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用于防治西花蓟马的颗粒剂配方的实验室和温室评估

Laboratory and Greenhouse Evaluation of a Granular Formulation of for Control of Western Flower Thrips, .

作者信息

Zhang Xingrui, Lei Zhongren, Reitz Stuart R, Wu Shengyong, Gao Yulin

机构信息

State Key Laboratory for Biology of Plant Diseases and Insect Pests, Institute of Plant Protection, Chinese Academy of Agricultural Sciences, Beijing 100193, China.

Department of Crop and Soil Sciences, Malheur County Extension, Oregon State University, Ontario, OR 97914, USA.

出版信息

Insects. 2019 Feb 20;10(2):58. doi: 10.3390/insects10020058.

Abstract

Western flower thrips (WFT) is one of the most important pests of horticultural crops worldwide because it can damage many different crops and transmit various plant viruses. Given these significant impacts on plant production, novel methodologies are required to maximize regulation of WFT to minimize crop losses. One particular approach is to develop control strategies for the non-feeding, soil-dwelling stages of WFT. Control of these stages could be enhanced through the use of granules impregnated with entomopathogenic fungi mixed in the soil. The use of soil-applied fungi contrasts with existing approaches in which entomopathogenic fungi are formulated as oil-based suspensions or water-based wettable powders for foliar applications against the feeding stages of WFT. To examine the efficacy of this approach, we evaluated the effects of a granular formulation of on the soil-dwelling, pupal phases of in laboratory bioassays and greenhouse experiments. Based on micromorphological observations of fungal conidia during the infection process after treatment of WFT with a suspension, fungal conidia complete the process of surface attachment, germination, and penetration of the body wall of the WFT pupa and enter the host within 60 h of treatment. Given these results, we undertook a controlled greenhouse experiment and applied granules to soil used to cultivate eggplants. Populations of on eggplants grown in treated soil were 70% lower than those on plants grown in the untreated soil after 8 weeks. Furthermore, when measuring the survival and growth of on granules under different soil moisture conditions, survival was greatest when the soil moisture content was kept at 20%. These results indicate that the application of -impregnated granules could prove to be an effective biological control strategy for use against under greenhouse conditions.

摘要

西花蓟马是全球园艺作物最重要的害虫之一,因为它会损害多种不同作物并传播各种植物病毒。鉴于其对植物生产的这些重大影响,需要新的方法来最大限度地控制西花蓟马,以尽量减少作物损失。一种特别的方法是为西花蓟马不进食的土壤栖息阶段制定控制策略。通过使用混入土壤中的浸渍昆虫病原真菌的颗粒,可以加强对这些阶段的控制。土壤施用真菌的方法与现有方法不同,现有方法是将昆虫病原真菌配制成油基悬浮液或水基可湿性粉剂,用于叶面喷施以防治西花蓟马的取食阶段。为了检验这种方法的效果,我们在实验室生物测定和温室试验中评估了一种颗粒制剂对西花蓟马土壤栖息蛹期的影响。基于用悬浮液处理西花蓟马后感染过程中真菌分生孢子的微观形态观察,真菌分生孢子在处理后60小时内完成表面附着、萌发和穿透西花蓟马蛹体壁的过程并进入宿主体内。基于这些结果,我们进行了一项受控温室试验,并将颗粒施用于种植茄子的土壤中。8周后,在处理过的土壤中种植的茄子上的西花蓟马种群数量比未处理土壤中种植的植株上的种群数量低70%。此外,在不同土壤湿度条件下测量颗粒上西花蓟马的存活和生长情况时,当土壤含水量保持在20%时,存活率最高。这些结果表明在温室条件下,施用浸渍颗粒可能是一种有效的防治西花蓟马的生物控制策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b91c/6410292/4791863e082b/insects-10-00058-g001.jpg

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