Abstract
Biological clocks are innate timing mechanisms that regulate many behavioral and physiological parameters in most organisms. In our modern life, heavy use of mobile phones (MPs) exerts a massive stress on organisms because their electromagnetic radiation usually results in varying degrees of damage to their biological systems including the biological rhythms. In the present study, the possible effects of exposure to radiofrequency–electromagnetic radiation (RF–EMR) from MPs on two characteristic circadian rhythms, locomotor activity and melatonin hormone rhythms, were investigated. Rats were exposed to RF–EMR from MPs at 900 MHz frequency (2-h/day for 2 weeks) during nighttime (20:00–22:00 h) followed by another two weeks without exposure for recovery. Locomotor activity rhythms of the control and treated groups (n = 5/group) were daily recorded using running wheels along the experimental period. For evaluating melatonin hormone rhythm, blood samples of control and treated groups (n = 12/group), were collected at the end of exposure and recovery periods, at 6-h time intervals per day (at 4:00, 10:00, 16:00, and 22:00 h). Rats exposed to RF–EMR exhibited phase shifting as well as a significant increased acrophase level in locomotor activity. Meanwhile, a significant decrease in serum melatonin levels with retaining lower amplitude rhythmicity was observed. Ceasing exposure for two weeks did not restore melatonin levels and circadian locomotor activity rhythms. It could be concluded that, under the current conditions, exposure to RF–EMR revealed disturbances in locomotor activity and melatonin level, although they maintained rhythmicity.
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