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李俊霞,副教授,博士生导师,“地大学者”青年拔尖人才,主要研究方向包括地下水水质与供水安全、劣质组分迁移转化的生物地球化学过程,大数据模型在地下水领域的应用。以第一作者/通讯作者发表SCI论文10余篇;现指导11名硕士研究生,1名博士研究生。
科研项目:
1). 孔隙地下水系统中有机质-铁-碘耦合过程及对碘迁移转化的影响,国家自然科学基金(面上),2022-2025,主持;
2). 劣质地下水改良的原位调控理论与技术研究,国家重点研发计划项目子课题,2021-2026,主持;
3). 滨海地区原生高碘含水层系统水文-生物地球化学研究,国家自然科学基金(重点国际(地区)合作研究项目),2021-2025,参与(排名第二);
4). 地下水砷/铁原位联合去除关键技术与示范,湖北省重大科技创新项目,2017-2019,主要参与人;
5). 稳定碳同位素对富有机质地下水系统中碘迁移富集的指示研究,国家自然科学基金(青年),2016-2018,主持;
6). 大同盆地含水层中原生有机质对碘迁移释放的影响研究,博士后科学基金,2015-2017,主持;
7). 内陆盆地高碘地下水系统中碘的迁移转化规律,教育部博士点基金 (优先发展领域),2013-2015,主要参与人;
指导学生所获荣誉:
王雨婷,2018级硕士生,获2020年硕士研究生国家奖学金
朱沉静,2019级硕士生,获2022年校级优秀硕士学位论文
论文列表:
1. Sun, D., Li, J.*, Li, H., Liu, Q., Zhao, S., Huang, Y., Wu, Q., Xie, X. (2022). Evolution of groundwater salinity and fluoride in the deep confined aquifers of Cangzhou in the North China plain after the South-to-North Water Diversion Project. Applied Geochemistry 147, 105485.
2. Jiang, Z., Zhong, S., Shen, X., Cui, M., Wang, Y., Li, J.* (2022). Microbially mediated arsenic mobilization in the clay layer and underlying aquifer in the Hetao Basin, Inner Mongolia, China. Science of the Total Environment 836, 155597.
3. Li, J.*, Jiang, Z., Xie, X., Wang, Y. (2022). Mechanisms of iodine enrichment in the pore-water of fluvial/lacustrine aquifer systems: Insight from stable carbon isotopes and batch experiments. Journal of Hydrology 613, 128334.
4. Liu, H., Li, J.*, Cao, H., Xie, X., Wang, Y., (2022). Prediction modeling of geogenic iodine contaminated groundwater throughout China. Journal of Environmental Management, 303: 114249
5. Nafouanti, M.B., Li, J.*, Mustapha, N.A., Uwamungu, P. and Al-Alimi, D. (2021). Prediction on the fluoride contamination in groundwater at the Datong Basin, Northern China: Comparison of random forest, logistic regression and artificial neural network. Applied Geochemistry 132, 105054.
6. Li, J., Wang, Y., Zhu, C., Xue, X., Qian, K., Xie, X., and Wang, Y., (2020a). Hydrogeochemical processes controlling the mobilization and enrichment of fluoride in groundwater of the North China Plain. Science of the Total Environment 730, 138877.
7. Li, J., Wang, Y., Xue, X., Xie, X., Siebecker, M.G., Sparks, D.L., and Wang, Y., (2020b). Mechanistic insights into iodine enrichment in groundwater during the transformation of iron minerals in aquifer sediments. Science of the Total Environment 745, 140922.
8. Li, J., DePaolo, D.J., Wang, Y., and Xie, X., (2018). Calcium isotope fractionation in a silicate dominated Cenozoic aquifer system. Journal of Hydrology 559, 523-533.
9. Li, J., Zhou, H., Wang, Y., Xie, X., and Qian, K., (2017a). Sorption and speciation of iodine in groundwater system: The roles of organic matter and organic-mineral complexes. Journal of Contaminant Hydrology 201, 39-47.
