2007). Light-dependent magnetoreception in birds: Increasing intensity of monochromatic light changes the nature of the response. Frontiers in Zoology, 4(1), 5. doi:10.1186/1742-9994-4-5
Wiltschko, W., and Bischof, H. - J. (2007). Light-dependent magnetoreception in birds: Increasing intensity of monochromatic light changes the nature of the response. Frontiers in Zoology 4:5.
Wiltschko, W., & Bischof, H.-J., 2007. Light-dependent magnetoreception in birds: Increasing intensity of monochromatic light changes the nature of the response. Frontiers in Zoology, 4(1): 5.
W. Wiltschko and H.-J. Bischof, “Light-dependent magnetoreception in birds: Increasing intensity of monochromatic light changes the nature of the response.”, Frontiers in Zoology, vol. 4, 2007, : 5.
Wiltschko, W., Bischof, H.-J.: Light-dependent magnetoreception in birds: Increasing intensity of monochromatic light changes the nature of the response. Frontiers in Zoology. 4, : 5 (2007).
Wiltschko, W., and Bischof, Hans-Joachim. “Light-dependent magnetoreception in birds: Increasing intensity of monochromatic light changes the nature of the response.”. Frontiers in Zoology 4.1 (2007): 5.

15 Zitationen in Europe PMC

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PMID: 26811445
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PMID: 27798129
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PMID: 23565807
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49 References

Daten bereitgestellt von Europe PubMed Central.

Spectral sensitivities including the ultraviolet of the passeriform bird
Maier EJ., 1992
Chickens' Cry2: molecular analysis of an avian cryptochrome in retinal and pineal photoreceptors.
Bailey MJ, Chong NW, Xiong J, Cassone VM., FEBS Lett. 513(2-3), 2002
PMID: 11904144
Retinal cryptochrome in a migratory passerine bird: a possible transducer for the avian magnetic compass.
Moller A, Sagasser S, Wiltschko W, Schierwater B., Naturwissenschaften 91(12), 2004
PMID: 15551029
Cryptochromes and neuronal-activity markers colocalize in the retina of migratory birds during magnetic orientation.
Mouritsen H, Janssen-Bienhold U, Liedvogel M, Feenders G, Stalleicken J, Dirks P, Weiler R., Proc. Natl. Acad. Sci. U.S.A. 101(39), 2004
PMID: 15381765
Magnetic intensity affects cryptochrome-dependent responses in
Ahmad M, Galland P, Ritz T, Wiltschko R, Wiltschko W., 0

Berg JM, Tymoczko JL, Styer L., 2006
Form-Color Aftereffects in Human Vision
Stromeyer CF., 1978
Central core control of visual cortex functions
Singer W., 1979
Night-vision brain area in migratory songbirds.
Mouritsen H, Feenders G, Liedvogel M, Wada K, Jarvis ED., Proc. Natl. Acad. Sci. U.S.A. 102(23), 2005
PMID: 15928090
Biogenic magnetite as a basis for magnetic field detection in animals.
Kirschvink JL, Gould JL., BioSystems 13(3), 1981
PMID: 7213948
Natural and induced magnetization in the bobolink, ()
Beason RC, Brennon WJ., 1986
Ultrastructural analysis of a putative magnetoreceptor in the beak of homing pigeons.
Fleissner G, Holtkamp-Rotzler E, Hanzlik M, Winklhofer M, Fleissner G, Petersen N, Wiltschko W., J. Comp. Neurol. 458(4), 2003
PMID: 12619070
Responses to small magnetic variations by the trigeminal system of the bobolink.
Semm P, Beason RC., Brain Res. Bull. 25(5), 1990
PMID: 2289162
Does the avian ophthalmic nerve carry magnetic navigational information?
Beason R, Semm P., J. Exp. Biol. 199(Pt 5), 1996
PMID: 9319100
Evidence for a magnetite-based navigational 'map' in birds
Munro U, Munro JA, Phillips JB, Wiltschko R, Wiltschko W., 1997
Magnetoreception and its trigeminal mediation in the homing pigeon.
Mora CV, Davison M, Wild JM, Walker MM., Nature 432(7016), 2004
PMID: 15565156
Magnetite-based 'fixed direction responses' in migratory birds
Wiltschko R, Stapput K, Ritz T, Thalau P, Wiltschko W., 0
Light-dependent magnetoreception in birds: interaction of at least two different receptors.
Wiltschko W, Gesson M, Stapput K, Wiltschko R., Naturwissenschaften 91(3), 2004
PMID: 15034663
A technique for recording migratory orientation in captive birds
Emlen ST, Emlen JT., 1966

Batschelet E., 1981
The skylight polarization at dusk affects the orientation behavior of blackcaps,
Helbig AJ, Wiltschko W., 1989
Development of migratory orientation in Pied Flycatchers in different magnetic inclinations
Weindler P, Beck W, Liepa V, Wiltschko W., 1995

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