黄柳琴
Gender :
Female
Date of Birth :
1987-09-01
Education Level :
Doctoral Degree in Education
Degree :
Doctoral Degree in Science
Status :
在岗
School/Department :
地质微生物与环境全国重点实验室
Date of Employment :
2015-07-01
Discipline :
Environmental Engineering. Bioscience. Mineralogy, Petrology, and Economic Geology
Paper Publications
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[1] 1. Huang, L., Luo, J., Li, L., Jiang, H., Sun, X., Yang, J., She, W., Liu, W., Li, L. and Davis, A.P. (2022) Unconventional microbial mechanisms for the key factors influencing inorganic nitrogen removal in stormwater bioretention columns. Water Research 209, 117895.
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[2] 2. Huang, L., Yu, Q., Liu, W., Wang, J., Guo, W., Jia, E., Zeng, Q., Qin, R., Zheng, J., Hofmockel, K.S., Dong, H., Jiang, H. and Zhu, Z. (2021) Molecular Determination of Organic Adsorption Sites on Smectite during Fe Redox Processes Using ToF-SIMS Analysis. Environmental Science & Technology 55(10), 7123-7134.
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[3] 3. Zuo, H., Huang, L., Chu, R.K., Tolic, N., Washton, N., Zhu, Z., Edelmann, R.E., Elagamy, S., Sommer, A., Luan, F., Zeng, Q., Chen, Y., Hu, D., Zhan, D., Hu, J. and Dong, H. (2021) Reduction of structural Fe(III) in nontronite by humic substances in the absence and presence of Shewanella putrefaciens and accompanying secondary mineralization. American Mineralogist 106(12), 1957-1970.
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[4] 4. Huang, L., Liu, Z., Dong, H., Yu, T., Jiang, H. and Shi, L. (2020) Coupling quinoline degradation with Fe redox in clay minerals: A strategy integrating biological and physicochemical processes. Applied Clay Science 188, 105504.
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[5] 5. Liu, W.#, Huang, L.#, Komorek, R., Handakumbura, P.P., Zhou, Y., Hu, D., Engelhard, M.H., Jiang, H., Yu, X.-Y., Jansson, C. and Zhu, Z. (2020) Correlative surface imaging reveals chemical signatures for bacterial hotspots on plant roots. Analyst 145(2), 393-401.
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[6] 6. Zeng, Q., Huang, L., Ma, J., Zhu, Z., He, C., Shi, Q., Liu, W., Wang, X., Xia, Q. and Dong, H. (2020) Bio-reduction of ferrihydrite-montmorillonite-organic matter complexes: Effect of montmorillonite and fate of organic matter. Geochimica et Cosmochimica Acta 276, 327-344.
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[7] 7. Zhang, Y.#, Huang, L.#, Jiang, H. and Wu, G. (2019) Hyperthermophilic Anaerobic Nitrate-Dependent Fe (II) Oxidization by Tibetan Hot Spring Microbiota and the Formation of Fe Minerals. Geomicrobiology Journal 36(1), 30-41.
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[8] 8. Huang, L., Feng, C., Jiang, H., Dong, H., Liu, Z., Zeng, Q., Wang, X. and Zhang, L. (2018) Reduction of structural Fe (III) in nontronite by thermophilic microbial consortia enriched from hot springs in Tengchong, Yunnan Province, China. Chemical Geology 479, 47-57.
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[9] 9. Wu, G., Huang, L., Jiang, H., Peng, Y.e., Guo, W., Chen, Z., She, W., Guo, Q. and Dong, H. (2017) Thioarsenate formation coupled with anaerobic arsenite oxidation by a sulfate-reducing bacterium isolated from a hot spring. Frontiers in Microbiology 8, 1336.
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[10] 10. Huang, L., Dong, H., Jiang, H., Wang, S. and Yang, J. (2016) Relative importance of advective flow versus environmental gradient in shaping aquatic ammonium oxidizers near the Three Gorges Dam of the Yangtze River, China. Environmental microbiology reports 8(5), 667-674.
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