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1. 奥陶纪生物大辐射—地球生命史浩瀚的“添砖加瓦”工程 [662]
2. 华夏古陆于奥陶-志留纪之交的扩展证据和机制探索 [595]
3. 古生物学和地层学研究的定量化趋势——GBDB数字化科研平台的建设及其意.. [500]
4. Drilling predation on scaphopods and other molluscs from the Upper.. [456]
5. 国际地层指南― 地层分类、术语和程序(第二版) (译著) [432]
6. 贵州桐梓县境南部奥陶系-志留系界线地层新认识 [409]
7. 论桐梓上升——志留纪埃隆晚期黔中古陆北扩的证据 [376]
8. Latest Ordovician and earliest Silurian brachiopods succeeding the.. [373]
9. Ordovician-Early Silurian (Llandovery) Stratigraphy and Palaeontol.. [356]
10. alpha- and beta-diversity Change of Late Ordovician Hirnantia Faun.. [348]
11. Correlation of the Ordovician rocks of China: charts and explanato.. [348]
12. 扬子区奥陶纪末赫南特亚阶的生物地层学研究 [331]
13. 奥陶纪末期深水介壳动物群在湘西北的发现及其古生态意义 [325]
14. Surviving the end-Ordovician extinctions: evidence from the earlie.. [312]
15. 宏体无脊椎动物古生物学 [296]
16. 奥陶-志留纪之交黔中古陆的变迁:证据与启示 [291]
17. Discovery of the late Middle Ordovician Saucrorthis fauna (Brachio.. [290]
18. 奥陶系上统赫南特阶全球层型剖面和点位的建立 [289]
19. Late Ordovician to earliest Silurian graptolite and brachiopod bio.. [288]
20. OLDEST KNOWN DICOELOSIA AND EPITOMYONIA, DEEP WATER BRACHIOPODS FR.. [286]
21. Late Cambrian brachiopods from Jingxi, Guangxi Province, South Chi.. [283]
22. The Global boundary Stratotype Section and Point (GSSP) for the ba.. [283]
23. 地球生命过程中的一个新概念—奥陶纪生物大辐射 [282]
24. Biodiversification of Late Ordovician Hirnantia fauna on the Upper.. [278]
25. Silurian Paleogeography of China [276]
26. Geobiodiversity Database: a comprehensive section-based integratio.. [275]
27. Ordovician and Silurian Stratigraphy and Palaeontology of Yunnan, .. [275]
28. The great Ordovician radiation of marine life: Examples from South.. [269]
29. Principal aspects of the Ordovician biotic radiation [269]
30. 华南上扬子区晚奥陶世赫南特贝动物群的时空演变 [268]
31. Biodiversification of Early to Middle Ordovician conodonts: a case.. [264]
32. Evolution and paleogeography of Eospirifer (Spiriferida, Brachiopo.. [264]
33. Late Ordovician Orthide and Billingsellide Brachiopods-from Antico.. [260]
34. Discovery of a Late Ordovician Foliomena fauna in the Tarim desert.. [260]
35. 奥陶-志留系界线地层生物带的全球对比 [259]
36. Decrease in carbonate accumulation rate in Early Ordovician in Sou.. [258]
37. Large perturbations of the carbon and sulfur cycle associated with.. [255]
38. 上扬子区奥陶-志留纪之交的黔中隆起和宜昌上升 [255]
39. Strophomenide brachiopods from the Changwu Formation (late Katian,.. [253]
40. Late Hirnantian (latest Ordovician) carbonate rocks and shelly fos.. [251]
41. EARLY-MID ORDOVICIAN YANGTZEELLA (SYNTROPHIIDINA, BRACHIOPODA) AND.. [250]
42. Brachiopods from the Dashaba Formation (Middle Ordovician) of Sich.. [250]
43. 生物复苏——大绝灭后生物演化历史的第一幕 [249]
44. 一个罕见的奥陶纪末期深水腕足动物群在浙江杭州余杭的发现 [247]
45. 奥陶纪—志留纪底栖生态群落与实例分析 [247]
46. Expansion of the Cathaysian Oldland through the Ordovician-Siluria.. [246]
