nuisibilité – English Translation – Keybot Dictionary
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<a href='https://iate.europa.eu/home'>IATE</a> 2841
nuisibilité
=>
noxiousness
Keybot
109
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6
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www.omafra.gov.on.ca
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Annexe G. Calculs afférents à détermination du seuil de
nuisibilité
économique de la pyrale du maïs
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Appendix D. Feed- Mould- and Mycotoxin-Testing Laboratories
www.grainscanada.gc.ca
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Les espèces énumérées ci-après sont regroupées selon leur statut de
nuisibilité
(ravageurs primaires ou secondaires), en ordre alphabétique, par ordre d'insectes (coléoptères, lépidoptères [papillons] et psocoptères [psoques]), famille et nom scientifique.
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The pests listed are grouped by pest status, as primary or secondary. They are organized alphabetically by insect order (Coleoptera: beetles, Lepidoptera: moths, Pscoptera: booklice), family and scientific name. The common name is listed first on the pest status lists and pest fact sheets.
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www.omaf.gov.on.ca
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La lutte intégrée repose sur les recours à toutes les méthodes de lutte dans le but de maintenir les ennemis des cultures en deçà des seuils de
nuisibilité
économique. Les méthodes de lutte sont culturales, physiques, biologiques, comportementales et chimiques.
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Integrated pest management (IPM) is an approach to pest control that considers all management options to maintain pests below an economic injury level. Tools for the management of pests include cultural, physical, biological, behavioural and chemical. With IPM, adverse effects of pesticides are minimized and economic returns are maintained.
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www5.agr.gc.ca
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Les principales préoccupations environnementales que soulèvent les cultures d’organismes génétiquement modifiés (OGM) ont trait au risque d’un flux de transgènes qui aurait pour effet d’augmenter la
nuisibilité
ou le pouvoir envahissant de l’OGM cultivé ainsi que des plantes sauvages et mauvaises herbes apparentées.
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The main environmental concerns about genetically modified (GM) crops are the potential weediness or invasiveness in the crop itself or in its wild or weedy relatives as a result of transgene movement. Here we briefly review evidence for pollen- and seed-mediated gene flow from GM crops to non-GM or other GM crops and to wild relatives. The report focuses on the effect of abiotic and biotic stress-tolerance traits on plant fitness and their potential to increase weedy or invasive tendencies. An evaluation of weediness and invasive traits that contribute to the success of agricultural weeds and invasive plants was of limited value in predicting the effect of biotic and abiotic stress-tolerance GM traits, suggesting context-specific evaluation rather than generalizations. Fitness data on herbicide, insect, and disease resistance, as well as cold-, drought-, and salinity-tolerance traits, are reviewed. We describe useful ecological models predicting the effects of gene flow and altered fitness in GM crops and wild/weedy relatives, as well as suitable mitigation measures. A better understanding of factors controlling population size, dynamics, and range limits in weedy volunteer GM crop and related host or target weed populations is necessary before the effect of biotic and abiotic stress-tolerance GM traits can be fully assessed.
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www.listeriosis-listeriose.investigation-enquete.gc.ca
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Les principales préoccupations environnementales que soulèvent les cultures d’organismes génétiquement modifiés (OGM) ont trait au risque d’un flux de transgènes qui aurait pour effet d’augmenter la
nuisibilité
ou le pouvoir envahissant de l’OGM cultivé ainsi que des plantes sauvages et mauvaises herbes apparentées.
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listeriosis-listeriose.investigation-enquete.gc.ca
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The main environmental concerns about genetically modified (GM) crops are the potential weediness or invasiveness in the crop itself or in its wild or weedy relatives as a result of transgene movement. Here we briefly review evidence for pollen- and seed-mediated gene flow from GM crops to non-GM or other GM crops and to wild relatives. The report focuses on the effect of abiotic and biotic stress-tolerance traits on plant fitness and their potential to increase weedy or invasive tendencies. An evaluation of weediness and invasive traits that contribute to the success of agricultural weeds and invasive plants was of limited value in predicting the effect of biotic and abiotic stress-tolerance GM traits, suggesting context-specific evaluation rather than generalizations. Fitness data on herbicide, insect, and disease resistance, as well as cold-, drought-, and salinity-tolerance traits, are reviewed. We describe useful ecological models predicting the effects of gene flow and altered fitness in GM crops and wild/weedy relatives, as well as suitable mitigation measures. A better understanding of factors controlling population size, dynamics, and range limits in weedy volunteer GM crop and related host or target weed populations is necessary before the effect of biotic and abiotic stress-tolerance GM traits can be fully assessed.
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www.agr.ca
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Les principales préoccupations environnementales que soulèvent les cultures d’organismes génétiquement modifiés (OGM) ont trait au risque d’un flux de transgènes qui aurait pour effet d’augmenter la
nuisibilité
ou le pouvoir envahissant de l’OGM cultivé ainsi que des plantes sauvages et mauvaises herbes apparentées.
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agr.ca
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The main environmental concerns about genetically modified (GM) crops are the potential weediness or invasiveness in the crop itself or in its wild or weedy relatives as a result of transgene movement. Here we briefly review evidence for pollen- and seed-mediated gene flow from GM crops to non-GM or other GM crops and to wild relatives. The report focuses on the effect of abiotic and biotic stress-tolerance traits on plant fitness and their potential to increase weedy or invasive tendencies. An evaluation of weediness and invasive traits that contribute to the success of agricultural weeds and invasive plants was of limited value in predicting the effect of biotic and abiotic stress-tolerance GM traits, suggesting context-specific evaluation rather than generalizations. Fitness data on herbicide, insect, and disease resistance, as well as cold-, drought-, and salinity-tolerance traits, are reviewed. We describe useful ecological models predicting the effects of gene flow and altered fitness in GM crops and wild/weedy relatives, as well as suitable mitigation measures. A better understanding of factors controlling population size, dynamics, and range limits in weedy volunteer GM crop and related host or target weed populations is necessary before the effect of biotic and abiotic stress-tolerance GM traits can be fully assessed.
