甜菜夜蛾敏感品系的获得及其对12种杀虫剂的敏感基线

以高效氯氰菊酯为筛选药剂,通过室内单对汰选获得了甜菜夜蛾敏感品系,并采用浸叶法和点滴法测定该敏感品系对甲氨基阿维菌素苯甲酸盐、氯虫苯甲酰胺等12种常用药剂的敏感基线。浸叶法测得该品系对供试药剂的敏感性由高到低依次为:甲氨基阿维菌素苯甲酸盐(LC50为0.0340 mg/L)、茚虫威、氟啶脲、甲氧虫酰肼、氯虫苯甲酰胺、氟虫双酰胺、高效氯氰菊酯、虫酰肼、多杀菌素、毒死蜱、虫螨腈、灭多威(124.0482mg/L)。点滴法测得12种杀虫剂LD50由小到大依次为:高效氯氰菊酯、茚虫威、甲氧虫酰肼、甲氨基阿维菌素苯甲酸盐、虫酰肼、毒死蜱、多杀菌素、氯虫苯甲酰胺、虫螨腈、氟虫双酰胺、灭多威、氟啶脲。结果表明,该敏感基线可用于甜菜夜蛾的抗药性监测。     

广西不同甜菜夜蛾种群对杀虫剂的敏感性

应用室内浸叶法测定了广西3个甜菜夜蛾种群对杀虫剂的敏感性,结果表明,广西不同菜区甜菜夜蛾种群对杀虫剂的敏感性不同。柳江甜菜夜蛾种群对氟啶脲、溴虫腈和氟虫脲的敏感性最高,分别是南宁种群的3.06、5.90、5.17倍,是桂林种群的2.28、2.56、4.93倍;桂林甜菜夜蛾种群对虫酰肼和多杀菌素的敏感性最高,分别是柳江种群的3.82、10.62倍,是南宁种群的4.91、4.36倍;南宁甜菜夜蛾种群对毒死蜱的敏感性几乎与桂林种群一样,是柳江种群的2.80倍;广西3个甜菜夜蛾种群对氟虫腈、高效氯氰菊酯、阿维菌素和溴氰菊酯的敏感性均相当低,无法求出毒力回归方程。     

湖北省甜菜夜蛾田间种群抗药性监测

2006年采用浸叶法监测了湖北武汉、荆州、宜昌、襄樊和麻城5个地区甜菜夜蛾田间种群对10种药剂的抗药性。结果表明,5个种群对氯氰菊酯均已产生了高水平抗性(抗性倍数50.5~263.6);对毒死蜱属中—高水平抗性(抗性倍数36.0~371.5);对灭多威属低—中水平抗性(抗性倍数7.8~20.7);对虫酰肼、氟啶脲、多杀菌素和甲氨基阿维菌素苯甲酸盐的抗性都处于敏感—中水平抗性;除武汉种群对茚虫威的抗性达到高抗水平外,各种群对甲氧虫酰肼、虫螨腈和茚虫威的抗性都处于敏感—低水平抗性。5个甜菜夜蛾田间种群中以武汉种群和宜昌种群抗性水平相对较高。     

不同药剂对甜菜夜蛾幼虫毒力和田间应用效果研究

利用浸渍法分别测定虫螨腈等不同药剂对甜菜夜蛾3龄及5龄幼虫的毒力，结果表明：不同药剂对甜菜夜蛾幼虫的毒力存在明显差异，一些特异杀虫剂对甜菜夜蛾幼虫的毒力普遍高于试验用常规化学杀虫剂的毒力；同一药剂对不同龄期幼虫毒力的差异程度也不同，如虫螨腈、氟啶脲、氟铃脲、甲胺基阿维菌素、阿维菌素、虫酰肼等药剂对甜菜夜蛾3龄及5龄幼虫毒力的差异程度明显低于顺式氯氰菊酯、丙溴磷、灭多威等化学药剂。同时，作者还对12种药剂分别稀释1000倍对甜菜夜蛾5龄幼虫不同时间的毒力进行了观察，除常规化学农药出现中毒现象较快外，虫螨腈、甲胺基阿维菌素也表现较快中毒症状，田间药效试验进一步验证防治甜菜夜蛾宜选用虫螨腈、氟啶脲、氟铃脲、甲胺基阿维菌素、阿维菌素、虫酰肼等药剂。     

