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1. 美洲鳄梨属植物的叶表皮微形态特征及其分类学意义 [1454]
2. Polyphyly of the genus Actinodaphne(Lauraceae)inferrefrom the anal.. [903]
3. Functional traits of tree species with phylogenetic signal co-vary.. [818]
4. Phylogeny of Isodon (Schrad. ex Benth.) Spach (Lamiaceae) and Rela.. [781]
5. 樟科润楠属植物ITS 序列贝叶斯分析及其系统学意义 [736]
6. 世界樟科植物系统学研究进展 [686]
7. Functional and phylogenetic assembly in a Chinese tropical tree co.. [656]
8. 小型哺乳类食果动物可能对蛇菰科葛菌种子散布的初次报道 [604]
9. 热带雨林中的濒危植物——思茅木姜子 [592]
10. 唇形科香茶菜属二萜类化合物分布规律 [588]
11. Polyphyly of the genus Actinodaphne (Lauraceae) inferred from the .. [571]
12. AFLP and ISSR analysis reveals high genetic variation and inter-po.. [567]
13. 横断山脉地区种子植物区系的初步研究 [552]
14. Phylogenetic relationships within the 'core' Laureae (Litsea compl.. [546]
15. Polyphyly of the genus Actinodaphne (Lauraceae) inferredfrom the a.. [546]
16. 亚热带森林乔木树种DNA条形码研究——以哀牢山自然保护区为例 [542]
17. 樟科濒危植物思茅木姜子遗传多样性的ISSR分析 [499]
18. 中山湿性常绿阔叶林系统发育和功能性状的alpha及beta多样性 [493]
19. Warm-cold colonization: response of oaks to uplift of the Himalaya.. [478]
20. 国产樟科楠属五种植物之分类修订 [472]
21. Phylogeny and biogeography of Caryodaphnopsis (Lauraceae) inferred.. [467]
22. 珍贵木材树种楠木的野生资源调查 [459]
23. A new species of the genus Actinodaphne with four new synonyms of .. [443]
24. Phylogeny of Najas (Hydrocharitaceae) revisited: Implications for .. [438]
25. 中国龙脑香科植物纪要 [436]
26. Species diversity and reticulate evolution in the Asplenium normal.. [426]
27. Neither Phoebe nor Cinnamomum - the tetrasporangiate species of Ai.. [417]
28. 系统发育多样性在植物区系研究与生物多样性保护中的应用 [407]
29. Local-scale Partitioning of Functional and Phylogenetic Beta Diver.. [392]
30. DNA barcoding evaluation and implications for phylogenetic relatio.. [391]
31. 中山湿性常绿阔叶林系统发育和功能性状的α及β多样性 [384]
32. 江苏铁角蕨的系统位置和多倍体起源 [380]
33. 沿海拔梯度变化的哀牢山亚热带森林群落系统发育结构 [375]
34. How does habitat filtering affect the detection of conspecific and.. [372]
35. Origins and evolution of cinnamon and camphor: A phylogenetic and .. [369]
36. Soil properties drive a negative correlation between species diver.. [359]
37. 木兰科木兰亚科内系统发育关系:基于形态学分支分析 [359]
38. 浅析环境特征对遗传多样性与物种多样性的平行效应 [356]
39. Environmental filtering structures tree functional traits combinat.. [351]
40. Phylogeny and historical biogeography of Isodon (Lamiaceae): Rapid.. [336]
41. Soil phosphorus heterogeneity promotes tree species diversity and .. [319]
42. 亚热带森林乔木树种DNA条形码研究以哀牢山自然保护区为例 [312]
43. Congruent species delimitation of two controversial gold-thread na.. [312]
44. Application of DNA Barcodes in Asian Tropical Trees - A Case Study.. [310]
45. 樟属植物ITS序列多态性分析 [305]
46. A new species of Litsea (Lauraceae) from Kerala part of Western Gh.. [298]
47. Alseodaphnopsis: A new genus of Lauraceae based on molecular and m.. [295]
48. Phylogenetic utility of LEAFY gene in Cinnamomum (Lauraceae): Gene.. [285]
49. Evolutionary distinctiveness and conservation priority of the enda.. [278]
50. Secondary contact, hybridization and polyploidization add to the b.. [259]
51. Conflict between biodiversity conservation and economic growth: in.. [244]
52. Contrasting effects of space and environment on functional and phy.. [242]
53. Comparative phylogenetic analyses of Chinese Horsfieldia (Myristic.. [241]
