Insecticidal effects of Artemisia dracunculus L. (Asteraceae) essential oil on adult of Aphis gossypii Glover (Hemiptera: Aphididae) under laboratory conditions

Aphis gossypii Glover (Homoptera: Aleyrodidae) is one of the most important pests of agriculture worldwide. To control the pest population, research on the use of the environmental and plant-based compounds has increased in recent decades. So, in this study, effect of fumigant toxicity of Artemisia dracunculus L. essential oil on adults of the mentioned pest was studied. The essential oil of this plant was subjected to hydro-distillation using a Clevenger apparatus. All bioassay examinations were conducted at 27?±?2 and 65?±?5?°C relative humidity and a photoperiod of 16:8?h (light:dark). This research was performed in a completely random design with six treatments in different concentrations and times to evaluate the level of LC₅₀ and LT₅₀. Each treatment was evaluated in three replicates for different concentrations and times with each replicate consisting of 20 same-age adult pests. The results showed that the use of the essential oil of A. dracunculus L. shows significant mortality of pest 24?h after treatment. LC₅₀ value of this essential oil on adults of A. gossypii was 18.63?μL/L of air and LT₅₀ value of the essential oil on the mentioned pest resulted to be 10.74?h with a concentration of 18.63?μL/L of air. The results showed that by increasing the concentration and duration of essence treatment, the mortality rate also increased. Experiment results showed that A. dracunculus L. oil has strong effect on the above-mentioned pest and it will be suggested for using in the mentioned integrated pest management programmes in greenhouses for its high potential in fumigant toxicity.     

印度藏茴香植物精油对温室棉蚜的熏蒸毒性及其成分分析（英文）

【目的】棉蚜Aphis gossypii是世界各地室内和室外果树、蔬菜和观赏植物上最具危害性的害虫之一。这一害虫取食植物汁液,产生蜜露,传播植物病毒,对植物从质和量上产生破坏。为了控制温室中的这一害虫,植物精油可用作化学农药的替代药物。本实验研究了印度藏茴香Carum copticum植物精油对棉蚜成虫的熏蒸毒性。【方法】将研磨的印度藏茴香干种子用改良的挥发油提取器(Clevenger-type apparatus)进行水蒸馏。所有生物测定均在27±2℃,相对湿度65%±5%和光周期16L∶8D条件下进行。研究采用完全随机设计,6个处理(5个不同浓度的精油加对照)。每一浓度3次重复,每一重复20头成虫。【结果】结果表明,棉蚜成蚜接触印度藏茴香精油24 h后出现明显的死亡。该精油对棉蚜成蚜的致死中浓度(LC50)为1.21μL/L空气。棉蚜成蚜的死亡百分率对精油的施用表现出较高的敏感性。精油浓度为1.21μL/L空气时,估计的棉蚜的致死中时(LT50)为11.79 h。这一精油的熏蒸毒性与浓度和接触时间之间具有一定的相关性。GC/MS组分分析结果表明,该精油由18种化合物组成,最重要的是一些化合物引起了熏蒸毒性,如麝香草酚(占50.07%)、γ-萜品烯(占23.99%)和对异丙基苯甲烷(占22.90%)。【结论】本研究结果表明印度藏茴香植物精油对棉蚜具有较好的杀虫效果。印度藏茴香精油对棉蚜产生较大的影响,由于它具有较高的熏蒸毒性潜力,因此可在温室中用于这一害虫的综合治理。     

Effect of lemon essential oil on the developmental stages of Trialeurodes vaporariorum West (Homoptera: Aleyrodidae)

