获取复配农药最佳增效配方的一种简易方法

借鉴共毒因子法评价农药复配联合作用的思想,将参与复配的单剂引起25％死亡率的剂量定为零水平,利用二次回归通用旋转组合设计安排实验研究氯氰菊酯和喹硫磷复配对斜纹夜蛾（Spodoptera litura）2龄幼虫的增效作用,得出杀虫剂使用量与斜纹夜蛾幼虫死亡率机率值之间的关系,从共毒系数（CTC）的计算公式推导出共毒系数与杀虫混剂中两单剂使用浓度N1、N2之间的数学关系,CTC＝100／N1／α N2/b（α、b分别为氯氰菊酯和喹硫磷的LC50）,进而确定最优化问题的目标函数j=N1/α＋N2／b,利用国际统计分析软件SAS的NLP过程求最大共毒系数和最优配方,所得结论与共毒系数法一致。     

斜纹夜蛾核多角体病毒与增效剂混配对斜纹夜蛾幼虫的防治效果研究

斜纹夜蛾核多角体病毒 (Ｓｐｏｄｏｐｔｅｒａｌｉｔｕｒａｎｕｃｌｅａｒｐｏｌｙｈｅｄｒｏｓｉｓｖｉｒｕｓ ,简称ＳｐｌｔＮＰＶ)杀虫剂是一种无公害的生物杀虫剂 ,主要用于防治多食性的重要经济害虫斜纹夜蛾 ,同时兼治其它一些鳞翅目害虫。该产品主要由ＳｐｌｔＮＰＶ、增效剂、填料等组成。本文研究了斜纹夜蛾核多角体病毒 (ＳｐｌｔＮＰＶ)、增效剂以及两者混配对斜纹夜蛾幼虫的防治效果。在室温条件下 ,斜纹夜蛾幼虫的死亡率随病毒浓度或增效剂添加量的提高而增加。增效剂和ＳｐｌｔＮＰＶ混配后 ,对斜纹夜蛾幼虫防治效果比单独使用…     

斜纹夜蛾抗药性及其防治对策的研究进展

斜纹夜蛾Spodopteralitura是多种作物的重要害虫 ,对有机氯、有机磷、氨基甲酸酯类、拟除虫菊酯类以及Bt制剂等杀虫剂均产生抗药性。本文对斜纹夜蛾抗药性的形成与发展、抗性机理及其防治对策等方面进行了综述     

杀虫剂对小菜蛾、甜菜夜蛾、斜纹夜蛾的毒力研究

室内浸叶法试验表明,三种害虫中斜纹夜蛾、小菜蛾对供试杀虫剂的敏感程度一般比甜菜夜蛾高。灭虫灵对小菜蛾有很高的潜力,LC50为0．09mg/L,甜菜夜蛾、斜纹夜蛾对灭虫灵敏度程度较低,LC50在150mg/L左右。除尽对甜菜夜蛾,毒死蜱对斜纹夜蛾毒力最高,LC50分别为1．48mg/L和0．49mg/L,除尽、锐劲特、抑太保对小菜蛾、甜菜夜蛾、斜纹夜蛾都具有很高的毒力,可作为兼治这三种害虫的首选品种。     

Cry1C蛋白对4种棉花害虫的致死效果

【背景】苏云金芽胞杆菌(Bt)属革兰氏阳性细菌,是目前世界上应用最广泛的杀虫剂。来自Bt的Cry1Ac基因自1997年商业化以来,其产生的蛋白对棉铃虫、红铃虫等鳞翅目害虫起到了很好的控制作用。但该基因对甜菜夜蛾、斜纹夜蛾、玉米螟等害虫的控制作用较差,因此,需要寻找新的Bt基因亚型控制上述害虫。【方法】将Cry1C蛋白加到人工饲料上形成药膜后,接入低龄幼虫进行生物测定,以常规不加毒蛋白的饲料为对照,计算1、3、5、7 d后不同害虫的校正死亡率。【结果】随着Cry1C蛋白浓度的增加及时间的延长,甜菜夜蛾和斜纹夜蛾的校正死亡率逐渐升高,Cry1C浓度为10μg·m L-1时,处理7 d后,甜菜夜蛾和斜纹夜蛾的校正死亡率分别为100%和85.42%,表明甜菜夜蛾比斜纹夜蛾更敏感,而棉铃虫和玉米螟对Cry1C蛋白的敏感性较差。【结论与意义】Cry1C基因可作为控制棉田甜菜夜蛾和斜纹夜蛾的有价值的候选基因,但是对棉铃虫和玉米螟无效。该研究为筛选新的Bt基因亚型用于防治不同的棉花害虫提供了数据参考。     

