屈伸,博士,副教授,内蒙古大学“骏马计划B2岗”研究员,博士生与硕士生导师。本硕博毕业于中国地质大学(北京)。内蒙古高等学校青年科技英才,内蒙古“英才兴蒙”五类人才。获内蒙古科学技术进步一等奖。《干旱区研究》《盐湖研究》《水利水运工程学报》《内蒙古大学学报(自然科学版)》青年编委。主要从事于地表水-地下水相互作用、煤矿地下水、水文地球化学、同位素水文学等方向的科研工作。主持国家自然科学基金青年基金项目、国家自然科学基金地区基金项目、内蒙古科技计划项目、内蒙古自然科学基金青年基金项目等11项科研项目。在Water Research、Environment International、Journal of Hydrology(6篇)、Journal of Hazardous Materials等水文地质和环境科学领域主流期刊以第一作者/通讯作者发表论文42篇,被SCI检索38篇,其中ESI高倍引论文1篇,17篇为中科院1区,总被引1000余次。担任Water Research、Journal of Hydrology、Journal of Hazardous Materials、Journal of Cleaner Production、Journal of Hydrology:Regional Studies等期刊审稿人,年审稿30余篇。
一、基本信息
个人主页:https://www.researchgate.net/profile/Shen-Qu-7
学科专业:环境科学与工程(水环境与污染防治、水土资源高效利用)
电子邮箱:shenqu@imu.edu.cn
通讯地址:内蒙古呼和浩特市玉泉区锡林郭勒南路49号内蒙古大学南校区生态与环境学院
二、教育与工作经历
2025.12-至今 内蒙古大学,生态与环境学院,副教授
2022.07-至今 内蒙古大学,生态与环境学院,“骏马计划B2岗”研究员
2016.09-2022.06 中国地质大学(北京),水文地质学,博士(硕博连读)
2012.09-2016.06 中国地质大学(北京),地下水科学与工程,学士
三、主持项目
1.国家自然科学基金地区科学基金项目“巨厚煤层采动下突水含水层系统地下水量质演化机理及模拟”,30万,执行年限2026.1-2029.12。
2.国家自然科学基金青年科学基金项目(C类)“黄土地区采矿活动下煤层上覆含水层地下水动态规律及控制机理研究”,30万,执行年限2024.1-2026.12。
3.2025年度内蒙古自治区高等学校“青年科技英才支持计划”项目,30万,执行年限2025.1-2027.12。
4.内蒙古科技计划项目“2025年内蒙古自治区河流与湖泊生态重点实验室——黄河“几字弯”典型流域地表水-地下水污染物交互机制及生态风险评估”,100万,执行年限2025.7-2028.7。
5.内蒙古自治区水利科技项目“变化环境下十大孔兑水系连通转化关系及地表-地下水功能改善”,子专题,60万,执行年限2024.7-2028.6。
6.鄂尔多斯市科技重大专项“黄河南岸灌区面源污染对黄河干流影响评价及其治理技术研究”,子课题,90万,执行年限2023.6-2026.6。
7.内蒙古自然科学基金青年科学基金项目“结冰期-非结冰期乌梁素海地下水排泄研究”,10万,执行年限2023.1-2025.12。
8.内蒙古大学“骏马计划B2岗”,高层次引进人才科研启动专项经费,120万,执行年限2022.7-2025.7。
9.2022年度自治区本级引进高层次人才科研支持项目,10万,执行年限2022.12-2024.12。
10.伊犁一矿区域水化学分析及采矿对地下水水化学的影响报告编制项目,8.2万,执行年限2024.1-2024.6。
11.中国地质大学(北京)基本科研业务费专项资金资助项目“采矿扰动下含水层参数和水化学的演化研究”,5万,执行年限2020.1-2020.12。
四、学术成果(*通讯作者,#共同第一作者)
1.Li, M.#, Zhang, K.#, Bao, W., Qu, S.*, Yu, G., Bai, Y., Yang, X., Liu, Z., Ma, H., Miao, P., Huang, F., Yu, R.* (2026) Deciphering spatio-seasonal impacts of agricultural irrigation on water quality evolution and surface water-groundwater interaction in a large irrigation district, northwest China. Journal of Hydrology, 664: 134423.
