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1. Ediacaran seawater temperature: Evidence from inclusions of Sinian.. [700]
2. 追寻最早的生命气息 [533]
3. The oldest known dinoflagellates: Morphological and molecular evid.. [482]
4. The oleaginous Botryococcus from the Triassic Yanchang Formation i.. [474]
5. Ultrastructural and geochemical characterization of archean-paleop.. [377]
6. Homogenization temperature of fluid inclusions in laboratory grown.. [338]
7. 微生物硅化作用模拟实验 [331]
8. Protists of the Upper Mesoproterozoic Ruyang Group in Shanxi Provi.. [329]
9. The dinoflagellate cyst Subtilisphaera from the Eocene of the Qaid.. [328]
10. 全球古海水化学演化与世界主要海相钾盐沉积关系暨中国海相成钾探讨 [317]
11. 华南埃迪卡拉系底部钾质斑脱岩的岩石地球化学特征及其地质意义 [316]
12. Paradigm shift in determining Neoproterozoic atmospheric oxygen [302]
13. A Diverse Paleobiota in Early Eocene Fushun Amber from China [297]
14. 实验室合成石盐包裹体的均一温度以及古气候意义 [291]
15. 江苏金坛盐矿形成时期盐湖水体成分:来自石盐包裹体的证据 [288]
16. Repositioning the Great Unconformity at the southeastern margin of.. [272]
17. 新疆塔里木板块巴楚隆起区寒武系石盐氯同位素研究 [268]
18. Hydrocarbon migration through salt: evidence from Kelasu tectonic .. [266]
19. 皖南新元古代两次冰期事件 [256]
20. Correlation between highly abundant oil-prone leiosphaerid acritar.. [253]
21. 徐淮地区新元古代九顶山组燧石结核的地球化学特征 [253]
22. 最古老的沟鞭藻:来自山西永济中元古代晚期的化石和分子生物学证据 [244]
23. An Early–Middle Ordovician acritarch and prasinophyte assemblage .. [237]
24. 华北早太古代曹庄岩组地球化学特征和中元古代北大尖组生物标志化合物研.. [235]
25. Ordovician seawater composition: evidence from fluid inclusions in.. [226]
26. 辽南前寒武系兴民村组“类水母”化石新认识 [218]
27. 新元古代大塘坡组黑色页岩中的甲藻甾烷及其生物学意义(英文) [215]
28. 通过C_(27)/C_(29)甾烷和有机碳同位素来判断早古生代和前寒武纪的烃源.. [211]
29. Paleogene organic-walled dinoflagellate cysts in the Shulu Sag, He.. [211]
30. 我国太古代—古元古代早期有机壁微体化石 [208]
31. A refined late-Cryogenian - Ediacaran earth history of South China.. [207]
32. 古元古代早期有机壁微体化石红外光谱与拉曼光谱研究 [203]
33. The salt chimney effect: delay of thermal evolution of deep hydroc.. [201]
34. 塔里木盆地yj1x井中奥陶统一间房组燧石结核中的有机壁微体化石 [193]
35. Nano-Scale Spheroids and Fossils from the Ediacaran Doushantuo For.. [192]
36. 山东东营凹陷砂岩中NaCl-CaCl_2-H_2O体系包裹体的发现及其意义 [191]
37. Stromatolites in Middle Ordovician carbonate-evaporite sequences a.. [191]
38. Choosing the best ancient analogue for projected future temperatur.. [189]
39. Palynology of Yanchang Formation of Middle and Late Triassic in Ea.. [188]
40. Reconstruction of Late Cretaceous coastal paleotemperature from ha.. [188]
41. 蒸发岩盆地古环境的直接记录:来自石盐流体包裹体的证据 [188]
42. Palynomorphs from the Cambrian Series 3, Parahio valley (Spiti), N.. [187]
43. 柴达木盆地北缘昆特依凹陷始新统下干柴沟组微体古生物研究 [186]
44. Haloprofundus halophilus sp. nov., isolated from the saline soil o.. [183]
45. 海洋盐度的历史 [179]
46. 六合桂子山石柱林 [173]
47. Calculation of salt basin depth using fluid inclusions in ha lite .. [170]
