兰恒星，男，中国科学院地理科学与资源研究所，地理信息科学与技术全国重点实验室研究员、博士生导师。

    目前任国际工程地质与环境协会（IAEG）滑坡命名方法专委会主席、国际期刊《Engineering Geology》、《Bulletin of Engineering Geology and the Environment》、《Journal of Mountain Science》编委、《Geoenvironmental Disaster》副主编等职。曾获第七届黄汲清青年地质科学技术奖等奖项。

研究领域与研究方向：

主要从事多尺度岩土体变形破坏机理、环境与地质灾害动力学过程模型与风险分析的理论和应用基础研究。

教育背景：（倒序排列）

1998 -2001中国科学院地质与地球物理研究所，获博士学位

1995 -1998山东科技大学地球科学系，获硕士学位

1991 -1995山东科技大学地球科学系，获学士学位

工作经历：（倒序排列）

2009-04~现在，中国科学院地理科学与资源研究所，研究员

2004-05~2009-04，加拿大阿尔伯塔大学、加拿大地面灾害风险分析中心，研究工程师、研究组长

2004-02~2004-04，香港大学，研究助理

2003-08~2004-02，中国科学院地理科学与资源研究所，副研究员

2001-09~2003-07，中国科学院地理资源所资源与环境信息系统国家重点实验室，博士后

科研业绩：

    主要从事岩土体变形破坏机理、地质灾害动力学与风险分析的理论和应用基础研究。主持了国家自然科学基金国家杰出青年基金、国家自然科学基金重大专项项目、国家自然科学基金国家重大科研仪器研制项目等多个科研项目、课题。已发表学术论文300余篇，其中SCI检索论文150余篇，授权专利50余项。

    近年来主要学术成绩包括：提出了多尺度岩土体变形破坏的微观各向异性控制理论，代表性成果在Web of Science引用率国际排名领先；创建了集成GIS系统的三维分布式地质灾害动力学过程模型，在全球40个国家的学术界和工程界得到成功应用，成为国际主流模型；面向国家减灾和重大工程实际问题，完成了一系列获得国家领导人批示的科学咨询研究。

科研项目:

国家自然科学基金委员会，重大项目，黄河流域地质地表过程与重大灾害效应，2021/01 ~ 2024/12，主持

国家自然科学基金委员会，国家重大科研仪器研制项目，复杂结构黄土边坡工程地质自适应原位协同探测系统，2020/01 ~ 2025/12，主持

国家自然科学基金委员会，重大项目课题，项目：川藏铁路重大灾害风险识别与预测—课题3：川藏铁路重大灾害风险识别与预测，2020/01 ~ 2024/12，主持

国家自然科学基金委员会，重大项目课题，项目：黄土高原重大工程灾变机理与防控—课题3：黄土边坡滑移机理与治沟造地工程灾变效应，2018/01 ~ 2022/12，主持

国家自然科学基金委员会，国家杰出青年科学基金项目，工程地质动力学与地质灾害，2016/01 ~ 2020/12，主持

国家自然科学基金委员会，创新研究群体项目，项目：地理时空数据分析—子课题：地表过程大数据时空分析，2015/01 ~ 2020/12，参加

国家自然科学基金委员会，面上项目，分布式滑坡形变PSI（永久散射体干涉雷达）监测模型及技术，2015/01 ~ 2018/12，主持

国家自然科学基金委员会，面上项目，基于LIDAR和频率分布的岩崩规模与关键过程研究，2013/01 ~ 2016/12，主持

国家自然科学基金委员会，面上项目，汶川地震灾区高陡山体斜坡灾害三维离散动力学机理及过程模拟预测，2011/01 ~ 2013/12，主持

国家自然科学基金委员会，青年科学基金项目，复杂环境下的泥石流动力学过程GIS模拟研究，2006/01 ~ 2008/12，主持

科学技术部，国家重点研发计划项目课题，项目：石窟寺岩体稳定性预测及加固技术研究—课题一：卸荷带石窟寺岩体耦合松动机制与失稳机理，2020/01 ~ 2022/12，主持

科学技术部，第二次青藏高原综合科学考察研究子专题，任务九：地质环境与灾害—专题四：重大工程扰动灾害及风险—子专题二：藏东南-一江两河区重大工程扰动灾害及风险，2019/11 ~ 2022/10，主持

科学技术部，国家重点基础研究发展计划（973计划）项目课题，项目：能源储备地下库群灾变机制与防护理论研究—课题五：密集储库区底层变形机理与地面沉降监测，2009/01 ~ 2013/12，参加

科学技术部，国家科技支撑计划项目课题，项目：中国重大自然灾害风险等级综合评估技术研究—课题五：承险过程分析与承险脆弱性综合评估技术，2008/09 ~ 2011/12，参加

中国科学院，中国科学院战略性先导科技专项（A类）子课题，专项：美丽中国生态文明建设科技工程—项目九：气候变化条件下山地致灾风险绿色调控关键技术与示范—课题三：山地致灾风险定量评估关键技术与多尺度风险制图—子课题一：山地风险综合评价指标体系构建，2019/01 ~ 2023/12，主持

