个人简介
梁小龙,永利娱高ylg060net,污染生态与环境工程重点实验室,研究员,博士生导师。长期从事土微生物生态学和土壤生物地球化学研究,在土壤病毒生态功能、土壤有机质转化和累积机制、土壤碳库功能提升等方面取得多项成果。近五年以第一/通讯作者在Critical Reviews in Environmental Science and Technology、Soil Biology and Biochemistry等国际主流SCI源期刊发表论文16篇,参与撰写英文专著两部。主要研究成果包括:1)初步揭示了黑土土壤病毒时空格局、驱动因素及与微生物互作的机制;2)探究了土壤病毒影响微生物群落结构及功能的机理;3)首次分析了土壤病毒驱动效应对有机碳周转、温室气体排放和微生物残体积累的贡献。相关成果获得美国田纳西大学“校长奖”和“农学院卓越贡献奖”。担任Frontiers in Microbiology和Soil Science and Environment期刊的副主编、The Innovation、《生态学杂志》和《土壤通报》杂志的青年编委。
教育经历
(1) 2015-08 至 2019-09, The University of Tennessee, Knoxville, 微生物生态, 博士
(2) 2012-08 至 2015-07, 中国科学院大学, 微生物学, 硕士
(3) 2008-08 至 2012-07, 四川师范大学, 环境工程, 学士
研究工作经历
(1) 2019-10 至 2021-09,Washington University in Saint Louis,博士后
(2) 2021-10 至 2023-01,永利娱高ylg060net,中国科学院污染生态与环境工程重点实验室,副研究员
(3) 2023-02 至今,永利娱高ylg060net,中国科学院污染生态与环境工程重点实验室,研究员
研究方向
土壤病毒生态学、微生物生态学与生物地球化学、植物-微生物互作
承担课题
(1)中国科学院百人计划B类项目,土壤病毒驱动微生物过程和碳循环的关键机制,主持,金额:800万,起止时间:2022-2025
(2)国家科学基金委面上基金,土壤病毒驱动微生物群落演替和土壤有机质积累的机制,主持,金额:49万,起止时间:2024-2026
(3)国家重点研发项目子课题,土壤不同来源有机组分的转化特征和稳定机制,主持,金额:60万,起止时间:2022-2027
(4)辽宁省优秀青年科学基金,土壤病毒驱动微生物群落演替和土壤有机质周转的机制,主持,金额:50万,起止时间:2023-2025
(5)永利娱高ylg060net重点自主项目,主持,噬菌体调控土壤碳固存的关键机制及增汇措施,金额:18.6万,起止时间:2022-2024
(6)永利娱高ylg060net环境污染过程与效应创新组群:环境污染及全球变化影响下微生物生态效应
(7)Simons Foundation Early Career Awards,Investigate the biogeochemical consequences of metabolic heterogeneity in marine microbial carbon degradation,参与 (Advisor: Dr. Alexander Bradley),起止时间:2019-2022
(8)美国农业部资助项目,Soil health and substantial productivity: unveiling the role of soil viral biodiversity in agroecosystem function,参与,(Advisor: Dr. Mark Radosevich),起止时间:2018-2021
(9)美国国防部战略环境研究与发展计划SERDP资助项目,Examine the potential consequences of subsurface bioremediation: iron-oxide bioreductive processes and the propensity for contaminant-colloid co-transport and media structural breakdown,参与,(Advisor: Dr. Mark Radosevich),起止时间:2015-2017
已发表论文
(1)Liang X*, Radosevich M, DeBruyn JM, Wilhelm SW, McDearis R, Zhuang J. 2023. Incorporating viruses into soil ecology: a new dimension to understand biogeochemical cycling. Critical Reviews in Environmental Science and Technology. https://doi.org/10.1080/10643389.2023.2223123 (中科院二区/JCR一区;影响因子=12.6)
(2)Liang X#, Wang X#, Zhang N*, Li B*. 2022. Biogeographical Patterns and Assembly of Bacterial Communities in Saline Soils of Northeast China. Microorganisms, 10(9): 1787. https://doi.org/10.3390/microorganisms10091787 (中科院二区/JCR二区;影响因子=4.5)
(3)Deng C#, Liang X#, Zhang N*, Li B*, Wang X, Zeng N. Molecular mechanisms of plant growth promotion for methylotrophic Bacillus aryabhattai LAD. Frontiers in Microbiology, 13: 917382. https://doi.org/10.3389/fmicb.2022.917382 (中科院二区/JCR一区;影响因子=5.2)
(4)Wang F#, Liang X#, Ding F, Ren L, Liang M, An T, Li S, Wang J, Liu L*. 2022. The active functional microbes contribute differently to soil nitrification and denitrification potential under long-term fertilizer regimes in north-east China. Frontiers in Microbiology, 13: 1021080.(中科院二区/JCR一区;影响因子=5.2)https://doi.org/10.3389/fmicb.2022.1021080
(5)Deng C#, Zhang N#, Liang X*, Huang T, Li B*. 2022. Bacillus aryabhattai LAD impacts rhizosphere bacterial community structure and promotes maize plant growth. Journal of the Science of Food and Agriculture, 102(14): 6650-6657. https://doi.org/10.1002/jsfa.12032. (中科院二区/JCR一区;影响因子=4.1)
(6)Duan N, Li L, Liang X, McDearis R, Fine AK, Cheng Z, Zhuang J, Radosevich M, Schaeffer SM*. 2022. Composition of soil viral and bacterial communities after long-term tillage, fertilization, and cover cropping management. Applied Soil Ecology, 177: 104510.