2.Zhang, Z., Qu, S.*, Liang, X., Liao, Z.*, Zhao, Y., Zhang, K., Wang, C., Gao, F., Lian, Q., Yu, R. (2026) Multi-isotope coupling models for revealing sulfate source and migration associated with lacustrine groundwater discharge in a large mining area on the Loess Plateau. Process Safety and Environmental Protection, 207: 108367.
3.Li, X. #, Li, M. #, Qu, S.*, Zhang, K., Zhao, Y., Gao, A., Wang, R., Huo, D., Yue, Z., Ye, B., Ma, H., Miao, P., Yu, R.* (2026) Spatiotemporal variability, driving factors, and potential health risks of water fluoride and nitrate of a sandy desert lake basin, Northwest China. Journal of Environmental Sciences. https://doi.org/10.1016/j.jes.2025.12.022
4.Zhou, J.#, Zhang, K.#, Deng, T., Liao, Z.*, Xu, B., Gao, F., Lian, Q., Yan, J., Qu, S.* (2026). Evaluation of Groundwater Origin, Quality, and Potential Health Risks in the Ordos Coal Mine Base, Northwest China: Insights from Geochemical and Isotopic Approaches. Mine Water and the Environment.
5.Qu, S.#,*, Zhao, Y.#, Li, M., Ren, X., Wang, C., Yang, X., Hao, Y., Dong, S., Yu, R. (2025) Unveiling sources and fate of sulfate in lake-groundwater system combined Bayesian isotope mixing model with radon mass balance model. Water Research, 282: 123648. (ESI高被引论文)
6.Qu, S., Wang, J., Zhang, K., Fan, M., Zhao, Y., Yang, X.*, Wang, Z.*, Gomes, H., Gomes, R., Duan, L., Dong, S., Yu, R. (2025) Fate and risks of potentially toxic elements associated with lacustrine groundwater discharge: quantification, modeling, and biogeochemistry. Environment International, 202: 109707.
7.Qu, S.#,*, Ren, X.#, Zhao, Y., Mao, H., Dong, S., Yu, R.* (2025) Unveiling origin and enrichment of fluoride in the Daihai Lake basin, China, using a hybrid hydrochemical and multi-isotopic method. Journal of Hydrology, 656: 133030.
8.Zhao, Y., Qu, S.*, Li, M., Duan, L., Zhao, Y., Ren, X., Yang, X., Dong, S., Yu, R. (2025) Spatio-temporal variability of lacustrine groundwater discharge and related pollutant fluxes in an agricultural drainage lake: Coupled influence of meteorological factors and vegetation coverage dynamics. Journal of Hydrology, 662: 134061.
9.Qu, S.#,*, Li, X.#, Gao, A., Zhao, Y., Zhang, K., Zhang, Y., Huo, D., Ye, B., Yue, Z., Wang, R., Ma, H., Miao, P., Yu, R.* (2025) Spatial variability of lacustrine groundwater discharge and pollutant fluxes in the sandy-land lake group basins: influence from land use types. Journal of Environmental Management, 381: 125224.
10.Zhang, K.#, Li, M.#, Qu, S.*, Zhao, Y., Duan, L., Yang, X., Li, D., Liao, Z., Yu, R. (2025) Spatio-seasonal variability of source contributions to water quality in a large irrigation drainage lake basin based on the entropy weighted quality index, positive matrix factorization, and isotopic tracers. Environmental Pollution, 382: 126670.
11.Zhao, Y. #, Ren, X. #, Qu, S.*, Liao, F., Zhang, K., Li, M., Wang, J., Yu, R.* (2025) Contrastive mechanisms of lacustrine groundwater discharge and associated pollutant fluxes into two typical inland lakes in Inner Mongolia, Northwest China. Journal of Environmental Sciences, 159, 661–669.
