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1. 青藏高原典型地区的地貌量化分析——兼对高原“夷平面”的讨论 [2482]
2. 青藏高原碰撞造山带:I.主碰撞造山成矿作用 [2203]
3. Paleocene-Eocene record of ophiolite obduction and initial India-A.. [2191]
4. U-Pb geochronology of basement rocks in central Tibet and paleogeo.. [2038]
5. Structural evolution of the Neogene Gar Basin, western Tibet: Impl.. [2014]
6. Triassic continental subduction in central Tibet and Mediterranean.. [2003]
7. 青藏高原现代食草动物牙齿珐琅质稳定同位素特征及古高度重建意义 [1998]
8. Tibetan basement rocks near Amdo reveal "missing" Mesozoic tectoni.. [1933]
9. 青藏高原碰撞造山带:Ⅱ.晚碰撞转换成矿作用 [1811]
10. Dual polarity directions in basaltic-andesitic dykes - reversal re.. [1795]
11. High and dry in central Tibet during the Late Oligocene [1785]
12. Nyainqentanglha Shan: A window into the tectonic, thermal, and geo.. [1753]
13. Constraining the stepwise migration of the eastern Tibetan Plateau.. [1692]
14. 青藏高原北部可可西里地区新生代钾质火山岩地球化学特征及成因 [1681]
15. Cretaceous-Tertiary shortening, basin development, and volcanism i.. [1681]
16. Melt/mantle mixing produces podiform chromite deposits in ophiolit.. [1630]
17. Position of the Lhasa terrane prior to India-Asia collision derive.. [1597]
18. Geological records of the Lhasa-Qiangtang and Indo-Asian collision.. [1588]
19. The boundary between the Indian and Asian tectonic plates below Ti.. [1549]
20. Coupled U-Pb dating and Hf isotopic analysis of detrital zircon of.. [1500]
21. Initial India-Asia Continental Collision and Foreland Basin Evolut.. [1479]
22. Paleomagnetic evidence for clockwise rotation and tilting in the e.. [1465]
23. 西藏改则蛇绿岩中斜长花岗岩地球化学特征、锆石U-Pb年龄及构造意义 [1442]
24. 青藏高原东部边界扩展过程的磷灰石裂变径迹热历史制约 [1431]
25. Development of active low-angle normal fault systems during orogen.. [1399]
26. Late Cretaceous to middle Tertiary basin evolution in the central .. [1395]
27. 汶川8级大地震同震破裂的特殊性及构造意义——多条平行断裂同时活动的.. [1387]
28. 冰川型海平面变化控制下的台地碳酸盐岩成岩作用:以陕西镇安西口石炭-二.. [1368]
29. Postcollisional calc-alkaline lavas and xenoliths from the souther.. [1365]
30. Evidence for Early (> 44 Ma) Himalayan Crustal Thickening, Tethyan.. [1344]
31. Gangdese retroarc thrust belt and foreland basin deposits in the D.. [1344]
32. Preservation of a large-scale bedrock peneplain suggests long-term.. [1344]
33. Finding of high-pressure mafic granulites in the Amdo basement, ce.. [1335]
34. 西藏拉萨地块高镁超钾质火山岩及对南北向裂谷形成时间和切割深度的制约 [1332]
35. Kinematics of the crust around the Ama Drime Massif (southern Tibe.. [1305]
36. 印度大陆与亚洲大陆早期碰撞过程与动力学模型——来自西藏冈底斯新生代.. [1304]
37. Himalayan evolutionary models: Constraints from Eocene-Miocene gra.. [1279]
38. Late Miocene topographic inversion in southwest Tibet based on int.. [1274]
39. 南极格罗夫山地表岩石样品中宇宙成因~(21)Ne的含量及暴露年龄 [1266]
40. Cosmogenic Ne-21 concentrations and exposure ages of summit bedroc.. [1253]
41. Coupled U-Pb dating and Hf isotopic analysis of detrital zircon of.. [1249]
42. Erosion in northwest Tibet from in-situ-produced cosmogenic Be-10 .. [1243]
43. 陕西镇安西口石炭-二叠系界线剖面(蜓)类生物多样性与高频海平面变化 [1232]
44. Geochemistry and petrogenesis of Cenozoic potassic volcanic rocks .. [1213]
45. Late Miocene ice sheet elevation in the Grove Mountains, East Anta.. [1205]
46. The species diversity of fusulinaceans and high-frequency sea-leve.. [1204]
47. Latest Olduvai short-lived reversal episodes recorded in Chinese l.. [1184]
48. 特提斯喜马拉雅带东段哲古错含金(砷)细粒石英闪长岩的发现及其意义 [1177]
49. Cosmogenic Be-10 inferred lake-level changes in Sumxi Co Basin, We.. [1176]
50. 碰撞带倾角和摩擦系数对陆-陆碰撞变形的影响 [1145]
51. 雅鲁藏布江周缘前陆盆地物源分析及构造演化 [1144]
52. Stable isotopes of modern herbivore tooth enamel in the Tibetan Pl.. [1130]
53. Cosmogenic Ne-21 concentrations and exposure ages of summit bedroc.. [1126]
54. Direct measurement of strain rates in ductile shear zones: A new m.. [1120]
55. The takena formation of the Lhasa terrane, southern Tibet: The rec.. [1118]
56. Himalayan evolutionary models: Constraints from Eocene-Miocene gra.. [1111]
57. 藏南古近纪前陆盆地演化过程及其沉积响应 [1092]
58. The mantle neon from the Jinchuan sulfide deposit, NW China [973]
59. 西藏林周基性岩脉的~(40)Ar/~(39)Ar年代学、地球化学及其成因 [932]
