氯虫苯甲酰胺拌种对稻纵卷叶螟的防治效果及安全性评价

为减少水稻抽穗前田间稻纵卷叶螟的化学防治次数及用药量,降低对天敌的伤害及农药残留,最终实现稻纵卷叶螟的简约化防控,采用氯虫苯甲酰胺对水稻种子进行拌种处理,室内测定了药剂拌种对种子发芽的安全性,并结合不同栽培模式下的田间试验,评价了不同用量下氯虫苯甲酰胺拌种对稻纵卷叶螟的控制时长及保叶效果,明确了药剂拌种对天敌蜘蛛的影响及最终残留情况。结果表明:当氯虫苯甲酰胺按有效成分用量30~120 g/hm2拌种时,对种子的发芽率及出苗均无影响。直播稻模式下,氯虫苯甲酰胺按有效成分60 g/hm2拌种,播种后110 d,其保叶效果仍高达97.13%;旱育手栽秧模式下,氯虫苯甲酰胺按有效成分90 g/hm2拌种,播种后108 d保叶效果为82%以上,旱育机插秧模式下按有效成分90~120 g/hm2拌种,播种后90 d保叶效果仍在95%以上;3种模式下拌种处理的保叶效果及持效期均远优于常规喷雾防治。研究表明,利用氯虫苯甲酰胺对水稻种子进行拌种处理,可有效控制水稻前期及中期稻纵卷叶螟的为害,降低后期田间虫口基数,并且对田间天敌蜘蛛安全性高,同时在收获的稻谷中未检出氯虫苯甲酰胺残留(残留量低于定量限0.000 8 mg/kg)。在江苏省丘陵地区粳稻区应用氯虫苯甲酰胺拌种处理,可确保水稻直至抽穗初期无需再进行稻纵卷叶螟的防治,并可显著减少后期稻纵卷叶螟虫源基数,实现稻纵卷叶螟的简约化防治。     

华南小菜蛾田间种群对氯虫苯甲酰胺已产生严重抗性

2009—2011年在广东连州、惠州、佛山、广州和广西柳州、江西信丰等多个华南区主要菜场开展小菜蛾对氯虫苯甲酰胺的抗药性监测。结果发现,与室内敏感种群的敏感基线相比(LC50=0.13 mg/L),各监测点在2009年秋季均为敏感水平,2010年秋季部分地区出现敏感性下降和低水平抗性,而2011年春季除了监测到敏感性下降和低水平抗性外,还发现个别监测点产生中等水平抗性,抗性上升趋势明显。随后,在广州增城菜区监测到一例对氯虫苯甲酰胺产生极高水平抗性的小菜蛾田间种群,其当代和F1代虫源的LC50值分别为78.78、59.14 mg/L,抗性倍数分别为606.00和454.92,达极高抗性水平。分析小菜蛾对氯虫苯甲酰胺产生抗药性的关键因素,认为过度依赖该药、随意提高施用剂量、不合理混配、连年连片单一种植模式等可能是有利于抗药性发展的关键因素。     

