Li, L.; Liu, L.; Zou, G.; Wang, X.; Xu, L.; Yang, Y.; Liu, J.; Liu, H.; Liu, D.
Composted PBST Biodegradable Mulch Film Residues Enhance Crop Development: Insights into Microbial Community Assembly, Network Interactions, and Soil Metabolism. Plants 2025, 14, 1902.
https://doi.org/10.3390/plants14131902
AMA Style
Li L, Liu L, Zou G, Wang X, Xu L, Yang Y, Liu J, Liu H, Liu D.
Composted PBST Biodegradable Mulch Film Residues Enhance Crop Development: Insights into Microbial Community Assembly, Network Interactions, and Soil Metabolism. Plants. 2025; 14(13):1902.
https://doi.org/10.3390/plants14131902
Chicago/Turabian Style
Li, Liuliu, Liyuan Liu, Guoyuan Zou, Xuexia Wang, Li Xu, Yong Yang, Jinfeng Liu, Huabo Liu, and Dongsheng Liu.
2025. "Composted PBST Biodegradable Mulch Film Residues Enhance Crop Development: Insights into Microbial Community Assembly, Network Interactions, and Soil Metabolism" Plants 14, no. 13: 1902.
https://doi.org/10.3390/plants14131902
APA Style
Li, L., Liu, L., Zou, G., Wang, X., Xu, L., Yang, Y., Liu, J., Liu, H., & Liu, D.
(2025). Composted PBST Biodegradable Mulch Film Residues Enhance Crop Development: Insights into Microbial Community Assembly, Network Interactions, and Soil Metabolism. Plants, 14(13), 1902.
https://doi.org/10.3390/plants14131902
