植保无人机昼夜作业的雾滴沉积特性及棉蚜防效对比

针对无人机在棉蚜防治过程中夜间作业雾滴沉积特性和防效未知、目标喷洒区域雾滴沉积规律不明确等问题,该研究采用P20植保无人机进行棉蚜防治试验,对比了无人机白天和夜间作业时棉花植株不同部位的雾滴沉积规律及棉蚜防效,以常规喷杆喷雾机和喷枪为对照。结果表明,无人机白天和夜间作业的雾滴沉积数量及覆盖率差异显著,相同作业参数下,夜间作业的雾滴沉积数量平均比白天多42.82%,覆盖率平均比白天增加51.04%;夜间作业的雾滴穿透性较好,棉花植株的中下层及叶片背面雾滴沉积数量均多于白天。夜间作业时,棉花植株中、下层的雾滴沉积数量平均占垂直方向上雾滴总数量的比例分别为34.79%和22.07%,白天平均占33.27%和21.89%,喷枪为29.50%和19.98%,喷杆喷雾机为43.30%和15.84%;无人机夜间作业的叶片背面雾滴沉积数量平均占正反面总雾滴沉积数量的19.80%,白天作业占14.18%,夜间比白天多39.63%,各层叶片背面的雾滴沉积数量表现为上层下层中层;总体上,无人机作业的叶片背面雾滴沉积数量比例不超过25%,喷枪及喷杆喷雾机作业的叶片背面雾滴数量少,分别占7.09%和0.20%;在棉花花铃期和蕾期作业时,为提高雾滴沉积数量和雾滴穿透性,建议将无人机作业参数设置为飞行高度1.5～2 m,飞行速度3～4 m/s,选用较大的喷洒量,因为只有无人机下压风场不削弱、雾滴不大量损失的前提下,旋翼风场才能有效促进雾滴穿透性。就雾滴沉积数量和棉蚜防效关系而言,药后第1天棉蚜减退率与叶片背面雾滴沉积数量呈正相关关系,因受天敌影响药后第10天二者关联性不高。试验表明,无人机夜间作业更有利于棉蚜防治,其防效显著优于白天作业和其他2种常规设备,且农药剂量减少20%对棉蚜防效无显著影响。该研究结果可为植保无人机作业参数的合理设置提供参考,为棉蚜有效防控提供科学依据。     

Eco‐efficiency as a strategy for optimizing the sustainability of pest management

Agricultural industrialization and the subsequent reliance on pesticides has resulted in numerous unintended consequences, such as impacts upon the environment and by extension human health. Eco‐efficiency is a strategy for sustainably increasing production, while simultaneously decreasing these externalities on ecological systems. Eco‐efficiency is defined as the ratio of production to environmental impacts. It has been widely adopted to improve chemical production, but we investigate the challenges of applying eco‐efficiency to pesticide use. Eco‐efficiency strategies include technological innovation, investment in research and development, improvement of business processes, and accounting for market forces. These components are often part of integrated pest management (IPM) systems that include alternatives to pesticides, but its implementation is often thwarted by commercial realities and technical challenges. We propose the creation and adoption of an eco‐efficiency index for pesticide use so that the broad benefits of eco‐efficient strategies such as IPM can be more readily quantified. We propose an index based upon the ratio of crop yield to a risk quotient (RQ) calculated from pesticide toxicity. Eco‐efficiency is an operational basis for optimizing pest management for sustainability. It naturally favors adoption of IPM and should be considered by regulators, researchers, and practitioners involved in pest management. © 2019 Society of Chemical Industry     

国内外荔枝农药残留限量标准对比分析

介绍了我国荔枝农药登记情况,归纳分析了新版GB/T 2763-2021《食品安全国家标准 食品中农药残留最大限量》中涉及荔枝的农药最大残留限量标准,对比分析了国内外荔枝农药残留限量标准制定情况。在此基础上,总结了我国荔枝残留限量标准存在的问题,并提出了建议和措施,旨在为完善我国荔枝质量安全标准体系提供参考。     

Proportionality principle revisited – relationship between application rates and pesticide residue concentrations in food commodities

BACKGROUND

The proportionality principle has been broadly used for over 10 years in regulatory assessments of pesticide residues. It allows extrapolation of supervised field trial data conducted at lower or higher application rates compared to the use pattern under evaluation by adjustment of measured concentrations, assuming direct proportionality between the rates applied and the resulting residues. This work revisits the principle idea by using supervised residue trials sets conducted under identical conditions but with deviating application rates. Four different statistical methods were used to investigate the relationship between application rates and residue concentrations and to draw conclusions on the statistical significance of the direct proportionality assumed.

RESULTS

Based on over 5000 individual trial results, the assumption of direct proportionality was not confirmed to be statistically significant (P > 0.05) using three models: direct comparison of application rates and residue concentrations ratios and two linear log-log regression models correlating application rate and residue concentration or only residue concentrations per se. In addition, a fourth model analysed deviations between expected concentrations following direct proportional adjustment and measured residue values from corresponding field trials. In 56% of all cases, the deviation was larger than ±25%, which represents the tolerance usually accepted for the selection of supervised field trials in regulatory assessments.

CONCLUSION

Overall, the assumption of direct proportionality between application rates and resulting residue concentrations of pesticides was not statistically significant. Although the proportionality approach is highly pragmatic in regulatory practice, its use should be considered carefully on a case-by-case basis. © 2023 The Authors. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.     

防治瓜绢螟高效无公害药剂筛选试验

室内和田间药效试验结果表明,辛硫磷、佳维素、虫螨克、病毒杀虫剂、氟虫脲、除尽等药剂对瓜绢螟具有良好的杀虫效果,适于在瓜菜上使用。     

化学农药亚致死剂量对天敌昆虫的影响

天敌昆虫在害虫的自然控制方面起着重要作用,而化学农药在防治靶标害虫的同时,也不同程度地影响了天敌昆虫的生存,并对其中部分个体存在亚致死效应.本文通过整理国内外相关研究资料,介绍了亚致死剂量化学农药对天敌昆虫行为、生理、生物学等方面的影响,论证了该研究的现实意义.     

大棚中百菌清等4种农药在小白菜上的降解规律研究

研究了小白菜栽培过程中,百菌清、敌敌畏、氧化乐果和抗蚜威在不同施用剂量条件下的农药降解动态规律,结果表明,不同农药在小白菜中的残留量和降解速度有较大差异。4种农药施药后在小白菜上的残留量随喷药时间的推移而减少,抗蚜威降解速度最慢,氧化乐果降解速度最快。