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教育背景
2005-2008 博士 地球化学 中科院广州地球化学研究所;
2002-2005 硕士 古生物学与地层学 山东科技大学;
1998-2002 本科 地质工程 山东科技大学
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工作经历
2020年12月至:教授,同济大学海洋与地球科学学院;
2014年12月至 2020年12月:副教授,同济大学海洋与地球科学学院;
2010年05月至2014年12月:讲师,同济大学海洋与地球科学学院;
2010年10月至2014年12月:访问学者,美国Oklahoma University;
2008年06月至2010年04月:博士后,同济大学海洋与地球科学学院
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教学与科研成果
研究兴趣
现代海洋生物地球化学过程观测;
现代海底热液系统的微生物生态;
微生物生物成矿作用;
微生物参与的地球化学过程及其相互制约机制。
科研项目
1.有机颗粒沉降驱动的微生物跨层扩散及其对深海碳循环的影响 42576112,2026.01-2029.12,国家自然科学基金面上基金,负责人;
2.智能海洋观测的深海科学基础研究 2022.12-2027.11,上海市基础研究特区计划,负责人;
3.洋壳蚀变过程成矿元素迁移转化的地生耦合研究2021YFF0501301,2021.12-2026.11,国家重点研发计划课题,负责人;
4.海底富铁硅氧化物微生物矿化的显微记录与分子机制 42072333,2021.01-2024.12,国家自然科学基金面上基金,负责人;
5.西南印度洋洋中脊Atlantis Bank下洋壳深部生物圈研究 41772358, 2018.01-2021.12,国家自然科学基金面上基金,负责人;
6.海底热液喷口富Fe-Si低温热液沉淀物的微生物矿化作用及其形成机制研究 41472307,2015.01-2018.12,国家自然科学基金面上基金,负责人;
7.基于观测网的深海化学环境长期实时监测系统研发和集成国家 2012AA09A405,2012.01-2016.12, 863计划海洋技术领域重点项目,负责人;
8.海底热液烟囱体中微生物的分布特征及其关键制约要素41002122,2011.01-2013.12,国家自然科学基金青年科学基金项目,负责人;
研究成果
1.Su, L., Teske, A. P., Marshall, I. P. G., Zeng, Z., Wang, Y., Konhauser, K. O.*, Li, Y., Hou, S., & Li, J*. (2026). Genomic adaptation strategies to habitat switching in Korarchaeota. Science advances, 12(2), eaea1035. https://doi.org/10.1126/sciadv.aea1035
2.Wei, S., Cai, L., Zheng, H., Wei, S., Xu, B., Zhang, R., Xu, Y.*, & Li, J.* (2025). Unveiling a novel broad-host-range cyanomyovirus cross-infecting Prochlorococcus and Synechococcus. BMC biology, 10.1186/s12915-025-02481-8.
3.Zhou, Z., Xiao, H., Huang, B., Li, J.*, Yang, S. (2025). Siderite transformation pathways in early diagenesis: Effects of phosphate, silicate, humic acid and sulfide. Chemical Geology, 695, 0009-254
4.Wei, S., Wang, A., Cai, L., Ma, R., Lu, L., Li, J.*, & Zhang, R*. (2025). Proteomic Analysis of Marine Bacteriophages: Structural Conservation, Post-Translational Modifications, and Phage-Host Interactions. Environmental microbiology, 27(4), e70099.
5.Zhou, Z., Li, J.*, Notini, L., He, Z., Schad, M., Konhauser, K., Yang, S. (2025). Fe(II)aq-induced transformation of Fe-rich precipitates from a hydrothermal field. Geochemical Perspectives Letters. 36, 28–34.
