Huang, H., Huang, X., Zhu, X., Wang, Y., Yan, J., Li, J., . . . You, Y. Synergistic effects of microbial networks, glomalin-related soil protein, and humic substances jointly enhance the stability of soil aggregates: Evidence from converting pure Pinus massoniana plantations into uneven-aged mixed forests. Elsevier.
Chicago Style (17th ed.) CitationHuang, Haimei, Xueman Huang, Xinyu Zhu, Yi Wang, JinLiu Yan, Jiajun Li, Angang Ming, and Yeming You. Synergistic Effects of Microbial Networks, Glomalin-related Soil Protein, and Humic Substances Jointly Enhance the Stability of Soil Aggregates: Evidence from Converting Pure Pinus Massoniana Plantations into Uneven-aged Mixed Forests. Elsevier.
MLA (9th ed.) CitationHuang, Haimei, et al. Synergistic Effects of Microbial Networks, Glomalin-related Soil Protein, and Humic Substances Jointly Enhance the Stability of Soil Aggregates: Evidence from Converting Pure Pinus Massoniana Plantations into Uneven-aged Mixed Forests. Elsevier.