We consider the effects of elevated (uniform) temperatures on the pressure hysteresis of LaNi5H, concentrating on two main aspects: (i) promotion of γ-phase formation and (ii) annealing effects. Hysteresis data taken at temperatures up to 110°C and at 30°C after annealing at temperatures up to 400°C are presented and discussed. A strictly ascending sequence of measuring and annealing temperatures was employed. From the discontinuities in the absorption and desorption plateaux, the formation of the γ phase at 90°C in absorption and 60°C in desorption was inferred. Both these temperatures are lower than in the original studies during an ascending temperature sequence. Critical perusal of published data suggests that detailed thermal history, rather than measuring temperature, determines the temperature at which the γ phase appears. Hydrogen cycling at 110°C caused the γ phase to also form during the immediately following absorption-desorption cycle executed at room temperature. It is tentatively proposed that the microstructural modification required to form the γ phase at room temperature is an ordering of dislocations.