刘勇勤,博士,兰州大学泛第三极环境中心教授、中国科学院青藏高原研究所研究员、国家杰出青年基金获得者、享受政府特殊津贴专家。主要从事青藏高原冰雪与湖泊微生物与气候环境关系的研究。第二次青藏高原综合科学考察研究任务五第三负责人及微生物专题负责人,近年来主持国家自然科学基金委重大研究计划重点支持项目、科技部重点研发计划子课题等10余项,曾参与南极麦克默多干谷LTER计划(MCM IV)和北极NASA星外生命探索计划。以第一/通讯作者在 “Nature Biotechnology”、“Microbiome”、“Environmental Microbiology”、“Journal of Glaciology”、“ Chinese Science Bulletin”等期刊发表SCI论文50余篇,主要成果包括:1)揭示了冰川和湖泊微生物群落特征受气候环境影响的现代环境过程;2)揭示了冰芯中微生物的时间演化特征及其对气候环境变化的响应,拓展了青藏高原冰芯气候环境变化的新指标;3)开发建立了青藏高原极端环境微生物菌种库,深化了微生物对青藏高原极端环境适应机制的认识。获第九届青藏高原青年科技奖、王宽诚西部学者突出贡献奖、中科院院长特别奖优秀指导老师奖等荣誉称号。
教育经历
中国科学院青藏高原研究所自然地理学博士(09/2004 – 06/2007)
中国地质大学(北京)地球科学与资源学院硕士( 09/1999 – 06/2002)
中国地质大学(武汉)地质系地层古生物专业学士(09/1987 – 06/1991)
工作经历
兰州大学泛第三极环境中心,教授 (03/2021 – 至今)
中国科学院青藏高原研究所,研究员 (07/2012 –至今)
中国科学院青藏高原研究所,副研究(07/2007 – 07/2012)
美国蒙大拿州立大学土地资源与环境科学系,访问学者(2012 – 2013)
德国马克斯·普朗克陆地微生物研究所,访问学者(2010,2011,2012每年三个月)
德国马克斯·普朗克生物地球化学研究所,访问学者(09/2007 – 12/2007)
南极麦克默多干谷LTER计划(MCM IV)成员(10/2013 – 12/2013)
北极NASA星外生命探索计划成员(10/2012)
冰川生态系统与全球变化/极端环境微生物
2019:中科院院长特别奖优秀指导老师奖
2018:享受政府特殊津贴专家
2014:国家自然科学基金杰出青年基金
2013:中国青藏高原学会青年科学技术奖
2013:王宽城西部学者突出贡献奖
2010:全国百篇优秀博士学位论文提名奖
2009:中国科学院优秀博士论文奖
2008:中国科学院优秀博士研究生
国家自然科学基金联合基金重点支持项目,青藏高原冰川底部生态系统微生物多样性及其驱动的碳循环过程,2022/01-2025/12,正在进行,课题负责人。(U21A20176)
国家重点研发计划,专项“重大自然灾害监测预警与防范”,课题“第三极地表多圈层相互作用及其与南北极的关联”,2020/01-2022/12,正在进行,课题负责人。(2019YFC1509103)
第二次青藏高原综合科学考察,任务五高原生物多样性保护及可持续利用,专题3高原微生物多样性保护及可持续利用,2019/09-2024/09,专题负责人。(2019QZKK0503)
国家自然科学基金重大研究计划,青藏高原冰尘微生物介导的碳代谢及环境效应,2019/01-2022/12,正在进行,主持人。(91851207)
国家杰出青年科学基金,青藏高原冰川-湖泊微生物及其与气候环境关系,2015/01-2019/12,已结题,主持人。(41425004)
国家自然科学基金面上项目,青藏高原湖泊浮游病毒对细菌群落及碳循环的影响,2018/01-2021/12,正在进行,主持人。(41771086)
科技基础性工作专项,“西藏地区极端特色微生物资源及其多样性研究”之课题“西藏地区冰川嗜冷微生物资源调查及多样性研究”,05/2015 - 04/2019,已结题,子课题负责人。(2015FY110100)
国家自然科学基金面上项目,青藏高原季风和西风影响区雪冰微生物与气候环境现代过程研究,01/2014 - 12/2017,已结题,主持人。(41371084)
中国科学院科技创新与交叉团队项目,青藏高原冰川微生物生态系统,01/2013 - 12/2015,已结题,主持人。
国家自然科学基金面上项目,青藏高原湖泊微生物季节空间分布特征及其与气候环境的关系,01/2012 - 12/2015,已结题,主持人。(41171050)
中国科学院重大方向项目,青藏高原湖泊生态系统碳储存对气候环境变化的响应第二子课题,01/2010 - 12/2012,结题,主持人。(KZCX2-YW-JC106)
国家自然科学基金面上项目,青藏高原冰芯记录的微生物空间分布特征及对气候变化的响应,01/2009 - 12/2011,结题,主持人。(40871045)
中国科学院西部之光项目,青藏高原湖泊微生物生态系统及其气候环境变化的响应,01/2009 -12/2011,结题,主持人。
近5年研究成果:
[1] Liu Yongqin* (* Corresponding author),Ji Mukan,Yu Tao,Julian Zaugg,Alexandre M. Anesio,Zhang Zhihao,Hu Songnian,Philip Hugenholtz,Liu Keshao,Liu Pengfei,Chen Yuying,Luo Yingfeng* and Yao Tandong. A genome and gene catalog of glacier microbiomes. Nature Biotechnology,2022: 1-8.
