Abstract
Responses of single mechanoreceptor crayfish neurons to weak extremely low frequency magnetic fields were studied over a wide range of frequencies from 0.001 to 100 Hz, and magnetic fields from 1 to 400 fiT. Observed shifts of neuron impulse activity were weak and variable. They were usually characterized by a slow increase or decrease of spike frequency developing during tens of minutes with markedly variable latencies. Frequency and amplitude “action spectra” were complex, nonlinear, and included several bands (frequency and amplitude “windows”). Neuron response probabilities (if response type and field amplitudes were excluded from consideration) were maximal at 0.001, 0.3, 3, and 60 Hz. They were also maximal at 5, 20, 50, and 300 jaT if field frequencies were not taken into account. Minimal neuron response probabilities were observed at 0.03, 0.8-2, 11-15, and 100 Hz and 1, 10, 30, and 100 /iT, respectively.