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1. Phylogeny and biogeography of Sassafras (Lauraceae) disjunct betwe.. [2543]
2. Inhibitory Activities of Pancreatic Lipase and Phosphodiesterase f.. [1065]
3. Morphological characteristics of leaf epidermis and size variation.. [809]
4. Chloroplast phylogeography of Terminalia franchetii (Combretaceae).. [801]
5. Molecular phylogeny and biogeography of three closely related gene.. [801]
6. Morphological and molecular evidence of natural hybridization betw.. [795]
7. Phylogeography of Sophora davidii (Leguminosae) across the "Tanaka.. [682]
8. Creative use of mountain biodiversity databases: The Kazbegi resea.. [680]
9. Post-Boreotropical dispersals explain the pantropical disjunction .. [585]
10. Phylogenetic and biogeographic complexity of Magnoliaceae in the N.. [569]
11. A phylogeny of Thermopsideae (Leguminosae : Papilionoideae) inferr.. [558]
12. Positive associations between the cushion plant Arenaria polytrich.. [543]
13. Elevational patterns of species richness and endemism for some imp.. [524]
14. Rubus pseudofagifolius (subg. Lampobatus, Rosaceae), a replacement.. [498]
15. Systematics of the genus Salweenia (Leguminosae) from Southwest Ch.. [484]
16. Dispersals of Hyoscyameae and Mandragoreae (Solanaceae) from the N.. [461]
17. Cytological studies on the Sino-Himalayan endemic Anisodus and fou.. [459]
18. Polyploidy in the flora of the Hengduan Mountains hotspot, southwe.. [448]
19. Multifunctional bracts enhance plant fitness during flowering and .. [446]
20. Asymmetric hybridization in Rhododendron agastum: a hybrid taxon c.. [433]
21. Comparative morphology of leaf epidermis of Salix (Salicaceae) wit.. [430]
22. Chloroplast phylogeny and phylogeography of Stellera chamaejasme o.. [428]
23. Two new species of Wikstroemia (Thymelaeaceae) from western Sichua.. [423]
24. MS-desi, a desiccation-related protein in the floral nectar of the.. [416]
25. Evolutionary history and underlying adaptation of alpine plants on.. [414]
26. Molecular phylogeny and biogeography of Astilbe (Saxifragaceae) in.. [406]
27. Phylogenetic and biogeographic analyses of the Sino-Himalayan ende.. [394]
28. Floral closure induced by pollination in gynodioecious Cyananthus .. [385]
29. Polyploidy and new chromosome counts in Anaphalis (Asteraceae: Gna.. [382]
30. Cytological study on the genus Syncalathium (Asteraceae-Lactuceae).. [379]
31. Evolutionary history and biogeography of Mandragora L. (Solanaceae.. [379]
32. Molecular phylogeny of Anaphalis (Asteraceae, Gnaphalieae) with bi.. [371]
33. Phylogenetic analysis of Toxicodendron (Anacardiaceae) and its bio.. [370]
34. Youngia zhengyiana (Asteraceae, Crepidinae), a new species from so.. [363]
35. Cytological study of Tibetia (Fabaceae) in the Hengduan Mountains .. [362]
36. MOLECULAR PHYLOGENY AND BIOGEOGRAPHIC DIVERSIFICATION OF PARTHENOC.. [359]
37. 世界种子植物科的分布区类型系统 [348]
38. Phylogeographic structure of Terminalia franchetii (Combretaceae) .. [338]
39. PHYLOGEOGRAPHY OF BUDDLEJA CRISPA (BUDDLEJACEAE) AND ITS CORRELATI.. [331]
40. Ethnomedicinal uses of Edible Wild Fruits (EWFs) in Swat Valley, N.. [330]
41. Global and regional tree species diversity [326]
42. Leaf epidermal characteristics of Asiatic Buddleja L. under scanni.. [319]
43. 水平基因转移在生物进化中的作用 [319]
44. Oxalis wulingensis (Oxalidaceae), an Unusual New Species from Cent.. [317]
45. A synopsis of an expanded Solms-laubachia (Brassicaceae), and the .. [315]
46. Rubus tetsunii, a replacement name for the Chinese R. lobatus T. T.. [312]
47. Phylogeny and biogeographic diversification of Maianthemum (Ruscac.. [307]
48. Phylogenetic analyses of Searsia (Anacardiaceae) from eastern Asia.. [307]
49. Support for an expanded Solms-Laubachia (Brassicaceae): Evidence f.. [303]
