一、发表论文 

[1]   Ma, L., Sun, X.F., Qian, J.Z.*, Wang, W., Deng, Y.P., Fang, Y.H. Identification of high-permeability and water-rich zones in a fractured karst water source area based on the hydraulic tomography method, Journal of Hydrology, 2024, 629: 130648, DOI: 10.1016/j.jhydrol.2024.130648.

[2]   Ma, L., Cui, X.L., Zhang, C.C., Qian, J.Z.*, Han, D., Yan, Y. Effective method for identification of preferential flow paths in twodimensional discrete fracture networks based on a flow resistance method, Hydrogeology Journal, 2024, DOI: 10.1007/s10040-024-02772-4.

[3]   Han, D., Ma, L.*, Qian, J.Z.*, Gao, D., Ma, H.C., Luo, Q.K., Qiu, P.Y. The effect of fracture aperture and matrix permeability on suitability of the equivalent porous medium model for steady-state flow in fractured porous media. Hydrogeology Journal, 2024, DOI: 10.1007/s10040-024-02781-3. (通讯作者)

[4]   Ma, L., Gao, D., Qian, J.*, Han, D., Xing, K., Ma, H., Deng, Y. Multiscale fractures integrated equivalent porous media method for simulating flow and solute transport in fracture-matrix system, Journal of Hydrology, 2023, 617:18845.

[5]   Ma, L., Liao, H., Qian, J.*, Zhao, W., Li, S.* Upscaling equivalent hydrofacies simulation based on borehole data generalization and transition probability geostatistics, Hydrogeology Journal, 2023, 31, 985–1004, DOI: 10.1007/s10040-023-02621-w

[6]   Ma, L., Han, D., Qian, J.*, Gao, D., Ma, H., Deng, Y., Hou, X. Numerical evaluation of the suitability of the equivalent porous medium model for characterizing the two-dimensional flow field in a fractured geologic medium, Hydrogeology Journal, 2023, DOI: 10.1007/s10040-023-02627-4.

[7]   Xing, K., Ma, L.*, Qian, J.Z.*, Ma, H.C., Deng, Y.P. (2023), Experimental and numerical study on the Izbash equation coefficients in rough single fractures, Physics of Fluids, 35(12), 126603, doi: 10.1063/5.0176467. (通讯作者)

[8]    Yan, Y., Qian, J.*, Ma, L.*, Zhao, G., Deng, Y., Zhang, H., Fang, Y., Liu, Y. Quantification of solute transport in a fracture-matrix system using geoelectrical monitoring, Journal of Hydrology, 2023, 617: 128885. (通讯作者)

[9]    Zhao, W., Cheng, Y., Hou, J., Chen, Y., Ji, B., Ma, L.* A regional early warning model of geological hazards based on big data of real-time rainfall, Natural Hazards, 2023, 31, 913–930, DOI: 10.1007/s11069-023-05819-z. (通讯作者)

[10]     Ma, L., Zhang, C., Liu, S., Luo, Q., Zhang, R., Qian, J.*. Sensitivity analysis of factors influencing pollutant removal from shallow groundwater by the PRB method based on numerical simulation, Environmental Science and Pollution Research, 2022, 29: 82156-82168.

[11]     Ma, L., Deng, H., Yan, Y., Zhao, W., Tan, X., Qian, J.*. Hydrofacies simulation based on transition probability geostatistics using electrical resistivity tomography and borehole data. Hydrogeology Journal, 2022, 30: 2117–2134.

[12] Wang, D., Qian, J.*, Ma, L.*, Xu, H., Wang, X., Wang, Y. Integration of multiple hydrogeological survey technologies for exploring the groundwater distribution in karst areas: A case study in Xingfu Spring, Chaohu City, China, Journal of Hydrology, 2022, 614: 128637 (通讯作者)

[13] Zhao, W., Huang, X., Gong, J., Ma, L.*, Qian, J., Influence of aquifer heterogeneity on Cr(VI) diffusion and removal from groundwater, Environmental Science and Pollution Research, 2022: 29, 3918-3929. (通讯作者)

[14]     Wang, D., Qian, J.*, Ma, L.*, Zhao, W., Gao, D., Hou, X., Ma, H. Characterizing groundwater distribution potential using GIS-based machine learning model in Chihe River basin, China, Environmental Earth Sciences, 2022, 81(12):324. (通讯作者)

[15]     Ma, L., Huang, T., Qiu, H., Yang, Z., He, X., Qian, J.*. Hydrogeochemical characteristic evaluation and irrigation suitability assessment of shallow groundwater in Dangshan County, China. Geosciences Journal, 2021, 25(5), 731-748.

[16]     Xing, K., Qian, J.*, Ma, H., Luo, Q., & Ma, L*. Characterizing the Relationship Between Non-Darcy Effect and Hydraulic Aperture in Rough Single Fractures, Water Resources Research, 2021, 57(9), doi: 10.1029/2021wr030451. (通讯作者)

[17]     Xing, K., Qian, J.*, Zhao, W., Ma, H., Ma, L.*. Experimental and numerical study for the inertial dependence of non-Darcy coefficient in rough single fractures. Journal of Hydrology, 2021, 603:127-148. (通讯作者)

[18]     Wegahita, N.K., Ma, L.*, Liu, J.K., Huang, T.W., Luo, Q.K., Qian, J.Z. Spatial Assessment of Groundwater Quality and Health Risk of Nitrogen Pollution for Shallow Groundwater Aquifer around Fuyang City, China. Water. 2020, 12, 3341. (通讯作者)

[19]     Ma, L., Qian, J.Z., Yan, X.S., Luo, Q.K., Chen, L.W.; Zhao, W.D. Using GIS methods for determining the spatial distribution of groundwater hydrochemical facies: a case study for a shallow aquifer in Fuyang, China. Environmental Earth Sciences, 2019, 78:335.