中国科学院，中国科学院战略性先导科技专项（A类）子课题，专项：地球大数据科学工程—项目四：全景美丽中国—课题三：“三生”空间统筹优化与决策支持—子课题四：重大自然灾害风险评估—专题一：地质灾害风险评估，2018/01 ~ 2022/12，参加

中国科学院，中国科学院前沿科学重点研究项目，项目：南海典型吹填岛礁沉降变形的时空过程与机理—课题二：南海典型吹填岛礁沉降变形的监测与机理分析，2016/08 ~ 2021/07，参加

中科院STS项目课题，鲁甸地震灾后重建的地质灾害综合评估，2015年1月 ~ 2016年12月，主持

中国科学院，中科院战略性先导科技专项（B类）课题，专项：页岩气勘探开发基础理论与关键技术—项目三课题三子课题一：页岩储层压裂的多尺度破裂力学机制，2014/01 ~ 2019/12，参加

中国科学院，百人计划，地质灾害过程模型研究，2009/01 ~ 2012/12，主持

中国工程院，中国工程院重大咨询研究项目课题，项目：琼东南盆地海底地质灾害风险应对战略研究—课题一：琼东南盆地海底地质灾害防控对策战略研究成果集成，2021/11 ~ 2022/11，主持

中国工程院，中国工程院重大咨询研究项目课题，项目：海西经济区（闽江、九龙江等流域）生态环境安全与可持续发展研究—课题四：海西经济区地质灾害危险度划分与防治对策研究，2010/03 ~ 2012/12，参加

代表性论著：(* 通讯作者)

1.Liang,Q.Y.,Lan,H.X.*,Zhou,Y.,Li,B.,Sun,W.F.,Liu,S.J.,Lv,W.J. (2024). Reverse Size Effect of the Unconfined Compressive Strength of Crystalline Rock: A Grain‑Scale Perspective. Rock Mechanics and Rock Engineering.

2.Tian,N.M.,Lan,H.X.*,Li,L.P.,Peng,J.B.,Fu,B.J.*,Clague,J.J. (2025). Human activities are intensifying the spatial variation of landslides in the Yellow River Basin. Science Bulletin,70,263–272.

3.Lan,H.X.,Song,Z.T.*,Bao,H.*,Ma,Y.F.,Yan,C.G.,Liu,S.J.,Wang,J.T. (2024). Shear strength parameters identification of loess interface based on borehole micro static cone penetration system. Geoenvironmental Disasters,11,24.

4.Lan,H.X.*,Zhao,Z.,Li,L.P.,Li,J.H.,Fu,B.J.*,Tian,N.M.,Lai,R.X.,Zhou,S.,Zhu,Y.B.,Zhang,F.Y.,Peng,J.B.,Clague,J.J. (2024). Climate change drives flooding risk increases in the Yellow River Basin. Geography and Sustainability,5,193–199.

5.Li,L.P.,Lan,H.X.* (2024). Analytical ‘decisiveness’ as a robust measure of the absolute importance of landslide predisposing factors. International Journal of Digital Earth,17(1),2356161.

6.Lin,G.,Lan,H.X.*,Li,P.,Li,L.P.,Liu,S.J.,Sun,W.F. (2024). Role of rainfall temporal distribution on effective infiltration in the loess slope and prediction model. Engineering Geology,335,107541.

7.Liu,C.Q.,Bao,H.*,Lan,H.X.*,Li,L.,Chen,W.C.,Lv,H.T.,Liu,J.H.,Liu,S.J. (2024). Bedding effect on progressive crack propagation in layered sandstone grotto roof. Tunnelling and Underground Space Technology,152,105914.

8.Liu,C.Q.,Bao,H.*,Lan,H.X.*,Yan,C.G.,Li,C.B.,Liu,S.J. (2024). Failure evaluation and control factor analysis of slope block instability along traffic corridor in Southeastern Tibet. Journal of Mountain Science,21(6),1830–1848.

9.Liu,S.J.,Lan,H.X.*,Strom,A.,Li,L.P.,Bao,H. (2024). Spatial segmentation of Jiali Fault’s Holocene activity in the southeastern Tibetan Plateau. npj Natural Hazards,1,42.

10.Liu,X.*,Xu,X.Y.,Huang,L.,Wei,X.,Lan,H.X.* (2024). On characteristics of K0 value and shear behaviour of loess using triaxial test. Scientific Reports,14,12384.

11.Zhao,G.H.,Lan,H.X.*,Yin,H.Y.,Li,L.P.*,Strom,A.,Sun,W.F.,Tian,C.Y. (2024). Deformation,structure and potential hazard of a landslide based on InSAR in Banbar county,Xizang (Tibet). China Geology,7,203–221.

12.Zhao,Z.,Lan,H.X.*,Li,L.P.,Strom,A. (2024). Landslide spatial prediction using cluster analysis. Gondwana Research,130,291–307.

13.Zhu,Y.B.*,Zhang,Y.X.,Lan,H.X.*,Peng,J.B.,Zheng,H.T.,Zhao,D.,Yin,Y.M. (2024). Effect of crack depth on the initiation and propagation of crack-induced sliding in a paleosol area on a loess slope: Three-dimensional investigation based on model testing and laser scanning. Engineering Geology,342,107745.

