The potential of glyphosate-alternatives like electrophysical weeding in the stale seedbed method for Alopecurus myosuroides (Huds.) control

Benjamin Klauk, Jan Petersen
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Abstract


Changing political demands requires the search for alternatives to glyphosate, which has often been used in the stale seedbed method. In three field trials between 2020 and 2023, three electrophysical treatments (XPower System, Zasso®) differing in speed, three mechanical treatments (disc harrow, rotary harrow, cultivator) and three chemical treatments (glyphosate, maleic hydrazide, pelargonic acid + maleic hydrazide) were evaluated concerning the efficacy and economic performance in stale seedbed method in Alopecurus myosuroides control. Process costs for each treatment were calculated. Furthermore, the maximum investment costs for the XPower system were calculated to be on the same level as the other treatments. In all treatments, the density of A. myosuroides in autumn was significantly lower than in the control. In general, the fewest plants and heads were found in the chemical treatments. Despite the lower plant density, the electrophysical method did not show a significant difference in the number of heads compared to the untreated control, especially at higher speeds. Calculated process costs ranged between
40 €/ha (glyphosate) and 430 €/ha (pelargonic acid + maleic hydrazide). To be economically comparable with the other treatments, the investment of the XPower should be at maximum between – 219 000 € (glyphosate) and 300 000 €Â (pelargonic acid + maleic acid), depending on the driving speed. In a holistic view, electrophysical control, as well as pelargonic acid and maleic hydrazide as glyphosate alternatives in the stale seedbed method, are not suitable. A stale seedbed with mechanical control of A. myosuroides is recommended.
草甘膦替代品的潜力,如电物理除草在陈旧的苗床方法中控制黄斑鸠(Huds.)
不断变化的政治需求要求寻找草甘膦的替代品,草甘膦经常被用于陈旧的苗床方法。在2020 ~ 2023年的3个田间试验中,评价了3种不同速度的电物理处理(XPower System、Zasso®)、3种机械处理(盘耙、旋转耙、耕耘机)和3种化学处理(草甘膦、马来酰肼、天青酸+马来酰肼)在陈化苗床法防治黄斑鱼(Alopecurus myosuides)中的效果和经济性。计算了每种处理的工艺成本。此外,XPower系统的最大投资成本与其他处理方法相同。在所有处理中,秋蚜密度均显著低于对照。总的来说,化学处理中发现的植株和头最少。尽管植株密度较低,但电物理方法与未经处理的对照相比,在穗数上没有显着差异,特别是在较高的速度下。计算的工艺成本在40欧元/公顷(草甘膦)和430欧元/公顷(甲藻酸+马来酰肼)之间。为了在经济上与其他处理相媲美,根据行驶速度的不同,XPower的投资最高应在- 21.9万欧元(草甘膦)至30万欧元Â(天门冬酸+马来酸)之间。从整体上看,电物理控制,以及天竺葵酸和马来酰肼作为陈化种床法中草甘膦的替代品是不合适的。Â建议采用机械控制的陈旧苗床。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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