Glucosinolate polymorphism in wild cabbage (Brassica oleracea) influences the structure of herbivore communities.
about
Relative importance of biotic and abiotic soil components to plant growth and insect herbivore population dynamicsThe investment in scent: time-resolved metabolic processes in developing volatile-producing Nigella sativa L. seedsLeaf Colour as a Signal of Chemical Defence to Insect Herbivores in Wild Cabbage (Brassica oleracea)Plant insecticidal toxins in ecological networks.Drought alters interactions between root and foliar herbivores.An example of host plant expansion of host-specialized Aphis gossypii Glover in the field.Variation and fitness costs for tolerance to different types of herbivore damage in Boechera stricta genotypes with contrasting glucosinolate structuresIn vitro activity of glucosinolates and their degradation products against brassica-pathogenic bacteria and fungi.Tri-trophic effects of inter- and intra-population variation in defence chemistry of wild cabbage (Brassica oleracea).Population-related variation in plant defense more strongly affects survival of an herbivore than its solitary parasitoid wasp.Interactions Between a Belowground Herbivore and Primary and Secondary Root Metabolites in Wild CabbageThe Perennial Penstemon: Variation in Defensive Chemistry Across Years, Populations, and Tissues.The importance of aboveground-belowground interactions on the evolution and maintenance of variation in plant defense traits.Origin and evolution of transporter substrate specificity within the NPF family.Direct and indirect chemical defences against insects in a multitrophic framework.Toxicity of Monoterpene Structure, Diversity and Concentration to Mountain Pine Beetles, Dendroctonus ponderosae: Beetle Traits Matter More.Effects of Terpene Chemotypes of Melaleuca alternifolia on Two Specialist Leaf Beetles and Susceptibility to Myrtle Rust.Glucosinolate Profiles in Cabbage Genotypes Influence the Preferential Feeding of Diamondback Moth (Plutella xylostella).Testing the optimal defense hypothesis in nature: Variation for glucosinolate profiles within plants.Interactive Effects of Cabbage Aphid and Caterpillar Herbivory on Transcription of Plant Genes Associated with Phytohormonal Signalling in Wild Cabbage.The ability to manipulate plant glucosinolates and nutrients explains the better performance of Bemisia tabaci Middle East-Asia Minor 1 than Mediterranean on cabbage plantsPlant-mediated interactions between two herbivores differentially affect a subsequently arriving third herbivore in populations of wild cabbage.Bottom-up and top-down herbivore regulation mediated by glucosinolates in Brassica oleracea var. acephala.Intra-specific variation in wild Brassica oleracea for aphid-induced plant responses and consequences for caterpillar-parasitoid interactions.Natural enemies drive geographic variation in plant defenses.Transcriptome analysis of terpene chemotypes of Melaleuca alternifolia across different tissues.Intraspecific chemical diversity among neighbouring plants correlates positively with plant size and herbivore load but negatively with herbivore damage.Bottom-Up Mechanisms Generate the Same Temporal Pattern of Attack by a Specialist and a Generalist Caterpillar on Short-Lived Plants.Feeding behaviour of generalist pests on Brassica juncea: implication for manipulation of glucosinolate biosynthesis pathway for enhanced resistance.Differentiation and adaptation in Brassica nigra populations: interactions with related herbivores.How does the host-specialized aphid deal with food deficiency?Using knockout mutants to reveal the growth costs of defensive traits.Effects of soil organisms on aboveground multitrophic interactions are consistent between plant genotypes mediating the interactionLoss of heterosis and family-dependent inbreeding depression in plant performance and resistance against multiple herbivores under drought stressThe Influence of Host Plants on Herbivore Community Composition on Brassica Crops in Western SiberiaPlant domestication decreases both constitutive and induced chemical defences by direct selection against defensive traits
P2860
Q28475570-DD5B2B5E-808C-4905-9001-AE8071C9DFAAQ28536600-371D6CB1-639B-42A8-A26E-71BBD94E60FCQ28547814-FF9EFD35-57C2-41E5-8CAB-852F616363D5Q30467523-BE4C8ABA-A40C-47F5-802D-A5BB22FDEDE7Q30584745-2CC4E652-15C4-43AD-B56B-C806136540DCQ33699483-B1B68ECD-F29D-4F6C-93A4-70C28184CB28Q34179877-62CBE61E-C647-49DB-B773-79C2889F921FQ34747541-2B3E2E3F-1E7F-4715-8009-1ADB6085A5C6Q34981381-6DA6F4C1-A39F-4BA9-B473-597618216654Q35402818-886B1C1D-4530-4006-B730-E85592542478Q36054685-10EEDC60-A4FA-4627-9FC1-2BFE3D0BE4CAQ36394627-4B998122-AD27-45F9-98CD-33A88D19CFDDQ37347725-E35EA615-C205-4E30-909A-A218AE76313EQ37679855-59F47CDD-3F42-418B-BD18-901290BC37EEQ38192724-224E9E36-8D1B-4851-88EE-0BBB86A28412Q38930431-C34994FB-2E8D-4852-BDA3-674764171CF8Q40524144-4A7E37A2-C209-4E49-AFB9-434A52DCC363Q41037949-040D9086-DB82-419E-A02E-680DC91B322EQ41090201-D1C8667C-5762-409D-B21C-E45ECD104FE8Q41264776-4A65C8D2-E478-471C-AB2E-5AE922FDD1ECQ41546743-7150D01E-3312-4469-892F-0A1AB0F2E5FAQ41989591-BD923C06-F4A3-4A33-8B32-6104F3CA9442Q42005471-37B65C7E-B30A-4373-AFDE-AEC399D228FCQ42006159-3B05A600-24D6-499F-8300-CC7DA59586CBQ43672229-D0AD507D-6A89-4C70-A3F9-63F14A24AC59Q46326340-B498D476-667C-42EE-8594-8DB964695C5CQ46442348-1916EA56-09AC-4D30-A33C-4EC89EA29518Q46559465-F77016EA-F8CC-4984-929E-532E1408631BQ48231310-F1F35404-8161-4D1E-9177-3EC264D8099BQ51153574-1B7A069D-D4C9-4054-8AA1-779EA3FEF555Q51239270-DE879F4F-5BBC-4F65-B0D2-4B3BCD8DAA8EQ52714393-205C6B8D-3D34-4950-A799-8D3332FE8CBDQ56996824-B995E318-4399-4F31-AE66-95F545660729Q56998830-951226EE-69A2-43E3-9806-A3147CFFDA48Q58692093-3248E08B-9E9A-4DDB-9B06-3504C431A531Q58714390-76A3DF59-2E69-4ECA-81AB-978967B3559A
P2860
Glucosinolate polymorphism in wild cabbage (Brassica oleracea) influences the structure of herbivore communities.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh-hant
name
Glucosinolate polymorphism in ...... ture of herbivore communities.
@en
Glucosinolate polymorphism in wild cabbage
@nl
type
label
Glucosinolate polymorphism in ...... ture of herbivore communities.
@en
Glucosinolate polymorphism in wild cabbage
@nl
prefLabel
Glucosinolate polymorphism in ...... ture of herbivore communities.
@en
Glucosinolate polymorphism in wild cabbage
@nl
P2093
P2860
P1433
P1476
Glucosinolate polymorphism in ...... ture of herbivore communities.
@en
P2093
Dave J Hodgson
Erika L Newton
James M Bullock
P2860
P2888
P356
10.1007/S00442-009-1281-5
P407
P577
2009-02-12T00:00:00Z