6.Xiao, H., Zhou, Z., Li, J., & Yang, S. (2025). Molecular Alteration of Dissolved Organic Matter in Intertidal Sediments: The Role of Fe(II) Reoxidation. Environmental science & technology, 59(50), 27316–27326. https://doi.org/10.1021/acs.est.5c06631
7.Miao, X., Oppo, D., Wei, J., Li, J.,Li, J., Du, M., Guan, H., Liu, X., Li, J., Wu, T., Wu, K., Li, J. Environmental sulfidation and Mo source jointly control Mo isotopic composition in sediments under methane seepage. GSA Bulletin 2025; 137 (9-10): 4467–4477. doi: https://doi.org/10.1130/B37992.1
8.u, X., Miao, X., Oppo, D., Guan, H., Wei, J., Li, J., Wu, T. Trace element signatures in sedimentary pyrite as indicators of methane seepage activities. Marine and Petroleum Geology, Volume 173, 2025, 107290, ISSN 0264-8172, https://doi.org/10.1016/j.marpetgeo.2025.107290.
9.Shen, W., Wang, D., Li, J., Liu, Y., Wang, Y., Yang, X., Peng, X., Xie, B., Su, L., Wei, Z., He, Q., Wang, Z., Feng, K., Du, W., & Deng, Y. (2025). Developing a microfluidic-based epicPCR reveals diverse potential hosts of the mcrA gene in marine cold seep. mLife, 4(1), 70–82. https://doi.org/10.1002/mlf2.12159
10.沈玥,孙明雪,周哲,贺治伟,王鹏,张灵敏,李江涛*. 海底低温热液沉淀物中锰氧化物的显微结构特征及其指示意义[J].海洋地质与第四纪地质,2025,45(4):73-84.
11.骈泽宇,宿蕾,张燕,王鹏,李江涛*.海底热液烟囱体中微生物多样性研究进展[J].海洋地质与第四纪地质,2025,45(03):72-82.
12.Gong, X.*, Xu, L., Langwig, M. V., Chen, Z., Huang, S., Zhao, D., Su, L., Zhang, Y., Francis, C. A., Liu, J.*, Li, J.*, & Baker, B. J*. (2024). Globally distributed marine Gemmatimonadota have unique genomic potentials. Microbiome, 12(1), 149. https://doi.org/10.1186/s40168-024-01871-4
13.Su, L., Marshall, I. P. G., Teske, A. P., Yao, H., & Li, J*. (2024). Genomic characterization of the bacterial phylum Candidatus Effluviviacota, a cosmopolitan member of the global seep microbiome. mBio, 15(8), e0099224. https://doi.org/10.1128/mbio.00992-24
14.Wang, H.*, Wang, W., Ellwood, M. J., Li J.*, Zhou, H., Butterfield. A. A., Buck, N. J., Maharaj, P., & Resing, J. A. (2024). Dissolved Cu isotope compositions in hydrothermal plumes over back-arc volcanoes in the Northeast Lau Basin, Southwest Pacific Ocean. Geochimica et Cosmochimica Acta, 381, 1-11.
15.Ma, Z., Mara, P., Su, L., Wang, L., Li, H., Zhang, R., Edgcomb, V. P., & Li, J*. (2024). Particle size shapes prokaryotic communities and vertical connectivity in the water columns of the slope and central basin of the South China Sea. Global and Planetary Change, 104497.
16.Li, J.*, Sun, M., Qi, W., Zhou, Z., Hohl, S. V., & He, Z*. (2024). Geochemical and Sr‐Nd‐Pb‐Fe isotopic constraints on the formation of Fe‐Si oxyhydroxide deposits at the ultraslow‐spreading Southwest Indian Ridge. Geochemistry, Geophysics, Geosystems, 25(2), e2023GC011185.
17.Zhou, Y., Zheng, J., Song, W., Yan, X., Du, L., Ma, Z., Fu, Y., Ouyang, Z., Xiao, Y., Liu, Z., Tian, F., Wong, J. W. H., Shih, J. H. D., Liang, S., Tian, H., Liu, L., Wei, K.*, Zhang, C.*, Li, J.* & Wang, X*. (2024). OUTPOST: A comprehensive analysis software for whole‐metagenome shotgun sequencing incorporating group stratification. iMetaOmics, e29.