54. Molecular phylogenetic species delimitation in the aquatic genus O.. [240]
55. Taxonomic status and distribution of Mirabilis himalaica (Nyctagin.. [237]
56. DNA条形码在热带龙脑香科树种鉴定中的应用 [209]
57. Two new species of Alseodaphnopsis (Lauraceae) from southwestern C.. [208]
58. Horizontal Gene Transfer has Impacted cox1 Gene Evolution in Cassy.. [206]
59. Genomic and structural basis for evolution of tropane alkaloid bio.. [203]
60. Consequences of spatial patterns for coexistence in species-rich p.. [202]
61. Dense infraspecific sampling reveals cryptic differentiation in th.. [194]
62. Different reference genomes determine different results: Comparing.. [188]
63. Fe3O4@SiO2@CuZnAl-O Catalysts for Conversion of Lignin in Supercri.. [186]
64. A Taxonomic Revision of Fern Genus Pseudocyclosorus (Thelypteridac.. [182]
65. Shining a light on species delimitation in the tree genus Engelhar.. [182]
66. Can plastid genome sequencing be used for species identification i.. [182]
67. Riparian areas as a conservation priority under climate change [181]
68. Strong intraspecific trait variation in a tropical dominant tree s.. [177]
69. First molecular phylogenetic insights into the evolution of Erioca.. [170]
70. Different Responses of Two Endangered Sister Tree Species to Clima.. [169]
71. Shining a light on species delimitation in the tree genus Engelhar.. [165]
72. Two new species from Sulawesi and Borneo facilitate phylogeny and .. [165]
73. RAD-seq data for Engelhardia roxburghiana provide insights into th.. [161]
74. Do taxon-specific DNA barcodes improve species discrimination rela.. [156]
75. Are mountaintops climate refugia for plants under global warming? .. [155]
76. Riparian areas as a conservation priority under climate change [152]
77. Diverse Host Spectrum and the Parasitic Process in the Pantropical.. [144]
78. Alseodaphnopsis maguanensis is conspecific with A. hokouensis (Lau.. [143]
79. Did Hainan Island (Southern China) Undergo Significant Cenozoic Te.. [140]
80. Do taxon-specific DNA barcodes improve species discrimination rela.. [133]
81. Transitional areas of vegetation as biodiversity hotspots evidence.. [130]
82. Genetic diversity of Horsfieldia tetratepala (Myristicaceae), an e.. [129]
83. Blinded by the bright-Afforestation is affecting widespread sampli.. [119]
84. Global advances in phylogeny, taxonomy and biogeography of Laurace.. [117]
85. Predicting Climate Change Impacts on the Rare and Endangered Horsf.. [112]
86. The reconstructed evolutionary history of the Engelhardia spicata .. [111]
87. Assessment of multidimensional diversity and conservation of threa.. [110]
88. Evolution of East Asian subtropical evergreen broad-leaved forests.. [109]
89. Predicting Climate Change Impacts on the Rare and Endangered Horsf.. [100]
90. RAD-seq reveals Cenozoic shifts in the palaeogeographic distributi.. [98]
91. Endiandra macrocarpa (Lauraceae), a new tree species from south-we.. [93]
92. Conservation Significance of the Rare and Endangered Tree Species,.. [70]
93. Conservation Significance of the Rare and Endangered Tree Species,.. [69]
94. Genome analyses provide insights into Engelhardia's adaptation to .. [60]
95. 唇形科香茶菜属植物系统发育及生物地理学研究 [48]
