Evaluation of some selective insecticides and their combinations with summer oil for the control of the pear psyllaCacopsylla pyri

A field trial was carried out to evaluate the efficacy of several selective insecticides for the control of pear psyllaCacopsylla pyri (L.) (Hemiptera: Psyllidae) in two successive years. Three insect growth regulators (IGRs) — diflubenzuron, pyriproxyfen and teflubenzuron, and an amin-hydrazine derivative — amitraz, were evaluated singly and in combination with summer oil (1%). All insecticides were applied at recommended label rates in both years. When compared with the untreated control, all insecticides alone and their combinations with summer oil, except for pyriproxyfen alone, provided control of young (1st and 2nd instars) nymphs. However, combined applications of these insecticides and summer oil were more effective than either insecticide alone for controlling the egg and young nymph stages of the pest. The products were less effective against older (3rd–5th instars) nymphs, even in combination with summer oil, and failed to suppress the population of older nymphs. Adding oil to sprays also delayed oviposition by winterform and summerform females. With the exception of oil with amitraz, combinations of insecticides with summer oil did not cause any phytotoxicity during the study.     

Antibiosis of Eucalyptus plants on Podisus nigrispinus

The predator Podisus nigrispinus (Dallas) (Heteroptera: Pentatomidae) has been used as a natural enemy to control herbivorous insects in eucalyptus plantations. However, because of the short co-evolutionary history of the predator with this imported plant species, the defensive compounds of eucalyptus may have a negative effect on the predator. Therefore, the survival and development of P. nigrispinus were studied on eucalyptus (Eucalyptus urophylla; exotic host plant) and guava (Psidium guajava; native host plant). P. nigrispinus performance was indeed superior on guava plants than on eucalyptus. The number of fertile eggs and nymphal survival were 52.6% and 12.0% on guava compared with 20.0% and 1.3% on eucalyptus, respectively. Longevity of P. nigrispinus was 115 days on guava and 98 days on eucalyptus. This shows that the predator is not yet fully adapted to the exotic host plant. One possible reason is that the plant toxic compounds in eucalyptus act on this predator by antibiosis.     

Bioactivity of formulas containing essential oils from the family Myrtaceae for the management of deltamethrin-resistant Plutella xylostella (L.) (Lepidoptera: Plutellidae)

Plutella xylostella is the major pest of Brassica and is resistant to more than 95 synthetic insecticides, including deltamethrin, which is frequently used in family farming activities in the state of Pernambuco, Brazil. A possible strategy for overcoming such resistance is the use of botanical insecticides containing essential oils. The aim of the present study was to determine the chemical composition of essential oils from Syzygium aromaticum, Melaleuca alternifolia, Melaleuca leucadendra, Eucalyptus citriodora and Eucalyptus globulus and evaluate the effects of these oils as well as selected constituents (β-pinene, α-terpinene, ρ-cymene, limonene, 1,8-cineole, γ-terpinolene, citronellal, terpinen-4-ol, eugenol, β-caryophyllene and E-nerolidol) on different stages of development of two populations of P. xylostella – one susceptible and one resistant to deltamethrin. Chemical analysis by gas chromatography-mass spectrometry revealed eugenol (S. aromaticum), 1,8-cineole (E. globulus), citronellal (E. citriodora), terpinen-4-ol (M. alternifolia) and E-nerolidol (M. leucadendra) to be the major constituents. Among the oils tested, S. aromaticum was the most promising in the different modes of action and had the same level of toxicity to the two populations of P. xylostella analyzed. Among the constituents, E-nerolidol and terpinen-4-ol exhibited promising larvicidal action, whereas limonene exhibited promising ovicidal and antifeedant action. None of the oils presented severe phytotoxicity to the host plant. All results were compared to those achieved with deltamethrin and azadirachtin, which were used as positive controls. The deltamethrin-resistant population of P. xylostella did not exhibit pre-adaptive resistance to the oil from S. aromaticum or E-nerolidol, terpinen-4-ol and limonene.

