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    External: 373
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    Abroad: 180

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Visits

Visits

1. 长江上游山地灾害与水土流失地图集 [626]
2. 西部山区重大道路工程与环境的相互作用机制 [613]
3. 长江上游山地灾害与水土流失地图集 [529]
4. The Wenchuan Earthquake (May 12, 2008), Sichuan Province, China, a.. [375]
5. 一种流体表面二维流速场测量方法 [348]
6. 省级应急测绘指挥平台构建研究 [347]
7. Relationship between grain composition and debris flow characteris.. [314]
8. 冰川终碛湖溃决-再生特征与机理 [298]
9. 气候变暖背景下青藏高原山地灾害及其风险分析 [279]
10. “4·20”芦山地震崩塌滑坡与公路危险性评价——以宝兴县省道S210沿线.. [277]
11. Study on methodology and application of debris-flow hazard risk as.. [274]
12. 青藏高原自然灾害发育现状与未来关注的科学问题 [262]
13. 泥石流阵流序列的整体性 [257]
14. 蒋家沟流域非泥石流活动期的输沙特征 [257]
15. Abe Barek landslide and landslide susceptibility assessment in Bad.. [255]
16. Catastrophic Debris Flows on July 10th 2013 along the Min River in.. [254]
17. 流域演化与泥石流的系统性——以云南东川蒋家沟为例 [238]
18. 芦山地震重灾区崩塌滑坡易发性评价 [234]
19. 省级应急测绘指挥平台构建与研究 [223]
20. 一种扰流消能的全衬砌泥石流排导槽 [223]
21. Runout and entrainment analysis of an extremely large rock avalanc.. [223]
22. Assessment of secondary mountain hazards along a section of the Du.. [217]
23. 地震滑坡高分辨率遥感影像识别 [214]
24. 芦山地震重灾区地形因子分析 [206]
25. 黏性泥石流冲起爬高计算 [198]
26. 雪崩的形成机理研究 [197]
27. 台湾“莫拉克”台风诱发山地灾害成因与启示 [195]
28. Geometrical feature analysis and disaster assessment of the Xinmo .. [195]
29. 基于GIS的泥石流敏感性研究——以汶川县为例 [185]
30. Assessment of Secondary Mountain Hazards along a Section of the Du.. [185]
31. 基于多源遥感数据的5·12汶川地震诱发堰塞体信息提取 [179]
32. 汶川地震危害道路交通及其遥感监测评估——以都汶公路为例 [177]
33. The Characteristics of Landslides Induced by the Wenchuan Earthqua.. [177]
34. 从空间Poisson过程看蒋家沟泥石流 [176]
35. 基于遥感技术的都汶公路地震次生山地灾害分布规律分析 [175]
36. The characteristics of the Mocoa compound disaster event, Colombia [171]
37. Susceptibility assessment of landslides caused by the wenchuan ear.. [160]
38. 地震次生山地灾害对岷江干流都江堰-汶川段水电工程的影响 [159]
39. 长江上游及西南诸河水土流失的危害 [158]
40. 汶川地震山地灾害遥感快速提取及其分布特点分析 [158]
41. 地震诱发崩塌滑坡敏感性评价——以北川县为例 [156]
42. A Hydrologically Based Model for Delineating Hazard Zones in the V.. [155]
43. The influence of sensible heat on monsoon precipitation in central.. [151]
44. Geometrical feature analysis and disaster assessment of the Xinmo .. [150]
45. Hazard assessment on secondary mountain-hazards triggered by the W.. [149]
46. A DEM BASED APPROACH FOR DELINEATING HAZARD ZONES [146]
47. 动态窗口邻域统计的高差计算方法 [133]
48. 汶川地震灾害与灾后重建的初步研究 [131]
49. Destructions on the Karakoram Highway (KKH) from Sost to Khunjerab.. [122]
50. 基于GIS的潜在泥石流灾害风险判识研究-以蒋家沟为例 [119]
51. 基于GIS的潜在泥石流灾害风险判识研究——以蒋家沟为例 [111]
52. 第2章 地震区山地灾害分布规律 [110]
53. 国产高分卫星数据在西南山区地质灾害动态监测中的应用 [109]
54. Characteristics and Causes of Disastrous Debris Flows on July 4, 2.. [107]
55. A study on the properties of the 12 May Wenchuan earthquake-induce.. [94]
56. Material sources supplying debris flows in Jiangjia Gully [85]
57. A study on the properties of the 12 May Wenchuan earthquake-induce.. [70]
58. 基于流域演化的泥石流敏感性分析 [37]
59. Sediment properties of hyperconcentrated flow and the potential fo.. [29]
60. 青藏高原山地灾害和气象灾害风险评估与减灾对策 [24]
61. “4·20”芦山7.0级地震次生山地灾害活动特征与趋势 [23]
62. 岷江干旱河谷植物群落分布特征及梯度效应 [8]

