兰大地矿

党委副书记、院长 孟兴民

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1.基本信息

姓名:孟兴民

职称:教授,博士生导师

研究方向:环境地质,地质灾害监测预警与防治

2.教育经历

1998年毕业于英国伦敦大学皇家霍洛威学院,获自然地理学专业博士学位

1984年毕业于西安地质学院地质系(现长安大学),获地质学专业理学学士学位

3.工作经历:

2018-至今 :新葡的京集团350vip教授、党委副书记、院长

2017-2018:兰州大学资源环境学院教授、党委书记

2015-2017:兰州大学资源环境学院教授,兰州大学国际文化交流学院院长

2010-2015:兰州大学西部环境与气候变化研究院教授、院长 

1998-2012:英国伦敦大学皇家霍洛威学院地理系讲师、遥感与地信主管,主要从事本科与研究生教学及本科教学管理工作,2007年获得英国伦敦大学优秀教师称号 

1992-1998:英国伦敦大学皇家霍洛威学院地理系研究助理、研究员 

1991-1992:英国莱斯特大学地理系研究助理 

1985-1991:甘肃省科学院地质自然灾害防治研究所助理研究员 

1984-1985:西安地质学院地质系任助教 

4.学术兼职:

教育部高等学校自然保护与环境生态类专业教学指导委员会委员(2018-2022)

英国伦敦大学皇家霍洛威地理系讲座教授

甘肃省环境地质与灾害防治创新技术中心主任

地质灾害监测预警与防治甘肃省国际科技合作基地主任

环境地质与灾害防治甘肃省联合培养研究生示范基地主任

甘肃省地质灾害野外科学观测研究站站长

甘肃省地下水工程及地热资源重点实验室副主任

西部资源环境与区域发展智库理事会理事、灾害咨询专家委员会主任 

中国水土保持学会滑坡泥石流专业委员会副主任委员

中国第四纪科学研究会地貌演变与环境专业委员会副主任委员

《兰州大学学报(自然科学版)》编委 

《山地学报》编委 

《水土保持学报》编委

《中国地质灾害与防治学报》编委

《水文地质与工程地质》编委

《西北地质》编委

《甘肃科学》编委

5.获得荣誉:

2020:甘肃省科技工作先进个人

2020:甘肃省科技进步二等奖

2019:国务院政府特殊津贴

2015、2019:甘肃省第一层次领军人才 

2014:第六届全国优秀科技工作者

2007:英国伦敦大学优秀教师

6.研究成果:

1. 代表著作为《中国西北黄土区滑坡(英文版:Landslides in the thick loess terrain of North-West China)》被国际滑坡界广为引用。为大英百科全书Encyclopedia Britannia撰写了“滑坡定义”一文。

2. 在地质灾害防治领域,进一步阐述了泥石流灾害防治措施中“疏导”与“生态治理”的优越性,引起学术界的强烈反响,成果发表在“Progress in Physical Geography”、“Geomorphology”和“Journal of Hydrology”等学术期刊;2015年在CCTV10《地理中国》中的“黑方台的秘密”中讲述了黑方台灌溉水通过优势通道的下渗机制,解开了黑方台灌溉水下渗之谜。 

3. 在地理信息系统与遥感领域,运用PsInSAR和SBAS技术识别和监测甘肃南部滑坡、潜在不稳定斜坡和新构造活动;在GIS环境下建立了基于物理基础的、分布式的区域阶地斜坡稳定性评价模型。

7.在研项目:

1. 国家自然科学基金重点项目“干热河谷区生态工程对泥石流灾害的作用机制及防治效应-以白龙江流域为例” (NO.42130709),2022-2026,主持

2. 科技部“青藏地区高等级公路多年冻土段与特定交通廊道地质灾害与生态风险评估”项目(NO.2021QZKK0200),2021-2024,主持

3. 科技部重点研发计划项目“黄土滑坡失稳机理、防控方法研究与防治示范”课题4(NO. 2018YFC1504704):“隐蔽性黄土滑坡精准探测与风险防控技术”,2019-2021,主持

8.发表论文:

2021年

1. Zhang Y., Meng X., Novellino A., Dijkstra T., Chen G., Jordan C., Li Y., Su X. 2021. Characterization of pre-failure deformation and evolution of a large earthflow using InSAR monitoring and optical image interpretation. Landslides. (10.1007/s10346-021-01744-z)

2. Su X., Zhang Y., Meng X., Yue D., Ma J., Guo F., Zhou Z., Rehman M U., Khalid Z., Chen G., Zeng R., Zhao F. Landslide mapping and analysis along the China-Pakistan Karakoram Highway based on SBAS-InSAR detection in 2017. J. Mt. Sci. 18, 2540–2564 (2021). https://doi.org/10.1007/s11629-021-6686-6

3. Yang, Y., Chen, G.*, Meng, X., Bian, S., Chong, Y., Shi, W., Jiang, W., Jin, J., Li, C., Mu, X., Yue, D. Analysis of the microseismicity characteristics in landslide dam failure flume tests: implications for early warning and dynamics inversion. Landslide

4. Zhou Y., Yue D.*, Guo J., Chao Z., Meng X. Assessing the impact of land conversion and management measures on the net primary productivity in the Bailong River Basin, in China. Catena,2021,207,105672. (DOI:10.1016/j.catena.2021.105672)

5. Chong, Y., Chen, G.*, Meng, X., Yang, Y., Shi, W., Bian, S., Zhang, Y., Yue, D. Quantitative analysis of artificial dam failure effects on debris flows – A case study of the Zhouqu ‘8.8’ debris flow in northwestern China. Science of the Total Environment, 2021, 792.

