1.
Morphological characteristics of leaf epidermis and size variation..
[808]
|
2.
Conserving plant species with extremely small populations (PSESP) ..
[714]
|
3.
High Genetic Diversity and Low Differentiation of Michelia coriace..
[691]
|
4.
Phylogenetic and biogeographic complexity of Magnoliaceae in the N..
[568]
|
5.
A new species of Rhododendron (Ericaceae) from the Gaoligong Mount..
[527]
|
6.
一种旱地木槿紫色花系优良单株组培快繁方法
[510]
|
7.
Floral scents of typical Buddleja species with different pollinati..
[440]
|
8.
论极小种群野生植物的研究及科学保护
[411]
|
9.
Buddleja caryopteridifolia (Scrophulariaceae), a species to be rec..
[392]
|
10.
Plant knowledge of the Shuhi in the Hengduan Mountains, Southwest ..
[386]
|
11.
Habitat Fragmentation, Degradation, and Population Status of Endan..
[383]
|
12.
Inflorescence scent, color, and nectar properties of "butterfly bu..
[372]
|
13.
Natural hybridization and asymmetric introgression at the distribu..
[368]
|
14.
Genetic diversity and population structure of Buddleja crispa Bent..
[357]
|
15.
Rescuing the Sichou oak Quercus sichourensis in China
[349]
|
16.
SYSTEMATIC SIGNIFICANCE OF THE DEVELOPMENT AND ANATOMY OF FLOWERS ..
[334]
|
17.
Abnormalities in sexual development and pollinator limitation in M..
[332]
|
18.
PHYLOGEOGRAPHY OF BUDDLEJA CRISPA (BUDDLEJACEAE) AND ITS CORRELATI..
[328]
|
19.
Genetic Diversity of an Alien Invasive Plant Mexican Sunflower (Ti..
[322]
|
20.
Variation in morphophysiological characters of fruits of Trigonoba..
[317]
|
21.
Leaf epidermal characteristics of Asiatic Buddleja L. under scanni..
[317]
|
22.
Unidirectional hybridization and reproductive barriers between two..
[317]
|
23.
The conservation of Rhododendrons is of greater urgency than has b..
[301]
|
24.
DEVELOPMENT AND CHARACTERIZATION OF MICROSATELLITE MARKERS IN THE ..
[297]
|
25.
Buddleja davidii and Buddleja yunnanensis: Exploring features asso..
[284]
|
26.
Isolation and characterization of 12 microsatellite loci for Miche..
[280]
|
27.
Seed germination and seedling emergence in the extremely endangere..
[279]
|
28.
Hydrocarbons mediate seed dispersal: a new mechanism of vespicocho..
[275]
|
29.
Indole alkaloids from cultivated Vinca major
[273]
|
30.
Status and conservation of Trigonobalanus doichangensis (Fagaceae)
[248]
|
31.
Rhododendron aureodorsale (Ericaceae) comb. nov from southwestern ..
[238]
|
32.
Isolation and Characterization of Microsatellite Loci for Hibiscus..
[232]
|
33.
Seed Germination of Huagaimu, a Critically Endangered Plant Endemi..
[228]
|
34.
Splendidins A-C, Three New Clerodane Diterpenoids from Salvia sple..
[227]
|
35.
Walnuts among the Shuhi in Shuiluo, eastern Himalayas. Walnut (Jug..
[225]
|
36.
Non-alkaloid constituents of Vinca major
[223]
|
37.
Seed dispersal by hornets: An unusual insect-plant mutualism
[213]
|
38.
Rescuing Magnolia sinica (Magnoliaceae), a Critically Endangered s..
[212]
|
39.
Pollination biology of Rhododendron cyanocarpum (Ericaceae): An al..
[207]
|
40.
利用流式细胞仪测定荚蒾属植物的基因组大小
[203]
|
41.
Chromosome counts and karyotype analysis of Viburnum taxa (Adoxace..
[201]
|
42.
Semen-Like Floral Scents and Pollination Biology of a Sapromyophil..
[199]
|
43.
Ploidy variation in Trigonobalanus verticillata (Fagaceae)
[195]
|
44.
极小种群野生植物大树杜鹃的解剖结构研究
[186]
|
45.
Conservation of the giant tree rhododendron on Gaoligong Mountain,..
[183]
|
46.
Conservation of the Yangbi maple Acer yangbiense in China
[178]
|
47.
Genetic diversity of the rare Asian plant, Trigonobalanus doichang..
[174]
|
48.
Karyomorphology of the endangered Trigonobalanus doichangensis (A...
