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1. Chuaria的解剖结构及其植物属性 [338]
2. Anatomy and plant affinity of Chuaria [321]
3. The Earliest Ascidiate Carpel and Its Implications for Angiosperm .. [291]
4. Reconsiderations on two characters of early angiosperm Archaefruct.. [290]
5. 辽西上三叠统大型完整苏铁类化石的发现及意义 [289]
6. 整株麻黄化石的发现及其对麻黄科(尼藤目)形态、生态和演化的启示 [274]
7. The dawn angiosperms [269]
8. Palaeontological evidence of membrane relationship in step-by-step.. [264]
9. 古植物学 [264]
10. The discovery of whole-plant fossil cycad from the Upper Triassic .. [251]
11. Jurastrobus chenii gen. et sp nov., a cycadalean pollen cone conne.. [251]
12. An unexpected noncarpellate epigynous flower from the Jurassic of .. [245]
13. STRUCTURE AND RELATIONSHIPS OF PROBLEMATOSPERMUM, AN ENIGMATIC SEE.. [243]
14. An Undercover Angiosperm from the Jurassic of China [238]
15. 侏罗纪的施迈斯内果(Schmeissneria)是不是被子植物? [231]
16. 自然 [231]
17. Fossil Plants Possibly Related to Angiosperms [231]
18. The Core Eudicot Boom Registered in Myanmar Amber [227]
19. Parapodocarpus gen. nov. and its implications for interpreting the.. [223]
20. The preservation of cytoplasm in fossil plant cells [218]
21. Fossil charcoal from the Middle Jurassic of the Ordos Basin, China.. [217]
22. 内蒙古中侏罗统鱼网叶的形态学及解剖学研究(英文) [216]
23. A new species of Craigia from the Eocene Changchang Formation of H.. [215]
24. Schmeissneria: A missing link to angiosperms? [213]
25. Xingxueanthus: An Enigmatic Jurassic Seed Plant and Its Implicatio.. [212]
26. The impact of high temperature on living Plant cytoplasm [212]
27. A Whole Plant Herbaceous Angiosperm from the Middle Jurassic of Ch.. [212]
28. Ancient pinnate leaf mimesis among lacewings [208]
29. CYTOPLASMIC REMAINS IN AN EOCENE FOSSIL STEM [204]
30. An AFM Observation on Fossil Cytoplasm [202]
31. 侏罗纪的花化石与被子植物起源 [199]
32. Whole fossil plants of Ephedra and their implications on the morph.. [194]
33. Atomic Force Microscope Observation on Ultrastructures in Plant Ce.. [194]
34. A thalloid organism with possible lichen affinity from the Jurassi.. [193]
35. A chemical signal possibly related to physiology in fossil cells d.. [192]
36. The first observation on plant cell fossils in China [186]
37. High temperature as a mechanism for plant cytoplasm preservation i.. [181]
38. The Earliest Normal Flower from Liaoning Province, China [181]
39. A novel angiosperm including various parts from the Early Cretaceo.. [178]
40. Programmed cell death during pigment gland formation in Gossypium .. [176]
41. The megafossil record of early angiosperms in China since 1930s [176]
42. Ultrastructure of chloroplasts in fossil Nelumbo from the Eocene o.. [176]
43. A Novel Angiosperm from the Early Cretaceous and Its Implications .. [176]
44. 突破当代植物系统学的困境 [175]
45. A New Angiosperm Genus from the Lower Cretaceous Yixian Formation,.. [173]
46. Fossil and Living Cycads Say "No More Megasporophylls" [171]
47. 漫话辽西大花园 [166]
48. Palaeontological evidence for membrane fusion between a unit membr.. [163]
49. Axial nature of the cupule-bearing organ in Caytoniales [160]
50. Mechanical Pressure, Not Genes, Makes Ovulate Parts Leaf-Like inCy.. [160]
51. A Jurassic moss from Northeast China with preserved sporophytes [160]
