Selection of fruits for oviposition by the chestnut weevil, Curculio elephas

Colonies of brown planthopper, Nilaparvata lugens (Stål), established from three locations on Luzon Island, Philippines, were selected for adaptation to four rice varieties: IR22 (no major resistance genes), IR26 (Bph1 gene), IR64 (Bph1 and additional moderate resistance from minor genes), and IR72 (Bph3). In each of the first eleven generations, and the fifteenth generation, the fitness of N. lugens from subcolonies reared on each of the varieties was measured with four tests: survival to adult, feeding rate, female weight, and developmental time. In three of the four tests, insects from all three locations showed slower adaptation to IR64 than to IR22, IR26, and IR72. In the fourth test, developmental time, the rate of adaptation on IR64 and IR72 was similar, and both varieties retained a significant level of resistance after 15 generations of selection. However, as measured by survival to adult, feeding rate, and female weight, after 15 generations the fitness on IR64 of N. lugens from two locations no longer differed from those on other varieties. In these two locations, Central Luzon and IRRI, IR64 has been widely grown for 10 years. After 15 generations of selection IR64 remained resistant to insects from Banaue, an isolated location where modern resistant varieties are not grown, as measured by all four tests. Our results demonstrate that the relatively greater durability of brown planthopper resistance in IR64, which has been suspected on the basis of its performance in the field, is also evident under greenhouse conditions in the absence of natural enemies and other mortality factors.     

Categories and inheritance of resistance to Nilaparvata lugens (Hemiptera: Delphacidae) in mutants of indica rice 'IR64'

Varietal mutants can be useful for developing durable resistance, understanding categories of resistance, and identifying candidate genes involved in defense responses. We used mutants of rice 'IR64' to isolate new sources of resistance to the planthopper Nilaparvata lugens (St?l) (Hemiptera: Delphacidae). We compared two mutants that showed a gain and loss of resistance to N. lugens, to determine the categories of resistance to this pest. Under choice tests, female planthoppers avoided settling and laid fewer eggs on the resistant mutant 'D518' than on the susceptible mutant D1131, susceptible check 'TN1', and wild-type IR64, indicating that antixenosis was the resistance category. Similarly, under no-choice conditions, planthoppers laid 29% fewer eggs in D518 than in IR64, but they oviposited more in 'D1131' and TN1. Honeydew excretion was greater on D1131 seedlings but slightly lower on D518 than on IR64. Nymphal survival and adult female weight did not differ among rice cultivars. D518 showed higher tolerance of N. lugens infestations than IR64. Genetic analysis of the F1, F2, and F3 populations derived from D518 x IR64 revealed that resistance in D518 is dominant and controlled by a single gene. Despite the variation in resistance to N. lugens, both mutants and IR64 performed similarly in the field. The mutant D518 is a new source of durable resistance to N. lugens, mainly due to enhanced antixenosis to female hoppers for settling and oviposition.     

褐飞虱Nl15基因的克隆及功能分析

【目的】植食性刺吸式口器昆虫的唾液蛋白参与调控植物抗虫防御反应,影响其对寄主植物的适应性。本研究旨在通过克隆褐飞虱Nilaparvata lugens重要唾液蛋白基因Nl15,调查其时空表达模式,明确其在褐飞虱致害性中的作用。【方法】基于褐飞虱IR56种群转录组数据,用RT-PCR克隆褐飞虱基因Nl15 cDNA序列,并进行生物信息学分析。利用qPCR检测其在褐飞虱TN1和IR56种群不同发育阶段(卵、1-5龄若虫和雌雄成虫)和雌成虫不同组织(头、胸、腹和足)中的表达模式。通过显微注射dsRNA对褐飞虱TN1和IR56种群的4龄若虫进行Nl15的RNAi,利用qPCR检测Nl15 RNAi后褐飞虱若虫中Nl15的相对表达量以及Nl15 RNAi后褐飞虱若虫取食3 d时水稻植株中防御相关基因(OsLecRK4, OsMPK10, OsWRKY24, OsLox, OsNPR1和OsGns5)的相对表达量,并生物测定Nl15 RNAi后褐飞虱的存活率以及成虫蜜露量和体质量增量。【结果】克隆了褐飞虱Nl15 cDNA序列(GenBank登录号：OK181113),其开放阅读框长1 008 bp;预测编码335个氨基酸,理论等电点为7.54,分子量为38.7 kD,含有23个氨基酸的信号肽序列和一个糖基化修饰位点,不存在跨膜结构域和其他已知的功能域;Nl15与灰飞虱Laodelphax striatellus同源蛋白氨基酸序列一致性为45%。发育表达谱结果表明,Nl15在褐飞虱各个发育阶段均表达,在3-4龄若虫中的表达量最高;组织表达谱结果表明,Nl15在褐飞虱雌成虫头部中的表达量最高,且在IR56种群头部中的表达量高于在TN1种群头部中的。RNAi实验结果表明,与注射dsGFP的对照组相比,注射dsNl15的处理组中Nl15的表达量显著降低了89.5%,褐飞虱的存活率以及成虫蜜露量和体质量增量均显著降低,上述6个水稻防御相关基因的表达量显著上调。【结论】褐飞虱IR56种群中的Nl15参与褐飞虱与水稻的防御与反防御分子互作。本研究为进一步阐述褐飞虱克服抗虫基因的机制及揭示昆虫与植物互作的分子网络提供了思路。     