50. Acidic alpha-galactosidase is the most abundant nectarin in floral.. [298]
51. Parasyncalathium JW Zhang, Boufford & H. Sun (Asteraceae, Cichorie.. [287]
52. Habitat-specific responses of seed germination and seedling establ.. [286]
53. Buddleja davidii and Buddleja yunnanensis: Exploring features asso.. [285]
54. Monophyly of Kelloggia Torrey ex Benth. (Rubiaceae) and evolution .. [283]
55. The 29 degrees N latitudinal line: an important division in the He.. [283]
56. Intercontinental biogeography of subfamily Orontioideae (Symplocar.. [274]
57. Zhengyia shennongensis: A new bulbiliferous genus and species of t.. [271]
58. Patterns of flower morphology and sexual systems in the subnival b.. [268]
59. Out-of-India dispersal of Paliurus (Rhamnaceae) indicated by combi.. [260]
60. The reproductive biology of Stellera chamaejasme (Thymelaeaceae): .. [259]
61. Phylogeny of Nolana (Solanaceae) of the Atacama and Peruvian deser.. [258]
62. Phylogeography of Cyananthus delavayi (Campanulaceae) in Hengduan .. [253]
63. Cytological studies on the Sino-Himalayan endemic Solms-laubachia .. [249]
64. 青藏高原生态变化 [247]
65. Two new genera of Gentianinae (Gentianaceae): Sinogentiana and Kue.. [246]
66. Grey leaves in an alpine plant: a cryptic colouration to avoid att.. [243]
67. Acronema crassifolium sp nov (Apiaceae), a distinct new species fr.. [240]
68. Molecular phylogenetics and biogeography of the eastern Asian-east.. [239]
69. Karyological studies on the Sino-Himalayan endemic Soroseris and t.. [231]
70. Survival and reproduction of plant species in the Qinghai-Tibet Pl.. [231]
71. Plant diversity and floristic characters of the alpine subnival be.. [230]
72. The ecological significance of pubescence in Saussurea medusa, a h.. [229]
73. Seed and microsite limitation in Rheum nobile, a rare and endemic .. [228]
74. Molecular phylogeny of Solms-laubachia (Brassicaceae) s.l., based .. [226]
75. Identification and cloning of class II and III chitinases from alk.. [226]
76. Molecular phylogeny of Salix L. (Salicaceae) inferred from three c.. [221]
77. In and out of the Qinghai-Tibet Plateau: divergence time estimatio.. [221]
78. Evolution of the intercontinental disjunctions in six continents i.. [220]
79. Dry after-ripening, light, cold stratification and temperature eff.. [220]
80. Chromosome counts and karyotypes in Chaetoseris and Stenoseris (As.. [219]
81. A karyological study of six species of Silene L. (Caryophyllaceae).. [219]
82. Caffeoylated Phenylpropanoid Glycosides from Brandisia hancei Inhi.. [217]
83. Evolution of biogeographic disjunction between eastern Asia and ea.. [215]
84. Phylogenetic clustering and overdispersion for alpine plants along.. [213]
85. Systematic significance of achene morphology in Soroseris, Syncala.. [209]
86. Climatic Factors Drive Population Divergence and Demography: Insig.. [209]
87. Evolutionary history of the subnival flora of the Himalaya-Hengdua.. [209]
88. Molecular phylogeny and biogeography of the arctic-alpine genus La.. [206]
89. Origin area and migration route: Chloroplast DNA diversity in the .. [206]
90. Yalongjiang River Has Had an Important Role in the Dispersal and D.. [206]
91. Molecular phylogeny of Helleborus (Ranunculaceae), with an emphasi.. [203]
92. Montane refugia isolation and plateau population expansion: Phylog.. [202]
93. 你为我传粉;我为你育儿——恶劣环境下塔黄的繁殖策略 [197]
94. Divergence in cryptic leaf colour provides local camouflage in an .. [197]
95. Cytological study on Kelloggia (Rubiaceae), an intercontinental di.. [194]
96. Agapetes subsessilifolia (Ericaceae), a new species from the easte.. [193]
97. Systematics, biogeography, and character evolution of Deutzia (Hyd.. [193]
98. Cushion plants can have a positive effect on diversity at high ele.. [191]
99. Proanthocyanidins from Spenceria ramalana and Their Effects on AGE.. [190]
