Journal article
Quantum magnetic imaging of iron organelles within the pigeon cochlea
RW De Gille, JM McCoey, LT Hall, JP Tetienne, EP Malkemper, DA Keays, LCL Hollenberg, DA Simpson
Proceedings of the National Academy of Sciences of the United States of America | Published : 2021
Abstract
The ability of pigeons to sense geomagnetic fields has been conclusively established despite a notable lack of determination of the underlying biophysical mechanisms. Quasi-spherical iron organelles previously termed "cuticulosomes" in the cochlea of pigeons have potential relevance to magnetoreception due to their location and iron composition; however, data regarding the magnetic susceptibility of these structures are currently limited. Here quantum magnetic imaging techniques are applied to characterize the magnetic properties of individual iron cuticulosomes in situ. The stray magnetic fields emanating from cuticulosomes are mapped and compared to a detailed analytical model to provide a..
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Grants
Awarded by European Research Council
Funding Acknowledgements
We thank Daniel McCloskey for many fruitful discussions throughout the project. The authors acknowledge support from the Australian Research Council through various fellowships to L.C.L.H. (FL130100119) , L.T.H. (DE200101785) , and J.-P.T. (DE170100129) . R.W.d.G. is supported by an Australian Government Research Training Program Scholarship. D.A.K. is supported by the European Research Council (Grants 336725 and 819336) and the Austrian Science Fund (Grant Y726) . E.P.M. is supported by the European Research Council (Grant 948728) .