1.
Phylogeny and biogeography of Sassafras (Lauraceae) disjunct betwe..
[3786]
|
2.
Inhibitory Activities of Pancreatic Lipase and Phosphodiesterase f..
[1522]
|
3.
Morphological and molecular evidence of natural hybridization betw..
[1092]
|
4.
Morphological characteristics of leaf epidermis and size variation..
[987]
|
5.
Chloroplast phylogeography of Terminalia franchetii (Combretaceae)..
[951]
|
6.
Molecular phylogeny and biogeography of three closely related gene..
[943]
|
7.
Phylogeography of Sophora davidii (Leguminosae) across the "Tanaka..
[819]
|
8.
Phylogenetic and biogeographic complexity of Magnoliaceae in the N..
[782]
|
9.
Creative use of mountain biodiversity databases: The Kazbegi resea..
[779]
|
10.
Post-Boreotropical dispersals explain the pantropical disjunction ..
[761]
|
11.
Chloroplast phylogeny and phylogeography of Stellera chamaejasme o..
[741]
|
12.
世界种子植物科的分布区类型系统
[732]
|
13.
Elevational patterns of species richness and endemism for some imp..
[696]
|
14.
Positive associations between the cushion plant Arenaria polytrich..
[665]
|
15.
A phylogeny of Thermopsideae (Leguminosae : Papilionoideae) inferr..
[630]
|
16.
Evolutionary history and underlying adaptation of alpine plants on..
[623]
|
17.
Major advances in studies of the physical geography and living env..
[622]
|
18.
Rubus pseudofagifolius (subg. Lampobatus, Rosaceae), a replacement..
[618]
|
19.
Multifunctional bracts enhance plant fitness during flowering and ..
[611]
|
20.
Phylogenetic and biogeographic analyses of the Sino-Himalayan ende..
[610]
|
21.
水平基因转移在生物进化中的作用
[607]
|
22.
Floral closure induced by pollination in gynodioecious Cyananthus ..
[601]
|
23.
Systematics of the genus Salweenia (Leguminosae) from Southwest Ch..
[596]
|
24.
Global and regional tree species diversity
[589]
|
25.
Dispersals of Hyoscyameae and Mandragoreae (Solanaceae) from the N..
[587]
|
26.
Polyploidy in the flora of the Hengduan Mountains hotspot, southwe..
[567]
|
27.
Comparative morphology of leaf epidermis of Salix (Salicaceae) wit..
[564]
|
28.
Molecular phylogeny and biogeography of Astilbe (Saxifragaceae) in..
[563]
|
29.
Polyploidy and new chromosome counts in Anaphalis (Asteraceae: Gna..
[556]
|
30.
Out-of-India dispersal of Paliurus (Rhamnaceae) indicated by combi..
[555]
|
31.
Evolutionary radiations of cushion plants on the Qinghai-Tibet Pla..
[554]
|
32.
Evolutionary history and biogeography of Mandragora L. (Solanaceae..
[553]
|
33.
Cytological studies on the Sino-Himalayan endemic Anisodus and fou..
[551]
|
34.
Two new species of Wikstroemia (Thymelaeaceae) from western Sichua..
[549]
|
35.
Asymmetric hybridization in Rhododendron agastum: a hybrid taxon c..
[539]
|
36.
Soil nutrient availability determines the facilitative effects of ..
[514]
|
37.
Cytological study of Tibetia (Fabaceae) in the Hengduan Mountains ..
[512]
|
38.
Phylogenetic analysis of Toxicodendron (Anacardiaceae) and its bio..
[510]
|
39.
Evolutionary history of the subnival flora of the Himalaya-Hengdua..
[510]
|
40.
Cytological study on the genus Syncalathium (Asteraceae-Lactuceae)..
[506]
|
41.
Youngia zhengyiana (Asteraceae, Crepidinae), a new species from so..
[505]
|
42.
Molecular phylogeny of Anaphalis (Asteraceae, Gnaphalieae) with bi..
[497]
|
43.
Ethnomedicinal uses of Edible Wild Fruits (EWFs) in Swat Valley, N..
[494]
|
44.
MS-desi, a desiccation-related protein in the floral nectar of the..
[480]
|
45.
Cushion plants can have a positive effect on diversity at high ele..
[474]
|
46.
Oxalis wulingensis (Oxalidaceae), an Unusual New Species from Cent..
[472]
|
47.
MOLECULAR PHYLOGENY AND BIOGEOGRAPHIC DIVERSIFICATION OF PARTHENOC..
[471]
|
48.
Caffeoylated Phenylpropanoid Glycosides from Brandisia hancei Inhi..
[470]
|
49.
PHYLOGEOGRAPHY OF BUDDLEJA CRISPA (BUDDLEJACEAE) AND ITS CORRELATI..
[465]
|
50.