棉铃虫抗甲氧虫酰肼种群对12种杀虫剂的交互抗性

利用室内筛选获得的甲氧虫酰肼中等抗性种群(R, 30.57倍)和敏感种群(S),采用浸叶法测定了棉铃虫对12种常用杀虫剂的交互抗性。结果表明抗性种群对虫酰肼产生了13.57倍的中等水平交互抗性;对茚虫威的抗性倍数为3.05倍,无明显交互抗性;而对辛硫磷、毒死蜱、灭多威、高效氯氰菊酯、溴氰菊酯、虫螨腈、虱螨脲、氟啶脲、氟铃脲和甲氨基阿维菌素苯甲酸盐的抗性倍数在0.50 ~2.36倍之间,无交互抗性。试验结果提示,在棉铃虫对甲氧虫酰肼的抗药性治理中,轮换使用与甲氧虫酰肼没有交互抗性的杀虫剂将可有效延缓其抗药性发展。     

20种杀虫剂对不同龄期不同地理种群草地贪夜蛾的室内毒力测定

为有效防控新入侵的迁飞性害虫草地贪夜蛾, 指导科学用药, 本研究采用饲料表面涂药法测定了13类20种杀虫剂对云南省玉溪市红塔区(红塔种群)、广东省广州市花都区(花都种群)、广西壮族自治区钦州市钦南区(钦南种群)、云南省玉溪市华宁县(华宁种群)、海南省海口市秀英区(秀英种群)5个种群草地贪夜蛾3龄幼虫的毒力; 进而, 以红塔种群为相对敏感种群, 以华宁种群为抗性种群, 测定甲维盐、溴虫氟苯双酰胺、虱螨脲、氯虫苯甲酰胺、杀铃脲、虫螨腈、高效氯氟氰菊酯、茚虫威和氟苯虫酰胺9种杀虫剂对2个种群草地贪夜蛾5龄幼虫的毒力。结果表明, 20种杀虫剂对5个种群草地贪夜蛾3龄幼虫的毒力大小顺序依次为:甲维盐、溴虫氟苯双酰胺＞虱螨脲、杀铃脲、氟铃脲、氯虫苯甲酰胺＞高效氯氟氰菊酯、虫螨腈、多杀霉素＞溴氰虫酰胺、茚虫威、唑虫酰胺＞氟苯虫酰胺、联苯菊酯、甲氧虫酰肼＞毒死蜱、乙酰甲胺磷＞噻虫嗪＞啶虫脒、甲萘威; 9种杀虫剂对2个种群草地贪夜蛾5龄幼虫的毒力大小顺序依次为:甲维盐、溴虫氟苯双酰胺＞氯虫苯甲酰胺＞虱螨脲＞杀铃脲＞虫螨腈＞高效氯氟氰菊酯、茚虫威＞氟苯虫酰胺, 研究结果表明, 甲维盐、溴虫氟苯双酰胺、虱螨脲、氯虫苯甲酰胺4种杀虫剂对草地贪夜蛾3龄和5龄幼虫具有很高的活性, 是防治草地贪夜蛾的理想药剂, 该研究为合理选择有效杀虫剂进行田间防治提供了科学依据。     