52. A perfect flower from the Jurassic of China [160]
53. Schmeissneria: An angiosperm from the Early Jurassic [158]
54. 中国侏罗纪的完全花(英文) [157]
55. 鲜活的化石--漫话化石与生命 [156]
56. An enigmatic Ephedra-like fossil lacking micropylar tube from the .. [154]
57. 蚕趣两则 [150]
58. On the interpretation of fossil nuclei [150]
59. How the ovules get enclosed in magnoliaceous carpels [150]
60. A Dichocarpum-like Angiosperm from the Early Cretaceous of China [150]
61. Mesofossils with platanaceous affinity from the Dakota Formation (.. [149]
62. Editorial: Evolution of Reproductive Organs in Land Plants [149]
63. Plant cytoplasm preservation in a baked root of Abies [147]
64. A Biased, Misleading Review on Early Angiosperm [145]
65. Selaginella was hyperdiverse already in the Cretaceous [142]
66. New Fossils and New Hope for the Origin of Angiosperms [139]
67. Yuhania: a unique angiosperm from the Middle Jurassic of Inner Mon.. [135]
68. A New Infructescence of Angiosperms from the Early Cretaceous of C.. [135]
69. 生命和素数都有基因吗? [129]
70. 琥珀里的花与达尔文的烦恼 [126]
71. A stagy of plant mesofossils from the Datoto formationin Kansas, U.. [125]
72. 植物细胞化石及其超微结构研究进展与展望研究 [121]
73. 子代发育管控(ODC):生物有性生殖进化的一个普遍趋势 [121]
74. The Precambrian-Cambrian boundary at the southeastren margin of th.. [120]
75. First documentation of Llandovery (Silurian) conodont genus Astrop.. [118]
76. 走出歌德的阴影:迈向更加科学的植物系统学 [115]
77. 大杨树盆地中部甘河地区含被子植物化石地层新知 [110]
78. Reconstructing the Callianthus planteAn early aquatic angiosperm f.. [109]
79. A whole-plant monocot from the Lower Cretaceous [107]
80. 侏罗纪的施迈斯内果(Schmeissneria)是不是被子植物? [92]
81. 整株麻黄化石的发现及其对麻黄科(尼藤目)形态、生态和演化的启示 [87]
82. 植物细胞质化石研究进展 [86]
83. 中国内蒙古下白垩统白彦华群胜利组的首个同位素年龄 [39]
84. A Flower Bud from the Lower Cretaceous of China [35]
85. Micro-CT results exhibit ovules enclosed in the ovaries of Nanjing.. [33]
86. Pre-Carpels from the Middle Triassic of Spain [30]
87. An Anatomically Preserved Cone-like Flower from the Lower Cretaceo.. [25]

Downloads

1. Xingxueanthus: An Enigmatic Jurassic Seed Plant and Its Implicatio.. [49]
2. The preservation of cytoplasm in fossil plant cells [34]
3. The discovery of whole-plant fossil cycad from the Upper Triassic .. [31]
4. The Earliest Ascidiate Carpel and Its Implications for Angiosperm .. [31]
5. 内蒙古中侏罗统鱼网叶的形态学及解剖学研究(英文) [30]
6. An AFM Observation on Fossil Cytoplasm [29]
7. A new species of Craigia from the Eocene Changchang Formation of H.. [28]
8. An Undercover Angiosperm from the Jurassic of China [28]
9. The Earliest Normal Flower from Liaoning Province, China [27]
10. Whole fossil plants of Ephedra and their implications on the morph.. [27]
11. Chuaria的解剖结构及其植物属性 [26]
12. CYTOPLASMIC REMAINS IN AN EOCENE FOSSIL STEM [22]
13. STRUCTURE AND RELATIONSHIPS OF PROBLEMATOSPERMUM, AN ENIGMATIC SEE.. [22]
14. Axial nature of the cupule-bearing organ in Caytoniales [22]
15. Anatomy and plant affinity of Chuaria [22]
16. Palaeontological evidence of membrane relationship in step-by-step.. [22]
17. Reconsiderations on two characters of early angiosperm Archaefruct.. [22]
18. High temperature as a mechanism for plant cytoplasm preservation i.. [21]
19. 侏罗纪的施迈斯内果(Schmeissneria)是不是被子植物? [21]