6. Zhang, Z., Zeng, R.*, Meng, X, Zhao, S., Meng, X., Yao, Y., Wang, H., Guo, W., Chen, G., Zhang, Y. Estimating landslide sliding distance based on an improved Heim sled model. Catena, 2021, 204.

7. Meng, X., Qi, T.*, Zhao, Y., Dijkstra, T., Shi, W., Luo, Y., Wu, Y., Su, X., Zhao, F., Ma, J., Zhang, Y., Chen, G., Chen, D., Zhang, M.. Deformation of the Zhangjiazhuang high-speed railway tunnel: an analysis of causal mechanisms using geomorphological surveys and D-InSAR monitoring. J. Mt. Sci. , 2021, 18.

8. Khalid, Z., Meng, X.*, Rana, I.A., Rehman, M. ur, Su, X. Holistic Multidimensional Vulnerability Assessment: An empirical investigation on rural communities of the Hindu Kush Himalayan region, Northern Pakistan. International Journal of Disaster Risk Reduction, 2021, 62.

9. Qi, T., Meng, X., Qing, F., Zhao, Y., Shi, W., Chen, G., Zhang, Y., Li, Y., Yue, D., Su, X., Guo, F., Zeng, R., Dijkstra, T. Distribution and characteristics of large landslides in a fault zone: A case study of the NE Qinghai-Tibet Plateau. Geomorphology, 2021, 379, 107592.

10. Qi, T., Zhao, Y., Meng, X., Chen, G., Dijkstra, T., AI-Based Susceptibility Analysis of Shallow Landslides Induced by Heavy Rainfall in Tianshui , China. Remote Sensing, 2021, 13, 1819.

11. Li, Y., Meng, X.*, Guo, P., Dijkstra, T., Zhao, Y., Chen, G. Constructing rainfall thresholds for debris flow initiation based on critical discharge and S-hydrograph. Engineering Geology. 2021, 280, 105962.

12. Li, Y., Meng, X.*, Stevens, T., Armitage, S., Bian, S., Chen, G., He, J. Distinct periods of fan aggradation and incision for tributary valleys of different sizes along the Bailong River, eastern margin of the Tibetan Plateau. Geomorphology, 2021, 373(15), 107490.

13. 叶伟林, 康丽娟, 安亚鹏, 吴玮江 ,孟兴民. 甘肃永靖焦家村上庄2·28滑坡特点及成因分析[J]. 兰州大学学报(自然科学版), 2021, 57(03): 369-375+381.

14. 李媛茜, 张毅, 孟兴民, 陈冠, 曾润强, 岳东霞, 郭富赟, 戴霜, 苏晓军, 刘旺财, 梁懿文, 王爱杰. 活动构造断裂带巨型滑坡活动特性研究——以白龙江流域大小湾滑坡为例[J]. 兰州大学学报(自然科学版), 2021, 57(03): 360-368.

15. 李媛茜, 张毅, 苏晓军, 赵富萌, 梁懿文, 孟兴民, 贾俊. 白龙江流域潜在滑坡InSAR识别与发育特征研究[J]. 遥感学报, 2021, 25(02): 677-690.

16. 庆丰, 孟兴民, 郭富赟, 赵岩. 汶川地震扰动区文县“8·7”泥石流灾害特征分析——以洋汤沟为例[J]. 兰州大学学报(自然科学版), 2021, 57(03): 376-381.

17. 苏晓军, 张毅, 贾俊, 梁懿文, 李媛茜, 孟兴民. 基于InSAR技术的秦岭南部略阳县潜在滑坡灾害识别研究[J]. 山地学报, 2021, 39(01): 59-70.

2020年

1. Shi, W., Chen, G.*, Meng, X., Jiang, W., Chong, Y., Zhang, Y., Dong, Y., Zhang, M. Spatial-Temporal Evolution of Land Subsidence and Rebound over Xi’an in Western China Revealed by SBAS-InSAR Analysis. Remote Sensing. 2020, 12(22), 3756.

2. Zhang, Z., Zeng, R.*, Meng, X., Zhang, Y., Zhao, S., Ma, J., Yao, Y. Effect of Soluble Salt Loss via Spring Water on Irrigation-Induced Landslide Deformation. Water, 2020, 12(10), 2889.

3. Rehman, M.U., Zhang, Y.*, Meng, X., Su, X., Catani, F., Rehman, G., Yue, D., Khalid, Z., Ahmad, S., Ahmad, I. Analysis of Landslide Movements Using Interferometric Synthetic Aperture Radar: A Case Study in Hunza-Nagar Valley, Pakistan. Remote Sensing, 2020, 12, 2054.

4. Zhang, Y., Meng, X. M.*, Dijkstra, T. A., Jordan, C. J., Chen, G., Zeng, R. Q., Novellino, A. Forecasting the magnitude of potential landslides based on InSAR techniques. Remote Sensing of Environment, 2020, 241, 111738.