10. Li, J., Zhou, H., Qian, K., Xie, X., Xue, X., Yang, Y., and Wang, Y., (2017b). Fluoride and iodine enrichment in groundwater of North China Plain: Evidences from speciation analysis and geochemical modeling. Science of the Total Environment 598, 239-248.
11. Li, J., Wang, Y., Xie, X., and DePaolo, D.J., (2016a). Effects of water-sediment interaction and irrigation practices on iodine enrichment in shallow groundwater. Journal of Hydrology 543, Part B, 293-304.
12. Li, J., Wang, Y., and Xie, X., (2016b). Cl/Br ratios and chlorine isotope evidences for groundwater salinization and its impact on groundwater arsenic, fluoride and iodine enrichment in the Datong basin, China. Science of the Total Environment 544, 158-167.
13. Li, J., Wang, Y., Guo, W., Xie, X., Zhang, L., Liu, Y., and Kong, S., (2014). Iodine mobilization in groundwater system at Datong basin, China: Evidence from hydrochemistry and fluorescence characteristics. Science of the Total Environment 468–469(0), 738-745.
14. Li, J., Wang, Y., Xie, X., Zhang, L., and Guo, W., (2013). Hydrogeochemistry of high iodine groundwater: a case study at the Datong Basin, northern China. Environmental Science: Processes & Impacts 15(4), 848-859.
15. Li, J., Wang, Y., Xie, X., and Su, C., (2012). Hierarchical cluster analysis of arsenic and fluoride enrichments in groundwater from the Datong basin, Northern China. Journal of Geochemical Exploration 118(0), 77-89.
16. 王焰新,李俊霞,谢先军.高碘地下水成因与分布规律研究[J].地学前缘,2022,29(03):1-10.
17. 王璐,李俊霞*.碘酸根在磁铁矿及铝硅酸钠表面的吸附行为及其甲状腺疾病防治意义[J].安全与环境工程,2022,29(05):46-57.
18. 孙丹阳,李和学,刘强,李俊霞*, 地下水停采后地面沉降区地下水氟的演化规律:以沧州市为例[J].地质科技情报,接收
19. 赵仕琳,刘文静,孙丹阳,李俊霞*.大同盆地地下水中有机质对碘迁移转化的影响[J/OL].地球科学:1-15[2022-03-10]
20. 朱沉静,李俊霞*,谢先军.大同盆地地下水中碳硫同位素组成特征及其对碘迁移富集的指示[J].地球科学, 2021,46(12):4480-4491.
21. 王雨婷,李俊霞*,薛肖斌,田小伟,迟秀成.华北平原与大同盆地原生高碘地下水赋存主控因素的异同[J].地球科学,2021,46(01):308-320
22. 薛肖斌,李俊霞*,钱坤,谢先军.华北平原原生富碘地下水系统中碘的迁移富集规律:以石家庄-衡水-沧州剖面为例[J].地球科学,2018,43(03):910-921.
23. 李俊霞,苏春利,谢先军,王焰新.多元统计方法在地下水环境研究中的应用——以山西大同盆地为例[J].地质科技情报,2010,29(06):94-100.
著作:
李俊霞,谢先军,杨逸君编著,《Environmental Isotope in Groundwater》,中国地质大学出版社,2022
谢先军,甘义群,刘运德,李俊霞,李小倩,杜尧编著,《环境同位素原理与应用》,科学出版社,2019
中国地质大学(武汉)  环境科学与工程  Editor  学士学位
中国地质大学(武汉)  环境科学与工程  Faculty of Higher Institutions  博士学位
加州大学(伯克利分校)  地球与行星科学 联合培养博士研究生
中国地质大学(武汉) 环境学院 副教授
中国地质大学(武汉) 环境学院 特任副教授
美国特拉华大学 博士后
中国地质大学(武汉) 博士后
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