Keywords Cloud

Research Outputs

Co-authors[TOP 5]

Usage Statistics


  Total Views
 911

  Access Source
    internal: 0
    External: 911
    Domestic: 745
    Abroad: 166

  Annual Views
 67

  Access Source
    internal: 0
    External: 67
    Domestic: 42
    Abroad: 25

  Monthly Views
 26

  Access Source
    internal: 0
    External: 26
    Domestic: 12
    Abroad: 14

Visits

Visits

1. Interactions between Ediacaran animals and microbial mats: Insight.. [1138]
2. A uniquely preserved Ediacaran fossil with direct evidence for a q.. [988]
3. 叠层石 [734]
4. 创刊词 [702]
5. Ediacaran seawater temperature: Evidence from inclusions of Sinian.. [631]
6. Diverse small spinose acritarchs from the Ediacaran Doushantuo For.. [444]
7. The oldest known dinoflagellates: Morphological and molecular evid.. [425]
8. Lichen-like symbiosis 600 million years ago [414]
9. 蓝田生物群:一个认识多细胞生物起源和早期演化的新窗口 [379]
10. 晚震旦世的特种生物群落──庙河生物群新知 [375]
11. 地层学与古生物学研究生华南野外实习指南 [346]
12. 陡山沱期生物群-早期动物辐射前夕的生命 [338]
13. (17)O-depleted barite from two Marinoan cap dolostone sections, So.. [327]
14. Carbon, sulfur, and oxygen isotope evidence for a strong depth gra.. [325]
15. New morphological observations for Paleoproterozoic acritarchs fro.. [324]
16. Ultrastructural and geochemical characterization of archean-paleop.. [322]
17. A pronounced negative delta C-13 excursion in an Ediacaran success.. [321]
18. 皖南地区埃迪卡拉系皮园村组微体和宏体化石——兼论埃迪卡拉纪-寒武纪.. [313]
19. 华南扬子地台埃迪卡拉纪中早期古海洋的演化——基于深水相沉积柱的证据 [310]
20. Timing the deposition of (17)O-depleted barite at the aftermath of.. [296]
21. Pulsed oxidation and bioloical evolution in the Ediacaran Doushant.. [294]
22. Articulated sponges from the Lower Cambrian Hetang Formation in so.. [294]
23. Chuaria的解剖结构及其植物属性 [287]
24. Protists of the Upper Mesoproterozoic Ruyang Group in Shanxi Provi.. [283]
25. 元古代刘老碑组Leiosphaeridia asperata膜壁的超微结构及其亲缘关系探.. [280]
26. Cell wall ultrastructures of the Proterozoic acritarch Leiosphaeri.. [277]
27. 徐淮地区元古宙九顶山组燧石中微体生物化石新资料 [277]
28. The Neoproterozoic Quruqtagh Group in eastern Chinese Tianshan: ev.. [275]
29. 古元古代冰期事件:山西五台地区滹沱群的碳同位素证据 [272]
30. Macroscopic carbonaceous compressions in a terminal Proterozoic sh.. [265]
31. Restudy of the worm-like carbonaceous compression fossils Protoare.. [258]
32. Anatomy and plant affinity of Chuaria [255]
33. 迄今最古老的多细胞宏体生物化石——“蓝田生物群” [255]
34. Doushantuo embryos preserved inside diapause egg cysts [250]
35. Tetraradial symmetry in early poriferans [246]
36. 皖南早寒武世荷塘组海绵动物群 [245]
37. The nature and origin of nucleus-like intracellular inclusions in .. [244]
38. Oxygen isotope composition of meltwater from a Neoproterozoic glac.. [242]
39. An early Ediacaran assemblage of macroscopic and morphologically d.. [241]
40. 华南埃迪卡拉纪陡山沱海洋中无机碳同位素组成变化 [241]
41. 中国叠层石研究进展 [240]
42. Eumetazoan fossils in terminal Proterozoic phosphorites? [239]
43. Carbon and sulfur isotope chemostratigraphy of the Neoproterozoic .. [236]
44. 华夏化石记录对生物演化的启示 [234]
45. SHRIMP zircon U-Pb age constraints on Neoproterozoic Quruqtagh dia.. [233]
