Q型烟粉虱对20个茄子品种的选择性

为明确茄子不同品种对Q型烟粉虱抗性水平的差异,在室内条件下即温度为（26±1）℃、相对湿度60%~80%、光周期L∥D= 14 h∥10 h,研究了Q型烟粉虱对不同品种茄子的选择性及不同品种对其生长发育和存活率的影响。结果表明,茄子品种对Q型烟粉虱成虫选择性、产卵趋性及卵成虫的发育历期、存活率影响显著。在供试的20个茄子品种中,Q型烟粉虱成虫的选择性和产卵趋性均以‘增丰巨茄’、‘引茄1号’、‘原种紫长茄’最强,‘淄博长茄’、‘海南野茄’、‘紫罐茄王’最弱。卵成虫的发育历期以‘海南野茄’和‘阳春三月茄’上较长,显著长于‘紫红长茄’、‘快圆茄’、‘原种紫长茄’。卵成虫存活率以‘海南野茄’、‘原种紫长茄’、‘紫罐茄王’较低,显著低于‘增丰巨茄’、‘三月茄’、‘引茄一号’、‘特早紫圆茄’。综合分析,从20个茄子品种中筛选出对Q型烟粉虱存在抗性差异的品种为：‘海南野茄’、‘淄博长茄’、‘紫罐茄王’、‘阳春三月茄’为抗性品种,其中‘海南野茄’抗性最强,‘增丰巨茄’、‘引茄一号’、‘原种紫长茄’、‘紫红长茄’、‘快圆茄’、‘三月茄’、‘特早紫圆茄’为敏感品种,其中‘增丰巨茄’敏感性最强。     

Q型烟粉虱对不同烟草品种及其挥发物的行为反应

为明确烟草不同品种对Q型烟粉虱[Bemisia tabaci(Gennadius)]抗性水平的差异,在(25±1)℃、RH=80%、L∥D=16h∥8h条件下,研究了Q型烟粉虱成虫对20个烟草品种的取食和产卵选择性。结果表明,接虫72h,‘YY203’和‘K326’两个烟草品种的成虫数和产卵量最少,平均每株有成虫分别为8.25、9.25头,卵分别为31.50、40.75粒,但两个品种间成虫数和产卵量差异均不显著;‘CF226’品种的成虫数和产卵量最多,平均每株有成虫41.25头,卵406.48粒。进一步利用Y形嗅觉仪,测定了Q型烟粉虱对3个品种(‘YY203’、‘K326’和‘CF226’)烟草叶片气味及其提取物的嗅觉行为反应,结果表明,‘CF226’叶片及相应的挥发物提取物对烟粉虱成虫均具有显著的引诱作用,而‘YY203’和‘K326’叶片和挥发物提取物的引诱作用均不明显;Q型烟粉虱成虫对烟草挥发物提取物的趋向性比单纯的寄主植物叶片的趋向性强,但总的反应趋势相似。‘YY203’和‘K326’两个品种烟草对Q型烟粉虱有明显抗性。     

Q型烟粉虱对不同番茄品种的适生性

为探究烟粉虱对不同番茄品种的适生性差异,于温室条件下采用生态测定和生化方法,研究了Q型烟粉虱在不同番茄品种上的生物学参数及不同番茄品种叶片营养物质和次生物质含量的差异,并利用"Y"型嗅觉仪测定了Q型烟粉虱成虫对不同番茄品种的行为反应。结果表明,Q型烟粉虱在供试5个不同番茄品种上的存活率、产卵量及种群生命表参数均存在显著差异,其存活率、产卵量、净增殖率和内禀增长率均以在绿肩2号上最高,分别为80.43%、314.00、42.21和0.12,在精品淑娇上最低,分别为41.58%、93.33、12.05和-0.10。不同番茄品种的营养物质和次生物质含量差异显著,可溶性蛋白质和叶绿素含量均以绿肩2号最高,分别为4.13、2.50 mg/g,总黄酮和总酚含量以金陵红玉最高,分别为9.60、9.04 mg/g。行为反应结果显示Q型烟粉虱对绿肩2号的选择性较强,与苏红2003相比,选择率为61.5∶38.5;对精品淑娇最弱,与绿肩2号相比,选择率为41.3∶58.7。     