虫酰肼对甜菜夜蛾子代种群的影响

为了解虫酰肼对甜菜夜蛾的作用机理,以较低剂量分别对甜菜夜蛾敏感品系幼虫和成虫进行饲毒处理,观察其对甜菜夜蛾子代种群的影响.结果表明：虫酰肼是有极强后效性的杀虫剂,能降低甜菜夜蛾产卵量、化蛹率、羽化率等,提高畸形蛹、畸形蛾比例,缩短成虫寿命及产卵时间.幼虫一次饲毒后,0.2、0.4 mg/kg两处理的种群趋势指数第2代较对照分别下降10.92%、26.71%,第3代下降12.16%、14.24%,说明这种影响至少可持续到第3代,且用药剂量提高,其影响加大,但孵化率与蛹重变化不明显.成虫饲毒表明,0.4、0.8mg/L两处理的种群趋势指数在第2代较对照分别下降14.18%、12.96%,第3代下降34.40%、39.24%,说明成虫饲毒对甜菜夜蛾的影响随用药次数增加而提高.甜菜夜蛾成虫寿命与虫酰肼选择频率及选择压呈负相关关系,且对雄成虫影响大于雌成虫.     

虫酰肼对甜菜夜蛾生物活性研究

测定了虫酰肼(RH-5992)对甜菜夜蛾的生物活性。杀卵作用测定表明,在200 mg/L浓度下,虫酰肼对甜菜夜蛾1日龄卵有较强的毒杀作用;用浸叶法测定了虫酰肼对甜菜夜蛾不同龄期幼虫的生物活性,发现1、2龄幼虫对药剂的敏感性较高,3~5龄幼虫敏感性下降但之间差异不大;拒食活性测定表明虫酰肼能明显抑制甜菜夜蛾幼虫的生长,降低其取食量,在10 mg/kg浓度时,表现了较强的拒食活性,96 h后拒食率达到73%以上。研究了虫酰肼对甜菜夜蛾生长发育的影响,发现其可延缓甜菜夜蛾的生长,使幼虫历期、蛹历期增长,同时降低甜菜夜蛾的生育繁殖能力,使幼虫成活率、化蛹率、羽化率、卵孵化率都有所下降。     

甲氨基阿维菌素复配剂防治草地贪夜蛾效果分析

为进一步明确甲氨基阿维菌素成分复配剂防治草地贪夜蛾效果,笔者开展了3％甲维·氟铃脲EC 60 mg/L、20％甲维·甲氧虫酰肼SC 333 mg/L、2％甲维·虫酰肼EC 53 mg/L和4％甲维·虱螨脲ME 107 mg/L田间防治草地贪夜蛾1～3龄幼虫的药效试验.结果表明,各供试药剂药后3 d和7 d的防效均达94...     

球孢白僵菌与两种昆虫生长调节剂对甜菜夜蛾的联合作用

本文研究了球孢白僵菌与昆虫生长调节剂甲氧虫酰肼及氟铃脲对甜菜夜蛾幼虫的联合毒力,结果表明两种昆虫生长调节剂和白僵菌混用增效作用明显。昆虫生长调节剂(浓度均为致死中浓度,甲氧酰肼25×10-6 g/L,氟铃脲1000×10-6 g/L与球孢白僵菌8.0×107孢子/m L混合使用,体积比4:1时效果最佳,共毒系数甲氧虫酰肼与白僵菌为285,氟铃脲与白僵菌为208。死虫保湿后,95%长出了白僵菌菌丝,甚至可产生孢子;采用扫描电镜对昆虫体壁纵切面进行观察,各处理组甜菜夜蛾幼虫体壁有明显不同。     

不同地区小菜蛾种群的抗药性及酯酶同工酶的研究

用淀粉凝胶电泳对中国 3个不同地理区域的小菜蛾种群和台湾敏感品系的抗性水平及酯酶同工酶进行了研究 ,结果发现 :生物测定显示 3个小菜蛾种群对杀虫双均没有明显的抗性 ;对阿维菌素的抗性分别为 1.2 1倍、4 .51倍和 1.2 5倍。在 Estα和 Estβ基因位点 ,北京种群中存在 11种同工酶 ,其中 4种为 α同工酶 ,7种 β/i>同工酶 ;河北种群中存在 3种 α同工酶 ,5种 β同工酶 ;云南种群中存在 3种 α同工酶 ,3种 β同工酶。 3个种群酯酶基因多态性的产生可能是携带不同抗性酯酶基因的小菜蛾被动运输的结果 ;杀虫双对于能引起酯酶活性升高的杀虫药剂可能无交互抗性。     