12.Li, M., Qu, S.*, Yu, G., Bai, Y., Yang, X., Liu, Z., Wu, R., Ma, H., Miao, P., Huang, F., Yu, R. (2025) Hydrochemical insights into spatiotemporal characteristics of groundwater salinization and health risk assessment of fluoride in the south bank of Yellow River irrigation area, Northwest China. Environmental Geochemistry and Health, 47: 115.
13.Zhang, K., Qu, S.*, Zhou, J., Zhao, Y., Mao, H., Liao, Z.*, Yu, X., Yu, R. (2025) Spatio-temporal characteristics and factors influencing groundwater recharge in a large agricultural drainage lake basin, Northwest China. Environmental Earth Sciences, 84: 267.
14.Wang, C., Zhang, Z., Xu, F., Zhang, S.*, Qu, S.*, Liang, X., Wang, Y., Yu, R. (2025) Quantifying spatial variability in mine water sources using hydrochemistry, stable isotopes, geophysical exploration and machine learning: implications for mine water security. Environmental Earth Sciences, 84: 651.
15.Qu, S.#,*, Wang, C.#, Liang, X., Luo, A., Shi, Z., Wang, G., Yu, R. (2024) Regional characteristics of groundwater sulfate source and evolution in the multi-layer aquifer system of the Northern Shaanxi Coal Mine Base, Northwestern China: evidence from geochemical and isotopic fingerprints. Journal of Hazardous Materials, 480: 135866.
16.Yang, X., Qu, S.*, Wang, J., Zhao, Y., Ren, X., Dong, S., Yu, R.* (2024) Trace element distribution, sources, toxicity risk characteristics associated with lacustrine groundwater discharge in boreal lakes: Implications for the eco-environmental security in the Yellow River Basin, China. Ecological Indicators, 167: 112600.
17.Qu, S.*, Zhao, Y., Zhang, K., Wang, J., Li, M., Yang, X., Ren, X., Hao, Y., Yu, R.* (2024) Multi-isotopes (δD, δ18Owater, 87Sr/86Sr, δ34S and δ18Osulfate) as indicators for groundwater salinization genesis and evolution of a large agricultural drainage lake basin in Inner Mongolia, Northwest China. Science of the Total Environment, 946: 174181.
18.Duan, L.#, Zhang, W.#, Qiu, Y., Chen, S., Wang, D., Luo, Y.*, Qu, S.*, Gao, R., Xue, B., Wang, G., Liu, T. (2024) Identifying the spatio-seasonal pattern of hydrochemical evolution and surface water-groundwater interaction in a large urban river basin, Northwest China. Science of the Total Environment, 944: 173989.
19.Qu, S.*, Zhao, Y., Li, M., Zhang, K., Wang, J., Duan, L.*, Ma, H., Miao, P., Yu, R. (2024) Spatio-seasonal characteristics and controlling factors of surface water stable isotope values (δ18O and δD) across the Inner Mongolia Reaches of the Yellow River Basin, China: Implication for hydrological cycle. Journal of Hydrology: Regional Studies, 53: 101843.
20.Qu, S., Wang, G.*, Zhang, S.*, Shi, Z., Liang, X., Luo, A. (2024) Deciphering the mechanism of groundwater temperature changes associated with longwall mining in the Ningtiaota Coalfield, China, using the Extreme gradient boosting method. Hydrogeology Journal, 32: 1419–1432.
21.Wang, C.#, Luo, A.#, Qu, S.*, Liang, X., Xiao, B., Mu, W., Wang, Y., Yu, R. (2024) Anthropogenic processes drive spatiotemporal variability of sulfate in groundwater from a multi-aquifer system: Dilution caused by mine drainage. Journal of Contaminant Hydrology, 264: 104358.
22.Luo, A., Dong, S., Wang, H., Ji, Z., Wang, T., Hu, X., Wang, C., Qu, S.*, Zhang, S. (2024) Impact of long‑term mining activity on groundwater dynamics in a mining district in Xinjiang coal Mine Base, Northwest China: insight from geochemical fingerprint and machine learning. Environmental Science and Pollution Research, 31: 32136–32151.