[20]     Yan, X., Qian, J., Ma, L.*, Wang, M., Hu, A. Non-Fickian solute transfort in a single fracture of marble parallel plate. Geofluids, 2018, 741814. (通讯作者)

[21]     Ma, L.，Qian, J.*，Zhao, W.，Curtis, Z.，Zhang, R. Hydrogeochemical analysis of multiple aquifers in a coal mine based on nonlinear PCA and GIS. Environmental Earth Sciences, 2016, 75(8):716.

[22]     Qian, J.，Ma, L.，Zhan, H*，Luo, Q，Wang, X.，Wang, M.，The effect of expansion ratio on the critical Reynolds number in single fracture flow with sudden expansion，Hydrological Processes，2016，30(11)：1718–1726.

[23]     Ma, L., Liu, Y., Zhou, X. Fuzzy comprehensive evaluation method of F statistic weighting in identifying mine water inrush source. International Journal of Engineering, Science and Technology. 2010, 2(7): 123-128.

[24]     冯琪,马雷*,罗江发,贺世芳,钱家忠.顾桥矿二叠系砂岩裂隙水化学特征及其形成作用[J].合肥工业大学学报(自然科学版),2022,45(12):1693-1698. (通讯作者)

[25]     马泽栋,马雷*,李科,姚伟,王培丁,王鑫宇. 基于岩石图像深度学习的多尺度岩性识别.地质科技通报, 2022, 41(6):316-322. (通讯作者)

[26]     邓辉,马雷*,高迪,赵卫东,杨曼.基于转移概率地质统计的淮南顾桥矿区松散层含水介质刻画[J].现代地质,2022,36(2):602-609. (通讯作者)

[27]     王玮,钱家忠,马雷*,王德健,马海春,赵卫东.基于相关指标的裂隙岩体渗透系数估算模型研究[J].水文地质工程地质,2021,48(3):82-89. (通讯作者)

[28]     龚荧, 马雷*, 杨章贤, 刘建奎, 李宇博, 万文华. 不同固态碳源去除地下水硝酸盐的试验研究, 合肥工业大学学报(自然科学版), 2018, (6):838-844. (通讯作者)

[29]     刘思圆, 马雷*, 刘建奎, 杨章贤, 龚荧. 阜阳颍东浅层地下水化学特征与空间分布规律研究, 地下水, 2018 , 40(3)：1-3+27. (通讯作者)

[30]     吴蒙蒙,马雷*,赵卫东,钱家忠,何晓锐,赵纪堂. 基于GIS煤矿采煤塌陷预测分析系统设计与实现[J].矿业安全与环保,2017,44(6):36-40. (通讯作者)

[31]     马雷，钱家忠*，赵卫东. 基于GIS和水质水温的矿井突水水源快速判别研究，煤田地质与勘探，2014，42（2）：49-53.

[32]     马雷，钱家忠*，赵卫东，周小平. 基于GIS的矿井水害防治辅助决策支持系统. 煤田地质与勘探，2014，42（5）：44-49.

[33]     马雷，钱家忠*，赵卫东，周小平. 顾北煤矿地下水化学特征的多元统计分析. 合肥工业大学学报(自然科学版)，2013(12):1495-1498.

[34]     马雷，钱家忠*，赵卫东. 基于GIS的地下水化学类型空间分区方法. 煤炭学报，2012,37(3):490-494.

[35]     马雷，钱家忠*，赵卫东, 张春雷，潘婧. 多元对应分析法在淮南潘一煤矿地下水化学特征分析中的应用. 煤炭学报. 2009, 34(11):  1517-1521.

二、授权专利 

[1]   国家发明专利：一种基于高密度电法的基岩裂隙优势通道的探测方法, 2022-04-26, ZL202110337624.2. 发明专利.

[2]   国家发明专利：一种在地下含水层进行PRB原位修复系统施工的方法, 2019-12-27, ZL201710202931.3. 发明专利.

[3]   国家发明专利：一种含水介质模型的多尺度随机耦合建模方法, 2016.4.6，ZL201310195236.0. 发明专利.

[4]   国家发明专利：一种矿井突水水源快速判别设备, 2016.6.22, ZL201410570877.4. 发明专利.

[5]   实用新型专利：一种适用于裂隙水的电导率检测装置, 2014.11.19, ZL201420387308.1. 实用新型专利.

三、软件著作权

[1]   裂隙基质系统二维优势流模拟软件V1.0，2022SR0148939，2022.1.24.

[2]   常用地下水流模型计算与水化学分析软件V1.0, 2021SR1328732, 2021.9.6

[3]   基于钻孔数据的含水介质空间分布多尺度模拟系统V1.0, 2017SR645167, , 2017-11-23.

[4]   污染物湿地修复模拟系统V1.0，2016SR375175，2016-12-15. 

[5]    煤田采煤塌陷预测预报系统V1.0，2016SR035540，2016-02-23. 

[6]    矿区水文地质与水害防治信息共享系统V1.0, 2015SR078125，2015-05-11.

[7]   矿井水害防治信息管理与决策支持系统V1.0, 2014SR203781，2014-12-20. 

[8]   矿井水文地质类型划分软件V1.0，2014SR108809，2014-07-30. 

[9]   淮南煤矿突水水源快速判别信息系统V1.0，2009SR061248, 2009-12-31.