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Visits

1. Plant DNA barcoding in China [966]
2. Pollen morphology and infra-generic evolutionary relationships in .. [746]
3. Reticulate evolution, cryptic species, and character convergence i.. [721]
4. Efficiency of DNA barcodes for species delimitation: A case in Pte.. [659]
5. Pollen morphology of Gaultheria L. and related genera of subfamily.. [657]
6. The pollination syndrome of Pedicularis rex (Scrophulariaceae) and.. [650]
7. DNA barcoding of Pedicularis L. (Orobanchaceae): Evaluating four u.. [608]
8. Phylogenetic relationships in the Pterygiella complex (Orobanchace.. [595]
9. Incongruence between Nuclear and Chloroplast DNA Phylogenies in Pe.. [588]
10. Three New Species of Petrocodon (Gesneriaceae), Endemic to the Lim.. [570]
11. Pollen morphology of the tribe Rhinantheae (Orobanchaceae) and its.. [564]
12. Testing Darwin's transoceanic dispersal hypothesis for the inland .. [511]
13. Highly efficient pollination by bumblebees ensures seed production.. [468]
14. 一种基于大数据的黄花乌头DNA条形码及黄花乌头的鉴定方法 [459]
15. 一种基于大数据的直缘乌头DNA条形码及直缘乌头的鉴定方法 [454]
16. Molecular phylogeny of the nettle family (Urticaceae) inferred fro.. [436]
17. Genetic diversity of Paris polyphylla var. yunnanensis, a traditio.. [392]
18. EVOLUTION OF ANGIOSPERM POLLEN: 4. BASAL EUDICOTS [392]
19. Genetic diversity of the traditional Chinese medicinal plant Ypsil.. [384]
20. Seed morphological diversity of Pedicularis (Orobanchaceae) and it.. [358]
21. Names of Chinese seed plants validly published in A Catalogue of T.. [350]
22. Dark purple nectar as a foraging signal in a bird-pollinated Himal.. [331]
23. Calanthe yaoshanensis sp nov (Orchidaceae) from northeastern Yunna.. [329]
24. Insect pollination of Musella (Musaceae), a monotypic genus endemi.. [327]
25. The anti-arthritic effects of Aconitum vilmorinianum, a folk herba.. [323]
26. Flowers of Cypripedium fargesii (Orchidaceae) fool flat-footed fli.. [322]
27. Phylogeographic insights on the evolutionary breakdown of heterost.. [310]
28. Flower heliotropism of Anemone rivularis (Ranunculaceae) in the Hi.. [302]
29. Lectotypification of Linnaean names in Pedicularis (Orobanchaceae) [298]
30. A New Species of Paris (Melanthiaceae) from Northeastern Yunnan, C.. [297]
31. Phylogenetic approaches resolve taxonomical confusion in Pedicular.. [289]
32. Plastid phylogenomics and adaptive evolution of Gaultheria series .. [283]
33. Micropropagation of Cypripedium flavum through multiple shoots of .. [263]
34. Pollen morphology in relation to floral types and pollination synd.. [261]
35. Antifungal properties of pristimerin and celastrol isolated from C.. [261]
36. Karyotypes of thirteen species of Pedicularis (Orobanchaceae) from.. [254]
37. Loss of floral polymorphism in heterostylous Luculia pinceana (Rub.. [253]
38. A New Species of Pedicularis (Orobanchaceae) from the Hengduan Mou.. [252]
39. EVOLUTION OF ANGIOSPERM POLLEN. I. INTRODUCTION [251]
40. Comparative morphology of the foliage leaf epidermis, with emphasi.. [250]
41. A new synonym of Pedicularis cyathophylla (Orobanchaceae) [246]
42. Taxonomic Status, Phylogenetic Affinities and Genetic Diversity of.. [246]
43. Palynological data on Illiciaceae and Schisandraceae confirm phylo.. [242]
44. 被子植物退化雄蕊的功能类型及其意义 [235]
45. Elatostema densistriolatum sp nov., E-latistipulum sp nov and E-cy.. [233]
46. Permanent Genetic Resources added to Molecular Ecology Resources D.. [232]
47. DNA barcoding of Gaultheria L. in China (Ericaceae: Vaccinioideae) [229]
48. Comparative morphology of leaf epidermis in Parnassia (Parnassiace.. [227]
49. Chemical constituents from the whole plant of Euphorbia altotibeti.. [224]
