Evaluation of the effectiveness of conventional insecticides against the cowpea weevil, Callosobruchus maculatus (Coleoptera: Bruchidae), on four different substrata surfaces

在害虫治理中,在消费或贮藏粮食加工产品的建筑设施或场所进行害虫防治需要将杀虫剂施用在各种基质表面上.为了测定不同基质表面上杀虫剂的药效,将四纹豆象Callosobruchus maculatus(F.)成虫接触田间推荐剂量的阿维菌素、溴氰菊酯和毒死蜱.结果表明:施用在玻璃、瓷砖、塑料和纸盘表面上,阿维菌素对四纹豆象成虫的致死率分别为63.33％,22.41％,12.9％和11.9％,而溴氰菊酯在这4种基质表面上对四纹豆象成虫的致死率分别为55％,44.2％,41.3％和37.4％.在所有基质表面上接触毒死蜱,四纹豆象成虫的死亡率均为100％.对数据进行的Probit分析表明,毒死蜱制剂在玻璃、瓷砖、塑料和纸盘上对四纹豆象成虫的LC50值分别为8.66,13.6,29 16和56.5 μg/mL,阿维菌素制剂的相应数值分别为119.4,446.2,774.2和836.4μg/mL,溴氰菊酯制剂的相应数值分别为1008,1131,1210和1336 μg/mL.据此推断,毒死蜱对四纹豆象的毒性最强,且在玻璃、瓷砖、塑料和纸盘表面上的毒性依次降低.     

在玻璃表面上短时接触硅藻土和多杀菌素对四纹豆象的致死效应和亚致死效应（英文）

四纹豆象Callosobruchus maculatus (F.)是伊朗豇豆种子上的主要贮藏害虫。控制这一害虫时, 用生物杀虫剂比用常规杀虫剂更为合适。本研究评价了室内条件下在玻璃表面上硅藻土和多杀菌素对四纹豆象成虫的致死效应和亚致死效应。结果表明： 硅藻土处理24 h和48 h后, 对四纹豆象成虫的LC50 值分别为 1.47和0.2 g/m²; 多杀菌素处理24 h和48 h后, 对四纹豆象成虫的LC50 值分别为102.9 和68.8 mg ai/L, 说明两种化合物都对四纹豆象成虫具有较高的急性毒性。通过检测生物学参数, 研究了LC₂₀浓度的硅藻土和多杀菌素对四纹豆象的亚致死效应。LC₂₀浓度的硅藻土和多杀菌素使四纹豆象成虫的繁殖力分别比对照降低了71.5%和17.2%, 卵孵化率降低了57.5%和27.8%, 成虫寿命缩短了74.7%和17.1%。接触LC₂₀浓度的硅藻土和多杀菌素使这一害虫的蛹期分别比对照延长了4.8%和2.3%。亚致死效应研究表明, 硅藻土和多杀菌素对四纹豆象的生命参数均产生了负面影响。总之, 致死效应和亚致死效应综合显示, 硅藻土在防治四纹豆象上具有较大的潜力。     

三种杀虫剂对皂角豆象的致死效果

【目的】筛选对皂角豆象Megabruchidius dorsalis(Fahraeus)致死效果最好的杀虫剂。【方法】采用氟啶脲、毒死蜱和灭多威3种常用类型杀虫剂的常规剂量对皂角豆象成虫、初孵幼虫和卵进行防治试验。【结果】3种杀虫剂都可以有效的杀死皂角豆象初孵幼虫,接触氟啶脲、毒死蜱和灭多威3种杀虫剂后皂角豆象幼虫72 h死亡率分别为96.59%、100.00%和100.00%,灭多威和毒死蜱对皂角豆象成虫致死效果72 h为100.00%,灭多威对皂角豆象卵的效果最为明显,致死率达94.38%,氟啶脲对皂角豆象卵和成虫无明显致死效果。【结论】灭多威对皂角豆象的致死效果最好。     

