黑缘红瓢虫对六种杀虫剂的敏感性测定

用点滴法在室内初步测定3黑缘红瓢虫Chilocorus rubidus Hope幼虫对敌敌畏、氰戊菊酯、氟氯氰菊酯、硫丹、氧化乐果、灭多威等6种果园常用杀虫剂的敏威性。结果表明：黑缘红瓢虫幼虫对6种杀虫剂的敏感性依次为：氰戊菊酯、氟氯氰菊酯、硫丹、氧化乐果、敌敌畏、灭多威。LD50按以下次序增大：灭多威,氟氯氰菊酯,氧化乐果,氰戊菊酯,敌敌畏,硫丹。可见,硫丹对黑缘红瓢虫毒力最小,是最安全。敌敌畏等有机磷杀虫剂对它的毒力也较低,而拟除虫菊酯类药剂对黑缘红瓢虫的毒力则很高。同种药剂对不同用药水平地区的黑缘红瓢虫成虫的毒力差异显著,黑缘红瓢虫对氟氯氰菊酯和氰戊菊酯分别产生了5．4和7．6倍的抗药性,是羧酸酯酶活性提高所致。不同种类杀虫剂对黑缘红瓢虫和朝鲜球坚蚧Didesmococcus koreanus Botchs的选择指数差异极为显著,依次为硫丹、灭多威、敌敌畏、氰戊菊酯、氧化乐果、氟氯氰菊酯,如硫丹为2．6,而氟氯氰菊酯仅为0．04。硫丹是防治抗性朝鲜球坚蚧比较理想的一种杀虫剂。     

黑缘红瓢虫对6种杀虫剂的敏感性测定

用点滴法在室内初步测定3黑缘红瓢虫Chilocorus rubidusHope幼虫对敌敌畏、氰戊菊酯、氟氯氰菊酯、硫丹、氧化乐果、灭多威等6种果园常用杀虫剂的敏威性。结果表明:黑缘红瓢虫幼虫对6种杀虫剂的敏感性依次为:氰戊菊酯、氟氯氰菊酯、硫丹、氧化乐果、敌敌畏、灭多威。LD50按以下次序增大:灭多威,氟氯氰菊酯,氧化乐果,氰戊菊酯,敌敌畏,硫丹。可见,硫丹对黑缘红瓢虫毒力最小,是最安全。敌敌畏等有机磷杀虫剂对它的毒力也较低,而拟除虫菊酯类药剂对黑缘红瓢虫的毒力则很高。同种药剂对不同用药水平地区的黑缘红瓢虫成虫的毒力差异显著,黑缘红瓢虫对氟氯氰菊酯和氰戊菊酯分别产生了5.4和7.6倍的抗药性,是羧酸酯酶活性提高所致。不同种类杀虫剂对黑缘红瓢虫和朝鲜球坚蚧Didesmococcus koreanusBorchs的选择指数差异极为显著,依次为硫丹、灭多威、敌敌畏、氰戊菊酯、氧化乐果、氟氯氰菊酯,如硫丹为2.6,而氟氯氰菊酯仅为0.04。硫丹是防治抗性朝鲜球坚蚧比较理想的一种杀虫剂。     

瓢虫对杀虫剂的敏感性研究

用4种不同类别杀虫剂对3种不同用药水平地区的七星瓢虫Coccinella septempunctataLinnaeus、龟纹瓢虫Propylea japonica (Thunberg)的毒力进行了测定,同一种用药水平地区的瓢虫对不同药剂的敏感性差异均极显著,三氟氯氰菊酯>灭多威>甲胺磷>硫丹;三氟氯氰菊酯对用药水平较高地区的七星瓢虫幼虫、成虫的毒力分别为硫丹的8547和617倍。同种药剂对不同用药水平地区的七星瓢虫的毒力差异不显著,而用药水平较高地区的龟纹瓢虫较用药水平较低地区的龟纹瓢虫对三氟氯氰菊酯产生了30.6倍的抗药性,这与羧酸酯酶活性提高有关。不同种类杀虫剂对七星瓢虫和抗性棉蚜Aphis gossypii Glover的选择指数差异极为显著,硫丹>灭多威>甲胺磷>三氟氯氰菊酯,如硫丹为4.9,而三氟氯氰菊酯却仅为7.3X10^-6。硫丹是防治抗性棉蚜值得重视的一种杀虫剂。     

