Foraging honey bees are challenged to balance the energetic costs of thermoregulating and load-carriage at the same time when flying in hot environments. Honey bees can reduce metabolic rate and wingbeat frequency in response to heat, but the kinematic strategies they use while carrying loads are unknown. I observed honey bees (Apis mellifera) carrying a range of nectar loads (0 to 80% of their own body weight in nectar) when flying at 25 and 40°C air temperatures, and found that hotter honey bees decreased their wingbeat frequency (from 230 to 195 Hz) and increased their stroke amplitude (from 90 to 98°) to generate increasing aerodynamic power as they carry heavier nectar loads. The bees flying at 40°C air temperature carrying heavier loads did increase their wingbeat frequency compared to the unloaded individuals. Despite the kinematic changes, both the hot and cold honey bees were able to generate sufficient power to carry loads of roughly equal mass. Bees flying at 40°C air temperature produced more power than their cooler counterparts, suggesting a more efficient mechanism of load carriage.