     

Neem and other Botanical insecticides: Barriers to commercialization

In spite of the wide recognition that many plants possess insecticidal properties, only a handful of pest control products directly obtained from plants,i. e., botanical insecticides, are in use in developed countries. The demonstrated efficacy of the botanical neem (based on seed kernel extracts ofAzadirachta indica), and its recent approval for use in the United States, has stimulated research and development of other botanical insecticides. However, the commercialization of new botanical insecticides can be hindered by a number of issues. The principal barriers to commercialization of new botanicals are (i) scarcity of the natural resource; (ii) standardization and quality control; and (iii) registration. These issues are no problem (i) or considerably less of a problem (ii, iii) with conventional insecticides. In this review I discuss these issues and suggest how the problems may be overcome in the future. Based on a paper presented at the symposiumBiopesticides for Crop Protection, Seoul National University Suwon, South Korea, 22 August 1996.     

Ophelimus maskelli (Ashmead) et son parasitoïde Closterocerus chamaeleon (Girault) (Hymenoptera: Eulophidae) au Maroc

Leaf galls causing severe damage were observed on Eucalyptus camaldulensis in the Gharb‐Maâmora region in 2002 due to Ophelimus maskelli (Ashmead) (Hymenoptera: Eulophidae) reported for the first time in Morocco. Since then, this pest has spread to other eucalyptus stands nationwide. During field investigations, the authors noted that the degree of infestation of Eucalyptus camaldulensis differs from one region to another and were classified on a three‐level scale: low, moderate or high. The study of the life cycle of the insect in the field and in the laboratory revealed the presence of two generations per year. This work has shown that Closterocerus chamaeleon (Hymenoptera: Eulophidae), a parasitoid used successfully in other EPPO countries as a biological control agent, is present in Morocco. The rate of parasitism was very high, which consequently resulted in the lack of damage caused by the gall pest on Eucalyptus camaldulensis in Morocco.     

Laboratory evaluation of a botanical natural product (<Emphasis Type="Italic">AkseBio2</Emphasis>) against the pear psylla<Emphasis Type="Italic">Cacopsylla pyri</Emphasis>

A botanical natural product,AkseBio2, was evaluated under laboratory conditions for its oviposition deterrent, ovicidal and larvicidal (nymphicidal) effects against the pear psyllaCacopsylla pyri (L.) (Hemiptera: Psyllidae). The product exhibited a strong oviposition deterrent effect for winterform and summerform females and caused a reduction in the total number of eggs laid in both choice and no-choice assays. Significant mortalities in freshly laid eggs (0–48 h) and various nymphal stages of the pest were recorded in toxicity assays. At a concentration of 0.1% (formulation), the highest biological activity of the product was recorded against the young (1st and 2nd) nymphal stages (up to 87.4% mortality) in comparison with the other biological stages of the pest. It was less active against the older (3rd-5th) nymphs, causing 62.1% mortality at the same concentration. In assays with non-target organisms, a significant negative effect was not observed. There were no significant changes on treated plants up to 7 days after treatment in any trial, nor was there any phytotoxicity on plant tissue as a result ofAkseBio2 treatments. The results suggest that the product can be used in psylla control instead of synthetic insecticides and may serve as an integrated pest management (IPM) component in pear orchards. http://www.phytoparasitica.org posting July 14, 2004.     

Black root rot of cucurbits caused by Phomopsis sclerotioides in Japan and phylogenetic grouping of the pathogen

Although the causal agent of black root rot of Cucurbitaceae in Japan has been proposed as Phomopsis sclerotioides, the species identification of the pathogen has remained inconclusive because of a lack of spore formation. We confirmed that a Japanese isolate of Phomopsis sp. obtained from a diseased pumpkin root produced pycnidia containing α spores in sterilized bean pods. In phylogenetic analyses of rDNA-ITS regions, nine Japanese Phomopsis sp. isolates from melon, watermelon grafted onto bottle gourd, and pumpkin diagnosed with black root rot, formed a single clade with P. sclerotioides standard isolates. We identified the causal agent of the black root rot of melon, pumpkin, bottle gourd, and watermelon in Japan as P. sclerotioides and propose the Japanese name “Phomopsis-negusare-byo” for the disease. Patterns of random amplified polymorphic DNA (RAPD) of these Japanese isolates were also similar to those of P. sclerotioides, thus supporting the species identification. However, mycelial incompatibilities were found for many combinations among these P. sclerotioides isolates, suggesting some genotypic variations of this fungus in Japan at a level that the RAPD analyses cannot discriminate. The nucleotide sequence data reported are available in the DDBJ/EMBL/GenBank databases under the accession numbers AB201430 to AB201444     