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。     

我国北方部分地区苹果黄蚜的抗药性

采用点滴法测定了我国北方九地区苹果黄蚜对氰戊菊酯与氧化乐果的抗药性,结果表明,以山东莒南苹果黄蚜为相对敏感种群,河北沧州,河南商丘,山东蒙阴,辽宁朝阳,山东泰安,河北昌黎,安徽砀山,山东荣城等地苹果黄蚜种群均已产生抗药性,对氰戊菊酯抗性倍数（LD50R/S）分别为25.00,28.60,74,17,87.78,157.33,167.53,218.46,291.56倍;对氧化乐果抗性倍数分别为：16.08,26.53,15.88,29.46,25.83,30.73,48.19,64.58。采用相同的方法测定了山东泰安苹果黄蚜对8种杀虫剂的敏感性,结果为：硫丹与灭多威相对毒力较高,而有机磷类和拟除虫菊酯类杀虫剂相对毒力较低。     

四种杀虫剂对棉蚜药效试验的初报

采用浸渍法 ,室内测定了 4种杀虫剂对越冬寄主木槿上棉蚜的毒力 ,这几种药剂的防治效果均良好 ,其毒力 (LC50 )为阿维菌素 >吡虫啉 >甲氰菊酯 >氰戊菊酯。建议在棉蚜的越冬寄主上集中防治     

山东省五个棉花产区绿盲蝽对药剂的敏感性检测（英文）

利用闪烁管药膜法测定了2009年山东省德州、滨州、梁山、曲阜和聊城5个棉花产区绿盲蝽Lygus lucorum Meyer-Dür对硫丹、马拉硫磷、毒死蜱、灭多威、丁硫克百威、吡虫啉、联苯菊酯和氟虫腈8种杀虫剂的敏感性,筛选出适合各地区的高效防治药剂。结果表明：5个地区绿盲蝽种群对马拉硫磷、毒死蜱、丁硫克百威、联苯菊酯和吡虫啉处于敏感性阶段。不同种群之间对灭多威、硫丹和氟虫腈的敏感性差异较大,其中聊城种群为最敏感种群,滨州种群对灭多威、 硫丹和氟虫腈的LC₅₀值分别为聊城种群的5.12,6.04和39.80倍;曲阜种群对灭多威、硫丹和氟虫腈的LC₅₀值分别为聊城种群的22.12,5.48和22.80倍。两种群对此3种药剂的敏感性下降,而其余种群仍处于较敏感阶段。8种药剂对绿盲蝽成虫的毒力按大小依次排序为：氟虫腈＞灭多威、联苯菊酯、硫丹＞马拉硫磷、毒死蜱＞丁硫克百威＞吡虫啉。2009年7-10月间德州夏津绿盲蝽种群对8种杀虫剂的敏感性变化极微。     

小麦－玉米蚜－龟纹瓢虫载体植物系统的构建初探

载体植物系统（Banker plant system, BPS）通过建立自然天敌的自我维持机制以持续控制田间及保护地害虫。本研究分别以玉米蚜Rhopalosiphum maidis (Fitch)和小麦Triticum aestivum L.作为替代猎物和载体植物,构建龟纹瓢虫Propylaea japonica (Thunberg)载体植物系统防控桃蚜Myzus persicae (Sulzer),通过正交试验设计优化该载体植物系统中各因子的组合,并对该系统繁殖的龟纹瓢虫对玉米蚜和目标害虫桃蚜的取食选择性进行研究。结果显示,龟纹瓢虫成虫获得量最大的组合是小麦播种后第四天接蚜720头,待蚜虫扩繁5天后,投入龟纹瓢虫初孵幼虫30头。取食选择性试验结果表明小麦载体植物扩繁的龟纹瓢虫对靶标害虫桃蚜具有良好的捕食作用。     

