单 位: 成都大学新葡的京集团35222vip-Welcome
通讯地址: 成都市龙泉驿区成洛大道2025号成都大学综合楼C202
电子邮件: leeq110@126.com; liqiang02@cdu.edu.cn
学习经历
2013年6月本科毕业于四川大学生命科学学院生物科学(基地班)专业,获理学学士学位。
2016年6月硕士毕业于四川大学生命科学学院微生物学专业,获理学硕士学位。
2019年6月博士毕业于四川大学生命科学学院微生物学专业,获理学博士学位。
2021年10月-至今 四川大学-泸州老窖联合培养博士后
工作经历
2019年7月--2022年7月任成都大学新葡的京集团35222vip-Welcome 特聘副研究员。
2022年8月--至今任成都大学新葡的京集团35222vip-Welcome 特聘研究员。
主要研究方向
近年来,一直从事植物微生物互作、微生物遗传、生态、功能 、微生物污染修复、微生物发酵等方面的研究,以第一作者或通讯作者在国内外期刊发表论文50余篇,其中在 Science of the Total Environment,Environmental Pollution, Chemosphere, IMA Fungus, Frontiers in microbiology, Microbial Biotechnology , International Journal of Biological Macromolecules,Applied Microbiology and Biotechnology等国际著名 SCI 期刊上发表论文40余篇,7篇论文入选 ESI (Top 1%)
高被引论文,承担科研项目15项,获省部级三等奖1项,授权专利3项,担任 BMC genomics,Chemosphere,Science of the Total Environment和 International Journal of Biological Macromolecules 等多个国际著名期刊的审稿专家,并担任 Frontiers in microbiology 等期刊review editor。
主要科研项目
1. 中国博士后科学基金面上项目,主持,立项经费8万。
2. 四川省自然科学基金青年基金项目,主持,立项经费10万。
3. 泸州老窖横向课题1,主持,立项经费56.8万。
4. 泸州老窖横向课题2,主持,立项经费36.8万。
5. 成都市植物园横向课题,主持,立项经费20万。
6. 成都大学引进人才科研启动项目,主持,立项经费30万。
7. 成都大学高层次人才培育计划研究项目,主持,立项经费100万。
8. 四川省科技扶贫服务项目,主持。
9. 中国科学院环境与应用微生物重点实验室/环境微生物四川省重点实验室开放基金,主持,立项经费5万。
10. 云南农业大学绿色食品国际合作研究中心项目子课题,主持,立项经费10万。
科研成果(论文)
[1] Bao Z, Shi C, Tu W, Li L, Li Q*. Recent developments in modification of biochar and its application in soil pollution control and ecoregulation. Environmental Pollution. 2022,313:120184. (二区, IF = 9.988, Top期刊)。
[2] Li Q, Wu Q, Zhang T, Xiang P, Bao Z, Tu W, Li L, Wang Q. Phosphate mining activities affect crop rhizosphere fungal communities. Science of the Total Environment. 2022,838(Pt 2):156196. (一区, IF = 10.753, Top期刊)
[3] Li Q, Xiang P, Zhang T, Wu Q, Bao Z, Tu W, Li L, Zhao C. The effect of phosphate mining activities on rhizosphere bacterial communities of surrounding vegetables and crops. Science of the Total Environment. 2022,821:153479. (一区, IF = 10.753, Top期刊)
[4] Li Q, Luxi Yang , Dabing Xiang , Yan Wan, Qi Wu, Wenli Huang, Gang Zhao. The Complete Mitochondrial Genomes of Two Model Ectomycorrhizal Fungi (Laccaria): Features, Intron Dynamics and Phylogenetic Implications. International Journal of Biological Macromolecules, 2020, 145: 974-984. (一区, IF = 8.025, Top期刊).
[5] Li Q, Dabing Xiang, Yan Wan, Qi Wu, Xiaoyong Wu, Chengrui Ma, Yue Song, Gang Zhao, Wenli Huang. The Complete Mitochondrial Genomes of Five Important Medicinal Ganoderma Species: Features, Evolution, and Phylogeny. International Journal of Biological Macromolecules, 2019, 139: 397-408. (一区, IF = 8.025, Top期刊).
