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1. 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.. [605]
2. Upper Ordovician (Sandbian-Katian) graptolite and conodont zonatio.. [516]
3. 华南奥陶-志留系龙马溪组黑色笔石页岩的生物地层学 [390]
4. Geobiodiversity Database (GBDB) in stratigraphic, palaeontological.. [379]
5. 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 [364]
6. 古生物多样性统计方法浅析及湖北界岭剖面笔石动物群样方统计研究 [356]
7. Geobiodiversity Database: a comprehensive section-based integratio.. [348]
8. 定量古生物学及重要名词释义 [342]
9. Geographic dynamics of some major graptolite taxa of the Diplograp.. [341]
10. Biostratigraphy and geography of the Ordovician-Silurian Lungmachi.. [330]
11. 塔里木盆地及周缘奥陶系黑色岩系的生物地层学对比 [321]
12. 四川华蓥地区五峰组、龙马溪组黑色页岩的笔石生物地层研究 [312]
13. Biostratigraphic correlation of the Ordovician black shales in Tar.. [310]
14. GBDB的在线文献数据库及其应用 [310]
15. Systematic Palaeontology [307]
16. 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 [301]
17. 基于GBDB数据库的地层学研究与应用 [300]
18. Circumjacent distribution pattern of the Lungmachian graptolitic b.. [294]
19. 论广西运动的阶段性 [291]
20. Temporal and spatial distribution of the Wufeng Formation black sh.. [291]
21. Darriwilian to Katian (Ordovician) Graptolites from Northwest Chin.. [287]
22. 利用GBDB数据库与GIS技术绘制高精度古地理图 [283]
23. 地层古生物科学数据在地质研究和油气勘探中的应用 [282]
24. 古生物多样性统计方法及其适用性分析 [279]
25. Paleogeographic evolution of the Lower Yangtze region and the brea.. [274]
26. GBDB数据平台中地层剖面全景显示功能的设计与实现 [269]
27. Reconstruction of the mid-Hirnantian palaeotopography in the Upper.. [257]
28. 下扬子区奥陶纪晚期古地理演变及华南“台-坡-盆”格局的打破 [257]
29. Toward a stepwise Kwangsian Orogeny [252]
30. Quantitative stratigraphy of the Wufeng and Lungmachi black shales.. [250]
31. 内蒙古乌海大石门奥陶系牙形刺和Histiodella动物群发现的意义 [250]
32. GBDB数据库在地层研究中的应用 [250]
33. 物种分布模型在古生物学研究中的应用 [237]
34. 地层数据的常用空间插值方法介绍和比较分析——以上扬子区宝塔组厚度重.. [235]
35. 华南奥陶-志留纪之交笔石多样性演化及古地理的定量研究 [234]
36. 志留纪初宜昌上升及其周缘龙马溪组黑色笔石页岩的圈层展布模式 [229]
37. 中扬子宜昌地区五峰组和龙马溪组页岩发育主控因素 [222]
38. Temporal and spatial distribution of Ordovician-Silurian boundary .. [219]
39. Stratigraphy of the Lungmachi black shales from the Huaying drill .. [213]
40. Biostratigraphy [208]
41. 元数据标准及其在古生物数据库中的应用 [206]
42. A Graphic Correlation and Diversity Analysis of the Upper Darriwil.. [204]
43. Upper Ordovician continuous lithological succession in outer-shelf.. [196]
44. 黔北习科1井五峰组―龙马溪组黑色页岩的地层划分与对比 [171]
45. 下扬子区奥陶纪晚期古地理演变及华南台坡盆格局的打破 [145]
46. Age of the Silurian Lower Red Beds in South China: Stratigraphical.. [137]
47. 华北板块西缘甘肃平凉上奥陶统平凉组灰岩微相和沉积环境 [136]
48. 四川兴文县麒麟乡五峰组—龙马溪组黑色页岩的生物地层序列 [128]
49. Are There Any Links between Biodiversity and Paleogeographic Diffe.. [124]
50. Timing and patterns of the Great Ordovician Biodiversification Eve.. [124]
51. A restudy of Early Devonian graptolites from the Himalayan Mountai.. [106]