樟脑罗勒生物活性提取物对储藏豇豆和大豆中四纹豆象的影响（英文）

【目的】本研究旨在评价樟脑罗勒Ocimum canum Sims(唇形科)叶的正己烷、丙酮和甲醇提取物对四纹豆象Callosobruchus maculatus(F.)的杀虫、保护和驱避潜力。【方法】用剂量为1和5 g/kg豆粒的樟脑罗勒提取物包被处理豇豆和大豆豆粒,并以相同剂量的市售苦楝籽油进行包被处理作为参照。7 d内每隔1 d检查处理豆粒中四纹豆象成虫的死亡率。在四纹豆象的各个未成熟期,通过处理新产卵和幼虫,进行杀卵毒性和杀幼虫毒性测试。贮存4个月后评价豆粒受损情况和重量损失。应用线型嗅觉仪,通过选择试验测定驱避效果。【结果】提取物对四纹豆象成虫的毒性与市售苦楝籽油相同,在处理的豇豆中,提取物比市售的苦楝籽油毒性更强。5 g/kg豆粒提取物这一剂量处理7 d内,正己烷、丙酮和甲醇提取物分别引起54.2%±3.9%,62.9%±4.8%和60.3%±4.5%的成虫死亡。此外,与测试的标准杀虫剂相比,提取物激发这两种豆粒产生更强的驱避效果。这一产物对卵的毒性最强,对1和2龄幼虫的毒性比对其他发育阶段豆象的毒性强。正己烷提取物对2龄幼虫的毒性最强(致死率为81.0%±5.3%),而丙酮提取物和甲醇提取物对1龄幼虫的毒性最强,致死率分别为92.5%±7.5%和62.0%±15.7%。丙酮提取物对1和2龄幼虫的毒性与测试的标准杀虫剂相似,对蛹的毒性强于测试的标准杀虫剂。贮存4个月后,豇豆受损和重量损失分别减轻3倍和2倍多。【结论】本研究结果表明,樟脑罗勒提取物对四纹豆象具有潜在的驱避和杀虫活性,由于容易获得,因此强烈建议将该植物用于喀麦隆的害虫治理策略中。     

昆虫病原真菌与硅藻土混用对四纹豆象的毒力效果(英文)

在室内条件下检测了白僵菌Beauveria bassiana (Balsamo) Vuillemin 菌株IRAN-187C 和金龟子绿僵菌Metarhizium anisopliae (Metschnikow) Sorokin菌株A-396分别与硅藻土（DE）制剂InsectoSec混用对四纹豆象Callosobruchus maculatus成虫的毒力效果。结果表明：硅藻土与致死剂量和亚致死剂量的真菌分离物混用导致了四纹豆象成虫的高死亡率,且这些处理均缩短了真菌的致死中时(LT₅₀)。LC₅₀ 的白僵菌B. bassiana菌株IRAN-187C和 LC₅₀ 的DE混用对四纹豆象的LT₅₀ (122.2 h)最低,在95%置信限上与LC50 的金龟子绿僵菌M. anisopliae菌株A-396 与LC₅₀的DE混用得到的LT₅₀ (128.2 h) 相当,说明两种真菌分离物与DE混用对四纹豆象成虫都具有较好的毒力效果。用四纹豆象成虫检测3个温度（22, 27和30℃）和2个相对湿度（40%和55%）组合对DE活性的影响,结果显示30℃和40%相对湿度条件下得到的LT₅₀ (110.11 h)最低,说明高温低湿条件下DE活性较高。     

百里香、欧芹和熏衣草水苏提取物对四纹豆象成虫的生物活性（英文）

【目的】植物次生代谢物对不同类害虫的影响程度如得以详细研究,则它们可能有望成为化学杀虫剂的合适替代物。本研究旨在评价溶剂极性对不同植物提取物杀虫活性的可能影响。【方法】从极性不同的化合物正己烷、乙酸乙酯和甲醇中选择提取溶剂。于28±2℃、相对湿度50%±5%、光周期16L∶8D条件下评价欧芹Petroselinum sativum种子提取物以及百里香Thymus vulgaris和熏衣草水苏Stachys lavandulifolia茎叶提取物对四纹豆象Callosobruchus maculatus成虫的致死效果,并评价其杀卵和产卵忌避效果。【结果】在对四纹豆象成虫的触杀毒性中,百里香正己烷提取物(0.05 g/m L)的LC50值最低,其次是乙酸乙酯和甲醇提取物。百里香的乙酸乙酯提取物对四纹豆象成虫的LT50值最低(10.04 h),在所有提取物中相对击倒速度指数最高(42.23%)。在对成虫的触杀毒性中,LC20和LC50浓度的所有提取物都具有100%的杀卵活性。熏衣草水苏的甲醇提取物对四纹豆象成虫具有最高的产卵忌避活性(97.54%)。【结论】本研究结果得出,百里香、欧芹和熏衣草水苏提取物对四纹豆象成虫具有明显的杀虫和杀卵毒性,并对其具有产卵忌避性。不过,非极性(正己烷)提取物的性能更佳。     