Fumigant toxicity of lemon eucalyptus oil constituents to acaricide-susceptible and acaricide-resistant Tetranychus urticae

BACKGROUND: This study was aimed at assessing the fumigant toxicity of 14 essential oil constituents from lemon eucalyptus, Eucalyptus citriodora Hook, and another ten known compounds to females of acaricide‐susceptible, chlorfenapyr‐resistant, fenpropathrin‐resistant, pyridaben‐resistant and abamectin‐resistant strains of Tetranychus urticae Koch. RESULTS: Menthol (LC₅₀, 12.9 µg cm^?3) was the most toxic compound, followed by citronellyl acetate (16.8 µg cm^?3), against the susceptible females. High toxicity was also produced by β‐citronellol, citral, geranyl acetate and eugenol (LC₅₀, 21.7–24.6 µg cm^?3). The fumigant toxicity of these compounds was almost identical against females from either of the susceptible and resistant strains, indicating that the compounds and acaricides do not share a common mode of action or elicit cross‐resistance. CONCLUSION: Global efforts to reduce the level of highly toxic synthetic acaricides in the agricultural environment justify further studies on materials derived from lemon eucalyptus oil, particularly menthol and citronellyl acetate, as potential acaricides for the control of acaricide‐resistant T. urticae as fumigants with contact action. Copyright © 2011 Society of Chemical Industry     

Biological control of aphids on capsicum1

During four growing periods from 1986 to 1989, biological pest control on capsicum was investigated in glasshouses under practical conditions. Aphids, mainly Myzus persicae, caused the most serious pest problems. As biological control agents, the commercially available predatory gall midge Aphidoletes aphidimyza and the green lacewing Chrysoperla curnea were used. Both these natural enemies were released according to the recommendations of the producers. For the releases of the gall midges, small peat samples containing the pupae of the predator were placed at a few spots in the glasshouse (1–2 pupae per m²). The lacewings were introduced as eggs on small mesh-pieces which were placed on every second plant (10–20 eggs per m²). In these experiments, control of the aphid populations was effective only if the two predators were introduced early and were released several times. During the summer, other natural enemies such as parasitic wasps, syrphids, ladybirds and predatory bugs immigrated from outdoors and enhanced the biological control of aphids.     

Combined application of chitinolytic bacterium Paenibacillus sp. D1 with low doses of chemical pesticides for better control of Helicoverpa armigera

Helicoverpa armigera is a serious pest of Cajanus cajan in many parts of world. Rapid development of resistance against number of insecticides and cry toxin-based biocontrol agents has led to search for biocontrol agents with alternative mode of action. The ability of chitinolytic bacteria to degrade vital chitinous structure in insects suggests their potential in insect control. The present investigation was carried out to study insect control potential of a high chitinase producing bacterium, Paenibacillus sp. D1. Biocontrol studies with Helicoverpa larvae showed Paenibacillus sp. D1 and its chitinase to be potent antifeedant that reduced the feeding rate and body weight of the larvae. The decreased body weight was attributed to hydrolysis of the chitinous structures of the larvae. This was evident from decrease in the total chitin content and increased mortality of the larvae fed on the leaves treated with Paenibacillus sp. D1 and chitinase as compared to untreated controls. A combined dose of Paenibacillus sp. D1 or its chitinase with an organophosphate insecticide, acephate, was found to be more lethal than their individual treatments suggesting integrated insect control potential of the bacterium.     