褐飞虱抗药性研究现状

褐飞虱Nilaparvata lugens(Stal)对杀虫剂产生抗药性是其近年来暴发频繁的重要原因。文章综述国内外关于褐飞虱抗药性的研究成果,包括褐飞虱抗性测定方法、抗药性的发展、交互抗性、抗性遗传、抗性机理及抗性治理等。田间褐飞虱种群对新烟碱类药剂产生不同程度的抗药性,其中对吡虫啉产生高水平到极高水平抗性,对氯噻啉和噻虫嗪分别产生中等水平和低水平的抗药性,对呋虫胺和烯啶虫胺仍然处于敏感性阶段。此外,褐飞虱种群对噻嗪酮(昆虫生长调节剂)产生低水平到中等水平抗性。长期大面积使用化学药剂是褐飞虱产生抗药性的重要原因。因此,必须加强褐飞虱的抗性治理,以延缓其抗药性进一步发展。     

Detection and analysis of QTLs for resistance to the brown planthopper, Nilaparvata lugens, in a doubled-haploid rice population

 We used a mapping population of 131 doubled-haploid lines, produced from a cross between an improved indica rice variety (IR64) and a traditional japonica variety (Azucena), to detect quantitative trait loci (QTLs) for resistance to the brown planthopper (BPH), Nilaparvata lugens. We evaluated the parents and mapping population with six tests that measure varying combinations of the three basic mechanisms of insect host plant resistance, i.e., antixenosis, antibiosis, and tolerance. To factor-out the effect of the major resistance gene Bph1 from IR64, the screening was done with two BPH populations from Luzon Island, The Philippines, that are almost completely adapted to this gene. A total of seven QTLs associated with resistance were identified, located on 6 of the 12 rice chromosomes. Individual QTLs accounted for between 5.1 and 16.6% of the phenotypic variance. Two QTLs were predominantly associated with a single resistance mechanism: one with antixenosis and one with tolerance. Most of the QTLs were derived from IR64, which has been shown to have a relatively durable level of moderate resistance under field conditions. The results of this study should be useful in transferring this resistance to additional rice varieties. Received: 10 May 1998 / Accepted: 4 June 1998     

RAPD markers linked to brown planthopper Nilaparvatha lugens resistance locus in rice

Brown plant hopper, a major pest in rice causes "hopper burn" in the field. The resistance gene for brown planthopper was mapped by using 20 recombinant inbred lines (RIL's) derived from a cross between resistant line Oryza. officinalis derivative (IR 54742-2-21-12-17-6) and a susceptible rice cultivar ASD 16 using bulked segregant analysis. On an average of 4 loci were amplified and two RAPD primers amplified loci that co-segregated with resistance/susceptibility. The segregating RAPD loci were mapped using Mapmaker programme into 13 groups. The expected and the 95% confidence level were found to be 15.2 and 47.7 cM respectively, confirming the location of the brown planthopper resistant gene on the region of chromosome 4. These RAPD markers will accelerate breeding programme for brown planthopper resistance.     

