Your search keyword '"Codling moth"' showing total 3,977 results

1. Future semiochemical control of codling moth, Cydia pomonella.

Author

Whitfield, E. Charles and Fountain, Michelle T.

Subjects

CODLING moth, INTEGRATED pest control, PEST control, BIOLOGICAL insecticides, CONFIGURATION management, INSECTICIDES

Abstract

Codling moth (CM), Cydia pomonella, is a significant pest of apple (Malus domestica) and other orchard crops worldwide, posing challenges due to the decrease in registered insecticides, rising resistance, and a changing climate. The pest exhibits a strong resistance capacity to both synthetic and natural insecticides, while shifting seasonal temperatures disrupt the reliability of phenology-temperature models for predicting targeted control strategies. Alternative control strategies are necessary to future-proof control of this pest. Current control methods primarily rely on chemical insecticide sprays or granulosis virus applications during egg hatching. This review focuses explicitly on semiochemical-based manipulation of CM adults and larvae for control in orchards. Topics covered include the role of semiochemicals in integrated pest management, area-wide control, mating disruption, female attractants, larval kairomones, and incorporation into monitoring and control strategies. The potential of CM repellents in a push-pull strategy is also discussed. Primary sources for identifying relevant literature included GoogleScholar and ResearchGate, with a focus on papers published since 2013 but also include relevant papers from 2003. Nine review papers and 119 papers were reviewed. The review emphasizes that effective control necessitates an area-wide approach targeting all life stages (eggs, larvae, pupae, and adults). Comprehensive monitoring is crucial for identifying CM "hot-spots" and enhancing targeted interventions. Growers must consider landscape context when designing control programs. Lastly, recommendations are provided for future research and CM management strategies. There are opportunities to explore and exploit female kairomone attractants and repellents in control strategies and modify monitoring traps to be more attractive and autonomous. [ABSTRACT FROM AUTHOR]

Published

2024

2. Loss-of-function in testis-specific serine/threonine protein kinase triggers male infertility in an invasive moth.

Author

Wei, Zihan, Wang, Yaqi, Zheng, Kangwu, Wang, Zhiping, Liu, Ronghua, Wang, Pengcheng, Li, Yuting, Gao, Ping, Akbari, Omar S., and Yang, Xueqing

Subjects

*COMPETITIVE endogenous RNA, *CODLING moth, *SMALL interfering RNA, *RNA interference, *GENETIC techniques

Abstract

Genetic biocontrol technologies present promising and eco-friendly strategies for the management of pest and insect-transmitted diseases. Although considerable advancements achieve in gene drive applications targeting mosquitoes, endeavors to combat agricultural pests have been somewhat restricted. Here, we identify that the testis-specific serine/threonine kinases (TSSKs) family is uniquely expressed in the testes of Cydia pomonella, a prominent global invasive species. We further generated male moths with disrupted the expression of TSSKs and those with TSSKs disrupted using RNA interference and CRISPR/Cas9 genetic editing techniques, resulting in significant disruptions in spermiogenesis, decreased sperm motility, and hindered development of eggs. Further explorations into the underlying post-transcriptional regulatory mechanisms reveales the involvement of lnc117962 as a competing endogenous RNA (ceRNA) for miR-3960, thereby regulating TSSKs. Notably, orchard trials demonstrates that the release of male strains can effectively suppress population growth. Our findings indicate that targeting TSSKs could serve as a feasible avenue for managing C. pomonella populations, offering significant insights and potential strategies for controlling invasive pests through genetic sterile insect technique (gSIT) technology. Functional analysis reveals that targeting testisspecific serine/threonine protein kinase (TSSKs) is a feasible avenue for controlling invasive pest Cydia pomonella through genetic sterile insect technique (gSIT) technology. [ABSTRACT FROM AUTHOR]

Published

2024

3. Biocontrol Potential of the New Codling Moth Granulovirus (CpGV) Strains.

Author

Tsygichko, Aleksandra A., Asaturova, Anzhela M., Lakhova, Tatiana N., Klimenko, Alexandra I., Lashin, Sergey A., and Vasiliev, Gennady V.

Subjects

GENOMICS, VIRUS identification, INSECT hosts, BIOLOGICAL insecticides, CHITINASE, CODLING moth

Abstract

The use of CpGV strains as the basis for bioinsecticides is an effective and safe way to control Cydia pomonella. The research is aimed at the identification and study of new CpGV strains. Objects of identification and bioinformatic analysis: 18 CpGV strains. Sequencing was carried out on a NextSeq550. Genome assembly and annotation were carried out using Spades, Samtools 1.9, MinYS, Pilon, Gfinisher, Quast, and Prokka. Comparative genomic analysis was carried out in relation to the reference genome present in the «Madex Tween» strain-producer (biological standard) according to the average nucleotide identity (ANI) criterion. The presence/absence of IAP, cathepsin, MMP, and chitinase in the genetic sequences of the strains was determined using simply phylogeny. Entomopathogenic activity was assessed against C. pomonella according to the criterion of biological efficacy. Thus, molecular genetic identification revealed that 18 CpGV strains belong to a genus of Betabaculovirus. For all the strains under study ANI values of 99% or more were obtained, and the presence of the cathepsin, chitinase, IAP, and MMP genes was noted. The strains BZR GV 1, BZR GV 3, BZR GV 7, BZR GV 10, and BZR GV L-8 showed the maximum biological efficacy: 100% on the 15th day of observation. Strains BZR GV 4, BZR GV 8, and BZR GV 13 showed efficacy at the level of the «Madex Tween» preparation: 89.5% on the 15th day of observation. The strains with the highest mortality rate of the host insect were identified: BZR GV 9, BZR GV 10, BZR GV L-6, and BZR GV L-8. [ABSTRACT FROM AUTHOR]

Published

2024

4. Tracing the origin of the alien pest Cydia pomonella in Algeria through a worldwide comparison of the species’ DNA barcodes.

Author

Mahi, Tayeb, Harizia, Abdelkader, Canelo, Tara, Benguerai, Abdelkader, and Bonal, Raul

Subjects

*CODLING moth, *BIOLOGICAL evolution, *MITOCHONDRIAL DNA, *GENETIC barcoding, *MOLECULAR diagnosis

Abstract

DNA barcodes (i.e., gene sequences used as identifiers for species identification) constitute a very useful tool in invasive pest research. Using them, we studied, for the first time, the origin and population structure of the alien Cydia pomonella in Africa, a major apple pest. We sequenced a fragment of the mitochondrial gene Cytochrome c oxidase subunit I (COI) from C. pomonella caterpillars collected in northern Algeria and compared them with DNA barcodes from the rest of the world available at public repositories. The phylogeny built upon that COI database supports the European origin of the species: haplotypes at the base of the phylogeny were registered in this continent. In Algeria, the results suggest that this pest could have been introduced from Europe, with two unique African mutations probably favoured by C. pomonella multivoltinism and large population sizes. Population genetic analyses at three Algerian localities showed neither structure nor founder effects. However, to confirm the underlying process of the observed population patterns, it is necessary to perform analyses using genes with higher mutation rates. Compared to higher resolution markers, mitochondrial DNA barcodes are still a cost‐effective tool for taxonomic determination of unknown specimens and, sometimes, may also allow a preliminary tracing of its origin. This is crucial to detect and stop the spread of invasive pests (i.e., borders). We encourage further studies including functional genes to assess whether any mutations are promoting C. pomonella adaptation to the Northern Africa environment. [ABSTRACT FROM AUTHOR]

Published

2024

5. 苹果蠹蛾在和田地区 2个 核桃品种上的种群动态.