46. 陕南伊迪卡拉纪末期的瓶状化石—可能最早的有孔虫化石 [228]
47. Cellular and subcellular structure of neoproterozoic animal embryo.. [221]
48. 回顾蓝藻在地史上的盛衰变化,浅谈遏制现生蓝藻暴发的思路 [219]
49. Biostratigraphic and chemostratigraphic constraints on the age of .. [219]
50. Trace fossil evidence for Ediacaran bilaterian animals with comple.. [217]
51. 埃迪卡拉纪蓝田生物群和埃迪卡拉生物群中的Flabellophyton [217]
52. 皖南新元古代两次冰期事件 [215]
53. 华南埃迪卡拉纪化石保存方式及其时空分布 [215]
54. New constraints on the ages of neoproterozoic glaciations in south.. [213]
55. 中国叠层石研究的历史和现状 [212]
56. Towering sponges in an Early Cambrian Lagerstatte: Disparity betwe.. [211]
57. Organic-walled microfossils from the early Neoproterozoic Liulaobe.. [211]
58. 新元古代陡山沱期真核生物的辐射 [211]
59. New Ediacara fossils preserved in marine limestone and their ecolo.. [210]
60. Basal Cambrian microfossils from the Yurtus and Xishanblaq formati.. [209]
61. Rare earth elements and carbon isotope geochemistry of the Doushan.. [209]
62. Paleoproterozoic glaciation: Evidence from carbon isotope record o.. [208]
63. Pyritized chuarids with excystment structures from the late Neopro.. [208]
64. YANGTZIRAMULUS ZHANGI NEW GENUS AND SPECIES, A CARBONATE-HOSTED MA.. [207]
65. 湖北宜昌埃迪卡拉系陡山沱组天柱山卵囊胞——Tianzhushania的新认识 [207]
66. The diversification and extinction of Doushantuo-Pertatataka acrit.. [206]
67. 徐淮地区新元古代九顶山组燧石结核的地球化学特征 [206]
68. 早期海绵的四辐射对称性 [206]
69. Quantitative Analysis of Flabellophyton from the Ediacaran Lantian.. [205]
70. 蓝田生物群 [205]
71. Sponge fossil assemblage from the Early Cambrian Hetang Formation .. [204]
72. Comment on "Fossilized Nuclei and Germination Structures Identify .. [202]
73. 瓮安生物群 [201]
74. An Integrated carbon, oxygen, and strontium isotopic studies of th.. [199]
75. 浅谈我国地球环境与生命过程研究中的一些科学问题 [198]
76. 新元古代“雪球事件”和早期真核生物辐射 [198]
77. A biomechanical analysis of the early eukaryotic fossil Valeria an.. [198]
78. Electron microscopy reveals evidence for simple multicellularity i.. [197]
79. 湖北保康陡山沱组磷酸盐化微体化石组合 [196]
80. The advent of mineralized skeletons in Neoproterozoic Metazoa - ne.. [194]
81. 湖北峡东地区九龙湾剖面震旦系陡山沱组微体化石的新发现 [194]
82. Palaeontology - Undressing and redressing Ediacaran embryos [191]
83. 苏皖北部新元古代微生物化石 [190]
84. 淮北地区新元古代燧石相三维保存微生物化石 [189]
85. 最古老的沟鞭藻:来自山西永济中元古代晚期的化石和分子生物学证据 [188]
86. Orbisiana linearis from the early Ediacaran Lantian Formation of S.. [188]
87. Exceptional preservation of macrofossils from the Ediacaran Lantia.. [187]
88. 扬子地台新元古代陡山沱期磷酸盐化生物群 [184]
89. Phosphatized biotas from the Neoproterozoic Doushantuo Formation o.. [182]
90. Reply to comment on "Trace fossil evidence for Ediacaran bilateria.. [182]
91. 中国南方末元古宙陡山沱组中的具刺磷酸盐微体化石 [180]
92. 通过C_(27)/C_(29)甾烷和有机碳同位素来判断早古生代和前寒武纪的烃源.. [180]
93. 蓝田生物群不同保存形态丘尔藻化石的成因探究 [180]
94. 我国太古代—古元古代早期有机壁微体化石 [180]
95. The earliest Foraminifera from southern Shaanxi, China [179]
96. 新元古代陡山沱期的动物 [179]
97. 贵州瓮安上震旦统陡山沱组骨针状假化石 [178]
98. 新元古代大塘坡组黑色页岩中的甲藻甾烷及其生物学意义(英文) [178]
99. The Lantian biota: A new window onto the origin and early evolutio.. [178]
100. Seep carbonates and preserved methane oxidizing archaea and sulfat.. [176]