[6] Li Q, Yuanhang Ren, Dabing Xiang, Xiaodong Shi, Jianglin Zhao, Lianxin Peng*, Gang Zhao*. Comparative mitogenome analysis of two ectomycorrhizal fungi (Paxillus) reveals gene rearrangement, intron dynamics, and phylogeny of basidiomycetes. IMA Fungus, 2020, 11(1): 12. (一区, IF = 8.044, Top期刊).
[7] Li Q, Peng Wu, Lijiao Li, Huiyu Feng, Wenying Tu, Zhijie Bao, Chuan Xiong, Mingying Gui*, Wenli Huang*. The first eleven mitochondrial genomes from the ectomycorrhizal fungal genus (Boletus) reveal intron loss and gene rearrangement. International Journal of Biological Macromolecules, 2021, 172: 560-572. (一区, IF = 8.025, Top期刊).
[8] Li Q, Huang W, Xiong C, et al. Transcriptome analysis reveals the role of nitric oxide in Pleurotus eryngii, responses to Cd 2+ stress[J]. Chemosphere, 2018, 201:294. (二区, IF = 8.943, Top期刊).
[9] Li Q, Liao M, Yang M, et al. Characterization of the mitochondrial genomes of three species in the ectomycorrhizal genus Cantharellus, and phylogeny of Agaricomycetes[J]. International Journal of Biological Macromolecules, 2018;118(Pt A):756-769. (一区, IF = 8.025, Top期刊).
[10] Li Q, Wang Q, Chen C, et al. Characterization and comparative mitogenomic analysis of six newly sequenced mitochondrial genomes from ectomycorrhizal fungi (Russula) and phylogenetic analysis of the Agaricomycetes. International Journal of Biological Macromolecules,2018,119: 792-802. (一区, IF = 8.025, Top期刊).
[11] Li Q, Wang Q, Jin X, et al. The first complete mitochondrial genome from the family Hygrophoraceae (Hygrophorus russula) by next-generation sequencing and phylogenetic implications. International Journal of Biological Macromolecules, https://doi.org/10.1016/j.ijbiomac.2018.09.091. (一区, IF = 8.025, Top期刊).
[12] Li Q, Wang Q, Jin X, et al. Characterization and comparative analysis of six complete mitochondrial genomes from ectomycorrhizal fungi of the Lactarius genus and phylogenetic analysis of the Agaricomycetes. International Journal of Biological Macromolecules, https://doi.org/10.1016/j.ijbiomac.2018.10.029. (一区, IF = 8.025, Top期刊).
[13] Li Q, Bao Z, Tang K, Feng H, Tu W, Li L, Han Y, Cao M, Zhao C. First two mitochondrial genomes for the order Filobasidiales reveal novel gene rearrangements and intron dynamics of Tremellomycetes. IMA Fungus. 2022,13(1):7. (一区, IF = 8.044, Top期刊).
[14] Li Q, Li L, Zhang T, Xiang P, Wu Q, Tu W, Bao Z, Zou L, Chen C. The first two mitochondrial genomes for the genus Ramaria reveal mitochondrial genome evolution of Ramaria and phylogeny of Basidiomycota. IMA Fungus. 2022,13(1):16. (一区, IF = 8.044, Top期刊).
[15] Li Q, Ren Y, Shi X, Peng L, Zhao J, Song Y, Zhao G*. Comparative mitochondrial genome analysis of two ectomycorrhizal fungi (Rhizopogon) reveals dynamic changes of intron and phylogenetic relationships of the subphylum Agaricomycotina. International Journal of Molecular Sciences, 2019, 20(20), 5167. (二区, IF = 6.208, Top期刊)
[16] Wang Q#, Li Q#, Lin Y, Hou Y, Deng Z, Liu W, Wang H, Xia Z. Biochemical and genetic basis of cadmium biosorption by Enterobacter ludwigii LY6, isolated from industrial contaminated soil. Environmental Pollution, 2020, 264:114637. (二区, IF = 9.988, Top期刊)。