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Evolution characteristics of a rotating black hole (BH) are discussed in coexistence of the Blandford-Znajek (BZ)process and the magnetic coupling (MC) process in the parameter space consisting of the BH spin and the powerlaw index of the magnetic field on the disc. The condition for the coexistence of the two energy mechanisms are derived by using the mapping relation between the angular coordinate on the BH horizon and the radial coordinate on the disc. It is shown that not only the two mechanisms can coexist, but also the power and the rate of change of BH entropy in the BZ process will dominate over those in the MC process, provided that the BH spin and the power-law index are great enough.