Search results for "Interaction"

showing 10 items of 5710 documents

Exploit biodiversity in viticultural systems to reduce pest damage and pesticide use, and increase ecosystem services provision: the Biovine project

2019

International audience; Organic vineyards still rely on large external inputs to control harmful organisms (i.e., pests). The BIOVINE project aims to develop natural solutions based on plant diversity to control pests and reduce pesticide dependence. The capability of plants of increasing the ecosystem resistance to pests and invasive species is a well-known ecosystem service. However, monocultures (including vineyards) do not exploit the potential of plant diversity. BIOVINE aims to develop new viticultural systems based on increased plant diversity within (e.g., cover crops) and/or around (e.g., hedges, vegetation spots) vineyards by planting selected plant species for the control of arth…

[SDE] Environmental SciencesViticultureCover crops[SDV]Life Sciences [q-bio]fungiCrop health quality protectionfood and beveragesWeed management[SDV] Life Sciences [q-bio]Crop combinations and interactionsSoil biologySustainability[SDE]Environmental SciencesBiodiversity and ecosystem services[SDV.BV]Life Sciences [q-bio]/Vegetal BiologySoil borne pathogens[SDV.BV] Life Sciences [q-bio]/Vegetal BiologySettore AGR/12 - PATOLOGIA VEGETALEMycorrhizal fungiArthropods
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Exploit biodiversity in viticultural systems to reduce pest damage and pesticide use, and increase ecosystems services provision: the BIOVINE Project

2018

Organic vineyards still rely on large external inputs to control harmful organisms (i.e., pests). The BIOVINE project aims to develop natural solutions based on plant diversity to control pests and reduce pesticide dependence. The capability of plants of increasing the ecosystem resistance to pests and invasive species is a well-known ecosystem service. However, monocultures (including vineyards) do not exploit the potential of plant diversity. BIOVINE aims to develop new viticultural systems based on increased plant diversity within (e.g., cover crops) and/or around (e.g., hedges, vegetation spots, edgings) vineyards by planting selected plant species for the control of arthropods, soil-bo…

[SDE] Environmental SciencesViticulture[SDV]Life Sciences [q-bio]fungiCrop health quality protectionfood and beveragesIntegrated pest managementpest damage[SDV] Life Sciences [q-bio]Crop combinations and interactions[SDE]Environmental SciencesBiodiversity and ecosystem services[SDV.BV]Life Sciences [q-bio]/Vegetal Biology[SDV.BV] Life Sciences [q-bio]/Vegetal Biologypesticide useSettore AGR/12 - PATOLOGIA VEGETALEComputingMilieux_MISCELLANEOUS
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Influence of type III bacterial secretion system on the interactions between plant and non pathogenic fluorescent Pseudomonads spp.

2010

No abstract

[SDE] Environmental Sciences[ SDV.BV ] Life Sciences [q-bio]/Vegetal BiologyInteractions plantes-microorganismes bénéfiques[SDV] Life Sciences [q-bio]Système de sécrétion de type IIIChampignons mycorhizogènes à arbusculesMycorrhiza helper bacteria (MHB)Medicago truncatula[SDV.BV]Life Sciences [q-bio]/Vegetal Biology[SDV.BV] Life Sciences [q-bio]/Vegetal BiologytheseRELATION PLANTE-MICROORGANISMESYSTEME DE SECRETIONPseudomonas spp. fluorescents
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Concepts and methods to assess phytosanitary quality of soils

2005

Chapitre 9.4 : Plant-microbe interactions and soil quality; International audience

[SDE] Environmental Sciences[SDV]Life Sciences [q-bio]health care facilities manpower and servicesfungieducationCELLULARfood and beveragesPLANT-PATHOGEN INTERACTIONSBIOTICABIOTIC[SDV] Life Sciences [q-bio]MOLECULAR[SDE]Environmental Scienceshealth care economics and organizationsSOILBORNE PATHOGENS
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Focus sur les interactions biotiques étudiées dans la plateformes CA-SYS : concept, dispostifs expérimentaux, données acquises