18.Wei, J., Miao, X.*, Gan, K., Li, J., Li, J., Liu, X., Xu, H. C., Chen, S., Ta, K. W., Wan, Z. F., & Wu, T. (2024). The formation of tubular seep carbonate deciphered from mineralogical and geochemical characteristics: an example from the South China Sea. Frontiers in Marine Science, 11, 1451624.
19.Chen, Z., Jia, Z., Gong, S.*, Li, J., Antler, G., & Feng, D*. (2024). Behaviors of trace elements under varying methane seepage intensity: Insight from tubular seep carbonates in the South China Sea. Marine and Petroleum Geology, 163, 106816.
20.Chen, Y., Xu, S., Liu, W., Zhang, Z., Yang, T., Xiao, X., Deng, X., Li, J., Yao, H., & Wu, Z*. (2024). Assessing biogeochemical controls on porewater dissolved inorganic carbon cycling in the gas hydrate-bearing sediments of the Makran accretionary wedge, Northeastern Arabian Sea off Pakistan. Frontiers in Marine Science, 10, 1181921.
21.Holzheid, A.*, Zhao, H.*, Cabus, T.*, Fan, L.*, Kuhn, T.*, Sun, L.*, Tao,C.*, Haeckel,M.*, Hoang,D.*, Kelly,N.*, Kihara T.*, Li,B.*, Li,J.*, Ma, J.*, Matz-Lück,N.*, Meyn,K.*, Molari,M.*, Petersen,S.*, Pollmann,K.*, Rudolph,M.*, Xu,X.*, & Zhang, Y*. (2024). Deep-sea mining of massive sulfides: Balancing impacts on biodiversity and ecosystem, technological challenges and law of the sea. Marine Policy, 167, 106289.
22.祁文龙, 宿蕾, 马忠霖, 王鹏, 李江涛*. 东海北部滨海湿地铁氧化细菌的分布及其对不同氧气穿透深度的响应[J]. 微生物学报, 2024, 64 (06): 1704-1720.
23.Wang, D., Li, J., Su, L., Shen, W., Feng, K., Peng, X., Wang, Z., Zhao, B., Zhang, Z., Zhang, Z., Yergeau, É., & Deng, Y*. (2023). Phylogenetic diversity of functional genes in deep-sea cold seeps: a novel perspective on metagenomics. Microbiome, 11(1), 276.
24.3Wei, J., Miao, X.*, Wan, Z., Li, J., Xu, H., Li, J., & Wu, T. (2023). A newly discovered ancient cold seep in the northwestern part of the South China Sea: Evidence from the authigenic carbonate. Journal of Asian Earth Sciences, 256, 105835.
25.Su, L., Teske, A. P.*, MacGregor, B. J., McKay, L. J., Mendlovitz, H., Albert, D., Ma, Z., & Li, J*. (2023). Thermal Selection of Microbial Communities and Preservation of Microbial Function in Guaymas Basin Hydrothermal Sediments. Applied and Environmental Microbiology, 89(3), e00018-23.
26.Niu, M., Deng, L., Su, L., Ruff, S. E., Yang, N., Luo, M., Qi, Q., Li, J.*, & Wang, F.* (2023). Methane supply drives prokaryotic community assembly and networks at cold seeps of the South China Sea. Molecular Ecology, 32(3), 660-679.
27.Ma, Z., Gao, L., Sun, M., Liao, Y., Bai, S., Wu, Z., & Li, J*. (2022). Microbial Diversity in Groundwater and Its Response to Seawater Intrusion in Beihai City, Southern China. Frontiers in Microbiology, 13, 876665.
28.Wang, L., Wang, Y., Huang, X., Ma, R., Li, J., Wang, F., Jiao, N., & Zhang, R*. (2022). Potential metabolic and genetic interaction among viruses, methanogen and methanotrophic archaea, and their syntrophic partners. ISME Communications, 2(1), 50.
29.8Wang, Y.*, Bi, H., Chen, H., Zheng, P., Zhou, L., & Li, J. (2022). Metagenomics reveals dominant unusual sulfur oxidizers inhabiting active hydrothermal chimneys from the Southwest Indian Ridge. Frontiers in Microbiology, 13, 861795.
