R. M. Pedroso, R. Victoria, A. Ulguim, Roberto C Avila, Durval Dourado
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Crop phytotoxicity was determined using biomass production both in the field and in greenhouse trials. Results: Mesotrione, bentazon, 2,4-D, and a 2,4-D+bentazon tank-mix produced light symptoms of crop phytotoxicity, from which plants quickly recovered. Conyza spp. control was achieved via applications of mesotrione (192 g a.i. ha -1 ), metsulfuron-methyl (3.9 g a.i. ha -1 ), and a 2,4-D + bentazon tank-mix (502.5 g a.e. ha -1 + 720 g a.i. ha -1 , respectively), whereas proper G. americana control was only achieved via applications of either mesotrione or metsulfuron-methyl. Biomass accumulation by black oat plants in the greenhouse was similar across mesotrione-treated and untreated plants. Conclusions: Mesotrione could become an option for selective, post-emergence weed control in black oat fields, aiding in the fight against multiple herbicide-resistant Conyza spp. populations which are widespread across major black oat-growing areas in Brazil.","PeriodicalId":29845,"journal":{"name":"Advances in Weed Science","volume":"1 1","pages":""},"PeriodicalIF":1.8000,"publicationDate":"2021-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Mesotrione use for selective post-emergence control of glyphosate-resistant Conyza spp. in black oats\",\"authors\":\"R. M. Pedroso, R. Victoria, A. 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Results: Mesotrione, bentazon, 2,4-D, and a 2,4-D+bentazon tank-mix produced light symptoms of crop phytotoxicity, from which plants quickly recovered. Conyza spp. control was achieved via applications of mesotrione (192 g a.i. ha -1 ), metsulfuron-methyl (3.9 g a.i. ha -1 ), and a 2,4-D + bentazon tank-mix (502.5 g a.e. ha -1 + 720 g a.i. ha -1 , respectively), whereas proper G. americana control was only achieved via applications of either mesotrione or metsulfuron-methyl. Biomass accumulation by black oat plants in the greenhouse was similar across mesotrione-treated and untreated plants. 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引用次数: 0
摘要
背景:由于已登记的除草剂分子数量有限,在黑燕麦田实现令人满意的杂草控制水平通常是困难的。目的:确定新选择的选择性,苗期后化学杂草控制作物。方法:在分蘖期对黑燕麦植株进行田间喷洒8种除草剂,评价巴西黑燕麦两种主要杂草Conyza spp.和Gamochaeta americana的安全性和防治效果。为了进一步评估除草剂在受控环境下的安全性,进行了一项单独的试验,然后在下一个生长季节在温室中单独重新评估了美索三酮的选择性。作物的植物毒性是在田间和温室试验中利用生物质生产来确定的。结果:美索三酮、苯他松、2,4- d和2,4- d +苯他松混合罐对作物产生轻微的植物毒性症状,植物很快恢复。通过施用中三酮(192 g a.i. ha -1)、甲磺隆-甲基(3.9 g a.i. ha -1)和2,4- d +苯达松罐式混合物(分别为502.5 g a.i. ha -1 + 720 g a.i. ha -1)实现了对Conyza的控制,而适当的美洲大蠊控制只能通过施用中三酮或甲磺隆-甲基来实现。温室内黑燕麦植株的生物量积累量在中三酮处理和未处理植株中相似。结论:美索三酮可作为黑燕麦田发生后杂草选择性防治的一种选择,有助于防治在巴西主要黑燕麦种植区广泛存在的多种抗除草剂Conyza种群。
Mesotrione use for selective post-emergence control of glyphosate-resistant Conyza spp. in black oats
: Background: Achieving satisfactory weed control levels in black oat ( Avena strigosa ) fields is often difficult, owing to the limited number of registered herbicide molecules. Objective: To determine novel options for selective, post-emergence chemical weed control in this crop. Methods: Eight herbicide treatments were sprayed in the field onto black oat plants at the tillering stage to evaluate crop safety and control of Conyza spp. and Gamochaeta americana , two major weeds of Brazilian black oats. A separate trial was conducted to further assess herbicide safety in a controlled-environment setting, and mesotrione selectivity was then re-evaluated separately in the greenhouse during the following growing season. Crop phytotoxicity was determined using biomass production both in the field and in greenhouse trials. Results: Mesotrione, bentazon, 2,4-D, and a 2,4-D+bentazon tank-mix produced light symptoms of crop phytotoxicity, from which plants quickly recovered. Conyza spp. control was achieved via applications of mesotrione (192 g a.i. ha -1 ), metsulfuron-methyl (3.9 g a.i. ha -1 ), and a 2,4-D + bentazon tank-mix (502.5 g a.e. ha -1 + 720 g a.i. ha -1 , respectively), whereas proper G. americana control was only achieved via applications of either mesotrione or metsulfuron-methyl. Biomass accumulation by black oat plants in the greenhouse was similar across mesotrione-treated and untreated plants. Conclusions: Mesotrione could become an option for selective, post-emergence weed control in black oat fields, aiding in the fight against multiple herbicide-resistant Conyza spp. populations which are widespread across major black oat-growing areas in Brazil.
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