2020

National audience

[SDE] Environmental Sciencesagroécologie[SDE]Environmental Sciencesplateforme CA-SYSinteraction biotiqueComputingMilieux_MISCELLANEOUS
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Strategies for analyzing interactions between arbuscular mycorrhiza and bacteria

2013

National audience

[SDE] Environmental Sciencesinteraction bactérie-champignonmycorhize à arbusculearbuscular mycorrhiza[SDV]Life Sciences [q-bio]écologie[SDV] Life Sciences [q-bio]T3SS[SDE]Environmental Sciences[SDV.BV]Life Sciences [q-bio]/Vegetal Biology[SDV.BV] Life Sciences [q-bio]/Vegetal BiologyecologyrhizosphererhizosphèreComputingMilieux_MISCELLANEOUSbacterial-fungal interaction
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Connaître les sols français pour mieux les gérer

2012

National audience

[SDE] Environmental Sciencesinteraction plante-microorganismesoldénitrification[SDV]Life Sciences [q-bio]abondancebiodégradation[SDV] Life Sciences [q-bio]composition microbienne[SDE]Environmental Sciences[SDV.BV]Life Sciences [q-bio]/Vegetal Biology[SDV.BV] Life Sciences [q-bio]/Vegetal BiologyComputingMilieux_MISCELLANEOUSpesticidediversité
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The role and management of crop-weed interactions in agroecological cropping systems

2020

International audience

[SDE] Environmental Sciencesmechanistic model[SDE]Environmental Sciencescrop-weed interactionspecies traitfunctional ecologycropping system designComputingMilieux_MISCELLANEOUS
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Identification et caractérisation de candidats d'origine naturelle à action herbicide pour contrôler les adventices

2016

Les produits phytopharmaceutiques (ou pesticides) utilisés aujourd'hui en agriculture sont pointés du doigt pour leurs impacts potentiels sur l’environnement et les écosystèmes et pour les risques qu’ils sont susceptibles d’engendrer pour la santé animale et humaine (Inserm, 2013). Les objectifs majeurs de la thèse sont d’isoler et identifier des microorganismes pathogènes des adventices, et d’acquérir des connaissances sur les mécanismes de l'interaction plante adventicemicroorganismes dans le cadre du développement de bioherbicides pour contrôler les adventices. Outre une analyse bibliographique sur l'état des connaissances relatif aux interactions adventicesmicroorganismes, le travail de…

[SDE] Environmental Sciencesmicroorganismes[SDV]Life Sciences [q-bio]mode d'actionmycoherbicidesinteractions[SDV] Life Sciences [q-bio]bioherbicidessubstances naturelles[SDE]Environmental Sciences[SDV.BV]Life Sciences [q-bio]/Vegetal Biology[SDV.BV] Life Sciences [q-bio]/Vegetal Biologyadventicesmicroorganismes endophytesadventices-microorganismesdiversité
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Ex Ante evaluation of gene flow in oilseed rape with cropping system models

2013

Chapitre 4; Oilseed rape (OSR) genes can escape fields in space via pollen and seeds, and in time via volunteers resulting from seeds lost before or during oilseed rape harvest. When varieties co-exist, e.g. genetically-modified (GM) and non-GM varieties, this spatio-temporal gene flow can lead to the adventitious presence of GM seeds in non-GM harvests and thus cause financial losses for farmers and cooperatives. Gene flow depends on crop locations, succession, and management, as well as the location and management of semi-natural areas such as roadverges. The objective of this investigation was to present a simulation methodology using the spatially-explicit cropping system model GENESYS …

[SDE] Environmental Sciencesmodelcropping system modeloilseed rapegenesysrisk analysis[SDV]Life Sciences [q-bio]interactionlandscapecropping systemlabelling threshold[SDV] Life Sciences [q-bio]prospective scenariosvolunteers[SDE]Environmental Sciencesex ante evaluation[SDV.BV]Life Sciences [q-bio]/Vegetal Biology[SDV.BV] Life Sciences [q-bio]/Vegetal Biologygene flow
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