96. Plant Diversity Patterns and Their Determinants Across a North-Edg.. [6]

Downloads

1. 美洲鳄梨属植物的叶表皮微形态特征及其分类学意义 [454]
2. 世界樟科植物系统学研究进展 [264]
3. 樟科润楠属植物ITS 序列贝叶斯分析及其系统学意义 [262]
4. Phylogeny of Najas (Hydrocharitaceae) revisited: Implications for .. [203]
5. Phylogeny and biogeography of Caryodaphnopsis (Lauraceae) inferred.. [202]
6. 中山湿性常绿阔叶林系统发育和功能性状的alpha及beta多样性 [201]
7. Warm-cold colonization: response of oaks to uplift of the Himalaya.. [197]
8. 系统发育多样性在植物区系研究与生物多样性保护中的应用 [189]
9. 唇形科香茶菜属二萜类化合物分布规律 [185]
10. 横断山脉地区种子植物区系的初步研究 [184]
11. 国产樟科楠属五种植物之分类修订 [183]
12. 热带雨林中的濒危植物——思茅木姜子 [177]
13. Functional and phylogenetic assembly in a Chinese tropical tree co.. [172]
14. 珍贵木材树种楠木的野生资源调查 [172]
15. Polyphyly of the genus Actinodaphne (Lauraceae) inferredfrom the a.. [168]
16. Neither Phoebe nor Cinnamomum - the tetrasporangiate species of Ai.. [161]
17. How does habitat filtering affect the detection of conspecific and.. [160]
18. AFLP and ISSR analysis reveals high genetic variation and inter-po.. [159]
19. 樟科濒危植物思茅木姜子遗传多样性的ISSR分析 [158]
20. Origins and evolution of cinnamon and camphor: A phylogenetic and .. [157]
21. DNA barcoding evaluation and implications for phylogenetic relatio.. [155]
22. Polyphyly of the genus Actinodaphne(Lauraceae)inferrefrom the anal.. [151]
23. Phylogenetic relationships within the 'core' Laureae (Litsea compl.. [141]
24. 中国龙脑香科植物纪要 [141]
25. Polyphyly of the genus Actinodaphne (Lauraceae) inferred from the .. [140]
26. 小型哺乳类食果动物可能对蛇菰科葛菌种子散布的初次报道 [135]
27. 沿海拔梯度变化的哀牢山亚热带森林群落系统发育结构 [134]
28. Congruent species delimitation of two controversial gold-thread na.. [131]
29. Riparian areas as a conservation priority under climate change [117]
30. Phylogeny of Isodon (Schrad. ex Benth.) Spach (Lamiaceae) and Rela.. [112]
31. 亚热带森林乔木树种DNA条形码研究——以哀牢山自然保护区为例 [111]
32. 樟属植物ITS序列多态性分析 [111]
33. Species diversity and reticulate evolution in the Asplenium normal.. [110]
34. A new species of the genus Actinodaphne with four new synonyms of .. [109]
35. 浅析环境特征对遗传多样性与物种多样性的平行效应 [109]
36. Genomic and structural basis for evolution of tropane alkaloid bio.. [109]
37. Phylogeny and historical biogeography of Isodon (Lamiaceae): Rapid.. [107]
38. Functional traits of tree species with phylogenetic signal co-vary.. [101]
39. Phylogenetic utility of LEAFY gene in Cinnamomum (Lauraceae): Gene.. [101]
40. Local-scale Partitioning of Functional and Phylogenetic Beta Diver.. [99]
41. Comparative phylogenetic analyses of Chinese Horsfieldia (Myristic.. [99]
42. Soil properties drive a negative correlation between species diver.. [98]
43. Environmental filtering structures tree functional traits combinat.. [97]
44. 亚热带森林乔木树种DNA条形码研究以哀牢山自然保护区为例 [97]
45. Soil phosphorus heterogeneity promotes tree species diversity and .. [95]
46. Taxonomic status and distribution of Mirabilis himalaica (Nyctagin.. [94]
47. Different reference genomes determine different results: Comparing.. [93]
48. 江苏铁角蕨的系统位置和多倍体起源 [92]
49. Do taxon-specific DNA barcodes improve species discrimination rela.. [91]
50. Riparian areas as a conservation priority under climate change [90]
51. 中山湿性常绿阔叶林系统发育和功能性状的α及β多样性 [88]
52. Molecular phylogenetic species delimitation in the aquatic genus O.. [88]