烟粉虱对不同黄瓜品种的选择性

选用10个黄瓜品种通过选择性和非选择性试验,探讨烟粉虱对黄瓜品种的选择性。结果表明,烟粉虱成虫对不同黄瓜品种取食和产卵的选择存在一定差异,最喜好中农19号、裕优3号及22-35RZ,最不喜好四季秋瓜、22-94RZ、春光2号。烟粉虱在不同黄瓜品种上的卵孵化率、羽化率没有显著差异,均能正常发育。黄瓜品种叶毛密度与烟粉虱成虫趋向和产卵量存在显著正相关。     

烟粉虱Q型与B型种群动态及其影响因子研究进展

烟粉虱Bemisia tabaci(Gennadius)是一种重要的农业害虫,并含有许多生物型。其中,烟粉虱Q型和B型是目前研究最为广泛深入的两种生物型。近20年来,烟粉虱B型传入世界各地并暴发成灾,被视为入侵性最强的生物型。相对于烟粉虱B型,烟粉虱Q型是近年来引起人们高度重视的一种新的生物型。在介绍烟粉虱Q型与B型系统发育关系以及基因交流的基础上,着重论述这两种生物型的种群动态及其影响因子的研究进展,以期揭示烟粉虱Q型与B型的成功入侵机制,并为其控制提供依据。     

江苏地区Q型烟粉虱的单倍型分析

为明确江苏地区Q型烟粉虱的遗传多样性及其入侵来源,基于mt DNA COI基因序列,对2010、2011年采自江苏13个市的Q型烟粉虱种群进行了单倍型分析。结果显示,江苏地区Q型烟粉虱有4个单倍型,分别为单倍型Q1、Q2、Q3、Q4,不同单倍型的分布和发生频率不同,其中单倍型Q2是13个地理种群的共享单倍型,2010、2011年的发生频率均超过50%;单倍型Q1和Q3分别是部分地理种群的共享单倍型,发生频率较低;单倍型Q4仅在扬州种群中出现,发生频率最低;单倍型Q1和Q3亲缘关系较近,单倍型Q2和Q4亲缘关系较近,表明各地理种群间既有一定的基因交流,也存在一定程度的遗传分化;系统发育分析表明,江苏地区的Q型烟粉虱可能来源于西部地中海地区,与日本的Q型烟粉虱具有相同的入侵来源。     

B型和Q型烟粉虱成虫经高、低温暴露后的存活特性研究

研究了B型和Q型烟粉虱成虫经过高、低温暴露后的存活情况.结果表明,2种生物型烟粉虱成虫对高温具有较强的适应性,在45℃下暴露1 h,部分成虫仍能存活;B型和Q型烟粉虱成虫在2～5℃下暴露1～8 d后存活率迅速下降,成虫在2℃下暴露4 d或在5℃下暴露8 d后全部死亡.     

6种杀虫剂对Q型烟粉虱的田间防治效果及抗性测定

本文测试了6种常用杀虫剂对黄瓜上Q型烟粉虱的田间防治效果,并进行室内毒力测定,以确定Q型烟粉虱对不同药剂的抗性。结果表明,施药后第3天,阿维菌素防治效果达78.8%,其次为苦参&;#8226;内酯,防效达65.1%,其他药剂防效低于45%;施药7d后,6种供试杀虫剂防效均下降到45%以下,且药剂间的差异不显著。毒力测定显示,Q型烟粉虱对6种常用杀虫剂均产生不同程度的抗性,且抗性水平高于B型。其中,Q型对高效氯氰菊酯抗性（抗性倍数47.69）显著高于B型（抗性倍数7.19）;对阿维菌素抗性则相对较低,抗性指数仅为4.40;对苦参碱、啶虫脒和吡虫啉的抗性居中（抗性倍数4.57~9.44）。     