52. Multiple glacio-eustatic cycles and associated environmental chang.. [98]
53. 四川兴文县麒麟乡五峰组-龙马溪组黑色页岩的生物地层序列 [67]
54. What triggered the Late Ordovician mass extinction (LOME)? Perspec.. [34]

Downloads

1. Upper Ordovician (Sandbian-Katian) graptolite and conodont zonatio.. [59]
2. 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]
3. 四川华蓥地区五峰组、龙马溪组黑色页岩的笔石生物地层研究 [49]
4. Biostratigraphy and geography of the Ordovician-Silurian Lungmachi.. [41]
5. 华南奥陶-志留系龙马溪组黑色笔石页岩的生物地层学 [35]
6. 定量古生物学及重要名词释义 [33]
7. 古生物多样性统计方法及其适用性分析 [31]
8. Biostratigraphic correlation of the Ordovician black shales in Tar.. [29]
9. 塔里木盆地及周缘奥陶系黑色岩系的生物地层学对比 [27]
10. 元数据标准及其在古生物数据库中的应用 [25]
11. 古生物多样性统计方法浅析及湖北界岭剖面笔石动物群样方统计研究 [23]
12. 论广西运动的阶段性 [23]
13. GBDB的在线文献数据库及其应用 [20]
14. 下扬子区奥陶纪晚期古地理演变及华南“台-坡-盆”格局的打破 [20]
15. Temporal and spatial distribution of the Wufeng Formation black sh.. [19]
16. Geobiodiversity Database (GBDB) in stratigraphic, palaeontological.. [19]
17. Geographic dynamics of some major graptolite taxa of the Diplograp.. [17]
18. Quantitative stratigraphy of the Wufeng and Lungmachi black shales.. [16]
19. 基于GBDB数据库的地层学研究与应用 [16]
20. Geobiodiversity Database: a comprehensive section-based integratio.. [15]
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 [15]
22. 地层数据的常用空间插值方法介绍和比较分析——以上扬子区宝塔组厚度重.. [15]
23. 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 [14]
24. Reconstruction of the mid-Hirnantian palaeotopography in the Upper.. [14]
25. Darriwilian to Katian (Ordovician) Graptolites from Northwest Chin.. [14]
26. Temporal and spatial distribution of Ordovician-Silurian boundary .. [13]
27. 物种分布模型在古生物学研究中的应用 [12]
28. 利用GBDB数据库与GIS技术绘制高精度古地理图 [11]
29. 地层古生物科学数据在地质研究和油气勘探中的应用 [10]
30. GBDB数据库在地层研究中的应用 [10]
31. Toward a stepwise Kwangsian Orogeny [9]
32. GBDB数据平台中地层剖面全景显示功能的设计与实现 [9]
33. 华南奥陶-志留纪之交笔石多样性演化及古地理的定量研究 [9]
34. 中扬子宜昌地区五峰组和龙马溪组页岩发育主控因素 [6]
35. 志留纪初宜昌上升及其周缘龙马溪组黑色笔石页岩的圈层展布模式 [6]
36. Circumjacent distribution pattern of the Lungmachian graptolitic b.. [5]
37. Paleogeographic evolution of the Lower Yangtze region and the brea.. [5]
38. 内蒙古乌海大石门奥陶系牙形刺和Histiodella动物群发现的意义 [4]
39. 华北板块西缘甘肃平凉上奥陶统平凉组灰岩微相和沉积环境 [4]
40. Stratigraphy of the Lungmachi black shales from the Huaying drill .. [4]
41. 黔北习科1井五峰组―龙马溪组黑色页岩的地层划分与对比 [3]
42. Upper Ordovician continuous lithological succession in outer-shelf.. [2]
43. Biostratigraphy [2]
44. Are There Any Links between Biodiversity and Paleogeographic Diffe.. [2]
45. Age of the Silurian Lower Red Beds in South China: Stratigraphical.. [2]
46. Multiple glacio-eustatic cycles and associated environmental chang.. [2]
47. Systematic Palaeontology [1]
48. A Graphic Correlation and Diversity Analysis of the Upper Darriwil.. [1]
49. 下扬子区奥陶纪晚期古地理演变及华南台坡盆格局的打破 [1]
50. 四川兴文县麒麟乡五峰组—龙马溪组黑色页岩的生物地层序列 [1]
51. Timing and patterns of the Great Ordovician Biodiversification Eve.. [1]