47. Brachiopod biogeographic change during the Early to Middle Ordovic.. [244]
48. Latest Ordovician brachiopod and trilobite assemblage from Yuhang,.. [243]
49. 川东华蓥山志留系兰多维列统白云庵组的珊瑚动物群 [243]
50. 华东志留纪最早期的华夏正形贝动物群及其宏演化意义 [240]
51. 湖北松滋地区红花园组礁滩微相划分及古环境变迁 [240]
52. Global analyses of brachiopod faunas through the Ordovician and Si.. [239]
53. 奥陶系上奥陶统赫南特阶全球标准层型剖面和点位的建立 [239]
54. Can the Lilliput Effect be detected in the brachiopod faunas of So.. [238]
55. 显生宙(宇)各纪(系)译名溯源 [238]
56. Stratigraphy of the Hirnantian substage from Wangjiawan, Yichang, .. [236]
57. 牛场组——上扬子区南部志留系兰多维列统的一个新地层单位 [234]
58. 华夏化石记录对生物演化的启示 [234]
59. 四川长宁双河晚奥陶世赫南特贝动物群及其对环境变化的响应 [232]
60. 中国奥陶纪生物地层学研究的新进展 [231]
61. Biodiversity, biogeography and phylogeography of Ordovician rhynch.. [231]
62. New data of early Late Ordovician chitinozoans from the Miaopo For.. [231]
63. “复活分子”在穿越生物大灭绝过程中的实质是什么? [229]
64. Carbon and conodont apatite oxygen isotope records from the Floian.. [228]
65. Discovery of a latest Ordovician deep water brachiopod fauna at Yu.. [226]
66. Silicified rhynchonelliform brachiopods from the Kuniutan Formatio.. [225]
67. 内蒙古西部额济纳旗晚奥陶世生物地理和奥陶-志留系分界 [225]
68. Latest Ordovician and earliest Silurian tabulate corals of South C.. [224]
69. 生物大灭绝之谜 [220]
70. 安徽南部下、中奥陶统紫台组碳酸盐岩微相与海平面变化 [220]
71. 内蒙古乌海中奥陶统已知最早的扭月贝类腕足动物 [219]
72. 奥陶纪生物大辐射研究的关键科学问题 [219]
73. 志留系全球界线层型的“再研究”--志留系底界与温洛克统底界 [219]
74. Test of sampling sufficiency in palaeontology [219]
75. Early Silurian Sulcipentamerus and related pentamerid brachiopods .. [218]
76. Temporal Distribution of Diagnostic Biofabrics in the Lower and Mi.. [218]
77. 奥陶纪生物大辐射 [218]
78. A new species of Paramplexoides (rugosans) from the Hirnantian Kua.. [217]
79. Patterns of origination and dispersal of Middle to Late Ordovician.. [215]
80. 东秦岭淅川奥陶、志留纪地层的新观察 [212]
81. Late Ordovician brachiopod communities of southeast China [211]
82. Demise of Early Ordovician oolites in South China:evidence for pal.. [211]
83. Early–Middle Ordovician brachiopod dispersal patterns in South C.. [211]
84. Darriwilian Saucrorthis fauna: Implications for the great Ordovici.. [211]
85. 奥陶—志留纪过渡期生物宏演化新认识:来自华南珊瑚动物群的启示 [211]
86. 贵州遵义高桥奥陶系湄潭组下部的笔石 [210]
87. 华南早-中奥陶世腕足动物的辐射 [210]
88. Ordovician Brachiopod Genera on Type Species of China [209]
89. 川东华蓥山志留纪兰多维列世中期珊瑚群集及其意义 [208]
90. 奥陶纪棘皮动物骨骼地球化学特征指示古海水Mg/Ca比的可靠性分析 [208]
91. Phanerozoic Brachiopod Genera of China [207]
92. Early-Mid Ordovician brachiopod diversification in South China [206]
93. 浅论华南扬子区下、中奥陶统紫台组 [206]
94. 第1章:绪论 [206]
95. Brachiopod diversification during the Early-Mid Ordovician: An exa.. [205]
96. Diversity analysis of the Early Ordovician Sinorthis Fauna (Brachi.. [204]
97. 湖北宜昌陈家河下、中奥陶统大湾组腕足动物多样性演变 [201]
98. 江西玉山祝宅上奥陶统剖面: 破解华夏古陆和华南晚奥陶世台坡盆模式的关.. [201]
99. The earliest known Stegerhynchus (Rhynchonellida, Brachiopoda) fro.. [200]