温度对四纹豆象生长发育与繁殖的影响

四纹豆象CallosobruchusmaculatusFabricius是一种世界性分布害虫,危害多种豆类因而具有重要的经济学意义。为准确掌握四纹豆象的生物学特性,并为其综合防治提供一定的理论依据,以绿豆为食料,在20,25,28,32,35和37℃等6个温度和相对湿度75%的条件下,通过逐日观察法对四纹豆象各虫态的发育历期、存活率、成虫寿命及产卵量等生物学特性进行研究。结果表明:四纹豆象卵期、豆内幼虫及蛹期、未成熟期发育点温度分别为12.67,13.86和13.53℃;温度与世代存活率及周限增长率均呈二次抛物线关系,根据相应抛物线方程可知,四纹豆象理论最适生存温度和最适种群增长温度分别为30.2℃和33.7℃,其生长发育繁殖的最适温区为30~34℃。     

水菖蒲活性物质β-细辛醚对四种储粮害虫的熏蒸活性

植物性次生物质在植物-害虫的关系中起着非常重要的作用, 植物中的一些成分对害虫具有熏蒸、触杀和驱避等作用。水菖蒲Acorus calamus L.是一种常用中药, 它的主要杀虫活性成分为β-细辛醚。本研究通过室内生测试验研究了水菖蒲根茎提取物β-细辛醚对玉米象Sitophilus zeamais Motschulsky、谷蠹Rhyzopertha dominica (Fabricius)、赤拟谷盗Tribolium castaneum (Herbst)和四纹豆象Callosobruchus maculatus (Fabricius) 4种储粮害虫的熏蒸击倒和致死作用。结果表明: β-细辛醚对4种试虫的熏蒸击倒和致死作用明显。以50 μL/L的浓度处理120 h后, 对玉米象、谷蠹和四纹豆象的击倒作用均达到100%, 而对赤拟谷盗击倒率为50%; 玉米象、谷蠹和四纹豆象的死亡率分别为81.23%, 97.78%和100%, 而赤拟谷盗死亡率仅为8.89%。处理24 h, β-细辛醚对玉米象、谷蠹、赤拟谷盗和四纹豆象的KC50分别为49.38, 102.96, 124.04和1.07 μL/L; 处理120 h, β-细辛醚对玉米象、谷蠹、赤拟谷盗和四纹豆象的LC50分别为17.82, 4.42, 116.48和0.73 μL/L。结果显示水菖蒲根茎提取物β-细辛醚对4种储粮害虫均具有明显的熏蒸效果, 具有开发为储粮害虫熏蒸剂的潜力。     

四种生物农药及其与二种化学农药混配对稻飞虱混合种群的防治效果

试验以喷雾法研究4种生物农药及其与2种化学农药组合混用对水稻褐飞虱Nilaparvata lugens(Stal)和白背飞虱Sogatella furcifera(Horvath)混合种群的防治效果。结果表明:0.36%苦参碱AS、0.5%藜芦碱WP、1.8%阿维菌素EC、400亿孢子/克白僵菌WP,分别以1500mL/hm2、3000g/hm2、900mL/hm2、1800g/hm2的制剂用量单独使用,只有阿维菌素效果较好,药后7、14d的防效分别达到了73.3%和82.3%,但与对照药剂48%毒死蜱EC1500mL/hm2和25%噻嗪酮WP750g/hm2的防效差异极显著。而4种生物农药与2种化学农药分别以单用剂量减半混合使用的8个处理中,①苦参碱+毒死蜱、②藜芦碱+毒死蜱、③阿维菌素+毒死蜱、④球孢白僵菌+毒死蜱、⑤苦参碱+噻嗪酮、⑥藜芦碱+噻嗪酮6种组配,药后1d的校正防效为81.8%～89.2%,3d为88.2%～96.5%,7d为95.6%～98.1%,14d为86.0%～97.8%。因此,以上生物农药与化学农药的6种组合混用可以有效防治稻飞虱低龄若虫。     