[2] Liu Yongqin,Fang Pengcheng,Guo Bixi,Ji Mukan,Liu Pengfei,Mao Guannan,Xu Baiqing,Kang Shichang and Liu junzhi*. A comprehensive dataset of microbial abundance,dissolved organic carbon,and nitrogen in Tibetan Plateau glaciers. Earth System Science Data,2022,14(5):2303-2314.
[3] Chen Yuying,Liu Yongqin*,Liu Keshao,Ji Mukan and Li Yang. Snowstorm Enhanced the Deterministic Processes of the Microbial Community in Cryoconite at Laohugou Glacier,Tibetan Plateau. Frontiers in microbiology,2022: 4357.
[4] Guo Bixi,Liu Yongqin*,Liu Keshao,Shi Quan,He Chen,Cai Ruanhong and Jiao Nianzhi. Different dissolved organic matter composition between central and southern glaciers on the Tibetan Plateau. Ecological Indicators,2022,139: 108888.
[5] Liu Keshao,Liu Yongqin*,Hu Anyi,Wang Feng,Zhang Zhihao,Yan Qi,Ji Mukan and Trista J. Vick-Majors. Fate of glacier surface snow‐originating bacteria in the glacier‐fed hydrologic continuums. Environmental microbiology,2021,23(11):6450-6462.
[6] Qi Jing,Ji Mukan,Wang Wenqiang,Zhang Zhihao,Liu Keshao,Huang Zhongwei,Liu Yongqin*. Effect of Indian monsoon on the glacial airborne bacteria over the Tibetan Plateau. Science of The Total Environment,2022,831: 154980.
[7] Yan Qi,Liu Yongqin,Hu Anyi,Wan Wenjie,Zhang zhihao and Liu Keshao*. Distinct strategies of the habitat generalists and specialists in sediment of Tibetan lakes. Environmental Microbiology,2022.
[8] Chen Yuying,Liu Keshao,Liu Yongqin,Trista J. Vick-Majors,Wang Feng and Ji Mukan*. Temporal variation of bacterial community and nutrients in Tibetan glacier snowpack. The Cryosphere,2022,16(4):1265-1280.
[9] Guo Bixi,Li Wei,Pamela Santibá?ez,John C.Priscu*,Liu Yongqin and Liu Keshao. Organic matter distribution in the icy environments of Taylor Valley,Antarctica. Science of The Total Environment,2022,841: 156639.
[10] Xing,Tingting,Liu,Pengfei*,Deng Yongcui*,Liu Keshao,Wang Wenqiang,and Liu Yongqin. Sink or source: alternative roles of glacier foreland meadow soils in methane emission is regulated by glacier melting on the Tibetan Plateau. Frontiers in microbiology,2022,13,862242.
[11] Liu,Keshao,Liu,Yongqin*,Hu,Anyi,Wang,Feng,Liang,Jie,Zhang,Zhihao,Anslan,Sten,Ji,Mukan,Hou,Juzhi. Temporal variability of microbial communities during the past 600 years in a Tibetan lake sediment core. Palaeogeography,Palaeoclimatology,Palaeoecology,584 (2021),110678.
[12] Keshao Liu,Tandong Yao,David A. Pearce,Nianzhi Jiao,Yonghui Zeng,Bixi Guo,Yongqin Liu*(* Corresponding author). Bacteria in the lakes of the Tibetan Plateau and polar regions. Science of the Total Environment,754 (2021):142248.