[173]
|
49.
Chemical composition of diaspores of the myrmecochorous plant Stem..
[173]
|
50.
Chinese magnolias - it's mostly as bad as we thought
[172]
|
51.
Evidence for natural hybridization between Primula beesiana and P...
[172]
|
52.
Comparison of floral properties and breeding system in dimorphic B..
[172]
|
53.
Case study of building of conservation coalitions to conserve ecol..
[165]
|
54.
Genetic diversity and conservation evaluation of a critically enda..
[163]
|
55.
Chinese Magnoliaceae - priorities for action
[161]
|
56.
Rediscovery of the supposedly extinct Pedicularis humilis in the e..
[154]
|
57.
贵州百里杜鹃自然保护区杜鹃花属种质资源的调查
[146]
|
58.
Comparison of floral scent between and within Buddleja fallowiana ..
[145]
|
59.
紫花含笑(♀)、灰岩含笑(♂)及其杂种F_1代花粉萌发试验研究
[144]
|
60.
'Chilongzhua' and 'Yanzhizui': Two Interspecific Hybrid Cultivars ..
[144]
|
61.
Phylogenetic relationships in tribe Buddlejeae (Scrophulariaceae) ..
[139]
|
62.
Strong reproductive isolation despite occasional hybridization bet..
[133]
|
63.
极小种群野生植物抢救性保护面临的机遇与挑战
[129]
|
64.
Spore Dispersal of Fetid Lysurus mokusin by Feces of Mycophagous I..
[126]
|
65.
A new species of Rhododendron (Ericaceae) from Baili Rhododendron ..
[124]
|
66.
小微家族;蕴意深远——极小种群野生植物保护
[123]
|
67.
三七种子质量分级标准的研究
[121]
|
68.
Urgent protection is required for Michelia lacei (Magnoliaceae) in..
[116]
|
69.
Conserving Firmiana major, a tree species endemic to China
[109]
|
70.
Variation in floral characters, particularly floral scent, in sapr..
[107]
|
71.
Conserving threatened widespread species: a case study using a tra..
[107]
|
72.
Evaluation of RFID Tags to Permanently Mark Trees in Natural Popul..
[102]
|
73.
A new programme for conservation of Plant Species with Extremely S..
[100]
|
74.
紫花含笑(♀)×钙土含笑(♂)杂种F1代的离体繁殖
[99]
|
75.
高温对三棱栎种子萌发及活力的影响
[98]
|
76.
Growth discrepancy between filament and style facilitates autonomo..
[92]
|
77.
鸡矢藤及鸡粪的挥发性臭味分析及其科普价值解析
[81]
|
78.
Rediscovery and conservation of the Critically Endangered Rhododen..
[81]
|
79.
Current conservation status and reproductive biology of the giant ..
[79]
|
80.
滇西北特有植物蓝果杜鹃的花色多态性研究(英文)
[77]
|
81.
De novo genome assembly of the endangered Acer yangbiense, a plant..
[66]
|
82.
Complete chloroplast genome sequence of Magnolia sinica (YWLaw) No..
[65]
|
83.
Conservation implications of asymmetric introgression and reproduc..
[59]
|
84.
Rescuing Christensenia aesculifolia (Marattiaceae), a plant specie..
[58]
|
85.
云南梧桐的再发现
[56]
|
86.
Progress of implementation on the Global Strategy for Plant Conser..
[48]
|
87.
云南姜科一新记录属———大苞姜属
[46]
|
88.
中国油橄榄适生区研究
[41]
|
89.
How a New Conservation Action Concept Has Accelerated Plant Conser..
[40]
|
90.
Discovery of a wild population of Orchidantha yunnanensis in south..
[39]
|
91.
云南姜科一新记录属——大苞姜属
[36]
|
92.
一种秋海棠杂交品种的选育方法
[34]
|
93.
Floral characteristics and pollination ecology of Manglietia venti..
[34]
|
94.
Conservation and fruit biology of Sichou oak (Quercus sichourensis..
[34]
|
95.
De novo genome assembly of the endangered Acer yangbiense, a plant..
[32]
|
96.
Conservation and fruit biology of Sichou oak (Quercus sichourensis..
[30]
|
97.
In-situ and ex situ pollination biology of the four threatened pla..
[30]
|
98.
Does the giant tree rhododendron need conservation priority?
[29]
|
99.
Characterization of the Complete Chloroplast Genomes of Buddleja c..
[29]
|
100.
仿栗油脂体化学组成及其与种子传播者关系的初步研究
[25]
|