Modifications of Phytoseiidae mite breeding methods to suppress spider mite

I. Agasyeva, E. Fedorenko, M. Nefedova, A. Nastasiy
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Abstract

Populations of mites from the Tetranychidae family are characterized as high-resistant to acaricides, which, in turn, leads to an increase in the pesticide load on the agrocenoses ecosystem. Carnivorous arthropods from the Phytoseiidae family can be used as an alternative pest control. Our research aimed at improving the methods of breeding, storage and use of predatory mites against Tetrahychus urticae Koch. In 2015–2018, work was being undertaken to define the optimum thickness of the substrate layer (2.0, 4.0 and 6.0 cm) for breeding the food object – Acaris farus Oud. We also assessed the effect of the fodder substrate composition (wheat bran – control, wheat bran + soybean meal – experimental variant) on the population density of Amblyseius andersoni Chant. In 2016–2019, experiments on the storage of Neoseiulus barkeri Hughes, Neoseiulus cucumeris Oud. and Amblyseius swirskii Athias-Henriot at 4 °C (control – no storage) were carried out. In 2018–2019, to control Tetrahychus urticae Koch. in the soybean field, a mixture of N. cucumeris and A. andersoni was used according to the method of introduction into natural foci of prey. The optimum thickness of the substrate layer was found to be 4 cm. In this case, it was possible to obtain 6,983 mites in 1 cm3 for 7 days. Soybean meal addition increased the number of A. andersoni by 22.3 % compared to control (263 ind. vs 204 ind. per cm3). 30–45 days – an effective storage period for N. barkeri, 30 days – for N. cucumeris, no more than 10 days – for A. swirskii. On average, in 2018–2019, N. cucumeris and A. andersoni mixture reduced the number of T. urticae. The number of spider mites in the control variant was 14.6, in the experimental one – 5.3 ind./leaf. No predatory activity was observed on eggs. To prevent the development of spider mites, it is necessary to use N. cucumeris and A. andersoni at least twice with an interval of 5–7 days.
改良植物绥螨孳生方法抑制蜘蛛螨
叶螨科螨种群对杀螨剂具有高抗性,这反过来又导致了农田生态系统中农药负荷的增加。植物绥螨科食肉节肢动物可作为防治害虫的一种替代方法。本研究旨在改进对荨麻疹四狐螨的捕食性螨的繁殖、储存和利用方法。在2015-2018年,正在进行工作,以确定培育食物对象Acaris farus Oud的基质层的最佳厚度(2.0,4.0和6.0 cm)。研究了饲料基质组成(麦麸-对照、麦麸+豆粕-试验型)对安氏钝梭菌种群密度的影响。2016-2019年,对巴氏小绥虫、黄瓜小绥虫进行贮藏试验。在4°C(对照-无贮藏)条件下进行威氏钝绥螨(Amblyseius swirskii Athias-Henriot)试验。2018-2019年防治荨麻疹四蜱。在大豆田,采用引入猎物自然疫源地的方法,将黄瓜乳杆菌与安德森乳杆菌混合施用。发现衬底层的最佳厚度为4 cm。在这种情况下,可以在1 cm3中获得6,983只螨虫,持续7天。与对照组相比,添加豆粕使安德氏曲曲霉的数量增加了22.3%(每立方厘米263只对204只)。30 - 45天——巴氏乳杆菌的有效储藏期,黄瓜乳杆菌30天,斯威氏乳杆菌不超过10天。平均而言,2018-2019年,黄瓜乳杆菌和安德氏乳杆菌混合物减少了荨麻疹乳杆菌的数量。对照变异的螨数为14.6只,实验变异的螨数为- 5.3只/叶。卵未见捕食活动。为了防止蜘蛛螨的发生,需要使用黄瓜乳杆菌和安德氏乳杆菌至少两次,间隔5-7天。
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