5. Zhao, Y., Meng, X.*, Qi, T., Qing, F., Xiong, M., Li, Y., Guo, P., Chen, G. AI-based identification of low-frequency debris flow catchments in the Bailong River basin, China. Geomorphology, 2020, 359, 107125.

6. Qing, F., Zhao, Y.*, Meng, X., Su, X., Qi, T., Yue, D. Application of machine learning to debris flow susceptibility mapping along the China-Pakistan Karakoram Highway. Remote Sensing, 2020, 12(18), 2933.

7. Wang, S., Zhao, M. *, Meng, X., Chen, G., Zeng, R., Yang, Q., Liu, Y., Wang, B.. Evaluation of the effects of forest on slope stability and its implications for forest management: A case study of Bailong River Basin, China. Sustainability (Switzerland). 2020, 12(16), 6655.

8. 边世强, 杨云鹏, 马建花, 陈冠, 曾润强, 张毅, 孟兴民. 黄土斜坡内部水分二维成像研究——以黑方台罗家坡滑坡为例[J]. 工程地质学报, 2020, 28(04): 840-851.

9. 马建花, 曾润强, 边世强, 杨仲康, 孟兴民. 基于Visual Modflow的河流阶地灌溉区地下水模拟分析——以黑台为例[J]. 兰州大学学报(自然科学版), 2020, 56(05): 580-586.

10. 张镭, 黄建平, 梁捷宁, 于海鹏, 管晓丹, 马金珠, 沈禹颖, 邓建明, 黄宁, 孟兴民, 王澄海, 李常斌, 牟翠翠, 巩杰, 张帆宇. 气候变化对黄河流域的影响及应对措施[J]. 科技导报, 2020, 38(17): 42-51.

2019年

1. C. Hsein Juang, Tom Dijkstrab, Janusz Wasowskic, Xingmin Meng. Loess Geohazards Research in China: Advances and Challenges for Mega Engineering Projects [J]. Engineering Geology, 2019:1-10

2. Su, X., Wei, W., Ye, W., Meng, X., & Wu, W. Predicting landslide sliding distance based on energy dissipation and mass point kinematics. Natural Hazards, 2019, 96(3), 1367-1385.

3. Fumeng Zhao, Xingmin Meng, Yi Zhang, Guan Chen, Xiaojun Su, Dongxia Yue. Landslide Susceptibility Mapping of Karakorum Highway Combined with the Application of SBAS-InSAR Technology. Sensors, 2019, 19(12), 2685.

4. Goodall, Susanna; Dijkstra, Tom; Chmutina, Ksenia; Meng, X.M. (2019): Cultural perceptions of hazard and risk in a dynamic environment. Loughborough University. Conference contribution. https://hdl.handle.net/2134/38364

5. 赵富萌, 陈冠, 张毅, 孟兴民, 刘义, 王彪, 王思源. 基于SBAS技术的兰州新区地面沉降监测研究[J]. 兰州大学学报(自然科学版), 2019, 55(06): 707-715.

6. 赵富萌, 张毅, 孟兴民, 苏晓军, 石伟. 基于小基线集雷达干涉测量的中巴公路盖孜河谷地质灾害早期识别[J]. 水文地质工程地质, 2020, 47(01): 142-152.

7. 张茂省, 岳东霞, 孙萍萍, 孟兴民, 郭建军, 王东, 苗俊霞, 郑续. 面向县级国土空间规划的自然资源综合调查与双评价——以延安市延川县为例[J]. 兰州大学学报(自然科学版), 2019, 55(03): 281-289.

8. 杨仲康, 陈冠, 陈玺, 张毅, 孟兴民. 缓倾黄土滑坡稳定性分析及阈值研究——以廖集村滑坡为例[J]. 兰州大学学报(自然科学版), 2019, 55(01): 79-84+91.

2018年

1. Chen, G., Meng, X.*, Qiao, L., Zhang, Y., & Wang, S. Response of a loess landslide to rainfall: observations from a field artificial rainfall experiment in Bailong river basin, China. Landslides, 2018, 15(5), 895-911.

2. Chen, G., Zhang, Y., Zeng, R., Yang, Z., Chen, X., Zhao, F., Meng, X*. Detection of land subsidence associated with land creation and rapid urbanization in the Chinese loess plateau using time series InSAR: a case study of Lanzhou new district. Remote Sensing, 2018, 10(2), 270.

3. Zhang, Y., Meng, X.*, Jordan, C., Novellino, A., Dijkstra, T., Chen, G. Investigating slow-moving landslides in the Zhouqu region of China using InSAR time series. Landslides, 2018, 15(7), 1299-1315.

4. M. Schäbitz, C. Janssen, H.-R*. Wenk, R. Wirth, B. Schuck, H.-U. Wetzel, X. Meng, G. Dresen. Microstructures in landslides in northwest china – implications for creeping displacements. Journal of Structural Geology, 2018, 106, 70-85.

5. Yajun Li*, Armitage Simon, Stevens Thomas, Xingmin Meng. Alluvial fan aggradation/incision history of the eastern Tibetan plateau margin and implications for debris flow/debris-charged flood hazard. Geomorphology, 2018, 318, 203-216.

