A drive force control method for a four-wheel drive vehicle having front wheels as main drive wheels always connected to a driving source, rear wheels as auxiliary drive wheels whose drive torque is adjustable, and a mechanism capable of adjusting a torque distribution ratio between the front wheels and the rear wheels so that the torque distribution ratio of the rear wheels to the front wheels is increased in turning and also capable of adjusting a torque distribution ratio between the right and left rear wheels in turning. The drive force control method includes the steps of detecting a vehicle speed, and gently decreasing the torque distribution ratio of a turning outer wheel to a turning inner wheel with an increase in the vehicle speed. When the transmission shift position is a low-speed position or a high-speed position or the vehicle is in reverse running, the torque distribution ratio of the turning outer wheel to the turning inner wheel is decreased.