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    Abroad: 100

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Visits

Visits

1. New fossil endocarps of Sambucus (Adoxaceae) from the upper Plioce.. [1537]
2. Geometric morphometrics: A powerful tool for the study of shape ev.. [1231]
3. First discovery of Cucubalus (Caryophyllaceae) fossil, and its bio.. [962]
4. Fossil fruits of Ailanthus confucii from the Upper Miocene of Wens.. [877]
5. Using species distribution modeling to improve conservation and la.. [804]
6. A new Drynaria (Polypodiaceae) from the Upper Pliocene of Southwes.. [767]
7. A new Quercus species from the upper Miocene of southwestern China.. [738]
8. Quantitative reconstruction of the Late Miocene monsoon climates o.. [735]
9. Nutlet micro-morphology of the genus Microula (Boraginaceae) from .. [690]
10. 海拔对高山栎光合气体交换和叶性状的影响 [609]
11. New Biogeographic insight into Bauhinia s.l. (Leguminosae): integr.. [571]
12. Paleoclimatic estimation reveals a weak winter monsoon in southwes.. [505]
13. Leaf physiognomy and climate: Are monsoon systems different? [498]
14. Evolution of stomatal and trichome density of the Quercus delavayi.. [490]
15. Integrating fossils in a molecular-based phylogeny and testing the.. [481]
16. Rates of Water Loss and Uptake in Recalcitrant Fruits of Quercus S.. [413]
17. Phylogeographic analysis reveals significant spatial genetic struc.. [385]
18. Major declines of woody plant species ranges under climate change .. [360]
19. Regional constraints on leaf physiognomy and precipitation regress.. [349]
20. Continuous existence of Zanthoxylum (Rutaceae) in Southwest China .. [347]
21. Late Miocene southwestern Chinese floristic diversity shaped by th.. [341]
22. The first fossil Microsoroid fern (Palaeosorum ellipticum gen. et .. [281]
23. The occurrence of Pinus massoniana Lambert (Pinaceae) from the upp.. [244]
24. FIRST FOSSIL FRUITS AND LEAVES OF BURRETIODENDRON SL (MALVACEAE SL.. [243]
25. A global-scale test for monsoon indices used in palaeoclimatic rec.. [240]
26. Warm-cold colonization: response of oaks to uplift of the Himalaya.. [226]
27. SEQUOIA MAGUANENSIS, A NEW MIOCENE RELATIVE OF THE COAST REDWOOD, .. [224]
28. The intensification of the East Asian winter monsoon contributed t.. [215]
29. A new Tsuga species from the upper Miocene of Yunnan, southwestern.. [214]
30. Late Miocene vegetation dynamics under monsoonal climate in southw.. [210]
31. First occurrence of Cedrelospermum (Ulmaceae) in Asia and its biog.. [204]
32. Resilience of plant-insect interactions in an oak lineage through .. [203]
33. 若干重要地质事件对中国植物区系形成演变的影响 [199]
34. A new positive relationship between pCO(2) and stomatal frequency .. [196]
35. A new Celastrus species from the middle Miocene of Yunnan, China a.. [189]
36. Large-scale dataset from China gives new insights into leaf margin.. [186]
37. Artificial neural networks reveal a high-resolution climatic signa.. [171]
38. The oldest Mahonia (Berberidaceae) fossil from East Asia and its b.. [169]
39. 槭属翅果种内形态变异性及对其化石鉴定的意义 [168]
40. The earliest fossil bamboos of China (middle Miocene, Yunnan) and .. [166]
41. New U-Pb dates show a Paleogene origin for the modern Asian biodiv.. [165]
42. 陆地生态系统与地球环境的协同演化 [157]
43. A tropical forest of the middle Miocene of Fujian (SE China) revea.. [155]
44. Tree rings reveal recent intensified spring drought in the central.. [149]
45. 中新世以来黄毛青冈复合群(Quercus delavayi complex)气孔及叶表皮毛密.. [147]
46. NEW MIDDLE MIOCENE FOSSIL WOOD OF WATARIA (MALVACEAE) FROM SOUTHWE.. [146]
47. Fossil endocarps of Aralia (Araliaceae) from the upper Pliocene of.. [145]
48. Fossil leaves of Populus from the Middle Miocene of Yunnan, SW Chi.. [145]
49. Late Miocene Palaeocarya (Engelhardieae: Juglandaceae) from Southw.. [144]
