Effects of sulphate (SO4 2−), thiosulphate (S2O3 2−) and hydrogensulphate (HSO4 −) ion additives on the pitting corrosion of pure aluminium in 1 M NaCl solution have been investigated at various solution temperatures T s, 40–70 °C using potentiodynamic polarisation experiment, double current step experiment and scanning electron microscopy (SEM). From the analysis of the galvanostatic potential transients obtained from the double current step experiment, it was suggested that both SO4 2− and S2O3 2− ions retard the initiation of the etch pits, and that they also inhibit the passivation of the etch pits during the current interruption to promote the subsequent re-activation of the etch pits over the whole range of T s. In contrast, it was found that HSO4 − ions promote the initiation of the etch pits and at the same time, they enhance the passivation of the etch pits during the current interruption with rising T s. From the SEM micrographs, it was revealed that as T s increased the pit morphology changed from circular shape to irregular shape with rough surface in the presence of SO4 2− or S2O3 2− ions, but it changed to strip-like shape in the presence of HSO4 − ions. The beneficial effects of anion additives on the increase in surface area were discussed on the basis of the morphological change of the etch pits in the presence of anion additives.