Chitin synthesis inhibitor effect on Aedes aegypti populations susceptible and resistant to organophosphate temephos

BACKGROUND: In Brazil, dengue vector control is hampered by the resistance of Aedes aegypti L. populations to organophosphates (OPs). Insect growth regulators (IGRs) are a promising alternative, as their mechanisms of action are different from those of conventional insecticides. The authors analysed the effect of the IGR triflumuron, a chitin synthesis inhibitor, on the Ae. aegypti insecticide-susceptible strain Rockefeller, as well as on field populations both susceptible (TemS) and resistant (TemR) to the OP temephos. RESULTS: Triflumuron arrested development and inhibited adult emergence of the Rockefeller strain in a dose-dependent way (EI(50) and EI(90) of 0.8 and 1.8 microg L(-1) respectively). A direct relationship between triflumuron concentration and the precocity of its effects was evident. TemS and TemR temephos resistance ratios (RR(90)) were 4.5 and 13.8, triflumuron RR(90) being 1.0 and 1.3 respectively. CONCLUSION: The IGR triflumuron exhibited a dose-dependent effect against the reference Ae. aegypti Rockefeller strain. It was also effective against two field populations, regardless of their OP resistance status. The present results are discussed in the context of utilization of chitin synthesis inhibitors as potential alternatives in the control of Ae. aegypti in Brazil.     

Toxicity and kinetics of methoxyfenozide in greenhouse-selected Spodoptera exigua (Lepidoptera: Noctuidae)

Methoxyfenozide (RH-2485) was found to be 7.5-fold less toxic in terms of LD50 values against last-instar larvae of a greenhouse-selected strain of the beet armyworm Spodoptera exigua (Hübner) that was collected in July 2001 in an experimental greenhouse for resistance at Murcia in southern Spain, in comparison with a laboratory susceptible strain. To date, the compound is the newest member of this new group of moulting hormone accelerating IGRs to reach the marketplace against Lepidoptera. To understand this different potency in the greenhouse-selected S exigua, oxidative metabolism and acetylcholinesterase activities were measured in last-instar larvae and adults. In addition, we determined, by the use of 14C-labelled methoxyfenozide, the pattern of absorption in body tissues and excretion via faeces in last-instar larvae of the greenhouse-selected strain and compared the results with those from the laboratory susceptible strain. It was striking that the rate of excretion was about twice as high in the greenhouse-selected strain, resulting in a more rapid clearance of insecticide amounts from the insect body. Data are discussed in relation to mechanisms of lower toxicities for this new group of IGRs.     

北京地区粘虫对5种杀虫剂的抗药性

采用浸叶法测定了北京地区6个粘虫Mythimna separata(Walker)田间种群对5种不同类型杀虫剂的抗药性。结果表明:与相对敏感品系相比,6个田间种群对5种杀虫剂均表现出不同程度的抗性水平。其中,对氯虫苯甲酰胺(抗性倍数为1.314~4.213)、甲氨基阿维菌素苯甲酸盐(抗性倍数为1.000~4.385)和毒死蜱(抗性倍数为1.083~5.936)表现为敏感至低水平抗性;对虫螨腈(抗性倍数为1.355~20.80)和氯氟氰菊酯(抗性倍数为1.748~13.98)表现为敏感至中等水平抗性。因此,北京地区的粘虫防治应注重将氯虫苯甲酰胺、甲氨基阿维菌素苯甲酸盐和毒死蜱与虫螨腈或氯氟氰菊酯交替或轮换使用,以延缓抗药性的产生与发展。     

Assessment of insecticide resistance in eggs and neonate larvae of Cydia pomonella (Lepidoptera: Tortricidae)