50. 日本中部地区上新世到更新世过渡时期的气候演变:来自水杉叶片化石稳定.. [144]
51. Variations in Leaf Morphological Traits of Quercus guyavifolia (Fa.. [144]
52. Fossil seeds of Euryale (Nymphaeaceae) indicate a lake or swamp en.. [141]
53. Fire dynamics under monsoonal climate in Yunnan, SW China: past, p.. [141]
54. Leaf form-climate relationships on the global stage: an ensemble o.. [140]
55. Distribution of Cenozoic plant relicts in China explained by droug.. [140]
56. The first fossil record of ring-cupped oak (Quercus L. subgenus Cy.. [140]
57. Miocene Exbucklandia (Hamamelidaceae) from Yunnan, China and its b.. [138]
58. Fire dynamics under monsoonal climate in Yunnan, SW China: past, p.. [137]
59. 中国兰科毛兰属一新记录种孟连毛兰 [136]
60. Evolutionary History of Atmospheric CO2 during the Late Cenozoic f.. [133]
61. The first megafossil record of Goniophlebium (Polypodiaceae) from .. [133]
62. A new fossil species of Cryptomeria (Cupressaceae) from the Rupeli.. [131]
63. The effects of litter quantity and quality on soil nutrients and l.. [129]
64. Warming induced growth decline of Himalayan birch at its lower ran.. [125]
65. Lignified woods of Pinus (Pinaceae) from the late Miocene of centr.. [123]
66. Lake geochemistry reveals marked environmental change in Southwest.. [122]
67. Eocene Podocarpium (Leguminosae) from South China and its biogeogr.. [121]
68. Habitat, climate and potential plant food resources for the late M.. [118]
69. Rubus (Rosaceae) diversity in the late Pliocene of Yunnan, southwe.. [117]
70. New fossil record of Cladium (Cyperaceae) from the Middle Miocene .. [115]
71. Late Pliocene temperatures and their spatial variation at the sout.. [114]
72. Peaches Preceded Humans: Fossil Evidence from SW China [105]
73. Gradual expansion of moisture sensitive Abies spectabilis forest i.. [105]
74. Late Pliocene diversity and distribution of Drynaria (Polypodiacea.. [104]
75. First fossil of Pterolobium (Leguminosae) from the Middle Miocene .. [103]
76. First fossil of Pterolobium (Leguminosae) from the Middle Miocene .. [101]
77. Effects of herbivores and litter on Lithocarpus hancei seed germin.. [99]
78. Pre-dispersal strategies by Quercus schottkyana to mitigate the ef.. [96]
79. 鹤庆栎(Quercus heqingensis n. sp.)的发现及其在古大气CO_2浓度重建中.. [95]
80. A Miocene leaf fossil record of Rosa (R. fortuita n. sp.) from its.. [92]
81. A New Species of Tsuga (Pinaceae) based on Lignified Wood from the.. [90]
82. Calocedrus shengxianensis, a late Miocene relative of C. macrolepi.. [88]
83. The first fossil Microsoroid fern (Palaeosorum ellipticum gen. et .. [86]
84. Hemitrapa Miki (Lythraceae) from the earliest Oligocene of southea.. [85]
85. Desiccation and post-dispersal infestation of acorns of Quercus sc.. [83]
86. A primitive honey bee from the Middle Miocene deposits of southeas.. [83]
87. A Miocene leaf fossil record of Rosa (R-fortuita n. sp.) from its .. [82]
88. 申请国家自然科学基金项目的一点体会 [73]
89. Fossil leaves of Buxus (Buxaceae) from the Upper Pliocene of Yunna.. [73]
90. Growth response of Abies georgei to climate increases with elevati.. [67]
91. First fossils of Zygogynum from the Middle Miocene of Central Yunn.. [63]
92. Hemitrapa Miki (Lythraceae) from the earliest Oligocene of southea.. [57]
93. East Asian origins of European holly oaks (Quercus section Ilex Lo.. [55]
94. Tree-ring delta O-18 inferred spring drought variability over the .. [48]
95. The disappearance of Metasequoia (Cupressaceae) after the middle M.. [48]
96. A tribute to my supervisor Professor Zhengyi Wu [47]
97. Middle Miocene Cephalotaxus (Taxaceae) from Yunnan, Southwest Chin.. [39]
98. Biotic interchange through lowlands of Tibetan Plateau suture zone.. [38]
99. Oligocene Limnobiophyllum (Araceae) from the central Tibetan Plate.. [35]