23.Qu, S.#, Luo, Y.#, Duan, L.*, Pei, S., Miao, P., Wang, C., Liu, T., Yu, R. (2023) Deciphering spatio-seasonal patterns, driving forces, and human health risks of nitrate and fluoride enriched water bodies in the Inner Mongolia Reaches of the Yellow River Basin, China. Environmental Science and Pollution Research, 30: 111423–111440.
24.Qu, S., Wang, C., Yang, N.*, Duan, L.*, Yu, R., Zhang, K., Li, M., Sun, P. (2023) Large-scale surface water-groundwater origins and connectivity in the Ordos Basin, China: Insight from hydrogen and oxygen isotopes. Environmental Research, 236: 116837.
25.Qu, S., Liao, F.*, Wang, G.*, Wang, X., Shi, Z., Liang, X., Duan, L., Liu, T. (2023) Hydrochemical evolution of groundwater in overburden aquifers under the influence of mining activity: combining hydrochemistry and groundwater dynamics analysis. Environmental Earth Sciences, 82: 135.
26.Qu, S., Duan, L.*, Mao, H., Wang, C., Liang, X., Luo, A., Huang, L., Yu, R., Miao, P., Zhao, Y. (2023) Hydrochemical and isotopic fingerprints of groundwater origin and evolution in the Urangulan River basin, China's Loess Plateau. Science of the Total Environment, 866: 161377.
27.Mao, H.#, Wang, C.#, Qu, S.*, Liao, F., Wang, G.*, Shi, Z. (2022) Source and evolution of sulfate in the multi-layer groundwater system in an abandoned mine—Insight from stable isotopes and Bayesian isotope mixing model. Science of the Total Environment, 859: 160368.
28.Qu, S., Duan, L.*, Shi, Z., Mao, H., Wang, G., Liu, T., Yu, R., Peng, X. (2022) Identifying the spatial pattern, driving factors and potential human health risks of nitrate and fluoride enriched groundwater of Ordos Basin, Northwest China. Journal of Cleaner Production, 376: 134289.
29.Qu, S., Liang, X., Liao, F.*, Mao, H., Xiao, B., Duan, L., Shi, Z., Wang, G., Yu, R. (2022) Geochemical fingerprint and spatial pattern of mine water quality in the Shaanxi-Inner Mongolia Coal Mine Base, Northwest China. Science of the Total Environment, 854: 158812.
30.Qu, S., Duan, L.*, Shi, Z.*, Liang, X., Lv, S., Wang, G., Liu, T., Yu, R. (2022) Hydrochemical assessments and driving forces of groundwater quality and potential health risks of sulfate in a coalfield, northern Ordos Basin, China. Science of the Total Environment, 835: 155519.
31.Qu, S., Wang, G.*, Shi, Z., Zhu, Z., Wang, X., Jin, X. (2022) Impact of Mining Activities on Groundwater Level, Hydrochemistry, and Aquifer Parameters in a Coalfield’s Overburden Aquifer. Mine Water and the Environment, 41: 640–653.
32.Qu, S., Shi, Z.*, Wang, G., Zhang, H., Han, J., Liu, T., Jin, X. (2021) Detection of hydrological responses to longwall mining in an overburden aquifer. Journal of Hydrology, 603: 126919.
33.Qu, S., Shi, Z.*, Liang, X., Wang, G., Han, J. (2021) Multiple factors control groundwater chemistry and quality of multi-layer groundwater system in Northwest China coalfield — Using self-organizing maps (SOM). Journal of Geochemical Exploration, 227: 106795.
34.Qu, S., Shi, Z.*, Liang, X., Wang, G., Jin, X. (2021) Origin and controlling factors of groundwater chemistry and quality in the Zhiluo aquifer system of northern Ordos Basin, China. Environmental Earth Sciences, 80: 439.