14.Bao,H.,Tang,M.,Lan,H.X.*,Peng,J.B.,Zheng,H.*,Guo,G.M. (2023). Soil erosion and its causes in high-filling body: A case study of a valley area on the Loess Plateau,China. Journal of Mountain Science,20,182–196.

15.Cao,Y.M.,Lan,H.X.*,Li,L.P. (2023). Disaster Risk Assessment for Railways: Challenges and a Sustainable Promising Solution Based on BIM+GIS. Sustainability,15,16697.

16.Lan,H.X.*,Zhang,T.W.#,Peng,J.B.,Zhang,F.Y.,Li,L.P.,Wu,Y.M.,Tian,N.M.,Clague,J.J.* (2023). Large scale land reclamation and the effects on hydro-mechanical behavior in loess and loess-derived fill. Engineering Geology,323,107241.

17.Li,L.P.,Lan,H.X.* (2023). Bivariate Landslide Susceptibility Analysis: Clarification,Optimization,Open Software,and Preliminary Comparison. Remote Sensing,15(5),1418.

18.Liu,S.J.,Lan,H.X.*,Martin,C.D. (2023). Effect of disturbance on the progressive failure process of Eastern Himalayan Gneiss. Engineering Geology,312,106936.

19.Liu,X.,Wang,L.*,Liu,X.L.,Li,L.P,Zhu,X.C.,Chang,C.Y.,Lan,H.X.* (2023). Multispectral versus texture features from ZiYuan‑3 for recognizing on deciduous tree species with cloud and SVM models. Scientific Reports,13,7369.

20.Tian,N.M.,Lan,H.X.* (2023). The indispensable role of resilience in rational landslide risk management for social sustainability. Geography and Sustainability,4,70–83.

21.Bao,H.,Liu,C.Q.,Lan,H.X.*,Yan,C.G.,Li,L.P.,Zheng,H.,Dong,Z.G. (2022). Time-dependency deterioration of polypropylene fiber reinforced soil and guar gum mixed soil in loess cut-slope protecting. Engineering Geology,311,106895.

22.Cao,Y.M.,Guo,W.,Wu,Y.M.,Li,L.P.*,Zhang,Y.X.,Lan,H.X.* (2022). An hourly shallow landslide warning model developed by combining automatic landslide spatial susceptibility and temporal rainfall threshold predictions. Journal of Mountain Science,19(12),3370–3387.

23.Lan,H.X.*,Liu,X.,Li,L.P.,Li,Q.W.,Tian,N.M.,Peng,J.B. (2022). Remote Sensing Precursors Analysis for Giant Landslides. Remote Sensing,14(17),4399.

24.Lan,H.X.,Peng,J.B.*,Zhu,Y.B.,Li,L.P.,Pan,B.T.,Huang Q.B.,Li,J.H.,Zhang,Q. (2022). Research on geological and surfacial processes and major disaster effects in the Yellow River Basin.SCIENCECHINA Earth Sciences,65(2),234–256.

25.Lan,H.X.*,Tian,N.M.,Li,L.P.*,Liu,H.J.,Peng,J.B.,Cui,P.,Zhou,C.H.,Macciotta,R.,Clague,J.J. (2022). Poverty control policy may affect the transition of geological disaster risk in China. Humanities and Social Sciences Communications,9,80.

26.Lan,H.X.*,Tian,N.M.,Li,L.P.*,Wu,Y.M.,Macciotta,R.,Clague,J.J. (2022). Kinematic-based landslide risk management for the Sichuan-Tibet Grid Interconnection Project (STGIP) in China. Engineering Geology,308,106823.

27.Lan,H.X.*,Zhang,Y.X.,Macciotta,R.,Li,L.P.*,Wu,Y.M.,Bao,H.,Peng,J.B. (2022). The role of discontinuities in the susceptibility,development,and runout of rock avalanches: a review. Landslides,19,1391–1404.

28.Li,L.P.*,Lan,H.X.*,Strom,A.,Macciotta,R. (2022). Landslide longitudinal shape: a new concept for complementing landslide aspect ratio. Landslides,19,1143–1163.

29.Li,L.P.*,Lan,H.X.*,Strom,A.,Macciotta,R. (2022). Landslide length,width and aspect ratio: path-dependent measurement and a revisit of nomenclature. Landslides,19,3009–3029.

30.Liu,S.J.,Lan,H.X.*,Martin,C.D. (2022). Progressive transition from extension fracture to shear fracture of altered granite during uniaxial tensile tests. Rock Mechanic and Rock Engineering,55,5355–5375.

31.Liu,X.,Lan,H.X.*,Li,L.P.*,Cui,P. (2022). An ecological indicator system for shallow landslide analysis. Catena,214,106211.

32.Liu,X.,Wang,L.*,Li,L.P.,Zhu,X.C.,Chang,C.Y.,Lan,H.X.* (2022). Optimum Phenological Phases for Deciduous Species Recognition: A Case Study on Quercus acutissima and Robinia pseudoacacia in Mount Tai. Forests,13(5),813.