20. A chemical signal possibly related to physiology in fossil cells d.. [20]
21. 自然 [20]
22. The first observation on plant cell fossils in China [19]
23. New Fossils and New Hope for the Origin of Angiosperms [19]
24. Programmed cell death during pigment gland formation in Gossypium .. [19]
25. 整株麻黄化石的发现及其对麻黄科(尼藤目)形态、生态和演化的启示 [19]
26. 漫话辽西大花园 [19]
27. Atomic Force Microscope Observation on Ultrastructures in Plant Ce.. [18]
28. Schmeissneria: An angiosperm from the Early Jurassic [18]
29. Ancient pinnate leaf mimesis among lacewings [17]
30. Jurastrobus chenii gen. et sp nov., a cycadalean pollen cone conne.. [17]
31. 中国侏罗纪的完全花(英文) [14]
32. 植物细胞化石及其超微结构研究进展与展望研究 [13]
33. 辽西上三叠统大型完整苏铁类化石的发现及意义 [12]
34. The megafossil record of early angiosperms in China since 1930s [12]
35. A thalloid organism with possible lichen affinity from the Jurassi.. [11]
36. A stagy of plant mesofossils from the Datoto formationin Kansas, U.. [11]
37. Mesofossils with platanaceous affinity from the Dakota Formation (.. [10]
38. 侏罗纪的花化石与被子植物起源 [10]
39. 古植物学 [9]
40. Schmeissneria: A missing link to angiosperms? [8]
41. A New Angiosperm Genus from the Lower Cretaceous Yixian Formation,.. [6]
42. 鲜活的化石--漫话化石与生命 [6]
43. 突破当代植物系统学的困境 [6]
44. A perfect flower from the Jurassic of China [6]
45. A Whole Plant Herbaceous Angiosperm from the Middle Jurassic of Ch.. [6]
46. 琥珀里的花与达尔文的烦恼 [6]
47. Mechanical Pressure, Not Genes, Makes Ovulate Parts Leaf-Like inCy.. [4]
48. Fossil charcoal from the Middle Jurassic of the Ordos Basin, China.. [4]
49. Parapodocarpus gen. nov. and its implications for interpreting the.. [4]
50. 植物细胞质化石研究进展 [4]
51. Palaeontological evidence for membrane fusion between a unit membr.. [3]
52. The dawn angiosperms [3]
53. A Jurassic moss from Northeast China with preserved sporophytes [3]
54. How the ovules get enclosed in magnoliaceous carpels [3]
55. A Dichocarpum-like Angiosperm from the Early Cretaceous of China [3]
56. Ultrastructure of chloroplasts in fossil Nelumbo from the Eocene o.. [2]
57. Plant cytoplasm preservation in a baked root of Abies [2]
58. On the interpretation of fossil nuclei [2]
59. Yuhania: a unique angiosperm from the Middle Jurassic of Inner Mon.. [2]
60. A Biased, Misleading Review on Early Angiosperm [2]
61. Fossil and Living Cycads Say "No More Megasporophylls" [2]
62. 生命和素数都有基因吗? [2]
63. An unexpected noncarpellate epigynous flower from the Jurassic of .. [2]
64. First documentation of Llandovery (Silurian) conodont genus Astrop.. [2]
65. The Precambrian-Cambrian boundary at the southeastren margin of th.. [2]
66. The impact of high temperature on living Plant cytoplasm [1]
67. 蚕趣两则 [1]
68. An enigmatic Ephedra-like fossil lacking micropylar tube from the .. [1]
69. The Core Eudicot Boom Registered in Myanmar Amber [1]
70. A Novel Angiosperm from the Early Cretaceous and Its Implications .. [1]
71. Editorial: Evolution of Reproductive Organs in Land Plants [1]
72. Fossil Plants Possibly Related to Angiosperms [1]
73. 大杨树盆地中部甘河地区含被子植物化石地层新知 [1]
74. 走出歌德的阴影:迈向更加科学的植物系统学 [1]
75. A whole-plant monocot from the Lower Cretaceous [1]
76. Reconstructing the Callianthus planteAn early aquatic angiosperm f.. [1]
77. Micro-CT results exhibit ovules enclosed in the ovaries of Nanjing.. [1]