1. Introduction to the Research Team
The team was established in 2024. The team is based at the School of Biological and Food Engineering, Southwest Forestry University, and relies on the university's master's programs in biology and botany, as well as the Forest Products Analysis and Testing Center and the Bioengineering Experimental and Training Center. Leveraging Yunnan's rich resources of medicinal plants, the team focuses on addressing key technological issues in medicinal plant resource chemistry and ecological pest and disease control using modern scientific and technological methods. It aims to provide technical support for the sustainable development of medicinal plants in Yunnan and to promote adjustments in the medicinal plant industry structure and regional economic development. The team consists of five members, including one professor, one associate professor, and three lecturers. It has undertaken over 20 research projects, including those funded by the National Natural Science Foundation of China and Yunnan Provincial research programs, with a focus on the cultivation, green pest control, and development and utilization of medicinal plant resources. In the past five years, the team has published over 30 papers in domestic and international academic journals, of which more than 20 are indexed by SCI.
2. Specific Research Directions
(1) Cultivation and utilization of medicinal plant resources;
(2) Ecological prevention and control of medicinal plant pests and diseases;
(3) Mining of natural active substances in medicinal plants.
3. Research Projects
(1) Research on Insecticidal Active Components and Mechanism of Volatile Oils of Pseudostemonopsis and Pseudostemonotus vulgaris on Cotton Borer, National Natural Science Regional Fund, China.
(2) Yunnan Provincial Department of Science and Technology Agricultural Joint Surface Project Discovery of active lead compounds and mechanism of action of fig leaves against the grass-covetous noctuid moths.
(3) Yunnan Provincial Department of Science and Technology Agricultural Joint Surface Project Research on the Substance Basis and Action Mechanism of Anti-Rheumatic Activity of Cynanchum otophyllum Schneid, an Ethnomedicine of Yunnan Province.
4. Team Leader
HuaYan (Professor, [email protected] )
5. Team Members
Liang Qian (Associate Professor, [email protected])
Sun Rui (Lecturer)
Dong Jinrun (Lecturer, [email protected])
Zhou Shiyong (Lecturer, [email protected])
6. Selected Publications
[1] Tingting Wang, Juan Li, Juan Wang, Yi Lu, Jinkun You , Zhengqi Chen, Dafeng Sun, Yan Hua*. (2025) Effect of extraction methods on the lipidomics profiles of Malania oleifera oils by UPLC-Q-Extractive mass spectrometry[J]. Food Chemistry: X, 27, 1-9.
[2] Shen, K., Xiong, Y., Liu, Y., Fan, X., Zhu, R., Hu, Z., Li, C., & Hua, Y. (2024). Community Structure and Diversity of Endophytic Fungi in Cultivated Polygala crotalarioides at Two Different Growth Stages Based on Culture-Independent and Culture-Based Methods. Journal of fungi (Basel, Switzerland), 10(3), 195.
[3] Jin, Y., Qiao, Q., Dong, L., Cao, M., Li, P., Liu, A., & Sun, R. (2024). Response Surface Optimization for Water-Assisted Extraction of Two Saponins from Paris polyphylla var. yunnanensis Leaves. Molecules (Basel, Switzerland), 29(7), 1652.
[4] Liang, Q., Hu, J. X., Liang, Z. S., Xiao, L. L., & Xu, W. H. (2025). Euphorbia pekinensis Rupr. roots: a comprehensive review of botany, traditional uses, phytochemistry, pharmacology, quality control, and toxicology. Natural product research, 39(10), 2912–2928.
[5] Dong, J., Niu, D., Xiang, P., Dao, Z., & Li, J. (2024). Chemical constituents with potential cytotoxic activities from Cynanchum otophyllum. Natural product research, 1–8.
[6] Lin, Y. P., Fang, Q. L., Fu, S. N., Li, X. P., Shi, R., Du, C. H., Qiao, X., Yin, X. Q., Zeng, Y. C., Zhao, X. J., & Hua, Y. (2023). The alleviating effect of Scutellaria amoena extract on the regulation of gut microbiota and its metabolites in NASH rats by inhibiting the NLRP3/ASC/caspase-1 axis. Frontiers in pharmacology, 14, 1143785.
[7] Liang, Q., Hu, J. X., Zhang, X. M., & Xu, W. H. (2023). Traditional uses, phytochemistry, pharmacology, toxicology, and quality control of Rhododendron dauricum L. leaves: A comprehensive review. Journal of ethnopharmacology, 305, 116085.
[8] Shiyong Zhou, Pan Xia, Junping Chen, Qijiao Xiong, Guanhan Li, Jingyi Tian, Bozhi Wu*, Feng Zhou*. Optimizing Nitrogen Application Position to Change Root Distribution in Soil and Regulate Maize Growth and Yield Formation in a Wide–Narrow Row Cropping System: Pot and Field Experiments. Frontiers in Plant Science.2024,15:1298249.
[9] Shiyong Zhou, Feng Zhou, Xuejing Zi, Dongyun Rao, Kang Liu, Bozhi Wu *. Responses of Maize (Zea mays L.) Roots to Nitrogen Heterogeneity and Intraspecific Competition: Evidence from a Pot Experiment Using the ‘Root Splitting’ Approach. Agronomy.2022,12(12):3101.
[10] Jinrun, Dong, Grace, Gar-Lee, Yue, & Julia, et al. (2020). Potential neurotrophic activity and cytotoxicity of selected c21 steroidal glycosides from cynanchum otophyllum. Medicinal Chemistry Research, 29(3), 549-555.
