Abstract: | The effects of permethrin and cypermethrin on the isolated abdominal nerve cord of insecticide-resistant [R] and -susceptible [S] strains of Spodoptera littoralis larvae have been studied. Above ca. 19°C, permethrin at 10?7M caused a prolonged spike train to follow electrical stimulation of the nerve cord. The time of onset of this repetitive firing was significantly greater for the [R] strain. Moreover, cypermethrin, to which this strain shows negligible resistance, did not cause such repetitive discharges. Thus, resistance to permethrin but not to cypermethrin appears to be based on a qualitative difference between the pyrethroids. Nerve blockage by the two pyrethroids was also investigated, with particular reference to temperature. Once again, differences were apparent: when considered relative to untreated controls, permethrin caused quicker nerve blockage as temperature was reduced whereas the blocking action of cypermethrin was not affected by temperature. However, the times taken to cause nerve blockage by permethrin in [R] and [S] larvae were not significantly different, making it unlikely that nerve blockage plays a major role in this resistance. Two methods were employed to reduce the resistance factor in vitro. The synergist dodecyl imidazole failed to significantly reduce the time taken for permethrin to cause either repetitive firing or nerve blockage. However, reducing the calcium concentration in the saline did significantly reduce the latency of repetitive firing caused by permethrin in [R] larvae, thus increasing the nerve sensitivity to approximately the same level as normal calcium, [S] insects. |