100. Phylogenetic position of Kontumia (Polypodiaceae) inferred from fo.. [189]

Downloads

1. Phylogeny and biogeography of Sassafras (Lauraceae) disjunct betwe.. [958]
2. Inhibitory Activities of Pancreatic Lipase and Phosphodiesterase f.. [351]
3. Morphological and molecular evidence of natural hybridization betw.. [219]
4. Chloroplast phylogeography of Terminalia franchetii (Combretaceae).. [215]
5. Phylogenetic and biogeographic complexity of Magnoliaceae in the N.. [214]
6. Chloroplast phylogeny and phylogeography of Stellera chamaejasme o.. [210]
7. Morphological characteristics of leaf epidermis and size variation.. [204]
8. Molecular phylogeny and biogeography of three closely related gene.. [200]
9. Evolutionary history and underlying adaptation of alpine plants on.. [190]
10. Cytological study of Tibetia (Fabaceae) in the Hengduan Mountains .. [166]
11. Phylogeographic structure of Terminalia franchetii (Combretaceae) .. [151]
12. Cytological study on the genus Syncalathium (Asteraceae-Lactuceae).. [141]
13. 水平基因转移在生物进化中的作用 [141]
14. Ethnomedicinal uses of Edible Wild Fruits (EWFs) in Swat Valley, N.. [132]
15. Leaf epidermal characteristics of Asiatic Buddleja L. under scanni.. [130]
16. The 29 degrees N latitudinal line: an important division in the He.. [129]
17. 青藏高原生态变化 [127]
18. Molecular phylogeny and biogeography of Astilbe (Saxifragaceae) in.. [121]
19. A synopsis of an expanded Solms-laubachia (Brassicaceae), and the .. [117]
20. 世界种子植物科的分布区类型系统 [115]
21. Phylogenetic analysis of Toxicodendron (Anacardiaceae) and its bio.. [111]
22. Elevational patterns of species richness and endemism for some imp.. [109]
23. Support for an expanded Solms-Laubachia (Brassicaceae): Evidence f.. [105]
24. Systematics of the genus Salweenia (Leguminosae) from Southwest Ch.. [104]
25. Post-Boreotropical dispersals explain the pantropical disjunction .. [104]
26. Dispersals of Hyoscyameae and Mandragoreae (Solanaceae) from the N.. [98]
27. A phylogeny of Thermopsideae (Leguminosae : Papilionoideae) inferr.. [97]
28. Patterns of flower morphology and sexual systems in the subnival b.. [97]
29. Two new species of Wikstroemia (Thymelaeaceae) from western Sichua.. [96]
30. Evolutionary history of the subnival flora of the Himalaya-Hengdua.. [90]
31. Acidic alpha-galactosidase is the most abundant nectarin in floral.. [89]
32. The reproductive biology of Stellera chamaejasme (Thymelaeaceae): .. [88]
33. Cytological studies on the Sino-Himalayan endemic Solms-laubachia .. [87]
34. Buddleja davidii and Buddleja yunnanensis: Exploring features asso.. [87]
35. Polyploidy and new chromosome counts in Anaphalis (Asteraceae: Gna.. [86]
36. Dispersal routes between biodiversity hotspots in Asia: the case o.. [86]
37. Oxalis wulingensis (Oxalidaceae), an Unusual New Species from Cent.. [84]
38. Ethylene signalling is essential for the resistance of Nicotiana a.. [84]
39. Monophyly of Kelloggia Torrey ex Benth. (Rubiaceae) and evolution .. [82]
40. Global and regional tree species diversity [80]
41. Molecular phylogeny of Anaphalis (Asteraceae, Gnaphalieae) with bi.. [79]
42. Phylogeny of Nolana (Solanaceae) of the Atacama and Peruvian deser.. [77]
43. Survival and reproduction of plant species in the Qinghai-Tibet Pl.. [76]
44. Phylogeny and biogeographic diversification of Maianthemum (Ruscac.. [75]
45. PHYLOGEOGRAPHY OF BUDDLEJA CRISPA (BUDDLEJACEAE) AND ITS CORRELATI.. [74]
46. Habitat-specific responses of seed germination and seedling establ.. [74]
47. Molecular phylogenetic analyses of Euphorbiaceae tribe Epiprineae,.. [74]
48. Polyploidy in the flora of the Hengduan Mountains hotspot, southwe.. [73]
49. Molecular phylogeny of Solms-laubachia (Brassicaceae) s.l., based .. [72]
50. MOLECULAR PHYLOGENY AND BIOGEOGRAPHIC DIVERSIFICATION OF PARTHENOC.. [72]
