Rats are not aversive when exposed to 60‐Hz magnetic fields at 3.03 mT

Thirty‐two male rats were tested in two replicates of an experiment to determine whether body currents induced by 60‐Hz magnetic fields might lead to avoidance behavior comparable to that which results from exposure to strong 60‐Hz electric fields. The test apparatus was a two‐compartment Plexiglas® shuttlebox enclosed in a sound‐attenuating plywood chamber, which in turn was encompassed by two copper bus bars that, when energized, served as a source of 60‐Hz magnetic fields. Location of the rat, and traverse activity in the shuttlebox were monitored by nine infra‐red photo detectors equally spaced along the length of the apparatus. Rats were divided into 2 groups: 1 group of rats (n = 8 per group per replicate) was sham exposed while rats in the other group (n = 8 per group per replicate) were exposed to a 3.03 mT (30.3 G), 60‐Hz magnetic field whenever they traversed to or were located on the side (L or R) predetermined as the exposed side. To control artifact incident to side preference, the side exposed (L or R) was alternated over the exposed rats. Each rat was tested individually in a 1‐h session. A 2‐factor ANOVA (exposed vs. control, replicate 1 vs. replicate 2) failed to reveal any significant effects due to either factor or to an interaction between factors. These data demonstrate that rats do not avoid exposure to 60‐Hz magnetic fields at a flux density of 3.03 mT and further imply that the avoidance by rats of high level 60‐Hz electric fields is mediated by something other than the internal body currents induced by the exposure. 1992 Wiley‐Liss, Inc.