斜纹夜蛾抗药性监测及茚虫威对其解毒代谢酶的影响

【目的】斜纹夜蛾Spodoptera litura (Fabricius)是主要的农业害虫之一。本研究旨在明确该害虫在湖南省5个主要蔬菜种植区的抗药性水平,并探讨该害虫对茚虫威的抗性与解毒代谢酶活性之间的关系,为斜纹夜蛾有效防控及抗性治理提供依据。【方法】采用浸叶法测定了2014-2016年湖南5地斜纹夜蛾田间种群对10种杀虫剂的抗性水平;将斜纹夜蛾敏感种群3龄幼虫在死亡率40%~70%的选择压下用茚虫威进行汰选,比较了斜纹夜蛾敏感种群和抗茚虫威种群的羧酸酯酶、谷胱甘肽S-转移酶和多功能氧化酶对硝基苯甲醚O-脱甲基活性。【结果】湖南5地斜纹夜蛾田间种群对有机磷类杀虫剂产生了26.9~220.2倍的抗性,对氨基甲酸酯类杀虫剂产生了68.3~890.8倍的抗性,对拟除虫菊酯类杀虫剂产生了21.0~267.2倍的抗性,对相对较新型杀虫剂（甲维盐、阿维菌素、茚虫威和溴虫腈）产生了5.2~53.4倍的抗性。经茚虫威汰选后第14代[抗性倍数(resistance ratio, RR)=26.43]斜纹夜蛾羧酸酯酶、谷胱甘肽S-转移酶和对硝基苯甲醚O-脱甲基酶活性分别上升2.86, 1.01和1.83倍。【结论】斜纹夜蛾对多种药剂产生了不同水平的抗性,斜纹夜蛾幼虫羧酸酯酶和对硝基苯甲醚O-脱甲基活性增强可能是斜纹夜蛾对茚虫威的抗性上升的重要因素。     

病毒毒饵法初探

"虫瘟一号"是我国首个登记应用在蔬菜上的昆虫病毒杀虫剂,是以斜纹夜蛾多角体病毒(Spodoptera litura Nucleopolyhedrovirus,简称SpltNPV)为主要有效成分的商品化杀虫剂,主要用于防治暴食性、多食性的斜纹夜蛾[1].     

人工饲料饲养斜纹夜蛾简报

<正> 斜纹夜蛾Prodenia litura Fabricius是广西蔬菜主要害虫之一。为了探索利用斜纹夜蛾核型多角体病毒或培养螟蛉绒茧蜂Apanteles ru-ficrus(Haliday)进行防治,我们先摸索用半纯饲料饲养斜纹夜蛾,初步获得成功,简报于下。 (一)饲料配制 配方详见表1。蓖麻叶经50℃恒温烘干、粉碎,过60目筛。黄豆粉碎后也经60目筛,并加热110℃烘熟。配制饲料     

叉角厉蝽对斜纹夜蛾的捕食功能反应

叉角厉蝽Cahtheconidea furcellata是一种重要的捕食性天敌昆虫,为了探明该虫的捕食潜能,在室内条件下研究了叉角厉蝽成虫对斜纹夜蛾Spodoptera litura Fab.二龄和三龄幼虫的捕食作用和种内干扰作用。结果表明,叉角厉蝽成虫的捕食量随着斜纹夜蛾幼虫的密度增加而增大,其捕食功能反应符合HollingⅡ型方程。叉角厉蝽对斜纹夜蛾2龄幼虫的捕食量符合Na=0.7364N/(1+0.0118N),对斜纹夜蛾3龄幼虫的捕食量符合Na=0.7504N/(1+0.0005N),叉角厉蝽的捕食作用有较强的种内干扰反应,捕食率与个体间相互干扰的关系符合Hassell模型。叉角厉蝽的捕食量与害虫密度正相关,寻找效应与害虫密度负相关。     