6. Xing Su, Xingmin Meng, Weilin Ye, Weijiang Wu, Xingrong Liu, Wanhong Wei. Multiple Statistical Models Based Analysis of Causative Factors and Loess Landslides in Tianshui City, China. IOP Conference Series:Earth and Environmental Science (ICEPP 2017), 2018, 120: 012013.

7. Yue, D. X.*, Zeng, J. J., Yang, C., Zou, M. L., Li, K., Chen, G. G., Guo, J. J., Xu, X. F., Meng, X. M.. Ecological risk assessment of the Gannan Plateau, northeastern Tibetan Plateau. Journal of Mountain Science, 2018, 15(6), 1254-1267.

8. 赵岩, 孟兴民*, 庆丰, 刘林通, 郭富赟. 基于地貌参数的泥石流沟发育阶段划分[J]. 灾害学, 2018, 33(4): 48-52.

9. 陈玺, 张毅, 陈冠, 孟兴民*, 杨仲康, 刘林通, 赵岩. SBAS-InSAR技术在天水市区地表形变监测中的应用[J]. 兰州大学学报: 自然科学版, 2018, 54(2): 143-148.

10. 郭富赟, 黎志恒, 孟兴民. 群发性地质灾害应急处置研究[J]. 甘肃地质, 2018, 27(01): 57-62.

2017年

1. Wang S. Y., Meng X. M.*, Chen G., Guo P., Xiong M. Q., Zeng R. Q.. (2017). Effects of vegetation on debris flow mitigation: a case study from Gansu province, China. Geomorphology, 282, 64-73.

2. Qiao, L., Meng, X. M.*, Chen, G., Zhang, Y., Guo, P., Zeng, R. Q., Li, Y. J.. (2017). Effect of rainfall on a colluvial landslide in a debris flow valley. Journal of Mountain Science, 14(6), 1113-1123.

3. Xie, Z. T., Chen, G.*, Meng, X. M., Zhang, Y., Qiao, L., Tan, L.. (2017). A comparative study of landslide susceptibility mapping using weight of evidence, logistic regression and support vector machine and evaluated by SBAS-InSAR monitoring: Zhouqu to Wudu segment in Bailong river basin, China. Environmental Earth Sciences, 76(8), 313.

4. 赵岩, 孟兴民*, 郑娇玉, 庆丰. 地貌学在泥石流研究中的应用与理论初探[J]. 灾害学, 2017, 32(1): 43-49.

5. 刘林通, 孟兴民*, 郭鹏, 赵岩, 熊木齐, 庆丰, 陈玺. 基于流域单元和信息量法的白龙江流域泥石流危险性评价[J]. 兰州大学学报: 自然科学版, 2017, 51(3): 292-299.

6. 杨仲康, 陈冠, 孟兴民*, 陈玺, 张毅, 王思源. 基于现场渗透试验的黄土滑坡体渗透特性[J].兰州大学学报: 自然科学版, 2017, 51(3): 285-291.

7. 宿星,孟兴民*,王思源,魏万鸿,冯乐涛.陇中黄土高原典型地区滑坡特征参数统计及发育演化机制研究—以天水市为例.第四纪研究,2017,37(2):319-330.

2016年

1. Chen, Z. Y.*, Meng, X. M., Yin, Y. P., Tom, D., Mike, W., Janusz, W.. (2016). Landslide Research in China. Quarterly Journal of Engineering Geology and Hydrogeology, 49(4): 279-285.

2. Xiong, M. Q., Meng, X. M.*, Wang, S. Y., Guo, P., Li, Y. J., Chen, G., Qing, F., Cui, Z.J., Zhao, Y.. Effectiveness of debris flow mitigation strategies in mountainous regions. Progress in Physical Geography, 2016, 40(6): 768-793.

3. Zeng, R. Q., Meng, X. M.*, Zhang, F. Y., Wang, S. Y., Cui, Z. J., Zhang, M. S., Zhang, Y., Chen, G.. (2016). Characterizing hydrological processes on loess slopes using electrical resistivity tomography–a case study of the Heifangtai terrace, northwest China. Journal of Hydrology, 541: 742-753.

4. Xue, Y. T., Meng, X. M.*, Wasowsk, J., Chen, G., Li, K., Guo, P., Bovenga, F., Zeng, R. Q.. (2016). Spatial analysis of surface deformation distribution detected by persistent scatterer interferometry in Lanzhou Region, China. Environmental Earth Sciences, 75(1): 80.

5. Wang, X., Zhang, Y., Huang, Z., Hong, M., Chen, X., Wang, S., ... & Meng, X. (2016). Assessing willingness to accept compensation for polluted farmlands: a contingent valuation method case study in northwest China. Environmental Earth Sciences, 75(3), 179.

6. 赵岩, 崔志杰, 熊木齐, 庆丰, 郭鹏, 孟兴民*. 白龙江流域泥石流沟土体渗透特性及其受植被影响分析[J]. 兰州大学学报: 自然科学版, 2016, 52(6): 728-734.

2015年

1. Zhang, Y., Meng, X.M. *, Chen, G., Qiao, L., Zeng, R.Q., Chang, J. Detection of geohazards in the Bailong River Basin using synthetic aperture radar interferometry, Landslides, 2015, 12: 1-12. 

