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Visits

1. Full-fit reconstruction of the South China Sea conjugate margins [488]
2. Mantle transition zone, stagnant slab and intraplate volcanism in .. [427]
3. Different expressions of the crustal structure across the Dongsha .. [412]
4. The late Cenozoic deep-water channel system in the Baiyun Sag, Pea.. [399]
5. Incoming Plate Variations along the Northern Manila Trench: Implic.. [391]
6. Recurrent slope failure enhancing source rock burial depth and sea.. [390]
7. Mass transport deposits and processes in the north slope of the Xi.. [379]
8. Tomographic imaging of the Cascadia subduction zone: Constraints o.. [376]
9. 板片窗构造研究综述 [359]
10. Architecture and evolution of deep-water cyclic deposits in the Qi.. [356]
11. Middle Miocene mound-shaped sediment packages on the slope of the .. [355]
12. The continent-ocean transition at the mid-northern margin of the S.. [336]
13. Three dimensional seismic anatomy of multi-stage mass transport de.. [326]
14. 琼东南盆地深水重力流沉积旋回 [315]
15. Post-rifting magmatism and the drowned reefs in the Xisha Archipel.. [315]
16. Recurrent slope failure and submarine channel incision as key fact.. [305]
17. Thinned crustal structure and tectonic boundary of the Nansha Bloc.. [295]
18. 3D P wave velocity structures of crust and their relationship with.. [286]
19. Spatial and temporal evolution of Cenozoic carbonate platforms on .. [274]
20. 南海深水沉积与储层的地球物理识别 [242]
21. Crustal structure and extension mode in the northwestern margin of.. [238]
22. Response of geomorphic and geological processes to insufficient an.. [222]
23. 南海共轭陆缘新生代碳酸盐台地对海盆构造演化的响应 [215]
24. Submarine landslides on the north continental slope of the South C.. [212]
25. The characteristics of sonic wave attenuations of gas hydrate rese.. [211]
26. Submarine slide evidence for late Miocene strike-slip reversal of .. [208]
27. Geology of the Yap Trench: new observations from a transect near 1.. [206]
28. 天然气水合物地质概论 [205]
29. Three-dimensional seismic characterization of a complex sediment d.. [201]
30. Pre-drilling prediction techniques on the high-temperature high-pr.. [200]
31. Relation of submarine landslide to hydrate occurrences in Baiyun D.. [196]
32. 南沙海槽岩石圈热流变结构与动力学演化分析 [191]
33. Deep-sea geohazards in the South China Sea [187]
34. Testing the mantle plume hypothesis: an IODP effort to drill into .. [180]
35. Pleistocene iceberg dynamics on the west Svalbard margin: Evidence.. [178]
36. Numerical simulation of mechanical compaction of deepwater shallow.. [178]
37. Prolonged post-rift magmatism on highly extended crust of divergen.. [171]
38. Quantitative assessment of free gas beneath gas hydrate stability .. [171]
39. A wavelet transformation approach for multi-source gravity fusion:.. [167]
40. A giant, submarine creep zone as a precursor of large-scale slope .. [164]
41. Three dimensional seismic studies of deep-water hazard-related fea.. [158]
42. The Early Cretaceous bimodal volcanic suite from the Yinshan Block.. [156]
43. Geometry, internal architecture, and evolution of buried volcanic .. [151]
44. 马里亚纳海沟Challenger Deep的岩石圈流变结构与动力学分析 [146]
45. Crustal stretching style variations in the northern margin of the .. [142]
46. 西沙海域碳酸盐台地周缘水道沉积体系 [141]
47. Introduction to special section: The South China Sea deep-water: S.. [135]
48. Acoustic wave attenuation in the gas hydrate-bearing sediments of .. [122]
49. Geophysical characterization of a fine-grained gas hydrate reservo.. [118]
50. 三沙海底峡谷识别与地貌特征分析 [110]
51. Mixed Carbonate-Siliciclastic Deposits in a Channel Complex in the.. [107]
52. 三维地震解释技术在南海北部陆缘深水水道体系中的应用 [105]
53. 南海深水海盆沉积物压实作用及影响因素 [97]
54. 墨西哥湾GC955H井天然气水合物储层声波衰减特征 [95]
55. An analytical model for fracture initiation in elasto-plastic soft.. [94]
56. 马尼拉俯冲带北段增生楔前缘构造变形和精细结构 [92]
57. 浊流及其相关的深水底形研究进展 [88]
58. Subduction Erosion, Crustal Structure, and an Evolutionary Model o.. [88]
59. 流花碳酸盐岩储层“低频阴影”检测分析 [87]
60. Post-seafloor spreading magmatism and associated magmatic hydrothe.. [87]
61. 西沙海域中新世碳酸盐台地的时空分布及其油气成藏模式 [86]
62. 基于机器学习方法的天然气水合物稳定带厚度计算 [85]
63. Tsunami hazard assessment for atoll islands inside the South China.. [83]
64. Extensional styles of the conjugate rifted margins of the South Ch.. [83]
65. 钻探勘察加-鄂霍茨克海基底:检验地幔柱假说的最终途径 [82]
66. 南海西北次海盆构造演化的沉积响应 [81]
67. 南海北部白云凹陷深水油气区的重-震数据处理与分析 [78]
68. 晚中新世红河断裂走滑反转事件的海底滑坡证据 [77]
69. 基于深度分布特征的海底地貌类型识别方法 [77]
70. 数据重构提高τ-p变换的精度 [75]
71. 印度东部大陆边缘天然气水合物储层地球物理研究进展 [71]
72. 南海神狐海域天然气水合物试采成功后的思考 [70]
73. Subsurface fluid flow at an active cold seep area in the Qiongdong.. [65]
74. 基于因子分析的海底地貌类型分类器设计方法 [60]
75. The differences between the measured heat flow and BSR heat flow i.. [59]
76. Gas hydrate quantification in Walker Ridge block 313, Gulf of Mexi.. [59]
77. 基于深度分布特征的海底地貌类型识别方法 [58]
78. Morphology, architecture, and evolutionary processes of the Zhongj.. [55]
79. Cooling of the lithosphere beneath the Nansha Block, South China S.. [55]
80. 基于多重分形谱特征的非高斯型海底地貌类型识别方法 [53]
81. 裂后岩浆活动中岩床复合体的特征:以南海北部和南极西罗斯海地区为例 [51]
82. 白云凹陷深水油气开发区海底滑坡的特征、分布以及成因初探 [51]
83. 石油管道疏通系统及疏通方法 [51]
84. Different origins of seafloor undulations in a submarine canyon sy.. [50]
85. 南海中建礁的地震反射特征及其沉积演化 [49]
86. 西沙群岛永乐环礁瀉湖沉积速率及地球化学特征 [47]
87. Structural controls on submarine channel morphology, evolution, an.. [46]
88. Facies model on the modern isolated carbonate platform in the Xish.. [44]
89. Upper mantle density modelling for large-scale Moho gravity invers.. [42]
90. 基于大津算法的海底地貌边界提取方法 [42]
91. 基于因子分析的海底地貌类型分类器设计方法 [41]
92. 南海珠江口盆地深水区混合沉积类型及其形成机制 [40]
93. 南海半封闭边缘海碳酸盐台地兴衰史 [40]
94. 西沙海区中新世广乐碳酸盐台地的发育演化及其控制因素 [38]
95. Quantifying gas hydrate from microbial methane in the South China .. [37]
96. 基于图像处理的海底地貌单元边缘智能识别方法 [37]
97. 西沙群岛宣德环礁的地震层序发育特征 [35]
98. 岛礁地震资料特征分析及处理流程——以西沙永乐环礁为例 [35]
99. Tectonic deformation and fine structure of the frontal accretionar.. [35]
100. 一种石油管道防砂疏通管内机器人系统及其清疏方法 [35]

