Synergism of a mixture of phosphine and carbon dioxide in fumigation against bean weevils

Q3 Economics, Econometrics and Finance Naukovi gorizonti Pub Date : 2023-05-14 DOI:10.48077/scihor5.2023.89
V. Romanko, A. Dudynska
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Abstract

The study is devoted to searching for alternatives to methyl bromide – a universal fumigant restricted in use at the request of the Montreal Protocol. Purpose: to determine the synergy of a mixture of phosphine and carbon dioxide in their various concentrations and exposures during the fumigation of leguminous products against pests at high temperatures. Methods: analytical review on the subject of research, the current regulatory framework in the field of disinfection; analysis of biological features of insect pests of leguminous products; experimental – a variation of different concentrations of phosphine, duration of exposure and temperature to establish a synergy of fumigant with carbon dioxide in laboratory conditions with appropriate equipment; mathematical and statistical – using computer mathematical functions built into the Microsoft Excel program 2003. When fumigating gas mixtures against pests at the imago stage, the optimal concentration of carbon dioxide is in the range of 110-130 g/m3 (or 5.5-6.5% of the total air volume), regardless of the temperature indicator. While the optimal concentration of phosphine at low temperatures (21-22°C) is in the range of 0.57-0.82 g/m3 , at high temperatures – (31-32°C) – in the range of 0.21-0.36 g/m3 . With an increase in the duration of fumigation, not only the effectiveness of phosphine (standart) against the imago pests but also gas mixtures. In addition, the dependence of gas synergy on the duration of fumigation was established. Thus, at a temperature of 30°C, an increase in gas synergy in the mixture was observed by 4.4±0.66, 7.7±1.61, and 10.3±1.08% compared to the standard for exposure of 2, 4 and 6 hours, respectively. Temperature was the most determining factor influencing the value of the gas synergy index in the mixture of phosphine and carbon dioxide. Thus, an increase in temperature from 30°C to 32°C contributed to an increase in the gas synergy index by 9%, that is, by 2.17 times. Further establishment of lethal standards and fumigation regimes against pests, including quarantine ones, can prevent economic damage from these pests in Ukraine and will contribute to the implementation of the decisions of the Montreal Protocol aimed at protecting the environment and preventing the destruction of the ozone layer
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磷化氢和二氧化碳混合物对豆象甲熏蒸的协同作用
该研究致力于寻找甲基溴的替代品,甲基溴是应《蒙特利尔议定书》的要求限制使用的一种通用熏蒸剂。目的:测定高温下对豆科产品进行熏蒸防治害虫过程中,不同浓度和暴露量的磷化氢和二氧化碳混合物的协同作用。方法:对本课题的研究现状、消毒领域的监管框架进行分析综述;豆科产品害虫的生物学特性分析;实验-不同浓度的磷化氢、暴露时间和温度的变化,以在实验室条件下使用适当的设备建立熏蒸剂与二氧化碳的协同作用;数学和统计–使用Microsoft Excel程序2003中内置的计算机数学函数。在成虫期对气体混合物进行熏蒸防治害虫时,无论温度指标如何,二氧化碳的最佳浓度都在110-130 g/m3(或总空气量的5.5-6.5%)的范围内。而磷化氢在低温(21-22°C)下的最佳浓度为0.57-0.82 g/m3,在高温(31-32°C)时为0.21-0.36 g/m3。随着熏蒸持续时间的增加,磷化氢(标准)不仅对伊玛戈害虫有效,而且对气体混合物也有效。此外,还确定了气体协同作用对熏蒸持续时间的依赖性。因此,在30°C的温度下,与暴露2、4和6小时的标准相比,观察到混合物中的气体协同作用分别增加了4.4±0.66、7.7±1.61和10.3±1.08%。在磷化氢和二氧化碳的混合物中,温度是影响气体协同指数值的最决定性因素。因此,温度从30°C增加到32°C有助于气体协同指数增加9%,即2.17倍。进一步制定针对害虫的致命标准和熏蒸制度,包括检疫制度,可以防止这些害虫在乌克兰造成经济损失,并将有助于执行《蒙特利尔议定书》旨在保护环境和防止臭氧层破坏的决定
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来源期刊
Naukovi gorizonti
Naukovi gorizonti Economics, Econometrics and Finance-Economics, Econometrics and Finance (miscellaneous)
CiteScore
1.50
自引率
0.00%
发文量
115
审稿时长
4 weeks
期刊最新文献
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