2. Guo, P., Meng, X.M. *, Li, Y.J., Chen, G., Zeng, R.Q., Qiao, L. Effect of large dams and irrigation in the upper reaches of the Yellow River of China, and the geohazards burden. Proceedings of the Geologists Association, 2015, 126(3): 367-376. 

3. Xue, Y.T. , Meng, X.M. *, Guo P., Li K., Chen G.. The Correlation of Spatial Distribution between Surface Deformation and Landslides by SBAS-InSAR and Spatial Analysis in Longnan Region, China[J]. Open Civil Engineering Journal, 2015, 9(1):867-876.

4. Xue, Y.T. , Meng, X.M. *, Wasowsk, J., Chen, G., Li, K., Guo P., Bovenga, F., Zeng, R.Q. Spatial analysis of surface deformation distribution detected by persistent scatterer interferometry in Lanzhou Region, China. Environmental Earth Sciences, 2016, 75(1):1-12. 

5. Xue, Y.T., Meng, X.M. *, Chen, G., LI, K. Direct Measurements of Land Surface Deformation Based on PS-InSARin Lanzhou, China. Applied Mechanics and Materials, 2015, 744-746: 1684-1688. 

6. Xue, Y.T., Meng, X.M. *, LI, K., Chen, G. Loess Slope Instability Assessment Based on PS-InSAR Detected and Spatial Analysis in Lanzhou Region, China. Advanced Materials Research, 2015, 1065-1069: 2342-2352. 

7. 赵岩, 郑娇玉, 郭鹏, 熊木齐, 崔志杰, 孟兴民*. ImageJ软件在泥石流固体颗粒分析中的应用[J]. 兰州大学学报: 自然科学版, 2015, 51(6): 877-881.

8. 曾润强, 王思源, 曾宇桐, 郭富赟, 李松, 赵岩, 孟兴民*. 兰州市皋兰山铁三小滑坡形成条件及其稳定性分析[J]. 兰州大学学报, 自然科学版, 2015, 51(3): 339-343.

9. 郭鹏, 孟兴民*, 薛亚婷, 熊木齐, 赵岩. 汶川地震对白龙江流域地质灾害的影响——以武都区构林坪为例[J]. 兰州大学学报: 自然科学版, 2015, 51(3): 313-318.

10. 庆丰, 熊木齐, 赵岩, 郭鹏, 崔志杰, 孟兴民*. 人类活动对地质灾害的影响——以甘肃省武都区为例[J]. 兰州大学学报: 自然科学版, 2015,51(6):894-897.

11. 熊木齐, 郭富赟, 崔志杰, 孟兴民*. 甘肃省武都区马槽沟泥石流特征及其治理工程效应[J]. 兰州大学学报: 自然科学版, 2015. 51(6):831-836.

12. 曾宇桐, 陈冠, 李松, 庞志刚, 孟兴民*. 兰州市凤凰山报恩寺滑坡形成条件及稳定性分析[J]. 兰州大学学报: 自然科学版, 2015, 51(6): 797-802.

13. 伦国兴, 崔志杰, 贾昊冉,孟兴民*.兰州市安宁区凤凰山上洼子滑坡形成条件及稳定性分析[J]. 兰州大学学报: 自然科学版, 2015, 51(6): 803-808.

14. 谢正团, 郭富赟*, 王思源, 孟兴民, 黎志恒. 宝兰客运专线洪亮营隧道滑坡成因机制探讨[J]. 兰州大学学报: 自然科学版, 2015, 51(6): 815-822. 

15. 郭富赟*, 孟兴民, 谢正团, 何云峰, 王建红, 陈冠. 天水市“7·25”群发性地质灾害特征及成因[J]. 山地学报, 2015, 33(1):100-107.

16. 郭富赟*, 桑文翠, 黎志恒, 孟兴民. 陇南山区国家级地质灾害防治管理与监测预警示范区构想[J]. 甘肃地质, 2015(1):70-76.

17. 郭富赟*, 宋晓玲, 谢煜, 孟兴民. 甘肃地质灾害气象预警技术方法探讨[J]. 中国地质灾害与防治学报, 2015, 26(1):127-133.

18. 郭富赟, 黎志恒, 孟兴民. 甘肃省地质灾害应急体系基本问题研究[J]. 甘肃地质, 2015, 24(03): 11-15.

19. 张文侠, 常跟应, 孟兴民, 刘靖朝. 甘肃南部滑坡多发区居民对滑坡灾害的认知研究[J]. 西北师范大学学报(自然科学版), 2015, 51(05): 107-113.

2014年

1. Dijkstra, T. A., Wasowski, J., Winter, M. G., Meng, X. M.. (2014). Introduction to Geohazards of Central China. Quarterly Journal of Engineering Geology and Hydrogeology, 47(3), 195-199.

2. Zeng, R. Q., Meng, X. M.*, Wasowski, J.. (2014). Ground instability detection using PS-InSAR in Lanzhou, China. Quarterly Journal of Engineering Geology and Hydrogeology, 47(4), 307-321.

3. Chen, G., Meng, X. M.*, Tan, L., Zhang, F. Y., Qiao, L.. (2014). Comparison and combination of different models for optimal landslide susceptibility zonation. Quarterly Journal of Engineering Geology and Hydrogeology, 47(4): 283-306.