Trialeurodes vaporariorum (Homoptera: Aleyrodidae), is a destructive pest of many ornamental and greenhouse crops throughout the world. In this research, effect of essential oil derived from lemon peel, Citrus aurantifolia (Hook.) on mortality of eggs, first-instar nymphs and on adult oviposition of T. vaporariorum (Westwood) was determined under laboratory conditions. Analysis of Citrus aurantifolia essential oil used for insect fumigation by phase gas chromatography revealed the presence of 16 compounds including Limonene (56.6%), β-pinene (16.3%) and α-terpineol (11.3%). Five concentrations of essential oil – 0.002, 0.004, 0.008, 0.016 and 0.032 (μl/ml) – were applied in fumigant toxicity experiments. Greater mortality was observed with increasing dose of essential oil. First-instar nymphs were more sensitive to essential oil treatments compared with eggs and adults that reduced the survival rate of T. vaporariorum by 58, 70 and 56% after treatment of eggs, nymphs and adult, respectively. Based on this study, essential oil derived from C. aurantifolia could be used as an effective and environmentally sustainable bioinsecticide for the control of T. vaporariorum.     

The synergistic effects of Carum copticum essential oil on diatomaceous earth against Sitophilus granarius and Tribolium confusum

In this study, synergistic/antagonistic interaction between Carum copticum (L.) powder and essential oil with diatomaceous earths (DEs) was assessed against Tribolium confusum Jacquelin du Val. and Sitophilus granarius (L.) adults. The obtained synergistic interaction was interpreted by measurement of insects' locomotor activity when exposed to C. copticum essential oil. Essential oil had strong fumigant toxicity against adult insects; however, toxicity diminished in the presence of wheat commodity. Plant essential oil synergized the performance of DE samples such that they generally became more insecticidal than DE alone. However, plant powder effects were antagonistic; effects were not as severe as predicted in terms of the insect mortality. Insects' locomotor activity increased significantly when exposed to C. copticum essential oil. These results support the hypothesis that essential oil can enhance the efficacy of DE, at least by increasing locomotor activity and insect-contact toxicity of DE particles. Therefore, combination of essential oil with DE could have potential for use in integrated stored-product pest-management programs.     

Efficacy of Elettaria cardamomum L. (Zingiberaceae) essential oil on the two spotted spider mite,Tetranychus urticae Koch (Acari: Tetranychidae)

Two-spotted spider mite, Tetranychus urticae Koch is the major pest of various plants worldwide. Now the control is dependent on the use of chemical pesticides. Plant compounds are recently known as biopesticides. Essential oil of Elettaria cardamomum was researched on repellent and oviposition inhibition of T. urticae. The LC₅₀ values of fumigant toxicity of this oil on adults and eggs of the two spotted spider mite were 7.26 and 8.82?μL/L air, respectively. Also LT₅₀ value of essential oil at 45?μL/L air was 23.86?h and LT₅₀ value of essential oil at 60?μL/L air was 9.01?h. In addition, different concentrations of the essential oil of E. cardamomum significantly affected oviposition deterrence and repellency of adults. The results of this study indicated that essential oil of E. cardamomum may be considered as a biopesticide to control two spotted spider mites.     

Insecticidal Activity and Chemical Composition of Artemisia sieben Besser Essential Oil from Karaj,Iran

Atremisia sieberi Besser is a widely distributed plant that grows in many areas of Iran and has strong insecticidal activity against stored product pests, so an experiment was conducted to investigate fumigant toxicity of the A. sieberi oil collected from Karaj region of Iran. The oil was applied against one to seven day old adults of three major stored product insects including: Callosobruchus maculatus (Fab.), Sitophilus oryzae (L.), and Tribollium castaneum (Herbst). The potency of fumigant toxicity of A. sieberi on C. maculatus was higher (LC₅₀: 1.64 μL per L) than S. oryzae (LC₅₀: 4.41 μL per L) and T. castaneum (LC50: 20.31 μ.L per L). The relationships between the time exposure and oil concentration on mortality show that the mortality was increased as oil concentration and exposure time was increased. The concentration of 185 μL per L and exposure time of 24h was enough to obtain 100% kill of the insects. It was also found that the regions where A. sieberi grows affect essential oil components of the plant and can play an important role in properties of fumigant toxicity.     