33.Liu,X.*,Miao,X.Q.,Qin,Z.H.,Huang,G.J.,Lan,H.X.*,(2022). Shear behavior of loess: The role of drainage condition. Engineering Geology,309,106835.

34.Wu,Y.M.,Tian,A.H.,Lan,H.X.* (2022). Comparisons of Dynamic Landslide Models on GIS Platforms. Applied Sciences,12(6),3093.

35.Wu,Y.M.,Lan,H.X.* (2022). Study on the Deformation of Filling Bodies in a Loess Mountainous Area Based on InSAR and Monitoring Equipment. Land,11(8),1263.

36.Yao,J.M.,Lan,H.X.*,Li,L.P.,Cao,Y.M.,Wu,Y.M.,Zhang,Y.X.,Zhou,C.D. (2022). Characteristics of a rapid landsliding area along Jinsha River revealed by multi-temporal remote sensing and its risks to Sichuan-Tibet railway. Landslides,19,703–718.

37.Zhang,T.W.*,Hu,Z.J.,Lan,H.X.*,Deng,Y.F.,Zhang,H.Y. (2022). The compression behavior of undisturbed and compacted loess under the controlling of total suction and injected solutions. Frontiers in Earth Science,10,818919.

38.Zhou,C.D.,Lan,H.X.*,Bürgmann,R.,Warner,T.A.,Clague,J.J.,Li,L.P.,Wu,Y.M.,Zhao,X.X.,Zhang,Y.X.,Yao,J.M. (2022). Application of an improved multi-temporal InSAR method and forward geophysical model to document subsidence and rebound of the Chinese Loess Plateau following land reclamation in the Yan’an New District. Remote Sensing of Environment,279,113102.

39.Zhu,Y.B.*,Li,F.T.,Yang,F.F.,Zhang,Y.X.,Tian,W.H.,Lan,H.X.* (2022). Experimental investigation on failure modes and progressive failure process of earthen check dam triggered by upstream flow. Frontiers in Earth Science,10,818508.

40.Zhu,Y.B.*,Miao,S.S.,Li,H.F.,Han,Y.T.,Lan,H.X.* (2022). An Empirical Shear Model of Interface Between the Loess and Hipparion Red Clay in a Loess Landslide. Frontiers in Earth Science,9,806832.

41.Zhu,Y.B.*,Zheng,H.T.,Lan,H.X.*,Liu,Y.W.,Li,L.P.,Fu,B.Y.,Du,C.C. (2022). Effect of initial water content and dry density on the self-healing of desiccation cracks in compacted hipparion red clay. Frontiers in Earth Science,10,963086.

42.Chen,J.H.,Lan,H.X.*,Macciotta,R.,Martin,C.D.,& Wu,Y.M. (2021). Microfracture characterization of shale constrained by mineralogy and bedding. Journal of Petroleum Science and Engineering,201,108456.

43.Lan,H.X.*,Zhao,X.X.,Macciotta,R.*,Peng,J.B.,Li,L.P.,Wu,Y.M.,Zhu,Y.B.,Liu,X.,Zhang,N.,Liu,S.J.,Zhou,C.H.,Clague,J.J. (2021). The cyclic expansion and contraction characteristics of a loess slope and implications for slope stability. Scientific Reports,11,2250.

44.Liu,X.*,Zhang,W.Z.,Wei,X.,& Lan,H.X.*. (2021). Unified characterization of hydro-mechanical properties of soil-bentonite mixtures exposed to pore-fluid salinity. Journal of Zhejiang University-SCIENCEA,22(3),188-194.

45.Bao,H.,Qi,Q.,Lan,H.X.*,Yan,C.G.,Feng,L.,Xu,J.B.,Yin,P.J. (2020). Sliding mechanical properties of fault gouge studied from ring shear test-based microscopic morphology characterization. Engineering Geology,279,105879.

46.Bao,H.,Xu,X.H.*,Lan,H.X.*,Zhang,G.B.,Yin,P.J.,Yan,C.G.,Xu,J.B. (2020). A new joint morphology parameter considering the effects of micro-slope distribution of joint surface. Engineering Geology,275,105734.

47.Bao,H.,Zhang,G.B.,Lan,H.X.*,Yan,C.G.,Xu,J.B.,Xu,W. (2020). Geometrical heterogeneity of the joint roughness coefficient revealed by 3D laser scanning. Engineering Geology,265,105415.

48.Li,L.P.,Lan,H.X.*,Peng,J.B. (2020). Loess erosion patterns on a cut-slope revealed by LiDAR scanning. Engineering Geology,268,105516.

49.Li,L.P.,Lan,H.X.*,Strom,A. (2020). Automatic generation of landslide profile for complementing landslide inventory. Geomatics,Natural Hazards and Risk,11(1),1000–1030.

50.Liu,X.*,Tian,C.Y.,Lan,H.X.* (2020). Laboratory investigation of the mechanical properties of a rubber–calcareous sand mixture: the effect of rubber content. Applied Sciences,10(18),6583.

51.Wu,Y.M.,Lan,H.X.* (2020). Debris Flow Analyst (DA):A debris flow model considering kinematic uncertainties and using a GIS platform,Engineering Geology,279,105877.