Downloads

1. Full-fit reconstruction of the South China Sea conjugate margins [124]
2. Mass transport deposits and processes in the north slope of the Xi.. [103]
3. 板片窗构造研究综述 [102]
4. Mantle transition zone, stagnant slab and intraplate volcanism in .. [94]
5. Different expressions of the crustal structure across the Dongsha .. [70]
6. Recurrent slope failure enhancing source rock burial depth and sea.. [69]
7. 3D P wave velocity structures of crust and their relationship with.. [62]
8. Spatial and temporal evolution of Cenozoic carbonate platforms on .. [62]
9. Incoming Plate Variations along the Northern Manila Trench: Implic.. [60]
10. Architecture and evolution of deep-water cyclic deposits in the Qi.. [58]
11. The continent-ocean transition at the mid-northern margin of the S.. [57]
12. Tomographic imaging of the Cascadia subduction zone: Constraints o.. [57]
13. 琼东南盆地深水重力流沉积旋回 [55]
14. Crustal structure and extension mode in the northwestern margin of.. [54]
15. Recurrent slope failure and submarine channel incision as key fact.. [49]
16. Extensional styles of the conjugate rifted margins of the South Ch.. [33]
17. 基于深度分布特征的海底地貌类型识别方法 [31]
18. 南沙海槽岩石圈热流变结构与动力学演化分析 [30]
19. 基于机器学习方法的天然气水合物稳定带厚度计算 [30]
20. Thinned crustal structure and tectonic boundary of the Nansha Bloc.. [26]
21. Geology of the Yap Trench: new observations from a transect near 1.. [24]
22. The late Cenozoic deep-water channel system in the Baiyun Sag, Pea.. [20]
23. Middle Miocene mound-shaped sediment packages on the slope of the .. [20]
24. 基于多重分形谱特征的非高斯型海底地貌类型识别方法 [16]
25. 基于因子分析的海底地貌类型分类器设计方法 [14]
26. 一种石油管道防砂疏通管内机器人系统及其清疏方法 [14]
27. 石油管道疏通系统及疏通方法 [13]
28. 基于大津算法的海底地貌边界提取方法 [12]
29. 基于图像处理的海底地貌单元边缘智能识别方法 [12]
30. 基于图像处理的海底地貌单元边缘智能识别方法 [8]
31. 深水钻井浅水流地层井眼坍塌影响因素分析 [3]
32. 浊流及其相关的深水底形研究进展 [2]