志存高远 励精图治开拓进取 务实创新
伍松林,研究员,博士生导师。在中国科学院生态环境研究中心取得博士学位,先后在捷克生命科学大学和澳大利亚昆士兰大学从事博士后和专职科研工作。国家海外高层次青年人才基金获得者。主要研究方向为尾矿及退化土壤生态修复。旨在从土壤发生学角度探究土壤结构形成和生态功能多样性的构建,重点关注植物根系及根际微生物介导的尾矿及退化土壤生物地球化学过程及其机理,并据此开发尾矿成土综合技术及退化土壤生态修复技术。迄今已发表SCI论文50余篇,其中30余篇为一作及通讯文章,发表于环境地球科学主流期刊Environmental Science & Technology (8篇), New Phytologist, iScience (Cell 系列期刊), npj Materials Sustainability (Nature系列期刊)。担任国际期刊Plant and Soil 区域编辑(Section Editor),Environmental Geochemistry and Health副主编(Associate Editor),Soil & Environmental health和《应用生态学报》青年编委。担任欧洲地球化学学会会员,澳大利亚土壤学会会员,国际菌根协会会员等,并为50多个国际主流期刊审稿人(包括ES&T, GCA, Water Research等).
土壤重构、生物地球化学循环与生态修复
国家海外高层次青年人才基金获得者
海外高层次青年人才项目
中国科学院“百人计划”项目
Yi Q, You F, Li Z, Wu S*, Chan T-S, Lu Y-R, Thomsen L, Wang J, Ma Y, Liu Y, Robertson L, Southam G, Huang L* (2023) Elemental Sulfur and Organic Matter Amendment Drive Alkaline pH Neutralization and Mineral Weathering in Iron Ore Tailings Through Inducing Sulfur Oxidizing Bacteria. Environmental Science & Technology 2023, 57, 21744−21756. doi: 10.1021/acs.est.3c05749.
Li Z, Wu S*, Yi Q, Liu Y, Wang J, Nguyen TAH, Ma Y, You F, Chan T-S, Klein A, Levett A, Southam G, Alessi DS, Huang Y, Huang L (2023) Arbuscular Mycorrhizal Fungi Drive Organo-Mineral Association in Iron Ore Tailings: Unravelling Microstructure at the Submicron Scale by Synchrotron-Based FTIR and STXM-NEXAFS. Environmental Science & Technology 2023, 57, 21779−21790. doi: 10.1021/acs.est.3c07614.
Wu, S., Konhauser, K. O., Chen, B. & Huang, L*. (2023) “Reactive Mineral Sink” drives soil organic matter dynamics and stabilization. npj Materials Sustainability 1: 3. https://www.nature.com/articles/s44296-023-00003-7
Wu S, Bougoure J, Wang J, Thomsen L, Chan T-S, Yi Q, Li Z, Southam G, Huang L. 2023. Nitrogen-Rich Organic Matter Formation and Stabilization in Iron Ore Tailings: A Submicrometer Investigation. Environmental Science & Technology 57(33): 12325-12338.
Wu, S., Fu, W., Rilig, M., Chen, B., Zhu, Y.G., Huang, L. 2023. Soil organic matter dynamics mediated by arbuscular mycorrhizal fungi – an updated conceptual framework. New Phytologist (in press, DOI:10.1111/nph.19178)
Wu, S., Liu, Y., Southam, G., Nguyen, T.A., Konhauser, K.O., You, F. Bougoure, J. J., Paterson D., Chan, T. S., Lu, Y. R., Haw, S.C., Yi, Q., Li, Z., Robertson, L.M., Hall, M., Saha, N., Ok., Y.S., and Huang, L*. Ecological engineering of iron ore tailings into useable soils for sustainable rehabilitation. iScience (Cell 子刊) 26(7): 107102.
Li, Z., Wu, S.*, Liu, Y., Yi, Q., Nguyen, T. A., Ma, Y., You, F., Hall, M., Chan, T., Huang, Y., Huang, L. (2022). Plant biomass amendment regulates arbuscular mycorrhizal role in organic carbon and nitrogen sequestration in eco-engineered iron ore tailings. Geoderma, 428, 116178.
Wu, S.*, You, F., Boughton, B., Liu, Y., Nguyen, T.A., Wykes, J., Southam, G., Robertson, L.M., Chan, T.S., Lu, Y.R. and Lutz, A., Yu, D., Yi Q., Saha, N., Huang, L.* (2021). Chemodiversity of dissolved organic matter and its molecular changes driven by rhizosphere activities in Fe ore tailings undergoing Eco-Engineered pedogenesis. Environmental Science & Technology. 55, 19, 13045–13060
Yi, Q., Wu, S*., Southam, G., Robertson, L., You, F., Liu, Y., Wang, S., Saha, N., Webb, R., Wykes, J., Chan, T. S., Lu, Y. R., Huang, L*. (2021). Acidophilic iron-and sulfur-oxidizing bacteria, Acidithiobacillus ferrooxidans, drives alkaline pH neutralization and mineral weathering in Fe ore tailings. Environmental Science & Technology, 55, 12, 8020-8034.
Wu, S., Liu, Y., Bougoure, J. J., Southam, G., Chan, T. S., Lu, Y. R., Haw, S.C., Nguyen, T.A., You, F. and Huang, L. (2019). Organic matter amendment and plant colonization drive mineral weathering, organic carbon sequestration, and Water-Stable Aggregation in Magnetite Fe Ore Tailings. Environmental Science & Technology, 53(23), 13720-13731.
Wu, S., Nguyen, T. A., Liu, Y., Southam, G., Huang, L. (2019). Deficiencies of amorphous Fe (oxy)hydroxides associated with phyllosilicates and organic carbon limit the formation of water-stable aggregates in Fe-ore tailings. Chemical Geology, 523, 73-87
Wu, S., Vosátka M, Vogel-Mikus K, Kavčič A, Kelemen M, Šepec L, Pelicon P, Skála R, Powter AR, Teodoro M, Michálková Z. (2018). Nano zero-valent iron mediated metal (loid) uptake and translocation by arbuscular mycorrhizal symbioses. Environmental Science & Technology, 52 (14), 7640-7651.
Wu, S., Zhang, X., Sun, Y., Wu, Z., Li, T., Hu, Y., Su, D., Lv, J., Li, G., Zhang, Z. and Zheng, L. (2015). Transformation and immobilization of chromium by arbuscular mycorrhizal fungi as revealed by SEM-EDS, TEM-EDS and XAFS. Environmental Science & Technology, 49 (24), 14036-14047