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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 [628]
2. New material from the Ordovician of China indicates that Inocaulis.. [521]
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.. [469]
4. Upper Ordovician (Sandbian-Katian) graptolite and conodont zonatio.. [396]
5. 华南早-中奥陶世主要环境下笔石动物的多样性与生物地理分布 [391]
6. 国际地层指南― 地层分类、术语和程序(第二版) (译著) [383]
7. 贵州桐梓县境南部奥陶系-志留系界线地层新认识 [376]
8. Middle to Late Ordovician (Darriwilian-Sandbian) Conodonts from th.. [348]
9. 云南墨江志留纪地层及其笔石序列 [346]
10. 华南奥陶-志留系龙马溪组黑色笔石页岩的生物地层学 [316]
11. 华南中、晚奥陶世定量岩相古地理研究 [315]
12. 新疆巴楚中—晚奥陶世牙形刺生物地层和沉积环境研究 [312]
13. Correlation of the Ordovician rocks of China: charts and explanato.. [312]
14. 生物地层学与年代地层学 [311]
15. 扬子区奥陶纪末赫南特亚阶的生物地层学研究 [305]
16. 广西运动的进程:来自生物相和岩相带的证据 [303]
17. 塔里木盆地及周缘奥陶系黑色岩系的生物地层学对比 [287]
18. Onset of the Kwangsian Orogeny as evidenced by biofacies and litho.. [277]
19. Biostratigraphic and Chemostratigraphic Correlation for the Base o.. [270]
20. 宏体无脊椎动物古生物学 [269]
21. 五峰组及龙马溪组黑色页岩在扬子覆盖区内的划分与圈定 [267]
22. 浙江常山黄泥塘水库剖面的生物地层学 [265]
23. Biostratigraphy and geography of the Ordovician-Silurian Lungmachi.. [263]
24. 湖北恩施太阳河奥陶纪-志留纪之交沉积间断的研究 [263]
25. Wenlock isolated graptolites G. From Cornwallis Island, Arctic Can.. [263]
26. Late Ordovician to earliest Silurian graptolite and brachiopod bio.. [262]
27. Biostratigraphic correlation of the Ordovician black shales in Tar.. [258]
28. 地球生命过程中的一个新概念—奥陶纪生物大辐射 [257]
29. 放射虫新属Gansuceratoikiscum化石保存模式和基本构造功能分析 [256]
30. Discovery of the late Middle Ordovician Saucrorthis fauna (Brachio.. [255]
31. Early Sandbian (Late Ordovician) conodonts from the Yenwashan Form.. [248]
32. The great Ordovician radiation of marine life: Examples from South.. [247]
33. Principal aspects of the Ordovician biotic radiation [247]
34. 赣南奥陶纪笔石地层序列与广西运动 [245]
35. Geobiodiversity Database: a comprehensive section-based integratio.. [245]
36. 奥陶-志留系界线地层生物带的全球对比 [238]
37. Discovery of a Late Ordovician Foliomena fauna in the Tarim desert.. [237]
38. Late Darriwilian to early sandbian graptolite biostratigraphy in w.. [235]
39. 中国三大块体晚奥陶世凯迪早期区域构造事件 [235]
40. Diversity and paleobiogeographic distribution patterns of early an.. [234]
41. Ordovician graptolite-bearing strata in southern Jiangxi with a sp.. [234]
42. 奥陶系中奥陶统达瑞威尔阶全球标准层型剖面和点位 [233]
43. Ordovician and Silurian Stratigraphy and Palaeontology of Yunnan, .. [233]
44. Ordovician and Silurian Rocks of Northwest Zhejiang and Northeast .. [229]
45. 上扬子区奥陶-志留纪之交的黔中隆起和宜昌上升 [216]
