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1. Spatial variation in the diversity and composition of the Lower Ca.. [401]
2. Sponge grade body fossil with cellular resolution dating 60 Myr be.. [391]
3. 贵州埃迪卡拉瓮安生物群中动物胚胎化石的多样性 [378]
4. 瓮安生物群中“内陷式动物原肠胚化石”的同步辐射无损成像及其亲缘关系.. [343]
5. Diversity and species abundance patterns of the Early Cambrian (Se.. [323]
6. 华南新元古代地层、生-储-盖层发育与沉积环境 [317]
7. 新元古代磷酸盐化外包型腔原肠胚化石在瓮安生物群中的发现 [300]
8. Biological and taphonomic implications of Ediacaran fossil embryos.. [298]
9. Early embryogenesis of potential bilaterian animals with polar lob.. [295]
10. Complex embryos displaying bilaterian characters from Precambrian .. [287]
11. Orthrozanclus elongata n. sp and the significance of sclerite-cove.. [274]
12. Decimetre-scale multicellular eukaryotes from the 1.56-billion-yea.. [271]
13. Morphology of diverse radiodontan head sclerites from the early Ca.. [266]
14. 贵州新元古代瓮安生物群中动物胚胎化石研究进展 [258]
15. New observations of the ornamented Doushantuo embryo fossils from .. [257]
16. Complexity and diversity of eyes in Early Cambrian ecosystems [256]
17. A new radiodontan oral cone with a unique combination of anatomica.. [245]
18. Meroblastic cleavage identifies some Ediacaran Doushantuo (China) .. [236]
19. Cellular preservation of excysting developmental stages of new euk.. [232]
20. Early Cambrian animal diapause embryos revealed by X-ray tomograph.. [230]
21. 动物的起源和早期演化历程 [222]
22. A Chengjiang-type fossil assemblage from the Hongjingshao Formatio.. [217]
23. Appendages of an early Cambrian metadoxidid trilobite from Yunnan,.. [217]
24. Tubular microfossils from the Ediacaran Weng' an Biota (Doushantuo.. [216]
25. 中国的寒武纪大爆发研究:进展与展望 [211]
26. The Early Ediacaran Caveasphaera Foreshadows the Evolutionary Orig.. [209]
27. Origin of spiders and their spinning organs illuminated by mid-Cre.. [207]
28. 贵州埃迪卡拉纪瓮安生物群化石含量的统计分析 [204]
29. 同步辐射X射线相衬显微CT在古生物学中的应用 [195]
30. 三维X射线显微技术与小型-微体化石高分辨率无损成像 [191]
31. The Weng'an Biota (Doushantuo Formation): an Ediacaran window on s.. [179]
32. 激光共聚焦显微技术在瓮安生物群中的应用 [175]
33. Skeletal faunas of the lower Cambrian Yu'anshan Formation, eastern.. [175]
34. Hongjingshao Formation (Cambrian Stage 3) at Chenggong, Kunming, Y.. [174]
35. Nuclei and nucleoli in embryo-like fossils from the Ediacaran Weng.. [172]
36. Virtual Palaeontology: when fossils illuminated by X-ray [170]
37. First report of Wiwaxia from the Cambrian Chengjiang Lagerstatte [169]
38. Periodic shell decollation as an ecology-driven strategy in the ea.. [163]
39. 两种微体化石三维无损成像技术的对比 [158]
40. Nucleus preservation in early Ediacaran Weng'an embryo-like fossil.. [155]
41. Open data and digital morphology [153]
42. Developmental biology of Helicoforamina reveals holozoan affinity,.. [153]
43. Ediacaran Doushantuo Formation and the Weng'an Biota in the shallo.. [147]
44. Ultrastructure and in-situ chemical characterization of intracellu.. [146]
45. 微体化石3D结构的同步辐射无损成像研究 [132]
46. Diverse and complex developmental mechanisms of early Ediacaran em.. [131]
47. 瓮安生物群——动物王国的黎明时代 [118]
48. Comparative taphonomy and phylogenetic signal of phosphatized Weng.. [116]
49. 古生物学家的隐形手术刀——简介同步辐射X光断层摄影技术在瓮安生物群.. [90]