Contact toxicity of Azadirachta indica (Adr. Juss.), Eucalyptus camaldulensis (Dehn.) and Laurus nobilis (L.) essential oils on mortality cotton aphids,Aphis gossypii Glover (Hem.: Aphididae)

Essential oils from three species of plants comprising three plant families were obtained by Clevenger-type water distillation. The major compounds in these essential oils were identified with GC-MS and their insecticidal activity against adult cotton aphid, Aphis gossypii Glover tested with dosage-mortality bioassays. We examined mortality only for viviparous adults because sizeable aphid populations on cucumber (Cucurbitaceae) hosts are largely produced by these wingless, parthenogenic females. Three of the oils were directly applied to aphid females in randomised blocks at 25?±?2?°C and 60?±?5% R.H. and under a L16:D8 photoperiod. Essential oils were mixed with a non-toxic emulsifying agent, Tween 80. Results show adverse contact effects of essential oils studied in the control of cotton aphid. Probit analysis and LC₅₀ at concentrations at different exposures showed aphids were incapacitated and killed by aliphatic aldehydes, phenols and monocyclic terpenes contained in Azadirachta indica, Eucalyptus camaldulensis and Laurus nobilis. LC₅₀ on cotton aphid, for azadirachtin eucalyptus and laurel essential oils were respectively 5389, 9515 and 13730?ppm. In the current study, efficacy in respect to the contact toxicity (LC₅₀) followed the order: A. indica?>?E. camaldulensis?>?L. nobilis after 24?h treatment. Our results show quantitative and qualitative differences in the chemical composition and insecticidal activities of our essential oils. All oils became insect toxic as concentration increased. According to the results, essential oils of all the three plants have the potential to be employed in the pest management programmes that can be used in protection of greenhouse conditions against cotton aphid.     

Toxicity of Carum copticum essential oil‐loaded nanogel against Sitophilus granarius and Tribolium confusum

Myristic acid–chitosan (MA‐chitosan) nanogels were synthesized with the technique of self‐assembly and loaded with Carum copticum (L.) essential oil. Scanning electron microscopy (SEM) study indicated nanogels with smooth surfaces and near spherical appearance, and according to transmission electron microscopy (TEM) image, core–shell stricter of nanogels was reported. Subsequently, fumigant toxicity of C. copticum oil and oil‐loaded nanogels was assessed against Sitophilus granarius (L.) and Tribolium confusum Jacquelin du Val. Adults were exposed to different concentrations of the oil and oil‐loaded nanogels at 27 ± 1°C and 55 ± 5% r.h. in continuous darkness. The mortality was counted after 3, 6, 10, 24 and 48 h of exposure. Mortality increased with increasing concentration levels. Fumigant toxicity of oil‐loaded nanogels was significantly more than the oil even after 48 h. According to the findings, oil‐loaded nanogels were 8.9‐ and 3.7‐fold more toxic than the oil against S. granarius and T. confusum, respectively. The persistence of oil and oil‐loaded nanogels was also investigated over period of time. Oil‐loaded nanogels lost the insecticidal effectiveness after 21 days post‐application for S. granarius and 33 days in the case of T. confusum, while the efficacy of oil decreased in the early days of application. Chemical composition of C. copticum essential oil was measured, and six components were identified. Thymol, ρ‐cymene and γ‐terpinolene were the major components of the oil. The essential oil‐loaded nanogels may have potential to be used as an alternative to synthetic insecticides for stored products protection. However, more research is necessary to improve the findings.     

