关键词云

成果统计

合作作者[TOP 5]

访问统计


  总访问量
 8153

  访问来源
    内部: 31
    外部: 8122
    国内: 7861
    国外: 292

  年访问量
 3626

  访问来源
    内部: 6
    外部: 3620
    国内: 3565
    国外: 61

  月访问量
 8

  访问来源
    内部: 0
    外部: 8
    国内: 5
    国外: 3

访问量

访问量

1. 滇东北昭通附近早泥盆世脊椎动物化石新知 [3155]
2. 贵州空棘鱼属的修订与系统发育分析 [3056]
3. 广西下泥盆统南极鱼类(盾皮鱼纲:节甲鱼目)一新属 [1818]
4. 浙江长兴志留纪真盔甲鱼类新材料及真盔甲鱼目系统发育关系的讨论 [1567]
5. 广西下泥盆统大瑶山群盔甲鱼类的新发现 [1537]
6. 云南沾益早泥盆世肺鱼类一新种 [1531]
7. 浙江安吉志留纪真盔甲鱼类一新属 [1452]
8. 云南昭通早泥盆世肉鳍鱼类一新属 [1446]
9. 云南文山早泥盆世盔甲鱼类的新发现 [1445]
10. 湖南晚泥盆世短胸节甲鱼类一新属 [1435]
11. 云南早泥盆世西山村组华南鱼类的首次发现 [1397]
12. 云南文山大窗鱼(Macrothyraspis)属一新种 [1359]
13. 大瓣鱼科一新属与历史动物地理学研究 [1160]
14. 新疆柯坪志留纪兰多维列世无颌类化石 [1041]
15. A Silurian placoderm with osteichthyan-like marginal jaw bones [1028]
16. 云南曲靖地区桂家屯组与徐家冲组早期脊椎动物化石及相关生物地层问题 [989]
17. 新疆柯坪-巴楚地区志留纪含鱼化石地层序列与加里东运动 [961]
18. Lower Cambrian vertebrates from South China [943]
19. 中国生物多样性大数据平台建设 [894]
20. 滇东北昭通早泥盆世盔甲鱼类一新属种 [873]
21. A new tooth-plated lungfish from the Middle Devonian of Yunnan, Ch.. [872]
22. 我们的祖先从水里来——硬骨鱼类起源与早期演化 [860]
23. X-ray microtomographic studies of exceptionally preserved three-di.. [859]
24. First Devonian tetrapod from Asia [856]
25. Palaeontology - First Devonian tetrapod from Asia [856]
26. 颌的起源发育生物学假说与化石实证的交叉 [856]
27. 记真盔甲鱼类两新属——兼论真盔甲鱼类系统发育关系 [855]
28. 云南曲靖刘家冲剖面关底组中的鱼类微体化石及其地层学意义 [853]
29. 新疆巴楚早志留世软骨鱼类微体化石 [846]
30. Geochemical Stratigraphy and Microvertebrate Assemblage Sequences .. [834]
31. 最古老辐鳍鱼解谜最繁盛水生脊椎动物类群的早期历史 [834]
32. 志留纪肉鳍鱼类梦幻鬼鱼(Guiyu oneiros)的脑颅形态 [821]
33. 盔甲鱼亚纲(无颌类)的系统发育关系 [803]
34. The earliest phyllolepida (Placodermi, Arthrodira) from the late L.. [803]
35. The origin of the internal nostril of tetrapods [802]
36. REDESCRIPTION OF SZELEPIS LIU, 1981 (PLACODERMI, ARTHRODIRA), FROM.. [798]
37. 基因组学与地球科学迅猛发展古生物学进入纵深发展新时代2017年古生物学.. [786]
38. 论云南武定旧城组地质时代 [782]
39. A new middle Devonian Osteolepidid from Qujing, Yunnan [768]
40. A primitive fossil fish sheds light on the origin of bony fishes [764]
41. A review of Silurian fishes from north-western Hunan, China and re.. [746]
42. The posterior cranial portion of the earliest known tetrapodomorph.. [744]
43. The Silurian-Devonian boundary in East Yunnan (South China) and th.. [742]
44. Redescription of the Sanqiaspidae (Galeaspida) from the Lower Devo.. [732]
45. Reappraisal of the Silurian placoderm Silurolepis and insights int.. [730]
46. 内蒙古奥陶纪脊椎动物化石的发现 [717]
47. X-ray microtomographic studies of exceptionally preserved three-di.. [714]
48. A streamlined jawless fish (Galeaspida) from the Lower Devonian of.. [711]
49. A new antarctaspid arthrodire (placoderm fish) from the Lower Devo.. [707]
50. New data on the headshield of Parayunnanolepis xitunensis (Placode.. [707]
51. Modeling scale morphogenesis in a Devonian chondrichthyan and scal.. [703]
52. A primitive fish provides key characters bearing on deep osteichth.. [702]
53. African lungfish genome sheds light on the vertebrate water-to-lan.. [702]
54. New findings of galeaspids (Agnatha) from the Lower Devonian of Qu.. [701]
