Félix Marsan-Pelletier, A. Vanasse, Marie-Josée Simard, M. Cuerrier
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引用次数: 1
摘要
普通豚草(Ambrosia artemisiifolia L.)广泛存在于魁北克南部的大豆(Glycine max L.)田里。在使用ALS(2类)除草剂的常规作物中,通常报道了抗ALS(2类)除草剂的生物型。报告的病例是自愿的,可能低估了耐药性的发生。因此,2014年和2015年对使用2类除草剂的大豆田进行了调查。从123块地采集豚草种子。幼苗生长并使用推荐剂量(100.8 g a.e. ha-1)进行抗性测试。杂草种群被分类为易感,产生抗性(少于三分之一的植物被分类为抗性)或抗性(至少三分之一的植物具有抗性)。然后根据这些抗性水平选择20个种群,分别用4种剂量(0、100.8、201.6和403.2 g a.e. ha-1)处理。81%的标本检测到耐药,其中21.1%为正在形成耐药,59.4%为耐药。发生抗性种群的抗性因子为1.04,抗性种群的抗性因子大于5。这些结果证实了魁北克存在多个抗吡虫啉普通豚草种群。
Survey of imazethapyr-resistant common ragweed (Ambrosia artemisiifolia L.) in Quebec
Common ragweed (Ambrosia artemisiifolia L.) is widespread in soybean (Glycine max L.) fields in southern Quebec. Biotypes resistant to ALS (group 2) herbicides are commonly reported in conventional crops where these herbicides are used. Reported cases are voluntary and potentially underestimate the occurrence of resistance. A survey was therefore undertaken in 2014 and 2015 in soybean fields treated with a Group 2 herbicide. Common ragweed seeds were collected from 123 fields. Seedlings were grown and tested for resistance using the recommended rate of imazethapyr (100.8 g a.e. ha-1). Weed populations were classified as susceptible, developing resistance (less than one third of plants classified as resistant) or resistant (at least one third of plants were resistant). Twenty populations were then selected based on these resistance levels and treated with four doses of the herbicide (0, 100.8, 201.6, and 403.2 g a.e. ha-1). Resistance to imazethapyr was detected in 81% of samples (21.1% were classified as developing resistance and 59.4% were classified as resistant). Populations classified as developing resistance had a resistance factor of 1.04, while populations classified as resistant had a resistance factor greater than 5. These results confirm the presence of multiple populations of imazethapyr-resistant common ragweed in Quebec.
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