应用氯氰菊酯和B.t.i H-14混配杀虫剂现场防治城市蚊幼虫的效果评价

采用常量喷雾或注射器滴注方法观察氯氰菊酯、B .t.iH 1 4混配杀虫剂对城市中小型蚊幼虫孳生地现场防治蚊幼虫的效果。结果表明用 2 5mg L、5 0mg L混配杀虫剂分别处理蚊幼虫孳生地 ,1天后蚊幼虫下降率均为 1 0 0 %。容器指数由处理前的 5 3 5和 5 1 6下降至零的持效期分别为 1 4和 2 1天。2 5mg L混配杀虫剂在 2 1天内的毒杀持效与单独使用 5 0mg LB t iH 1 4、1 0mg L氯氰菊酯相当 ,而5 0mg L混配杀虫剂持效比单独使用 5 0mg LB .t.iH 1 4,1 0mg L氯氰菊酯延长 7天 ,表明混配杀虫剂在现场能有效防治蚊幼虫 ,减少化学杀虫剂的用量。     

Systemic insecticide and gibberellin reduced cone damage and increased flowering in a spruce seed orchard

Insects feeding in conifer cones are difficult to control with nonsystemic insecticides. Newly developed systemic insecticides that can be injected into tree trunks may be a possible way of reducing both insect damage and negative side-effects to the surrounding environment, compared with conventional spraying. Several insecticides that could be injected into tree stems were tested on Picea abies (L.) Karst. In one experiment, insecticides (bifenthrin, deltamethrin, abamectin, and imidacloprid) were injected during flowering; in a second experiment two of these insecticides (abamectin and imidacloprid) were injected 1 yr before the expected flowering. In the second experiment insecticide treatment was also combined with treatments with the flower stimulating hormone, gibberellin (GA(4/7)). The only insecticide that reduced damage was abamectin, both after injection during flowering and after injection 1 yr before the expected flowering. Injections with GA(4/7) increased flowering and were as efficient as the conventional application method of drilling but abamectin was not effective in combination with the drilling method. There was no negative effect of the insecticide injections on seed quality. The injections were ineffective against the seed chalcid Megastigmus strobilobius (Ratzeburg), which was found to have an unexpected, negative effect on seed quality. Our results suggest that it may be possible to reduce damage from certain insect species, and to increase flowering by injecting abamectin and GA(4/7) in the year before a cone crop.     

褐飞虱对吡虫啉的抗性机理和靶标分子毒理学

褐飞虱Nilaparvata lugens是水稻最重要的害虫之一,长期依赖化学防治导致了该害虫对不同类型杀虫剂抗性的产生,对新烟碱类杀虫剂吡虫啉高水平抗性的产生更是造成了巨大的粮食生产损失。近年来在褐飞虱对吡虫啉抗性机理,以及在抗药性机理研究推动下吡虫啉作用靶标褐飞虱神经系统烟碱型乙酰胆碱受体（nicotinic acetylcholine receptors, nAChRs）毒理学等方面取得了许多研究进展。nAChRs是昆虫神经系统中最重要的神经递质受体,是几类重要杀虫剂的作用靶标,其中以新烟碱类杀虫剂为代表。通过对比敏感品系和室内连续筛选获得的高抗吡虫啉品系,在褐飞虱两个nAChRs亚基Nlα1和Nlα3中均发现了抗性相关点突变Y151S,该突变导致了受体与吡虫啉结合亲和力的显著下降,而对内源神经递质乙酰胆碱的亲和力影响很小。Nlα1与褐飞虱另外两个亚基Nlα2和Nlβ1共聚成一个受体,构成吡虫啉低亲和力结合位点;Nlα3与褐飞虱另外两个亚基Nlα8和Nlβ1共聚成一个受体,构成吡虫啉高亲和力结合位点。不仅褐飞虱nAChRs与吡虫啉抗性相关,某些nAChRs附属蛋白也直接影响褐飞虱对吡虫啉的抗性,如Lynx蛋白。关于褐飞虱nAChRs组成、抗药性相关变异、受体附属蛋白对抗药性的影响等方面的研究,均为国内外前沿报道,不仅有助于对新烟碱类杀虫剂抗性机理的理解,对昆虫nAChRs毒理学同样具有很大的推动作用。     