52.Zhang,Y.X.,Lan,H.X.*,Li,L.P.,Wu,Y.M.,Chen,J.H.,Tian,N.M..(2020). Optimizing the frequency ratio method for landslide susceptibility assessment: A case study of the Caiyuan Basin in the southeast mountainous area of China. Journal of Mountain Science,17(2),340–357.

53.Zhao,X.X.,Lan,H.X.*,Li,L.P.,Zhang,Y.X.,Zhou,C.D. (2020). A Multiple-Regression Model Considering Deformation Information for Atmospheric Phase Screen Compensation in Ground-Based SAR. IEEE Transactions on Geoscience and Remote Sensing,58(2),777–789.

54.Zhou,C.D.,Lan,H.X.*,Gong,H.L.,Zhang,Y.Q.,Warner,T.A.,Clague,J.J.,Wu,Y.M. (2020). Reduced rate of land subsidence since 2016 in Beijing,China: evidence from Tomo-PSInSAR using RadarSAT-2 and Sentinel-1 datasets. International Journal of Remote Sensing,41(4),1259–1285.

55.Lan,H.X.*,Chen,J.H.,Macciotta R. (2019). Universal Confined Tensile Strength of Intact Rock. Scientific Reports,9,6170.

56.Li,L.P.,Lan,H.X.* (2019). Recovering absolute scale for Structure from Motion using the law of free fall. Optics and Laser Technology,112,514–523.

57.Li,Q.W.,Lan,H.X.*,Zhao,X.X.,Wu,Y.M. (2019). River centerline extraction using the multiple direction integration algorithm for mixed and pure water pixels. Giscience & Remote Sensing,56(2),256–281.

58.Liu,X.,Zhang,N.,Lan,H.X.*,2019. Effects of sand and water contents on the small-strain shear modulus of loess. Engineering Geology,260(3),105202.

59.Wu,Y.M.,Lan,H.X.* (2019). Landslide Analyst — a landslide propagation model considering block size heterogeneity. Landslides,16,1107–1120.

60.Zhang,F.Y.*,Yan,B.B.,Feng,X.M.,Lan,H.X.*,Kang,C.,Lin,X.S.,Zhu,X.H.,Ma,W.G. (2019). A rapid loess mudflow triggered by the check dam failure in a bulldoze mountain area,Lanzhou,China. Landslides,16,1981–1992.

61.Chen,J.H.,Lan,H.X.*,Macciotta,R.,Wu,Y.M,Li,Q.W.,Zhao,X.X. (2018). Anisotropy rather than transverse isotropy in Longmaxi shale and the potential role of tectonic stress. Engineering Geology,247,38–47.

62.Li,L.P.,Lan,H.X.*,Guo,C.B.,Zhang,Y.S.,Li,Q.W.,Wu,Y.M. (2017). A modified frequency ratio method for landslide susceptibility assessment. Landslides,14(2),727–741.

63.Li,L.P.,Lan,H.X.*,Wu,Y.M. (2016). How sample size can effect landslide size distribution. Geoenvironmental Disasters,3,18.

64.Li,L.P.,Lan,H.X.* (2015). Probabilistic modeling of rockfall trajectory: a review. Bulletin of Engineering Geology and the Environment,74,1163–1176.

65.Meng,Y.S.,Lan,H.X.*,Li,L.P.,Wu,Y.M.,Li,Q.W. (2015). Characteristics of Surface Deformation Detected by X-band SAR Interferometry over Sichuan-Tibet Grid Connection Project Area,China. Remote Sensing,7(9),12265–12281.

66.Wu,Y.M.,Lan,H.X.*,Gao,X.,Li,L.P.,Yang,Z.H. (2015). A simplified physically based coupled rainfall threshold model for triggering landslides. Engineering Geology,195,63–69.

67.Yang,Z.H.,Lan,H.X.*,Gao,X.,Li,L.P.,Meng,Y.S.,Wu,Y.M. (2015). Urgent Landslide Susceptibility Assessment in the 2013 Lushan Earthquake-impacted Area,Sichuan province,China. Natural Hazards,75,2467–2487.

68.Yang,Z.H.,Lan,H.X.*,Liu,H.J.,Li,L.P.,Wu,Y.M. Meng,Y.S,Xu,L. (2015). Post-earthquake Rainfall-triggered Slope Stability Analysis in The Lushan Area. Journal of Mountain Science,12(1),232–242.

69.Li,L.P.,Lan,H.X.*,Wu,Y.M. (2014). The volume-to-surface-area ratio constrains the rollover of the power law distribution for landslide size. The European Physical Journal Plus,129(5),89.

70.Lan,H.X.*,Gao,X.,Liu,H.J.,Yang,Z.H.,Li,L.P. (2013). Integration of TerraSAR-X and PALSAR PSI for detecting ground deformation. International Journal of Remote Sensing,34(15),5393–5408.

71.Lan,H.X.*,Li,L.P.,Zhang,Y.S.,Gao,X.,Liu,H.J. (2013). Risk assessment of debris flow in Yushu seismic area in China: a perspective for the reconstruction. Natural Hazards and Earth System Sciences,13(11),2957–2968.