褐飞虱对五种杀虫剂抗性的快速检测技术

【目的】建立褐飞虱Nilaparvata lugens对常用杀虫剂抗性的快速检测技术,实时掌握田间褐飞虱种群的抗药性水平,以指导褐飞虱防控合理用药。【方法】基于玻璃瓶药膜法,研制褐飞虱3龄若虫对吡虫啉、啶虫脒、醚菊酯、毒死蜱和异丙威5种杀虫剂抗性的快速检测试剂盒;利用试剂盒测定的死亡率与稻苗浸渍法测得的抗性倍数进行相关性分析,并验证利用试剂盒快速测定褐飞虱田间种群对5种杀虫剂 抗性水平的准确性。【结果】处理1 h时吡虫啉、啶虫脒、醚菊酯、毒死蜱和异丙威对褐飞虱室内敏感种群3龄若虫的LD₉₀分别为：30.96, 92.05, 117.24, 514.21和1.24 ng/cm²。在吡虫啉、啶虫脒、醚菊酯、毒死蜱和异丙威相应诊断剂量下,贵州省不同田间种群褐飞虱3龄若虫的校正死亡率分别在23.75%~78.75%, 25.00%~78.75%, 43.75%~88.75%, 36.25%~85.00%和18.75%~67.50%之间。相关性分析表明,上述田间种群褐飞虱3龄若虫的死亡率与稻苗浸渍法测定的抗性倍数呈显著负相关,相关系数在0.8751~0.9754之间。通过快速检测试剂盒获得的死亡率及相关性方程计算得到贵州安龙地区(AL)褐飞虱种群对吡虫啉、啶虫脒、醚菊酯、毒死蜱和异丙威的推测抗性倍数分别为7.23, 3.68, 4.14, 4.12和31.18,采用稻苗浸渍法测得上述5种杀虫剂的实测抗性倍数分别为6.33, 5.24, 3.71, 4.50和26.56,表明推测抗性倍数与实测的抗性倍数结果表现一致。【结论】该快速检测试剂盒可以通过测定褐飞虱田间种群的死亡率,快速评估褐飞虱田间种群对杀虫剂的抗性水平。     

Genetics of resistance of rice cultivar ARC10550 to Bangladesh brown pianthopper teletype

Resistance to brown planthopper in rice cultivar ARC 10550 was found to be governed by a single recessive gene which was designatedbph 5. It conveys resistance to brown planthopper populations in South Asia but not to the populations in East and Southeast Asia. This gene segregated independently of four other known genes for brown planthopper resistance. It should be possible to combine this gene with any of the other four genes to develop rice cultivars with a broad spectrum of resistance.     

惠州地区褐飞虱对几种药剂的抗药性监测

2009年采用稻茎浸渍法测定广东省惠州地区褐飞虱Nilaparvata lugens(Stl)种群对吡虫啉、噻嗪酮、异丙威、丁烯氟虫腈、烯定虫胺和毒死蜱等杀虫剂的敏感性,测定结果表明:当地褐飞虱种群对吡虫啉产生了极高水平抗性(抗性倍数为422.2倍),对噻嗪酮、异丙威产生了中等水平抗性(抗性倍数分别为11.0和14.0倍),对丁烯氟虫腈仍处于敏感性降低(抗性倍数为3.7倍),对烯定虫胺和毒死蜱敏感(抗性倍数<3倍)。基于褐飞虱对这6种药剂抗性的明显差异,对田间治理褐飞虱合理使用药剂进行了讨论。     

利用抑制差减杂交技术分离受水稻抗性调控的褐飞虱基因

为分离受水稻抗性调控的褐飞虱Nilaparvata lugens基因, 以取食感虫水稻台中1号和高抗水稻B5的2叶1芯秧苗24 h的褐飞虱4龄若虫为起始材料, 采用抑制差减杂交技术构建了两个群体间的正反向差减cDNA文库。通过斑点杂交从差减文库中筛选代表受水稻抗性调控的基因的cDNA克隆, 进行测序和功能分析, 挑选具功能的基因进行Northern杂交验证。结果表明, 通过斑点杂交筛选到的98个阳性克隆代表92个互不重复的单基因, 其中25个与动物的已知蛋白基因存在较高的同源性。Northern杂交表明, 这25个基因有11个表达上调, 8个表达下调, 提示它们可能在褐飞虱适应抗性水稻过程中发挥了重要作用。本研究结果为克隆上述新基因的全长cDNA序列及进一步研究其在褐飞虱与水稻互作中的功能奠定了基础。     

Starvation tolerance of macropter brown planthopper, Nilaparvata lugens, from temperate, subtropical, and tropical populations in East and South-East Asia

We compared the starvation tolerance of macropter brown planthopper, Nilaparvata lugens Stål (Homoptera: Delphacidae), a characteristic favoring long-distance migration, among populations collected from subtropical and temperate East Asia, tropical Indochina, and the Malay Peninsula. Starvation tolerance of planthoppers was significantly affected by climatic zone in which the planthoppers had been collected and by feeding duration after adult eclosion. After 24 h feeding on rice, newly emerged macropters originating from East Asia lived longer without feeding (starvation tolerance) than macropters from the tropical populations. The difference in longevity between the two groups of populations became more conspicuous when macropters fed on rice for 48 or 72 h, indicating that post-eclosion feeding markedly increased starvation tolerance in East Asian populations relative to the tropical populations. These facts provide evidence that N. lugens populations that are adapted for long-distance migration are distributed in subtropical and temperate East Asia. From the data on post-eclosion feeding together with starvation tolerance, we discuss the timing of planthopper takeoff from paddies and the difference in resource allocation (vitellogenesis or stored resources) between East Asian and tropical populations.     

