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1.
通过有机磷杀虫剂毒死蜱与生物源农药阿维菌素混配制剂对美洲斑潜蝇Liriomyza sativae室内毒力实验,测定共毒系数为165~234,处于明显增效范围内。据此确定最佳配比和次佳配比,配制该增效混剂30%渗透型可湿性粉剂-1和-02,在山东防治美洲斑潜蝇幼虫的田间试验表明药效优良。制剂用量50 g/667m2药后3,7,11天,两可湿粉的校正防效分别为90.43%~91.71%和87.09%~90.53%,可湿粉-1用量25 g/667m2防效为85.96%~88.28%,可湿粉-2用量37.5 g/667m2相应校正防效为84.01%~85.38%,两增效混剂防治斑潜蝇速效性和持效性皆佳,成本有所下降,且对南美洲斑潜蝇L. huidobrensis亦有较好防效。使用可湿粉与乳油相比较可减少投放入环境的化学品数量。  相似文献   

2.
低毒化学杀虫剂氯氟氰菊酯与生物源农药阿维菌素混配,通过其对美洲斑潜蝇室内毒力实验,测定共毒系数CTC为161~232,处于明显增效范围内。据此确定最佳配比,配制此增效混剂2%渗透型可湿性粉剂。在北京、山东两地防治美洲斑潜蝇幼虫的田间试验表明药效优良,制剂用量50 g/667m2药后3、7、11天两地区校正防效分别为85.26%~90.76%和86.74%~94.02%,制剂用量25g/667m2两地区相应防效分别为75.28%~85.17%、79.96%~88.68%。该增效混剂防治斑潜蝇速效性和持效性皆佳,成本有所下降,使用可湿粉与乳油相比较,可减少投放入环境的化学品数量,以减少环境污染。  相似文献   

3.
田间试验表明 ,氨基甲酸酯新杀虫剂灭蚜威单剂与生物农药阿维菌素混剂对美洲斑潜蝇Liro myzasativae防治效果优良。 5 0 %灭蚜威可湿粉使用剂量 2 5g(a .i.) 667m2 的 3~ 1 1d校正防效为85 2 8%~ 86 3 9% ,1 8 75g(a.i.) 667m2 相应药效为 83 0 1 %~ 84 0 4%。 3种不同配比的灭蚜威与阿维菌素混剂使用剂量 1 0g(a .i.) 667m2 ,药后 3~ 1 1d防效为 85 90 %~ 90 3 3 % ,7 5g(a .i.) 667m2 相应药效为 83 48%~ 88 5 2 %。  相似文献   

4.
田间试验表明 ,1 9%甲氰·阿维EC 9 5g (a .i.) 667m2 对美洲斑潜蝇LiriomyzasativaeBlanchard的校正防效药后 3~ 1 1d为 87 2 2 %~ 91 3 2 % ;7 1 2 5g (a.i.) 667m2 药后 3~ 1 1d为 81 2 9%~ 85 1 0 % ;9 5g (a .i.) 667m2 药后 3~ 1 1d防效显著优于单剂甲氰菊酯 ,药后 3~ 7d显著优于单剂阿维菌素 ,药后11d防效与阿维菌素无显著区别。 1 5 %甲氰·阿维EC 7 5g (a .i.) 667m2 对美洲斑潜蝇的校正防效药后3~ 1 1d为 85 5 9%~ 89 0 9% ;5 62 5g (a .i.) 667m2 药后 3~ 1 1d为 77 1 5 %~ 85 95 %。 1 0 %甲氰·阿维EC 7 5g (a .i.) 667m2 对美洲斑潜蝇的校正防效药后 3~ 1 1d为 85 5 9%~ 89 0 9% ;5 62 5g (a .i.) 667m2 药后 3~ 1 1d为 77 1 5 %~ 85 95 %。混剂的药效基本随有效成分含量的提高而提高。  相似文献   

5.
【目的】本研究旨在明确氰氟虫腙对草地贪夜蛾Spodoptera frugiperda幼虫的毒力水平和田间防治效果,为科学使用氰氟虫腙防治草地贪夜蛾提供参考依据。【方法】采用饲料混毒法在室内测定了氰氟虫腙与4种常用杀虫剂甲维盐、氯虫苯甲酰胺、虱螨脲和茚虫威对草地贪夜蛾3和6龄幼虫的致死中浓度(LC50)及LC90值,以及LC90浓度的这些杀虫剂对3龄幼虫的致死中时(medium lethal time, LT50)值。采用人工喷雾方法测定了玉米田中22%氰氟虫腙悬浮剂(6.6 g/667 m2)、22%氰氟虫腙悬浮剂(17.6 g/667 m2)、5.7%甲维盐水分散剂(1 g/667 m2)和150 g/L茚虫威悬浮剂(2 g/667 m2)对草地贪夜蛾幼虫的防效。【结果】室内生测结果显示,供试的5种杀虫剂中氰氟虫腙对草地贪夜蛾3和6龄幼虫均具有较高的毒力,其LC50值分别为2.64和4.3...  相似文献   