72.Lan,H.X.*,Martin,C.D.,Andersson,J.C. (2013). Evolution of in situ rock mass damage induced by mechanical-thermal loading. Rock Mechanics and Rock Engineering,46(1),153–168.

73.Yang,Z.H.,Lan,H.X.*,Zhang,Y.S.,Gao,X.,Li,L.P. (2013). Nonlinear dynamic failure process of tunnel-fault system in response to strong seismic event. Journal of Asian Earth Sciences,64,125–135.

74.Lan,H.X.*,Li,L.P.,Liu,H.J.,Yang,Z.H. (2012). Complex urban infrastructure deformation monitoring using high resolution PSI. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing,5(2),643–651.

75.Li,L.P.,Lan,H.X.*,Wu,Y.M. (2012). Comment on"Statistical physics of landslides: New paradigm"by Chen C.-c. et al..EPL (Europhysics Letters),100,29001.

76.Liu,H.J.,Lan,H.X.*,Liu,Y.,Zhou,Y. (2011). Characteristics of spatial distribution of debris flow and the effect of their sediment yield in main downstream of Jinsha River,China. Environmental Earth Sciences,64(6),1653–1666.

77.Lan,H.X.*,Martin,C.D.,Hu,B. (2010). Effect of heterogeneity of brittle rock on micromechanical extensile behavior during compression loading. Journal of Geophysical Research,115(B1),B01202.

78.Lan,H.X.*,Martin,C.D.,Zhou,C.H.,Lim,C.H. (2010). Rockfall hazard analysis using LiDAR and spatial modeling. Geomorphology,118(1-2),213–223.

79.Lan,H.X.*,Martin,C.D.,Froese,C.R.,Kim,T.H.,Morgan,A.J.,Chao,D.,Chowdhury,S. (2009). A web-based GIS for managing and assessing landslide data for the town of Peace River,Canada. Natural Hazards and Earth System Sciences,9(4),1433–1443.

80.Lan,H.X.*,Martin,C.D.,Zhou,C.H. (2008). Estimating the size and travel distance of Klapperhorn Mountain debris flows for risk analysis along railway,Canada. International Journal of Sediment Research,23(3),275–282.

81.Lan,H.X.,Martin,C.D.*,Lim,C.H. (2007). RockFall analyst: A GIS extension for three-dimensional and spatially distributed rockfall hazard modeling. Computers & Geosciences,33(2),262–279.

82.Lan,H.X.*,Lee,C.F.,Zhou,C.H.,Martin,C.D. (2005). Dynamic characteristics analysis of shallow landslides in response to rainfall event using GIS. Environmental Geology,47(2),254–267.

83.Lan,H.X.*,Zhou,C.H.,Wang,L.J.,Zhang,H.Y.,Li,R.H. (2004). Landslide hazard spatial analysis and prediction using GIS in the Xiaojiang watershed,Yunnan,China. Engineering Geology,76(1-2),109–128.

84.Lan,H.X.*,Hu,R.L.,Yue,Z.Q.,Lee,C.F.,Wang,S.J. (2003). Engineering and geological characteristics of granite weathering profiles in South China. Journal of Asian Earth Sciences,21(4),353–364.

85.Lan,H.X.*,Wu,F.Q.,Zhou,C.H.,Wang,L.J. (2003). Spatial hazard analysis and prediction on rainfall-induced landslide using GIS. Chinese Science Bulletin,48(7),703–708.

86.Lan,H.X.*,Zhou,C.H.,Lee,C.F.,Wang,S.J.,Wu,F.Q. (2003). Rainfall-induced landslide stability analysis in response to transient pore pressure - A case study of natural terrain landslide in Hong Kong.SCIENCECHINA Technological Sciences,46(s1),52–68.

87.刘鑫,兰恒星*,晏长根,董忠红,包含,伍宇明,张帆宇,祝艳波,张军(2023). 钻孔原位剪切测试系统研制及应用. 交通运输工程学报.

88.王小婵,兰恒星*,刘世杰,孙巍锋 (2024). 考虑细观颗粒破损的粒状材料弹塑性本构模型研究. 岩土工程学报.

89.陈钊,兰恒星*,刘世杰,都奎建 (2024). 干湿循环作用下石窟砂岩的抗拉强度劣化机理及破坏模式. 地球科学,49(2),612–624.

90.都奎建，兰恒星*，刘世杰，包含，李黎 (2024). 石窟寺砂岩阶段异质性劣化特征与损伤机制研究. 工程地质学报,32(6),1951–1962.

91.孙巍锋,兰恒星*,包含,田朝阳,晏长根 (2024). Ms6.8 级泸定地震作用下大渡河工程边坡变形响应分析. 工程地质学报,32(5),1654–1668.

92.许博闻，兰恒星*，刘世杰 (2024). 界面形态对黄土－泥岩接触面剪切力学特性影响研究. 工程地质学报,32(2),448–462.

93.兰恒星,吕洪涛,包含*,李黎,陈卫昌,郭进京,刘世杰 (2023). 石窟寺岩体劣化机制与失稳机理研究进展. 地球科学,48(4),1603–1633.

94.刘鑫,兰恒星*,晏长根,董忠红,包含,伍宇明,张帆宇,祝艳波,张军(2023). 钻孔原位剪切测试系统设计. 交通运输工程学报,23(4),154–164.

