Chinese | English

Scholar Page

Keywords Cloud

Research Outputs

Co-authors[TOP 5]

Usage Statistics


  Total Views
 370
  Access Source
    internal: 1
    External: 369
    Domestic: 321
    Abroad: 49

  Annual Views
 193
  Access Source
    internal: 0
    External: 193
    Domestic: 193
    Abroad: 0

  Monthly Views
 26
  Access Source
    internal: 0
    External: 26
    Domestic: 26
    Abroad: 0

Visits

Visits

1. New fossil endocarps of Sambucus (Adoxaceae) from the upper Plioce.. [1802]
2. First discovery of Cucubalus (Caryophyllaceae) fossil, and its bio.. [1172]
3. Paleoclimatic estimation reveals a weak winter monsoon in southwes.. [899]
4. A new Quercus species from the upper Miocene of southwestern China.. [892]
5. Evolution of stomatal and trichome density of the Quercus delavayi.. [683]
6. Regional constraints on leaf physiognomy and precipitation regress.. [512]
7. First occurrence of Cedrelospermum (Ulmaceae) in Asia and its biog.. [477]
8. A new positive relationship between pCO(2) and stomatal frequency .. [390]
9. An early Oligocene occurrence of the palaeoendemic genus Dipteroni.. [371]
10. 中新世以来黄毛青冈复合群(Quercus delavayi complex)气孔及叶表皮毛密.. [338]
11. Uplift-driven diversification in the Hengduan Mountains, a tempera.. [333]
12. A new Tsuga species from the upper Miocene of Yunnan, southwestern.. [330]
13. The earliest fossil bamboos of China (middle Miocene, Yunnan) and .. [319]
14. TESTING THE BIASES IN THE RICH CENOZOIC ANGIOSPERM MACROFOSSIL REC.. [286]
15. Miocene Ulmus fossil fruits from Southwest China and their evoluti.. [281]
16. Heterogeneous occurrence of evergreen broad-leaved forests in East.. [277]
17. Oligocene Limnobiophyllum (Araceae) from the central Tibetan Plate.. [255]
18. The disappearance of Metasequoia (Cupressaceae) after the middle M.. [221]
19. The morphology of phytoliths for tropical pteridophytes in southwe.. [202]
20. A Middle Eocene lowland humid subtropical "Shangri-La" ecosystem i.. [201]
21. The stepwise rise of angiosperm-dominated terrestrial ecosystems [200]
22. A Near Telomere-To-Telomere Genome Assembly of Coffea arabica (Mun.. [189]
23. Intraspecific Genome Size Variation in Rorippa indica Reveals a Tr.. [189]
24. Mercury isotopes show vascular plants had colonized land extensive.. [185]
25. Notes on the type specimen of Acanthocalyx delavayi (Caprifoliacea.. [181]
26. The complete chloroplast genome of Androsace erecta (Primulaceae) .. [166]
27. 中国西藏种子植物区系新资料 [160]
28. Synergistic polyploidization and long-distance dispersal enable th.. [148]
29. The early Oligocene establishment of modern topography and plant d.. [137]
30. Ecological factors correlate with genome size variation of Acantho.. [131]
31. 多倍体成功进化的适应性基础 [125]
32. 小檗科鬼臼亚科多样性格局的演化历史和成因 [118]
33. 泛青藏高原高寒植物多样性的形成与演化 [114]
34. Ancient orogenic and monsoon-driven assembly of the world's riches.. [107]
35. A new Rorippa species (Brassicaceae), R. hengduanshanensis, from t.. [107]
36. Effects of environment and genotype-by-environment interaction on .. [88]
37. A new Ephedra macrofossil from the Early Cretaceous Yixian Formati.. [79]
38. Introduction to the special issue Tibetan tectonics and its effect.. [73]
39. Adaptive responses drive the success of polyploid yellowcresses (R.. [60]
40. Taxonomic synopsis of Berberis (Berberidaceae) from the northern H.. [57]
41. Ceropegia jilongensis, a new species of Apocynaceae from Xizang, C.. [52]
42. 横断山高寒植物多样性的起源与演化 [47]
43. 栎属青冈组植物气孔频度与大气CO2浓度关系及在重建古大气CO.. [47]
44. 欧亚大陆渐新世古气候时空演变及其驱动因子——基于植物大化石和气候模.. [41]
45. Koenigia medogensis (Polygonaceae: Persicarieae), a Distinct New S.. [30]
46. Palaeopolyploidy promoted ancient adaptation of Tibetan sclerophyl.. [5]
47. The asynchronous rise of Northern Hemisphere alpine floras reveals.. [4]
48. A framework for identifying the polyploid complex in Rorippa (Bras.. [1]
49. Testing macroevolutionary predictions of the Grant-Stebbins model .. [1]