在北京和河北局部地区Q型烟粉虱取代了B型烟粉虱

利用烟粉虱[Bemisia tabaci(Gennadius)]B生物型和Q生物型mtDNA COⅠ基因片段的特异性引物及烟粉虱mtDNA COⅠ基因片段通用引物,对2009年采自北京市海淀区、昌平区和河北廊坊市的蔬菜所3个基地的烟粉虱种群的生物型进行了鉴定,同时以本实验室在温室内长期饲养的B型烟粉虱种群作为对照。结果表明,2009年在3个地区所采集的烟粉虱全部为Q型,而在2004年这3个基地发生为害的烟粉虱全部为B型,表明Q型烟粉虱已经取代了B型烟粉虱在这些地区发生为害。     

B型烟粉虱携带传播烟草曲茎病毒的能力

B型烟粉虱近20年来入侵许多国家和地区,已成为重要的世界性作物害虫,其主要危害方式之一是传播双生病毒,造成作物病毒病大发生.应用PCR技术,研究了入侵我国的B型烟粉虱个体获取、存留及传播烟草曲茎病毒（Tobacco curly shoot virus,TbCSV）的能力.B型烟粉虱在感染TbCSV的普通烟毒株上饲毒30 min时,就可在40%的个体内检测到TbCSV DNA,个体带毒率随饲毒时间延长而增加,饲毒12 h后,带毒率达100%;TbCSV DNA在B型烟粉虱体内可存留10天左右,但不能终身存留;传毒处理植株的发病症状及PCR检测结果表明,B型烟粉虱是TbCSV的传播媒介.     

Baseline susceptibilities of B- and Q-biotype Bemisia tabaci to anthranilic diamides in Arizona

BACKGROUND: Development of pyriproxyfen and neonicotinoid resistance in the B-biotype whitefly and recent introduction of the Q biotype have the potential to threaten current whitefly management programs in Arizona. The possibility of integrating the novel anthranilic diamides chlorantraniliprole and cyantraniliprole into the current program to tackle these threats largely depends on whether these compounds have cross-resistance with pyriproxyfen and neonicotinoids in whiteflies. To address this question, the authors bioassayed a susceptible B-biotype strain, a pyriproxyfen-resistant B-biotype strain, four multiply resistant Q-biotype strains and 16 B-biotype field populations from Arizona with a systemic uptake bioassay developed in the present study. RESULTS: The magnitude of variations in LC₅₀ and LC₉₉ among the B-biotype populations or the Q-biotype strains was less than fivefold and tenfold, respectively, for both chlorantraniliprole and cyantraniliprole. The Q-biotype strains were relatively more tolerant than the B-biotype populations. No correlations were observed between the LC₅₀ (or LC₉₉) values of the two diamides against the B- and Q-biotype populations tested and their survival rates at a discriminating dose of pyriproxyfen or imidacloprid. CONCLUSION: These results indicate the absence of cross-resistance between the two anthranilic diamides and the currently used neonicotinoids and pyriproxyfen. Future variation in susceptibility of field populations to chlorantraniliprole and cyantraniliprole could be documented according to the baseline susceptibility range of the populations tested in this study. Copyright © 2011 Society of Chemical Industry     

宁夏地区烟粉虱对5种常用杀虫剂的抗药性

采用浸叶法分别测定了宁夏8个地区烟粉虱成虫田间种群对4类5种杀虫剂的抗性.结果 表明,供试烟粉虱种群对高效氯氰菊酯已产生了中等至极高水平抗性,抗性倍数为33.31～227.98倍;对烯啶虫胺产生了中等至高水平抗性,抗性倍数为12.14～69.33倍;对毒死蜱和吡虫啉产生了低至中等水平抗性,抗性倍数分别为7.63～38....     