Influences of insecticides on toxicity and cuticular penetration of abamectin in Helicoverpa armigera

Synergistic actions for mixtures of abamectin with other insecticides in some insect pests were evaluated, and the possible synergistic mechanism was studied by the comparison in toxicity and cuticular penetration of abamectin between with and without other insecticides or synergists in Helicoverpa armigera larvae. The results of bioassay showed that horticultural mineral oil (HMO), hexaflumuron, chlorpyrifos, and some other insecticides were synergistic to abamectin with 152.0-420.0 of co-toxicity coefficient(CTC) in some agricultural insect pests. In topical application tests, HMO or piperonyl butoxide (PBO) increased the toxicity of abamectin in larvae of H. armigera, but the mortality was not affected by s,s,s-tributylphorotrithioate (DEF) and triphenylphosphate (TPP). The synergistic action of HMO was obviously higher than PBO, and when treated simultaneously with abamectin, HMO gave a more significant synergism than if treated 2 hours ahead. The highest synergistic effect (SE) was found in the mixture of ‘abamectin HMO (1:206)‘. The mortality did not increase or the toxicity drop, when a synergist or HMO was added into the mixture of ‘abamectin HMO‘ or ‘abamectin synergist‘, respectively. Results from the isotope tracing experiments showed that HMO significantly enhanced the penetration of ^3H-abamectin through the cuticle of H.armigera larvae, which resulted in the synergism of the mixture. The cuticular penetration of ^3H-abamectin was not accumulatively affected by chlorpyrifos, nor by hexaflumuron,though there was an inhibition within 30 seconds or 1 hour after treated by these two chemicals respectively. Results suggested that the synergism of abamectin mixed with hexaflumuron or chlorpyrifos might be related to inhibition of metabolic enzymes or target sites in the larvae.     

Evolution of resistance to penicillin and cephalosporin antibiotics

Microorganisms belong to the main regulators of insect populations under natural conditions. They perform this function in several ways. In the first place, bacterial metabolites exist which are as potent as chemical insecticides. In the second, entomopathogenic fungi and viruses spread deadly infections among insect populations. The use of advanced techniques in molecular biology, genetic engineering and biotechnology is increasingly expanding the potential of microorganisms as agents of insect pest control.     

A field study investigating the insecticidal efficacy against Diaphorina citri Kuwayama on Kinnow mandarin,Citrus reticulata Blanco trees

Asian citrus psyllid is a most damaging insect pest of citrus. In this field study, the efficacy of seven insecticides (emamectin benzoate, bifenthrin, chlorfenapyr, fipronil, imidacloprid, pyriproxyfen and thiamethoxam) was evaluated against Diaphorina citri Kuwayama in the citrus orchard of Kinnow mandarin, Citrus reticulata Blanco. The insecticides revealed a differential and substantial relative efficacy against D. citri compared to the untreated plants. The insecticidal effect attributed as percent reduction in insect population was more prominent after three days of spray: highest reduction values were recorded with thiamethoxam (50.89%), imidacloprid (44.27%) and bifenthrin (42.94%) after first spray, and thiamethoxam (83.36%), imidacloprid (73.20%) and bifenthrin (72.66%) after second spray. Thus, neonicotinoids (thiamethoxam and imidacloprid) and pyrethroid (bifenthrin) resulted as highly effective against D. citri at three days after both sprays. At seven days, imidacloprid (63.53%) and fipronil (62.47%) presented relatively higher population reduction after first spray, and thiamethoxam (92.66%) and chlorfenapyr (89.59%) after second spray. At 12 days, the insecticidal effect on insect population became significantly at par after each spray except chlorfenapyr that reflected high population reduction (93.17%) only after second spray. It is also obvious from the data that there is need of regular monitoring to suppress the psyllids population below threshold level by timely application of the second insecticidal spray.     