Author

曹小艳, 叶晓琴, 曹海霞, and 阿地力·沙塔尔

Subjects

*INSECT population density, *CODLING moth, *VERNIERS, *PHENOLOGY, *INSECT pest control, *FRUIT ripening, *SPAWNING, *PLANT phenology

Abstract

[Objectives] The paper aimed to clarify the relationship between walnut phenology and codling moth occurrence in Hotan area, and to provide a theoretical basis for precise control. [Methods] Phenological observation was carried out regularly in the field from the flowering stage to the ripening stage of the walnut fruit. The three diameters of the fruit were measured with vernier calipers, and the occurrence of various codling moth states was investigated by random sampling method. The relationship between the phenology of walnut and the occurrence of each state of codling moth was also discussed. [Results] The survey on the growth and decline dynamics of codling moth adults found that in late April, when the phenology of ‘Xinfeng' walnut was the fruit expansion period, and the‘Zha343'walnut phenology was the fruit set period, the overwintering adults reached the peak of eclosion. The prevention and control of adult insects could effectively reduce the population density of insects. In late July, when the phenology of ‘Xinfeng' walnut was the husk turnover period, and the phenology of ‘Zha343'walnut was the hardcore period, the first generation adults reached the peak of eclosion, and the control of the first generation adults at this stage could be effectively reduce insect population density. The survey on spawning found that from late April to early May, the overwintering adults began to lay eggs, and the walnut phenology was the fruit expansion period(20-30 d after flowering), which was the best period for the control of the first generation eggs. From early May to late May, the oviposition peak of overwintering adults, walnut phenology was the fruit expansion period (30-40 d after flowering), and this was the best period for the control of the first generation of newly hatched larvae. In the first August, the eggs of the first generation adults reached the peak. The phenology of ‘Xinfeng'walnut was the husk cracking period, and the phenology of ‘Zha343'walnut was the husk turnover period. This was the best time for the control of the second generation of newly hatched larvae. The investigation of borers found that from early May to early June, the first generation of larvae began to cause damage and reached the peak of damage, and the walnut phenology was the fruit expansion period (40-60 d after flowering). This was the best time to control the first generation of mature larvae. In the first August, the second generation of larvae reached the peak, the phenology of ‘Xinfeng' walnut was the husk cracking period, and the phenology of ‘Zha343'walnut was the husk turnover period. This was the best control period for the second generation of mature larvae. [Conclusions] Combined with the walnut phenology, the occurrence dynamics of each stage of codling moth was clarified, which laid the foundation for the precise control of each stage of codling moth, and then reduced the damage of codling moth to walnut fruit. [ABSTRACT FROM AUTHOR]

Published

2024

6. Sexual selection in Thaumatotibia leucotreta (Meyrick) is shaped by contrasting geographic adaptations, but does it matter for area‐wide sex pheromone control tools?

Author

Aigbedion‐Atalor, Pascal, Upfold, Jennifer, Coombes, Candice, Moore, Sean, and Hill, Martin

Subjects

*SEXUAL attraction, *CODLING moth, *INTEGRATED pest control, *SEXUAL selection, *PHEROMONES

Abstract

Thaumatotibia leucotreta (Meyrick) (Lepidoptera: Tortricidae) is a quarantine pest for certain export markets due to its phytosanitary status in affected crops in sub‐Saharan Africa, including citrus. Consequently, there is a zero‐tolerance policy for T. leucotreta in export markets. In South Africa, an integrated pest management strategy, incorporating a systems approach is used to achieve complete control of T. leucotreta. Preharvest management is multi‐faceted, including reliance on sex pheromone tools such as monitoring, attract‐and‐kill, mating disruptions, and sterile insect technique (SIT). Geographically isolated populations of T. leucotreta occur in South Africa, and there is speculation concerning the possible loss of sexual communication between these isolated populations, thereby compromising the efficiency of sex pheromone tools. To investigate this possibility, we collected samples from five geographically isolated populations of T. leucotreta and a population used for SIT in South Africa. These were subjected to sexual attraction trials under choice and no‐choice scenarios in a semi‐natural environment. Results of the choice tests revealed that males of each population preferred their corresponding population females, except irradiated males. However, when we deprived males of their preferred females, these preferences dissipated, and they were equally attracted to females from all populations. These results indicate that local adaptation and other selection forces in contrasting environments are important in sexual communication and selection in T. leucotreta but do not necessarily prevent recognition of sexual signals and attraction between geographically isolated populations. These findings are crucial for area‐wide IPM and precision control of T. leucotreta. [ABSTRACT FROM AUTHOR]

Published

2024

7. Productive manifestations and sensitivity to codling moth (Cydia (Laspeyresia) pomonella (L.) of apple cultivars and hybrids

Author

V. Petrova, S. Dimitrova, and D. Sotirov

Subjects

fruit size, malus × domestica, fruit weight, codling moth, yield, Agriculture

Abstract

Abstract. The present study was conducted during the period 2019 - 2021 at the Institute of Agriculture, Kyustendil. The productivity, fruit quality, and sensitivity to codling moth of 10 apple cultivars and 9 hybrids were evaluated. Standard technology was implemented to grow the fruit-bearing trees, which were grafted on MM 106 rootstock and planted at a distance 4.5×2.5 m. The highest average yields were obtained from the cultivar Rosana (30.4 kg/tree) and hybrid 9 (28.3 kg/tree). Fruit weight ranged from 83 g (hybrid 2/4) to 248 g (Charden). Goldrush had the highest fruit flesh firmness – 10.0 kg/cm2 and hybrid 1/7 the lowest – 6.7 kg/cm2. No differences in the sensitivity to codling moth were observed among cultivars and hybrids. The percentage of damage ranged from 3.7% (hybrid 1/3) to 5% (Rosana) in 2020 and from 43.6% (hybrid 2/4) to 55.7% (Golden Resistan) in 2021

Published

2024

8. An empirical model for predicting insects' diapause termination and phenology: An application to Cydia pomonella.

Author

Sperandio, Giorgio, Pasquali, Sara, Pradolesi, Gianfranco, Baiocco, Serena, Cavina, Federico, and Gilioli, Gianni