51. Phylogeography of Sophora davidii (Leguminosae) across the "Tanaka.. [72]
52. Phylogenetic and biogeographic analyses of the Sino-Himalayan ende.. [69]
53. Two new genera of Gentianinae (Gentianaceae): Sinogentiana and Kue.. [68]
54. Bupleurum dracaenoides (Subgenus Bupleurum, Apiaceae): a New Shrub.. [68]
55. Phylogenetic analyses of Searsia (Anacardiaceae) from eastern Asia.. [68]
56. Cytological studies on the Sino-Himalayan endemic Anisodus and fou.. [67]
57. Plant diversity and floristic characters of the alpine subnival be.. [67]
58. Asymmetric hybridization in Rhododendron agastum: a hybrid taxon c.. [66]
59. Systematics, biogeography, and character evolution of Deutzia (Hyd.. [66]
60. Molecular phylogenetics and biogeography of the eastern Asian-east.. [65]
61. Phylogenetic clustering and overdispersion for alpine plants along.. [65]
62. Comparative morphology of leaf epidermis of Salix (Salicaceae) wit.. [61]
63. Multifunctional bracts enhance plant fitness during flowering and .. [59]
64. Zhengyia shennongensis: A new bulbiliferous genus and species of t.. [59]
65. Resolving the phylogenetic relationships and evolutionary history .. [59]
66. Karyological studies on the Sino-Himalayan endemic Soroseris and t.. [58]
67. Agapetes subsessilifolia (Ericaceae), a new species from the easte.. [57]
68. A nodding capitulum enhances the reproductive success of Cremantho.. [57]
69. Floral closure induced by pollination in gynodioecious Cyananthus .. [56]
70. Phylogeography of Cyananthus delavayi (Campanulaceae) in Hengduan .. [55]
71. Molecular phylogeny and biogeography of the arctic-alpine genus La.. [55]
72. Generic phylogeny and character evolution in Urticeae (Urticaceae).. [55]
73. Cypripedium bouffordianum (Orchidaceae), a new species from wester.. [54]
74. The Bracts of Saussurea velutina (Asteraceae) Protect Inflorescenc.. [54]
75. Evolution of the intercontinental disjunctions in six continents i.. [52]
76. Cytological study on Kelloggia (Rubiaceae), an intercontinental di.. [51]
77. In and out of the Qinghai-Tibet Plateau: divergence time estimatio.. [51]
78. Shangrilaia (Brassicaceae), a new genus from China [50]
79. Molecular phylogeny of Salix L. (Salicaceae) inferred from three c.. [50]
80. Out-of-India dispersal of Paliurus (Rhamnaceae) indicated by combi.. [50]
81. The ecological significance of pubescence in Saussurea medusa, a h.. [48]
82. Positive associations between the cushion plant Arenaria polytrich.. [48]
83. A karyological study of six species of Silene L. (Caryophyllaceae).. [48]
84. Rubus tetsunii, a replacement name for the Chinese R. lobatus T. T.. [48]
85. Seed and microsite limitation in Rheum nobile, a rare and endemic .. [48]
86. A new pollinating seed-consuming mutualism between Rheum nobile an.. [48]
87. Phylogenetic position of Kontumia (Polypodiaceae) inferred from fo.. [47]
88. Soil nutrient availability determines the facilitative effects of .. [47]
89. Chromosome counts and karyotypes in Chaetoseris and Stenoseris (As.. [46]
90. Molecular phylogeny of Helleborus (Ranunculaceae), with an emphasi.. [46]
91. Proanthocyanidins from Spenceria ramalana and Their Effects on AGE.. [46]
92. Evolutionary history and biogeography of Mandragora L. (Solanaceae.. [46]
93. First fossil of Pterolobium (Leguminosae) from the Middle Miocene .. [45]
94. Molecular phylogeny of Galium L. of the tribe Rubieae (Rubiaceae) .. [45]
95. Montane refugia isolation and plateau population expansion: Phylog.. [44]
96. Quantitative approaches to identify floristic units and centres of.. [44]
97. Requirement of ABA signalling-mediated stomatal closure for resist.. [43]
98. Recent assembly of the global herbaceous flora: evidence from the .. [43]
99. 你为我传粉;我为你育儿——恶劣环境下塔黄的繁殖策略 [43]
100. Evolution of biogeographic disjunction between eastern Asia and ea.. [42]