48. 山东莱芜盆地火山碎屑岩锆石U-Pb年代学研究 [169]
49. The Ediacaran Aspidella-type impressions in the Jinxian succession.. [169]
50. 华北地台东部寒武系崮山组(古丈阶)研究新进展 [169]
51. 同步辐射X射线荧光微探针技术测定太古宙条带状硅铁建造中硅质条带及包.. [168]
52. Oil and gas exploration prospect of marine paleozoic and mesozoic .. [166]
53. 渤海湾盆地东濮凹陷古近系沙河街组盐岩成因——来自沉积学和地球化学的.. [166]
54. Ordovician Seawater Composition: Evidence from Fluid Inclusions in.. [166]
55. The major composition of a middle-late Eocene salt lake in the Yun.. [163]
56. 中国若干地区前寒武纪与早寒武纪世沉积岩石有机地球化学初探 [161]
57. 琥珀的前世今生 [161]
58. 新太古代-古元古代东海岩群双湖石墨矿成因:来自有机碳同位素的证据 [150]
59. A newly isolated Haloalkaliphilic bacterium from middle-late Eocen.. [148]
60. Remnants of early Archean (circa 3.5 GA) seawater in BIF from Caoz.. [147]
61. Ore-Forming Fluid Evolution of Shallow Polyhalite Deposits in the .. [142]
62. Differences in evaporite geochemistry of the greater Ordos Ordovic.. [136]
63. Clay minerals from rock salt of Salt Range Formation (Late Neoprot.. [135]
64. 新元古代-寒武纪硫同位素异常事件(Yudomski事件)的起源与结束 [129]
65. Sulphur isotopes in anhydrite from Badenian (Middle Miocene) salts.. [128]
66. A contiguous record of the SPICE event, sea-level change and the f.. [128]
67. The Relation among Synthetic Fluid Inclusions Homogenization Tempe.. [126]
68. 鄂尔多斯盆地三叠系延长组疑源类的荧光特征 [122]
69. The Ultramicrochemical Analyses (UMCA) of Fluid Inclusions in Hali.. [122]
70. 乌普萨拉大学演化博物馆一瞥 [113]
71. Microfossils from nodular cherts in the Middle Ordovician Yijianfa.. [109]
72. measurementsoftraceelementsinsilicaofearlyarcheansbandedironformat.. [89]
73. The Temperature of Halite Crystallization in the Badenian Saline B.. [85]
74. 蒸发岩盆地古环境的直接记录:来自石盐流体包裹体的证据 [76]
75. 新太古代-古元古代东海岩群双湖石墨矿成因:来自有机碳同位素的证据 [73]
76. 江苏金坛盐矿形成时期盐湖水体成分:来自石盐包裹体的证据 [66]
77. 山东东营凹陷砂岩中NaCl-CaCl2-H2O体系包裹体的发现及其意义 [61]
78. 通过C27/C29甾烷和有机碳同位素来判断早古生代和前寒武纪的烃源岩的生.. [52]
79. 最古老的沟鞭藻:来自山西永济中元古代晚期的化石和分子生物学证据 [51]
80. 'Red - the magic color for solar salt production' - but since when.. [47]

Downloads

1. 追寻最早的生命气息 [108]
2. The oleaginous Botryococcus from the Triassic Yanchang Formation i.. [66]
3. The oldest known dinoflagellates: Morphological and molecular evid.. [56]
4. Protists of the Upper Mesoproterozoic Ruyang Group in Shanxi Provi.. [52]
5. 海洋盐度的历史 [46]
6. 我国太古代—古元古代早期有机壁微体化石 [39]
7. 古元古代早期有机壁微体化石红外光谱与拉曼光谱研究 [37]
8. Ediacaran seawater temperature: Evidence from inclusions of Sinian.. [35]
9. 皖南新元古代两次冰期事件 [29]
10. Homogenization temperature of fluid inclusions in laboratory grown.. [28]
11. 通过C_(27)/C_(29)甾烷和有机碳同位素来判断早古生代和前寒武纪的烃源.. [23]
12. 微生物硅化作用模拟实验 [23]
13. Correlation between highly abundant oil-prone leiosphaerid acritar.. [22]
14. 江苏金坛盐矿形成时期盐湖水体成分:来自石盐包裹体的证据 [21]
15. 琥珀的前世今生 [21]
16. The dinoflagellate cyst Subtilisphaera from the Eocene of the Qaid.. [20]