50. 植物DNA条形码与生物多样性数据共享平台构建 [223]
51. Does reproductive isolation reflect the segregation of color forms.. [223]
52. Isolation and characterization of 18 microsatellites for Aconitum .. [219]
53. The complete chloroplast genomes of Adenolobus garipensis and Cerc.. [218]
54. Two new species and one new variety of Elatostema (Urticaceae) fro.. [212]
55. A Set of Novel Microsatellite Markers Developed for a Distylous Sp.. [204]
56. Pollen morphology of Strobilanthes Blume (Acanthaceae) in China an.. [198]
57. Reciprocal herkogamy promotes disassortative mating in a distylous.. [197]
58. EVOLUTION OF ANGIOSPERM POLLEN. 3. MONOCOTS [196]
59. Pollen morphology of eight genera of the subtribe Mutisiinae Less... [188]
60. Female gametophyte and seed development in Musella lasiocarpa (Mus.. [187]
61. Isolation and characterization of 13 microsatellite loci from Inca.. [187]
62. Identification of the Medicinal Plants in Aconitum L. by DNA Barco.. [187]
63. Floral ontogeny of Pedicularis (Orobanchaceae), with an emphasis o.. [186]
64. The evolution of floral deception in Epipactis veratrifolia (Orchi.. [185]
65. Pollen morphology of Crepidinae and Lactucinae (Asteraceae: Cichor.. [182]
66. A new species of Pedicularis (Scrophulariaceae) from the Yaoshan M.. [182]
67. Isolation and Characterization of 13 Microsatellite Loci from Lucu.. [180]
68. Systematic implications of seed coat diversity in Gaultherieae (Er.. [179]
69. Pollen morphology of Pedicularis sect. Cyathophora, a group endemi.. [178]
70. Pollen morphology of Parnassia L. (Parnassiaceae) and its systemat.. [178]
71. Impact of pre- and post-pollination barriers on pollen transfer an.. [178]
72. Pollination ecology of a pioneer species: Musa itinerans (Musaceae.. [177]
73. Which food-mimic floral traits and environmental factors influence.. [176]
74. New taxa of pedicularis (Scrophulariaceae) from the Hengduan Mount.. [174]
75. A new triterpenoid from Amoora dasyclada [173]
76. EVOLUTION OF ANGIOSPERM POLLEN. 2. THE BASAL ANGIOSPERMS [172]
77. Isolation and Characterization of 13 Microsatellite Loci from Pedi.. [171]
78. A preliminary study of pollination biology of Pedicularis (Scrophu.. [169]
79. Microsporogenesis and male gametogenesis in Musella (Musaceae), a .. [167]
80. Oreocharis jinpingensis (Gesneriaceae), a new species from Yunnan,.. [167]
81. Eurya luchunensis, a new species of Theaceae from Yunnan, China [165]
82. Differentiation of the traditional Chinese medicinal plants Euphor.. [164]
83. Cytological study on Acorus L. in Southwestern China, with some cy.. [160]
84. 见血青的离体保存方法 [151]
85. Thladiantha tomentosa (Cucurbitaceae) comb. nov. from southwestern.. [150]
86. Should genes with missing data be excluded from phylogenetic analy.. [150]
87. Pollen morphology of the genus Lasianthus (Rubiaceae) and related .. [142]
88. Plastid Phylogenomic Analyses Resolve Tofieldiaceae as the Root of.. [139]
89. A new guaiane diterpenoid from Euphorbia wallichii [138]
90. Nomenclatural note for Pedicularis oederi var. angustiflora (Oroba.. [136]
91. Typification of seven Chinese species of Pedicularis (Orobanchacea.. [132]
92. Franchet 1891年发表的十六种植物名称的模式指定 [130]
93. Fruit and seed morphology in some representative genera of tribe R.. [127]
94. Three new diterpenoids from Euphorbia wallichii [124]
95. Leaf epidermal character variation and evolution in Gaultherieae (.. [123]
96. EVOLUTION OF ANGIOSPERM POLLEN. 5. EARLY DIVERGING SUPERASTERIDAE .. [123]
97. Plastid Genome Evolution in the Early-Diverging Legume Subfamily C.. [119]
98. Characterization of 30 microsatellite markers in distylous Primula.. [119]
99. EVOLUTION OF ANGIOSPERM POLLEN. 6. THE CELASTRALES, OXALIDALES, AN.. [119]