[13] Zang,Lin,Liu,Yongqin*,Song,Xuanying,Cai,Lanlan,Liu,Keshao,Luo,Tingwei,Zhang,Rui*. Unique T4-like phages in high-altitude lakes above 4500 m on the Tibetan Plateau. Science of The Total Environment,801(2021),149649.
[14] Yan,Qi,Deng,Jianming,Wang,Feng,Liu,Yongqin,Liu,Keshao*. Community Assembly and Co-occurrence Patterns Underlying the Core and Satellite Bacterial Sub-communities in the Tibetan Lakes. Frontiers in microbiology,12(2021).
[15] Qi,Jing,Zhongwei Huang*,Teruya Maki,Shichang Kang,Junming Guo,Keshao Liu,Yongqin Liu. Airborne bacterial communities over the Tibetan and Mongolian Plateaus: variations and their possible sources. Atmospheric Research 247 (2021):105215.
[16] Liu Yongqin* (* Corresponding author),Shen Liang,Zeng Yonghui,Xing Tingting,Xu Baiqing,Wang Ninglian. Genomic insights of Cryobacterium isolated from ice core reveal genome dynamics for adaptation in glacier,Frontiers in Microbiology,2020,11: 01530
[17] Keshao Liu,Yongqin Liu*,Anyi Hu,Feng Wang,Yuying Chen,Zhengquan Gu,Sten Anslan,Juzhi Hou. Different community assembly mechanisms underlie similar biogeography of bacteria and microeukaryotes in Tibetan lakes. FEMS Microbiology Ecology,2020,96(6):fiaa071.
[18] Yongqin Liu*,John C. Priscu,Tandong Yao,Trista J. Vick-Majors,Alexander B. Michaud,Liang Shen,Culturable bacteria isolated from seven high-altitude ice cores on the Tibetan Plateau,Journal of Glaciology,2019,65(249) :29-38
[19] Keshao Liu,Juzhi Hou,Yongqin Liu*,Anyi Hu,Mingda Wang,Feng Wang,Yuying Chen,Zhengquan Gu. Biogeography of the free-living and particle-attached bacteria in Tibetan lakes,FEMS Microbiology Ecology,2019,95,fiz088
[20] Liang Shen,Yongqin Liu*,Ninglian Wang,Namita Paudel Adhikari. Genomic insights of Dyadobacter tibetensis Y620-1 isolated from ice core reveal genomic features for succession in glacier environment. Microorganisms,2019,7:211;doi:10.3390/microorganisms7070211
[21] Feng Wang,Yongqin Liu*,Ninglian Wang,Baiqing Xu,Liang Shen,Zhengquan Gu,Keshao Liu,Hongcan Liu,Yuguang Zhou. Haloactinobacterium glacieicola sp. nov.,isolated from an ice core,Int J Syst Evol Microbiol,2019,69:3519–3523,DOI 10.1099/ijsem.0.003653
[22] Namita Paudel Adhikari,Yongqin Liu*,Keshao Liu,Fan Zhang,Subash Adhikari,Yuying Chen,Xiaobo Liu. Bacterial community composition and diversity in Koshi River,the largest river of Nepal,Ecological Indicators,2019,104:501–511
[23] Keshao Liu,Yongqin Liu*,Bo-Ping Han,Baiqing Xu,Liping Zhu,Jianting Ju,Nianzhi Jiao,Jinbo Xiong,Bacterial community changes in a glacial-fed Tibetan lake are correlated with glacial melting,Science of the Total Environment,2019 (651):2059–2067
[24] Keshao Liu,Tandong Yao,Yongqin Liu*,Baiqing Xu,Anyi Hu,Yuying Chen,Elevational patterns of abundant and rare bacterial diversity and composition in mountain streams in the southeast of the Tibetan Plateau,Science China Earth Sciences,2019,62(5) :853–862
[25] Wei Li,John E. Dore,August J. Steigmeyer,Yong-Joon Cho,Ok-Sun Kim,Yongqin Liu,Rachael M. Morgan-Kiss,Mark L. Skidmore,John C. Priscu*. Methane production in the oxygenated water column of a perennially ice-covered Antarctic lake,2019,Limnology and Oceanography,2019,doi: 10.1002/lno.11257
[26] Liang Shen,Yongqin Liu *,Ninglian Wang,Nianzhi Jiao,Baiqing Xu,Xiaobo Liu. Variation with depth of the abundance,diversity and pigmentation of culturable bacteria in a deep ice core from the Yuzhufeng Glacier,Tibetan Plateau,Extremophiles,2018,DOI: 10.1007/s00792-017-0973-8
