一、基本情况
肖宇峰,男,1999年4月生,吉林长春人,博士,特任教授,主要研究方向为农药残留生物修复、农药残留分析、环境微生物学、分子生物学、生物信息学分析等。
发表论文21篇,累计影响因子105.8。以第一作者发表SCI 8篇(其中中科院一区TOP 7篇),中文核心2篇;共同第一作者发表3篇,参与作者发表8篇。主要发表在Journal of Hazardous Materials, Journal of Agricultural and Food Chemistry, Journal of Agricultural and Food Chemistry, Journal of Integrative Agriculture, Pesticide Biochemistry and Physiology, Pest Management Science等期刊。
获得2024年博士研究生国家奖学金和2025年博士研究生国家奖学金、2024年第十四届“挑战杯”中国大学生创业计划竞赛国家级铜奖、2026年校长奖学金。
二、学习工作经历
工作经历
2026年7月-至今 长江大学教授
教育背景
2021.09-2026.06 吉林农业大学,农药学,农学博士(硕博连读)
2017.09-2021.06 吉林农业大学,应用化学,理学学士
三、发表论文
1.Xiao Y, Dong M, Yang B, et al. Strengthening bioremediation potential: Enterobacter ludwigii ES2 for combined nicosulfuron and Cd contamination through whole genome and microbial diversity community analysis. 2024, 478, 135476. Journal of Hazardous Materials (中科院一区Top, Q1, 2023IF=12.2).[一作]
2.Xiao Y, Yang B, Wang S, et al. Integrated Transcriptomic and Enzymatic Characterization of the Molecular Insights into Nicosulfuron Biodegradation by Enterobacter ludwigii ES2. 2025, 497, 139641. Journal of Hazardous Materials (中科院一区Top, Q1, 2024IF=11.3). [一作]
3. Xiao Y, Yang B, Wang S, et al. Enhanced Biodegradation Potential of Enterobacter ludwigii ES2 to Nicosulfuron using Metabolomics Analysis, Functional gene El-puuE and γ-aminobutyric acid. 2025, 73, 31, 19562-19575. Journal of Agricultural and Food Chemistry (中科院一区Top, Q1, 2024IF=6.2). [一作]
4. Xiao Y, Zhao M, Liu X, et al. Enhanced Enterobacter ludwigii ES2-mediated thifensulfuron-methyl degradation and maize disease resistance: A multifunctional microbial technology approach. 2025, 73, 48, 30814-30827. Journal of Agricultural and Food Chemistry (中科院一区Top, Q1, 2024IF=6.2) [一作]
5. Xiao Y, Dong M, Wu X, et al. Enrichment, domestication, degradation, adaptive mechanism, and nicosulfuron bioremediation of bacteria consortium YM2. 2025, 24, 9, 3529-3545. Journal of Integrative Agriculture (中科院一区Top, Q1, 2024IF=4.4). [一作]
6. Xiao Y, Wang S, Wei K, et al. Microbial degradation of thifensulfuron-methyl by Klebsiella grimontii ES8 and its degradative enzyme kg-RutF: Mechanistic insights and bioremediation potential. 2026, 218, 106944. Pesticide Biochemistry and Physiology (中科院一区Top, Q1, 2024IF=4.0). [一作]
7.Xiao Y, Dong M, Wang S, et al. Novel microbial technologies for optimizing maize plant-soil systems: the multifunctional strain Enterobacter sp. ES1. 2025, 81, 6, 3174-3185. Pest Management Science (中科院一区Top, Q1, 2024IF=3.8). [一作]
8.Xiao Y, Zheng L, Wang S, et al. Bioremediation of metribuzin-contaminated soil by corn straw biochar-immobilized Bacillus cereus N1. 2023, 130, 520-533. Process Biochemistry (中科院三区, Q1, 2022IF=4.4). [一作]
9.肖宇峰,郑丽宁,王晟屹,等.防治大豆菌核病的药剂筛选及田间应用.农药,2022,61(05):370-373. [一作]
10.肖宇峰, 李婷, 李恩祺,等.金黄杆菌(Chryseobacterium sp.)ES11对烟嘧磺隆的降解特性及其对污染土壤生物修复.农药, 2025, 64(06):424-429. [一作]
11.Zhao M#, Xiao Y#, Yang B, et al. Enhanced biodegradation potential of Klebsiella michiganensis ES15 for acetochlor: Gene knockout, heterologous expression, molecular docking, and bioremediation. 2025, 214,106530. Pesticide Biochemistry and Physiology (中科院一区Top, Q1, 2024IF=4.0).[共同一作]
12.Yang B#, Xiao Y#, Dong M, et al. Bioremediation of soils contaminated with nicosulfuron by the bacterial complex ES58. 2024, 146, 176-187. Process Biochemistry (中科院三区, Q1, 2023IF=3.7).[共同一作]
13.Dong M#, Xiao Y#, Yang B, et al. Serratia marcescens AB1: A rhizosphere bacterium mitigating the acetochlor stress on the soil environment. 2024, 30, 100898. Rhizosphere (中科院三区, Q1, 2023IF=3.4). [共同一作]
14.Dong M, Xiao Y, Wang S, et al. Investigation of bioremediation mechanism of nicosulfuron-contaminated soil by highly efficient degrading bacterial consortium YM1: Analysis of degradation genes and microbial community structure. 2025, 209, 106060. Applied Soil Ecology (中科院二区, Q1, 2024 IF 4.8). [二作]
15.东美奇,肖宇峰,王思雅,等.复合菌YM4对烟嘧磺隆降解及对土壤微生物影响.农药,2024,63(01):32-38+43. [二作]
16.Wang S, Dong M, Xiao Y, et al. Enhanced bioremediation of soils contaminated with nicosulfuron using the bacterial complex A12. 2024, Sep 2;135(9):lxae215. Journal of Applied Microbiology (Q2, 中科院三区, 2023 IF 3.2) [三作]
17.Zheng L, Gu X, Xiao Y, et al.Antifungal activity of Bacillus mojavensis D50 against Botrytis cinerea causing postharvest gray mold of tomato. 2023, 312, 111841. Scientia Horticulturae (Q1, 中科院二区, 2022 IF 4.3). [三作]
18.Zhai Q, Liu Y, Zheng L, Xiao Y, et al. Elucidation of molecular mechanisms underlying degradation of nicosulfuron and its derivative by Klebsiella jilinsis 2N3 using multiomic analysis. 2025, 490, 137838. Journal of Hazardous Materials (Q1, 中科院一区Top, 2024 IF 11.3). [参与作者]
19.Liu K, Wu, Y, Ding Y, Xiao Y, et al. Elucidating the molecular mechanisms underlying nicosulfuron degradation by Serratia sp. NS8 through multi-omics analysis. 2026. 508, 141846. Journal of Hazardous Materials (Q1, 中科院一区Top, 2024 IF 11.3). [参与作者]
20.Wang S, Zheng L, Gao A, Xiao Y, et al. Antifungal activity of Klebsiella grimontii DR11 against Fusarium oxysporum causing soybean root rot. 2023, Nov 1;134(11):lxad245. Journal of Applied Microbiology (Q2, 中科院三区, 2022 IF 4.0). [参与作者]
21.Han Z, Wang S, Gao A, Dong M, Xiao Y, et al.Effective assessment of mixed strains against Fusarium oxysporumf. sp. lycopersici causing tomato wilt. 2025, 136, 102537. Physiological and Molecular Plant Pathology(Q2,中科院三区, 2024 IF 3.3). [参与作者]