55. Euryhaline ecology of early tetrapods revealed by stable isotopes [699]
56. Discovery of Ordovician vertebrate fossil from Inner Mongolia, Chi.. [698]
57. A new antiarch placoderm from the Emsian (Early Devonian) of Wudin.. [697]
58. 人类颌骨源何处——志留纪古鱼“王国”出新知 [695]
59. 从脊椎动物化石角度论云南曲靖下、中泥盆统界线 [695]
60. Scale morphology and squamation pattern of Guiyu oneiros provide n.. [690]
61. 云南曲晚志留世-早泥盆世瓣甲鱼类的系统研究 [689]
62. 熵、生物进化与Brooks?Wiley理论 [689]
63. Youngolepis from the XishancunFormation (EarlyLochkovian) of Qujin.. [687]
64. A primitive sarcopterygian fish with an eyestalk [683]
65. A new Silurian fish close to the common ancestor of modern gnathos.. [682]
66. NEW FOSSIL EVIDENCE FOR THE SILURIAN RADIATION OF PLACODERMS AND O.. [681]
67. 黔东北石阡地区志留纪地层新知: 来自坉坪剖面的证据 [681]
68. 中国志留纪兰多维列世特列奇早期下红层对比之古鱼类化石证据 [680]
69. Tracing the genetic footprints of vertebrate landing in non-teleos.. [675]
70. A redescription of Kiangyousteus yohii (Arthrodira: Eubrachythorac.. [673]
71. Redescription of Phymolepis cuifengshanensis (Antiarcha: Yunnanole.. [673]
72. The Evolution of the Zygomatic Bone From Agnatha to Tetrapoda [670]
73. 新兴的“进化—发育生物学” [667]
74. 关于盔甲鱼类若干问题的讨论 [666]
75. A primitive fish close to the common ancestor of tetrapods and lun.. [661]
76. A new genus of sinogaleaspids (Galeaspida, stem-Gnathostomata) fro.. [660]
77. A new genus of eugaleaspidiforms (Agnatha: Galeaspida) from the Lu.. [652]
78. The pelvic morphology of Parayunnanolepis (Placodermi, Antiarcha) .. [648]
79. A new dipnoan genus from the Middle Devonian of Huize, Yunnan, Chi.. [643]
80. A new articulated hybodontoid from Late Permian of northwestern Ch.. [642]
81. Super-resolution reconstruction of vertebrate microfossil computed.. [641]
82. 云南的早期脊椎生物化石研究 [637]
83. Semantic segmentation of vertebrate microfossils from computed tom.. [628]
84. Endocast and Bony Labyrinth of a Devonian "Placoderm'' Challenges .. [622]
85. Redescription of Yinostius major (Arthrodira: Heterostiidae) from .. [621]
86. The postparietal shield of the Pragian dipnomorph Arquatichthys an.. [616]
87. 湖北武汉地区志留系下红层的古鱼类化石及其生物古地理意义 [615]
88. The Oldest Actinopterygian Highlights the Cryptic Early History of.. [614]
89. Bone gain and loss: insights from genomes and fossils [611]
90. Ordovician-Silurian true polar wander as a mechanism for severe gl.. [607]
91. X-ray microtomographic studies of exceptionally preserved three-di.. [601]
92. Galeaspid anatomy and the origin of vertebrate paired appendages [601]
93. Stem sarcopterygians have primitive polybasal fin articulation [597]
94. Qushiaspis, a new genus of gantarostrataspid fish (galeaspida, ste.. [597]
95. The earliest phyllolepid (Placodermi, Arthrodira) from the Late Lo.. [595]
96. The circulatory system of Galeaspida (Vertebrata; stem-Gnathostoma.. [594]
97. Early Silurian chondrichthyans from the Tarim Basin (Xinjiang, Chi.. [586]
98. The rapid evolution of lungfish durophagy [584]
99. The microvertebrate remains and assemblage sequences across the Si.. [583]
100. Xitunaspis, a new eugaleaspid fish (Eugaleaspiformes, Galeaspida) .. [577]

