Yangzhou University | China
Li Guanghao is an accomplished crop scientist specializing in maize cultivation, yield and quality formation, and stress physiology. He earned his B.Sc. in Seed Science and Engineering at Shandong Agricultural University, followed by a Ph.D. in Crop Cultivation and Tillage at the same institution. After completing a postdoctoral fellowship, he joined the College of Agriculture at Yangzhou University, where he currently serves as an Associate Professor and supervisor of master’s students. Over his career, he has conducted extensive research into improving maize yield, nitrogen use efficiency, and quality, especially under challenging environmental conditions such as weak light stress, through optimizing fertilization and cultivation practices. His projects include national and provincial grants investigating physiological mechanisms underlying yield and quality formation, slow-release fertilizer application, and stress mitigation in waxy maize. He has received recognition for his doctoral dissertation as an outstanding thesis in Shandong Province. His research interest centers on maize physiology, agronomic management, abiotic stress tolerance, and sustainable crop production. With sustained publication output, teaching and mentorship experience, and practical application of research findings, he continues contributing to crop science and promoting high-efficiency, high-quality maize production.
Featured Publications
Liu, J., Li, J., Guo, J., Yang, H., Li, G., & Lu, D. (2025, November 26). Application of exogenous 24-Epibrassinolide at the silking stage alleviates the effects of post-silking heat stress on photosynthetic performance of waxy maize. Agriculture.
Liang, Y., Liu, Q., Zeng, J., Xiong, F., Guo, J., Li, G., & Lu, D. (2024, October 23). Optimizing nitrogen input increased yield and efficiency in maize-soybean strip intercropping system. Agronomy.
Jiang, C., Liang, Y., Wang, Y., You, G., Guo, J., Lu, D., & Li, G. (2024, September 24). Effects of sulfur application on the quality of fresh waxy maize. Plants.
Sun, H., Li, W., Liang, Y., & Li, G. (2023, April 23). Shading stress at different grain filling stages affects dry matter and nitrogen accumulation and remobilization in fresh waxy maize. Plants.
Li, G., Wang, L., Li, L., Lu, D., & Lu, W. (2020, January). Effects of fertilizer management strategies on maize yield and nitrogen use efficiencies under different densities. Agronomy Journal.