Development of a synthetic plant volatile-based attracticide for female noctuid moths. I. Potential sources of volatiles attractive to Helicoverpa armigera (Hübner) (Lepidoptera: Noctuidae)

This paper is the first of a series which will describe the development of a synthetic plant volatile-based attracticide for noctuid moths. It discusses potential sources of volatiles attractive to the cotton bollworm, Helicoverpa armigera (Hübner), and an approach to the combination of these volatiles in synthetic blends. We screened a number of known host and non-host (for larval development) plants for attractiveness to unmated male and female moths of this species, using a two-choice olfactometer system. Out of 38 plants tested, 33 were significantly attractive to both sexes. There was a strong correlation between attractiveness of plants to males and females. The Australian natives, Angophora floribunda and several Eucalyptu s species were the most attractive plants. These plants have not been recorded either as larval or oviposition hosts of Helicoverpa spp., suggesting that attraction in the olfactometer might have been as nectar foraging rather than as oviposition sources. To identify potential compounds that might be useful in developing moth attractants, especially for females, collections of volatiles were made from plants that were attractive to moths in the olfactometer. Green leaf volatiles, floral volatiles, aromatic compounds, monoterpenes and sesquiterpenes were found. We propose an approach to developing synthetic attractants, here termed 'super-blending', in which compounds from all these classes, which are in common between attractive plants, might be combined in blends which do not mimic any particular attractive plant.     

寄生3种夜蛾卵的夜蛾黑卵蜂种群增长潜能

夜蛾黑卵蜂是草地贪夜蛾卵期的一种重要寄生性天敌,适宜的寄主是实现其规模化繁育及应用的基础。本文应用实验种群生命表方法,分析、评价了草地贪夜蛾、斜纹夜蛾及甜菜夜蛾这3种夜蛾卵上夜蛾黑卵蜂的生长发育及种群增长潜能。结果表明,夜蛾黑卵蜂在3种夜蛾卵上均能顺利完成幼期发育且出蜂日期较为整齐,羽化当日即为产卵高峰日,羽化后3 d内的寄生卵量占总产卵量的80%以上。子代羽化率介于77.90%～85.56%之间,雌性比率介于0.53～0.59之间。不同寄主繁育的夜蛾黑卵蜂雄蜂后足胫节长度无明显差异,但以甜菜夜蛾卵繁育的雌蜂的后足胫节最长(152.00μm),斜纹夜蛾卵繁育的次之(146.33μm),草地贪夜蛾卵繁育的最短(142.67μm)。以甜菜夜蛾卵繁育的夜蛾黑卵蜂的内禀增长率(r_m)、净生殖力(R₀)及周限增长率(λ)均最高,分别为0.3486、57.94和1.4171,以斜纹夜蛾卵繁育的次之(r_m,0.3091;R₀,49.60;λ,1.3623),而以草地贪夜蛾卵繁育的最小(r_m,...     

生物源农药在苹果蠹蛾防治中的应用

苹果蠹蛾是世界性检疫害虫,对我国苹果优势产区构成了巨大威胁。长期依赖化学防治使该虫抗性问题变得十分严峻。为了保障食品安全,以环境友好的生物源农药替代化学农药已成为当前苹果蠹蛾防治的热点。本文对国内外现有的生物源农药,如寄生蜂、不育昆虫、颗粒体病毒、病原线虫、Bt、病原真菌、微孢子虫、性信息素、斑蝥素、多杀菌素等,在苹果蠹蛾防治中的最新应用及其存在的问题进行论述,讨论了生物源农药凭借其种类多、来源广且在用药时期上选择性强等特点,在该虫综合治理中的重要地位及面临的挑战。     

Detection of insecticide resistance in Plutella xylostella (L.) (Lepidoptera: Plutellidae) populations in South Australian crucifer crops

In response to reports of failures of sprays to control Plutella xylostella infestations in vegetable-growing areas around Adelaide in 1991, the extent of resistance to six insecticides in several South Australian populations of P. xylostella was determined. Populations sampled from vegetable crops in the Adelaide region were five- to 200-fold resistant to organophosphates (chlorpyrifos, methamidophos and mevinphos), eight- to 400-fold resistant to pyrethroids (esfenvalerate and permethrin) and six-fold resistant to the carbamate methomyl compared with a susceptible strain. Mevinphos and esfenvalerate were the most effective of the tested insecticides. These, together with Bacillus thuringiensis products, have continued until 1998 to be used almost exclusively for the control of P. xylostella in South Australian vegetable crops in the absence of any resistance management strategy.     