6.
阿维菌素、伊维菌素和芽孢杆菌对美洲斑潜蝇的防治效果   总被引:1,自引:0,他引:1  
田间试验结果表明 ,阿维菌素对美洲斑潜Liriomyzasativae蝇幼虫防效较好 ,优于伊维菌素对美洲斑潜蝇的防效 ,可较好地控制美洲斑潜蝇幼虫的危害 ,而Btg,Bti,Bs不宜单独用于防治美洲斑潜蝇幼虫。阿维菌素用量为 0 2 7,0 3 6,0 45g (a .i.) 667m2 时 ,对美洲斑潜蝇幼虫防效第 7d校正防效为 65 %左右 ,施药后第 1 1d校正防效为 85 48%~ 99 0 5 % ,施药后第 1 5d校正防效为 90 94%~ 99 89%。伊维菌素 0 5g (a .i.) 667m2 施药后第 3 ,7,1 1d校正防效分别为 61 67% ,90 5 3 % ,90 93 % ,伊维菌素 0 2 5g(a i ) 667m2 相应防效为 5 7.71 % ,84 68% ,85 83 %。Btg ,Bti,Bs施药后第 3 ,7,1 1d校正防效为 3 3 88%~ 5 5 5 4%。  相似文献   

7.
【目的】茶尺蠖核型多角体病毒EcobNPV是一种重要的昆虫病原微生物,可侵染茶尺蠖Ectropis obliqua和灰茶尺蠖Ectropisgrisescens2种宿主。为探明茶尺蠖核型多角体病毒制剂的田间应用技术,对影响防效的3个因子喷施方式、剂量和虫龄进行研究。【方法】采用植保无人机和人工喷施2种喷施方式,比较茶核·苏云菌悬浮剂(1×104 PIB·2 000 IU/μL)防治灰茶尺蠖的效果;设置75、150和375 mL/667 m23种剂量,比较茶核·苏云菌悬浮剂对灰茶尺蠖的防治效果;并比较其对灰茶尺蠖1龄、2龄和3龄不同虫龄的防治效果。【结果】在相同剂量下,用植保无人机和人工喷施病毒制剂对灰茶尺蠖的总防效分别为69.0%和67.6%,两者无显著差异;在75、150和375 mL/667 m23种剂量,比较茶核·苏云菌悬浮剂对灰茶尺蠖的防治效果;并比较其对灰茶尺蠖1龄、2龄和3龄不同虫龄的防治效果。【结果】在相同剂量下,用植保无人机和人工喷施病毒制剂对灰茶尺蠖的总防效分别为69.0%和67.6%,两者无显著差异;在75、150和375 mL/667 m2 3种剂量下病毒制剂对灰茶尺蠖的防效差异显著,其中375 mL/667 m2 3种剂量下病毒制剂对灰茶尺蠖的防效差异显著,其中375 mL/667 m2剂量下的防效最高,150 mL/667 m2剂量下的防效最高,150 mL/667 m2其次,150 mL/667 m2其次,150 mL/667 m2和375 mL/667 m2和375 mL/667 m2剂量对灰茶尺蠖的总防效均在90%以上;病毒制剂对灰茶尺蠖1龄、2龄和3龄幼虫的防效分别为93.3%、78.7%和67.8%,对1龄幼虫的防效显著高于3龄。【结论】茶核·苏云菌悬浮剂防治灰茶尺蠖可选用植保无人机喷施,剂量可选用150-375 mL/667 m2剂量对灰茶尺蠖的总防效均在90%以上;病毒制剂对灰茶尺蠖1龄、2龄和3龄幼虫的防效分别为93.3%、78.7%和67.8%,对1龄幼虫的防效显著高于3龄。【结论】茶核·苏云菌悬浮剂防治灰茶尺蠖可选用植保无人机喷施,剂量可选用150-375 mL/667 m2,以1龄幼虫期喷施防效为最佳。  相似文献   

