水资源高效利用与水环境保护

地表水-地下水相互关系

人类活动对水环境的影响

《水信息技术》、《水文水利计算》、《水文预报》

国家自然科学基金面上项目，42577079，滨湖地下水中微塑料对氮循环的影响机制研究，2026-01至2029-12，49万元，在研，主持

国家自然科学基金面上项目，42177043，滨湖地下水排泄中的营养盐对太湖富营养化影响研究，2022-01至2025-12，57万元，在研，主持

国家重点研发计划专题项目， 2021YFC1809102，基于地下水安全的土壤Cr和As容量研究，2021-10至2024-12，59万元，在研，主持

国家重点研发计划专题项目，2020YFC1807601，有色金属采选冶聚集区遗留场地复合污染迁移转化规律和扩散通量，2021-01至2024-12，109万元，在研，主持

国家自然科学基金面上项目，41772258，地膜覆盖对南方湿润地区包气带中氮的形态及迁移转化影响研究，2018/01-2021/12，61万元，已结题，主持

国家重点研发计划专题项目，2016YFC040280502，海水入侵引起的地球化学反应对地下水环境影响研究，29万元，已结题，主持

国家自然科学基金青年基金项目，41002079，以深圳大规模填海为例研究填海引起的地球化学过程对滨海地下水环境的影响，2011/01-2013/12，19万元，已结题，主持

江苏省自然科学基金面上项目，BK20141317, 大规模覆膜对土壤-地下水环境的影响研究,2014/12-2017/12,10万元，已结题，主持

英文论文

1.Zheng, J., Chen, K.^⁎, Wu, J.C.^⁎, Wu, J.F., 2026. Microplastics in nearshore groundwater of Taihu Lake: occurrence and potential fluxes to the lake via groundwater discharge. Water Research, 298, 125821. https://doi.org/10.1016/j.watres.2026.125821

2.Luo, B.W., Chen, K.P. ^⁎, Zheng, X.W., Wu,J.C., Li,P., Chen, H.L., 2025.Reactive Transport and Retention of Cd, Pb, and Zn under Coexisting Multimetal-Xanthate Conditions in Porous Media. Water Research, 124713 DOI10.1016/j.watres.2025.124713

3.Zheng, X.W., Chen, K.P. ^⁎, Luo, B.W., Wu, J.C., Chen, H.L., Xiang, L., 2025. A soil erosion-based framework for assessing mercury nonpoint pollution in mining watersheds. Journal of Hydrology (663):134309. 10.1016/j.jhydrol.2025.134309

4.Wei, Y.B., Chen, K.P. ^⁎,Wu, J.C. ^⁎, Yang, Y., Dou, Z., 2025 Simulation of Immiscible Counter-Current Flow in Porous Media Using a Modified Dynamic Pore Network Model. Applied Science. 10.3390/app151810181

5.Luo, B.W., Chen, K.P. ^⁎, Wu,J.C., Li,P., 2024. Reactive transport of Cd2+ in porous media in the presence of xanthate: Experimental and modeling study. Water Research 266:122402

6.Wang, T, Chen, J.L., Huang, R., Wu, L.G., Chen, K.P. ^⁎, Wu,J.C., Chen, H.L. , 2024. The remediation performance and mechanism for tetracycline from groundwater:using controlled release materials containing mesoporous MnOx with different morphology. Environmental Pollution 363(1) 125123

7.Zheng, J.L., Chen, K.P. ^⁎,Wu, J.F., Wu,J.C., 2024. Lacustrine groundwater discharge as an important hidden source of nutrients to a large eutrophic lake: Implications for eutrophication management.Science of The Total Environment960:178313https://doi.org/10.1016/j.scitotenv.2024.178313

8.Wang Ting, Huang Rui, Chen Huali, Xu Kunmiao, Wu Liguang, Chen Kouping, Wu Jichun. 2024. Comparative study of reactive oxygen species and tetracycline degradation pathways in catalytic peroxodisulfate activation by asymmetric mesoporous TiO2 and the corresponding controlled-release materials, Environmental Pollution 348: 123813.

9.Wang Ting, Xu Kunmiao, Yan Kaixin, Wu Liguang, Chen Kouping, Wu Jichun, Chen Huali, 2022. Comparative study of the performance of controlled release materials containing mesoporous MnOx in catalytic persulfate activation for the remediation of tetracycline contaminated groundwater, Science of The Total Environment 846: 157217.