Subjects

*INSECT phenology, *INTEGRATED pest control, *INSECT populations, *INSECT pests, *DIAPAUSE, *CODLING moth

Abstract

Diapause is a vital survival strategy for insects, enabling them to conserve energy and endure adverse conditions. Understanding how diapause affects insect phenology and population dynamics is crucial for the effective management of insect pests. Predictive pest phenological models can be invaluable tools for providing essential information to support management strategies. This study presents a modelling framework to incorporate diapause into phenological models when biological information on variables regulating and functions describing diapause induction and termination are lacking or limited. In our framework, insect phenology is divided into a set of phases characterized by specific events (diapause induction and termination) and processes (development of diapausing and post‐diapausing biological stages). The phenology is simulated by a stage‐structured model based on the Kolmogorov equation, and the temperature‐dependent development rate functions are described by the Brière functional form. Our modelling framework was tested on a case study involving the prediction of the phenology of the codling moth, (Cydia pomonella L. 1758). Model calibration and validation were performed using four time‐series adult trap catch data collected in the Emilia Romagna Region from 2021 to 2023. The calibration procedure allowed obtaining realistic parameters related to the temperature threshold triggering diapause termination and the development rate function of post‐diapausing larvae and pupae. Model validation proved successful in simulating both the initial emergence and the overall phenological patterns of adults across the three observed generations. The methodological framework proposed here aims to facilitate the introduction of diapause in phenological models improving also their predictive abilities. The model may serve as an accurate and knowledge‐based tool for planning and implementing pest monitoring and control actions based on the realistic predictions provided by the model on the phenological status of the pest. [ABSTRACT FROM AUTHOR]

Published

2024

9. Simultaneous effective monitoring of Grapholita molesta and Cydia pomonella (Lepidoptera: Tortricidae) in traps with a dual sex pheromone/kairomone lure plus a UV‐A light.

Author

Knight, Alan Lee, Mujica, Valentina, Basoalto, Esteban, and Preti, Michele

Subjects

*GRAPHOLITA, *CODLING moth, *PEST control, *PHEROMONE traps, *TORTRICIDAE, *PHEROMONES, *LEPIDOPTERA

Abstract

Studies of oriental fruit moth (OFM), Grapholita molesta (Busck), and codling moth (CM), Cydia pomonella (L.) (Lepidoptera: Tortricidae), both important pests of pome fruit, evaluated the addition of low‐intensity light‐emitting diode (LED) to delta traps baited with 3 commercial monitoring lures. Studies were conducted in 9 orchards treated with and without sex pheromone mating disruption for one or both species. OFM was monitored with a two‐part pheromone/kairomone lure (OFM Combo Dual), while CM was monitored with either a two‐part kairomone lure (CM Dual 4 K) or a sex pheromone lure (CM PH). Both pests were monitored with or without the addition of three types of a low power LED light with peak intensity at 395 (UV‐A), 458 (blue), and 516 (green) nm. The UV‐A LED was found to be the most effective among the three lights for OFM. Unexpectedly, traps with the OFM Combo Dual lure plus UV‐A LED caught similar numbers of CM as traps baited with the CM Dual 4 K and CM PH lures alone. They also caught other pest species, such as oblique banded leafroller (OBLR), Choristoneura rosaceana (Harris), and peach twig borer (PTB), Anarsia lineatella (Zeller). Interestingly, in different trials the OFM Combo Dual combined with UV‐A LED light caught significantly more OFM and/or CM females compared to the OFM Combo Dual lure without light, opening the perspective for a female‐oriented monitoring and for a “female removal” management approach of these pests. The development of inexpensive, dual‐modality traps adding a light stimulus to a pheromone/kairomone lure may reduce monitoring costs in orchards with multiple moth pests, improving the trapping efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

10. Differences in nutritional requirements of adult codling moth, Cydia pomonella (L.), from field and laboratory populations.

Author

Mátray, Silvia and Herz, Annette

Subjects

*CODLING moth, *NUTRITIONAL requirements, *ADULTS, *APPLE growing, *TORTRICIDAE, *MOTHS, *BUCKWHEAT

Abstract

The codling moth Cydia pomonella (Linnaeus) (Lepidoptera: Tortricidae) is one of the most important pests in apple production. The provision of sugar resources improved adult fitness of this species in laboratory studies and could also be enhanced in the field, for example, by naturally occurring carbohydrate sources in the orchard environment. In addition, the effects of sugar resources on field populations may differ from those of laboratory strains due to altered nutritional requirements. The survival of moths from overwintered field populations was compared with that of a non‐diapausing laboratory strain in feeding experiments with water, two sugar solutions or buckwheat flowers. The effect of these diets was similar for all populations, yet moths from one field‐collected strain lived shorter than those reared in the laboratory. In general, males lived about 3–5 days longer than females. The provision of glucose resulted in the highest survival of both sexes in all populations (24 days). Buckwheat nectar tended to slightly prolong the moths' lifespan compared to the water control (+3 days). Female fecundity was highly variable and was affected by adult diet. Similar to the results obtained under laboratory conditions, the provision of glucose and buckwheat nectar prolonged adult survival in associated field exposure experiments. In general, the nutritional requirements of adult codling moths did not vary according to their origin, even when reared continuously in the laboratory for many generations. [ABSTRACT FROM AUTHOR]

Published

2024

11. Actualización sobre la presencia natural de Goniozus legneri (Hymenoptera: Bethylidae) en agroecosistemas nogaleros de Catamarca y primer registro en el Departamento Famatina, Provincia de La Rioja.

Author

BARROS, Lucas A., ESPINOSA, Martín, ROMERO, Oscar E., CARRIZO, Adrian, CAVALLO, María J., and DIEZ, Patricia A.

Subjects

*CODLING moth, *BIOLOGICAL pest control, *SURVIVAL rate, *WALNUT, *AGRICULTURAL ecology

Abstract

This article presents an update on the natural presence of Goniozus legneri in walnut agroecosystems in Catamarca and the first record in the Famatina Department, La Rioja Province. It was observed that this species parasitizes Cydia pomonella larvae in the province of Catamarca and Ectomyelois ceratoniae larvae in post-harvest walnut fruits in La Rioja. Details are discussed regarding the external morphology of Goniozus legneri, as well as its biology and role as a biocontroller of lepidopteran pest populations. The article reports on research conducted on the interaction between G. legneri and C. pomonella under laboratory and field conditions. It has been found that G. legneri has a high survival rate, a close synchronization with the larval stages of the pest, a female-biased progeny, high fecundity, and a short generational time. These studies demonstrate the effectiveness of G. legneri as a biological control agent for the pest. Furthermore, the natural presence of G. legneri in walnut agroecosystems in Catamarca and La Rioja has been confirmed, although at low densities. Future studies are suggested to focus on the development of low environmental impact control tools, such as augmentative biological control. The article also mentions other studies on the biology, biological control, and presence of G. legneri in different regions of Argentina, as well as its first record in Chile. [Extracted from the article]

Published

2024

12. A SURVEY OF THE LIQUORICE PIERCER MOTH GRAPHOLITA PALLIFRONTANA LIENIG & ZELLER 1846 (LEP.: TORTRICIDAE) IN CAMBRIDGESHIRE (VC29) AND SURROUNDING AREAS.