Phylogenetic analyses of Searsia (Anacardiaceae) from eastern Asia..
[455]
|
51.
Plants are more likely to be spiny at mid-elevations in the Qingha..
[445]
|
52.
Intercontinental biogeography of subfamily Orontioideae (Symplocar..
[442]
|
53.
Acidic alpha-galactosidase is the most abundant nectarin in floral..
[439]
|
54.
Diversity patterns of cushion plants on the Qinghai-Tibet Plateau:..
[436]
|
55.
Generic phylogeny and character evolution in Urticeae (Urticaceae)..
[431]
|
56.
Phylogeny and biogeographic diversification of Maianthemum (Ruscac..
[430]
|
57.
Leaf epidermal characteristics of Asiatic Buddleja L. under scanni..
[429]
|
58.
Patterns of flower morphology and sexual systems in the subnival b..
[427]
|
59.
Survival and reproduction of plant species in the Qinghai-Tibet Pl..
[423]
|
60.
Karyological studies on the Sino-Himalayan endemic Soroseris and t..
[421]
|
61.
In and out of the Qinghai-Tibet Plateau: divergence time estimatio..
[420]
|
62.
Habitat-specific responses of seed germination and seedling establ..
[417]
|
63.
Recent assembly of the global herbaceous flora: evidence from the ..
[416]
|
64.
Rubus tetsunii, a replacement name for the Chinese R. lobatus T. T..
[415]
|
65.
Grey leaves in an alpine plant: a cryptic colouration to avoid att..
[409]
|
66.
Monophyly of Kelloggia Torrey ex Benth. (Rubiaceae) and evolution ..
[404]
|
67.
你为我传粉;我为你育儿——恶劣环境下塔黄的繁殖策略
[404]
|
68.
Gene refashioning through innovative shifting of reading frames in..
[404]
|
69.
Parasyncalathium JW Zhang, Boufford & H. Sun (Asteraceae, Cichorie..
[403]
|
70.
Tropical Asian Origin, boreotropical migration and long-distance d..
[403]
|
71.
Buddleja davidii and Buddleja yunnanensis: Exploring features asso..
[402]
|
72.
Oreocharis rubrostriata (Gesneriaceae), a new species from Guangxi..
[399]
|
73.
Chromosome counts and karyotypes in Chaetoseris and Stenoseris (As..
[398]
|
74.
Zhengyia shennongensis: A new bulbiliferous genus and species of t..
[398]
|
75.
Seed and microsite limitation in Rheum nobile, a rare and endemic ..
[390]
|
76.
Molecular phylogenetics and biogeography of the eastern Asian-east..
[389]
|
77.
The 29 degrees N latitudinal line: an important division in the He..
[387]
|
78.
Phylogeny of Nolana (Solanaceae) of the Atacama and Peruvian deser..
[386]
|
79.
Molecular phylogeny and biogeography of the arctic-alpine genus La..
[383]
|
80.
Phylogeographic structure of Terminalia franchetii (Combretaceae) ..
[382]
|
81.
Phylogeography of Cyananthus delavayi (Campanulaceae) in Hengduan ..
[382]
|
82.
Molecular phylogeny of Solms-laubachia (Brassicaceae) s.l., based ..
[380]
|
83.
Two new genera of Gentianinae (Gentianaceae): Sinogentiana and Kue..
[379]
|
84.
青藏高原生态变化
[379]
|
85.
Support for an expanded Solms-Laubachia (Brassicaceae): Evidence f..
[377]
|
86.
Quantitative approaches to identify floristic units and centres of..
[377]
|
87.
A karyological study of six species of Silene L. (Caryophyllaceae)..
[376]
|
88.
Systematics, biogeography, and character evolution of Deutzia (Hyd..
[374]
|
89.
The reproductive biology of Stellera chamaejasme (Thymelaeaceae): ..
[373]
|
90.
Identification and cloning of class II and III chitinases from alk..
[373]
|
91.
A synopsis of an expanded Solms-laubachia (Brassicaceae), and the ..
[372]
|
92.
Phylogenetic clustering and overdispersion for alpine plants along..
[366]
|
93.
Taxonomic revision of Carpesium linearibracteatum (Asteraceae: Inu..
[366]
|
94.
Divergence in cryptic leaf colour provides local camouflage in an ..
[365]
|
95.
Cadmium phytoremediation potential of turnip compared with three c..
[365]
|
96.
Evolution of biogeographic disjunction between eastern Asia and ea..
[363]
|
97.
Cytological study on Kelloggia (Rubiaceae), an intercontinental di..
[362]
|
98.
Molecular phylogeny of Salix L. (Salicaceae) inferred from three c..
[360]
|
99.
Ethylene signalling is essential for the resistance of Nicotiana a..
[360]
|
100.
Requirement of ABA signalling-mediated stomatal closure for resist..
[359]
|