46. A regional tectonic event of Katian (Late Ordovician) age across t.. [212]
47. Stratigraphy of the Hirnantian substage from Wangjiawan, Yichang, .. [207]
48. 奥陶纪笔石的主要演化辐射进程 [207]
49. Conodont fauna and biostratigraphy of the Honghuayuan Formation (E.. [206]
50. Conulariids and Sphenothallus (Cnidaria, Medusozoa) from the Tongg.. [206]
51. Stable carbon isotope stratigraphy in the Ordovician of South Chin.. [205]
52. 浙江常山黄泥塘奥陶系达瑞威尔阶研究的新进展 [204]
53. 河北唐山达瑞威尔阶(Darriwilian)牙形刺生物地层的新认识 [203]
54. 中国奥陶纪生物地层学研究的新进展 [202]
55. Definition of a global boundary stratotype for the Darriwilian Sta.. [201]
56. Comparative analysis of the early ordovician baltograptid species .. [201]
57. 中国第一个“金钉子”剖面的建立 [200]
58. 浙江临安板桥奥陶系胡乐组笔石新材料及其意义 [199]
59. Upper Darriwilian graptolite and conodont zonation in the global s.. [199]
60. Darriwilian graptolites of the Shihtien Formation (Ordovician) in .. [198]
61. 中国特马豆克阶笔石地层述评 [198]
62. 浙西赣东北奥陶纪晚达瑞威尔期—早桑比期笔石序列新见 [197]
63. 浙江桐庐县刘家奥陶纪剖面生物地层学初步研究 [195]
64. Palaeoscolecidan worms and a possible nematode from the Early Ordo.. [192]
65. 奥陶纪生物大辐射 [192]
66. Darriwilian to Katian (Ordovician) Graptolites from Northwest Chin.. [192]
67. 湖北宜昌和南漳奥陶系大湾组笔石生物地层 [189]
68. 浙西北上奥陶统文昌组和堰口组沉积特征及其意义 [189]
69. 华南早-中奥陶世笔石动物的辐射演化 [189]
70. 江苏仑山地区上奥陶统五峰组放射虫动物群及其地质意义 [188]
71. 奥陶纪生物大辐射研究的关键科学问题 [188]
72. Carbon Isotope Development in the Ordovician of the Yangtze Gorges.. [186]
73. 贵州遵义高桥奥陶系湄潭组下部的笔石 [183]
74. 河北唐山下奥陶统牙形刺生物地层的新认识 [183]
75. 奥陶纪年代地层学研究评述 [179]
76. A new leptomitid-like sponge from the Early Ordovician of China wi.. [179]
77. Early Ordovician conodonts from Zhejiang Province, southeast China.. [179]
78. 浙赣地区上奥陶统砚瓦山组的牙形刺及其地层意义(英文) [177]
79. 湘鄂地区中—晚奥陶世喇叭角石科(头足纲)关键属种的古生物学研究 [176]
80. Diversification patterns of Early and Mid Ordovician graptolites i.. [173]
81. 甘肃平凉晚奥陶世平凉组牙形刺的新发现及其意义 [173]
82. On the integration of Ordovician conodont and graptolite biostrati.. [173]
83. 重庆石柱漆辽地区中、上奥陶统牙形刺序列——揭示达瑞威尔阶下部至桑比.. [173]
84. 华南上特马道克阶的笔石带序列及其全球对比 [169]
85. Tremadocian (early ordovician) graptolite biostratigraphy of China [167]
86. 内蒙古乌海大石门奥陶系牙形刺和Histiodella动物群发现的意义 [167]
87. Taxonomy and phylogeny of Staurograptus Emmons from the base of th.. [166]
88. The Central Guizhou and Yichang Uplifts, upper Yangtze region, bet.. [166]
89. 奥陶纪笔石动物的多样性演变与环境背景 [165]
90. 对华南早古生代板溪洋的质疑 [165]
91. Tubes or cell sheet? A 3-D reconstruction of Halysis Hoeg, 1932, f.. [165]
92. 中奥陶统达瑞威尔阶及其全球层型剖面点(GSSP)在中国的确立 [164]
93. 广西恭城奥陶纪含笔石地层 [163]
94. A mid Telychian (Llandovery) graptolite fauna from Mojiang, Yunnan.. [162]
95. Succession and global correlation of late Tremadoc graptolite zone.. [159]