Volatile compounds from young peach shoots attract males of oriental fruit moth in the field

Abstract

The oriental fruit moth (OFM) is one of the most serious pests of commercial fruit orchards worldwide. Newly planted peach trees in particular, can be very attractive for mated OFM females for oviposition. Samples of airborne host plant volatiles from intact young peach shoot tips and old leaves of the same potted plants were collected and analyzed with a gas chromatograph-mass spectrometer. Chemicals present in young shoot tips, but not in old leaves, were used for field trials. Moth capture by traps with the synthetic chemicals was compared to that of the standard terpinyl acetate (TA) food trap. The TA food trap caught OFM males and mated females, but tested synthetic chemicals trapped only OFM males. We observed that the mixture of (Z)-3-hexenyl acetate: (E)-β-ocimene: (E)-β-farnesene in proportion 1:2:2 attracted OFM males. Further, 1 mg of (E)-β-ocimene, and that of (E)-β-farnesene also attracted OFM males.     

小菜蛾抗药性及其治理对策的研究进展

小菜蛾（Plutella xylostella L.）的抗药性研究是一项全球性的重要课题。本从其抗药性发展、抗药性机理研究进展、抗药性检测及研究手段的状况、抗药性治理对策等方面,对小菜蛾抗药性的研究进展进行综述。目前,对小菜蛾抗药性的分子水平上的探讨甚少。     

Increased neem extract content enhances drying survival of co-encapsulated Saccharomyces cerevisiae and decreases relative release of azadirachtin

Plant extracts from the neem tree can be applied as a bioinsecticidal compound in ‘attract-and-kill’ co-formulations to control soil-dwelling insect pests. Since insects are attracted to the bioinsecticide, the attract-and-kill approach benefits from a reduced dose of insecticide needed. Here, we demonstrate that a powdery neem seed kernel extract in combination with corn starch significantly enhances the drying survival of co-encapsulated CO₂-releasing Saccharomyces cerevisiae. Additionally, an increased content of the neem extract was shown to slow down the relative release of azadirachtin A. Both findings are of high relevance for the development of formulations in the field of biological pest control.     

Population genetic structure of Cydia pomonella: a review and case study comparing spatiotemporal variation

Analysis of population genetic structure is a key aspect to understand insect pest population dynamics in agricultural scenarios. Here the role of geography, hosts and time on the population genetic structure of codling moth Cydia pomonella (Linnaeus) (Lep., Tortricidae) populations is described. Temporal variation was examined in two French orchards among each of three adult flights during two successive years. Analyses were conducted using two insecticide resistance markers (variation at the sodium channel gene and enzymatic activity of cytochrome P450 oxidases) and three microsatellite loci. Levels of genetic variation among temporal populations were not significant based on variation in the sodium channel gene and microsatellite loci. However, P450 oxidase activity differed significantly during both flights and years, decreasing during the three flights of the first year and increasing during the second. These results suggest that phytosanitary measures are among the factors shaping the genetic structure of C. pomonella populations over temporal and geographical scales. We discuss the relative importance of natural and passive dispersal related to anthropogenic activities affecting C. pomonella population genetics and highlight population genetic research needs in order to design more efficient pest management practices.     

Conserving the efficacy of insecticides against Plutella xylostella (L.) (Lep., Plutellidae)

Abstract:  The diamondback moth (DBM), Plutella xylostella (L.) (Lep., Plutellidae), is one of the most destructive insect pests of crucifers worldwide. It was the first crop insect reported to be resistant to DDT and now in many crucifer-producing regions it has shown significant resistance to almost every insecticide applied in field including biopesticides such as crystal toxins from Bacillus thuringiensis and spinosyns from Saccharopolyspora spinosa . In certain parts of the world, economical production of crucifers has become almost impossible because of its resistance to insecticides and resulting control failure. A coordinated resistance management program needs to be implemented with the involvement of pesticide industry, local pesticide regulatory authorities, scientists and farmers. The judicious use of chemicals in conjunction with other control measures (e.g. biological control agents, resistant varieties, proper fertilization rates) is the best way to manage DBM and other pests of cruciferous crops. Introduction of glucosinolate-sulphatase inhibitors as plant-incorporated-products or sprayable material may also lead to a novel pest management strategy.     