下载量

1. 滇东北昭通附近早泥盆世脊椎动物化石新知 [872]
2. 贵州空棘鱼属的修订与系统发育分析 [790]
3. 广西下泥盆统南极鱼类(盾皮鱼纲:节甲鱼目)一新属 [337]
4. 大瓣鱼科一新属与历史动物地理学研究 [336]
5. 浙江长兴志留纪真盔甲鱼类新材料及真盔甲鱼目系统发育关系的讨论 [291]
6. 新疆柯坪-巴楚地区志留纪含鱼化石地层序列与加里东运动 [283]
7. 新疆柯坪志留纪兰多维列世无颌类化石 [280]
8. 湖北武汉地区志留系下红层的古鱼类化石及其生物古地理意义 [253]
9. 记真盔甲鱼类两新属——兼论真盔甲鱼类系统发育关系 [245]
10. 云南文山早泥盆世盔甲鱼类的新发现 [243]
11. 云南沾益早泥盆世肺鱼类一新种 [240]
12. 湖南晚泥盆世短胸节甲鱼类一新属 [240]
13. 云南曲靖地区桂家屯组与徐家冲组早期脊椎动物化石及相关生物地层问题 [235]
14. 浙江安吉志留纪真盔甲鱼类一新属 [227]
15. 盔甲鱼亚纲(无颌类)的系统发育关系 [226]
16. A new tooth-plated lungfish from the Middle Devonian of Yunnan, Ch.. [224]
17. 云南早泥盆世西山村组华南鱼类的首次发现 [223]
18. 滇东北昭通早泥盆世盔甲鱼类一新属种 [223]
19. X-ray microtomographic studies of exceptionally preserved three-di.. [221]
20. 云南昭通早泥盆世肉鳍鱼类一新属 [204]
21. 新疆巴楚早志留世软骨鱼类微体化石 [203]
22. Geochemical Stratigraphy and Microvertebrate Assemblage Sequences .. [194]
23. Lower Cambrian vertebrates from South China [189]
24. 广西下泥盆统大瑶山群盔甲鱼类的新发现 [180]
25. 云南曲靖刘家冲剖面关底组中的鱼类微体化石及其地层学意义 [171]
26. 颌的起源发育生物学假说与化石实证的交叉 [168]
27. 人类颌骨源何处——志留纪古鱼“王国”出新知 [165]
28. 云南文山大窗鱼(Macrothyraspis)属一新种 [157]
29. Reappraisal of the Silurian placoderm Silurolepis and insights int.. [157]
30. The Evolution of the Zygomatic Bone From Agnatha to Tetrapoda [154]
31. The earliest phyllolepid (Placodermi, Arthrodira) from the Late Lo.. [152]
32. A new antiarch placoderm from the Emsian (Early Devonian) of Wudin.. [152]
33. 志留纪肉鳍鱼类梦幻鬼鱼(Guiyu oneiros)的脑颅形态 [149]
34. The earliest phyllolepida (Placodermi, Arthrodira) from the late L.. [147]
35. A primitive fossil fish sheds light on the origin of bony fishes [144]
36. 最古老辐鳍鱼解谜最繁盛水生脊椎动物类群的早期历史 [142]
37. 中国生物多样性大数据平台建设 [142]
38. X-ray microtomographic studies of exceptionally preserved three-di.. [140]
39. A Silurian placoderm with osteichthyan-like marginal jaw bones [140]
40. 我们的祖先从水里来——硬骨鱼类起源与早期演化 [140]
41. 论云南武定旧城组地质时代 [140]
42. 中国志留纪兰多维列世特列奇早期下红层对比之古鱼类化石证据 [139]
43. A primitive sarcopterygian fish with an eyestalk [137]
44. The Silurian-Devonian boundary in East Yunnan (South China) and th.. [136]
45. 云南的早期脊椎生物化石研究 [133]
46. The pelvic morphology of Parayunnanolepis (Placodermi, Antiarcha) .. [131]
47. Palaeontology - First Devonian tetrapod from Asia [130]
48. Euryhaline ecology of early tetrapods revealed by stable isotopes [129]
49. New data on the headshield of Parayunnanolepis xitunensis (Placode.. [128]
50. A redescription of Kiangyousteus yohii (Arthrodira: Eubrachythorac.. [123]
51. 基因组学与地球科学迅猛发展古生物学进入纵深发展新时代2017年古生物学.. [120]
52. 熵、生物进化与Brooks?Wiley理论 [118]
53. 黔东北石阡地区志留纪地层新知: 来自坉坪剖面的证据 [118]
54. Xitunaspis, a new eugaleaspid fish (Eugaleaspiformes, Galeaspida) .. [117]
55. A primitive fish provides key characters bearing on deep osteichth.. [116]
56. REDESCRIPTION OF SZELEPIS LIU, 1981 (PLACODERMI, ARTHRODIRA), FROM.. [116]
57. A new Silurian fish close to the common ancestor of modern gnathos.. [114]
58. A new antarctaspid arthrodire (placoderm fish) from the Lower Devo.. [113]
59. First Devonian tetrapod from Asia [112]