100. A primitive cladid crinoid from the Jiacun Group, Tibet (Darriwili.. [200]

Downloads

1. Drilling predation on scaphopods and other molluscs from the Upper.. [89]
2. 华夏古陆于奥陶-志留纪之交的扩展证据和机制探索 [58]
3. 古生物学和地层学研究的定量化趋势——GBDB数字化科研平台的建设及其意.. [49]
4. Surviving the end-Ordovician extinctions: evidence from the earlie.. [47]
5. 国际地层指南― 地层分类、术语和程序(第二版) (译著) [44]
6. 湖北宜昌陈家河下、中奥陶统大湾组腕足动物多样性演变 [43]
7. 贵州桐梓县境南部奥陶系-志留系界线地层新认识 [43]
8. The great Ordovician radiation of marine life: Examples from South.. [41]
9. Biodiversification of Early to Middle Ordovician conodonts: a case.. [41]
10. 论大灭绝后的幸存类型、复活效应与避难所 [40]
11. 奥陶系上统赫南特阶全球层型剖面和点位的建立 [40]
12. Global analyses of brachiopod faunas through the Ordovician and Si.. [39]
13. 一个罕见的奥陶纪末期深水腕足动物群在浙江杭州余杭的发现 [39]
14. 生物复苏——大绝灭后生物演化历史的第一幕 [37]
15. Can the Lilliput Effect be detected in the brachiopod faunas of So.. [36]
16. 奥陶纪生物大辐射研究的关键科学问题 [36]
17. Ordovician-Early Silurian (Llandovery) Stratigraphy and Palaeontol.. [36]
18. Latest Ordovician and earliest Silurian brachiopods succeeding the.. [36]
19. Diversity analysis of the Early Ordovician Sinorthis Fauna (Brachi.. [35]
20. Latest Ordovician brachiopod and trilobite assemblage from Yuhang,.. [35]
21. Late Cambrian brachiopods from Jingxi, Guangxi Province, South Chi.. [35]
22. 湖北松滋地区红花园组礁滩微相划分及古环境变迁 [35]
23. Expansion of the Cathaysian Oldland through the Ordovician-Siluria.. [34]
24. Brachiopod biogeographic change during the Early to Middle Ordovic.. [34]
25. 奥陶—志留纪过渡期生物宏演化新认识:来自华南珊瑚动物群的启示 [33]
26. 湖北宜昌地区中、晚奥陶世之交牙形动物群演替 [32]
27. Temporal Distribution of Diagnostic Biofabrics in the Lower and Mi.. [30]
28. Two new genera of Early Silurian stricklandioid brachiopods from S.. [30]
29. THE OLDEST KNOWN EOSPIRIFER (BRACHIOPODA) IN THE CHANGWU FORMATION.. [30]
30. Late Ordovician brachiopod communities of southeast China [29]
31. 扬子区奥陶纪末赫南特亚阶的生物地层学研究 [29]
32. alpha- and beta-diversity Change of Late Ordovician Hirnantia Faun.. [28]
33. Brachiopods from the Dashaba Formation (Middle Ordovician) of Sich.. [28]
34. Early-Mid Ordovician brachiopod diversification in South China [28]
35. Late Ordovician (Caradoc-Ashgill) brachiopod faunas with Foliomena.. [28]
36. 华南早、中奥陶世腕足动物多样性初探 [28]
37. 牛场组——上扬子区南部志留系兰多维列统的一个新地层单位 [28]
38. 论桐梓上升——志留纪埃隆晚期黔中古陆北扩的证据 [28]
39. 奥陶-志留系界线地层生物带的全球对比 [27]
40. 华南上扬子区晚奥陶世赫南特贝动物群的时空演变 [27]
41. OLDEST KNOWN DICOELOSIA AND EPITOMYONIA, DEEP WATER BRACHIOPODS FR.. [26]
42. Biotic diachroneity during the Ordovician radiation: evidence from.. [25]
43. New data on the Foliomena fauna (Brachiopoda) from the Upper Ordov.. [25]
44. 内蒙古西部额济纳旗晚奥陶世生物地理和奥陶-志留系分界 [25]
45. 安徽石台奥陶纪弗洛期—大坪期牙形刺多样性的演变 [25]
46. Correlation of the Ordovician rocks of China: charts and explanato.. [25]
47. Ordovician and Silurian Stratigraphy and Palaeontology of Yunnan, .. [25]
48. Onshore migration of a deep-water brachiopod fauna from the Lower .. [24]