4. Wu, W. J., Su, X., Meng, X. M.. (2014). Characteristics and Origin of Loess Landslides on Loess Terraces at Heifangtai, Gansu Province, China. Applied Mechanics and Materials, 694: 455-461.

5. Wasowski, J., Bovenga, F., Dijkstra, T., Meng, X. M.. (2014). Persistent Scatterers Interferometry Provides Insight on Slope Deformations and Landslide Activity in the Mountains of Zhouqu, Gansu, China. Landslide Science for a Safer Geoenvironment. Springer International Publishing.

6. Qin, D., Yao, T., Chen, F., Zhang, T., & Meng, X. (2014). Uplift of the Tibetan Plateau and its environmental impacts. Quaternary Research, 81(3), 397-399.

7. Qin, D., Yao, T., Zhou, S., Chen, F., Meng, X., & Zhang, T. (2014). A visionary geomorphologist and glaciologist: Professor Jijun Li on his eightieth birthday. Quaternary Research, 81(3), 393-396.

8. Ma, M., Dong, G., Chen, F., Meng, X., Wang, Z., Elston, R., & Li, G. (2014). Process of paleofloods in Guanting basin, Qinghai Province, China and possible relation to monsoon strength during the mid-Holocene. Quaternary international, 321, 88-96.

9. 曾宇桐, 乔良, 曾润强, 张毅, 陈冠, 孟兴民*. 人工降雨条件下坡积层斜坡入渗地表径流检测. 兰州大学学报: 自然科学版, 2014, (5): 659-665.

10. 张毅, 乔良, 曾润强, 陈冠, 王思源, 孟兴民*. 基于原位双环渗水试验的堆积层滑坡入渗规律. 兰州大学学报: 自然科学版, 2014, (5): 666-670.

11. 崔志杰, 郭鹏, 熊木齐, 庆丰, 张毅, 曾宇桐, 孟兴民*. 基于ASTER遥感影像武都区松散堆积物研究. 兰州大学学报: 自然科学版, 2014, (5): 739-744.

12. 张毅, 谭龙, 陈冠, 郭鹏, 乔良, 孟兴民*. 基于面向对象分类法的高分辨率遥感滑坡信息提取. 兰州大学学报: 自然科学版, 2014, (5): 745-751.

13. 王思源, 曾润强, 乔良, 孟兴民*, 汪霞, 崔志杰. 松散斜坡上刺槐根系分布特征及其抗拉实验. 兰州大学学报: 自然科学版, 2014, (5): 676-679.

14. 汪霞*, 张洋洋, 怡欣, 王思源, 庆丰, 孟兴民. 基于生态足迹模型的舟曲县生态承载力空间差异. 兰州大学学报: 自然科学版, 2014, (5): 687-691.

15. 乔良, 郭鹏, 曾润强, 陈冠, 李亚军, 孟兴民*. 甘肃省冶力关国家森林公园地质灾害隐患分析. 兰州大学学报: 自然科学版, 2014, (4): 477-483.

16. 郭富赟*, 孟兴民, 尹念文, 曾润强, 王思源, 陈冠, 谢正团. 甘肃省岷县耳阳沟 “5· 10” 泥石流基本特征及危险度评价. 兰州大学学报: 自然科学版, 2014, (5): 628-632.

17. 郭富赟*, 孟兴民, 张永军, 李松, 谢正团, 熊木齐, 郭鹏. 甘肃山区城镇地质灾害风险区划技术方法探讨. 兰州大学学报: 自然科学版, 2014, (5): 604-610.

18. 郭富赟*, 黎志恒, 刘心彪, 孟兴民. 陇东白垩系自流水盆地演化的水文地质意义. 人民黄河, 2014, (8): 15-17.

19. 谭龙, 陈冠, 曾润强, 熊木齐, 孟兴民. 人工神经网络在滑坡敏感性评价中的应用. 兰州大学学报: 自然科学版, 2014,50(1): 15-20.

20. 谭龙, 陈冠, 王思源, 孟兴民*. 逻辑回归与支持向量机模型在滑坡敏感性评价中的应用. 工程地质学报, 2014, 22(1): 56-63.

2013年

1. 孟兴民*, 陈冠, 郭鹏, 熊木齐, Janusz Wasowski. 白龙江流域滑坡泥石流灾害研究进展与展望. 海洋地质与第四纪地质, 2013, 33(4): 1-15.

2. 陈冠, 孟兴民*, 乔良, 谭龙, 郭富赟, 张永军.“7.22”岷县漳县地震地质灾害分布, 特征及影响因子间关系分析. 工程地质学报, 2013, 21(5): 750-760.

2012年

1. Dijkstra, T. A.*, Chandler, J., Wackrow, R., Meng, X. M., Ma, D. T., Gibson, A., & Wasowski, J. (2012, June). Geomorphic controls and debris flows—the 2010 Zhouqu disaster, China. In Proceedings of the 11th international symposium on landslides (ISL) and the 2nd North American Symposium on Landslides. 

2. Yue, D. X.*, Zhang, J. J., Guo, J. J., Du, J., Ma, J. H., & Meng, X. M. (2012). An Analysis of Sustainable Development Based on a Comparison of the Pre-and Post-Disaster Biocapacity and Ecological Footprint in Zhouqu County, China.[J]. Advanced Materials Research, 2012, 361: 663-670. 