Author

TYLER-SMITH, CHRIS and YALI XUE

Subjects

*GRAPHOLITA, *TORTRICIDAE, *ASTRAGALUS (Plants), *SEED pods, *BOTANISTS, *MOTHS, *CODLING moth

Abstract

The past and present status of Grapholita pallifrontana in Cambridgeshire has been investigated. The species was discovered in Cambridgeshire by William Warren, most likely in 1887; the next published record was in 2021. Its sole larval foodplant, Wild Liquorice Astragalus glycyphyllos has been well-documented by botanists since 1660. We visited the 15 monads with post-1985 records and relocated plants in 11 of them, plus one new adjacent monad. We subsequently revisited these 12 monads during the season when larvae are detectable within the seedpods, and found G. pallifrontana in six of the monads, concentrated in the southeast and southwest of VC29. The botanical history of these sites suggests that Wild Liquorice has probably only been present in these locations for the last half-century, and that both foodplant and moth must therefore be quite mobile. Records from adjacent vicecounties demonstrate an overall L-shaped G. pallifrontana distribution, with the Cambridgeshire colonies at its eastern extremity, and raise the question of whether most may belong to a single meta-population. [ABSTRACT FROM AUTHOR]

Published

2024

13. Transcriptome analysis of CpGV in midguts of type II resistant codling moth larvae and identification of contaminant infections by SNP mapping of RNA-Seq data.

Author

Shili Yang, Amberger, Maximilian, Wennmann, Jörg T., and Jehle, Johannes A.

Subjects

*CODLING moth, *INSECT pest control, *APPLE orchards, *SINGLE nucleotide polymorphisms, *DATA mapping, *GENETIC transcription, *BIOLOGICAL pest control agents, *LARVAE, *POSTHARVEST diseases

Abstract

Various isolates of the Cydia pomonella granulovirus (CpGV) are used as insect pest control agents against codling moth (CM, Cydia pomonella L.), a predominant pest in apple orchards. Three different types (I–III) of dominantly inherited field resistance of CM larvae to CpGV have been recently identified. In this study, transcription of virus genes in midgut cells of type II-resistant CM larvae infected with different CpGV isolates, i.e., CpGV-M and CpGV-S (both prone to type II resistance) as well as CpGV-E2 (breaking type II resistance) was determined by strand-specific RNA sequencing (RNA-Seq) at an early infection stage (72 h post infection). Based on principal component analysis of read counts and the quantitative distribution of single nucleotide polymorphisms (SNPs) in the RNA-Seq data, a bioinformatics analysis pipeline was developed for an a posteriori identification of the infective agents. We report that (i) identification of infective agent is crucial, especially in in vivo infection experiments, when activation of covert virus infections is a possibility, (ii) no substantial difference between CpGV-M and CpGV-S transcription was found in type II-resistant CM larvae despite a different resistance mechanism, (iii) the transcription level of CpGV-M and CpGV-S was much lower than that of CpGV-E2, and (iv) orf59 (sod), orf89 (pif-6), orf92 (p18), and orf137 (lef-10) were identified as significantly downregulated genes in resistance-prone isolates CpGV-M and CpGV-S. For type II resistance of CM larvae, we conclude that CpGV-M and CpGV-S are both able to enter midgut cells, but viral transcription is significantly impaired at an early stage of infection compared to the resistance-breaking isolate CpGV-E2. IMPORTANCE CpGV is a highly virulent pathogen of codling moth, and it has been developed into one of the most successful commercial baculovirus biocontrol agents for pome fruit production worldwide. The emergence of field resistance in codling moth to commercial CpGV products is a threat toward the sustainable use of CpGV. In recent years, different types of resistance (type I–III) were identified. For type II resistance, very little is known regarding the infection process. By studying the virus gene expression patterns of different CpGV isolates in midguts of type II-resistant codling moth larvae, we found that the type II resistance mechanism is most likely based on intracellular factors rather than a receptor component. By applying SNP mapping of the RNA-Seq data, we further emphasize the importance of identifying the infective agents in in vivo experiments when activation of a covert infection cannot be excluded. [ABSTRACT FROM AUTHOR]

Published

2024

14. Expansion of apple cultivation increases the abundance of codling moth (Cydia pomonella) in agricultural landscapes of China.

Author

Song, Bowen, Yang, Long, Pan, Yunfei, Feng, Hongzu, and Lu, Yanhui

Subjects

CODLING moth, APPLE growing, AGRICULTURE, PHEROMONE traps, PEST control, APPLE orchards, SUSTAINABLE development, PEACH

Abstract

BACKGROUND: Agricultural land‐use change is an important driver of pest population dynamics, and can alter source–sink dynamics and the concentration‐dilution effects of the landscape. Understanding the effects of land use on pests at both landscape and regional levels is essential for the development of sustainable pest management strategies given the large changes occurring in cropping systems in China. At the landscape level, we investigated the impacts of landscape composition and edge density on pheromone trap catch of codling moth (Cydia pomonella) in apple orchards, in Aksu, Xinjiang, China. At the regional scale, we conducted a meta‐analysis using data from studies performed across the Aksu area in recent decades, to assess the relationship between trends in codling moth abundance and the area of apple cultivation. RESULTS: Both extensive planting of apple and large areas of annual crops in the landscape increased the abundance of codling moth, whereas the presence of secondary host plants (peach, pear, walnut, plum, and apricot) had a negative effect. Seminatural habitats and landscape edge density did not significantly affect codling moth abundance. The responses of different generations of codling moth to landscape factors were varied. At the regional level, codling moth occurrence was positively correlated with the expansion of apple production areas. CONCLUSION: Expansion of apple cultivation increases the abundance of codling moth in agricultural landscapes. We recommend decreasing the area devoted to monocultures of apple when designing agricultural landscapes and increasing plantings of secondary host crops to dilute and reduce the abundance of codling moth. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

15. Geographic variation in genetic composition, sexual communication and mating compatibility of the False Codling Moth, Thaumatotibia leucotreta for optimisation of area-wide control.