30.李其然, 宿蕾, 杨天邦, 张振, 于淼, 邓希光, 马忠霖, 姚会强, 李江涛*. 2022.莫克兰冷泉区沉积物原核微生物群落组成及其环境响应[J]. 微生物学报, 62(6): 2021-2037
31.0Dong, X., Zhang, C., Li, W., Weng, S., Song, W., Li, J., & Wang, Y*. (2021). Functional diversity of microbial communities in inactive seafloor sulfide deposits. FEMS Microbiology Ecology, 97(8), fiab108.
32.Du, M., Peng, X.*, Zhang, H., Ye, C., Dasgupta, S., Li, J., Li, J., Liu, S., Xu, H., Chen, C., Jing, H., Xu, H., Liu, J., He, S., He, L., Cai, S., Chen, S., & Ta, K. (2021). Geology, environment, and life in the deepest part of the world’s oceans. The Innovation, 2(2), 100109.
33.Li, J., Gu, L., Bai, S., Wang, J., Su, L., Wei, B., Zhang, L., & Fang, J*. (2021). Characterization of particle-associated and free-living bacterial and archaeal communities along the water columns of the South China Sea. Biogeosciences, 18(1), 113-133.
34.孙明雪, 宿蕾, 李江涛*. 2022.海底热液环境中嗜中性微需氧铁氧化菌的多样性、生物矿化作用及其代谢特征[J]. 微生物学报, 62(6): 2119-2135
35.Li, J.T., Mara, P., Schubotz, F., Sylvan, J.B., Burgaud, G., Klein, F., Beaudoin, D., Wee, S.Y., Dick, H.J.B., Lott, S., Cox, R., Meyer, L.A.E., Quémener, M., Blackman, D.K., Edgcomb, V.P.*, (2020). Recycling and metabolic flexibility dictate life in the lower oceanic crust. Nature, 610(7931), E3-E3. https://doi.org/10.1038/s41586-022-05321-9.
36.Li, J.T., Yang, J.Y., Sun, M.X., Su, L., Wang, H., Gao, J.Q., Bai, S.J.*, (2020). Distribution and Succession of Microbial Communities Along the Dispersal Pathway of Hydrothermal Plumes on the Southwest Indian Ridge. Frontiers in Marine Science 7. doi.org/10.3389/fmars.2020.581381. 581381.
37.Xu, H.C., Du, M.R., Li, J.T., Zhang, H.B., Chen, W.L., Wei, J.G., Wu, Z.J., Zhang, H.Y., Li, J.W., Chen, S., Ta, K.W., Bai, S.J., Peng, X.T.*, (2020). Spatial distribution of seepages and associated biological communities within Haima cold seep field, South China Sea. Journal of Sea Research 165. doi.org/10.1016/j.seares.2020.101957.
38.Liu, W.N., Wu, Z.J.*, Wu, S.N., Wei, J.G., Peng, X.T., Li, J.T., Wang, Y.Q., (2020). Pore-water dissolved inorganic carbon sources and cycling in the shallow sediments of the Haima cold seeps, South China Sea. Journal of Asian Earth Sciences 201. doi.org/10.1016/j.jseaes.2020.104495.
39.Quemener, M.*, Mara, P., Schubotz, F., Beaudoin, D., Li, W., Pachiadaki, M., Sehein, T.R., Sylvan, J.B., Li, J.T., Barbier, G., Edgcomb, V., Burgaud, G.*, 2020. Meta-omicshighlights the diversity, activity and adaptations of fungi in deep oceanic crust. Environmental Microbiology 22(9), 3950-3967. doi.org/10.1111/1462-2920.15181.
40.Li, J.T., Su, L., Wang, F., Yang, J.Y., Gu, L.Y., Sun, M.X., Li, Q.R., Zhou, H.Y.*, Fang, J.S.*, (2020). Elucidating the biomineralization of low-temperature hydrothermal precipitates with varying Fe, Si contents: Indication from ultrastructure and microbiological analyses. Deep-Sea Research Part I-Oceanographic Research Papers 157. doi.org/10.1016/j.dsr.2019.103208.