Toxicity of spiromesifen to the developmental stages of Bemisia tabaci biotype B

BACKGROUND: Spiromesifen is a novel insecticidal/acaricidal compound derived from spirocyclic tetronic acids that acts effectively against whiteflies and mites via inhibition of acetyl‐CoA‐carboxylase, a lipid metabolism enzyme. The effects of spiromesifen on the developmental stages of the whitefly Bemisia tabaci (Gennadius) were studied under laboratory conditions to generate baseline action thresholds for field evaluations of the compound. RESULTS: Adult B. tabaci mortality rate after spiromesifen treatment (5 mg L^?1) was 40%. Treatment with 0.5 mg L^?1 reduced fecundity per female by more than 80%, and fertility was almost nil. LC₅₀ for eggs was 2.6 mg L^?1, and for first instar 0.5 mg L^?1. Scanning electron microscopy revealed that eggs laid by treated adult females had an abnormally perforated chorion, and females were unable to complete oviposition. Light and fluorescent microscopy showed significantly smaller eggs following treatment, and smaller, abnormally formed and improperly localized bacteriomes in eggs and nymphs. The number of ovarioles counted in females treated with 5 mg L^?1 was significantly reduced. Spiromesifen showed no cross‐resistance with other commonly used insecticides from different chemical groups, and resistance monitoring in Israel showed no development of field resistance to this insecticide after 1 year of use. CONCLUSION: The strong effect on juvenile stages of B. tabaci with a unique mode of action and the absence of cross‐resistance with major commonly used insecticides from different chemical groups suggest the use of spiromesifen in pest and resistance management programmes. Copyright © 2008 Society of Chemical Industry     

烟粉虱在山东烟区的发生动态及为害调查

本文调查了烟粉虱在山东烟田的发生动态和在不同县(市)的发生为害情况,结果表明:烟田烟粉虱成虫的发生动态年度之间大致相同,每年5月底6月初田间开始出现成虫,至7月下旬烟粉虱成虫发生量达到高峰,持续到8月份仍为害较重。烟粉虱在山东省主产烟区均有发生为害,并且不同产区其发生程度不尽相同,且各县(市)主栽品种烟粉虱的发生程度有一定差异。     

芦笋对烟粉虱的抗性品种筛选及抗性机制研究

为了探明芦笋对烟粉虱Bemisia tabaci (Gennadius) 的抗性机制, 为芦笋抗性品种的选育及烟粉虱的综合防治提供理论依据，本研究以收集的16份芦笋品种为材料, 于苗期人工释放烟粉虱后测定各品种抗性相关指标叶绿素a、叶绿素b、POD、SOD、可溶性蛋白、可溶性糖、游离脯氨酸、丙二醛、单宁、类黄酮、总酚和表皮蜡质等的含量, 利用“隶属函数法”“虫量比值法”和“表型观察法”对其抗虫性进行鉴定并研究其抗性机制。结果表明, 释放烟粉虱后不同时间, 品种间烟粉虱数量存在显著差异, 不同芦笋品种对烟粉虱诱集能力不同;各生化指标在烟粉虱为害下变异程度较大, 变异系数变幅在24.46%～47.43%;16个芦笋品种中, ‘浙丰1号’‘阿特拉斯’和‘紫色激情’的抗虫能力相对较强。12个生化指标降维为5个主成分, 累计贡献率达84.136%;相关分析表明:芦笋抗虫性与单宁、表皮蜡质含量呈极显著正相关, 与POD活性、总酚、可溶性糖含量呈显著正相关, 与丙二醛含量呈极显著负相关, 与其他性状无明显相关性。选育单宁、总酚、表皮蜡质和可溶性糖含量高、POD活性高、丙二醛含量低的品种, 可提高芦笋对烟粉虱的抗性。     

Biotype and insecticide resistance status of the whitefly Bemisia tabaci from China

