[3] COMERFORD N B, SILVEIRA M L, REDDY K R et al. Soil properties as indicators of disturbance in forest ecosystems of Georgia, USA[D]. Ecological Indicators, 9, 740-747(2009).
[4] ONAINDIA M, AMEZAGA I, RODRIGUEZ-LOINAZ G et al. Relationship between vegetation diversity and soil functional diversity in native mixed-oak forests[D]. Soil Biology and Biochemistry, 40, 49-60(2008).
[12] PARTON W J, STEWART J W B, COLE C V. Dynamics of C, N, P and S in grassland soils: A model[D]. Biogeochemistry, 5, 109-131(1988).
[14] PARTON W J, RASMUSSEN P E. Long-term effects of crop management in wheat-fallow: II. CENTURY Model Simulations[D]. Soil Science Society of America Journal, 58, 530-536(1994).
[15] GUENET B, SABY N P A, DIMASSI B et al. The impacts of CENTURY model initialization scenarios on soil organic carbon dynamics simulation in French long-term experiments[D]. Geoderma, 311, 25-36(2018).
[16] H TIESSELL et al. Limited applicability of the CENTURY model to highly weathered tropical soils[D]. Agronomy Journal, 88, 894-903(1996).
[17] ALTHOFF T, MENEZES R S C, PINTO A D S et al. Adaptation of the century model to simulate C and N dynamics of Caatinga dry forest before and after deforestation. Agriculture,[D]. Ecosystems & Environment, 254, 26-34(2018).
[25] BOEHNERT J, BONAN G B, WIEDER W R et al. Regridded Harmonized World Soil Database v1.2. Oak Ridge National Laboratory Distributed Active Archive Center[D]. Oak Ridge, Tennessee, USA(2014).