Academic title/Position: Professor/dean of the academy
Education background:
2000-09~2003-07,Fujian Agriculture and Forestry University, Major in Agricultural Entomology and Pest Control, Part-time Graduate Student/Ph.D., Supervisor: Professor Minsheng You
1997-09~2000-07,Fujian Forestry College, Major in Forest Protection, Part-time Graduate Student/Master's, Supervisor: Professor Qiujin Cai
1990-09~1994-07,Fujian Agricultural University, Major in Plant Protection, Undergraduate/Bachelor's, Supervisor: Professor Jiahua Chen
Research fields:
Forest Pest Control, Forest Entomology
Work Experience:
2004-12~2007-07,Postdoctoral Fellow at the Postdoctoral Research Station of Biology, Xiamen University, Collaborative Advisor: Academician Peng Lin
1994-08-to Present, College of Forestry, Fujian Agriculture and Forestry University (formerly Department of Resources and Environment, Fujian Forestry College), Positions Held: Teaching Assistant, Lecturer, Associate Professor, Professor
Representative papers:
(1) Wen X.Y., Hong Y., Zhong J.H., Li L.M., Ma Q.Y., Hu X., Han X.H., Guo W.H.*, Huang Y.P.*, Zhang F.P.*. Assessing the impact of pine wilt disease on aboveground carbon storage in planted Pinus massoniana Lamb. forests via remote sensing. Science of the Total Environment, 2024, 914, 169906.
(2)Chu X., Yang M.J., Yu L., Xie H.Y., Liu J.Y., Wu S.Q., Zhang, F.P.*, Hu X.*. Double-strand RNAs targeting MaltRelish and MaltSpz reveals potential targets for pest management of Monochamus alternatus. Pesticide Biochemistry and Physiology, 2023, 105495.
(3)Han X.H., Li Y.C., Huang W.L., Wang R., Hu X., Liang G.H., Huang S.G., C.L., Zhang, F.P.*, Wu, S.Q.*. Landscapes drive the dispersal of Monochamus alternatus, vector of the pinewood nematode, revealed by whole-genome resequencing. Forest Ecology and Management, 2023, 529, 120682.
(4)Yang M.J., Yu L., Jiang D., Deng C., Wang ZG, Xu X.H.Z., Wang J., Wu S.Q., Zhang, F.P.*, Hu X.*. Calcium stress reduces the reproductive capacity and pathogenicity of the pine wood nematode (Bursaphelenchus xylophilus) by inhibiting oxidative phosphorylation reaction. Science of the Total Environment, 2023, 169531.
(5)Yang M.J., Li G.Q., Yu L., Du S.J., Jiang D., Chu X., Wang K., Wu S.Q., Wang R., Zhang F.P.*, Hu X.*. Temperature and metal ions regulate larval diapause termination via the 20-hydroxyecdysone and juvenile hormone pathways in Monochamus alternatus. Pest management science, 2022, 79: 437-446.
Research projects:
(1) National Key Research and Development Program Task,Development and Demonstration of High-Efficiency Prevention and Control Product Technologies for Pine Wilt Nematode Vectors (2021YFD1400900),1.7 million yuan,2022/01-2024/12;
(2) National Natural Science Foundation of China (NSFC) Joint Fund for Promoting Cross-Strait Scientific Cooperation,Colonization and Migration Patterns of the Dominant Gut Bacteria Serratia sp. in Monochamus alternatus and Construction of Bt Cry Toxin-Transformed Biocontrol Engineering Strains (U1905201),2.22 million yuan,2020/01-2023/12;
(3) Major Emergency Science and Technology Project Task of the National Forestry and Grassland Administration, Innovation and Demonstration of Control Technologies for Vector Insect Monochamus alternatus (ZD202001), 1 million yuan, 2020/01-2023/12;
(4) National Key Research and Development Program Task, Effects and Mechanisms of Pheromone-Mediated Landscape Mosaic Patterns on Pest Infiltration Interference (2017YFD0600105), 950,000 yuan, 2017/09-2020/09;
(5) National Forestry Public Welfare Industry Major Scientific Research Project, Development and Demonstration of High-Efficiency Attractants and Supporting Technologies for Monochamus alternatus (201304401), 6.88 million yuan, 2013/01-2015/12;
(6) United States Department of Agriculture (USDA), Development of Chemical Attractants for monitoring Monochamus alternatus and Anoplophora chinensis, 570,000 yuan, 2011/01-2013/12;
(7) United States Department of Agriculture (USDA), Evaluation and Development of Survey and Monitoring Technologies for Lymantria spp., 2 million yuan, 2016/04-2022/12;
(8) NSFC General Program, Study on the Mechanism of Extreme Male Bias in the Population of Coccobius azumai (30972379), 370,000 yuan, 2010/01-2012/12;
(9) NSFC General Program, Cold Resistance and Physiological Adaptation of Hemiberlesia pitysophila and Its Introduced Natural Enemy Coccobius azumai (30671690), 320,000 yuan, 2007/01-2009/12.
Email: fpzhang1@163.com;fpzhang@fafu.edu.cn