53. Can plastid genome sequencing be used for species identification i.. [88]
54. Two new species from Sulawesi and Borneo facilitate phylogeny and .. [88]
55. Dense infraspecific sampling reveals cryptic differentiation in th.. [88]
56. Conflict between biodiversity conservation and economic growth: in.. [84]
57. Contrasting effects of space and environment on functional and phy.. [82]
58. DNA条形码在热带龙脑香科树种鉴定中的应用 [75]
59. Horizontal Gene Transfer has Impacted cox1 Gene Evolution in Cassy.. [75]
60. Shining a light on species delimitation in the tree genus Engelhar.. [75]
61. Shining a light on species delimitation in the tree genus Engelhar.. [73]
62. Two new species of Alseodaphnopsis (Lauraceae) from southwestern C.. [71]
63. Evolution of East Asian subtropical evergreen broad-leaved forests.. [69]
64. Alseodaphnopsis maguanensis is conspecific with A. hokouensis (Lau.. [66]
65. Diverse Host Spectrum and the Parasitic Process in the Pantropical.. [64]
66. A new species of Litsea (Lauraceae) from Kerala part of Western Gh.. [63]
67. Fe3O4@SiO2@CuZnAl-O Catalysts for Conversion of Lignin in Supercri.. [63]
68. RAD-seq data for Engelhardia roxburghiana provide insights into th.. [61]
69. Secondary contact, hybridization and polyploidization add to the b.. [60]
70. Alseodaphnopsis: A new genus of Lauraceae based on molecular and m.. [60]
71. Consequences of spatial patterns for coexistence in species-rich p.. [60]
72. Evolutionary distinctiveness and conservation priority of the enda.. [58]
73. Do taxon-specific DNA barcodes improve species discrimination rela.. [58]
74. Application of DNA Barcodes in Asian Tropical Trees - A Case Study.. [57]
75. Strong intraspecific trait variation in a tropical dominant tree s.. [56]
76. Transitional areas of vegetation as biodiversity hotspots evidence.. [56]
77. The reconstructed evolutionary history of the Engelhardia spicata .. [53]
78. Predicting Climate Change Impacts on the Rare and Endangered Horsf.. [51]
79. RAD-seq reveals Cenozoic shifts in the palaeogeographic distributi.. [49]
80. Predicting Climate Change Impacts on the Rare and Endangered Horsf.. [44]
81. Different Responses of Two Endangered Sister Tree Species to Clima.. [43]
82. Assessment of multidimensional diversity and conservation of threa.. [34]
83. Blinded by the bright-Afforestation is affecting widespread sampli.. [31]
84. Are mountaintops climate refugia for plants under global warming? .. [30]
85. Genetic diversity of Horsfieldia tetratepala (Myristicaceae), an e.. [30]
86. Did Hainan Island (Southern China) Undergo Significant Cenozoic Te.. [18]
87. Global advances in phylogeny, taxonomy and biogeography of Laurace.. [17]
88. A Taxonomic Revision of Fern Genus Pseudocyclosorus (Thelypteridac.. [16]
89. First molecular phylogenetic insights into the evolution of Erioca.. [15]
90. Genome analyses provide insights into Engelhardia's adaptation to .. [15]
91. Conservation Significance of the Rare and Endangered Tree Species,.. [14]
92. Endiandra macrocarpa (Lauraceae), a new tree species from south-we.. [14]
93. Conservation Significance of the Rare and Endangered Tree Species,.. [13]
94. Plant Diversity Patterns and Their Determinants Across a North-Edg.. [2]