100. 二型花柱植物海仙花报春花部性状随地理梯度的变异 [118]

Downloads

1. Plant DNA barcoding in China [302]
2. Efficiency of DNA barcodes for species delimitation: A case in Pte.. [202]
3. Pollen morphology and infra-generic evolutionary relationships in .. [190]
4. Phylogenetic relationships in the Pterygiella complex (Orobanchace.. [169]
5. Insect pollination of Musella (Musaceae), a monotypic genus endemi.. [139]
6. A New Species of Paris (Melanthiaceae) from Northeastern Yunnan, C.. [133]
7. Testing Darwin's transoceanic dispersal hypothesis for the inland .. [132]
8. Pollen morphology of the tribe Rhinantheae (Orobanchaceae) and its.. [131]
9. Calanthe yaoshanensis sp nov (Orchidaceae) from northeastern Yunna.. [129]
10. Pollen morphology of Gaultheria L. and related genera of subfamily.. [125]
11. Reticulate evolution, cryptic species, and character convergence i.. [122]
12. Molecular phylogeny of the nettle family (Urticaceae) inferred fro.. [122]
13. A new synonym of Pedicularis cyathophylla (Orobanchaceae) [114]
14. Genetic diversity of the traditional Chinese medicinal plant Ypsil.. [111]
15. Flower heliotropism of Anemone rivularis (Ranunculaceae) in the Hi.. [109]
16. Pollen morphology of Strobilanthes Blume (Acanthaceae) in China an.. [103]
17. Palynological data on Illiciaceae and Schisandraceae confirm phylo.. [102]
18. Comparative morphology of the foliage leaf epidermis, with emphasi.. [100]
19. Flowers of Cypripedium fargesii (Orchidaceae) fool flat-footed fli.. [95]
20. Karyotypes of thirteen species of Pedicularis (Orobanchaceae) from.. [92]
21. Names of Chinese seed plants validly published in A Catalogue of T.. [90]
22. Elatostema densistriolatum sp nov., E-latistipulum sp nov and E-cy.. [89]
23. Phylogeographic insights on the evolutionary breakdown of heterost.. [87]
24. Chemical constituents from the whole plant of Euphorbia altotibeti.. [86]
25. DNA barcoding of Pedicularis L. (Orobanchaceae): Evaluating four u.. [77]
26. EVOLUTION OF ANGIOSPERM POLLEN: 4. BASAL EUDICOTS [76]
27. Three New Species of Petrocodon (Gesneriaceae), Endemic to the Lim.. [75]
28. A new species of Pedicularis (Scrophulariaceae) from the Yaoshan M.. [73]
29. EVOLUTION OF ANGIOSPERM POLLEN. I. INTRODUCTION [70]
30. Pollen morphology of Crepidinae and Lactucinae (Asteraceae: Cichor.. [68]
31. Dark purple nectar as a foraging signal in a bird-pollinated Himal.. [68]
32. The anti-arthritic effects of Aconitum vilmorinianum, a folk herba.. [68]
33. Antifungal properties of pristimerin and celastrol isolated from C.. [65]
34. DNA barcoding of Gaultheria L. in China (Ericaceae: Vaccinioideae) [63]
35. Isolation and characterization of 18 microsatellites for Aconitum .. [62]
36. Genetic diversity of Paris polyphylla var. yunnanensis, a traditio.. [61]
37. Plastid phylogenomics and adaptive evolution of Gaultheria series .. [61]
38. Comparative morphology of leaf epidermis in Parnassia (Parnassiace.. [59]
39. Highly efficient pollination by bumblebees ensures seed production.. [59]
40. Female gametophyte and seed development in Musella lasiocarpa (Mus.. [58]
41. 被子植物退化雄蕊的功能类型及其意义 [58]
42. New taxa of pedicularis (Scrophulariaceae) from the Hengduan Mount.. [56]
43. A new guaiane diterpenoid from Euphorbia wallichii [53]
44. 植物DNA条形码与生物多样性数据共享平台构建 [53]
45. Pollen morphology in relation to floral types and pollination synd.. [52]
46. EVOLUTION OF ANGIOSPERM POLLEN. 3. MONOCOTS [50]
47. A New Species of Pedicularis (Orobanchaceae) from the Hengduan Mou.. [48]
48. Isolation and characterization of 13 microsatellite loci from Inca.. [46]
49. Pollen morphology of Parnassia L. (Parnassiaceae) and its systemat.. [45]