Spanish Cydia pomonella (L.) field populations have developed resistance to several insecticide groups. Diagnostic concentrations were established as the LC₉₀ calculated on a susceptible strain (S_Spain) for five and seven insecticides and tested on eggs and neonate larvae field populations, respectively. The three most relevant enzymatic detoxification systems (mixed-function oxidases (MFO), glutathione S-tranferases (GST) and esterases (EST)) were studied for neonate larvae.In eggs, 96% of the field populations showed a significantly lower efficacy when compared with the susceptible strain (S_Spain) and the most effective insecticides were fenoxycarb and thiacloprid. In neonate larvae, a significant loss of susceptibility to the insecticides was detected. Flufenoxuron, azinphos-methyl and phosmet showed the lowest efficacy, while lambda-cyhalothrin, alpha-cypermethrin and chlorpyrifos-ethyl showed the highest. Biochemical assays showed that the most important enzymatic system involved in insecticide detoxification was MFO, with highest enzymatic activity ratios (5.1-16.6 for neonates from nine field populations). An enhanced GST and EST activities was detected in one field population, with enzymatic activity ratios of threefold and fivefold for GST and EST, respectively, when compared with the susceptible strain. The insecticide bioassays showed that the LC₉₀ used were effective as diagnostic concentrations. Measures of MFO activity alongside bioassays with insecticide diagnostic concentrations could be used as tools for monitoring insecticide resistance in neonate larvae of C. pomonella.     

小菜蛾不同亚细胞层羧酸酯酶的性质研究

本文对采自不同地区的小菜蛾种群幼虫不同亚细胞层羧酸酯酶 (Car E)的活性分布及性质进行了研究。结果表明 ,敏感品系和抗性种群 Car E活性亚细胞分布没有明显差异。不同种群各亚细胞层 Car E活性以线粒体层分布最高 ,占 34%～ 52 % ;微粒体层最低 ,占 7%～ 16 %。抗性种群线粒体层 Car E活性明显高于敏感品系。各种群以上清液层 Car E与 α- NA的亲和力最高 ,且各种群间没有明显差异。云南、北京、武汉、宣化种群(F0 )线粒体层 Car E与 α- NA的亲和力最低。测定的六个种群线粒体层 Car E与 α- NA的亲和力大小依次为 :AVMs抗性品系 (F16) >云南种群 >武汉种群 >台湾敏感品系 >宣化种群 (F0 ) >北京种群     

棉铃虫对久效磷抗性的毒理学机制

就棉铃虫田间种群对久效磷抗性的毒理学机制进行了研究。久效磷对敏感品系和高抗品系的乙酰胆碱酯酶抑制率存在显著差异,在同等剂量浓度下,对敏感品系的抑制率为７３．４８％,对高抗品系的抑制率仅为５９．６７％,说明棉铃虫对久效磷产生高水平抗性与乙酰胆碱酯酶不敏感性有关。在不同田间抗性品系中,ＰＢＯ和ＴＰＰ对久效磷均具有明显的增效作用,增效比分别为５．６～２３．４倍和２．９～４．６倍;而相应地ＢＰＯ和ＴＰＰ对     

Monitoring of beet armyworm Spodoptera exigua (Lepidoptera: Noctuidae) resistance to chlorantraniliprole in China

Beet armyworm, Spodoptera exigua is a major insect pest of vegetables in China, and has been reported to develop resistance to many broad-spectrum insecticides. Recently registered chlorantraniliprole provides a novel option for control of this pest resistant to other conventional insecticides. The susceptibilities of field collected populations were measured by diet incorporation assay with neonate, obvious variation of susceptibility was observed among the 18 field populations with LC₅₀ values varying from 0.039 to 0.240 mg/liter. Moderate resistant level was discovered in 8 of 18 field populations, other 8 populations had become low level tolerance to chlorantraniliprole, and only one population in all the field colonies remained susceptible. Biochemical assays were performed to determine the potential mechanisms involved in tolerance variation. Field populations displayed varied detoxification enzyme activities, but the regression analysis between chlorantraniliprole toxicities and enzyme activities demonstrated each field population might have specific biochemical mechanisms for tolerance. Artificial selection in laboratory with chlorantraniliprole was carried out, 23 generations of continuous selections resulted in 11.8-fold increase in resistance to chlorantraniliprole, and 3.0-fold and 3.7-fold increases in mixed function oxidase and esterase, respectively. Compared with the susceptible strain kept in laboratory the selection strain had developed 128.6-fold resistance to this insecticide. Synergism assays showed the detoxification enzymes might not involved in the resistance observed in field collected populations and the selected strain.     