八种杀虫剂对黑粪蚊的防治效果及残留分析

选择8种杀虫剂,分别在实验室和菇房条件下研究其对黑粪蚊的防治效果和对平菇菌丝生长的影响,并分析施药后不同时间平菇中的农药残留.结果表明,40%辛硫磷EC、40%氧乐果EC、48%毒死蜱EC对黑粪蚊具有很好的防治效果,但对平菇菌丝的抑制率明显高于其它药剂;10%吡虫啉WP、4.5%高效氯氰菊酯EC不仅对黑粪蚊成、幼虫具有良好的防治效果,而且使用后对平菇菌丝生长的影响较小;2.5%高效氯氟氰菊酯EW、4.5%高效氯氰菊酯EC、1.8%阿维菌素EC等使用5天后均未检测到农药残留,5%氟虫腈SC和10%吡虫啉WP药后15天仍能检测到残留.     

Association between entomopathogenic nematodes and non-synthetic insecticides for improved control of Nasutitermes spp. (Isoptera: Termitidae) in sugarcane plantations

The aim of this study was to evaluate the in vitro efficacy of the combination of entomopathogenic nematodes and non-synthetic insecticides in the control of Nasutitermes spp. (Isoptera: Termitidae). Bioassays were performed upon insect collection from areas with the high incidence of this pest. The experimental arena for insecticide assays consisted of 80-mL plastic containers with a screened cover. We tested six insecticides and the nematode species Heterorhabditidis bacteriophora RS58, Steinernema glaseri RS38, and Heterorhabditis sp. isolates AL39, AL40, AL41, AL42, AL43, AL44, AL46, and AL47, all of which were grown in last-instar larvae of Galleria mellonella L. (Lepidoptera: Pyralidae). The insecticides Codipirol®, Pure Neem Oil®, and Pyroligneous Acid Extract® caused high mortality in adults of Nasutitermes. The nematode Heterorhabditis sp. AL40 presented a median lethal concentration of 7976 infectious juveniles per adult of Nasutitermes sp. In addition, the mixture of these three non-synthetic products at a concentration of 3% caused complete mortality in Heterorhabditis sp. AL40 and S. glaseri RS38. Future trials should be encouraged in order to evaluate the field efficiency of non-synthetic insecticides mixed or not with entomopathogenic nematodes.     

High‐level of resistance to spinosad,emamectin benzoate and carbosulfan in populations of Thrips tabaci collected in Israel

BACKGROUND: The onion thrips, Thrips tabaci Lindeman, is a major pest of several crop plants in the genus Allium, such as onions, garlic and chives. In Israel, these crops are grown in open fields and in protected housing. This thrips is usually controlled by the application of chemical insecticides. In recent years, spinosad, emamectin benzoate and carbosulfan have been the major insecticides used for the control of the onion thrips. In the last 4 years, growers of chives and green onion from several regions of Israel have reported a significant decrease in the efficacy of insecticides used to control the onion thrips. RESULTS: The susceptibility of 14 populations of the onion thrips, collected mainly from chives between the years 2007 and 2011, to spinosad, emamectin benzoate and carbosulfan was tested using a laboratory bioassay. The majority of the populations showed significant levels of resistance to at least one of the insecticides. LC₅₀ values calculated for two of the studied populations showed that the resistance factor for spinosad compared with the susceptible population is 21 393, for carbosulfan 54 and for emamectin benzoate 36. Only two populations, collected from organic farms, were susceptible to the insecticides tested. CONCLUSION: This is the first report of a high resistance level to spinosad, the major insecticide used to control the onion thrips. Resistance cases to spinosad were associated with failures to control the pest. Populations resistant to spinosad also had partial or complete resistance to other insecticides used for controlling the onion thrips. Copyright © 2012 Society of Chemical Industry     

Contact and fumigant toxicity of plant essential oils and efficacy of spray formulations containing the oils against B‐ and Q‐biotypes of Bemisia tabaci