100. No high Tibetan Plateau until the Neogene [32]

Downloads

1. Leaf physiognomy and climate: Are monsoon systems different? [160]
2. Integrating fossils in a molecular-based phylogeny and testing the.. [156]
3. Paleoclimatic estimation reveals a weak winter monsoon in southwes.. [155]
4. Geometric morphometrics: A powerful tool for the study of shape ev.. [147]
5. Using species distribution modeling to improve conservation and la.. [136]
6. Nutlet micro-morphology of the genus Microula (Boraginaceae) from .. [131]
7. Continuous existence of Zanthoxylum (Rutaceae) in Southwest China .. [127]
8. New fossil endocarps of Sambucus (Adoxaceae) from the upper Plioce.. [114]
9. Quantitative reconstruction of the Late Miocene monsoon climates o.. [108]
10. 海拔对高山栎光合气体交换和叶性状的影响 [107]
11. 若干重要地质事件对中国植物区系形成演变的影响 [107]
12. Warm-cold colonization: response of oaks to uplift of the Himalaya.. [101]
13. A new Quercus species from the upper Miocene of southwestern China.. [93]
14. A new Drynaria (Polypodiaceae) from the Upper Pliocene of Southwes.. [85]
15. FIRST FOSSIL FRUITS AND LEAVES OF BURRETIODENDRON SL (MALVACEAE SL.. [80]
16. Rates of Water Loss and Uptake in Recalcitrant Fruits of Quercus S.. [79]
17. First discovery of Cucubalus (Caryophyllaceae) fossil, and its bio.. [78]
18. A global-scale test for monsoon indices used in palaeoclimatic rec.. [77]
19. First occurrence of Cedrelospermum (Ulmaceae) in Asia and its biog.. [76]
20. The intensification of the East Asian winter monsoon contributed t.. [75]
21. A new Tsuga species from the upper Miocene of Yunnan, southwestern.. [69]
22. 陆地生态系统与地球环境的协同演化 [69]
23. Late Miocene vegetation dynamics under monsoonal climate in southw.. [68]
24. Fossil fruits of Ailanthus confucii from the Upper Miocene of Wens.. [65]
25. Late Miocene southwestern Chinese floristic diversity shaped by th.. [65]
26. New U-Pb dates show a Paleogene origin for the modern Asian biodiv.. [65]
27. The first fossil Microsoroid fern (Palaeosorum ellipticum gen. et .. [64]
28. Leaf form-climate relationships on the global stage: an ensemble o.. [62]
29. The effects of litter quantity and quality on soil nutrients and l.. [60]
30. Resilience of plant-insect interactions in an oak lineage through .. [58]
31. NEW MIDDLE MIOCENE FOSSIL WOOD OF WATARIA (MALVACEAE) FROM SOUTHWE.. [57]
32. A new Celastrus species from the middle Miocene of Yunnan, China a.. [57]
33. Phylogeographic analysis reveals significant spatial genetic struc.. [56]
34. Evolution of stomatal and trichome density of the Quercus delavayi.. [56]
35. Fossil seeds of Euryale (Nymphaeaceae) indicate a lake or swamp en.. [56]
36. Artificial neural networks reveal a high-resolution climatic signa.. [56]
37. Major declines of woody plant species ranges under climate change .. [55]
38. Fossil endocarps of Aralia (Araliaceae) from the upper Pliocene of.. [53]
39. 日本中部地区上新世到更新世过渡时期的气候演变:来自水杉叶片化石稳定.. [53]
40. Fossil leaves of Populus from the Middle Miocene of Yunnan, SW Chi.. [52]
41. The occurrence of Pinus massoniana Lambert (Pinaceae) from the upp.. [50]
42. Regional constraints on leaf physiognomy and precipitation regress.. [49]
43. A tropical forest of the middle Miocene of Fujian (SE China) revea.. [49]
44. Late Miocene Palaeocarya (Engelhardieae: Juglandaceae) from Southw.. [43]
45. Large-scale dataset from China gives new insights into leaf margin.. [42]
46. 槭属翅果种内形态变异性及对其化石鉴定的意义 [40]
47. The first fossil record of ring-cupped oak (Quercus L. subgenus Cy.. [40]
48. A new positive relationship between pCO(2) and stomatal frequency .. [39]
49. SEQUOIA MAGUANENSIS, A NEW MIOCENE RELATIVE OF THE COAST REDWOOD, .. [38]
50. Variations in Leaf Morphological Traits of Quercus guyavifolia (Fa.. [38]
