张伟，博士，副研究员

办公电话：010-62888570

电子邮箱：zhangwei1@caf.ac.cn

工作经历：

2022.01-至今，中国林业科学研究院森林生态环境与自然保护研究所，副研究员

2020.12-2021.12，中国林业科学研究院林业新技术研究所，副研究员

2017.07-2020.11，中国林业科学研究院林业新技术研究所，助理研究员

教育经历：

2014.9-2017.6，中国科学院动物研究所，基因组学，博士；

2011.9-2014.6，安徽大学生命科学学院，生态学，硕士；

2007.9-2011.6，河南大学生命科学学院，生物技术，学士；

研究领域：

长期从事森林病理学研究，重点以我国重大外来入侵生物松材线虫为研究对象，结合生态学、分子生物学、生物信息学、微生物组学、基因组学、转录组学和代谢组学等手段，揭示松材线虫、寄主松树、媒介昆虫和伴生微生物多物种互作进化机制。主持和参加国家自然基金和国家重点研发计划项目等4项，发表学术论文近20篇。

主持和参与课题：

2020年-2022年，松树挥发物促进松材线虫扩散型四龄向繁殖型成虫转型的作用机理（31901315），国家自然基金，25万，主持

2018年-2019年，松材线虫由扩散型四龄向繁殖型转型的分子机制，中国林科院院所基金，28万，主持

2018年-2021年，森林重要生物危害因子致害的分子调控机制，国家重点研发计划，450万，参与

2017年-2021年，重大入侵种松材线虫竞争替代本地拟松材线虫的分子和化学通讯基础，国家自然科学基金，264万元，参与

代表成果：

[1]Zhang W, Wang X, Li Y^*, Wei P., Sun N, Wen X, Liu Z, Li D, Feng YQ, Zhang X. 2021, Differences Between Microbial Communities of Pinus Species Having Differing Level of Resistance to the Pine Wood Nematode. Microbial Ecology, 2021. (IF₅=4.77,一区)

[2]Zhang W, Wang X, Li Y^*, Liu Z, Li D, Wen X, Feng Y, Zhang X. 2020. Pinewood nematode alters the endophytic and rhizospheric microbial communities of Pinus massoniana. Microbial Ecology [J]. (IF₅=4.77,一区)

[3]Zhang W, Yu H, Lv Y, Bushley K, Wickham J, Gao S, Hu S, Zhao L^*, Sun J^*. 2020. Gene family expansion of pinewood nematode to detoxify its host defense chemicals.Molecular Ecology. (IF₅=6.6,一区)

[4]Zhang, W, Li, Y^*, Pan, L, Wang, X, Feng, Y, and Zhang, X. 2019. Pine chemical volatiles promote dauer recovery of a pine parasitic nematode, Bursaphelenchus xylophilus.Parasitology.(IF₅=2.5,三区)

[5]Zhang W, Zhao LL, Zhou J, Yu H, Lin Z, Hu SN, Zou Z^*, Sun JH^*. 2019. Enhancement of oxidative stress contributes to increased pathogenicity of the invasive pine wood nematode.Philosophical Transactions of the Royal Society B: Biological Sciences(IF₅=7.2,一区)

[6] Li, Y.^#, Zhang W.^#, Sun N., Wang X., Feng Y., and Zhang X. 2019. Identification and functional verification of differences in phenolic compounds between resistant and susceptible Populus species.Phytopathology. (IF₅=3.6,二区)

[7] Li Y.^#,Zhang W.^#, et al., 2018. Salicylic acid in Populus tomentosa is a remote signalling molecule induced by Botryosphaeria dothidea infection.Scientific Reports. (IF₅=4.5,三区)

[8]Zhang B.^#,Zhang W.^#, Lu M, Ahmad F, Tian H, Ning J, Liu X, Zhao L, Sun J^*. 2017. Chemical Signals of Vector Beetle Facilitate the Prevalence of a Native Fungus and the Invasive Pinewood Nematode.Journal of Nematology(IF₅=1.6,三区)

[9]Zhang W, Meng J, Qin P, Zhou J, Tian H, Zhao LL^*. 2017. Differential immune responses ofMonochamus alternatusagainst entomopathogenic and symbiotic fungi.Science China Life sciences. (IF₅=2.8,一区)

[10]张伟,理永霞^*,刘振凯,高梦鸽,孟繁丽,张星耀. 2019.松材线虫扩散型四龄幼虫向成虫转型发育阶段研究.中国森林病虫. 核心期刊

[11]张伟,张帅,孔祥波,赵莉蔺^*.2014.松材线虫近交系培育及繁殖力比较.生态学报, 34(14), 3932-3936. CSCD收录

[12] Gao, M., Li, Y.^*,Zhang, W., Wei, P., Wang, X., Feng, Y., and Zhang, X. 2019. Bx-daf-22 Contributes to Mate Attraction in the Gonochoristic NematodeBursaphelenchus xylophilus.International Journal of Molecular Sciences. (IF₅=4.3,二区)

[13] Li, Y., Meng, F., Deng, X., Wang, X., Feng, Y.,Zhang, W., Pan, L., and Zhang, X^*. 2019. Comparative transcriptome analysis of the pinewood nematodeBursaphelenchus xylophilusreveals the molecular mechanism underlying its defense response to host-derived α-pinene.International Journal of Molecular Sciences. (IF₅=4.3,二区)

[14] Meng, F., Li, Y.^*, Wang, X., Feng, Y., Liu, Z.,Zhang, W., and Zhang, X. 2019. Thaumatin-Like Protein-1 Gene (Bx-tlp-1) Is Associated with the Pathogenicity of Bursaphelenchus xylophilus.Phytopathology. (IF₅=3.6,二区)

[15] Zhou J., Zhao LL, Yu HY,Zhang W, Ahmad F, Hu,SN^*, et al. 2017. Comparative analysis of theMonochamus alternatusimmune system.Insect Science. (IF₅=2.5,一区)

[16]Zhao LL, Zhang XX, Wei YN, Zhou J,Zhang W, Qin P, Chinta S, Kong X, Liu Y, Hu SN, Zou Z, Butcher RA, Sun JH^*. 2016. Ascarosides mediate interactions between pinewood nematode and its vector beetle.Nature Communications, 7, 12341. (IF₅=13.8,一区)

[17] Zhang B,Zhang W, Nie RE, Li WZ, Segraves KA, Yang XK^*, Xue HJ. 2016. Comparative transcriptome analysis of chemosensory genes in two sister leaf beetles provides insights into chemosensory speciation.Insect Biochemistry and Molecular Biology. (IF₅=3.9,一区)