BACKGROUND: The contact + fumigant toxicity of 92 plant essential oils and control efficacy of 18 experimental spray formulations containing nine selected essential oils (0.5 and 0.1% sprays) and six commercial insecticides to females from B‐ and Q‐biotypes of Bemisia tabaci were evaluated using vapour‐phase mortality and spray bioassays. RESULTS: Garlic and oregano (LC₅₀, 0.15 mL cm^?3) were the most toxic oils against B‐ and Q‐biotype females. Strong fumigant toxicity to both biotype females was also obtained from catnip, cinnamon bark, clove bud, clove leaf, davana, savory and vetiver Haiti oils (LC₅₀, 0.17–0.48 mL cm^?3). The 0.5% sprays of these oils (except for thyme red oil) resulted in 90–100% mortality against both biotype females. Only garlic applied as 0.1% spray provided 100% mortality. Spinosad 100 g L^?1 suspension concentrate (SC) treatment resulted in 92 and 95% mortality against both biotype females, whereas acetamiprid 80 g L^?1 wettable powder (WP), imidacloprid 80 g L^?1 SC, thiamethoxam 100 g L^?1 water‐dispersible granule (WDG) and pyridaben 200 g L^?1 WP treatments resulted in 89–100% mortality against B‐biotype females only. CONCLUSION: In the light of global efforts to reduce the level of highly toxic synthetic insecticides in the agricultural environment, the essential oils described, particularly garlic, cinnamon bark and vetiver Haiti, merit further study as potential insecticides for the control of B. tabaci populations as fumigants with contact action. Copyright © 2011 Society of Chemical Industry     

Natural compounds in the control of powdery mildew on Cucurbitaceae*

Powdery mildew, caused by Sphaerotheca fuliginea, is a major disease of Cucurbitaceae. The use of natural compounds as alternatives or complements to chemical fungicides would be helpful because the crops require continued prolonged harvesting, during which young unsprayed leaf tissues continuously become available for infection. Several natural compounds were tested on courgette and cucumber plants grown under glasshouse conditions and artificially inoculated with S. fuliginea. Both sodium bicarbonate (0.5%) and mineral oil (1%) proved to be effective in keeping infections under control. These compounds showed a remarkable effectiveness when used in combination. The best results were achieved when the plants were treated after infection but before the disease appeared. Other compounds tested, such as sodium silicate and azadiractin, showed some effectiveness, but satisfactory control of the disease was achieved only at doses causing phytotoxicity in the form of necrotic spots on the leaves, especially on cucumber.     

Systemically released volatiles from Solena amplexicaulis plant leaves with color cues influencing attraction of a generalist insect herbivore

Solena amplexicaulis (Lam.) Gandhi (Cucurbitaceae) is a promising vegetable in Southeast Asia. Infestation of Aulacophora foveicollis Lucas (Coleoptera: Chrysomelidae) adults on leaves of the crop plant causes death of the plant and reduces crop production. Currently, growers are applying insecticides to control this pest, which are harmful to health and environment. Hence, an attempt has been made to find out allelochemicals from leaves attracting the insect, which might be used for ecofriendly pest management program. The emission of volatiles was detected from undamaged leaves of herbivore-induced plants after 24 h and 120 h of continuous females feeding on lower leaves of the same plants by GC-MS and GC-FID analysis. The insect showed attraction to systemically released volatiles from herbivore-induced plants against unharmed plants in Y-shaped glass tube olfactometer bioassays. The insect was attracted to a synthetic blend of 1.2 µg linalool oxide + 3.2 µg nonanal + 1.5 µg trans-2-nonenal dissolved in 20 µL CH₂Cl₂ in olfactometer and wind tunnel bioassays, and hence, this blend could be used in development of baited traps in pest management strategies.     

Momordica charantia L. (Cucurbitaceae) floral volatiles causing attraction of Epilachna dodecastigma (Coleoptera: Coccinellidae)

Epilachna dodecastigma (Wied.) (Coleoptera: Coccinellidae) causes economic losses to bitter gourd, Momordica charantia L. (Cucurbitaceae) production in India and Bangladesh because adults feed on the leaves and flowers resulting death of the plant. This insect is currently controlled by insecticides, which are harmful to human health and environment. We studied the behavioral responses of E. dodecastigma females to floral volatiles and synthetic compounds comparable to floral volatiles in a Y-tube olfactometer to determine their potential for monitoring this pest. The gas chromatography-mass spectrometry (GC-MS) and gas chromatography-flame ionization detector (GC-FID) analyses of M. charantia floral volatiles revealed the presence of 20 compounds. Myrcene was predominant followed by methyl jasmonate and 1-octadecanol in floral volatiles. Epilachna dodecastigma females were attracted to floral volatiles by a Y-tube olfactometer bioassay. Females were attracted to individual synthetic 1-heptanol, sabinene, myrcene and ocimene at 16, 1, 20, and 8 µg/25 mL methylene chloride in a dose response bioassay, respectively, and hence, these compounds might be used for insect pest management strategies such as baited traps.     