氯虫苯甲酰胺亚致死剂量对甜菜夜蛾主要解毒酶活性与生长繁殖的影响

【目的】甜菜夜蛾(Spodoptera exigua)是一种杂食性害虫,在不同环境、药物等选择压力下表现出不同的生长发育特点。氯虫苯甲酰胺是一种新型广谱的鱼尼丁受体杀虫剂,对鳞翅目害虫杀虫活性强。本研究旨在探究氯虫苯甲酰胺亚致死剂量对甜菜夜蛾幼虫3种主要解毒酶——羧酸酯酶(Car E)、谷胱甘肽S-转移酶(GSTs)和多功能氧化酶(MFOs)活性以及对种群繁殖的影响。【方法】采用饲料混毒法测定氯虫苯甲酰胺对SE-Lab品系、SE-Sel品系的毒力,SE-Sel品系由SE-Lab品系经亚致死剂量LC25连续汰选6代得到;通过浸叶法测定磷酸三苯酯(TPP)、顺丁烯二酸二乙酯(DEM)、胡椒基丁醚(PBO)3种酶抑制剂与氯虫苯甲酰胺协同对SE-Lab和SE-Sel品系的毒力增效作用,提前12 h让试虫取食浸渍过酶抑制剂的叶片,对照组取食用0.1%Triton X-100浸渍后的叶片,再分别测定氯虫苯甲酰胺对使用酶抑制剂与未使用酶抑制剂试虫的毒力;在冰上解剖试虫的中肠和脂肪体,并通过离体酶活性测定,分析氯虫苯甲酰胺亚致死剂量与酶抑制剂对甜菜夜蛾体内的3种代谢解毒酶活力的影响;通过记录试虫各个年龄阶段的生长、死亡、产卵量等数据,参照两性生命表理论分析SE-Lab和SE-Sel品系的两性生命表参数差异。【结果】在3种酶抑制剂中PBO增效作用最强,其对甜菜夜蛾SE-Sel品系和SE-Lab品系对氯虫苯甲酰胺的毒力增效比分别为1.58和1.69。在氯虫苯甲酰胺亚致死剂量连续汰选下,甜菜夜蛾体内3种解毒酶活性均被诱导上升,其中MFOs酶活力上升最显著,SE-Sel品系中肠和脂肪体的MFOs活性相对于SE-Lab品系分别提高了2.07和2.10倍,而经氯虫苯甲酰胺亚致死剂量再次诱导的SE-Sel试虫的MFOs活性亦较SE-Lab品系上升4.02和3.44倍;在使用了酶抑制剂后3种解毒酶酶活力均有下降,其中MFOs活性下降最多,其酶比活力仅为未使用酶抑制剂处理的42.3%—44.8%。与SE-Lab品系相比,SE-Sel品系成虫的产卵前期和总产卵前期变长,而产卵量减少;SE-Sel品系的内禀增长率(r)、周限增长率(λ)和净增殖率(R0)均显著小于SE-Lab品系,SE-Lab品系与SE-Sel品系的r分别为0.18和0.16 d~(-1),λ为1.20和1.17 d~(-1),R0为358.42和203.12 d~(-1)。尽管SE-Sel品系的平均世代周期(T)更长,但是与SE-Lab品系无显著差异。【结论】MFOs可能为甜菜夜蛾对氯虫苯甲酰胺解毒代谢过程中的主要解毒酶,在其后续抗性形成中起主要作用;甜菜夜蛾在氯虫苯甲酰胺亚致死剂量作用下,世代周期延长,繁殖力降低,种群增长减缓,氯虫苯甲酰胺亚致死剂量对甜菜夜蛾有持续控制作用。     

Biochemical Mechanism of Chlorantraniliprole Resistance in the Diamondback Moth,Plutella xylostella Linnaeus

The insecticide chlorantraniliprole exhibits good efficacy and plays an important role in controlling the diamondback moth, Plutella xylostella Linnaeus. However, resistance to chlorantraniliprole has been observed recently in some field populations. At present study, diamondback moths with resistance to chlorantraniliprole (resistant ratio (RR) was 82.18) for biochemical assays were selected. The assays were performed to determine potential resistance mechanisms. The results showed that the selected resistant moths (GDLZ-R) and susceptible moth could be synergized by known metabolic inhibitors such as piperonyl butoxide (PBO), triphenyl phosphate (TPP) and diethyl-maleate (DEM) at different levels (1.68–5.50-fold and 2.20–2.89-fold, respectively), and DEM showed the maximum synergism in both strains. In enzymes assays, a high level of glutathione-S-transferase (GST) was observed in the resistant moth, in contrast, moths that are susceptible to the insecticide had only 1/3 the GST activity of the resistant moths. The analysis of short-term exposure of chlorantraniliprole on biochemical response in the resistant strain also showed that GST activity was significantly elevated after exposure to a sub-lethal concentration of chlorantraniliprole (about 1/3 LC₅₀, 12 mg L⁻¹) 12 and 24 h, respectively. The results show that there is a strong correlation between the enzyme activity and resistance, and GST is likely the main detoxification mechanism responsible for resistance to chlorantraniliprole in P. xylostella L., cytochrome P450 monooxygenase (P450) and carboxy-lesterase (CarE) are involved in to some extent.     

Baseline toxicity and stage specificity of recently developed reduced‐risk insecticides chlorantraniliprole and spinetoram to obliquebanded leafroller,Choristoneura rosaceana (Harris) (Lepidoptera: Tortricidae)

BACKGROUND: Studies were designed to assess baseline toxicity of the two recently developed reduced‐risk insecticides chlorantraniliprole and spinetoram to obliquebanded leafroller (OBLR), Choristoneura rosaceana (Harris), and to determine stage‐specific effects of these products on OBLR, so that these new chemicals could be judiciously incorporated into IPM programs by targeting only the most susceptible stages of OBLR. RESULTS: Both chlorantraniliprole and spinetoram were highly effective against neonate OBLR larvae at much lower doses than conventional standard azinphosmethyl. Most of the mortality caused by spinetoram occurred during the 4 day exposure period, while significant delayed mortality was observed as a result of chlorantraniliprole treatment during the 7 day recovery period, indicating that chlorantraniliprole is a slower‐acting compound compared with spinetoram. Unlike broad‐spectrum predecessors, the toxicity of chlorantraniliprole significantly increased with larval age. Similarly, the toxicity of spinetoram increased as larvae grew from neonates to third instars. CONCLUSION: Chlorantraniliprole and spinetoram are highly effective against OBLR larvae, regardless of larval age. Incorporation of these reduced‐risk chemistries into IPM programs for OBLR would lead to effective management of this pest in tree fruit systems. Copyright © 2011 Society of Chemical Industry