褐飞虱对吡虫啉的抗性机理和靶标分子毒理学

褐飞虱Nilaparvata lugens是水稻最重要的害虫之一,长期依赖化学防治导致了该害虫对不同类型杀虫剂抗性的产生,对新烟碱类杀虫剂吡虫啉高水平抗性的产生更是造成了巨大的粮食生产损失。近年来在褐飞虱对吡虫啉抗性机理,以及在抗药性机理研究推动下吡虫啉作用靶标褐飞虱神经系统烟碱型乙酰胆碱受体（nicotinic acetylcholine receptors, nAChRs）毒理学等方面取得了许多研究进展。nAChRs是昆虫神经系统中最重要的神经递质受体,是几类重要杀虫剂的作用靶标,其中以新烟碱类杀虫剂为代表。通过对比敏感品系和室内连续筛选获得的高抗吡虫啉品系,在褐飞虱两个nAChRs亚基Nlα1和Nlα3中均发现了抗性相关点突变Y151S,该突变导致了受体与吡虫啉结合亲和力的显著下降,而对内源神经递质乙酰胆碱的亲和力影响很小。Nlα1与褐飞虱另外两个亚基Nlα2和Nlβ1共聚成一个受体,构成吡虫啉低亲和力结合位点;Nlα3与褐飞虱另外两个亚基Nlα8和Nlβ1共聚成一个受体,构成吡虫啉高亲和力结合位点。不仅褐飞虱nAChRs与吡虫啉抗性相关,某些nAChRs附属蛋白也直接影响褐飞虱对吡虫啉的抗性,如Lynx蛋白。关于褐飞虱nAChRs组成、抗药性相关变异、受体附属蛋白对抗药性的影响等方面的研究,均为国内外前沿报道,不仅有助于对新烟碱类杀虫剂抗性机理的理解,对昆虫nAChRs毒理学同样具有很大的推动作用。     

稻飞虱迁飞种群的上灯行为节律研究

【目的】明确稻飞虱迁飞种群的上灯行为节律,以指导其大田迁入种群和迁出种群的发生预测与灾变预警。【方法】本研究运用逐时自动灯诱装置对2010和2011连续两年稻飞虱迁飞种群的上灯行为节律进行了系统研究。【结果】灰飞虱Laodelphax striatellus迁飞种群上灯始见期和灯诱虫量年际间差异不明显,白背飞虱Sogatella furcifera和褐飞虱Nilaparvata lugens迁飞过境种群上灯始见期和灯诱虫量年际间差异较大。此外,灰飞虱迁飞种群的特大高峰期和高峰期逐时灯诱虫量百分比与一般上灯期和零星上灯期相比突出了晨暮双峰型中的暮峰型上灯行为特点;白背飞虱迁飞种群特大高峰期逐时灯诱虫量百分比与高峰期和一般期相比突出了晨暮双峰型中的晨峰型生物学特性。【结论】稻飞虱迁飞种群的上灯行为节律存在种的特异性,这一行为节律除了受环境因素的影响外主要与其生物学特性有关。     

褐飞虱中肠内膜结合短肽P2S的筛选

筛选与褐飞虱Nilaparvata lugens中肠内膜相结合的短肽, 探索能阻断褐飞虱传播水稻病毒的新方法。【方法】通过改良的膜饲喂法和噬菌体短肽文库展示技术, 模拟褐飞虱正常取食的行为, 筛选能够与其中肠内膜结合的短肽。将筛选到的短肽与加强绿色荧光蛋白进行融合表达, 经纯化后, 将融合蛋白饲喂给褐飞虱若虫, 通过荧光显微镜观察饲喂后若虫的中肠。【结果】使用改良的膜饲喂法, 16 h后褐飞虱若虫的取食率达到91%, 24 h后达到95%。经形态学验证, 确定了一种短肽与褐飞虱中肠内膜具有结合活性, 并将其命名为P2S。【结论】改良了针对褐飞虱的膜饲喂法, 筛选并验证了能够与褐飞虱中肠内膜结合的活性短肽P2S。研究结果为阻断相关的水稻病毒与褐飞虱中肠内膜间的相互作用研究提供了科学依据, 也为褐飞虱新型膜穿孔毒素蛋白的研究提供了理论基础。     