Synergism of resistance to phosalone and comparison of kinetic properties of acetylcholinesterase from four field populations and a susceptible strain of Colorado potato beetle

The susceptibility to phosalone and biochemical characteristics of acetylcholinesterase (AChE) were compared between susceptible (SS) strain and four field populations of Colorado potato beetle (CPB) collected from commercial potato fields of Hamedan Province in west of Iran. Bioassays involving topical application of phosalone to fourth instars revealed up to 252 fold resistance in field populations compared with the SS strain. Synergism studies showed that although esterase and/or glutathione S-transferase metabolic pathways were present and active against phosalone, they were not selected for and did not have a major role in resistance. It is likely that piperonyl butoxide (PBO) reduced phosalone toxicity by inhibiting bio-activation of phosalone. The affinity (K_m) and hydrolyzing efficiency (V_max) of AChE to selected substrates, namely, acetylthiocholine iodide (ATC), propionylthiocholine iodide (PTC), and butyrylthiocholine iodide (BTC) were examined. AChE inhibition by higher substrate concentration was evident only in the SS strain. In resistant field populations, Aliabad (Aa), Bahar (B) and Dehpiaz (Dp), substrate inhibition at higher concentrations was not seen. There was no definite optimal concentration found for any of the substrates examined. When ATC, PTC, and BTC were used as substrate, the reaction rates of AChE from Yengijeh (Yg) population increased as the concentration of all three substrates were increased, but were almost constant at concentration of ATC ? 3.98, PTC ? 2.8, and BTC ? 5 mM. The susceptible form of AChE had the most efficient ATC hydrolysis but very low BTC hydrolysis activity. In contrast, AChEs from field populations elicited relatively reduced ATC hydrolysis, but relatively increased BTC hydrolysis. The in vitro inhibition potency of some organophosphates (OPs), on AChEs of the field populations and SS strain was determined. The rank order from the most potent inhibitor to the least as determined by their bimolecular reaction constants (K_i) was ethyl paraoxon > diazoxon > methyl paraoxon for AChE from Aa, B, Dp, and Yg populations, respectively, whereas the rank order for the susceptible strain was methyl paraoxon > ethyl paraoxon > diazoxon.     

Biochemical determination of acetylcholinesterase genotypes conferring resistance to the organophosphate insecticide chlorpyriphos in field populations of Bemisia tabaci from Benin, West Africa

Resistance to chlorpyriphos insecticide in Bemisia tabaci from a field population collected in Benin, West Africa was suggested with bioassay showing the presence of two sub-populations. Patterns of acetylcholinesterase (AChE) inhibition by the organophosphate chlorpyriphos-oxon were analyzed to estimate the number of possible genotypes with different sensitivity expected in three B. tabaci field populations collected in Benin. The analysis of inhibition patterns in these populations compared with four laboratory strains of B. tabaci using chlorpyriphos-oxon allowed the differentiation of three possible genotypes. In the reference strain SUD-S we detected two different acetylcholinesterases with different sensitivity to chlorpyriphos oxon suggesting the presence of two genes ace 1 and ace 2. The proportion of the insensitive enzyme (ace 2) was estimated to be 31%. In field populations we can detect two alleles at the same gene locus ace 1: one susceptible ace1S and one resistant ace1R. Both strains called Arizona University and Mexico-S2 have lost sensitive ace1S but the field populations from Benin clearly contained at least three genotypes confirming heterogeneous populations not completely resistant.