60. Stem sarcopterygians have primitive polybasal fin articulation [112]
61. A streamlined jawless fish (Galeaspida) from the Lower Devonian of.. [110]
62. A review of Silurian fishes from north-western Hunan, China and re.. [109]
63. Scale morphology and squamation pattern of Guiyu oneiros provide n.. [109]
64. Modeling scale morphogenesis in a Devonian chondrichthyan and scal.. [109]
65. 新兴的“进化—发育生物学” [107]
66. Discovery of Ordovician vertebrate fossil from Inner Mongolia, Chi.. [107]
67. African lungfish genome sheds light on the vertebrate water-to-lan.. [107]
68. A new articulated hybodontoid from Late Permian of northwestern Ch.. [106]
69. The origin of the internal nostril of tetrapods [104]
70. X-ray microtomographic studies of exceptionally preserved three-di.. [104]
71. The microvertebrate remains and assemblage sequences across the Si.. [104]
72. Redescription of the Sanqiaspidae (Galeaspida) from the Lower Devo.. [104]
73. The Oldest Actinopterygian Highlights the Cryptic Early History of.. [102]
74. Redescription of Yinostius major (Arthrodira: Heterostiidae) from .. [102]
75. 从脊椎动物化石角度论云南曲靖下、中泥盆统界线 [102]
76. Tracing the genetic footprints of vertebrate landing in non-teleos.. [101]
77. First Middle Devonian galeaspid from the Haikou Formation in Yunna.. [100]
78. 内蒙古奥陶纪脊椎动物化石的发现 [97]
79. A primitive fish close to the common ancestor of tetrapods and lun.. [96]
80. Squamation and scale morphology at the root of jawed vertebrates [96]
81. Ordovician-Silurian true polar wander as a mechanism for severe gl.. [95]
82. The circulatory system of Galeaspida (Vertebrata; stem-Gnathostoma.. [92]
83. The postparietal shield of the Pragian dipnomorph Arquatichthys an.. [89]
84. Youngolepis from the XishancunFormation (EarlyLochkovian) of Qujin.. [88]
85. NEW FOSSIL EVIDENCE FOR THE SILURIAN RADIATION OF PLACODERMS AND O.. [87]
86. A new middle Devonian Osteolepidid from Qujing, Yunnan [86]
87. 关于盔甲鱼类若干问题的讨论 [84]
88. The posterior cranial portion of the earliest known tetrapodomorph.. [81]
89. Galeaspid anatomy and the origin of vertebrate paired appendages [81]
90. Super-resolution reconstruction of vertebrate microfossil computed.. [81]
91. New findings of galeaspids (Agnatha) from the Lower Devonian of Qu.. [80]
92. Endocast and Bony Labyrinth of a Devonian "Placoderm'' Challenges .. [79]
93. A new dipnoan genus from the Middle Devonian of Huize, Yunnan, Chi.. [79]
94. A new genus of sinogaleaspids (Galeaspida, stem-Gnathostomata) fro.. [77]
95. Early Silurian chondrichthyans from the Tarim Basin (Xinjiang, Chi.. [76]
96. Semantic segmentation of vertebrate microfossils from computed tom.. [76]
97. A New Bothriolepid Antiarch from the Middle Devonian in Luquan, Yu.. [75]
98. The phylogeny of the Antiarcha (Placodermi, Pisces), with the desc.. [74]
99. The rapid evolution of lungfish durophagy [72]
100. Bone gain and loss: insights from genomes and fossils [66]