Abstract: Soil samples collected from virgin Korean pine forest and broadleaved secondary forest in Xiaoxing’〖KG-*3〗an Mountains, Northeast China were incubated in laboratory at different temperatures (8, 18 and 28 ℃) for 160 days, and the data from the incubation experiment were fitted to a threecompartment, firstorder kinetic model which separated soil organic carbon (SOC) into active, slow, and resistant carbon pools. Results showed that the soil organic carbon mineralization rates and the cumulative amount of C mineralized (all based on per unit of dry soil mass) of the broadleaved secondary forest were both higher than that of the virgin Korean pine forest, whereas the
mineralized C accounted for a relatively smaller part of SOC in the broadleaved secondary forest soil. Soil active and slow carbon pools decreased with soil depth, while their proportions in SOC increased. Soil resistant carbon pool and its contribution to SOC were both greater in the broadleaved secondary forest soil than in the virgin Korean pine forest soil, suggesting that the broadleaved secondary forest soil organic carbon was relatively more stable. The mean retention time (MRT) of soil active carbon pool ranged from 9 to 24 d, decreasing with soil depth; while the MRT of slow carbon pool varied between 7 and 24 a, increasing with soil depth. Soil active carbon pool and its proportion in SOC increased linearly with incubation temperature, and consequently, decreased the slow carbon pool. Virgin Korean pine forest soils exhibited a higher increasing rate of active carbon pool along temperature gradient than the broadleaved secondary forest soils, indicating that the organic carbon pool of virgin Korean pine forest soil was relatively more sensitive to temperature change.