Academic title/Position: Professor;Associate dean
Education background:
l2000.9-2004.7, Bachelor in Forestry, Fujian Agriculture and Forestry University.
l2004.9-2009.7, Ph.D in Silviculture, Fujian Agriculture and Forestry University.
Research fields:
lPhosphorus nutrition and utilization
lBiology of tree root system
lSilviculture
lResistance of forest to stress environment
Representative works:
1.Yachao Li, Hui Zhang, Jing Liu, Ming Li, Taimoor Hassan Farooq, Xiangqing Ma, Xiaoli Yan*, Pengfei Wu*. Differential effects of exogenous VOCs on the growth and stress responses of Cunninghamia lanceolata seedlings under low phosphorus. BMC Plant Biology, 2025, 25: 299.
2.Yunlong Tian, Jingjing Xu, Linxin Li, Taimoor Hassan Farooq, Xiangqing Ma, Pengfei Wu*. Effect of arbuscular mycorrhizal symbiosis on growth and biochemical characteristics of Chinese fir (Cunninghamia lanceolata) seedlings under low phosphorus environment. PeerJ, 2024, 12: e17138.
3.Linxin Li, Zhen Yang, Kun He, Muhammad Ahtesham Aslam, Ming Li, Xiangqing Ma, Pengfei Wu*. Change in root morphology, growth, and P transfer: Does foliar P application restrain root P-foraging behavior of Cunninghamia lanceolata seedlings in P-deficient environments. Environmental and Experimental Botany, 2024, 228: 106004.
4.Nana Li, Yue Cao, Jinghui Wu, Ting Zhang, Xianhua Zou, Xiangqing Ma, Pengfei Wu*. Environmental Adaptability and Energy Investment Strategy of Different Cunninghamia lanceolata Clones Based on Leaf Calorific Value and Construction Cost Characteristics. Plants, 2023, 12(14): 2723.
5.Yunlong Tian, Jingjing Xu, Xiaoqian Lian, Bo Wei, Xiangqing Ma, Pengfei Wu*. Effect of Glomus intraradices on root morphology, biomass production and phosphorous use efficiency of Chinese fir seedlings under low phosphorus stress. Frontiers in Plant Science, 2023, 13: 1095772. Research projects:
6.Sub-project of National Key Research and Development Program (2021YFD2201304-05), Close to nature and precision management model of Cunninghamia lanceolata and broadleaf mixed multi-strata forest in Wuyi mountain area. 2021-2024.
7.National Natural Science Foundation of China (31870614), Can Chinese fir with different root architectures mediate root kin recognition through root-emitted volatile organic compounds? 2018-2022.
8.National Natural Science Foundation of China (31870614), The relationship between internal recycle of phosphorus and phosphorus dissolved in cortical tissue of root in Chinese fir genotype with low phosphorus toleration. 2014-2017.
9.National Natural Science Foundation of China (31100472), Response mechanisms of Cunninghamia lanceolata root phosphorus-foraging strategies to neighbor plant competition. 2012-2014.
Email: fjwupengfei@126.com