Downloads

1. 长江上游山地灾害与水土流失地图集 [46]
2. 长江上游山地灾害与水土流失地图集 [45]
3. Relationship between grain composition and debris flow characteris.. [34]
4. 西部山区重大道路工程与环境的相互作用机制 [26]
5. 一种流体表面二维流速场测量方法 [26]
6. 气候变暖背景下青藏高原山地灾害及其风险分析 [24]
7. Abe Barek landslide and landslide susceptibility assessment in Bad.. [22]
8. Catastrophic Debris Flows on July 10th 2013 along the Min River in.. [20]
9. 芦山地震重灾区崩塌滑坡易发性评价 [18]
10. 流域演化与泥石流的系统性——以云南东川蒋家沟为例 [16]
11. 一种扰流消能的全衬砌泥石流排导槽 [16]
12. 冰川终碛湖溃决-再生特征与机理 [15]
13. The characteristics of the Mocoa compound disaster event, Colombia [15]
14. 泥石流阵流序列的整体性 [14]
15. Geometrical feature analysis and disaster assessment of the Xinmo .. [14]
16. 青藏高原自然灾害发育现状与未来关注的科学问题 [13]
17. 从空间Poisson过程看蒋家沟泥石流 [12]
18. “4·20”芦山地震崩塌滑坡与公路危险性评价——以宝兴县省道S210沿线.. [12]
19. Runout and entrainment analysis of an extremely large rock avalanc.. [12]
20. 黏性泥石流冲起爬高计算 [11]
21. 基于遥感技术的都汶公路地震次生山地灾害分布规律分析 [10]
22. 蒋家沟流域非泥石流活动期的输沙特征 [10]
23. 省级应急测绘指挥平台构建研究 [10]
24. Material sources supplying debris flows in Jiangjia Gully [10]
25. 长江上游及西南诸河水土流失的危害 [9]
26. 省级应急测绘指挥平台构建与研究 [9]
27. The Wenchuan Earthquake (May 12, 2008), Sichuan Province, China, a.. [9]
28. 汶川地震山地灾害遥感快速提取及其分布特点分析 [8]
29. 台湾“莫拉克”台风诱发山地灾害成因与启示 [8]
30. A Hydrologically Based Model for Delineating Hazard Zones in the V.. [8]
31. 地震次生山地灾害对岷江干流都江堰-汶川段水电工程的影响 [7]
32. 动态窗口邻域统计的高差计算方法 [7]
33. 基于GIS的泥石流敏感性研究——以汶川县为例 [6]
34. Susceptibility assessment of landslides caused by the wenchuan ear.. [6]
35. 汶川地震危害道路交通及其遥感监测评估——以都汶公路为例 [5]
36. Study on methodology and application of debris-flow hazard risk as.. [5]
37. 基于GIS的潜在泥石流灾害风险判识研究-以蒋家沟为例 [5]
38. The influence of sensible heat on monsoon precipitation in central.. [5]
39. 第2章 地震区山地灾害分布规律 [5]
40. Characteristics and Causes of Disastrous Debris Flows on July 4, 2.. [5]
41. Geometrical feature analysis and disaster assessment of the Xinmo .. [5]
42. 基于GIS的潜在泥石流灾害风险判识研究——以蒋家沟为例 [4]
43. 芦山地震重灾区地形因子分析 [4]
44. A DEM BASED APPROACH FOR DELINEATING HAZARD ZONES [4]
45. 地震诱发崩塌滑坡敏感性评价——以北川县为例 [3]
46. Assessment of Secondary Mountain Hazards along a Section of the Du.. [3]
47. The Characteristics of Landslides Induced by the Wenchuan Earthqua.. [3]
48. 雪崩的形成机理研究 [2]
49. 汶川地震灾害与灾后重建的初步研究 [1]
50. A study on the properties of the 12 May Wenchuan earthquake-induce.. [1]
51. Destructions on the Karakoram Highway (KKH) from Sost to Khunjerab.. [1]
52. 地震滑坡高分辨率遥感影像识别 [1]
53. A study on the properties of the 12 May Wenchuan earthquake-induce.. [1]
54. 国产高分卫星数据在西南山区地质灾害动态监测中的应用 [1]