Author

Aigbedion-Atalor, Pascal, Heiduk, Annemarie, Upfold, Jennifer, Shuttleworth, Adam, Moore, Sean, Hill, Martin, Coombes, Candice, Bohman, Björn, and Farag El-Shafie, Hamadttu Abdel

Subjects

CODLING moth, GENETIC variation, REPRODUCTIVE isolation, AMPLIFIED fragment length polymorphism, HELIOTHIS zea, SPODOPTERA littoralis, PHYTOSANITATION

Abstract

Intraspecific variation in sex pheromones is a driver of reproductive isolation and speciation in insects. The False Codling Moth (FCM) Thaumatotibia leucotreta (Lepidoptera: Tortricidae) is a quarantine pest endemic to sub-Saharan Africa (SSA). The currently available precision control measures for FCM use female sex pheromone components to lure males into traps. However, the existing data on the composition of the female sex pheromone, especially the isomer ratios of the main pheromone component (E/Z)-8-dodecenyl acetate, are inconsistent for populations in SSA. This inconsistency led to speculation about possible reproductive isolation between geographically separated FCM populations and the potential need for local adjustment of pheromone-based FCM control tools. This, however, requires a comparative evaluation of geographic variation in FCM sexual communication and inter-population mating compatibility. We therefore investigated genetic isolation and mating compatibility between five geographically isolated FCM populations in South Africa and analysed the ratio of (E)- and (Z)-8-dodecenyl acetate in females from these populations. The five studied populations were found to form three genetically distinct groups with high genetic distances between each other. Mating compatibility tests showed that mating is possible across these groups, however, males preferred females of their own population when given choices; without a choice, males successfully mated with and transferred spermatophores to females from all other populations. The ratio of (E)- and (Z)-8-dodecenyl acetate was similar (c. 4:1) across the populations, indicating that this main female pheromone component does not cause the observed intra-population mating preferences. It remains to be investigated if qualitative/quantitative variation in other sex pheromone components influences intra-population recognition in South African FCM, providing a base for the development of regionally-specific lures for area-wide control programmes. [ABSTRACT FROM AUTHOR]

Published

2024

16. Variation in Thermal Sensitivity of Diapause Development among Individuals and over Time Predicts Life History Timing in a Univoltine Insect.

Author

Toxopeus, Jantina, Dowle, Edwina J., Andaloori, Lalitya, and Ragland, Gregory J.

Subjects

*DIAPAUSE, *LIFE history theory, *INDIVIDUAL development, *INSECTS, *SPRING, *CODLING moth, *COLD-blooded animals

Abstract

Physiological time is important for understanding the development and seasonal timing of ectothermic animals but has largely been applied to developmental processes that occur during spring and summer, such as morphogenesis. There is a substantial knowledge gap in the relationship between temperature and development during winter, a season that is increasingly impacted by climate change. Most temperate insects overwinter in diapause, a developmental process with little obvious morphological change. We used principles from the physiological time literature to measure and model the thermal sensitivity of diapause development rate in the apple maggot fly Rhagoletis pomonella , a univoltine fly whose diapause duration varies substantially within and among populations. We show that diapause duration can be predicted by modeling a relationship between temperature and development rate that is shifted toward lower temperatures compared with typical models of morphogenic, nondiapause development. However, incorporating interindividual variation and ontogenetic variation in the temperature–to–development rate relationship was critical for accurately predicting fly emergence, as diapause development proceeded more quickly at high temperatures later in diapause. We conclude that the conceptual framework may be flexibly applied to other insects and discuss possible mechanisms of diapause timers and implications for phenology with warming winters. [ABSTRACT FROM AUTHOR]

Published

2024

17. Productive manifestations and sensitivity to codling moth (Cydia (Laspeyresia) pomonella (L.) of apple cultivars and hybrids.

Author

Petrova, V., Dimitrova, S., and Sotirov, D.

Subjects

*CYDIA, *APPLE varieties, *FRUIT quality, *FRUIT weights & measures, *ROOTSTOCKS

Abstract

The present study was conducted during the period 2019 - 2021 at the Institute of Agriculture, Kyustendil. The productivity, fruit quality, and sensitivity to codling moth of 10 apple cultivars and 9 hybrids were evaluated. Standard technology was implemented to grow the fruit-bearing trees, which were grafted on MM 106 rootstock and planted at a distance 4.5×2.5 m. The highest average yields were obtained from the cultivar Rosana (30.4 kg/tree) and hybrid 9 (28.3 kg/tree). Fruit weight ranged from 83 g (hybrid 2/4) to 248 g (Charden). Goldrush had the highest fruit flesh firmness - 10.0 kg/cm2 and hybrid 1/7 the lowest - 6.7 kg/cm2. No differences in the sensitivity to codling moth were observed among cultivars and hybrids. The percentage of damage ranged from 3.7% (hybrid 1/3) to 5% (Rosana) in 2020 and from 43.6% (hybrid 2/4) to 55.7% (Golden Resistan) in 2021. [ABSTRACT FROM AUTHOR]

Published

2024

18. Perceptual Effects of Walnut Volatiles on the Codling Moth.

Author

Li, Peixuan, Wei, Yang, Chen, Guoxiang, and Sattar, Adil

Subjects

*WALNUT, *CODLING moth, *INSECT host plants, *VOLATILE organic compounds, *ENGLISH walnut, *ENVIRONMENTAL security, *PEST control

Abstract

Simple Summary: The codling moth, Cydia pomonella (L.), is a worldwide destructive borer in fruits. Walnuts, Juglans regia (L.), have suffered significant damage due to the infringement of this pest. Out of concern for ecological security, volatile organic compounds (VOCs) in plants are widely used in pest control. However, while a great deal of research has focused on apples and pears, the compounds in walnuts that attract codling moths have not been clearly defined. In this study, we used a field survey to identify the walnut organs in which the codling moths lay eggs and then we extracted volatiles from these walnut organs for analysis and evaluated the electrophysiological and behavioral responses of the moths. Linalool, eucalyptol, and high doses of geranyl acetate showed repellent effects on the codling moths, while myrcene, β-ocimene, nonanal, methyl salicylate, α-farnesene, and heptaldehyde showed the opposite. The relative levels of heptaldehyde, geranyl acetate, nonanal, and methyl salicylate were high in the fruits, which is intimately related to the localization of the walnut fruit by female C. pomonella. As these volatiles appear to be closely associated with the behavior of codling moths, we speculate that this work is useful for developing novel plant-derived attractants/repellents for these moths and, further, to understand the mechanism of recognition of walnut fruit in this species. The volatile organic compounds (VOCs) of plant hosts allow insect localization through olfactory recognition. In this study, the oviposition behavior of the codling moth was investigated and the VOCs from different walnut organs were extracted and analyzed to systematically study their composition and content differences. The electrophysiological and behavioral responses of the codling moth to walnut VOCs were measured using gas chromatography–electroantennographic detection (GC-EAD) and a four-arm olfactometer to screen the key active contents. The field investigation results indicated that 90.3% of the eggs spawned by the first generation of adult codling moths were adjacent to the walnut fruits. Walnut VOCs are mainly composed of terpenes, aromatics, and alkanes. Twelve VOCs can produce electroantennogenic (EAG) responses in the codling moths. Both adult males and females exhibit concentration dependence, with notable disparities in their EAG response levels. In the olfactory behavioral bioassay, linalool, eucalyptol, and high doses of geranyl acetate showed repellent effects on the codling moths, while myrcene, β-ocimene, nonanal, methyl salicylate, α-farnesene, and heptaldehyde showed the opposite. The relative levels of heptaldehyde, geranyl acetate, nonanal, and methyl salicylate were high in the fruits, which is intimately related to the localization of the walnut fruit by females. These VOCs can influence the oviposition behavior of codling moths but their application in the control of this pest needs to be confirmed and improved through further field experiments. [ABSTRACT FROM AUTHOR]