35.Qu, S., Shi, Z.*, Wang, G., Han, J. (2020) Application of multiple approaches to investigate hydraulic connection in multiple aquifers system in coalfield. Journal of Hydrology, 595: 125673.
36.Qu, S., Wang, G.*, Shi, Z., Zhou, P., Xu, Q., Zhu, Z. (2020) Temporal changes of hydraulic properties of overburden aquifer induced by longwall mining in Ningtiaota coalfield, northwest China. Journal of Hydrology, 582: 124525.
37.Qu, S., Shi, Z.*, Wang, G., Xu, Q., Zhu, Z., Han, J. (2020) Using water level fluctuations in response to Earth-tide and barometric pressure changes to measure the in situ hydrogeological properties of an overburden aquifer in a coalfield. Hydrogeology Journal, 28: 1465–1479.
38.Qu, S., Wang, G.*, Shi, Z., Xu, Q., Guo, Y., Ma, L., Sheng, Y. (2018) Using stable isotopes (δD, δ18O, δ34S and 87Sr/86Sr) to identify sources of water in abandoned mines in the Fengfeng coal mining district, northern China. Hydrogeology Journal, 26(5): 1443–1453.
39.樊蒙雨,屈伸*,李沐菡,马红丽,苗平,于瑞宏(2026)杭锦旗黄河南岸灌区地下水和地表水硝酸盐和氟化物富集特征. 干旱区研究(已录用).
40.吴马翼,黄福杨*,王彬,苗平,马红丽,屈伸*,于瑞宏(2025)人工湿地净化污染物的应用及机制研究进展. 岩矿测试,44(5): 1−23.
41.屈伸,史浙明*,梁向阳,王广才,刘廷玺(2022)大海则井田多层含水层系统水化学特征及演化规律. 环境化学,41(8): 2614–2624.
42.屈伸,张伟峰,杨少东,张栋良,王丽萍*(2018)不同“水梦”无机吸附剂对黄河水泥沙吸附影响与适用性分析. 灌溉排水学报,37(1): 78–84.
五、学术交流
1.第九届地下水科学青年论坛,合肥,2025,特邀报告(专题召集人)
2.第五届中国同位素水文学论坛,乌鲁木齐,2025,特邀报告(专题召集人)
3.第十届青年地学论坛,合肥,2025,邀请报告(专题召集人)
4.中国地理学会水文地理专业委员会2025年学术年会,石家庄,2025,分会场报告
5.2025年土壤与地下水风险防控与生态修复技术交流大会,呼和浩特,2025,分会场报告
6.第九届青年地学论坛,厦门,2024,特邀报告
7.第八届地下水科学青年论坛,南京,2024,分会场报告
8.2023丝绸之路国际产学研用合作会议—高原生态保护和高质量发展分会场,呼和浩特,2023,分会场报告
9.第五届全国青年地质大会,贵阳,2021,分会场报告
六、荣誉与奖励
1.内蒙古自治区高等学校青年科技英才,内蒙古教育厅,2025
2.内蒙古自治区科学技术进步奖一等奖(排名7/15),内蒙古科技厅,2025
3.内蒙古自治区“英才兴蒙”工程五类人才,内蒙古人社厅,2025
4.内蒙古大学“骏马计划B2岗”引进人才,内蒙古大学,2022
5.北京市优秀毕业生,北京市教育委员会,2022
七、学术兼职
1.《干旱区研究》《盐湖研究》《水利水运工程学报》《内蒙古大学学报(自然科学版)》期刊青年编委
2.《现代地质》期刊编审
3.《Sustainability》期刊Towards Sustainability: The Geochemistry of Groundwater and Surface Water Systems专刊主编
4.全国研究生教育评估监测专家库专家
5.内蒙古自治区科技专家库专家
6.内蒙古自然资源学会会员
7.《Water Research》《Journal of Hydrology》《Journal of Hazardous Materials》《Journal of Cleaner Production》《Journal of Hydrology:Regional Studies》《Applied Geochemistry》《地学前缘》等期刊审稿人