黄荆提取物对蚜虫的毒力及其与吡虫啉的联合毒力

采用浸渍法测定了黄荆二氯甲烷种子提取物、吡虫啉和氧乐果对苹果黄蚜、棉蚜和桃蚜的毒力,利用毛细管点滴法测定了黄荆二氯甲烷种子提取物与吡虫啉混配对棉蚜的联合毒力,采用皿内选择法测定了黄荆二氯甲烷种子提取物和吡虫啉等药剂对桃蚜的驱避效应.结果表明：黄荆二氯甲烷种子提取物对苹果黄蚜、棉蚜和桃蚜的LC₅₀分别为334.59、362.79和2685.80 mg·L^-1,对苹果黄蚜和棉蚜的杀虫毒力较高.黄荆二氯甲烷种子提取物与吡虫啉按1000 ∶1混用,其共毒系数可达177.45,增效作用显著.黄荆二氯甲烷种子提取物和吡虫啉对桃蚜均有明显的驱避活性,处理后24和48 h 对桃蚜的驱避率分别达55.75%、39.44 %和69.89%、65.43%.噻虫嗪和啶虫脒也有一定驱避活性,处理后24和48 h对桃蚜的驱避率达16.52%～33.68%.     

SV1对4种杀虫剂的增效及延长残效期的研究

SV1是一种增效范围较广的农药增效剂,对多种杀虫剂具有增效作用。经室内毒力测定．与敌百虫混用对棉铃虫、粘虫和二化螟的增效比值分别为2．93倍、2．43倍和2．7倍;与氧化乐果、久效磷和氰戊菊酯混配对棉蚜、褐稻虱和萝卜蚜的增效比值分别为1．63—10．67倍。杀虫毒力随着加入SV1成分的增加而提高,一般常用农药与SV1混配之比需要1：3以上才明显增效。防治钵栽棉蚜通过系统观察,在防治效果相仿情况下,SV1可使氧化乐果药效延长9天,久效磷药效延长7天,氰戊菊酯药效延长6天以上。SV1可以成为生产上与有机磷及拟除虫菊酯类杀虫剂混用的增效剂优势品种。     

STUDIES ON SELECTIVE TOXICITY OF SIX INSECTICIDES BETWEEN GREEN PEACH APHID AND LADYBIRDS

Abstract  The selective toxicity of six kinds of insecticides, including imidacloprid, imidacloprid + synergist (SV1), fenvalerate, endosulfan, methomyl and dimethoate, between the green peach aphid ( Myzus persicae Sulzer) and two species of ladybirds ( Coccinella septempunctata Linnaeus and Propylaea japonica Thunbery), was investigated in the laboratory. The reults showed that both imidacloprid WP and imidacloprid + synergist (SVl) EC possessed the highest toxicity to the aphids. Between C. septempunctata and M. persicae and between P. japonica and M. persicae , the selective toxicity ratios (STRs) of imidacloprid WP, imidacloprid+ synergist (SV1) EC and endosulfan EC were 37.6 and 13.0, 9.84 and 7.75, 54.0 and 7.28 respectively. All of them showed rather high selective toxicity. The STRs of fenvalerate EC, dimethoate EC and methomyl EC were all very low, ranging from 0.02 to 0.21, indicating their low degree of safety to the two species of ladybids. The results demomarated that imidacloprid WP and imidacloprid + SVl EC not only had rather high toxicity to the aphids, but also reduced strikingly the reproduction rate and fecundity of the survival aphids. Insecticides can induce the relative fitness of insects decrease. Among the six insecticides tested with M. persicae , the following were insecticides and the order of induction was: imidacloprid + SV1 imidacloprid endosulfan methomyl fenvalerate > dimethoate.     