Fumigant toxicity of Laurus nobilis and Myrtus communis essential oils on larvae and adults of the Red flour beetle,Tribolium castaneum Herbst (Col.: Tenebrionidae)

Considering the invasion to food commodities by insects and harmful effect of chemical pesticides, essential oils are among the best known substances tested against stored product pests. These compounds may act as fumigants, contact insecticides, repellents or anti-feedants. In present study, fumigant toxicity of essential oils from Laurus nobilis L. and Myrtus communis L. was assessed on larvae and adults of Tribolium castaneum Herbst at 27?±?2?°C, 60?±?5% RH in darkness. Each essential oil was tested in five concentrations with three replicates. The LC₅₀ values of L. nobilis and M. communis against adults of beetle were calculated 243.78 and 56.11?μl/l and LC₉₅ values for them were 685.85 and 144.01?μl/l, respectively. For the larvae of T. castaneum, the LC₅₀ values for L. nobilis and M. communis were 211.64 and 69.63 and LC₉₅ values were 656.84 and 183.65?μl/l, respectively. Results showed that these essential oils may have potential as botanical control agents against larvae and adults of T. castaneum.     

Chemical Constituents and Insecticidal Activities of Ajania fruticulosa Essential Oil

The insecticidal activity and chemical constituents of the essential oil from Ajania fruticulosa were investigated. Twelve constituents representing 91.0% of the essential oil were identified, and the main constituents were 1,8‐cineole ( 41.40% ), (+)‐camphor ( 32.10% ), and myrtenol (8.15%). The essential oil exhibited contact toxicity against Tribolium castaneum and Liposcelis bostrychophila adults with LD₅₀ values of 105.67 μg/adult and 89.85 μg/cm², respectively. The essential oil also showed fumigant toxicity against two species of insect with LC₅₀ values of 11.52 and 0.65 mg/l, respectively. 1,8‐Cineole exhibited excellent fumigant toxicity (LC₅₀ = 5.47 mg/l) against T. castaneum. (+)‐Camphor showed obvious fumigant toxicity (LC₅₀ = 0.43 mg/l) against L. bostrychophila. Myrtenol showed contact toxicity (LD₅₀ = 29.40 μg/cm²) and fumigant toxicity (LC₅₀ = 0.50 mg/l) against L. bostrychophila. 1,8‐Cineole and (+)‐camphor showed strong insecticidal activity to some important insects, and they are main constituents of A. fruticulosa essential oil. The two compounds may be related to insecticidal activity of A. fruticulosa essential oil against T. castaneum and L. bostrychophila.     

Fumigant Toxicity of Plant Essential Oils to Plutella xylostella (Lepidoptera: Yponomeutidae) and Cotesia glomerata (Hymenoptera: Braconidae)

The fumigant toxicity of 66 plant essential oils to Plutella xylostella (L.) larvae and Cotesia glomerata (L.) adults was examined using a vapor-phase toxicity bioassay and compared with that of dichlorvos. Responses varied according to oil and insect species used. Based on 24 h LD₅₀ values, pennyroyal oil [10.77 mg/filter paper (4.25 cm diameter)] was the most toxic fumigant, followed by rosemary and sage (Dalmatin) oils (15.15 mg/paper). Potent fumigant toxicity was also produced from armoise, buchu leaf, cedarleaf, coriander, eucalyptus, howood, lavender, myrtle, niaouli, peppermint, and rosewood oils (LD₅₀, 21.29–27.31 mg/paper). All essential oils were less effective than dichlorvos (LD₅₀, 0.52 mg/paper). Against adult C. glomerata, dichlorvos (LD₅₀, 0.03 mg/paper) was the most toxic fumigant, whereas the LD₅₀ values of the 14 essential oils ranged from 1.59 to 8.51 mg/paper. Based on selective toxicity ratio (STR, P. xylostella LD₅₀/C. glomerata LD₅₀), the 14 essential oils (STR, 2.5–14.5) are more selective than dichlorvos (STR, 17.3). The essential oils tested merit further study as potential fumigants for the control of P. xylostella in greenhouses because of their selective toxicity to adult C. glomerata and their much greater activity as a fumigant.     