Binding specificity of OBPs in the yellow peach moth Conogethes punctiferalis (Guenée)

Odorant-binding proteins (OBPs) are translators of the external chemical signals, which are critical for maintaining insect life. However, few OBPs were reported in the yellow peach moth (YPM), Conogethes punctiferalis (Guenée). In the current study, five OBPs (CpunOBP1, CpunOBP2, CpunOBP7, CpunPBP2 and CpunPBP4) were expressed and purified from the antennae of the YPM. The results showed that the proteins encoded by five CpunOBPs had six conserved cysteine residues, which were typical structural features of classic OBPs. Moreover, the fluorescence competitive binding assays indicated that the binding affinity of five CpunOBPs to the selected YPM female sex pheromones, host plant volatiles and Penicillium-inoculated apple volatiles was obviously different. The binding affinities of CpunOBP1 and CpunOBP2 with β-ionone were the strongest. CpunOBP7 could bind with 12 host plant volatiles but was unable to interact with any one of the three tested female sex pheromones. CpunPBP2 and CpunPBP4 exhibited the highest binding affinity to female sex pheromone trans-10-hexadecenal among 30 tested compounds. In conclusion, these results suggest the functional differentiation of the CpunOBPs in recognizing sex pheromones, host plant volatiles and fungus-infected host plant volatiles, which will provide new insights into selecting target proteins for YPM biocontrol.     

氟虫腈、吡虫啉作为黑翅土白蚁诱杀药剂的效果

毒力测定结果表明,0.025~0.4μg/mL氟虫腈和吡虫啉分别在药后3 d和5 d对黑翅土白蚁Odontotermes formosanus表现出明显的毒杀效果,氟虫腈和吡虫啉药后1 d的LC50分别为药后5 d的509倍和63.8倍,2种药剂对黑翅土白蚁的毒杀效果均比较缓慢。毒性传递试验表明,0.5μg/g毒沙处理白蚁1 h后,氟虫腈和吡虫啉的致死毒性均可被传毒白蚁传递给受毒白蚁。驱避作用试验表明,50μg/mL氟虫腈对黑翅土白蚁无明显的驱避作用,而50μg/mL吡虫啉对黑翅土白蚁表现出了明显的驱避作用。可见,2种供试药剂中,氟虫腈是较理想的白蚁诱杀药剂。     

Genetic architecture in codling moth populations: comparison between microsatellite and insecticide resistance markers

The codling moth, Cydia pomonella, is renowned for developing resistance to insecticides and causing significant economic damage to pome fruits worldwide. In spite of its economic importance, little is known about the patterns of movement of this pest and the effects of insecticide treatment on the population genetic structure. Here, we investigated the genetic structure of the pest in 27 orchards from France, Italy, Armenia and Chile at seven microsatellite loci and two resistance markers [biochemical activity of cytochrome P450 oxidases and proportion of knockdown resistance (kdr) alleles in the sodium channel gene]. According to the microsatellite loci, we detected isolation by distance at the supranational scale but found no evidence of geographical structure among the 24 French orchards, which were mainly structured by the intensity of the insecticide treatments. Similarly, the highest levels of metabolic resistance associated with activity of the cytochrome P450 oxidases were detected in the most treated orchards. The kdr alleles were observed in southern France and Armenia where the pyrethroid insecticides were or have been intensively sprayed. The intensity of the insecticide treatments marginally affected the allelic richness in each orchard, but not the level of inbreeding. These results suggest important and high-distance gene flow among the codling moth populations, which were mainly structured according to the history of insecticide applications. Differences in mutation-migration-drift equilibrium among treated and untreated orchards also suggest that insecticide applications are the main force regulating the local dynamics of codling moth populations.