六种常用杀虫剂对八种蚜虫的选择毒性

作者自1982年开始研究了乐果、氧化乐果、抗蚜威、氰戊菊酯、溴氰菊酯和氯氰菊酯等6种杀虫剂对8种蚜虫的选择毒性.以桃粉大尾蚜Hyalopterus amygdali Blanchard为标准,氧化乐果对桃粉大尾蚜和瓜蚜Aphis gossypii Glover之间的选择毒性指数最高为163.77,乐果和抗蚜威分别是373.24和34.70,而氰戊菊酯仅为1.37.氰戊菊酯最高的选择毒性指数是在桃粉大尾蚜和麦长管蚜Sitobionavenae(F.)之间,也只有6.86,有机磷和氨基甲酸酯杀虫剂对不同蚜虫的选择毒性与乙酰胆碱酯酶(AChE)对巯基试剂(DTNB)的敏感度有明显的相关性,说明其选择毒性与AChE的巯基结合部位有关.同时还发现,抗蚜威对洋槐蚜Aphis robiniae Macchiati和瓜蚜AChE的1₅₀值与其LC₅₀值表现一致.这些都说明了这两类杀虫剂对不同种蚜虫的选择毒性与AChE有关.氰戊菊酯和溴氰菊酯对蚜虫的选择毒性与α-乙酸萘酯羧酸酯酶的活性具有明显的相关性,而与β-乙酸萘酯羧酸酯酶的活性则无任何关系.氯氰菊酯的选择毒性与上述两种酯酶的活性没有任何相关性.     

三种杀虫剂对麦田蚜虫和天敌的影响

通过对施用杀虫剂吡虫啉、抗蚜威、广谱性杀虫剂氧化乐果对麦田蚜虫和天敌的影响进行分析 ,结果表明 ,施用杀虫剂对麦田蚜虫防效高 ,对其天敌有保护作用 ,且瓢蚜比降低。使用 1 0 %吡虫啉( 1 0g 667m2 )后 5～ 2 5天瓢蚜比为 1∶34～ 1∶1 70 ;用 50 %抗蚜威 ( 5g 667m2 )后 1 0～ 2 0天瓢蚜比为 1∶31～1∶1 95;而广谱性杀虫剂氧化乐果 ( 50mL 667m2 )对麦田蚜虫防效好 ,对天敌杀伤力大 ,药后 1 5天瓢蚜比为1∶2 65。施用化学农药可使蚜茧蜂寄生率提高。     

亚致死剂量杀虫剂对异色瓢虫繁殖力的影响

为协调害虫的化学防治与生物防治,测定了吡虫啉、鱼藤酮、氰戊菊酯、阿维菌素、抗蚜威和印楝素6种杀虫剂亚致死剂量对异色瓢虫成虫繁殖力的影响．结果表明,各处理异色瓢虫每雌每日产卵量为40～55粒,吡虫啉接触法和饲喂法预处理及鱼藤酮和印楝素饲喂预处理后,均显著低于对照．所有处理间每雌累积产卵量差异不显著．6种药剂2种方式处理异色瓢虫后,其所产卵的孵化率均低于对照,从卵发育至蛹期的累积存活率均显著降低．吡虫啉两种方式处理和氰戊菊酯接触处理,从卵至蛹期的总发育历期显著延长,鱼藤酮两种方式处理和氰戊菊酯、阿维菌素、抗蚜威、印楝素饲喂法处理的总发育历期明显比对照缩短,而鱼藤酮和阿维菌素接触处理的与对照差异不显著．药剂直接浸渍处理异色瓢虫卵后,各处理卵的孵化率均较对照降低．氰戊菊酯处理的l龄幼虫存活率也明显较对照低,2龄至蛹期的存活率也有所下降．鱼藤酮和氰戊菊酯处理的总发育历期显著延长．这些研究结果显示,低剂量的杀虫剂对异色瓢虫繁殖力的影响很复杂,药剂的类型、作用方式、毒性高低以及给药途径等均影响到试验结果．     

Toxicity and residual effectiveness of insecticides on insecticide-treated spheres for controlling females of Rhagoletis pomonella (Diptera: Tephritidae)