Published

2024

19. Efficacy and residual toxicity of chitosan for Rhagoletis pomonella (Diptera: Tephritidae).

Author

Tohline, Logan I, Stoffolano, John G, and Piñero, Jaime C

Subjects

CHITOSAN, TEPHRITIDAE, DIPTERA, INSECT pests, CODLING moth, FLIES, MAGGOTS, BIOPESTICIDES

Abstract

Chitosan is a naturally derived polymer that has significant potential for use as a bioinsecticide. Despite this, there is a lack of research as to the efficacy of chitosan for many insect pest species. The apple maggot fly, Rhagoletis pomonella (Walsh) (Diptera: Tephritidae), is one such pest for which chitosan toxicity has not been explored. In this study, the toxicity of chitosan for R. pomonella adults was tested via no-choice feeding assays. An aging trial was further used to test the mortality of flies provided dried chitosan-sucrose treatments (CST), which were aged for 0 or 3 days in greenhouse conditions. This study found that the CST is toxic for R. pomonella adults when ingested, leading to a significant increase in the rate of mortality compared to control groups. The use of dried chitosan, however, did not change the mortality of flies, suggesting this will not be an effective delivery mechanism. Effective biopesticide delivery systems have not been defined for chitosan use outside of a laboratory, indicating the need for further research testing delivery mechanisms. It is suggested that an effective method of delivery can be as a food-based bait in attract-and-kill traps, as chitosan must be ingested to kill flies. Forming a viscous solution, chitosan may be best suited to these lure systems. [ABSTRACT FROM AUTHOR]

Published

2024

20. Future semiochemical control of codling moth, Cydia pomonella

Author

E. Charles Whitfield and Michelle T. Fountain

Subjects

Codling moth, area wide, semiochemical, attractant, repellent, integrated pest management, Plant culture, SB1-1110

Abstract

Codling moth (CM), Cydia pomonella, is a significant pest of apple (Malus domestica) and other orchard crops worldwide, posing challenges due to the decrease in registered insecticides, rising resistance, and a changing climate. The pest exhibits a strong resistance capacity to both synthetic and natural insecticides, while shifting seasonal temperatures disrupt the reliability of phenology-temperature models for predicting targeted control strategies. Alternative control strategies are necessary to future-proof control of this pest. Current control methods primarily rely on chemical insecticide sprays or granulosis virus applications during egg hatching. This review focuses explicitly on semiochemical-based manipulation of CM adults and larvae for control in orchards. Topics covered include the role of semiochemicals in integrated pest management, area-wide control, mating disruption, female attractants, larval kairomones, and incorporation into monitoring and control strategies. The potential of CM repellents in a push–pull strategy is also discussed. Primary sources for identifying relevant literature included GoogleScholar and ResearchGate, with a focus on papers published since 2013 but also include relevant papers from 2003. Nine review papers and 119 papers were reviewed. The review emphasizes that effective control necessitates an area-wide approach targeting all life stages (eggs, larvae, pupae, and adults). Comprehensive monitoring is crucial for identifying CM “hot-spots” and enhancing targeted interventions. Growers must consider landscape context when designing control programs. Lastly, recommendations are provided for future research and CM management strategies. There are opportunities to explore and exploit female kairomone attractants and repellents in control strategies and modify monitoring traps to be more attractive and autonomous.

Published

2024

21. Morphomolecular characterization of invasive fruit borer infesting apple.

Author

Aziz, Danishta, Ahad, Ishtiyaq, Shah, Zahoor Ahmad, Khan, Zakir Hussain, Dar, Eajaz Ahmad, Alie, Bashir Ahmad, Lone, Aabid Hussain, Ganie, Mumtaz Ahmad, Alkeridis, Lamya Ahmed, Al-Shuraym, Laila A., Sayed, Samy, and Shukry, Mustafa

Subjects

*LIFE cycles (Biology), *CODLING moth, *AGRICULTURE, *FRUIT, *APPLE orchards, *PHEROMONE traps, *INSECT pests, *EGGPLANT

Abstract

Apple, a vital fruit crop worldwide and a major crop grown in northern parts of India, acts as a backbone for the survival and livelihood of the farming community. However, it is prone to severe damage from insect pests and diseases. In the past few years, due to erratic weather patterns, there has been an alarmingly increased infestation of different insect pests, both invasive and non-invasive, resulting in substantial economic losses to this industry. One similar case was seen in the Himalayan region of India, where the apple crop in Karewas was heavily damaged by some invasive fruit borer, feeding on pulp and making galleries to reach the seed locules, thereby destroying the seed material. To ascertain the true identity of this pest, a study based on morpho-molecular characterization of this pest was carried out in the Faculty of Agriculture, Wadura, SKUAST Kashmir, India, during the years 2021 and 2022. The invasive fruit samples were collected from apple orchards at different locations (experimental sites) in North India by installing delta sticky traps @ 5 traps/ha for moth collection. The fruit-boring larvae and pupa were also collected and reared in confined chambers of the laboratory with controlled temperature and humidity. All the laboratory investigations were conducted at the Division of Entomology, FoA, Wadura, SKUAST Kashmir. During the investigation, it was confirmed that the invasive borer is a codling moth (Cydia pomonella L.), a member of the family Tortricidae, order Lepidoptera, which was earlier having quarantine importance in India, as it was only present in the Ladakh region of India. From the phylogenetic analysis of sample sequences, the species of codling moth present at all experimental sites was more identical to the codling moth sequence from Leh (the northernmost arid region), India. Further, the study of life cycle and voltinism revealed that codling moth completes three generations per year in Kashmir, with a single cycle lasting up to 2.5 months. However, the timing of various generations varies, depending on prevailing weather conditions at specific locations and times. The number of generations completed by codling moth in Kashmir conditions during apple growing season was three full and a half overwintering generations. The study of the life cycle of this important pest was necessary to know the weak link for its effective management and to prevent the economic loss in apple fruit. [ABSTRACT FROM AUTHOR]