水菖蒲活性物质β-辛醚对四纹豆象行为、死亡率和繁殖的影响

在室内条件下研究了水菖蒲Acorus calamus活性物质β-细辛醚对四纹豆象Callosobruchus maculates成虫行为、产卵和繁殖的影响。结果表明：经过β-细辛醚接触处理后的四纹豆象成虫行为主要表现为兴奋→失去平衡→击倒→死亡,接触药剂64 h后,试虫成虫全部死亡。β-细辛醚处理可显著的降低四纹豆象成虫的交配次数,随着处理时间的延长,成虫的交配次数减少,且处理雄虫比处理雌虫对交配竞争能力的影响更大。处理雌虫与未处理雄虫配对后以及处理雄虫与未处理雌虫配对后,雌虫的产卵数均极显著低于对照,且随着处理时间的延长,雌虫的产卵数显著减少,但两种配对处理之间雌虫的产卵数无显著差异。处理雌虫与未处理雄虫配对后以及处理雄虫与未处理雌虫配对后,雌虫产卵的孵化率均显著低于对照处理,但不同处理时间后卵的孵化率无显著差异; 两种配对处理所产卵的孵化率无显著差异。据此得出结论：水菖蒲根茎提取物β-细辛醚为神经毒剂,可以减少四纹豆象的种群数量,具有开发为储粮害虫四纹豆象防治剂的潜力。     

Effect of tolerance to insecticides on substrate penetration by Formosan subterranean termites (Isoptera: Rhinotermitidae)

Seven selected insecticides were applied to three substrates and bioassayed for barrier efficacy and toxicity against the Formosan subterranean termite, Coptotermes formosanus Shiraki, originating from colonies that differed in their tolerance to the insecticides. A profound substrate effect was seen with all insecticides tested. Sand was the most difficult substrate to penetrate and caused faster and greater mortality of C. formosanus. Increased tolerance in C. formosanus was accompanied by a decrease in penetration of treated substrata with chlordane, methoxychlor, chlorpyrifos, and deltamethrin. The opposite was true in the case of permethrin and bendiocarb. More tolerance C. formosanus displayed decreased mortality in the presence of chlorpyrifos, deltamethrin, bendiocarb, and fipronil. The opposite was true for permethrin.     

禾谷缢管蚜和麦长管蚜玻璃管药膜法敏感毒力基线的建立

【目的】建立禾谷缢管蚜Rhopalosiphum padi（Linnaeus）和麦长管蚜Sitobion avenae（Fabricius）对常用杀虫剂的相对敏感基线。【方法】从田间采集麦蚜在实验室内饲养30代以上,利用玻璃管药膜法测定其对杀虫剂的敏感度,每条毒力基线为2次以上独立测定数据合并后的计算结果。【结果】用玻璃管药膜法建立了包括新烟碱类、吡啶类、氨基甲酸酯类、有机磷类和拟除虫菊酯类共22个药剂品种对禾谷缢管蚜和麦长管蚜3 h的敏感毒力基线。禾谷缢管蚜对新烟碱类药剂吡虫啉和啶虫脒的LC₅₀值分别为0.02和0.007 μg/cm²;对吡啶类药剂吡蚜酮的LC₅₀值为0.124 μg/cm²;对氨基甲酸酯类药剂丁硫克百威、硫双灭多威、灭多威、抗蚜威、西维因的LC₅₀值为0.0026~0.70 μg/cm²;对有机磷类药剂三唑磷、丙溴磷、氧乐果、乐果、马拉硫磷、辛硫磷、敌敌畏、毒死蜱的LC₅₀值为0.005~0.065 μg/cm²;对拟除虫菊酯类药剂三氟氯氰菊酯、高效氯氰菊酯、溴氰菊酯、联苯菊酯、氰戊菊酯、氯氰菊酯的LC₅₀值为0.033~0.240 μg/cm²。麦长管蚜对新烟碱类药剂吡虫啉和啶虫脒的LC₅₀值分别为0.15和0.12 μg/cm²;对吡啶类药剂吡蚜酮的LC₅₀值为0.41 μg/cm²;对氨基甲酸酯类药剂丁硫克百威、硫双灭多威、灭多威、抗蚜威、西维因的LC50值为0.005~0.76 μg/cm²;对有机磷类药剂三唑磷、丙溴磷、氧乐果、乐果、马拉硫磷、辛硫磷、敌敌畏、毒死蜱的LC₅₀值为0.018~0.36 μg/cm²;对拟除虫菊酯类药剂三氟氯氰菊酯、高效氯氰菊酯、溴氰菊酯、联苯菊酯、氰戊菊酯、氯氰菊酯的LC50值为0.20~2.94 μg/cm²。【结论】建立的两种麦蚜对22种杀虫药剂的相对敏感基线,包括当前所有可能用于防治麦蚜的药剂,可以用于以后麦蚜抗药性监测或其他相关研究的参照;禾谷缢管蚜对药剂的敏感度高于麦长管蚜。     