水稻品种对褐飞虱的田间抗性及其生态学机制

评价了7个水稻品种(浙粳22、宜香845、中组14、秀水123、二优倍九、感虫对照品种TN1和抗虫对照品种IR36)在田间成株期对褐飞虱Nilaparvata lugens(Stl)的抗性表现,并初步分析了它们的抗性机制。结果表明,在田间网室人工诱发条件下,浙粳22、宜香845、秀水123和中组14等4个品种的抗性水平与抗虫品种IR36相同,均小于3级,表现为抗虫,而二优培九则与感虫品种TN1相同,表现为感虫。在自然发生条件下的水稻分蘖期至乳熟期,宜香845和中组14上褐飞虱数量仅为TN1上的7.84%～24.44%,秀水123和浙粳22则为TN1上的30.19%～60.27%。在4个抗性品种上褐飞虱的产卵量和卵孵化率明显减少,而若虫存活率仅为TN1上的20%～30%。与IR36相同,4个抗性品种上褐飞虱的若虫存活率和种群增长倍数均显著低于TN1上,说明他们对褐飞虱的抗性主要表现为抗生性。     

水稻品种中抗褐飞虱抗原次生物质的分析

借助高效液相色谱(HPLC)技术,研究了130份对褐飞虱生物型Ⅱ具有不同抗性水平的水稻样品(26个品种)中13个次生物质含量(峰面积)的差异;运用主成分分析和多元回归分析,建立了水稻品种抗性级别的预测模型：Y=3．4593-0．02491X1+0．08475X2-0．04227X8+0．1174X12结果表明,水稻的抗性水平与峰面积值之间极显著相关(r^2=0．84,P<0．01),峰1、峰2、峰8、峰12对应的次生化合物是影响水稻对褐飞虱生物型Ⅱ抗性水平的主要抗原次生化合物;水稻品种中起抗虫作用的抗原次生物质不止一种,而是几种的组合,而且它们对水稻抗虫性的贡献权重是不完全相同的．     

小黄家蚁工蚁对褐稻虱的捕食作用

报道了小黄家蚁对褐稻虱的捕食作用．养虫笼及大试管捕食试验结果表明,小黄家蚁对褐稻虱若虫尤其是低龄若虫具有良好的捕食效果,捕食率分别为９３％和３０％,捕食的功能反应为ＨｏｌｉｎｇⅡ型反应,水稻品种抗性与捕食反应之间存在协同作用．     

褐飞虱ABCB基因的克隆与表达分析

三磷酸腺苷结合盒转运蛋白(ATP-binding cassette,ABC)广泛分布于各种生物体中,是最大的膜蛋白家族之一。在昆虫中,ABC转运子不仅在分子转运过程中有重要的功能,同时在杀虫剂抗性、代谢和发育中都起到重要的作用。本研究克隆和鉴定了褐飞虱Nilaparvata lugens St l ABCB基因(NlABCB),结果表明NlABCB基因全长1468 bp,含有一个长度为459 bp的开放阅读框,编码153个氨基酸。利用定量PCR检测NlABCB基因在褐飞虱体内的表达,发现NlABCB转录本在褐飞虱的所有发育阶段都有表达,在1龄若虫中表达量最低,随着生长发育表达量逐渐升高。NlABCB在褐飞虱5龄若虫的中肠中表达量最高。研究发现该基因与褐飞虱的生理活动有关。构建NlABCB-dsRNA载体,转化大肠杆菌Escherichia coli HT115后,经IPTG诱导,形成NlABCB-dsRNA,喂养褐飞虱取食含NlABCB-dsRNA人工饲料,发现褐飞虱的存活率明显降低。因此该基因的克隆和功能鉴定,对于作物的抗虫育种,尤其对水稻害虫的生物防治将起到重要的促进作用。     

重庆市秀山县稻飞虱发生特点及其原因分析

重庆市秀山地区稻飞虱的发生主害种类为白背飞虱Sogatellafurcifera和褐飞虱Nilaparvatalugens,白背飞虱的危害重于褐飞虱 ;白背飞虱 1年发生 5～ 6代 ,以 4 ( 3)代为主害代 ,田间发生 2～ 3次若虫高峰 ,以第 2次为主害代峰、虫量最大 ;褐飞虱 1年发生 4～ 5代 ,以 5 ( 4 )代为主害代 ,田间发生 3～ 4次若虫高峰 ,以第 3次为主害代峰、虫量最大 ;( 3)稻飞虱重发年比例高 ,达 85 %以上 ;( 4 )白背飞虱呈逐年加重和主害期提前、褐飞虱呈逐年减轻和主害期推迟的趋势。其主要原因是 :特殊的槽谷地形、迁入虫量大、品种及栽培技术的变化、防治技术的提高和气候条件有利等。