Deletion of the nicotinic acetylcholine receptor subunit gene Dα1 confers insecticide resistance,but at what cost?

Nicotinic acetylcholine receptors (nAChRs) have vital functions in processes of neurotransmission that underpin key behaviors. These pentameric ligand-gated ion channels have been used as targets for insecticides that constitutively activate them, causing the death of insect pests. In examining a knockout of the Dα1 nAChR subunit gene, our study linked this one subunit with multiple traits. We were able to confirm previous work that had identified Dα1 as a target of the neonicotinoid class of insecticides. Further, we uncovered roles for the gene in influencing mating behavior and patterns of sleep. The knockout mutant was also observed to have a significant reduction in longevity. This study highlighted the severe fitness costs that appear to be associated with the loss of function of this gene in natural populations in the absence of insecticides targeting the Dα1 subunit. Such a fitness cost could explain why target site resistances to neonicotinoids in pest insect populations have been associated specific amino acid replacement mutations in nAChR subunits, rather than loss of function. That mutant phenotypes were observed for the two behaviors examined indicates that the functions of Dα1, and other nAChR subunits, need to be explored more broadly. It also remains to be established whether these phenotypes were due to loss of the Dα1 receptor and/or to compensatory changes in the expression levels of other nAChR subunits.     

Efficacy of botanical insecticides from Piper species (Piperaceae) extracts for control of Ruropean chafer (Coleoptera: Scarabaeidae)

Biopesticides, including botanicals, can offer a safe and effective alternative to conventional insecticides for controlling major insect pests within an integrated pest management program. The current study highlights the practical application of a botanical insecticide for controlling a major insect pest of turfgrass: European chafer, Rhizotrogus majalis (Razoumowsky). Greenhouse and field trials were conducted to test the efficacy of a botanical formulation based on black pepper, Piper nigrum L. (Piperaceae), seed extracts to R. majalis larvae. The 7-d P. nigrum extract LC50 for R. majalis third instars was 2.5%. Successful treatment in the field was accomplished with the application of a 2% P. nigrum formulation to turfgrass infested with R. majalis second and third instars, whereas 4% extract was required in a second field trial with older third instars. The 2% pepper extract activity was comparable with the conventional insecticide diazinon in the first field trial. However, the 4% pepper extracts significantly affected the earthworm populations in treated plots compared with diazinon in the second field trail. The analysis of soil residues for piperamides in the P. nigrum extract determined a half-life of 1 - 2.6 d in the first and second field trials, respectively. This confirmed the expectation that under field conditions the residual activity would be less than conventional insecticides, thereby reducing the environmental risk associated with pesticide use. We recommend the pepper formulation for spot treatment applications when population densities reveal an epicenter of infestation rather than broadcasting over large areas, thus helping to minimize cost and negative affects on nontarget invertebrates.     

两种室内生物测定方法评价杀虫剂对绿盲蝽的相对毒力

随着Bt棉在我国的广泛种植, 绿盲蝽Lygocoris lucorum Meyer-Dür的危害日益加重。化学防治作为棉田盲蝽综合治理的重要策略, 仍是其主要的防治手段。本研究主要用闪烁管药膜法和点滴法两种测定方法评价了传统杀虫剂、新型杀虫剂等30种杀虫剂对绿盲蝽成虫的急性触杀毒力, 其中多种杀虫剂是首次使用两种生测方法同时进行毒力测定。结果表明：有机氯类、有机磷类、氨基甲酸酯类和拟除虫菊酯类等传统杀虫剂对绿盲蝽成虫具有较高的触杀活性。8种对绿盲蝽成虫具有较高毒力的药剂, 其中5种为传统杀虫剂, 分别为马拉硫磷、毒死蜱、联苯菊酯、灭多威和硫丹。新型吡咯类杀虫剂对绿盲蝽表现出较高毒力, 以氟虫腈的毒力最高, 两种生测方法测定的LC₅₀分别为0.13 μg·mL^-1 和 0.15 μg·mL^-1。而昆虫生长调节剂、抗生素类及植物源杀虫剂对绿盲蝽成虫没有明显的触杀活性。