https://doi.org/10.1016/j.apsoil.2022.104510.(中科院二区/JCR二区;影响因子=4.8)
(7)Duan N, Li L, Liang X, Fine A, Zhuang J, Radosevich M, Schaeffer SM*. 2022. Variation in bacterial community structure under long-term fertilization, tillage, and cover cropping in continuous cotton production. Frontiers in Microbiology, 13: 847005. http://doi.org/ 10.3389/fmicb.2022.847005.(中科院二区/JCR一区;影响因子=5.2)
(8)Liang X*, Wang Y, Zhang Y, Li B, Radosevich M*. 2021. Bacteriophage-host depth distribution patterns in soil are maintained after nutrient stimulation in vitro. Science of the Total Environment, 787: 147589. doi: 10.1016/j.scitotenv.2021.147589.(中科院一区/JCR一区;影响因子=9.8)
(9)Liang X, Wang Y, Zhang Y, Zhuang J, Radosevich M*. 2021. The effects of cover plants on soil viral abundance, community composition and correlation with bacterial community. Applied Soil Ecology, 168, 104138. https://doi.org/10.1016/j.apsoil.2021.104138. (中科院二区/JCR二区;影响因子=4.8)
(10)Castel n-S nchez HG, D vila-Ramos R, Liang X, S nchez-Carbente MR. 2021. Viral metagenomics. in Metagenomics and Microbial Ecology: Techniques and Applications. Boca Raton, FL, USA. CRC Press Taylor and Francis Group. In press. doi: https://doi.org/10.1201/9781003042570-12.
(11)Wang F#, Liang X#, Ma S, Liu L*, Wang J*. 2021. Ammonia oxidizing archaea are dominant over comammox in soil nitrification under long-term nitrogen fertilization. Journal of Soils and Sediments, 21, 1800-1814. doi: 10.1007/s11368-021-02897-z. (中科院三区/JCR二区;影响因子=3.6)
(12)Liang X, Zhang Y, Wommack KE, Wilhelm SW, DeBruyn JM, Sherfy AC, Zhuang J, Radosevich M*. 2020. Lysogenic reproductive strategies of viral communities vary with soil depth and are correlated with bacterial diversity. Soil Biology & Biochemistry, 144: 107767. doi: 10.1016/j.soilbio.2020.107767. (中科院一区/JCR一区;影响因子=9.7)
(13)Liang X*, Wagner RE, Li B, Zhang N, Radosevich M*. 2020. Quorum sensing signals alter in vitro soil virus abundance and bacterial community composition. Frontiers in Microbiology, 11: 1287. doi: 10.3389/fmicb.2020.01287. (中科院二区/JCR一区;影响因子=5.2)
(14)Roy K, Ghosh D, DeBruyn JM, Dasgupta T, Wommack KE, Liang X*, Wagner RE, Radosevich M*. 2020. Temporal dynamics of soil virus and bacterial populations in agricultural and early plant successional soils. Frontiers in Microbiology, 11: 1494. doi: 10.3389/fmicb.2020.01494. (中科院二区/JCR一区;影响因子=5.2)
(15)Liang X, Radosevich M. 2020. Phage communication and the ecological implications on microbial interactions, diversity, and function. In Biocommunication of phages (pp. 71-86). Springer, Berlin, Heidelberg. doi: 10.1007/978-3-030-45885-0_3.