8.
评价四氯虫酰胺玉米全株喷雾和喇叭口点施处理对草地贪夜蛾的活性与防效,为草地贪夜蛾综合防控提供技术支持。采用叶片喷雾法,测定了对草地贪夜蛾2龄幼虫毒力;以40%辛硫磷乳油为对照药剂,采用喷雾和喇叭口点施两种方式田间施用10%四氯虫酰胺悬浮剂,药前1 d和药后1 d、3 d、7 d,调查挂牌标记玉米上草地贪夜蛾活虫数,计算防治效果。结果表明:四氯虫酰胺对草地贪夜蛾2龄幼虫具有良好的毒力;10%四氯虫酰胺悬浮剂制剂用量600 g/hm 2喷雾处理后1 d、3 d、7 d对草地贪夜蛾的防效分别为75.90%、91.91%和92.02%,制剂用量300 g/hm 2喇叭口点施处理后1 d、3 d、7 d对草地贪夜蛾的防效分别为82.28%、89.52%和91.23%,40%辛硫磷乳油制剂用量1500 g/hm 2处理,两种施药方式防效均不佳。四氯虫酰胺对草地贪夜蛾具有良好的防治效果,喇叭口点施方式节省药剂可达50%以上,在防治草地贪夜蛾等害虫方面具有广阔的应用前景。  相似文献   

9.
50g/L虱螨脲乳油对草地贪夜蛾的室内活性和田间药效研究   总被引:1,自引:0,他引:1  
试验50 g/L虱螨脲乳油对草地贪夜蛾的室内活性及田间药效。以饲喂法测试虱螨脲对草地贪夜蛾3龄幼虫的室内活性,以喷雾法测定50 g/L虱螨脲乳油在玉米不同生长发育期的田间药效。室内测定结果表明,20 mg/L虱螨脲对草地贪夜蛾3龄幼虫有较好的毒杀作用,经其处理3 d后的死亡率为80%,处理4 d后的死亡率为98.33%。田间试验结果表明,50 g/L虱螨脲乳油在玉米拔节期施药效果最好,穗期防效一般,花粒期防效较差,750倍药液处理7 d后的防效分别为93.07%、64.24%和43.21%。50 g/L虱螨脲乳油可用于防治玉米草地贪夜蛾,推荐施药时间为玉米喇叭口期前,施药浓度为750倍液。  相似文献   

10.
氯虫苯甲酰胺对草地贪夜蛾的毒力及田间防效   总被引:3,自引:0,他引:3  
草地贪夜蛾Spodoptera frugiperda(Smith)是威胁粮食安全的重要害虫,本文测定了氯虫苯甲酰胺对草地贪夜蛾的室内毒力及田间防效,从中筛选出高效的施药方法和施药剂量,为当前草地贪夜蛾防治提供合理用药的参考。结果表明,在室内条件下,使用氯虫苯甲酰胺直接喷雾处理对草地贪夜蛾3龄和4龄幼虫毒力最高,LC_(50)值分别为0.42 mg/L和0.57 mg/L,使用0.5 mg/L 20%氯虫苯甲酰胺悬浮剂对草地贪夜蛾幼虫毒力较高,在处理后第5天均有超过90%的死亡率。在田间条件下使用氯虫苯甲酰胺对草地贪夜蛾幼虫有较好的防效,使用60.0 g.a.i./ha 0.4%氯虫苯甲酰胺颗粒剂喇叭口点施防治低龄幼虫防效较好,药后第1天、第3天和第7天低龄幼虫(1~3龄)的防效分别为90.3%、100%和100%,使用22.5 g.a.i./ha 20%氯虫苯甲酰胺悬浮剂喇叭口喷雾防治高龄幼虫(4~6龄)的防效较好,药后第1天、第3天和第7天高龄幼虫的防效分别为71.7%、84.5%和95.3%。  相似文献   

11.
斜纹夜蛾药剂防治综合决策的研究   总被引:2,自引:2,他引:0  
根据不同药剂对斜纹夜蛾的防治效果、防治工本费、对天敌的影响、防治后挽回的产量损失等资料,以净收益最大作为最优防治目标,运用优化理论和多目标决策方法,对11种药剂防治措施进行了综合分析。结果表明,在11种药剂防治措施中,以每667m^2施1.8%阿维菌素乳油16.7ml最优,其次是1.8%阿维菌素乳油25ml,20%氰戊菊酯乳油25ml,2.5%功夫乳油16.7ml,2.5%功夫乳油25ml,20%氰戊菊酯乳油50ml,4.5%高效氯氰菊酯乳油50ml,4.5%高效氯氰菊酯乳油25ml,50%辛硫磷乳油50ml,10%除尽悬浮剂16.7ml,10%除尽悬浮剂25ml,为合理地选择农药和用量提供了科学依据。  相似文献   