Downloads

1. Paleoclimatic estimation reveals a weak winter monsoon in southwes.. [298]
2. New fossil endocarps of Sambucus (Adoxaceae) from the upper Plioce.. [238]
3. First occurrence of Cedrelospermum (Ulmaceae) in Asia and its biog.. [230]
4. Heterogeneous occurrence of evergreen broad-leaved forests in East.. [172]
5. First discovery of Cucubalus (Caryophyllaceae) fossil, and its bio.. [168]
6. A new Quercus species from the upper Miocene of southwestern China.. [167]
7. A Near Telomere-To-Telomere Genome Assembly of Coffea arabica (Mun.. [167]
8. Evolution of stomatal and trichome density of the Quercus delavayi.. [162]
9. An early Oligocene occurrence of the palaeoendemic genus Dipteroni.. [143]
10. Intraspecific Genome Size Variation in Rorippa indica Reveals a Tr.. [140]
11. Mercury isotopes show vascular plants had colonized land extensive.. [130]
12. A new positive relationship between pCO(2) and stomatal frequency .. [126]
13. Regional constraints on leaf physiognomy and precipitation regress.. [120]
14. 中国西藏种子植物区系新资料 [115]
15. Oligocene Limnobiophyllum (Araceae) from the central Tibetan Plate.. [107]
16. A Middle Eocene lowland humid subtropical "Shangri-La" ecosystem i.. [95]
17. The complete chloroplast genome of Androsace erecta (Primulaceae) .. [94]
18. Ecological factors correlate with genome size variation of Acantho.. [93]
19. A new Tsuga species from the upper Miocene of Yunnan, southwestern.. [91]
20. Synergistic polyploidization and long-distance dispersal enable th.. [91]
21. The morphology of phytoliths for tropical pteridophytes in southwe.. [91]
22. 中新世以来黄毛青冈复合群(Quercus delavayi complex)气孔及叶表皮毛密.. [90]
23. Miocene Ulmus fossil fruits from Southwest China and their evoluti.. [86]
24. The stepwise rise of angiosperm-dominated terrestrial ecosystems [86]
25. Uplift-driven diversification in the Hengduan Mountains, a tempera.. [85]
26. TESTING THE BIASES IN THE RICH CENOZOIC ANGIOSPERM MACROFOSSIL REC.. [84]
27. Notes on the type specimen of Acanthocalyx delavayi (Caprifoliacea.. [78]
28. The early Oligocene establishment of modern topography and plant d.. [78]
29. 小檗科鬼臼亚科多样性格局的演化历史和成因 [61]
30. 泛青藏高原高寒植物多样性的形成与演化 [59]
31. The earliest fossil bamboos of China (middle Miocene, Yunnan) and .. [48]
32. The disappearance of Metasequoia (Cupressaceae) after the middle M.. [34]
33. Introduction to the special issue Tibetan tectonics and its effect.. [25]
34. Effects of environment and genotype-by-environment interaction on .. [25]
35. A new Ephedra macrofossil from the Early Cretaceous Yixian Formati.. [22]
36. A new Rorippa species (Brassicaceae), R. hengduanshanensis, from t.. [21]
37. Adaptive responses drive the success of polyploid yellowcresses (R.. [17]
38. Taxonomic synopsis of Berberis (Berberidaceae) from the northern H.. [8]
39. Ancient orogenic and monsoon-driven assembly of the world's riches.. [7]
40. Ceropegia jilongensis, a new species of Apocynaceae from Xizang, C.. [7]
41. Koenigia medogensis (Polygonaceae: Persicarieae), a Distinct New S.. [6]
42. Palaeopolyploidy promoted ancient adaptation of Tibetan sclerophyl.. [5]
43. The asynchronous rise of Northern Hemisphere alpine floras reveals.. [3]
44. Testing macroevolutionary predictions of the Grant-Stebbins model .. [1]