(16)Zheng L, Liang X, Shi R, Li P, Zhao J, Li G, Wang S, Han S, Radosevich M, Zhang Y*. 2020. Viral abundance and diversity of production fluids in the oil reservoir. Microorganisms, 8, 1429. doi: 10.3390/microorganisms8091429. (中科院二区/JCR二区;影响因子=4.5)
(17)Liang X, Wagner RE, Zhuang J, DeBruyn JM, Wilhelm SW, Liu F, Yang L, Staton ME, Sherfy AC, Radosevich M*. 2019. Viral abundance and diversity vary with depth in a southeastern United States agricultural ultisol. Soil Biology & Biochemistry, 137: 107546. doi: 10.1016/j.soilbio.2019.107546. (中科院一区/JCR一区;影响因子=9.7)
(18)Liang X, Radosevich M*. 2019. Commentary: A host-produced quorum-sensing autoinducer controls a phage lysis-lysogeny decision. Frontiers in Microbiology, 10: 1201. doi: 10.3389/fmicb.2019.01201. (中科院二区/JCR一区;影响因子=5.2)
(19)Liang X, Zhuang J, L?ffler F, Zhang Y, DeBruyn JM, Wilhelm SW, Schaeffer S, Radosevich M*. 2019. Viral and bacterial community responses to anaerobic Fe(III) bioreduction during simulated subsurface bioremediation. Environmental Microbiology, 21: 2043-2055. doi:10.1111/1462-2920.14566. (中科院二区/JCR一区;影响因子=5.1)
(20)Liang X, Radosevich M, L?ffler F, Schaeffer SM, Zhuang J*. 2019. Impact of microbial iron oxide reduction on the transport of diffusible tracers and non-diffusible nanoparticles in soils. Chemosphere, 220: 391-402. doi: 10.1016/j.chemosphere.2018.12.165. (中科院二区/JCR一区;影响因子=8.8)
(21)Liang X#, Shi R#, Radosevich M, Zhao F, Zhang Y, Han S, Zhang Y*. 2017. Anaerobic lipopeptide biosurfactant production by an engineered bacterial strain for in situ microbial enhanced oil recovery. RSC Advances, 7: 20667-20676. doi: 10.1039/C7RA02453C. (中科院三区//JCR二区;影响因子=3.9)
(22)Wilhelm SW*, Bird JT, Bonifer KS, Calfee BC, Chen T, Coy SR, Gainer PJ, Gann ER, Heatherly HT, Lee J, Liang X, [19 authors in total] et al. 2017. A Student’s Guide to Giant Viruses Infecting Small Eukaryotes: From Acanthamoeba to Zooxanthellae. Viruses, 9: 46. doi:10.3390/v9030046. (中科院三区/JCR二区;影响因子=4.7)
(23)Zhao F, Liang X, Ban Y, Han S, Zhang J, Zhang Y, Ma F*. 2016. Comparison of methods to quantify rhamnolipid and optimization of oil spreading method. Tenside Surfactants Detergents, 53: 243-248. doi: 10.3139/113.110429. (中科院四区/JCR四区;影响因子=1.058)
(24)Zhao F, Mandlaa M, Hao J, Liang X, Shi R, Han S, Zhang Y*. 2014. Optimization of culture medium for anaerobic production of rhamnolipid by recombinant Pseudomonas stutzeri Rhl for microbial enhanced oil recovery. Letters in Applied Microbiology, 59: 231-237. doi: 0.1111/lam.12269. (中科院四区/JCR三区;影响因子=2.813)
(25)梁小龙, 赵峰, 史荣久, 班允赫, 周纪东, 韩斯琴, 张颖*. (2015) 厌氧产脂肽工程菌的构建及其代谢活性评价. 应用生态学报, 26: 2553-2560.
(26)梁小龙, 赵峰, 史荣久, 周纪东, 韩斯琴, 张颖*. (2014) 原生质体融合构建高效产脂肽工程菌. 中国生物工程杂志, 34: 76-84.
(27)陈丹丹, 梁小龙, 余雅琳, 罗继辉, 胡佩*. (2012) 发酵增效剂对燃料乙醇发酵的影响. 发酵科技通讯, 41: 1-3.
学术奖励和荣誉
2023 辽宁省优秀青年基金
2020 The University of Tennessee’s Open Publishing Support Fund
2019 The Ohio State University Viromics Workshop Travel Award
2019 The Graduate Student Senate Travel Award, The University of Tennessee
2018 美国田纳西大学“校长奖”
2018 美国田纳西大学农学院卓越贡献奖
2018 The Graduate Student Senate Travel Award, The University of Tennessee
2017 The Graduate Student Senate Travel Award, The University of Tennessee