Impact of deltamethrin aerial sprays on adult Cyrtobagous salviniae in Botswana

The risk and effect of the insecticide deltamethrin, applied aerially in Botswana to control and eradicate tsetse fly, was studied on the non-target weevil Cyrtobagous salviniae, a biocontrol agent of the aquatic weed Salvinia molesta. Environmentally-simulated short-term toxicity bioassay used open iron cages and closed plastic basins containing weevils and salvinia placed in riverine water bodies, where they were exposed to the aerial applications of deltamethrin over the Kwando–Linyanti system in 2006. Control samples were placed 40 km outside the sprayed area. Weevil mortality, determined at 12, 36 and 60 hours after the aerial application, reached a maximum of 27%. No significant difference in mortalities was observed between the closed basins and the open cages. The amount of deltamethrin deposited at ground level was between 1.2 and 6.4 μg m^?2  and the insecticide toxicity was related to the weevil mortality. Simultaneous field monitoring through five spray applications showed that weevil abundance declined in late winter. Deltamethrin had a negligible impact on the weevil's ability to control salvinia under field conditions, probably due to the weevils’ protective mechanism and because vegetation could act as a barrier, preventing the insecticide from reaching the weevils. Minimum impacts of deltamethrin on the weevils in the present study and their recovery in the field are consistent with those of earlier spray applications in the Okavango Delta, Botswana.     

Comparative efficacy of different pesticides against mango bark beetle Hypocryphalus mangiferae Stebbing (Coleoptera: Scolytidae)

Hypocryphalus mangiferae Stebbing is one of the most destructive insect pests of mango trees and is found to be associated with the transmission of causal organisms of mango sudden death disease. The present study was carried out to evaluate the toxicity of deltamethrin, bifenthrin, chlorpyrifos, emamectin benzoate, imidacloprid and spinosad in laboratory and field trials. Bioassay results showed that the toxicity of chlorpyrifos was significantly higher than deltamethrin but similar to bifenthrin. Deltamethrin and bifenthrin toxicity, however, increased significantly (P < 0.01) from day 1 to day 3. Spinosad was the least toxic compound while emamectin was the most toxic among new chemical insecticides tested, but its toxicity increased significantly from day 1 to day 5. Comparison of the efficacies of the insecticides using lethal times to produce 50% mortality (LT₅₀) and 90% mortality (LT₉₀) showed that the relative potencies of chlorpyrifos, emamectin, imidacloprid and spinosad were greater than bifenthrin and deltamethrin. The results of field trials showed the highest number of beetles emerged from the control twigs while significantly fewer beetles emerged from the twigs treated with bifenthrin (P < 0.05), which accounted for 12% for bifenthrin compared to that of the control. The present study demonstrated increased toxicities of systemic insecticides and chlorpyrifos compared to toxicities of deltamethrin and bifenthrin, suggesting these insecticides could be an alternative tool in a comprehensive H. mangiferae management program to eradicate the beetles from mango orchards.     

Generating susceptible strain and resistance status of field populations of Spodoptera exigua (Lepidoptera: Noctuidae) against some conventional and new chemistry insecticides in Pakistan

Two field populations of Spodoptera exigua (Hübner) (Lepidoptera: Noctuidae) from Dera Ghazi Khan (D. G. Khan) and Multan, Pakistan, were tested for resistance to the 10 most commonly used insecticides in Pakistan by using a standard leaf disc bioassay on the F1 progeny. For comparison, a susceptible strain was generated from the Multan strain, which displayed lower LC50 values for most of the insecticides, by either mass rearing without exposure to insecticides or single-pair crosses against selected insecticides. The single-pair crosses generated a more susceptible strain than mass rearing. The D. G. Khan field strain was highly resistant to cypermethrin, profenofos, spinosad, abamectin, and chlorpyrifos and moderately resistant to deltamethrin, indoxacarb, and methoxyfenozide compared with susceptible lab strain. The Multan strain was highly resistant to profenofos and indoxacarb. Both field populations were susceptible to emamectin benzoate and lufenuron. Rotating these two insecticides with others that show very low, low, or moderate levels of resistance and have different modes of action may be useful for the effective management of this pest.     

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.     

Insecticide susceptibility in Coptotermes formosanus and Reticulitermes virginicus (Isoptera: Rhinotermitidae).