12.
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.  相似文献   

13.
The two-spotted spider mite, Tetranychus urticae, is one of the most destructive pests of various orchard trees and garden plants. Biochemical mechanisms of abamectin resistance in two T. urticae strains (PTF, 239-fold resistance; AbaR, ca. 4753-fold resistance) were investigated. The involvement of both esterase (Est) and mixed function oxidase (MFO) in abamectin resistance was suggested by synergistic bioassays, in which median lethal time (LT50) values were significantly reduced by pretreatment with triphenyl phosphate (TPP) and piperonyl butoxide, respectively. Detoxification enzyme assays confirmed that Est and MFO were related to abamectin resistance as metabolic factors. Moreover, some Est bands on a native isoelectric focusing gel were specifically inhibited by TPP, implying their association with resistance. Pretreatment with verapamil in synergistic bioassays did not reduce the LT50 to abamectin, suggesting that the ABC transporter is not likely involved in resistance. However, enhanced MFO and Est activities in the AbaR strain were not enough to account for the extremely high level of abamectin resistance, which suggests the involvement of additional resistance mechanisms, such as target site insensitivity.  相似文献   

14.
The present study was conducted to determine the nitrogen transformation test of abamectin 3.6 g/L EC. This study was conducted as per OECD Guidelines for the Testing of Chemicals OECD 216. The test item abamectin 3.6 g/L emulsifiable concentrate (EC) was applied in a loamy sand soil and incubated over a period of 28 days for nitrogen transformation test at concentrations of 3.2 μL/kg soil dry weight and 16 μL/kg soil dry weight. The concentrations tested were based on one and five times the maximum recommended field application rates of 1200 mL/ha and 6000 mL/ha of abamectin 3.6 g/L EC, respectively. The deviation in soil nitrate content determined at 28 days after application of the test item to soil compared to the control was 0.14% and ? 9.25% for the single and five times test concentrations, respectively. There is no significant variation between the treatment groups and control sample. The rate of nitrate formation between 14 and 28 days after application of the test item to soil deviate from control by 10.41% and 13.74% for 3.2 and 16 μL/kg soil dry weight, respectively. Deviations in nitrate levels and nitrate formation rates in soil treated with up to and including 16 μL/kg of test item/kg soil dry weight were < 25%, compared to control indicating no significant effect occurred in nitrogen transformation.  相似文献   

15.
16.
Burkholderia sp. GB-01 strain was used to study different factors affecting its growth for inoculum production and then evaluated for abamectin degradation in soil for optimization under various conditions. The efficiency of abamectin degradation in soil by strain GB-01 was seen to be dependent on soil pH, temperature, initial abamectin concentration, and inoculum size along with inoculation frequency. Induction studies showed that abamectin depletion was faster when degrading cells were induced by pre-exposure to abamectin. Experiments performed with varying concentrations (2–160 mg Kg−1) of abamectin-spiked soils showed that strain GB-01 could effectively degrade abamectin over the range of 2–40 mg Kg−1. The doses used were higher than the recommended dose for an agricultural application of abamectin, taking in account the over-use or spill situations. A cell density of approximately 108 viable cells g−1 dry weight of soil was found to be suitable for bioremediation over a temperature range of 30–35°C and soil pH 7.5–8.5. This is the first report on bacterial degradation of abamectin in soil by a Burkholderia species, and our results indicated that this bacterium may be useful for efficient removal of abamectin from contaminated soils.  相似文献   

17.
Habrobracon hebetor Say is one of the most important ectoparasitoids of the larval stage of many invasive agricultural pests such as noctuid and pyralid moths. Lethal and sublethal effects of carbaryl and abamectin were assessed on the ectoparasitoid H. hebetor in laboratory conditions. Dose–response bioassays were carried out on immature and adult stages by using dipping and contact residue methods, respectively. LC50 (lethal concentration for 50%) values of carbaryl and abamectin were 31.19 and 4.16 mg a.i. l−1 on larval stage and 12.6 and 4.42 mg a.i. l−1 on adults, respectively. In order to assess the sublethal effects, adult wasps were exposed to an LC30 of each insecticide and then the demographic parameters of live wasps were studied. The results showed that the intrinsic rate of increase (r m ), finite rate of increase (λ), net reproductive rate (R0) and gross reproductive rate (GRR) were significantly affected by the insecticides. The highest and the lowest r m values were 0.23 and 0.17 in control and carbaryl-treated insects, respectively. The sex ratio of H. hebetor offspring was not significantly affected by either insecticide. The results showed that carbaryl had more adverse effects on population parameters of the parasitoid compared to abamectin. Field studies are needed to determine the total effects of the pesticides on H. hebetor.  相似文献   

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