Sublethal effects of essential oil of Cinnamomum zeylanicum Blume on life expectancy (ex) and age-specific fertility (mx) of two-spotted spider mite,Tetranychus urticae Koch (Acari: Tetranychidae)

Two-spotted spider mite, Tetranychus urticae Koch, is one of the most important pests of agricultural products that have a global distribution. Now, the control is dependent on the use of chemical pesticides. The effects of the sublethal concentrations (LC₁₀ and LC₂₅) of the essential oil of Cinnamomum zeylanicum were evaluated on some parameters of the life table of the pest, at the constant temperature of 30?°C, relative humidity of 40?±?5% and photoperiod of 16L: 8D. Our results showed that the essential oil of cinnamon is effective on female adult stage. Lethal concentration at which 50% mortality (LC₅₀) for the essential oils is from C. zeylanicum on female adult mite was 23.39?μl/L air. Sublethal concentrations of the essential oil of C. zeylanicum also impair the natural biology of the mite. Concentrations of sublethal of essential oil decreased age-specific fertility (m_x) of T. urticae compared with the control. Sublethal concentrations (LC₁₀ and LC₂₅) have reduced the life expectancy (e_x) in egg stage. Sublethal effects of the essential oil of C. zeylanicum and its impact on T. urticae management are discussed.     

Insecticidal activity of polycaprolactone nanocapsules loaded with Rosmarinus officinalis essential oil in Tribolium castaneum (Herbst)

In this study, the opportunity to enhance the insecticidal activity of Rosmarinus officinalis essential oil was studied for effective management of the red flour beetle, Tribolium castaneum , as a stored product pest beetle. Nanoprecipitation method was used to prepare rosemary oil‐loaded nanocapsules. Bioassays were conducted at 27–30°C temperature and 70–75 % relative humidity in the dark. Fumigant toxicity of the non‐formulated oil and nanocapsules of R. officinalis were investigated at 13.20, 15.92, 19.12, 23.04, and 27.76 μL/L air after 24 and 72 h exposure and the contact toxicity of the non‐formulated oil and nanocapsules were investigated at 4.28, 3.55, 2.95, 2.45 and 2.36 μL/cm² after 24 h exposure. The major constituents of the essential oil of rosemary were α‐Pinene, 1,8‐cineol, camphor, and cis‐verbenone. Nanocapsules presented an average size (145 ± 15 nm) (± standard error [SE]) with a polydispersity index below 0.3, a negative zeta potential (?11.0 ± 0.5 mV), and a high encapsulation efficiency (78.20 ± 0.93 %). Scanning electron microscope photomicrograph of rosemary oil‐loaded nanocapsules showed the presence of spherical nanocapsules with regular and homogeneous surfaces. In fumigant and contact toxicity, there were significant differences between non‐formulated and rosemary oil‐loaded nanocapsules in all the concentrations and times. The results suggested that nanoencapsulated essential oils from R. officinalis can be used for effective control in T. castaneum . When this technique is used, it can produce pesticides that have controlled‐release properties and reduce the concentration of the applied doses and number of applications.     

Phototactic behavior of Trialeurodes vaporariorum Westwood (Hemiptera: Aleyrodidae) under visible wavelengths

The greenhouse whitefly, Trialeurodes vaporariorum Westwood (Hemiptera: Aleyrodidae), is one of the most important pests of greenhouse crops. The intensive use of chemical insecticides has resulted in insecticide resistance in T. vaporariorum and the critical level of pesticides residue in crops. It is therefore necessary to develop new control methods based on ecological pest management. The present study was designed to control greenhouse whitefly by finding and using insect repellent wavelengths. The repellent wavelength experiment was conducted by a two-way phototactic apparatus given a choice between darkness and visible wavelength spectrum from violet (380–450 nm) to red (620–750 nm). The phototactic responses of the greenhouse whitefly were then investigated in a four-way phototactic apparatus given a choice between two light regimes, light-emitting diode (LED) and sunlight. The results indicated that the lowest (69.2%) and highest (97.8%) number of whiteflies were attracted to violet and orange (590–625 nm) spectra, respectively. In addition, the present study indicated a significant attraction of T. vaporariorum adults to sunlight compared with LED. Furthermore, the eggplants grown under growth LEDs showed a significantly higher growth rate than the plants grown under sunlight. These findings suggest that this type of LED not only has positive effects on plant growth but it also has a repellent activity on T. vaporariorum adults, leading us to develop an effective behavioral control of the greenhouse whitefly.     