49. Large perturbations of the carbon and sulfur cycle associated with.. [24]
50. Biodiversification of Late Ordovician Hirnantia fauna on the Upper.. [24]
51. beta-diversity fluctuations in early-Mid Ordovician brachiopod com.. [24]
52. The Late Ordovician and Early Silurian pentameride brachiopod Holo.. [24]
53. 华南上扬子区中奥陶统十字铺组的岩相与生物相 [24]
54. Brachiopod diversification during the Early-Mid Ordovician: An exa.. [23]
55. Principal aspects of the Ordovician biotic radiation [23]
56. 华南奥陶、志留纪腕足动物群的更替兼论奥陶纪末冰川活动的影响 [23]
57. 扬子区下、中奥陶统大湾组及其同期地层 [23]
58. 四川长宁双河晚奥陶世赫南特贝动物群及其对环境变化的响应 [23]
59. 贵州遵义高桥奥陶系湄潭组下部的笔石 [23]
60. Late Ordovician to earliest Silurian graptolite and brachiopod bio.. [22]
61. 浙赣边区晚奥陶世腕足类Altaethyrella zhejiangensis(Wang)的异时发育 [22]
62. 奥陶纪末集群灭绝后腕足动物复苏的主要源泉——论先驱型生物的分类 [22]
63. 地球生命过程中的一个新概念—奥陶纪生物大辐射 [22]
64. 奥陶-志留纪之交黔中古陆的变迁:证据与启示 [22]
65. 四川南部布拖地区志留系的新研究 [22]
66. 川东华蓥山志留系兰多维列统白云庵组的珊瑚动物群 [21]
67. Gradient analysis of mid Ashgill brachiopod biodiversity in East C.. [21]
68. The earliest known Stegerhynchus (Rhynchonellida, Brachiopoda) fro.. [20]
69. KASSINELLA-CHRISTIANIA ASSOCIATIONS IN THE EARLY ASHGILL FOLIOMENA.. [20]
70. 内蒙古乌海中奥陶统已知最早的扭月贝类腕足动物 [20]
71. Strophomenide brachiopods from the Changwu Formation (late Katian,.. [19]
72. 晚奥陶世Altaethyrella(腕足动物)在中国的发现 [19]
73. 论上扬子区南部中奥陶统大沙坝组 [19]
74. 川东南中奥陶统大沙坝组的腕足动物群 [19]
75. 奥陶纪生物大辐射 [19]
76. Late Ordovician brachiopods from the South China plate and their p.. [19]
77. 华南上扬子区早、中奥陶世几丁虫生物多样性 [19]
78. Phanerozoic Brachiopod Genera of China [19]
79. Brachiopods from the Middle Ordovician Shihtzupu Formation of Yunn.. [18]
80. 论上扬子区上奥陶统大渡河组 [18]
81. 奥陶纪末期深水介壳动物群在湘西北的发现及其古生态意义 [18]
82. The Central Guizhou and Yichang Uplifts, upper Yangtze region, bet.. [17]
83. Chief sources of brachiopod recovery from the end Ordovician mass .. [17]
84. 上扬子区奥陶-志留纪之交的黔中隆起和宜昌上升 [17]
85. 浅论华南扬子区下、中奥陶统紫台组 [17]
86. Evolution and paleogeography of Eospirifer (Spiriferida, Brachiopo.. [17]
87. 志留系全球界线层型的“再研究”--志留系底界与温洛克统底界 [17]
88. 东秦岭淅川奥陶、志留纪地层的新观察 [17]
89. EARLY-MID ORDOVICIAN YANGTZEELLA (SYNTROPHIIDINA, BRACHIOPODA) AND.. [16]
90. The Global boundary Stratotype Section and Point (GSSP) for the ba.. [16]
91. 鄂西南奥陶系-志留系交界地层研究兼论宜昌上升 [16]
92. Ordovician Brachiopod Genera on Type Species of China [16]
93. Early Silurian Sulcipentamerus and related pentamerid brachiopods .. [15]
94. Taxonomic reassessment of two virgianid brachiopod genera from the.. [15]
95. Silicified rhynchonelliform brachiopods from the Kuniutan Formatio.. [15]
96. Geobiodiversity Database: a comprehensive section-based integratio.. [15]
97. “复活分子”在穿越生物大灭绝过程中的实质是什么? [15]
98. Late Hirnantian (latest Ordovician) carbonate rocks and shelly fos.. [15]
99. Introduction: Phanerozoic Brachiopod Genera of China [15]
100. Evidence for Decoupling of Relative Abundance and Biodiversity of .. [14]