Effects of quantitative variation in allelochemicals in Plantago lanceolata on development of a generalist and a specialist herbivore and their endoparasitoids.
about
Plant community diversity influences allocation to direct chemical defence in Plantago lanceolataEffects of CO2 and temperature on tritrophic interactionsClimate Change and Tritrophic Interactions: Will Modifications to Greenhouse Gas Emissions Increase the Vulnerability of Herbivorous Insects to Natural Enemies?The leaf epidermome of Catharanthus roseus reveals its biochemical specialization.Reared microgastrine wasps (Hymenoptera: Braconidae) from Yanayacu Biological Station and environs (Napo Province, Ecuador): diversity and host specialization.Proposal for field sampling of plants and processing in the lab for environmental metabolic fingerprintingChanges in plant chemical defenses and nutritional quality as a function of ontogeny in Plantago lanceolata (Plantaginaceae).Incorporation of an introduced weed into the diet of a native butterfly: consequences for preference, performance and chemical defense.Differential performance of a specialist and two generalist herbivores and their parasitoids on Plantago lanceolataPopulation-related variation in plant defense more strongly affects survival of an herbivore than its solitary parasitoid wasp.Light and Nutrient Dependent Responses in Secondary Metabolites of Plantago lanceolata Offspring Are Due to Phenotypic Plasticity in Experimental Grasslands.Influences of Plant Traits on Immune Responses of Specialist and Generalist Herbivores.Performance of generalist and specialist herbivores and their endoparasitoids differs on cultivated and wild Brassica populations.Oviposition cues for a specialist butterfly--plant chemistry and sizeDirect and indirect chemical defences against insects in a multitrophic framework.Iridoid-specific glucosyltransferase from Gardenia jasminoides.Phytoplasma infection of a tropical root crop triggers bottom-up cascades by favoring generalist over specialist herbivores.Effects of the Timing of Herbivory on Plant Defense Induction and Insect Performance in Ribwort Plantain (Plantago lanceolata L.) Depend on Plant Mycorrhizal Status.Interactive effects between diet and genotypes of host and pathogen define the severity of infection.Incompatibility between plant-derived defensive chemistry and immune response of two sphingid herbivores.To be in time: egg deposition enhances plant-mediated detection of young caterpillars by parasitoids.Sequential effects of root and foliar herbivory on aboveground and belowground induced plant defense responses and insect performance.Seasonal phenology of interactions involving short-lived annual plants, a multivoltine herbivore and its endoparasitoid wasp.Pyrrolizidine alkaloid composition influences cinnabar moth oviposition preferences in Jacobaea hybrids.Synergistic effects of iridoid glycosides on the survival, development and immune response of a specialist caterpillar, Junonia coenia (Nymphalidae).Diet quality can play a critical role in defense efficacy against parasitoids and pathogens in the Glanville fritillary (Melitaea cinxia).Plant induced defenses depend more on plant age than previous history of damage: implications for plant-herbivore interactions.Direct and indirect resistance of sugarcane to Diatraea saccharalis induced by jasmonic acid.Pesticide stress on plants negatively affects parasitoid fitness through a bypass of their phytophage hosts.Development of a generalist predator, Podisus maculiventris, on glucosinolate sequestering and nonsequestering prey.Population dynamics and sex ratio of a parasitoid altered by fungal-infected diet of host butterfly.Genetic drift precluded