Two types of K+ channels have been identified in patches of plasma membrane of metathoracic extensor tibiae muscle fibres of adult locust, Schistocerca gregaria. One channel had a maximum conductance of 170 pS, fast open-closed kinetics, and a linear current/ voltage relationship. In inside-out patches it was activated by "internally applied" Ca2+, but at unexpectedly low levels (between 10(-10) and 10(-9)M). The other channel had a maximum conductance of 35 pS, slower open-closed kinetics, and was not activated by Ca2+. In cell-attached patches, its channel conductance measured in symmetrical salines was about three times greater for hyperpolarisations than for depolarisations. This inward rectification was proved to be due to block by intracellular Mg2+. For both channels, open probability (Po) and mean open time increased during depolarisations and decreased during hyperpolarisations, resulting in outward rectifications in terms of net current (I n, product of the single-channel current and Po). For both channels, the K+ conductance was 10 times greater than that for Na+. Internally applied tetraethylammonium or tetramethylammonium ions blocked both channels.