95.张文哲,兰恒星*,刘鑫 (2023). 盐溶液对石英粉-膨润土混合土渗透系数的影响与表征. 工程地质学报,31(1),90–101.

96.兰恒星,彭建兵*,祝艳波,李郎平,潘保田,黄强兵,李军华,张强 (2022). 黄河流域地质地表过程与重大灾害效应研究与展望. 中国科学:地球科学,52(2),199–221.

97.兰恒星*,包含,孙巍锋,刘世杰 (2022). 岩体多尺度异质性及其力学行为. 工程地质学报,30(1),37–52.

98.李郎平,兰恒星* (2022). 滑坡运动路径复杂度研究：综述与展望. 地球科学,47(12),4663–4680.

99.刘世杰,兰恒星*,包含,彭建兵 (2022). 石窟寺典型工程地质变形破坏模式及分类体系. 地球科学,47(12),4710–4723.

100.刘世杰,兰恒星*,张宁 (2022). 嘉黎断裂中段重大工程区地质力学分析. 工程地质学报,30(6),1947–1961.

101.田朝阳,兰恒星*,张宁,许博闻 (2022). 某交通线路色季拉山隧道高地应力岩爆风险定量预测研究. 工程地质学报,30(3),621–634.

102.王瑞,兰恒星*,刘世杰,伍宇明 (2022). 火灾对于岩土体物理力学特性的影响研究. 地球科学与环境学报,44(1),114–123.

103.袁逸齐,兰恒星*,刘世杰,姚佳明,孙巍锋,包含,李黎 (2022). 砂岩石窟热诱导裂纹损伤时空特征与分析. 岩石力学与工程学报,41(12),2530–2542.

104.张宁,兰恒星*,李郎平,孙巍锋,刘世杰,林感,田朝阳 (2022). 青藏高原东南缘实测地应力特征及意义分析. 工程地质学报,30(3),696–707.

105.张宁,张文哲,李郎平,兰恒星* (2022). 青藏高原地温时空分布及某重大线性工程深部高地温风险分析. 工程地质学报,30(3),708–719.

106.兰恒星*,张宁,李郎平,田乃满,仉义星,刘世杰,林感,田朝阳,伍宇明,姚佳明,彭建兵,周成虎 (2021). 川藏铁路可研阶段重大工程地质风险分析. 工程地质学报,29(2),326–341.

107.兰恒星*,祝艳波,李郎平,潘保田,胡振波,彭建兵 (2021). 黄河流域地质-地貌-气候多过程相互作用及其孕灾机制研究. 中国科学基金,35(4),510–519.

108.田朝阳,兰恒星*,刘鑫 (2021). 考虑形貌特征和级配影响的钙质砂压缩破碎力学特性研究. 工程地质学报,29(6),1700–1710.

109.伍宇明,兰恒星*,黄为清 (2021). 不饱和黄土的波速与质量含水率关系. 地球物理学报,64(10),3766–3773. (SCI)

110.祝艳波,兰恒星*,彭建兵,李军华,张攀,张彤炜,朱兴华,张亚国,刘鑫,谷天峰,李郎平 (2021). 黄河中游地区水土灾害机理与灾害链效应研究进展. 人民黄河,43(8),108–116,147.

111.田乃满,兰恒星*,伍宇明,李郎平 (2020). 人工神经网络和决策树模型在滑坡易发性分析中的性能对比. 地球信息科学学报,22(12),2304–2316.

112.伍宇明,兰恒星*,黄为清 (2020). 龙马溪页岩弹性各向异性与矿物分布之间的关系探讨. 地球物理学报,63(5),1856–1866. (SCI)

113.兰恒星*,孟云闪,仉义星 (2019). 复杂因素影响下的福州市地面沉降时空演化分析. 工程地质学报,27(6),1350–1361.

114.兰恒星*,仉义星,伍宇明 (2019). 岩体结构效应与长远程滑坡动力学. 工程地质学报,27(1),108–122.

115.仉义星,兰恒星*,李郎平,伍宇明,陈志超,陈俊辉 (2019). 综合统计模型和物理模型的地质灾害精细评估——以福建省龙山社区为例. 工程地质学报,27(3),608–622.

116.兰恒星*，陈俊辉，伍宇明 (2018). 三轴压缩试验前后含气页岩微纳尺度裂隙空间分布特征研究. 工程地质学报,26(1),24–35.

117.兰恒星*,伍宇明,李全文,陈俊辉,赵晓霞 (2017). 龙马溪组页岩三维缝网重构及分形分析. 工程地质学报,25(6),1557–1565.

118.兰恒星*,赵晓霞,伍宇明,李郎平,苏奋振 (2017). 钙质岛礁沉降变形过程分析. 中国海洋大学学报(自然科学版),47(10),1–8.

119.李郎平,兰恒星*,郭长宝,张永双,李全文,伍宇明 (2017). 基于改进频率比法的川藏铁路沿线及邻区地质灾害易发性分区评价. 现代地质,31(5),911–929.

120.兰恒星*,肖锐铧,严福章,伍宇明 (2016). 川藏联网工程地质条件分析. 工程地质学报,24(Suppl.),375–385.