Downloads

1. A uniquely preserved Ediacaran fossil with direct evidence for a q.. [177]
2. The oldest known dinoflagellates: Morphological and molecular evid.. [56]
3. Diverse small spinose acritarchs from the Ediacaran Doushantuo For.. [56]
4. Protists of the Upper Mesoproterozoic Ruyang Group in Shanxi Provi.. [52]
5. Lichen-like symbiosis 600 million years ago [51]
6. 地层学与古生物学研究生华南野外实习指南 [48]
7. New morphological observations for Paleoproterozoic acritarchs fro.. [45]
8. Basal Cambrian microfossils from the Yurtus and Xishanblaq formati.. [44]
9. Towering sponges in an Early Cambrian Lagerstatte: Disparity betwe.. [43]
10. 埃迪卡拉纪标准化石Cloudina系统古生物学研究 [40]
11. 华南扬子地台埃迪卡拉纪中早期古海洋的演化——基于深水相沉积柱的证据 [40]
12. Articulated sponges from the Lower Cambrian Hetang Formation in so.. [39]
13. Sponge fossil assemblage from the Early Cambrian Hetang Formation .. [39]
14. 我国太古代—古元古代早期有机壁微体化石 [39]
15. The Neoproterozoic Quruqtagh Group in eastern Chinese Tianshan: ev.. [38]
16. New observations on spicule-like structures from Doushantuo phosph.. [37]
17. Pyritized chuarids with excystment structures from the late Neopro.. [37]
18. 古元古代冰期事件:山西五台地区滹沱群的碳同位素证据 [37]
19. 中国叠层石研究进展 [37]
20. 古元古代早期有机壁微体化石红外光谱与拉曼光谱研究 [37]
21. Radiation of Meso-Neoproterozoic and early Cambrian protists infer.. [36]
22. The advent of mineralized skeletons in Neoproterozoic Metazoa - ne.. [35]
23. The diversification and extinction of Doushantuo-Pertatataka acrit.. [35]
24. Ediacaran seawater temperature: Evidence from inclusions of Sinian.. [35]
25. Seep carbonates and preserved methane oxidizing archaea and sulfat.. [35]
26. (17)O-depleted barite from two Marinoan cap dolostone sections, So.. [34]
27. New constraints on the ages of neoproterozoic glaciations in south.. [34]
28. 陕南伊迪卡拉纪末期的瓶状化石—可能最早的有孔虫化石 [33]
29. Skeletogenesis and asexual reproduction in the earliest biomineral.. [32]
30. 元古代刘老碑组Leiosphaeridia asperata膜壁的超微结构及其亲缘关系探.. [30]
31. Cell wall ultrastructures of the Proterozoic acritarch Leiosphaeri.. [29]
32. Morphological reconstruction of Miaohephyton bifurcatum, a possibl.. [29]
33. 皖南新元古代两次冰期事件 [29]
34. 湖北峡东地区九龙湾剖面震旦系陡山沱组微体化石的新发现 [29]
35. SHRIMP zircon U-Pb age constraints on Neoproterozoic Quruqtagh dia.. [28]
36. A diverse metaphyte assemblage from the Neoproterozoic black shale.. [27]
37. Discovery of branched tubular algae and microscopic tubes with ann.. [27]
38. A pronounced negative delta C-13 excursion in an Ediacaran success.. [27]
39. Restudy of the worm-like carbonaceous compression fossils Protoare.. [26]
40. Cellular and subcellular structure of neoproterozoic animal embryo.. [26]
41. Chuaria的解剖结构及其植物属性 [26]
42. 皖南早寒武世荷塘组海绵骨针化石 [26]