Baseline susceptibility of spotted wing Drosophila (Drosophila suzukii) to four key insecticide classes

BACKGROUND

The invasive drosophilid pest, Drosophila suzukii Matsumura, is affecting berry production in most fruit‐producing regions of the world. Chemical control is the dominant management approach, creating concern for insecticide resistance in this pest. We compared the insecticide susceptibility of D. suzukii populations collected from conventional, organic or insecticide‐free blueberry sites.

RESULTS

The sensitivity of D. suzukii to malathion and spinetoram declined slightly across the 3 years of monitoring, whereas it was more consistent for methomyl and zeta‐cypermethrin. The sensitivity of D. suzukii to all four insecticides (LC₅₀ and LC₉₀ values) did not differ significantly among the blueberry fields using different management practices.

CONCLUSIONS

The baseline sensitivity of D. suzukii has been characterized, allowing future comparisons if field failures of chemical control are reported. The concentration achieving high control indicates that effective levels of control can still be achieved with field rates of these four insecticides. However, declining susceptibility of some populations of D. suzukii to some key insecticides highlights the need for resistance monitoring. © 2017 Society of Chemical Industry     

Emerging multi-pathogen disease caused by <Emphasis Type="Italic">Didymella bryoniae</Emphasis> and pathogenic bacteria on Styrian oil pumpkin

The Styrian oil pumpkin, Cucurbita pepo L. subsp. pepo var. styriaca Greb. is a crop of cultural, commercial, and medical importance. In the last decade, yield losses of pumpkins increased dramatically. The ascomycetous fungus Didymella bryoniae (Fuckel) Rehm was identified as main causal agent provoking gummy stem blight as well as black rot of pumpkins. We observed a remarkable phenotypic diversity of the fungal pathogen, which contrasted with a high genotypic similarity. Evidence of pathogenictiy of D. bryoniae on Styrian oil pumpkin was demonstrated in a newly developed greenhouse assay. Isolates representing the five observed phenotypic groups fulfilled the Koch’s postulates. In the field, the fungal disease was often associated with bacterial colonization by Pectobacterium carotovorum, Pseudomonas viridiflava, Pseudomonas syringae and Xanthomonas cucurbitae. The pathogenic behaviour of bacterial isolates on pumpkin was confirmed in the greenhouse assay. The high co-incidence of fungal and bacterial disease suggests mutualistic effects in pathogenesis. With a new assay, we found that bacteria can use the mycelium of D. bryoniae for translocation. We argue that the rapid rise of the multi-pathogen disease of pumpkins results from combined action of versatile pathogenic bacteria and the rapid translocation on a structurally versatile mycelium of the fungal pathogen.     

Laboratory and field comparisons of insecticides to reduce infestation of Drosophila suzukii in berry crops

BACKGROUND: The spotted wing Drosophila, Drosophila suzukii (Matsumura, 1931) (Diptera: Drosophilidae), is an invasive pest of small‐fruit crops. Unlike most other Drosophila, this insect is able to oviposit into and damage ripe and ripening fruit, making it unmarketable. Because this is a new pest in the United States, it is necessary to identify registered insecticides to manage this insect effectively in conventional and organic production systems. RESULTS: The present laboratory bioassays and field trials identified a number of insecticides representing various modes of action that are effective in controlling D. suzukii. Products that performed well in the laboratory bioassay also performed well in the field, indicating that screening of new chemistries in the laboratory is a worthy exercise. Field application of pyrethoids, organophosphates or spinosyns provided 5–14 days of residual control of D. suzukii. The efficacy of the neonicotinoids as adulticides was not satisfactory compared with the other contact‐mode‐of‐action chemistries. Based on the zero tolerance by the small‐fruit industry and the individual effects mentioned above, neonicotinoids are not currently recommended for D. suzukii management. CONCLUSIONS: There are effective insecticides registered for controlling D. suzukii infestations in susceptible small‐fruit crops. Copyright © 2011 Society of Chemical Industry