Published

2024

22. Elma İçkurdu Zararlısının Kontrolünde Alternatif Yeni Aday Moleküllerin Kenetlenme Metodu ile Belirlenmesi.

Author

ERSAN ŞEKER, Nurcan and ENİSOĞLU ATALAY, Vildan

Abstract

The codling moth (cydia pomonella) has become an increasing problem in fruit production in the agricultural sector in recent years, as the pest has gradually developed resistance to conventional insecticides. While the overuse of conventional insecticides poses serious risks to health and the environment, the discovery of alternative natural molecules is vital to reduce environmental risks and solve resistance problems. In this study, a research was conducted by selecting the 3RVZ crystal structure as the target protein and using 42 molecules that gave the best results out of 97 plant active molecules with insecticidal properties and 5 commercial insecticides. Structural analyzes of the selected molecules were carried out with the Spartan'14 program. Autodock Tools 1.5.6, Autodock Vina and BIOVIA Discovery Studio Visualizer programs were used in molecular docking and visualization studies. The results obtained were evaluated using binding affinities, linear regression graphs and amino acid interaction maps. As a result of the study, candidate molecules L-7, L-9, L-13, L-14, L-16, L-18, L-19, which provide good correlation and have the potential to be biopesticides, stand out. It is recommended to examine these molecules experimentally in vivo. [ABSTRACT FROM AUTHOR]

Published

2024

23. Functional and numerical response and mutual interference of Goniozus legneri (Hymenoptera: Bethylidae) on Cydia pomonella (Lepidoptera: Tortricidae): Its implications for biological control.

Author

Cavallo, María José, Romero, Oscar Eduardo, Barros, Lucas Ariel, Cichón, Liliana, Garrido, Silvina Alejandra, and Diez, Patricia Alejandra

Subjects

*CODLING moth, *HYMENOPTERA, *LEPIDOPTERA, *TORTRICIDAE, *LARVAE, *BIOLOGICAL pest control agents, *PEST control

Abstract

The functional and numerical response and the potential for mutual interference are key components in the selection of parasitoids for biological control. In this study, functional and numerical responses of Goniozus legneri to different densities of fifth instar Cydia pomonella larvae and mutual interference of this parasitoid were studied under laboratory conditions. Logistic regression was used to find the type of functional response and the result was type II. The attack rate, handling time, the parasitoid searching efficiency and the maximum host mortality rate were estimated by fitting the Holling model to the data. The numerical response of the parasitoid did not vary based on the availability of codling moth larvae. The negative value of the interference coefficient (−0.228) in the mutual interference analysis showed an inverse relationship between parasitoid density and per capita searching efficiency. This suggests that when the density of G. legneri and C. pomonella larvae is equivalent, the parasitoid proves to be more effective in pest control. The findings of this study contribute to increasing the knowledge of G. legneri and its potential as a biocontrol agent. [ABSTRACT FROM AUTHOR]

Published

2024

24. Farmers' Knowledge, Perceptions, and Management Practices of False Codling Moth (Thaumatotibia leucotreta) in Smallholder Capsicum sp. Cropping Systems in Kenya.

Author

Onamu, Emmanuel M., Mutyambai, Daniel M., Nyangau, Isaac M., Nderitu, John H., Kasina, Muo, Kilalo, Dorah C., and Mweke, Allan N.

Subjects

CODLING moth, FARMERS, PHYTOSANITATION, CROPPING systems, PEPPERS, INTEGRATED pest control

Abstract

False codling moth (FCM) Thaumatotibia leucotreta Meyrick (Lepidoptera: Tortricidae) is currently the main pest of phytosanitary concern in international trade, causing rejection and decline of horticultural produce from Kenya exported to the European Union (EU). Overreliance on synthetic insecticides to control this pest is ineffective and unsustainable in the long run, whereas continuous use of pesticides results in high levels of residues in the produce. To gather farmers' knowledge, attitudes, and practices used by smallholder farmers to manage this pest, a field survey was carried out in 10 Capsicum sp. (Solanales: Solanaceae)-producing counties in Kenya. Data were collected using semi-structured questionnaires administered through face-to-face interviews and focus group discussions involving 108 individual farmers, 20 key informants, and 10 focus group discussions. The majority of the respondents (83.33%) were aware of the FCM infesting Capsicum sp. About three quarters of the farmers (76.85%) reported yield losses and unmarketable quality of FCM-infested Capsicum sp. Most farmers interviewed (99.07%) used insecticides as a management tool. In contrast, only 39.81% of the farmers applied integrated pest management strategies including use of biological control agents and intercropping with repellent plants to control this pest. The results show that FCM is perceived as a significant threat to the horticultural industry of Kenya. Training needs for smallholder farmers and key informants to avoid overreliance on synthetic chemical pesticides and to maintain export goals to the EU where identified. [ABSTRACT FROM AUTHOR]

Published

2024

25. Side effects of X‐ray irradiation on flight ability of Cydia pomonella moth.

Author

Huang, Sheng‐Wang, Zhang, Jing‐Han, Wei, Zi‐Han, Yang, Xian‐Ming, Wang, Xing‐Ya, and Yang, Xue‐Qing

Subjects

CODLING moth, INSECT flight, RADIATION sterilization, MOTHS, IRRADIATION, RADIATION exposure, POLYMERASE chain reaction

Abstract

BACKGROUND: The sterile insect technique (SIT) has proven to be an effective approach in managing the population of major invasive pests. Our previous studies showed that irradiation of Cydia pomonella males at a dosage of 366 Gy X‐rays resulted in complete sterility. However, the mating competitiveness of sterilized males is significantly compromised, which can be attributed to a decline in their ability to fly. RESULTS: In this study, we examined the flight patterns of both male and female adults of C. pomonella. The results revealed significant variations in the average flight speed of both genders at different stages of maturity, with females displaying longer flight duration and covering greater distances. Effect of irradiation on the flight performance of 3‐day‐old male moths was further evaluated, as they demonstrated the longest flight distance. The findings indicated a significant decrease in flight distance, duration, and average speed, due to wing deformities caused by irradiation, which also limited the dispersal distance of moths in orchards, as indicated by the mark‐and‐recapture assay. Reverse‐transcription quantitative polymerase chain reaction analysis revealed a down‐regulation of flight‐related genes such as Flightin, myosin heavy chain, and Distal‐less following radiation exposure. CONCLUSION: These findings demonstrate that X‐ray irradiation at a radiation dose of 366 Gy has a detrimental effect on the flight ability of male C. pomonella adults. These insights not only contribute to a better understanding of how radiation sterilization diminishes the mating competitiveness of male moths, but also aid in the development and improvement of SIT practices for the effective control of C. pomonella. © 2023 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

26. Molecular and Functional Characterization of Three General Odorant-Binding Protein 2 Genes in Cydia pomonella (Lepidoptera: Tortricidae).