10.Chen K.P.^⁎, Wei, Y.B., Wu, J.C. 2022. Impact of pore characteristics on displacement processes of air and water flow: Modelling and experimental investigation. Journal of Hydrology 609:127691

11.Wei, Y.B., Chen, K.P.^⁎, Wu, J.C. ^⁎, 2020. Estimation of the critical infiltration rate for air compression during infiltration. Water Resources Research 10.1029/2019WR026410

12.Chen K.P, Wei,Y.B. ^⁎, Wu J.C. ^⁎ , 2019. The effect of infiltration flux on air counterflow in a 2-D confined sand chamber. Journal of Hydrology 571:619-626.   

13.Wei,Y.B., Chen, K.P.^⁎,Wu J.C. ^⁎ , Zhu X.,B., 2018. Experimental study of the moisture distribution on the wetting front during drainage and imbibition in a 2D sand chamber. Journal of Hydrology 561: 112-122.   

14.Zhu, X.B., Wu, J.C.,  Nie, H.J.,  Guo, F., Wu, J.F.,  Chen, K.P., Liao, P.H.,  Xu, H.X., Zeng, X.K., 2018. Quantitative assessment of the impact of an inter-basin surface-water transfer project on the groundwater flow and groundwater-dependent eco-environment in an oasis in arid northwestern China.Hydrogeology Journal 26 (5): 1475-1485.

15.Chen, K.P.^⁎, Yang, C., Jiao, J.J., 2015. Rare earth elements Geochemistry and Provenance Discrimination of Sediments in Tolo Harbour. Marine Georesources  and Geotechnology 33(1)：51-57.

16.Chen, K.P.^⁎ , Jiao, J.J., 2014. Modeling freshening time and hydrochemical evolution of groundwater in coastal aquifers of Shenzhen, China. Environmental Earth Sciences 71(5): 2409-2418.

17.Chen, K.P.^⁎ ,Tian, S.Y., Jiao, J.J., 2010. Macrobenthic community in Tolo Harbour, Hong Kong and its relations with heavy metals. Estuaries and Coasts Estuaries and Coasts 33: 600-608.(This paper was chosen as a highlight of the journal in 2011)  

18.Chen, K.P. ^⁎ , Jiao, J.J., 2010. Spatio-temporal trends of heavy metals and source apportionment in Tolo Harbour, Hong Kong. Environmental Earth Sciences 60: 1439-1445.  

19.Chen, K.P. ^⁎ ,  Jiao, J.J., 2008. Metal concentration and mobility in marine mud and groundwater in coastal reclamation areas: a case study in Shenzhen, China . Environmental Pollution 151(3): 576-584.  

20.Chen, K.P. ^⁎，Jiao, J.J., Huang, J.M., Huang, R.Q., 2007.Multivariate statistical evaluation of trace elements in groundwater in a coastal area in Shenzhen, China. Environmental Pollution 147: 771-780.    

21.Chen, K.P. ^⁎ , Jiao, J.J., 2007. Preliminary study on seawater intrusion and aquifer freshening near reclaimed coastal area of Shenzhen,  China . Water Science and Technology: Water supply 7 (2): 137-145.   

22.Huang, J.M., Huang, R.Q., Jiao, J.J., Chen, K.P., 2006. Speciation and mobility of heavy metals in mud in coastal reclamation areas in Shenzhen, China. Environmental Geology 53 (1): 221-228.

中文论文

1.修于清,陈扣平^⁎,吴吉春.2025.南方湿润地区土壤细菌群落对覆膜的响应特征.生态科学 44(3):202-211

2.王卓群, 陈扣平^⁎, 吴吉春, 王保战, 柳旭. 2024.太湖周边地下水中高硝酸盐负荷促进反硝化功能菌群富集. 中国环境科学 45(1):477-486.

3.郑贤武,陈华丽,陈扣平^⁎,李平,王挺. 2024.基于土壤侵蚀模型的汞矿区污染风险评价及影响因子研究. 环境科学学报 44(4):306-315.

4.罗博闻,陈扣平^⁎,吴吉春,李平,郑贤武.2024.基于双点位模型与多表面形态络合反应模型研究Cd2+在负载黄原酸盐多孔介质中的迁移规律.环境科学学报44(7):449-461.

5.顾熙，陈扣平^⁎，吴吉春.2024.基于地下水安全的六价铬土壤环境基准值研究.水文地质工程地质 51(1)：179-189.