This study evaluated the toxicity of five technical-grade insecticides of four different classes to apple maggot females, Rhagoletis pomonella (Walsh), following a 10-min exposure period in insecticide-coated glass jars, with or without a feeding stimulant (sucrose) present. According to LC90 values for toxicity by ingestion and tarsal contact, imidacloprid was 1.5 times more toxic than dimethoate or abamectin, diazinon was less toxic, and phloxine B (a phototoxic dye) least toxic. Based on LC90 values for tarsal contact alone, dimethoate was 2.3, 4.0, and 18.4 times more toxic than imidacloprid, abamectin, and diazinon, respectively. Contact alone with phloxine B caused no mortality. When exposure was assessed using spheres coated with a latex paint mixture containing sucrose and formulated dimethoate (Digon 400 EC) or imidacloprid (Provado 1.6 F) at concentrations ranging from 5 to 70 g (AI)/cm2, both insecticides showed reduced effectiveness compared with toxicities from glass jar tests, with Digon two times more toxic than Provado. After exposure to artificial rainfall and retreatment with sucrose, Digon- and Provado-treated spheres exhibited greatest residual effectiveness, with diazinon-treated spheres less effective. Spheres treated with formulated abamectin (Agri-Mek 0.15 EC) at 1.0% (AI) performed only slightly better than phloxine B-treated spheres, which completely lost effectiveness after exposure to rainfall. Spheres treated with formulated imidacloprid (Merit 75 WP) at 1.5% (AI) showed equal or better residual efficacy in killing apple maggot flies (> 80% mortality, shorter lethal duration of feeding) over a 12-wk exposure period to outdoor weather than spheres treated with Digon at 1.0% (AI) after both types were retreated with sucrose. Our results indicate that imidacloprid is a promising safe substitute for dimethoate as a fly killing agent on lure-kill spheres. Imidacloprid formulated as Merit 75 WP had greater residual efficacy than imidacloprid formulated as Provado 1.6 F.     

Pesticide Susceptibility of Two Coccinellids (Stethorus punctum picipes and Harmonia axyridis) Important in Biological Control of Mites and Aphids in Washington Hops

The susceptibility of Stethorus punctum picipes (Casey) and Harmonia axyridis Pallas larvae to pesticides used or with potential for use in Washington hops, was examined in laboratory bioassays. All pesticides tested except the miticide, hexythiazox, the insecticides, chlorpyrifos and pirimicarb, and the fungicide, mycobutanil, produced 100% mortality in S. punctum picipes at concentrations equivalent to field rates. The insecticides, pirimicarb, endosulfan, and thiamethoxam were least toxic to H. axyridis. Bifenthrin, diazinon, dimethoate, methomyl, carbaryl, malathion, phosmet, imidacloprid, and chlorpyrifos were highly toxic. The miticides, abamectin and fenpyroximate were highly toxic, milbemectin was moderately toxic but all other miticides tested were non-toxic. All fungicides had low toxicity. Selection and use of pesticides compatible with natural enemies and conservation biological control in Washington hop production is discussed.     

Susceptibility of Various Stages of Trichogrammatoidea armigera Nagaraja to Some Pesticides and Effect of Residues on Survival and Parasitizing Ability

The toxicity, persistence and effect on parasitism of 10 insecticides, eight fungicides and one acaricide on Trichogrammatoidea armigera Nagaraja, an egg parasitoid of a Helicoverpa armigera (Hb), were investigated in the laboratory and under field conditions. At field recommended dosages, the fungicides oxycarboxin, copperoxychloride, streptomycin sulphate + tetracycline hydrochloride and 2‐bromo‐2‐nitropropane‐1,3‐diol and the acaricide dicofol were safe, while the insecticide phosalone and fungicide tridemorph were moderately toxic to adults. All other insecticides tested, namely dimethoate, fenitrothion, monocrotophos, phosphamidon, endosulfan, cypermethrin, decamethrin, fenvalerate and fluvalinate, and the fungicides carbendazim, methyl thiophenate and carboxin were toxic to adults. A high level of parasitism was recorded for all fungicide treatments and for dicofol and fluvalinate. The larval stage of the parasitoid was more tolerant than other stages. The residual toxicity of all fungicides, and dicofol, did not affect the ability of the parasitoid to parasitize its host, while the insecticides phosalone and fluvalinate were slightly persistent, favouring 44.7% and 49.3% parasitism after 15 days. Residues of dimethoate, decamethrin, cypermethrin, fenvalerate, monocrotophos and phosphanidon were moderately persistent, while fenitrothion and endosulfan were persistent.