Effect of diethyl maleate on the toxicity of essential oil from Citrus reticulata fruit peels to Tribolium castaneum Herbst under laboratory conditions

Certain compounds of plants, essential oils, with insecticidal properties have been considered as alternatives to chemical pesticides for pest control in recent years. In this study, the synergistic effect of diethyl maleate (DEM) on the toxicity of Citrus reticulata Blanco (Rutaceae) peel essential oil against a stored-product insect pest, i.e. red flour beetle, Tribolium castaneum Herbst (Tenebrionidae) adults was studied. DEM [one part], combined with acetone [two parts], was applied on T. castaneum adults. Five concentrations of essential oil from C. reticulata were tested. Three replicates and 30 adult insects/replicate/each concentration were used. LC₅₀ values after 24 and 48?h of exposure were 33.8 and 28.2?μl/l air, respectively. Combination of the essential oil from C. reticulata with the synergist DEM after 24 and 48?h of exposure decreased the corresponding LC₅₀ values to 18.1 and 12.2?μl/l air, respectively. These results revealed that DEM can considerably improve the potency of essential oil from C. reticulata and maybe applied successfully in the stored-product pest control programmes.     

Virulence of some native Bacillus thuringiensis isolates against Ephestia kuehniella (Zeller) (Lep., Pyralidae) and Pieris brassicae (Lep., Pieridae) larvae isolated from stored products of Urmia city

Bacillus thuringiensis isolates were recovered from numerous sources including soil, grain dust, plant leaves, diseased insect larvae from insectariums and sericulture environments. B. thuringiensis strains were isolated using acetate selection method with 0.025?M. concentration. The morphology of crystals was studied using light microscopy. Bioassay tests were conducted on Ephestia kuehniella (Zeller) (L.) as well as Pieris brassicae (L.). Based on the results, 35 B. thuringiensis strains were isolated from 140 samples. Majority of strains (%31.42) had bipyramidal crystals. There was a significant difference in toxicity to insects among B. thuringiensis isolates; 28.57 and 14.28% of the isolates were toxic to the larvae of P. brassicae and E. kuehniella, respectively, causing more than 50% mortality. Results indicated that B. thuringiensis isolates with insecticidal activity could be used in integrated pest management to control farm and stored product pests.     

Chromosome‐level genome assembly of the greenhouse whitefly (Trialeurodes vaporariorum Westwood)

The greenhouse whitefly, Trialeurodes vaporariorum Westwood, is an agricultural pest of global importance. Here we report a 787‐Mb high‐quality draft genome sequence of T. vaporariorum assembled from PacBio long reads and Hi‐C chromatin interaction maps, which has scaffold and contig N50 lengths of 70 Mb and 500 kb, respectively, and contains 18,275 protein‐coding genes. About 98.8% of the assembled contigs were placed onto the 11 T. vaporariorum chromosomes. Comparative genomic analysis reveals significantly expanded gene families such as aspartyl proteases in T. vaporariorum compared to Bemisia tabaci Mediterranean (MED) and Middle East‐Asia Minor 1 (MEAM1). Furthermore, the cytochrome CYP6 subfamily shows significant expansion in T. vaporariorum and several genes in this subfamily display developmental stage‐specific expression patterns. The high‐quality T. vaporariorum genome provides a valuable resource for research in a broad range of areas such as fundamental molecular ecology, insect–plant/insect–microorganism or virus interactions and pest resistance management.     