3. Ma, M., Dong, G.*, Chen, F., Meng, X., Wang, Z., Elston, R., & Li, G. Process of paleofloods in Guanting basin, Qinghai Province, China and possible relation to monsoon strength during the mid-Holocene[J]. Quaternary International, 2012,321: 88-96. 

4. Zhang, J.J., Yue, D.X.*, Wang, Y.Q., Du, J., Ma, J.H., Meng, X.M.. (2012), Spatial Pattern Analysis of Geohazards and Human Activities in Bailong River Basin. Advanced Materials Research, 518-523: 5822-5829.

5. 王冬梅, 孟兴民*, 邢钊等. 基于RS的武都区植被覆盖度动态变化及其驱动力分析[J]. 干旱区资源与环境, 2012, 26(11): 95-100.

6. 王冬梅, 孟兴民*, 郭鹏等. 武都区退耕还林前后土地利用的动态变化[J]. 贵州农业科学, 2012,40(11): 227-229.

8. 巩杰*, 赵彩霞, 王合领, 孙朋, 谢余初, 孟兴民. 基于地质灾害的陇南山区生态风险评价——以陇南市武都区为例[J]. 山地学报, 2012(5):570-577.

2011年

1. Yang L*, Meng X, Zhang X. SRTM DEM and its application advances. International Journal of Remote Sensing, 2011, 32(14): 3875-3896. 

2. Wasowski, J. *, Bovenga, F., Nitti, D. O., Nutricato, R., Dijkstra, T., & Meng, X, 2011. Detecting very slow ground movements using PS interferometry in the Lanzhou loess area of Gansu Province, China. Geophysical Research Abstracts Vol. 13, EGU2011-11139, 2011 EGU General Assembly 2011. 

3. Wackrow, R.*, Chandler, J. H., Dijkstra, T., Sanz-Ablanedo, E., & Xingmin, M, 2011. Incidental terrestrial imagery for post disaster spatial data capture of debris flows. IN: Proceedings of Geomorphometry 2011, 7th-9th September, ESRI Campus, Redlands, California, pp.11-14. 

4. 陈冠, 孟兴民*, 郭鹏等. 白龙江流域基于GIS与信息量模型的滑坡危险性等级区划[J]. 兰州大学学报(自然科学版), 2011, 47(6): 1-6. 

5. 吴玮江*, 叶伟林, 孟兴民, 等. 武都汉林沟流域古滑坡年龄的14C厘定. 地球科学进展, 2012, 26(12): 1276-1281.

1990-2009年

1. Meng X*, Ma J, Derbyshire E. Application of GIS and Remote Sensing to slope instability assessment in loess terrain as a means of documentation, analysis and forecasting[C]//EGU General Assembly Conference Abstracts. 2009, 11: 12513. 

2. Meng, X,M*. 2008. Landslide (Geology). Encyclopedia Britannia (大英百科全书).

3. Kemp, R. A., Derbyshire, E., Meng, X.. (2001). A high-resolution micromorphological record of changing landscapes and climates on the western loess plateau of china during oxygen isotope stage 5. Palaeogeography Palaeoclimatology Palaeoecology, 170(1–2), 157-169.

4. Derbyshire, E. and Meng, X.M.. (2000). Loess as a geological material. In: Derbyshire, Meng and Dijkstra (eds) (2000) op cit 47-90.

5. Dijkstra T.A., Van Asch, T.W.J., Rappange, F.E. and Meng, X.M.. (2000). Loess slope stability modelling. In: Derbyshire, Meng and Dijkstra (eds) (2000) op cit 203-219.

6. Meng, X.M., Derbyshire, E. and Dijkstra, T.A. (2000). Landslide amelioration and mitigation. In: Derbyshire, Meng and Dijkstra (eds) (2000) op cit 243-262.

7. Meng, Xingmin, Derbyshire, Edward, Du, & Yi. (2000). Landslide hazards in the eastern part of gansu province, china. Zeitschrift Der Deutschen Geologischen Gesellschaft.

8. Meng, X.M., Dijkstra, T.A. and Derbyshire, E. (2000). Loess slope instability. In: Derbyshire, Meng and Dijkstra (eds) (2000) op cit 173-203

9. Meng, X.M., Derbyshire, E, Thompson, D. and Page, N., 2000. Slope instability modelling using GIS in the thick loess terrain of North China. Nature Hazards Special Publication (No. L00.105), 104-107.

10. Rose, J., Meng, X. M., & Watson, C. (1999). Palaeoclimate and palaeoenvironmental responses in the western mediterranean over the last 140 ka: evidence from mallorca, spain. Journal of the Geological Society, 156(2), 435-448.

11. Meng, X.M., Derbyshire, E. and Kemp, R.A. 1999. QSR Correspondence Reply to Comments on “Origin of the magnetic susceptibility signal in Chinese loess”. Quaternary Science Reviews, 18, 871-875.

12. Kemp R A, Derbyshire E, Meng X., 1999. Comparison of proxy records of Late Pleistocene climate change from a high‐resolution loess–palaeosol sequence in north‐central China. Journal of Quaternary Science, 14(1): 91-96.