50. Loss of floral polymorphism in heterostylous Luculia pinceana (Rub.. [44]
51. Two new species and one new variety of Elatostema (Urticaceae) fro.. [44]
52. EVOLUTION OF ANGIOSPERM POLLEN. 2. THE BASAL ANGIOSPERMS [44]
53. Pollen morphology of eight genera of the subtribe Mutisiinae Less... [42]
54. A Set of Novel Microsatellite Markers Developed for a Distylous Sp.. [40]
55. Lectotypification of Linnaean names in Pedicularis (Orobanchaceae) [39]
56. Which food-mimic floral traits and environmental factors influence.. [38]
57. Micropropagation of Cypripedium flavum through multiple shoots of .. [36]
58. Pollen morphology of Pedicularis sect. Cyathophora, a group endemi.. [36]
59. Pollination ecology of a pioneer species: Musa itinerans (Musaceae.. [36]
60. Thladiantha tomentosa (Cucurbitaceae) comb. nov. from southwestern.. [36]
61. Seed morphological diversity of Pedicularis (Orobanchaceae) and it.. [36]
62. Reciprocal herkogamy promotes disassortative mating in a distylous.. [36]
63. Taxonomic Status, Phylogenetic Affinities and Genetic Diversity of.. [35]
64. Fruit and seed morphology in some representative genera of tribe R.. [35]
65. Identification of the Medicinal Plants in Aconitum L. by DNA Barco.. [34]
66. Eurya luchunensis, a new species of Theaceae from Yunnan, China [33]
67. Floral ontogeny of Pedicularis (Orobanchaceae), with an emphasis o.. [32]
68. Typification of seven Chinese species of Pedicularis (Orobanchacea.. [32]
69. A new triterpenoid from Amoora dasyclada [30]
70. 二型花柱植物海仙花报春花部性状随地理梯度的变异 [30]
71. Incongruence between Nuclear and Chloroplast DNA Phylogenies in Pe.. [29]
72. Pollen morphology of the genus Lasianthus (Rubiaceae) and related .. [28]
73. A preliminary study of pollination biology of Pedicularis (Scrophu.. [28]
74. 基于DNA分子标记的花粉流动态分析 [28]
75. Isolation and Characterization of 13 Microsatellite Loci from Lucu.. [27]
76. Isolation and Characterization of 13 Microsatellite Loci from Pedi.. [27]
77. Oreocharis jinpingensis (Gesneriaceae), a new species from Yunnan,.. [27]
78. Systematic implications of seed coat diversity in Gaultherieae (Er.. [26]
79. Should genes with missing data be excluded from phylogenetic analy.. [26]
80. The complete chloroplast genomes of Adenolobus garipensis and Cerc.. [26]
81. EVOLUTION OF ANGIOSPERM POLLEN. 5. EARLY DIVERGING SUPERASTERIDAE .. [25]
82. Cytological study on Acorus L. in Southwestern China, with some cy.. [24]
83. Differentiation of the traditional Chinese medicinal plants Euphor.. [24]
84. Nomenclatural note for Pedicularis oederi var. angustiflora (Oroba.. [24]
85. Leaf epidermal character variation and evolution in Gaultherieae (.. [24]
86. Plastid Phylogenomic Analyses Resolve Tofieldiaceae as the Root of.. [24]
87. Three new diterpenoids from Euphorbia wallichii [23]
88. Floral traits influence pollen vectors' choices in higher elevatio.. [23]
89. Microsporogenesis and male gametogenesis in Musella (Musaceae), a .. [22]
90. Ancestral State Reconstruction Reveals Rampant Homoplasy of Diagno.. [22]
91. The chloroplast genome of a rare and an endangered species Salween.. [22]
92. The pollination syndrome of Pedicularis rex (Scrophulariaceae) and.. [21]
93. (2205) Proposal to conserve the name Pterygiella cylindrica agains.. [20]
94. INSECT POLLINATION AND SELF-INCOMPATIBILITY IN EDIBLE AND/OR MEDIC.. [19]
95. The evolution of floral deception in Epipactis veratrifolia (Orchi.. [18]
96. Franchet 1891年发表的十六种植物名称的模式指定 [18]
97. Floral nectary morphology and evolution in Pedicularis (Orobanchac.. [18]
98. 独特的云南傣族和彝族植物药 [18]
99. New species, taxonomic renovations, and typifications in Gaultheri.. [18]
100. Towards a comprehensive phylogeny of the large temperate genus Ped.. [16]