Triazine resistance in Senecio vulgaris parental and nearly isonuclear backcrossed biotypes is correlated with reduced productivity

Medicine & Life Sciences

• Senecio 100%
• Triazines 85%
• Chloroplasts 51%
• Atrazine 43%
• Herbicides 24%
• Weights and Measures 17%
• Growth 13%
• Aconitate Hydratase 13%
• Inbreeding 13%
• Genome 12%
• Paraquat 12%
• Biomass 11%
• Pollen 10%
• Electron Transport 10%
• Isoenzymes 9%
• Water 6%
• Enzymes 5%

Agriculture & Biology

• Senecio vulgaris 84%
• triazines 69%
• biotypes 58%
• atrazine 7%
• chloroplasts 6%
• planting 4%
• meters (equipment) 4%
• nuclear genome 3%
• shoots 3%
• leaf area 3%
• triazine herbicides 3%
• aconitate hydratase 2%
• backcrossing 2%
• reciprocal crosses 2%
• paraquat 2%
• electron transport chain 2%
• leaf extracts 1%
• assimilation (physiology) 1%
• biomass production 1%
• isozymes 1%
• herbicides 1%
• pollen 1%
• greenhouses 1%
• duration 1%
• enzymes 0%
• leaves 0%
• water 0%