41.Wei, J.G., Li, J.W., Wu, T.T.*, Zhang, W.*, Li, J.T., Wang, J.L., Tao, J., Chen, Z.H., Wu, Z.J., Chen, W.L., (2020). Geologically controlled intermittent gas eruption and its impact on bottom water temperature and chemosynthetic communities-A case study in the HaiMa cold seeps, South China Sea. Geological Journal 55(9), 6066-6078. doi.org/10.1002/gj.3780.
2020年之前:
42. Li, J., Cui, J., Yang, Q., Cui, G., Wei, B., Wu, Z., Wang, Y., & Zhou, H.* (2017). Oxidative weathering and microbial diversity of an inactive seafloor hydrothermal sulfide chimney. Frontiers in Microbiology, 8, 1378.
43.Li, J., Zhou, H., Fang, J., Wu, Z., & Peng, X. (2016). Microbial distribution in a hydrothermal plume of the Southwest Indian Ridge. Geomicrobiology Journal, 33(5), 401-415.
44.Li, J, Wei, B, Wang, J, Liu, Y, Dasgupta, S, Zhang, L, Fang, J.* (2015). Variation in abundance and community structure of particle-attached and free-living bacteria in the South China Sea. Deep-Sea Res. II 122, 64–73.
45.Li, J., Zhou, H.*, Fang, J.*, Sun, Y., & Dasgupta, S. (2014). Microbial distribution in different spatial positions within the walls of a black sulfide hydrothermal chimney. Marine Ecology Progress Series, 508, 67-85.
46.Li, J., Peng, X.*, Zhou, H., Li, J., Sun, Z., & Chen, S. (2014). Microbial communities in semi-consolidated carbonate sediments of the Southwest Indian Ridge. Journal of Microbiology, 52, 111-119.
47.Li, J., Sun, Y., Fang, J., Xie, W., Peng, X., Dong, L., Wu, Z., & Zhou, H. (2014). Aerobic and anaerobic ammonia-oxidizing microorganisms in low-temperature hydrothermal Fe-Si-rich precipitates of the Southwestern Pacific Ocean. Geomicrobiology Journal, 31(1), 42-52.
48.Li, J., Peng, X.*, Zhou, H., Li, J., & Sun, Z. (2013). Molecular evidence for microorganisms participating in Fe, Mn, and S biogeochemical cycling in two low‐temperature hydrothermal fields at the Southwest Indian Ridge. Journal of Geophysical Research: Biogeosciences, 118(2), 665-679.
49.Li, J., Zhou, H.*, Peng, X., Wu, Z., Chen, S., & Fang, J. (2012). Microbial diversity and biomineralization in low-temperature hydrothermal iron–silica-rich precipitates of the Lau Basin hydrothermal field. FEMS microbiology ecology, 81(1), 205-216.
50.Li, J., Peng, X., Zhou, H., Li, J., Chen, S., Wu, Z., & Yao, H. (2012). Characteristics and source of polycyclic aromatic hydrocarbons in the surface hydrothermal sediments from two hydrothermal fields of the Central Indian and Mid-Atlantic Ridges. Geochemical Journal, 46(1), 31-43.
主讲课程
本科生课程:
《海洋生物学》、《海洋资源概论》
研究生课程:
《海洋生物成矿地球化学》、《海洋资源与探测》、《极端环境地球化学》、《分子地质微生物学》
指导研究生
毕业研究生
博士:宿蕾
硕士:崔加梅、顾玲源、杨婧玉、孙明雪、李其然、马忠霖、祁文龙、骈泽宇、沈玥
在读研究生
博士生:魏双、韦淑珍、张燕、马忠霖、刘文琪、牛京菁、祁文龙、骈泽宇、史可铭、蒋美玉
硕士生:吕品洁、李冠霖、张智超、王子权
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荣誉
2025年入选教育部“长江学者”特聘教授