17. 实验室合成石盐包裹体的均一温度以及古气候意义 [20]
18. 新元古代大塘坡组黑色页岩中的甲藻甾烷及其生物学意义(英文) [20]
19. Palynology of Yanchang Formation of Middle and Late Triassic in Ea.. [19]
20. 柴达木盆地北缘昆特依凹陷始新统下干柴沟组微体古生物研究 [19]
21. Ultrastructural and geochemical characterization of archean-paleop.. [18]
22. Remnants of early Archean (circa 3.5 GA) seawater in BIF from Caoz.. [16]
23. 最古老的沟鞭藻:来自山西永济中元古代晚期的化石和分子生物学证据 [16]
24. 徐淮地区新元古代九顶山组燧石结核的地球化学特征 [15]
25. 全球古海水化学演化与世界主要海相钾盐沉积关系暨中国海相成钾探讨 [15]
26. 鄂尔多斯盆地三叠系延长组疑源类的荧光特征 [11]
27. 中国若干地区前寒武纪与早寒武纪世沉积岩石有机地球化学初探 [10]
28. A Diverse Paleobiota in Early Eocene Fushun Amber from China [8]
29. 华北早太古代曹庄岩组地球化学特征和中元古代北大尖组生物标志化合物研.. [7]
30. 同步辐射X射线荧光微探针技术测定太古宙条带状硅铁建造中硅质条带及包.. [7]
31. 山东东营凹陷砂岩中NaCl-CaCl_2-H_2O体系包裹体的发现及其意义 [6]
32. 华南埃迪卡拉系底部钾质斑脱岩的岩石地球化学特征及其地质意义 [6]
33. Ordovician Seawater Composition: Evidence from Fluid Inclusions in.. [6]
34. An Early–Middle Ordovician acritarch and prasinophyte assemblage .. [5]
35. 山东莱芜盆地火山碎屑岩锆石U-Pb年代学研究 [5]
36. 渤海湾盆地东濮凹陷古近系沙河街组盐岩成因——来自沉积学和地球化学的.. [5]
37. 乌普萨拉大学演化博物馆一瞥 [5]
38. 华北地台东部寒武系崮山组(古丈阶)研究新进展 [5]
39. 辽南前寒武系兴民村组“类水母”化石新认识 [3]
40. Nano-Scale Spheroids and Fossils from the Ediacaran Doushantuo For.. [3]
41. Clay minerals from rock salt of Salt Range Formation (Late Neoprot.. [3]
42. A contiguous record of the SPICE event, sea-level change and the f.. [3]
43. Choosing the best ancient analogue for projected future temperatur.. [2]
44. Hydrocarbon migration through salt: evidence from Kelasu tectonic .. [2]
45. Sulphur isotopes in anhydrite from Badenian (Middle Miocene) salts.. [2]
46. The Relation among Synthetic Fluid Inclusions Homogenization Tempe.. [2]
47. Reconstruction of Late Cretaceous coastal paleotemperature from ha.. [2]
48. Stromatolites in Middle Ordovician carbonate-evaporite sequences a.. [2]
49. Repositioning the Great Unconformity at the southeastern margin of.. [2]
50. Palynomorphs from the Cambrian Series 3, Parahio valley (Spiti), N.. [2]
51. Paleogene organic-walled dinoflagellate cysts in the Shulu Sag, He.. [2]
52. 新疆塔里木板块巴楚隆起区寒武系石盐氯同位素研究 [1]
53. The major composition of a middle-late Eocene salt lake in the Yun.. [1]
54. The Ediacaran Aspidella-type impressions in the Jinxian succession.. [1]
55. The salt chimney effect: delay of thermal evolution of deep hydroc.. [1]
56. Paradigm shift in determining Neoproterozoic atmospheric oxygen [1]
57. Haloprofundus halophilus sp. nov., isolated from the saline soil o.. [1]
58. Ordovician seawater composition: evidence from fluid inclusions in.. [1]
59. 塔里木盆地yj1x井中奥陶统一间房组燧石结核中的有机壁微体化石 [1]
60. Calculation of salt basin depth using fluid inclusions in ha lite .. [1]
61. 新太古代-古元古代东海岩群双湖石墨矿成因:来自有机碳同位素的证据 [1]
62. Differences in evaporite geochemistry of the greater Ordos Ordovic.. [1]
63. 新元古代-寒武纪硫同位素异常事件(Yudomski事件)的起源与结束 [1]