Migratory songbirds have the remarkable ability to extract directional information from the Earth's magnetic field(1,2). The exact mechanism of this light-dependent magnetic compass sense, however, is not fully understood. The most promising hypothesis focuses on the quantum spin dynamics of transient radical pairs formed in cryptochrome proteins in the retina(3-5). Frustratingly, much of the supporting evidence for this theory is circumstantial, largely because of the extreme challenges posed by genetic modification of wild birds. Drosophila has therefore been recruited as a model organism, and several influential reports of cryptochrome-mediated magnetic field effects on fly behaviour have been widely interpreted as support for a radical pair-based mechanism in birds(6-23). Here we report the results of an extensive study testing magnetic field effects on 97,658 flies moving in a two-arm maze and on 10,960 flies performing the spontaneous escape behaviour known as negative geotaxis. Under meticulously controlled conditions and with vast sample sizes, we have been unable to find evidence for magnetically sensitive behaviour in Drosophila. Moreover, after reassessment of the statistical approaches and sample sizes used in the studies that we tried to replicate, we suggest that many-if not all-of the original results were false positives. Our findings therefore cast considerable doubt on the existence of magnetic sensing in Drosophila and thus strongly suggest that night-migratory songbirds remain the organism of choice for elucidating the mechanism of light-dependent magnetoreception.

No evidence for magnetic field effects on the behaviour of Drosophila / Bassetto, Marco; Reichl, Thomas; Kobylkov, Dmitry; Kattnig, Daniel R.; Winklhofer, Michael; Hore, P. J.; Mouritsen, Henrik. - In: NATURE. - ISSN 0028-0836. - 620:7974(2023), pp. 595-599. [10.1038/s41586-023-06397-7]

No evidence for magnetic field effects on the behaviour of Drosophila

Kobylkov, Dmitry;
2023-01-01

Abstract

Migratory songbirds have the remarkable ability to extract directional information from the Earth's magnetic field(1,2). The exact mechanism of this light-dependent magnetic compass sense, however, is not fully understood. The most promising hypothesis focuses on the quantum spin dynamics of transient radical pairs formed in cryptochrome proteins in the retina(3-5). Frustratingly, much of the supporting evidence for this theory is circumstantial, largely because of the extreme challenges posed by genetic modification of wild birds. Drosophila has therefore been recruited as a model organism, and several influential reports of cryptochrome-mediated magnetic field effects on fly behaviour have been widely interpreted as support for a radical pair-based mechanism in birds(6-23). Here we report the results of an extensive study testing magnetic field effects on 97,658 flies moving in a two-arm maze and on 10,960 flies performing the spontaneous escape behaviour known as negative geotaxis. Under meticulously controlled conditions and with vast sample sizes, we have been unable to find evidence for magnetically sensitive behaviour in Drosophila. Moreover, after reassessment of the statistical approaches and sample sizes used in the studies that we tried to replicate, we suggest that many-if not all-of the original results were false positives. Our findings therefore cast considerable doubt on the existence of magnetic sensing in Drosophila and thus strongly suggest that night-migratory songbirds remain the organism of choice for elucidating the mechanism of light-dependent magnetoreception.
2023
7974
Bassetto, Marco; Reichl, Thomas; Kobylkov, Dmitry; Kattnig, Daniel R.; Winklhofer, Michael; Hore, P. J.; Mouritsen, Henrik
No evidence for magnetic field effects on the behaviour of Drosophila / Bassetto, Marco; Reichl, Thomas; Kobylkov, Dmitry; Kattnig, Daniel R.; Winklhofer, Michael; Hore, P. J.; Mouritsen, Henrik. - In: NATURE. - ISSN 0028-0836. - 620:7974(2023), pp. 595-599. [10.1038/s41586-023-06397-7]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11572/436942
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