51. Fire dynamics under monsoonal climate in Yunnan, SW China: past, p.. [38]
52. Miocene Exbucklandia (Hamamelidaceae) from Yunnan, China and its b.. [38]
53. Fire dynamics under monsoonal climate in Yunnan, SW China: past, p.. [36]
54. Distribution of Cenozoic plant relicts in China explained by droug.. [35]
55. Warming induced growth decline of Himalayan birch at its lower ran.. [33]
56. The first megafossil record of Goniophlebium (Polypodiaceae) from .. [33]
57. 中新世以来黄毛青冈复合群(Quercus delavayi complex)气孔及叶表皮毛密.. [32]
58. The oldest Mahonia (Berberidaceae) fossil from East Asia and its b.. [32]
59. Effects of herbivores and litter on Lithocarpus hancei seed germin.. [32]
60. A new fossil species of Cryptomeria (Cupressaceae) from the Rupeli.. [32]
61. Late Pliocene temperatures and their spatial variation at the sout.. [31]
62. Lignified woods of Pinus (Pinaceae) from the late Miocene of centr.. [29]
63. Rubus (Rosaceae) diversity in the late Pliocene of Yunnan, southwe.. [27]
64. Tree rings reveal recent intensified spring drought in the central.. [27]
65. Late Pliocene diversity and distribution of Drynaria (Polypodiacea.. [26]
66. The earliest fossil bamboos of China (middle Miocene, Yunnan) and .. [24]
67. Peaches Preceded Humans: Fossil Evidence from SW China [23]
68. Habitat, climate and potential plant food resources for the late M.. [22]
69. New Biogeographic insight into Bauhinia s.l. (Leguminosae): integr.. [21]
70. A Miocene leaf fossil record of Rosa (R. fortuita n. sp.) from its.. [19]
71. Calocedrus shengxianensis, a late Miocene relative of C. macrolepi.. [19]
72. 申请国家自然科学基金项目的一点体会 [19]
73. First fossil of Pterolobium (Leguminosae) from the Middle Miocene .. [18]
74. Tibetan Plateau: An evolutionary junction for the history of moder.. [18]
75. New fossil record of Cladium (Cyperaceae) from the Middle Miocene .. [17]
76. Desiccation and post-dispersal infestation of acorns of Quercus sc.. [16]
77. A Miocene leaf fossil record of Rosa (R-fortuita n. sp.) from its .. [16]
78. 中国兰科毛兰属一新记录种孟连毛兰 [16]
79. Hemitrapa Miki (Lythraceae) from the earliest Oligocene of southea.. [16]
80. Hemitrapa Miki (Lythraceae) from the earliest Oligocene of southea.. [16]
81. First fossil of Pterolobium (Leguminosae) from the Middle Miocene .. [15]
82. 鹤庆栎(Quercus heqingensis n. sp.)的发现及其在古大气CO_2浓度重建中.. [15]
83. Pre-dispersal strategies by Quercus schottkyana to mitigate the ef.. [14]
84. Growth response of Abies georgei to climate increases with elevati.. [14]
85. East Asian origins of European holly oaks (Quercus section Ilex Lo.. [14]
86. A tribute to my supervisor Professor Zhengyi Wu [13]
87. Eocene Podocarpium (Leguminosae) from South China and its biogeogr.. [12]
88. A New Species of Tsuga (Pinaceae) based on Lignified Wood from the.. [12]
89. A primitive honey bee from the Middle Miocene deposits of southeas.. [12]
90. Evolutionary History of Atmospheric CO2 during the Late Cenozoic f.. [11]
91. Lake geochemistry reveals marked environmental change in Southwest.. [11]
92. First fossils of Zygogynum from the Middle Miocene of Central Yunn.. [11]
93. The first fossil Microsoroid fern (Palaeosorum ellipticum gen. et .. [10]
94. Tree-ring delta O-18 inferred spring drought variability over the .. [10]
95. Biotic interchange through lowlands of Tibetan Plateau suture zone.. [10]
96. Gradual expansion of moisture sensitive Abies spectabilis forest i.. [8]
97. Fossil leaves of Buxus (Buxaceae) from the Upper Pliocene of Yunna.. [8]
98. Biotic interchange through lowlands of Tibetan Plateau suture zone.. [8]
99. Organellomic data sets confirm a cryptic consensus on (unrooted) l.. [6]
100. Oligocene Limnobiophyllum (Araceae) from the central Tibetan Plate.. [5]