麦草畏在收获大豆中残留的持久性

IF 1.3 Q3 AGRONOMY
Jerri Lynn Henry, Chung-Ho Lin, Jason W. Weirich, Reid J. Smeda
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引用次数: 0

摘要

耐麦草畏大豆的采用导致了有关化学品侵入邻近敏感大豆的广泛报道。有关麦草畏对敏感大豆(Glycine max L.)的影响的报告已被详细记录;然而,麦草畏从敏感植物带入收获大豆的可能性却在很大程度上被忽视了。密苏里州中部的田间试验侧重于评估敏感大豆对低至 0.25% 使用量(10 µL L-1 麦草畏)的麦草畏浓度的伤害和产量反应。2018 年和 2019 年,麦草畏敏感大豆均以常规行距种植,并在 V3 和 R1 大豆上使用 10-300 µL L-1 麦草畏处理。麦草畏症状在施用后不到 7 天(DAA)就能看到;在 10 µL L-1 时观察到明显的伤害,并在研究期间(28 DAA)持续存在。300 µL L-1 麦草畏的伤害程度几乎达到 50%。随着麦草畏浓度的增加,大豆产量损失逐步增加,300 µL L-1 麦草畏的产量损失达到 50%。在麦草畏浓度相同的情况下,R1 大豆的产量损失比 V3 大豆高出 10%。150 至 300 µL L-1 麦草畏在大豆组织中的残留量为 0.72 至 0.81 mg kg-1,V3 和 R1 大豆的残留量相似。麦草畏在植物接触麦草畏 122 天后收获的豆类中仍有残留。虽然麦草畏的残留量在美国环保局规定的限量范围内(10 毫克/千克-1),但残留量超过了市场上销售的有机大豆允许的限量(0.5 毫克/千克-1)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Persistence of dicamba residue in harvested soybeans

Persistence of dicamba residue in harvested soybeans

Adoption of dicamba-tolerant soybeans contributed to widespread reports of chemical trespassing on adjacent, sensitive soybeans. Reports of the impact of dicamba on sensitive soybeans (Glycine max L.) have been well documented; however, the potential for dicamba carryover into harvested beans from sensitive plants has largely been overlooked. Field trials in central Missouri focused on assessing the injury and yield response of sensitive soybeans to concentrations of dicamba as low as 0.25% of the use rate (10 µL L−1 dicamba). In both 2018 and 2019, dicamba-sensitive soybeans were planted in conventional row spacing and treated with 10–300 µL L−1 dicamba at both V3 and R1 soybeans. Dicamba symptoms were visible in less than 7 days after application (DAA); significant injury was observed at 10 µL L−1 and persisted through the duration of the study (28 DAA). Injury levels reached almost 50% with 300 µL L−1 dicamba. Step-wise increases in soybean yield losses occurred with increasing dicamba concentrations and reached 50% with 300 µL L−1 dicamba. Yield losses were up to 10% greater for R1 versus V3 soybeans treated with the same dicamba concentration. Dicamba residues in bean tissue ranged from 0.72 to 0.81 mg kg−1 for 150 to 300 µL L−1 dicamba, and residues were similar for beans at both V3 and R1. Dicamba persisted in beans harvested up to 122 days after plant exposure to dicamba. Although dicamba residues were within limits established by the EPA (10 mg kg−1), residues exceeded that allowed in marketed, organic soybeans (0.5 mg kg−1).

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来源期刊
Agrosystems, Geosciences & Environment
Agrosystems, Geosciences & Environment Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)
CiteScore
2.60
自引率
0.00%
发文量
80
审稿时长
24 weeks
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