Insecticidal activity of mixtures of Bacillus thuringiensis crystals with plant oils of Sinapis alba and Azadirachta indica

The main purpose of this study was to determine the insecticidal activity of mixtures of Bacillus thuringiensis crystalline toxins and plant substances that could contribute to create a new bioinsecticide of high efficiency. We decided to determine the toxicity of crystals of B. thuringiensis MPU B9 isolate, azadirachtin (NeemAzal), mustard oil and their mixtures against lepidopteran pests: Cydia pomonella, Spodoptera exigua and Dendrolimus pini. The interaction of the components in mixtures against insects was evaluated and their utility in plant protection was assessed. The crystals and plant substances showed synergistic effect against all insect species. The occurrence of synergism between two components depended on the ratio of their concentration in mixtures. Slight amount of one of the components added to the mixture led to enhanced toxicity of the preparation. The supplementation of mustard oil with B. thuringiensis toxins from up to 0.3% of the mixture resulted in more than twofold higher observed mortality of L1 larvae of D. pini in comparison with expected mortality. The beneficial insecticidal effect of the mustard oil and crystals mixture was also noted when crystals comprised up to 1.3% and from 7 to 20% against L1 caterpillars of C. pomonella and L3 larvae of S. exigua, respectively. The insecticidal efficient effect was achieved when mixture of B. thuringiensis crystals and azadirachtin was used against the three species of lepidopteran pests. The combinations in which components interacted synergistically against caterpillars are potentially useful for making a new bioinsecticide for controlling lepidopteran pests in plant protection.     

Efficacy of some medicinal plant extracts and essential oils against Colorado potato beetle,Leptinotarsa decemlineata Say (Coleoptera: Chrysomelidae)

The Colorado potato beetle (CPB), Leptinotarsa decemlineata Say is one of the most important defoliator pests of potato in the world and it often causes extremely large potato yield losses. Potatoes are the preferred hosts for the pest, but it may feed and reproduce on a number of other plants in the Solanaceae family. Public concern related to pesticides and their residues in and on the foods had prompted a rise of consumer interest in organically produced foods. There have been growing efforts to detect and introduce suitable plant compounds that they have insecticidal properties. However, discovering of plant extracts for possible use in control of this pest requires more studying about plant extracts and compounds. Since resistance of CPB to common chemical insecticides is well documented and potato is one of the most prominent nutritious food products for many people in many countries, we examined the effect of essential oils (EOs) of European pennyroyal, lavander, mint, oregano and savory and methanolic extracts of fumitory, licorice and oregano on the pest. These plants were selected because they have medicinal properties and they are safe to human and environment. Adult CPBs were exposed to mentioned plant extracts and essential oils. LC₅₀ values for EOs of lavander and European pennyroyal were 4154 and 3561 ppm, respectively. The results demonstrated that essential oil of European pennyroyal (Mentha longifolia) would be suitable compound to control the pest, but essential oil of mint (Mentha spicata) was not effective against the pest. Also it is notable that at all treatments, the amount of adult feeding was very low.     

Plodia interpunctella (Lepidoptera: Pyralidae): Intoxication with essential oils isolated from Lippia turbinata (Griseb.) and analysis of neuropeptides and neuropeptide receptors,putative targets for pest control

The Indian meal moth Plodia interpunctella is a pest of stored products worldwide. Plant-derived essential oils with insecticidal activity could be safe products to control this species. The scarce information about the mode of action of most plant-derived products limits their use for the control of insect pests. Here, we demonstrate that an essential oil distilled from Lippia turbinata (“poleo”) has insecticidal activity on P. interpunctella larvae. Furthermore, we performed a comprehensive characterization of P. interpunctella neuroendocrine system, in comparison with other lepidopteran species.