60. 站在高原 研究高原——探秘“生命禁区”可可西里 [925]

Downloads

1. 青藏高原典型地区的地貌量化分析——兼对高原“夷平面”的讨论 [677]
2. 青藏高原碰撞造山带:I.主碰撞造山成矿作用 [477]
3. 青藏高原碰撞造山带:Ⅱ.晚碰撞转换成矿作用 [344]
4. Triassic continental subduction in central Tibet and Mediterranean.. [343]
5. Paleocene-Eocene record of ophiolite obduction and initial India-A.. [311]
6. Melt/mantle mixing produces podiform chromite deposits in ophiolit.. [305]
7. Nyainqentanglha Shan: A window into the tectonic, thermal, and geo.. [304]
8. Coupled U-Pb dating and Hf isotopic analysis of detrital zircon of.. [269]
9. 青藏高原现代食草动物牙齿珐琅质稳定同位素特征及古高度重建意义 [264]
10. Position of the Lhasa terrane prior to India-Asia collision derive.. [243]
11. High and dry in central Tibet during the Late Oligocene [241]
12. Postcollisional calc-alkaline lavas and xenoliths from the souther.. [240]
13. 西藏拉萨地块高镁超钾质火山岩及对南北向裂谷形成时间和切割深度的制约 [228]
14. 印度大陆与亚洲大陆早期碰撞过程与动力学模型——来自西藏冈底斯新生代.. [227]
15. 西藏改则蛇绿岩中斜长花岗岩地球化学特征、锆石U-Pb年龄及构造意义 [227]
16. Geological records of the Lhasa-Qiangtang and Indo-Asian collision.. [223]
17. Cretaceous-Tertiary shortening, basin development, and volcanism i.. [217]
18. The boundary between the Indian and Asian tectonic plates below Ti.. [213]
19. Tibetan basement rocks near Amdo reveal "missing" Mesozoic tectoni.. [212]
20. Erosion in northwest Tibet from in-situ-produced cosmogenic Be-10 .. [207]
21. Late Cretaceous to middle Tertiary basin evolution in the central .. [198]
22. Cosmogenic Be-10 inferred lake-level changes in Sumxi Co Basin, We.. [197]
23. Evidence for Early (> 44 Ma) Himalayan Crustal Thickening, Tethyan.. [191]
24. Preservation of a large-scale bedrock peneplain suggests long-term.. [191]
25. 冰川型海平面变化控制下的台地碳酸盐岩成岩作用:以陕西镇安西口石炭-二.. [190]
26. Finding of high-pressure mafic granulites in the Amdo basement, ce.. [190]
27. Paleomagnetic evidence for clockwise rotation and tilting in the e.. [184]
28. 南极格罗夫山地表岩石样品中宇宙成因~(21)Ne的含量及暴露年龄 [182]
29. Cosmogenic Ne-21 concentrations and exposure ages of summit bedroc.. [182]
30. 陕西镇安西口石炭-二叠系界线剖面(蜓)类生物多样性与高频海平面变化 [180]
31. Late Miocene topographic inversion in southwest Tibet based on int.. [173]
32. Structural evolution of the Neogene Gar Basin, western Tibet: Impl.. [172]
33. Himalayan evolutionary models: Constraints from Eocene-Miocene gra.. [170]
34. Gangdese retroarc thrust belt and foreland basin deposits in the D.. [169]
35. Geochemistry and petrogenesis of Cenozoic potassic volcanic rocks .. [164]
36. Development of active low-angle normal fault systems during orogen.. [164]
37. 青藏高原北部可可西里地区新生代钾质火山岩地球化学特征及成因 [162]
38. 藏南古近纪前陆盆地演化过程及其沉积响应 [161]
39. Constraining the stepwise migration of the eastern Tibetan Plateau.. [157]
40. 碰撞带倾角和摩擦系数对陆-陆碰撞变形的影响 [154]
41. 青藏高原东部边界扩展过程的磷灰石裂变径迹热历史制约 [151]
42. The species diversity of fusulinaceans and high-frequency sea-leve.. [145]
43. U-Pb geochronology of basement rocks in central Tibet and paleogeo.. [140]
44. Stable isotopes of modern herbivore tooth enamel in the Tibetan Pl.. [134]
45. Direct measurement of strain rates in ductile shear zones: A new m.. [131]
46. Late Miocene ice sheet elevation in the Grove Mountains, East Anta.. [131]
47. 汶川8级大地震同震破裂的特殊性及构造意义——多条平行断裂同时活动的.. [129]
48. 雅鲁藏布江周缘前陆盆地物源分析及构造演化 [123]
49. Himalayan evolutionary models: Constraints from Eocene-Miocene gra.. [116]
50. 特提斯喜马拉雅带东段哲古错含金(砷)细粒石英闪长岩的发现及其意义 [114]
51. The takena formation of the Lhasa terrane, southern Tibet: The rec.. [114]
52. Cosmogenic Ne-21 concentrations and exposure ages of summit bedroc.. [113]
53. Kinematics of the crust around the Ama Drime Massif (southern Tibe.. [111]
54. Latest Olduvai short-lived reversal episodes recorded in Chinese l.. [87]
55. The mantle neon from the Jinchuan sulfide deposit, NW China [83]
56. 西藏林周基性岩脉的~(40)Ar/~(39)Ar年代学、地球化学及其成因 [77]
57. 站在高原 研究高原——探秘“生命禁区”可可西里 [69]
58. Coupled U-Pb dating and Hf isotopic analysis of detrital zircon of.. [68]
59. Dual polarity directions in basaltic-andesitic dykes - reversal re.. [61]
60. Initial India-Asia Continental Collision and Foreland Basin Evolut.. [57]