Relative importance of genetic, ontogenetic, induction, and seasonal variation in producing a multivariate defense phenotype in a foundation tree species.
about
Genotypic Tannin Levels in Populus tremula Impact the Way Nitrogen Enrichment Affects Growth and Allocation Responses for Some Traits and Not for OthersDefense pattern of Chinese cork oak across latitudinal gradients: influences of ontogeny, herbivory, climate and soil nutrientsGenetic and ontogenetic variation in an endangered tree structures dependent arthropod and fungal communitiesPopulation divergence in the ontogenetic trajectories of foliar terpenes of a Eucalyptus speciesExplaining intraspecific diversity in plant secondary metabolites in an ecological context.Incorporation of an introduced weed into the diet of a native butterfly: consequences for preference, performance and chemical defense.Stream carbon and nitrogen supplements during leaf litter decomposition: contrasting patterns for two foundation species.Genotype variation in bark texture drives lichen community assembly across multiple environments.Plant-herbivore interactions in a trispecific hybrid swarm of Populus: assessing support for hypotheses of hybrid bridges, evolutionary novelty and genetic similarity.The Influence of Time and Plant Species on the Composition of the Decomposing Bacterial Community in a Stream Ecosystem.Phylogeny Predicts the Quantity of Antimalarial Alkaloids within the Iconic Yellow Cinchona Bark (Rubiaceae: Cinchona calisaya).The importance of aboveground-belowground interactions on the evolution and maintenance of variation in plant defense traits.Compositional Changes in Foliage Phenolics with Plant Age, a Natural Experiment in Boreal Forests.The timing of leaf damage affects future herbivory in mountain sagebrush (Artemisia tridentata).Long-term exposure to elevated CO2 and O3 alters aspen foliar chemistry across developmental stages.Arthropod communities on hybrid and parental cottonwoods are phylogenetically structured by tree type: Implications for conservation of biodiversity in plant hybrid zones.Outbreak of Drepanopeziza fungus in aspen forests and variation in stand susceptibility: leaf functional traits, compensatory growth and phenologyGenetic stability of physiological responses to defoliation in a eucalypt and altered chemical defence in regrowth foliage.Intra-Population Variation of Secondary Metabolites in Cistus ladanifer L.Foliar bacterial communities of trembling aspen in a common garden.Phytochemical variation in treetops: causes and consequences for tree-insect herbivore interactions.Sex-related differences in growth and carbon allocation to defence in Populus tremula as explained by current plant defence theories.An optimal defense strategy for phenolic glycoside production in Populus trichocarpa--isotope labeling demonstrates secondary metabolite production in growing leaves.Large effect quantitative trait loci for salicinoid phenolic glycosides in Populus: Implications for gene discovery.Elevated CO2 and O3 alter the feeding efficiency of Acyrthosiphon pisum and Aphis craccivora via changes in foliar secondary metabolites.Effects of elevation and nitrogen and phosphorus fertilization on plant defence compounds in subarctic tundra heath vegetation
P2860
Q28550437-3BBCEB94-3DE5-4B71-850B-7927AB9CF3DEQ28601873-C85B8328-E11C-4E00-B2EF-1E2FBF675F13Q28650444-BA3FDAD7-3902-470A-859A-67D8F03D7550Q34824685-D4B0410B-0FF1-4810-855E-DE96F044DDA4Q35015487-118CE109-DAA5-46FE-94E8-23D0F0A761E1Q35021447-D83B75D5-18EA-42A2-8E4D-AB6416567755Q35249367-A2225D01-EDFB-4AEC-8263-AA8C5CF51A86Q35729322-743EA3AB-F1BC-4596-A9E2-F5B75E802D73Q35766309-D364E4DA-B50A-439D-A19A-A96819F74DE3Q35924488-AB5ABAFD-6320-4411-8649-E75013FBB132Q36337440-3DC57A1D-94F2-4F75-81A1-AEF63947D065Q37347725-E5A90B52-AD59-43B5-A528-1F8F51F4538DQ38602653-F7BE7549-2741-4FAB-9D5B-2F844683A000Q38672791-BE29EA7A-B4CB-4D9F-874B-C9819F9C4DD7Q39355335-D2EC14E4-5C01-4C46-B639-955F9370F734Q41339287-8D3945D2-FAD5-434D-A231-501F2EEA95DBQ41932099-C4129F69-71EB-4CA5-B33E-82DCF40246FCQ46455268-0DA9E2FC-2CAF-440F-95DA-197C8BD367A1Q46511583-90740400-185F-4F62-87D5-D40C2CDAB148Q46784742-A2350238-767E-4351-B090-42E6FA5CC543Q51151693-771378BC-D924-40D8-9A74-3A20DDE758E8Q51443385-ED8F2C10-C484-40B9-ACC8-6B9F8D5CEA64Q51741241-0CE568DD-9F6C-43B1-899F-65A8BBC681F9Q52568237-49B2F039-2A3E-4559-9066-FE93B151BA64Q55498337-A1925E5A-F265-4ABB-8F0B-75DE04592978Q57055754-63AB9C68-8E8A-4D30-9B07-E205EDFFDF97
P2860
Relative importance of genetic, ontogenetic, induction, and seasonal variation in producing a multivariate defense phenotype in a foundation tree species.
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年学术文章
@wuu
2012年学术文章
@zh
2012年学术文章
@zh-cn
2012年学术文章
@zh-hans
2012年学术文章
@zh-my
2012年学术文章
@zh-sg
2012年學術文章
@yue
2012年學術文章
@zh-hant
name
Relative importance of genetic ...... in a foundation tree species.
@en
Relative importance of genetic ...... in a foundation tree species.
@nl
type
label
Relative importance of genetic ...... in a foundation tree species.
@en
Relative importance of genetic ...... in a foundation tree species.
@nl
prefLabel
Relative importance of genetic ...... in a foundation tree species.
@en
Relative importance of genetic ...... in a foundation tree species.
@nl
P2093
P2860
P1433
P1476
Relative importance of genetic ...... in a foundation tree species.
@en
P2093
Liza M Holeski
Michael L Hillstrom
Richard L Lindroth
Thomas G Whitham
P2860
P2888
P304
P356
10.1007/S00442-012-2344-6
P407
P577
2012-06-01T00:00:00Z