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
- 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.
- 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.
- 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.
- 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.
- 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.
- 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.
- Evolution of microbial N transformation processes in hot springs and its geological implication,2022/01/01,2025/12/31,在研,NSFC General Program, PI
- Study on the processes and mechanisms of organic carbon mineralization by thermophilic sulfate reducing bacteria in Tibetan hot springs.,National Natural Science Foundation,2019/01/01,2022/12/31,在研,NSFC General Program, Principal participant
- Thermophiles involved in carbon and nitrogen cycles and their environmental adaptation mechanisms in Yunnan and Tibetan hot springs,National Natural Science Foundation,2020/01/01,2023/12/31,在研,Major Research plan of the NSFC (National Science Foundation of China) program for young scientists
- Investigation of the role of microbe-mineral interaction in releasing process and mechanism of clay sorbed ammonium,青年基金,2017/01/01,2019/12/31,结题,NSFC program for young scientists, PI
Copyright © China University of Geosciences, Wuhan
Current position:
Research Field