[27] Lei Xu,Qiuqi Lin,Shaolin Xu,Yangliang Gu,Juzhi Hou,Yongqin Liu,Henri J. Dumont,Bo-Ping Han. Daphnia diversity on the Tibetan Plateau measured by DNA taxonomy,Ecology and Evolution,2018,DOI: 10.1002/ece3.4071
[28] Yang Yang,Ren Hu,Qiuqi Lin,Juzhi Hou,Yongqin Liu,Bo-Ping Han,Luigi Naselli-Flores. Spatial structure and b-diversity of phytoplankton in Tibetan Plateau lakes: nestedness or replacement,Hydrobiologia,2018,DOI .1007/s10750-017-3433-7
[29] Bixi Guo,Yongqin Liu*,Fan Zhang,et al. Heavy metals in the surface sediments of lakes on the Tibetan Plateau,China. Environment Science Pollution Research,2017,doi.org/10.1007/s11356-017-0680-0
[30] Yongqin Liu*,Trista J. Vick-Majors,John C. Priscu,Tandong Yao,Shichang Kang,Keshao Liu,Ziyuang Cong,Jingbo Xiong,Yang Li. Biogeography of cryoconite bacterial communities on glaciers of the Tibetan Plateau,FEMS Microbiology Ecology,2017,93:6,fix072,DOI: 10.1093/femsec/fix072
[31] Liang Shen,Yongqin Liu*,Baiqing Xu,Ninglian Wang,Huabiao Zhao,Xiaobo Liu,Fei Liu. Comparative genomic analysis reveals the environmental impacts on two Arcticibacter strains including sixteen Sphingobacteriaceae species,Scientific Reports,2017,7: 2055
[32] Keshao Liu,Yongqin Liu*,Nianzhi Jiao,Baiqing Xu,Zhengquan Gu,Tingting Xing,Jinbo Xiong. Bacterial community composition and diversity in Kalakuli,an alpine glacial-fed lake in Muztagh Ata of the westernmost Tibetan Plateau,FEMS Microbiology Ecology,2017,93,fix85 doi: 10.1093/femsec/fix085
[33] Yongcui Deng,Yongqin Liu*,Marc Dumont,Ralf Conrad. Salinity affects the composition of the aerobic methanotroph community in alkaline lake sediments from the Tibetan Plateau,Microbial Ecology,2017,73:101–110
[34] Yongqin Liu*,Ralf Conrad,Tandong Yao,Gerd Gleixner,Peter Claus. Change of methane production pathway with sediment depth in a lake on the Tibetan plateau. Palaeogeography,Palaeoclimatology,Palaeoecology,2017,PALAEO-07869
[35] Guo Bixi,Liu Yongqin*,Gu Zhengquan,et al. Aureimonas glaciei sp. nov.,isolated from an ice core. International journal of systematic and evolutionary microbiology,2017,67(2):485-488.
[36] Yongcui Deng,Liang Shen,* Baiqin Xu,Yongqin Liu,et al. Mucilaginibacter psychrotolerans sp. nov.,isolated from peatlands. International journal of systematic and evolutionary microbiology,2017,67: 767-771.
[37] Tingting Xing,Yongqin Liu*,Ninglian Wang,Bainqing Xu,et al. Erythrobacter arachoides sp. nov.,isolated from ice core,International Journal of Systematic and Evolutionary Microbiology,2017,67: 4235-4239.
[38] Tingting Xing,Yongqin Liu*,Ninglian Wang,Bainqing Xu,et al. Polymorphobacter glacialis sp. nov.,isolated from ice core,International Journal of Systematic and Evolutionary Microbiology,2017,67: 617-620.
[39] Zhengquan Gu,Yongqin Liu*,Bainqing Xu et al. Description of Conyzicola nivalis sp. nov.,isolated from glacial snow,and emended description of the genus Conyzicola and Conyzicola lurida,International Journal of Systematic and Evolutionary Microbiology,2017,67: 2818-2822.
[40] Zhengquan Gu,Yongqin Liu*,Bainqing Xu,et al. Hymenobacter frigidus sp. nov.,isolated from a glacier ice core International Journal of Systematic and Evolutionary Microbiology,2017,67:4121–4125
[41] Zhengquan Gu,Yongqin Liu*,Bainqing Xu,et al. Massilia glaciei sp. nov.,isolated from the Muztagh Glacier,International Journal of Systematic and Evolutionary Microbiology,2017,67: 4075–4079