13. Rose J, Meng X., 1999. River activity in small catchments over the last 140 ka, northeast Mallorca, Spain. Fluvial Processes and Environmental Change. Wiley, Chichester, 91-102.

14. Derbyshire, E., Meng, X.M. and Kemp, R.A. 1998. Characteristics of some recent wind-lain dust in north-western China, and interpretation of the loess record. In: Busacca, A. (ed.) Dust Aerosols, Loess Soils and Global Change. Washington State University, Publication No. MISC0190, 15-18.

15. Meng, X.M. and Derbyshire, E. 1998. Landslides and their control in the Chinese Loess Plateau: models and case studies from Gansu Province, China. Geological Society, London, Engineering Geology Special Publications, 15(1): 141-153.

16. Derbyshire, E. Meng, X.M. and  Dijkstra, T.A. 1997. Landslides in the Lanzhou region, Gansu Province, China, In: Sassa, K. (ed.) International Symposium on Landslide Hazard Assessment, 41-55.  Kyoto University,Japan, ISBN 4-9900618-0-2.

17. Derbyshire E, Kemp R A, Meng X M., 1997. Climate change, loess and palaeosols: Proxy measures and resolution in North China. Journal of the Geological Society, 154(5):793-805.

18. Kemp R A, Derbyshire E, Meng X., 1997. Micromorphological variation of the S1 paleosol across northwest China[J]. Catena, 31(1):77-90.

19. Meng, X.M., Derbyshire, E. and Kemp, R.A. 1997. Origin of the magnetic susceptibility signal in Chinese loess. Quaternary Science Reviews, 16: 833-839.

20. 张世武, 王念秦, 孟兴民. 天水椒树湾滑坡的基本特征及其整治[J]. 甘肃科学学报, 1996, 8(1): 55-60.

21. Derbyshire, E. and Meng, X.M.. 1995. The landslide hazard in North China: charactersitics and remedial measures at the Jiaoshuwan and Taishanmiao slides in Tian Shui city, Gansu province.  In: McGregor, D.F.M. and D.A. Thompson (eds.) Geomorphology and Land Management in a Changing Environment. John Wiley & Sons,Chichester, 89-104.

22. Derbyshire, E., Meng, X., Wang, J., Zhou, Z., & Li, B. (1995). Collapsible Loess on the Loess Plateau of China. Genesis and Properties of Collapsible Soils. Springer Netherlands.

23. Muxart, T., Billard, A., Andrieu, A., Derbyshire, E., & Meng, X. (1995). Changes in Water Chemistry and Loess Porosity with Leaching: Implications for Collapsibility in the Loess of North China. Genesis and Properties of Collapsible Soils. Springer Netherlands.

24. Kemp, R.A., Derbyshire, E., Meng, X.M., Chen, F.H. & Pan, B.T. 1995.. Pedosedimentary reconstruction of a thick loess-paleosol sequence near lanzhou in north-central china. Quaternary Research, 43(1), 30-45.

25. Derbyshire, E., Asch, T. V., Billard, A., & Meng, X., 1995. Modelling the erosional susceptibility of landslide catchments in thick loess: chinese variations on a theme by jan de ploey. Catena, 25(1–4), 315-331.

26. Derbyshire, E., Kemp, R., & Meng, X., 1995. Variations in loess and palaeosol properties as indicators of palaeoclimatic gradients across the loess plateau of north china. Quaternary Science Reviews, 14(7–8), 681-697.

28. Derbyshire, E., Keen, D., Kemp, R.A., Rolph, T.C., Shaw, J. and Meng, X.M., 1995. Loess-palaeosol sequences as recorders of palaeoclimatic variations during the last glacialinterglacial cycle: some problems of correlation in northcentral China. In: E. Derbyshire (Editor), Wind Blown Sediments in the Quaternary. Wiley, London, pp. 7 18.

29. Dijkstra, T. A. *, Rogers, C. D. F., Smalley, I. J., Derbyshire, E., Li, Y. J., & Meng, X. M. (1994). The loess of north-central china: geotechnical properties and their relation to slope stability. Engineering Geology, 36(3–4), 153-171.

30. Dijkstra, T.A., Derbyshire, E. and Meng, X.M., 1993. Neotectonics and mass movements in the loess of north-central China. Quaternary Proceedings(United kingdom), 1993, 93-110.

31. 张世武, 王志荣, 孟兴民, 等. 滑坡应急处理初探[J]. 甘肃科学学报, 1992(2): 0-11.

32. 孟兴民, 续永厚, 郭涛,等. 天水市椒树湾、泰山庙滑坡研究[J]. 甘肃科学:甘肃省科学院学报, 1991(2): 36-44.

33. 王家鼎, 冯学才, 孟兴民. 黄土斜坡稳定性的模糊信息分析法[J]. 山地学报, 1991(1):33-40.

34. 王家鼎, 孟兴民, 白晓华. 砂土滑动液化的初步分析[J]. 灾害学, 1990(2): 14-18.

35. 孟兴民, 张世武. 皋兰山三台阁滑坡特征及形成机理[J]. 甘肃科学: 甘肃科学院学报, 1990, 2(1): 48-53.

36. 王靖泰, 孟兴民, 马金辉, 王家鼎, 王得楷. 甘肃省的自然灾害[J]. 甘肃科学: 甘肃省科学院学报, 1990(3): 29-37.

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