96. 加拿大北极圈康沃利斯岛兰多维列末期笔石的微细构造 [158]
97. Huaiyuan Epeirogeny—Shaping Ordovician stratigraphy and sedimenta.. [157]
98. 利用背散射电子(BSE)研究奥陶纪部分笔石的始端发育和分枝方式 [156]
99. GBDB数据库在地层研究中的应用 [156]
100. 云南南部及其邻区志留系对比 [151]

Downloads

1. 华南中、晚奥陶世定量岩相古地理研究 [63]
2. Upper Ordovician (Sandbian-Katian) graptolite and conodont zonatio.. [59]
3. 华南早-中奥陶世主要环境下笔石动物的多样性与生物地理分布 [57]
4. 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]
5. Early Sandbian (Late Ordovician) conodonts from the Yenwashan Form.. [44]
6. 贵州桐梓县境南部奥陶系-志留系界线地层新认识 [42]
7. The great Ordovician radiation of marine life: Examples from South.. [41]
8. Biostratigraphy and geography of the Ordovician-Silurian Lungmachi.. [41]
9. Darriwilian graptolites of the Shihtien Formation (Ordovician) in .. [40]
10. 国际地层指南― 地层分类、术语和程序(第二版) (译著) [39]
11. Conodont fauna and biostratigraphy of the Honghuayuan Formation (E.. [38]
12. Definition of a global boundary stratotype for the Darriwilian Sta.. [36]
13. 奥陶纪生物大辐射研究的关键科学问题 [36]
14. 赣南奥陶纪笔石地层序列与广西运动 [36]
15. 新疆巴楚中—晚奥陶世牙形刺生物地层和沉积环境研究 [35]
16. 华南奥陶-志留系龙马溪组黑色笔石页岩的生物地层学 [35]
17. Stable carbon isotope stratigraphy in the Ordovician of South Chin.. [33]
18. Ordovician graptolite evolutionary radiation: a review [33]
19. 奥陶纪笔石动物的多样性演变与环境背景 [33]
20. Taxonomy and phylogeny of Staurograptus Emmons from the base of th.. [32]
21. Early Devonian graptolites from Southwest Yunnan, China [32]
22. 浙江常山黄泥塘水库剖面的生物地层学 [32]
23. 中国特马豆克阶笔石地层述评 [31]
24. Onset of the Kwangsian Orogeny as evidenced by biofacies and litho.. [31]
25. Diversity and paleobiogeographic distribution patterns of early an.. [30]
26. 中国第一个“金钉子”剖面的建立 [29]
27. 扬子区奥陶纪末赫南特亚阶的生物地层学研究 [29]
28. Biostratigraphic correlation of the Ordovician black shales in Tar.. [29]
29. 广西恭城奥陶纪含笔石地层 [28]
30. 湖北宜昌和南漳奥陶系大湾组笔石生物地层 [28]
31. Early Darriwilian graptolites from central and western China [27]
32. 江苏仑山地区上奥陶统五峰组放射虫动物群及其地质意义 [27]
33. 奥陶-志留系界线地层生物带的全球对比 [27]
34. 塔里木盆地及周缘奥陶系黑色岩系的生物地层学对比 [27]
35. The proximal development and thecal structure of the Ordovician gr.. [26]
36. Astogenetic aspects of the dendroid graptolite Airograptus (Late C.. [26]
37. Llandovery sporomorphs and graptolites from the Manbo Formation, t.. [25]
38. Ordovician graptolite-bearing strata in southern Jiangxi with a sp.. [25]
39. 新疆库鲁克塔格地区中奥陶统黑土凹组的放射虫新属种 [25]
40. 华南上特马道克阶的笔石带序列及其全球对比 [25]
41. Middle to Late Ordovician (Darriwilian-Sandbian) Conodonts from th.. [25]
42. 浙江桐庐县刘家奥陶纪剖面生物地层学初步研究 [25]
43. Ordovician and Silurian Stratigraphy and Palaeontology of Yunnan, .. [25]
