Liu, R.; He, Y.; Du, Z.; Zhou, G.; Zhou, L.; Wang, X.; Li, N.; Yan, E.; Feng, X.; Liang, C.;
et al. Root Production and Microbe-Derived Carbon Inputs Jointly Drive Rapid Soil Carbon Accumulation at the Early Stages of Forest Succession. Forests 2022, 13, 2130.
https://doi.org/10.3390/f13122130
AMA Style
Liu R, He Y, Du Z, Zhou G, Zhou L, Wang X, Li N, Yan E, Feng X, Liang C,
et al. Root Production and Microbe-Derived Carbon Inputs Jointly Drive Rapid Soil Carbon Accumulation at the Early Stages of Forest Succession. Forests. 2022; 13(12):2130.
https://doi.org/10.3390/f13122130
Chicago/Turabian Style
Liu, Ruiqiang, Yanghui He, Zhenggang Du, Guiyao Zhou, Lingyan Zhou, Xinxin Wang, Nan Li, Enrong Yan, Xiaojuan Feng, Chao Liang,
and et al. 2022. "Root Production and Microbe-Derived Carbon Inputs Jointly Drive Rapid Soil Carbon Accumulation at the Early Stages of Forest Succession" Forests 13, no. 12: 2130.
https://doi.org/10.3390/f13122130
APA Style
Liu, R., He, Y., Du, Z., Zhou, G., Zhou, L., Wang, X., Li, N., Yan, E., Feng, X., Liang, C., & Zhou, X.
(2022). Root Production and Microbe-Derived Carbon Inputs Jointly Drive Rapid Soil Carbon Accumulation at the Early Stages of Forest Succession. Forests, 13(12), 2130.
https://doi.org/10.3390/f13122130