Name： Min YANG

Professional title： Professor

Research focus：Succession cropping obstacles of Panax notoginseng, Agricultural biodiversity application on plant disease management

Contact Tel No.： 86-13320515981

E-mail address： yangminscnc@126.com

• Education:

• Ph.D.，Plant pathology，Yunnan Agricultural University，2015

• M.S.，Plant pathology，China Agricultural University，2007

• B.S.，Plant protection，China Agricultural University，2004

• Research focus：

My research program addresses questions in succession cropping obstacles of Panax notoginseng, and agricultural biodiversity application on plant disease management. Specifically, I aim to understand the effect and mechanism among P. notoginseng plants, root rot pathogens and microbiota mediated by autotoxin. Another major theme of my research involves chemical interactions among host plants, soilborne pathogens and nonhost plants in biodiversity systems. Deciphering these mechanisms will advance our fundamental knowledge and develop ecological strategies to control soilborne disease in agricultural systems.

• Awards and honors：

• Young and Middle-aged Academic and Technical Leaders Reserve Program in Yunnan Province, 2019

• Yunnan Ten Thousand Talents Plan Young & Elite Talents Project, 2019

• Research Projects

• the Natural Science Foundation of China: Effect and mechanism of leaf pathogen infection on Panax notoginseng-soil feedback (32060719), 2021-2024，project chief

• the Natural Science Foundation of China: The effect and mechanism of Panax notoginseng recruit rhizosphere microbiome to degrade autotoxic ginsenosides (31772404), 2018-2021，project chief

• the Natural Science Foundation of China: The negative root-soil microorganisms feedback mediated by rhizosphere ginsenosides of Panax notoginseng (31660605), 2017-2020，project chief

• Selected Journal Publications：

• Luo L, Yang L, Yan Z, Jiang B, Li S, Huang H, Liu Y, Zhu S*, Yang M*. Ginsenosides in root exudates of Panax notoginseng drive the change of soil microbiota through carbon source different utilization. Plant and Soil, 2020, 455, 139-153

• Yang M, Yuan Y, Huang H, Ye C, Guo C, Xu Y, Wang W, He X, Liu Y, Zhu S*. Steaming combined with biochar application eliminates negative plant-soil feedback for sanqi cultivation. Soil & Tillage Research, 2019, 189: 189-198

• Luo L, Guo C, Wang L, Zhang J, Deng L, Luo K, Huang H, Liu Y, Mei X, Zhu S*, Yang M*. Negative plant-soil feedback driven by re-assemblage of the rhizosphere microbiome with the growth of Panax notoginseng. Frontiers in Microbiology, 2019, 10:1597

• Mei X, Liu Y, Huang H, Du F, Huang L, Wu J, Li Y, Zhu S*, Yang M*. Benzothiazole inhibits the growth of Phytophthora capsici through inducing apoptosis and suppressing stress responses and metabolic detoxification. Pesticide Biochemistry and Physiology, 2019, 154: 7-16

• Yang M, Chuan Y, Guo C, Liao J, Xu Y, Mei X, Liu Y, Huang H, He X, Zhu S*. Panax notoginseng root cell death caused by the autotoxic ginsenoside Rg₁ is due to over-accumulation of ROS, as revealed by transcriptomic and cellular approaches. Frontiers in Plant Science, 2018, 9:264

• Yang M, Duan S, Mei X, Huang H, Chen W, Liu Y, Guo C, Yang T, Wei W, Liu X, He X, Dong Y, Zhu S*. The Phytophthora cactorum genome provides insights into the adaptation to host defense compounds and fungicides. Scientific Reports, 2018, 8:6534

• Yang M, Zhang Y, Qi L, Mei X, Liao J, Ding X, Deng W, Fan L, He X, Vivanco J, Li C, Zhu Y, Zhu S*. Plant-plant-microbe mechanisms involved in soil-borne disease suppression on a maize and pepper intercropping system. PLoS ONE, 2014, 9(12): e115052