50. 瓮安生物群中内陷式动物原肠胚化石的同步辐射无损成像及其亲缘关系的重.. [79]
51. 中国的寒武纪大爆发研究:进展与展望 [79]
52. Mineral chemistry and 3D tomography of a Chang'E 5 high-Ti basalt:.. [38]
53. New holozoans with cellular resolution from the early Ediacaran We.. [37]

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1. 同步辐射X射线相衬显微CT在古生物学中的应用 [33]
2. 贵州埃迪卡拉瓮安生物群中动物胚胎化石的多样性 [31]
3. 瓮安生物群中“内陷式动物原肠胚化石”的同步辐射无损成像及其亲缘关系.. [27]
4. Complex embryos displaying bilaterian characters from Precambrian .. [17]
5. Spatial variation in the diversity and composition of the Lower Ca.. [16]
6. 瓮安生物群——动物王国的黎明时代 [16]
7. 贵州埃迪卡拉纪瓮安生物群化石含量的统计分析 [15]
8. 贵州新元古代瓮安生物群中动物胚胎化石研究进展 [15]
9. New observations of the ornamented Doushantuo embryo fossils from .. [13]
10. Diversity and species abundance patterns of the Early Cambrian (Se.. [11]
11. 新元古代磷酸盐化外包型腔原肠胚化石在瓮安生物群中的发现 [10]
12. Complexity and diversity of eyes in Early Cambrian ecosystems [9]
13. 古生物学家的隐形手术刀——简介同步辐射X光断层摄影技术在瓮安生物群.. [9]
14. Biological and taphonomic implications of Ediacaran fossil embryos.. [8]
15. Sponge grade body fossil with cellular resolution dating 60 Myr be.. [8]
16. 中国的寒武纪大爆发研究:进展与展望 [8]
17. Early embryogenesis of potential bilaterian animals with polar lob.. [7]
18. 华南新元古代地层、生-储-盖层发育与沉积环境 [7]
19. A Chengjiang-type fossil assemblage from the Hongjingshao Formatio.. [6]
20. 两种微体化石三维无损成像技术的对比 [5]
21. Hongjingshao Formation (Cambrian Stage 3) at Chenggong, Kunming, Y.. [5]
22. First report of Wiwaxia from the Cambrian Chengjiang Lagerstatte [5]
23. Meroblastic cleavage identifies some Ediacaran Doushantuo (China) .. [5]
24. 动物的起源和早期演化历程 [5]
25. Orthrozanclus elongata n. sp and the significance of sclerite-cove.. [5]
26. A new radiodontan oral cone with a unique combination of anatomica.. [5]
27. 激光共聚焦显微技术在瓮安生物群中的应用 [5]
28. The Early Ediacaran Caveasphaera Foreshadows the Evolutionary Orig.. [5]
29. Appendages of an early Cambrian metadoxidid trilobite from Yunnan,.. [4]
30. Decimetre-scale multicellular eukaryotes from the 1.56-billion-yea.. [3]
31. Open data and digital morphology [3]
32. Nuclei and nucleoli in embryo-like fossils from the Ediacaran Weng.. [3]
33. Morphology of diverse radiodontan head sclerites from the early Ca.. [3]
34. Developmental biology of Helicoforamina reveals holozoan affinity,.. [3]
35. Diverse and complex developmental mechanisms of early Ediacaran em.. [3]
36. Early Cambrian animal diapause embryos revealed by X-ray tomograph.. [2]
37. 三维X射线显微技术与小型-微体化石高分辨率无损成像 [2]
38. Cellular preservation of excysting developmental stages of new euk.. [2]
39. Tubular microfossils from the Ediacaran Weng' an Biota (Doushantuo.. [2]
40. Periodic shell decollation as an ecology-driven strategy in the ea.. [2]
41. Ediacaran Doushantuo Formation and the Weng'an Biota in the shallo.. [1]
42. Virtual Palaeontology: when fossils illuminated by X-ray [1]
43. Nucleus preservation in early Ediacaran Weng'an embryo-like fossil.. [1]
44. Comparative taphonomy and phylogenetic signal of phosphatized Weng.. [1]
45. Ultrastructure and in-situ chemical characterization of intracellu.. [1]
46. Mineral chemistry and 3D tomography of a Chang'E 5 high-Ti basalt:.. [1]