E. Roncatto, A. Barroso, J. Calegarim, F. Lucio, P. F. Adami
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In the second experiment, 2,4-D-resistant soybean growth was measured under increasing densities of the same weeds (21 plants m2 vs 21, 42, 84, 168 and 336 plants m2). This experiment was conducted under entirely randomized design with 25 treatments with four repetitions. Critical level of damage and economic threshold level of each weed species in soybean were measured using non-linear regressions. In a third experiment, weed with soybean were submitted to increasing periods of control and coexistence (7, 14, 21, 28, 35, 49 and 70 days after soybean emergence, plus two control treatments). Glufosinate and glyphosate+2.4-D (820 + 780 g ea ha -1 ) showed greater weed control than glyphosate alone (720 g ea ha -1 ). The yield loss of 0.85, 2.12, 5.71 and 34.24% were found for each weed of E. heterophylla, I. hederifolia, R. brasiliensis and Conyza spp., coexisting with soybean. There was a soybean grain yield loss of 50% in the weedy treatment. Soybean weed management should occur between 18 th and 48 th days after its emergence. Economic threshold level on soybean yield suggested is below one plant of Conyza spp. and R. brasiliensis per m 2. The use of glufosinate and glyphosate+2,4-D provides a greater flexibility of herbicide use for farmers.","PeriodicalId":8581,"journal":{"name":"Australian Journal of Crop Science","volume":"48 1","pages":"297-304"},"PeriodicalIF":0.0000,"publicationDate":"2021-02-03","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Control period and economic threshold level of glyphosate tolerant weeds in 2.4-D resistant soybean\",\"authors\":\"E. Roncatto, A. Barroso, J. Calegarim, F. Lucio, P. F. Adami\",\"doi\":\"10.21475/AJCS.21.15.02.P3085\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Weed densities, species, costs of control, crop value and interference periods should be considered for weed management. With this regard, three experiments were carried out to evaluate weed control periods and weed density in a new soybean cultivar. In ths first trial, control efficacy was measured by visual phytotoxicity of four weed species I. hederifolia, E. heterophylla, Conyza spp. and R. brasiliensis using four different herbicides with two doses each: glyphosate (720 and 1,440 g ea ha -1 ), 2.4-D (670 and 1,340 g ea ha -1 ), glufosinate (400 and 600 g ea ha -1 ) and glyphosate + 2.4-D (410 + 390 and 820 + 780 g ea ha -1 ). Herbicides were sprayed in an entirely randomized 4x8+1 factorial scheme with six repetitions. In the second experiment, 2,4-D-resistant soybean growth was measured under increasing densities of the same weeds (21 plants m2 vs 21, 42, 84, 168 and 336 plants m2). This experiment was conducted under entirely randomized design with 25 treatments with four repetitions. 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引用次数: 0
摘要
杂草管理应考虑到杂草密度、种类、控制成本、作物价值和干扰期。为此,通过3个试验对大豆新品种的杂草防治期和杂草密度进行了评价。在第一个试验中,采用草甘膦(720和1440 g / ha -1)、2.4-D(670和1340 g / ha -1)、草甘膦(400和600 g / ha -1)和草甘膦+ 2.4-D(410 + 390和820 + 780 g / ha -1)四种不同剂量的除草剂,通过视觉植物毒性测定了四种杂草的防治效果。除草剂以完全随机的4x8+1阶乘方案喷洒,重复6次。在第二个试验中,在增加相同杂草密度(21株m2 vs 21、42、84、168和336株m2)的情况下,测定抗2,4- d大豆的生长情况。试验采用完全随机设计,共25个处理,4个重复。采用非线性回归法测定了大豆各杂草危害的临界水平和经济阈值水平。在大豆出苗后7、14、21、28、35、49和70 d,加上2个对照处理,分别对杂草和大豆进行控制和共生处理。草甘膦+2.4-D (820 + 780 g / ha -1)对杂草的控制效果优于草甘膦+2.4-D (720 g / ha -1)。与大豆共生的杂交菜、杂交菜、巴西菜和苍耳草的产量损失分别为0.85、2.12、5.71和34.24%。杂草处理使大豆籽粒产量损失50%。大豆杂草管理应在其出苗后18至48天之间进行。建议大豆产量的经济阈值水平为每平方米一株以下的Conyza spp.和brasiliensis .。草甘膦和草甘膦+2,4- d的使用为农民提供了更大的除草剂使用灵活性。
Control period and economic threshold level of glyphosate tolerant weeds in 2.4-D resistant soybean
Weed densities, species, costs of control, crop value and interference periods should be considered for weed management. With this regard, three experiments were carried out to evaluate weed control periods and weed density in a new soybean cultivar. In ths first trial, control efficacy was measured by visual phytotoxicity of four weed species I. hederifolia, E. heterophylla, Conyza spp. and R. brasiliensis using four different herbicides with two doses each: glyphosate (720 and 1,440 g ea ha -1 ), 2.4-D (670 and 1,340 g ea ha -1 ), glufosinate (400 and 600 g ea ha -1 ) and glyphosate + 2.4-D (410 + 390 and 820 + 780 g ea ha -1 ). Herbicides were sprayed in an entirely randomized 4x8+1 factorial scheme with six repetitions. In the second experiment, 2,4-D-resistant soybean growth was measured under increasing densities of the same weeds (21 plants m2 vs 21, 42, 84, 168 and 336 plants m2). This experiment was conducted under entirely randomized design with 25 treatments with four repetitions. Critical level of damage and economic threshold level of each weed species in soybean were measured using non-linear regressions. In a third experiment, weed with soybean were submitted to increasing periods of control and coexistence (7, 14, 21, 28, 35, 49 and 70 days after soybean emergence, plus two control treatments). Glufosinate and glyphosate+2.4-D (820 + 780 g ea ha -1 ) showed greater weed control than glyphosate alone (720 g ea ha -1 ). The yield loss of 0.85, 2.12, 5.71 and 34.24% were found for each weed of E. heterophylla, I. hederifolia, R. brasiliensis and Conyza spp., coexisting with soybean. There was a soybean grain yield loss of 50% in the weedy treatment. Soybean weed management should occur between 18 th and 48 th days after its emergence. Economic threshold level on soybean yield suggested is below one plant of Conyza spp. and R. brasiliensis per m 2. The use of glufosinate and glyphosate+2,4-D provides a greater flexibility of herbicide use for farmers.
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