Lethal time to mortality responses were established for eight insecticides against workers and soldiers of the Formosan subterranean termite, Coptotermes formosanus Shiraki, and workers of Reticulitermes virginicus (Banks). There were significant differences in the tolerance ratios between workers of C. formosanus colonies to all toxicants tested except fipronil. One colony was 16 times more tolerant than another to deltamethin. C. formosanus soldiers had significant differences in tolerance ratios among colonies exposed to all toxicants except chlorpyrifos. Methoxychlor, permethrin, deltamethrin, and fipronil did not kill soldiers from two, one, one, and three colonies, respectively, within 8 h. Seventy-five percent of R. virginicus colonies were significantly less susceptible than the most susceptible colony to chlordane, methoxychlor, chlorpyrifos, cypermethrin, and fipronil, with 50% of the colonies less susceptible to permethrin and bendiocarb. In 50% of C. formosanus colonies the worker lethal time curves displayed substantial flattening in response to permethrin, and deltamethrin. Lethal time curses for C. formosanus soldiers exposed to chlordane, chlorpyrifos, permethrin, cypermethrin, deltamethrin, and bendiocarb showed substantial flattening. R. virginicus workers demonstrated substantial curve flattening when exposed to chlordane, methoxychlor, chlorpyrifos, deltamethrin, and fipronil. These findings indicate substantial intercolony and intra-colony differences in susceptibility to insecticides.     

Effects of abamectin and deltamethrin to the foragers honeybee workers of Apis mellifera jemenatica (Hymenoptera: Apidae) under laboratory conditions

This study aimed at evaluating the toxicity of some insecticides (abamectin and deltamethrin) on the lethal time (LT₅₀) and midgut of foragers honeybee workers of Apis mellifera jemenatica were studied under laboratory conditions. The bees were provided with water, food, natural protein and sugar solution with insecticide (concentration: 2.50 ppm deltamethrin and 0.1 ppm abamectin). The control group was not treated with any kind of insecticides. The mortality was assessed at 1, 2, 4, 6, 12, 24, 48, and 72 hour (h) after insecticides treatment and period to calculate the value of lethal time (LT₅₀). But the samples the histology study of midgut collected after 24 h were conducted by Scanning Electron Microscope. The results showed the effects of insecticides on the current results show that abamectin has an adverse effect on honeybees, there is a clear impact on the lethal time (LT₅₀) was the abamectin faster in the death of honeybee workers compared to deltamethrin. Where have reached to abamectin (LT₅₀ = 21.026) h, deltamethrin (LT₅₀ = 72.011) h. However, abamectin also effects on cytotoxic midgut cells that may cause digestive disorders in the midgut, epithelial tissue is formed during morphological alterations when digestive cells die. The extends into the internal cavity, and at the top, there is epithelial cell striated border that has many holes and curves, abamectin seems to have crushed the layers of muscle. Through the current results can say abamectin most toxicity on honeybees colony health and vitality, especially foragers honeybee workers.     

Fenitrothion: an alternative insecticide for the control of deltamethrin‐resistant populations of Triatoma infestans in northern Argentina

Deltamethrin‐based campaigns to control Triatoma infestans (Klug) (Hemiptera: Reduviidae) have decreased in success as a result of the development of insecticide resistance. We compared the in vitro effects of the pyrethroid deltamethrin and two doses of the organophosphate fenitrothion, presented on different materials, on T. infestans from La Esperanza, Argentina. Laboratory tests demonstrated a decrease in susceptibility to deltamethrin in the field population [LD₅₀: 30.32 nanograms per insect (ng/i)] compared with the reference population (LD₅₀: 0.13 ng/i), giving a high resistance ratio of 233.42. By contrast, similar susceptibility to fenitrothion was assessed in both the field and reference populations (LD₅₀: 21.65 ng/i and 21.38 ng/i, respectively). The effectiveness of the formulated insecticides varied according to the surfaces to which they were applied. The application of fenitrothion formulations to glass or brick resulted in mortality of 90–100%. The application of fenitrothion formulations to wood or mud caused mortality in the range of 6.7–56.7%. Resistant insects presented low mortality when exposed to the deltamethrin formulation and high mortality when exposed to fenitrothion formulations. Moreover, the insecticides demonstrated residual activity only when applied to glass. The present work demonstrates that fenitrothion is an alternative to pyrethroids for the management of deltamethrin‐resistant insects in La Esperanza. However, this effectiveness is not sustained over time.