adaptation of an insect seed predator to a novel host plant in a long-term selection experiment.A novel integrated non-targeted metabolomic analysis reveals significant metabolite variations between different lettuce (Lactuca sativa. L) varieties.Development of Mamestra brassicae and its solitary endoparasitoid Microplitis mediator on two populations of the invasive weed Bunias orientalisEffects of dietary nicotine on the development of an insect herbivore, its parasitoid and secondary hyperparasitoid over four trophic levelsThe effect of direct and indirect defenses in two wild brassicaceous plant species on a specialist herbivore and its gregarious endoparasitoidDevelopment of the herbivore Pieris rapae and its endoparasitoid Cotesia rubecula on crucifers of field edgesImportance of primary metabolites in canola in mediating interactions between a specialist leaf-feeding insect and its specialist solitary endoparasitoidSpecies-specific plant-soil feedbacks alter herbivore-induced gene expression and defense chemistry in Plantago lanceolata
P2860
Q28478333-A8355262-AC74-4311-8717-FC29ED82129BQ28486972-3B882D32-C583-402E-9F60-C965EB5B4700Q30990320-C92CC427-ACB4-4449-A0E2-FECC246188AEQ33323012-0AEF3CA0-DB53-4082-886F-5AA178302E6EQ33483559-82DEC6A9-86FC-4ADC-A06E-F1A8E36426D2Q33702521-58C38F89-86E2-46AD-AD36-A6DE09C0621CQ34018092-AD1E7ABB-030E-45C7-B1F2-3CECE063AA0DQ35021447-293B2157-868B-44AC-9DB0-9D067D7CC1E2Q35074883-14837D19-602C-4010-9074-784EC9864CFBQ35402818-A1935B63-0E17-4ED2-AA7C-1659B1B67B1EQ35763753-D7F913C6-74EE-46C8-B2A2-0D005DF9C4A8Q36007627-1652EDC8-AC95-4C6C-B90D-78AF8334C1BEQ36454761-56BE4C6C-D690-4BAE-B1B8-4E158CCE5DC5Q36843913-54062219-0469-4FA3-AC20-FF80CC8ACA97Q38192724-5710C148-18C0-4315-9A04-C3988A38C272Q38421967-4C787549-9EE8-4204-AD22-B2F480E8FEC0Q38622177-62FFB1E6-8D26-4226-A288-AF2577019B9AQ38944481-E3A8388E-0E45-430A-9023-672CFED2F832Q41505663-1A6EBEFC-FF24-444B-9463-945F0C2E197FQ42000229-ACC4A92D-25DD-4096-8890-A092A44D95A3Q42001355-6A00AE46-DA8E-4DF4-AD5F-08E6B2BDA38CQ42005096-433CD1CB-B511-410F-BD66-DC6BBE78488DQ42006697-D4CFD033-6FC0-4414-BD88-BCAB70C0B2CEQ42009540-7BF9D4F4-F270-4F9A-8500-F29966D34974Q42011293-27995C20-7C9B-4569-BC83-5612A18AD4B0Q42014405-B132DBD5-80F1-4326-8076-326A3A57327EQ42016186-8DF2AA76-6B9C-42CE-B5E4-3020F25E01BAQ46378366-522EE6CF-55BF-464F-9556-1043CAD119A6Q46419304-02A11A2F-8B1D-43D5-A25F-05450F3413D8Q51069350-4A68AB59-EFF1-4BAB-AB28-0FE80EB15A2FQ51720339-778BBC25-0A99-4972-8E90-7CCFDAE0E8C2Q55323206-14CEB0A8-761C-4030-827C-0768A956C8A3Q55417233-E1E16602-283F-487F-808F-56EE7979B3DDQ56743091-9111BEFE-2BE1-4E5B-AD71-0183A0787A06Q56998988-C8401A46-E744-4252-B33F-B2C91E19B38AQ57032253-34FED373-3754-4C20-A251-46977045465AQ57032285-50FE4DDC-DA95-4B73-B822-2B7CFF0B2D97Q57032687-D5038AE0-FCD1-4E15-B3A5-48377ECE3BC3Q58779257-4F18F82E-42CF-4C23-A42B-B6217C2A898D
P2860
Effects of quantitative variation in allelochemicals in Plantago lanceolata on development of a generalist and a specialist herbivore and their endoparasitoids.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
2005年论文
@zh
2005年论文
@zh-cn
name
Effects of quantitative variat ...... ore and their endoparasitoids.
@en
Effects of quantitative variat ...... ore and their endoparasitoids.
@nl
type
label
Effects of quantitative variat ...... ore and their endoparasitoids.
@en
Effects of quantitative variat ...... ore and their endoparasitoids.
@nl
prefLabel
Effects of quantitative variat ...... ore and their endoparasitoids.
@en
Effects of quantitative variat ...... ore and their endoparasitoids.
@nl
P50
P1476
Effects of quantitative variat ...... ore and their endoparasitoids.
@en
P2888
P304
P356
10.1007/S10886-005-1341-1
P577
2005-02-01T00:00:00Z
P5875
P6179
1032120217