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Imaging of the brain response to magnetoreception

Subject Area Statistical Physics, Nonlinear Dynamics, Complex Systems, Soft and Fluid Matter, Biological Physics
Biophysics
Term from 2011 to 2017
Project identifier Deutsche Forschungsgemeinschaft (DFG) - Project number 195504430
 
Behavioural studies over more than 50 years have shown that many animals are able to sense steady magnetic fields even weaker than the earth field and exploit this extraordinary capacity for orientation, navigation and homing. The intriguing question how magnetoreception works, both physically and neuro-physiologically, is still a matter of debate. Major candidate mechanisms are magnetic nanoparticles somehow coupled to the nervous system and field dependent chemical reactions involving photo-induced spin-correlated free radicals. In this project a new non-invasive optical technique, Near Infrared Diffusing Wave Spectroscopy (DWS), will be further developed and used to monitor and image magnetoreception-related brain activity in different animals, primarily homing pigeons, under controlled laboratory conditions. DWS detects mechanical motions down to nm at time scales below µsec and thus has potential to complement other techniques, such as functional Magnetic Resonance Imaging which is comparably slow, by accessing msec post-stimulus times were evoked nervous activity and metabolic changes can be distinguished. Various stimuli such as magnetic field strength, gradient and direction, strong field pulses, modulated fields, light intensity and polarization, and odours will be used either separately or in combinations. This should allow critical tests of the features of both mechanisms of magnetoreception and quantify their significance and eventual interplay.
DFG Programme Reinhart Koselleck Projects
 
 

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