共查询到19条相似文献,搜索用时 140 毫秒
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为明确氟啶虫酰胺对桃蚜的防治效果和最佳用药剂量,在桃树上进行了10%氟啶虫酰胺水分散粒剂不同稀释浓度喷雾处理防治桃蚜的田间药效试验,为示范推广提供科学依据。结果表明,10%氟啶虫酰胺水分散粒剂药后1 d速效性一般,但药后3 d,在有效成分20、40、60 mg/L处理下的防效就分别达到78.9%、86.8%、91.8%;药后7 d防效均达93%以上;药后14 d,在20、40、60 mg/L处理下仍分别保持着94.2%、98.4%、99.2%的防效。氟啶虫酰胺持效性优异,可与速效性较好的药剂混配,用于桃树桃蚜的防治。 相似文献
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对筛选的7种增效剂配方进行界面性能评价,并探究7种增效剂与46%氟啶虫酰胺·啶虫脒水分散粒剂产品桶混后界面性能及对桃树蚜虫的防效。结果显示:与46%氟啶虫酰胺·啶虫脒水分散粒剂单用相比,桶混时加入增效剂2 000倍稀释液,可显著降低46%氟啶虫酰胺·啶虫脒水分散粒剂使用量25%左右,提高桃树蚜虫防治效果15%以上;助剂中以F-8690及SILWET 625的接触角最小,黏附张力最大,其实际田间应用效果也显著优于其他助剂,具有较好的应用前景和推广价值。 相似文献
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研究开发了40%氟啶虫酰胺·螺虫乙酯悬浮剂配方。采用单因素实验筛选润湿分散剂、稳定剂、增稠剂、防冻剂、消泡剂等助剂,在优选配方条件下考察磨珠粒径对生产效率的影响。优化配方质量百分比为氟啶虫酰胺16%、螺虫乙酯24%、Tersperse 2500 3%、YUS-FS3000 1%、丙三醇3%、硅酸镁铝1%、黄原胶0.1%、乙酸0.5%、Tanaform S 0.8%、GXL 0.1%,去离子水补足100%;磨珠粒径为1.0 mm,研磨时间为20 min。制备的悬浮剂热储稳定,无粒径增大现象,各项指标均符合标准要求。 相似文献
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为了研制有效防治瓜蚜的药剂,在室内采用喷雾法测定了氟啶虫酰胺、啶虫脒不同比例混配组合对黄瓜蚜虫的联合毒力,评价了最佳配比组合对蚜虫的田间药效。结果表明,氟啶虫酰胺与啶虫脒混配比例为5∶4(体积比)时,增效作用最显著。最佳配比混剂18%氟啶虫酰胺·啶虫脒可分散油悬浮剂使用剂量为30~37.5 g a.i./hm2时,对黄瓜蚜虫的防效达85%以上,建议在黄瓜蚜虫发生始盛期施药1次,可有效控制蚜虫的危害。 相似文献
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通过室内毒力测定及田间药效试验评价氟啶虫胺腈原药以及22%氟啶虫胺腈悬浮剂和50%氟啶虫胺腈水分散粒剂对桃蚜和瓜蚜的杀虫活性。分别采用浸叶法和常规喷雾法进行室内毒力测定和田间药效试验。室内毒力测定结果表明,氟啶虫胺腈原药对桃蚜和瓜蚜48 h LC50值分别为0.98 mg/L和1.70 mg/L,氟啶虫胺腈对桃蚜和瓜蚜的相对毒力分别是啶虫脒的4.2倍和2.0倍。田间药效试验结果表明,22%氟啶虫胺腈悬浮剂和50%氟啶虫胺腈水分散粒剂对桃蚜和瓜蚜具有很好的速效性和持效性,平均防治效果为82.0%~96.0%。氟啶虫胺腈可有效防治桃蚜和瓜蚜,是农业生产上防治蚜虫的理想药剂之一。 相似文献
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烟蚜的抗药性现状及其综合治理 总被引:2,自引:0,他引:2
烟蚜作为烟田的重要害虫之一,不仅直接为害烟草叶片,使烟叶的品质下降,而且还可传播多种病毒病。目前主要以化学防治为主来控制烟蚜及其传播烟草病毒病,但是随着农药的广泛使用,烟蚜的抗药性己成为当前烟蚜防治中所面临的一场严峻挑战。因此,烟蚜抗药性的研究对烟草生产具有重要意义。本文就烟蚜的抗药性现状,抗药性综合治理等方面进行了论述。 相似文献
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Fangyuan Zhou Chaoquan Chen Lijun Kong Shenglanjia Liu Kun Zhao Yi Zhang Tong Zhao Kaiwen Liu Xiaolin Yu 《International journal of molecular sciences》2022,23(22)
Brassica carinata (BBCC, 2n = 34) is commonly known as Ethiopian mustard, Abyssinian mustard, or carinata. Its excellent agronomic traits, including resistance to biotic and abiotic stresses, make it a potential genetic donor for interspecific hybridization. Myzus persicae (green peach aphid, GPA) is one of the most harmful pests of Brassica crops, significantly effecting the yield and quality. However, few aphid-resistant Brassica crop germplasms have been utilized in breeding practices, while the underlying biochemical basis of aphid resistance still remains poorly understood. In this study, we examined the genetic diversity of 75 B. carinata accessions and some plant characteristics that potentially contribute to GPA resistance. Initially, the morphological characterization showed abundant diversity in the phenotypic traits, with the dendrogram indicating that the genetic variation of the 75 accessions ranged from 0.66 to 0.98. A population structure analysis revealed that these accessions could be grouped into two main subpopulations and one admixed group, with the majority of accessions (86.67%) clustering in one subpopulation. Subsequently, there were three GPA-resistant B. carinata accessions, BC13, BC47, and BC51. The electrical penetration graph (EPG) assay detected resistance factors in the leaf mesophyll tissue and xylem. The result demonstrated that the Ethiopian mustard accessions were susceptible when the phloem probing time, the first probe time, and the G-wave time were 20.51–32.51 min, 26.36–55.54 s, and 36.18–47.84 min, respectively. In contrast, resistance of the Ethiopian mustard accessions was observed with the phloem probing time, the first probe time, and G-wave time of 41.18–70.78 min, 181.07–365.85 s, and 18.03–26.37 min, respectively. In addition, the epidermal characters, leaf anatomical structure, glucosinolate composition, defense-related enzyme activities, and callose deposition were compared between the resistant and susceptible accessions. GPA-resistant accessions had denser longitudinal leaf structure, higher wax content on the leaf surface, higher indole glucosinolate level, increased polyphenol oxidase (PPO) activity, and faster callose deposition than the susceptible accessions. This study validates that inherent physical and chemical barriers are evidently crucial factors in the resistance against GPA infestation. This study not only provide new insights into the biochemical basis of GPA resistance but also highlights the GPA-resistant B. carinata germplasm resources for the future accurate genetic improvement of Brassica crops. 相似文献
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为验证40%氯噻啉水分散粒剂对烟田烟蚜的防治效果,进行了田间药效试验。试验结果表明,40%氯噻啉水分散粒剂对烟蚜有较好的防治效果,药后第10d供试3个剂量的防效为89.83%~96.40%,各处理间无显著性差异。40%氯噻啉水分散粒剂用于防治烟田蚜虫的适宜用量为18.75g/hm2(有效成分),持效期为10d左右。 相似文献