44. Tremadocian (early ordovician) graptolite biostratigraphy of China [24]
45. 广西运动的进程:来自生物相和岩相带的证据 [24]
46. Principal aspects of the Ordovician biotic radiation [23]
47. The relationships of biserial graptolites [23]
48. 湖北恩施太阳河奥陶纪-志留纪之交沉积间断的研究 [23]
49. 生物地层学图形对比软件包SinoCor1.0 [23]
50. 放射虫新属Gansuceratoikiscum化石保存模式和基本构造功能分析 [23]
51. 贵州遵义高桥奥陶系湄潭组下部的笔石 [23]
52. Carbon Isotope Development in the Ordovician of the Yangtze Gorges.. [22]
53. Late Ordovician to earliest Silurian graptolite and brachiopod bio.. [22]
54. 滇西南早泥盆世地层研究新进展 [22]
55. 地球生命过程中的一个新概念—奥陶纪生物大辐射 [22]
56. Correlation of the Ordovician rocks of China: charts and explanato.. [22]
57. 云南南部及其邻区志留系对比 [21]
58. 云南墨江志留纪地层及其笔石序列 [20]
59. 浙西地区达瑞威尔期-桑比期牙形类生物地层学及生物相 [20]
60. Diversification patterns of Early and Mid Ordovician graptolites i.. [19]
61. 中奥陶统达瑞威尔阶及其全球层型剖面点(GSSP)在中国的确立 [19]
62. 浙赣交界地区中奥陶世笔石动物宏进化初探 [19]
63. 浙江临安板桥奥陶系胡乐组笔石新材料及其意义 [19]
64. 浙赣“Arenig”-“Llanvirn”笔石动物群及其演化模式 [19]
65. 奥陶纪笔石的主要演化辐射进程 [19]
66. Carbon isotope development in the Ordovician of the Yangtze Gorges.. [19]
67. 奥陶纪年代地层学研究评述 [18]
68. 浙江常山黄泥塘奥陶系达瑞威尔阶研究的新进展 [18]
69. 湘鄂地区中—晚奥陶世喇叭角石科(头足纲)关键属种的古生物学研究 [18]
70. Graptolite biostratigraphy of the Shihtien Formation (Darriwilian).. [17]
71. The Central Guizhou and Yichang Uplifts, upper Yangtze region, bet.. [17]
72. 形态统计学──一门新兴的应用性学科 [17]
73. 上扬子区奥陶-志留纪之交的黔中隆起和宜昌上升 [17]
74. Upper Darriwilian graptolite and conodont zonation in the global s.. [17]
75. Succession and global correlation of late Tremadoc graptolite zone.. [16]
76. Biostratigraphic and Chemostratigraphic Correlation for the Base o.. [16]
77. 东南地区中奥陶世笔石动物宏进化初探 [16]
78. 加拿大北极圈康沃利斯岛兰多维列末期笔石的微细构造 [16]
79. Geobiodiversity Database: a comprehensive section-based integratio.. [15]
80. SinoCor 1.0, a program for graphic correlation [15]
81. 浙西北上奥陶统文昌组和堰口组沉积特征及其意义 [14]
82. 对华南早古生代板溪洋的质疑 [14]
83. 五峰组及龙马溪组黑色页岩在扬子覆盖区内的划分与圈定 [14]
84. 中扬子区奥陶系庙坡组底界穿时的生物地层学证据 [13]
85. Diversity history of Ordovician graptolites and its relationship w.. [12]
86. 中国奥陶纪生物地层学研究的新进展 [12]
87. 滇东地区奥陶系红石崖组的时代 [12]
88. 奥陶系中奥陶统达瑞威尔阶全球标准层型剖面和点位 [12]
89. 利用背散射电子(BSE)研究奥陶纪部分笔石的始端发育和分枝方式 [11]
90. 笔石复合标准序列与宏演化──以浙赣边区下奥陶统宁国组上部的笔石研究.. [11]
91. 浙西赣东北奥陶纪晚达瑞威尔期—早桑比期笔石序列新见 [11]
92. 中国三大块体晚奥陶世凯迪早期区域构造事件 [11]
93. Darriwilian to Katian (Ordovician) Graptolites from Northwest Chin.. [11]
94. 关于奥陶纪“茅坪组” [10]
95. Biodiversity of Early and Middle Ordovician graptolites from the J.. [10]
96. 奥陶纪生物大辐射 [10]
97. 宏体无脊椎动物古生物学 [10]
98. Discovery of a Late Ordovician Foliomena fauna in the Tarim desert.. [10]
99. GBDB数据库在地层研究中的应用 [10]
100. 重庆石柱漆辽地区中、上奥陶统牙形刺序列——揭示达瑞威尔阶下部至桑比.. [10]