121.伍法权,兰恒星* (2016). 国际工程地质与环境研究现状及前沿——第十二届国际工程地质大会（IAEG XII）综述. 工程地质学报,24(1),116–129.

122.伍宇明,兰恒星*,高星,李郎平 (2014). 台风暴雨型滑坡降雨阈值曲线研究——以福建地区为例. 工程地质学报,22(2),255–262.

123.伍宇明,兰恒星*,高星,李郎平,孟云闪 (2014). 一种基于Bayes理论的区域斜坡稳定性评价模型. 工程地质学报,22(6),1227–1233.

124.兰恒星*,周成虎,高星,程维明,王治华,杨志华,李郎平,伍宇明 (2013). 四川雅安芦山地震灾区次生地质灾害评估及对策建议. 地理科学进展,32(4),499–504.

125.杨志华,兰恒星*,张永双,李郎平,熊探宇 (2013). 强震作用下穿越断层隧道围岩力学响应研究. 工程地质学报,21(2),171–181.

126.兰恒星*,刘洪江,孙铁,贾有良,杨志华,丁尚起,黄晓明 (2012). 城市建筑物沉降永久散射体干涉雷达监测. 天津大学学报,45(4),292–300. (EI)

127.李郎平,兰恒星*,李晓,孟云闪,陈雨 (2012). 金坛盐穴天然气储库区地表变形PSI监测. 岩石力学与工程学报,31(9),1821–1829. (EI)

128.刘洪江,兰恒星* (2012).“5.12"震后都江堰-汶川公路崩塌灾害模拟及危险性评价. 资源科学,34(2),345–352.

129.杨志华,兰恒星*,张永双 (2012). 基于GIS-GOCAD耦合技术的三维地质建模. 地理与地理信息科学,28(5),16–20.

130.兰恒星*,刘洪江,孙铁,贾有良,杨志华,李郎平,丁尚起,黄晓明 (2011). 城市复杂地面沉降永久干涉雷达监测属性分类研究. 工程地质学报,19(6),893–901.

131.刘洪江,兰恒星*,程维明 (2010). 玉树地震后结古镇群发式泥石流灾害数值模拟及危险性分析. 山地学报,28(4),444–452.

132.刘洪江,兰恒星*,张军,刘杰,杨军 (2010). 老挝北部罂粟替代种植高分辨率遥感调查评价与分析. 资源科学,32(7),1425–1432.

133.兰恒星*,周成虎,王小波 (2007). 泥石流本构模型及动力学模拟研究现状综述. 工程地质学报,15(3),314–321.

134.兰恒星*,王苓涓,周成虎 (2003). 云南小江流域滑坡关键影响因子研究. 中国地质灾害与防治学报,14(1),100–106.

135.兰恒星*,伍法权,周成虎,王苓涓 (2003). GIS支持下的降雨型滑坡危险性空间分析预测. 科学通报,48(5),507–512.

136.兰恒星*,周成虎,李焯芬,王思敬,伍法权 (2003). 瞬时孔隙水压力作用下的降雨滑坡稳定性响应分析:以香港天然降雨滑坡为例. 中国科学E辑-技术科学,33(增刊),119–136.

137.兰恒星*,周成虎,王苓涓,伍法权,王思敬 (2003). 地理信息系统支持下的滑坡-水文耦合模型研究. 岩石力学与工程学报,22(8),1309–1314. (EI)

138.兰恒星*,王苓涓,周成虎 (2002). 地理信息系统支持下的滑坡灾害分析模型研究. 工程地质学报,10(4),421–427.

139.兰恒星*,伍法权,王思敬 (2002). 基于GIS的滑坡CF多元回归模型及其应用. 山地学报,20(6),732–737.

140.兰恒星*,伍法权,周成虎,王思敬 (2002). 基于GIS的滑坡空间数据库研究—以云南小江流域为例. 中国地质灾害与防治学报,13(4),10–16.

141.兰恒星*,伍法权,周成虎,王思敬 (2002). 基于GIS的云南小江流域滑坡因子敏感性分析. 岩石力学与工程学报,21(10),1500–1506. (EI)

142.兰恒星*,祁生文,伍法权 (2001). 溪洛渡水电站干海子滑坡非线性动力学模拟. 湘潭矿业学院学报,16(3),5–10. (EI)

143.兰恒星*,伍法权 (2001). 岩土力学数值模拟中力学参数的确定方法. 世界地质,20(1),66–71.

144.兰恒星*,李增学,魏久传 (2000). 山东黄县早第三纪断陷盆地充填演化动力学特征. 煤田地质与勘探,28(2),6–10.

145.兰恒星*,伍法权 (2000). 基于条分法的滑坡位移非线性动力学模拟方法. 工程地质学报,8(3),374–378.

研究生招生与培养:

招生专业：地图学与地理信息系统

招生方向：地理信息系统与自然灾害

联系方式：

通讯地址：北京市朝阳区大屯路甲11号 中国科学院地理科学与资源研究所

邮    编：100101

办公电话：010-64888783

传    真：010-64889630

E-mail地址:lanhx@igsnrr.ac.cn;lanhx@lreis.ac.cn