43. 皖南早寒武世荷塘组海绵动物群 [26]
44. 蓝田生物群 [26]
45. Rare helical spheroidal fossils from the Doushantuo Lagerstatte: E.. [25]
46. 苏皖北部新元古代微生物化石 [25]
47. 浅谈我国地球环境与生命过程研究中的一些科学问题 [25]
48. 回顾蓝藻在地史上的盛衰变化,浅谈遏制现生蓝藻暴发的思路 [25]
49. Phosphatized multicellular algae in the Neoproterozoic Doushantuo .. [24]
50. 华南埃迪卡拉纪陡山沱海洋中无机碳同位素组成变化 [24]
51. 湖北宜昌埃迪卡拉系陡山沱组天柱山卵囊胞——Tianzhushania的新认识 [24]
52. 蓝田生物群:一个认识多细胞生物起源和早期演化的新窗口 [24]
53. 叠层石 [24]
54. 埃迪卡拉纪蓝田生物群和埃迪卡拉生物群中的Flabellophyton [24]
55. 论锥叠层石群(Conophyton)的形态发生——对苏北新元古代九顶山组一个似.. [23]
56. 中国叠层石研究的历史和现状 [23]
57. 湖北保康陡山沱组磷酸盐化微体化石组合 [23]
58. 淮北地区新元古代燧石相三维保存微生物化石 [23]
59. 通过C_(27)/C_(29)甾烷和有机碳同位素来判断早古生代和前寒武纪的烃源.. [23]
60. Anatomy and plant affinity of Chuaria [22]
61. Eumetazoan fossils in terminal Proterozoic phosphorites? [22]
62. 扬子地台新元古代陡山沱期磷酸盐化生物群 [22]
63. An early Ediacaran assemblage of macroscopic and morphologically d.. [20]
64. 晚震旦世的特种生物群落──庙河生物群新知 [20]
65. 新元古代大塘坡组黑色页岩中的甲藻甾烷及其生物学意义(英文) [20]
66. 东秦岭北坡中元古代晚期微体生物群——一个早期生命的新窗口 [20]
67. 皖南地区埃迪卡拉系皮园村组微体和宏体化石——兼论埃迪卡拉纪-寒武纪.. [20]
68. The earliest Foraminifera from southern Shaanxi, China [19]
69. Sexual reproductive structures of latest proterozoic multicellular.. [19]
70. 徐淮地区新元古代叠层石组合 [19]
71. 绪论:化石藻类和叠层石 [19]
72. Comment on "Fossilized Nuclei and Germination Structures Identify .. [19]
73. Ultrastructural and geochemical characterization of archean-paleop.. [18]
74. 论山西中元古代晚期汝阳群微体化石组合(英文) [18]
75. 也谈世界末日 [18]
76. 蓝田生物群不同保存形态丘尔藻化石的成因探究 [18]
77. 埃迪卡拉纪早期“蓝田生物群”中可能的后生动物化石的系统描述 [18]
78. 对贵州瓮安陡山沱磷块岩中针状结构物的新认识 [17]
79. 新元古代陡山沱期的动物 [17]
80. Rare earth elements and carbon isotope geochemistry of the Doushan.. [17]
81. Remnants of early Archean (circa 3.5 GA) seawater in BIF from Caoz.. [16]
82. 读《寻找火星上的古老生命——火星陨石ALH84001号残存有可能的生命活动.. [16]
83. 最古老的沟鞭藻:来自山西永济中元古代晚期的化石和分子生物学证据 [16]
84. Doushantuo embryos preserved inside diapause egg cysts [15]
85. Timing the deposition of (17)O-depleted barite at the aftermath of.. [15]
86. Carbon, sulfur, and oxygen isotope evidence for a strong depth gra.. [15]
87. Macroscopic carbonaceous compressions in a terminal Proterozoic sh.. [15]
88. 徐淮地区新元古代九顶山组燧石结核的地球化学特征 [15]
89. 长城系串岭沟组球形疑源类的超微结构 [15]
90. 陡山沱期生物群-早期动物辐射前夕的生命 [15]
91. Paleoproterozoic glaciation: Evidence from carbon isotope record o.. [14]
92. 贵州瓮安上震旦统陡山沱组骨针状假化石 [14]
93. 新元古代陡山沱期瓮安生物群研究概况 [14]
94. 中国南方末元古宙陡山沱组中的具刺磷酸盐微体化石 [14]
95. 淮北地区寒武系/新元古界界线讨论 [14]
96. 华夏化石记录对生物演化的启示 [14]
97. Carbon and sulfur isotope chemostratigraphy of the Neoproterozoic .. [13]
98. Phosphatized biotas from the Neoproterozoic Doushantuo Formation o.. [13]
99. Sulfate oxygen-17 anomaly in an Oligocene ash bed in mid-North Ame.. [13]
100. Beltanelloides podolicus 在中国上震旦统首次发现 [13]