BACKGROUND: Resistance to numerous insecticide classes in Bemisia tabaci Gennadius has impaired field control efficacy in south‐eastern China. The biotype and resistance status of B. tabaci collected from these areas was investigated. RESULTS: Two different biotypes of B. tabaci (B‐biotype and Q‐biotype) were detected in south‐eastern China, and the samples collected from geographical regions showed a prevalence of the Q‐biotype and the coexistence of B‐ and Q‐biotypes in some regions. Moderate to high levels of resistance to two neonicotinoids were established in both biotypes (28–1900‐fold to imidacloprid, 29–1200‐fold to thiamethoxam). Medium to high levels of resistance to alpha‐cypermethrin (22–610‐fold) were also detected in both biotypes. Four out of 12 populations had low to medium levels of resistance to fipronil (10–25‐fold). Four out of 12 populations showed low levels of resistance to spinosad (5.7–6.4‐fold). All populations tested were susceptible to abamectin. CONCLUSION: The Q‐biotype B. tabaci is supplanting the B‐biotype which used to be ubiquitous in China. Field populations of both B‐ and Q‐biotypes of B. tabaci have developed high levels of resistance to imidacloprid and thiamethoxam. Abamectin is the most effective insecticide against adult B. tabaci from all populations. Copyright © 2010 Society of Chemical Industry     

Gene expression in pyriproxyfen-resistant Bemisia tabaci Q biotype

Pyriproxyfen is a biorational insecticide that acts as a juvenile hormone (JH) analogue and disrupts insect development with an unknown molecular mode of action. Pyriproxyfen is one of the major insecticides used to control the whitefly Bemisia tabaci (Gennadius) and comply with integrated pest management (IPM) programmes, resulting in minimal effects on the environment, humans and beneficial organisms. During the last few years, resistance to pyriproxyfen has been observed in several locations in Israel, sometimes reaching a thousandfold or more. No information exists about the molecular basis underlying this resistance that may lead to understanding the mode of action of pyriproxyfen and developing molecular markers for rapid monitoring of resistance outbreaks. In this communication, a cDNA microarray from B. tabaci was used to monitor changes in gene expression in a resistant B. tabaci population. Based on statistical analysis, 111 expressed sequence tags (ESTs) were identified that were differentially upregulated in the resistant strain after pyriproxyfen treatment. Many of the upregulated ESTs observed in the present study belong to families usually associated with resistance and xenobiotic detoxification such as mitochondrial genes, P450s and oxidative stress, genes associated with protein, lipid and carbohydrate metabolism and others related to JH-associated processes in insects such as oocyte and egg development.     

Susceptibility to insecticides in the Q biotype of Bemisia tabaci is correlated with bacterial symbiont densities

BACKGROUND: The presence of symbiotic microorganisms may influence an insect's ability to tolerate natural and artificial stress agents such as insecticides. The authors have previously shown that Rickettsia in the B biotype of the whitefly Bemisia tabaci (Gennadius) (Homoptera: Aleyrodidae) increases this insect's susceptibility to several insecticidal compounds. This communication reports a comparison of the susceptibilities of three isofemale strains of the Q biotype of B. tabaci harbouring different bacterial complements to major insecticides from different chemical groups: one strain harboured only Arsenophonus, one harboured Rickettsia and Arsenophonus and one harboured Arsenophonus and Wolbachia. RESULTS: The presence of different symbiont combinations in the three strains had a significant influence on their susceptibility to most of the insecticides tested. Thiamethoxam, imidacloprid, pyriproxyfen and spiromesifen had a significant influence on strains that had the double infections Rickettsia–Arsenophonus and Wolbachia–Arsenophonus, which also carried higher amounts of symbionts as assessed by quantitative real‐time PCR. No significant differences in mortality rates were observed when the tested strains were treated with diafenthiuron. CONCLUSION: The results suggest a correlation between the presence of high bacterial densities in B. tabaci and the insect's ability to detoxify toxic compounds such as insecticides. Copyright © 2009 Society of Chemical Industry