Author

Zhou, Yanan, Huang, Cong, Fu, Guanjun, Tang, Rui, Yang, Nianwan, Liu, Wanxue, Qian, Wanqiang, and Wan, Fanghao

Subjects

*CODLING moth, *ODORANT-binding proteins, *LEPIDOPTERA, *BINDING site assay, *TORTRICIDAE, *OLFACTORY receptors

Abstract

General odorant-binding proteins (GOBPs) play a crucial role in the detection of host plant volatiles and pheromones by lepidopterans. Previous studies identified two duplications in the GOBP2 gene in Cydia pomonella. In this study, we employed qRT-PCR, protein purification, and fluorescence competitive binding assays to investigate the functions of three GOBP2 genes in C. pomonella. Our findings reveal that CpomGOBP2a and CpomGOBP2b are specifically highly expressed in antennae, while CpomGOBP2c exhibits high specific expression in wings, suggesting a potential divergence in their functions. Recombinant proteins of CpomGOBP2a, CpomGOBP2b, and CpomGOBP2c were successfully expressed and purified, enabling an in-depth exploration of their functions. Competitive binding assays with 20 host plant volatiles and the sex pheromone (codlemone) demonstrated that CpomGOBP2a exhibits strong binding to four compounds, namely butyl octanoate, ethyl (2E,4Z)-deca-2,4-dienoate (pear ester), codlemone, and geranylacetone, with corresponding dissolution constants (Ki) of 8.59993 μM, 9.14704 μM, 22.66298 μM, and 22.86923 μM, respectively. CpomGOBP2b showed specific binding to pear ester (Ki = 17.37481 μM), while CpomGOBP2c did not exhibit binding to any tested compounds. In conclusion, our results indicate a functional divergence among CpomGOBP2a, CpomGOBP2b, and CpomGOBP2c. These findings contribute valuable insights for the development of novel prevention and control technologies and enhance our understanding of the evolutionary mechanisms of olfactory genes in C. pomonella. [ABSTRACT FROM AUTHOR]

Published

2024

27. Environmental complexity and predator density mediate a stable earwig-woolly apple aphid interaction.

Author

Bischoff, Robert, Pokharel, Prayan, Miedtke, Paul, Piepho, Hans-Peter, and Petschenka, Georg

Subjects

APHIDS, BIOLOGICAL pest control, PRUNING, PREDATION, EARWIGS, PREDATORY animals, CODLING moth, INSECT pests, ORCHARDS

Abstract

Regulation of insect pests by predators is an integral component of biological pest control. However, predator-prey interactions often reach a stable state leading to coexistence, which can be problematic for plant protection if the persisting herbivores exceed a damage threshold. Consequently, understanding the factors mediating this stability is crucial for successful biocontrol. Here, we investigated the predator-prey interaction of an important apple pest, the woolly apple aphid (WAA) (Eriosoma lanigerum Hausm.) (Hemiptera: Aphididae), and its predator, the omnivorous common earwig (Forficula auricularia L.) (Dermaptera: Forficulidae). To this end, we introduced increasing densities of earwigs in gauze-bagged branches harbouring defined amounts of WAA and recorded predation on individual WAA colonies for almost one month. We showed that the spatial complexity of the predation environment and the earwig density determined the predation efficiency on WAAs. Earwigs could eradicate WAAs regardless of density on short apple branches without lateral twigs (first trial). However, on longer, more complex branches (second trial), stable states of WAAs and earwigs were observed. Only the highest earwig density could completely consume WAA regardless of branch complexity. We introduce a conceptual model to describe the searching capability of earwigs, which determines their efficiency in locating prey. Our model predicts that searching capability is reduced by environmental complexity; this effect is alleviated by increased earwig density, as more predators possess a higher searching capability. Conclusively, our model explains why only the highest earwig density could completely consume WAA irrespective of complexity and illustrates how predator density and environmental complexity jointly influence predation. Thus environmental characteristics not inherent to our predator-prey interaction were a decisive factor for effective predation on gauze-bagged branches. Based on these results, reducing tree complexity by pruning or augmenting earwig populations in orchards can increase biocontrol of the WAA. [ABSTRACT FROM AUTHOR]

Published

2024

28. Apple pest and pathogen reduction in landscapes with large patch size and small area of orchards: a national-scale analysis.

Author

Etienne, Lucas, Franck, Pierre, Rusch, Adrien, and Lavigne, Claire

Subjects

APPLE orchards, ORCHARDS, ORCHARD management, ORGANIC farming, PESTS, CODLING moth, AGRICULTURE, APPLES

Abstract

Context: The composition and configuration of habitats in agricultural landscapes may determine crop damage resulting from pests or pathogens either by directly affecting their population dynamics or through indirect effects on their natural enemies. Objectives: The aim of this study was to assess the impact of landscape composition and configuration on the occurrence and damage caused by the codling moth and apple scab in apple orchards. Methods: Using monitoring data at the French national scale, we examined how the proportion of landscape area grown with orchards, the mean patch area of orchards, the share of organic orchards and the proportion of woodlands and grasslands affected the occurrence and damage of these two pests from 2015 to 2019 in approximately sixty apple orchards each year. Results: Landscapes with a higher proportion of orchards supported a higher occurrence of apple scab and earlier colonisation of codling moths. In addition, we found that codling moth damage decreased with increasing orchard patch area in the landscape. The proportion of seminatural habitats or organic farming in the landscape never significantly explained pest occurrence or damage. Conclusions: Our results clearly highlight the importance of considering the amount and spatial arrangement of the pests' and pathogens' host crops to understand their infestation levels. Our study calls for the territorial management of orchard distribution to limit pesticide use in apple orchards. [ABSTRACT FROM AUTHOR]

Published

2024

29. Evaluation of Commercial Virus Biopesticides for the Control of Moth Pests in Laboratory Conditions: The Cases of Thaumetopoea pityocampa and Helicoverpa armigera.

Author

Mantzoukas, Spiridon, Lagogiannis, Ioannis, Zarmakoupi, Chrysanthi, Kitsiou, Foteini, Eliopoulos, Panagiotis A., and Patakioutas, Georgios

Subjects

HELICOVERPA armigera, PEST control, CODLING moth, BIOPESTICIDES, INTEGRATED pest control

Abstract

The research on entomopathogenic viruses is of major significance as they could serve as alternatives to chemical pesticides. There are various types of entomopathogenic viruses; among them, Baculoviruses (BVs) are a potential option because they are eco-friendly and target specific. The experiment in question aimed to evaluate the effect of three insect-specific commercial viruses, Cydia pomonella Granulovirus (CpGV), Helicoverpa armigera Nucleopoyhedrovirus (HearNPV), and Phthorimaea operculella Granulovirus (PoG), on the third-instar larvae of Helicoverpa armigera Hübner (Lepidoptera: Noctuidae) and Thaumetopoea pityocampa Schiff (Lepidoptera: Notodontidae). The viruses' concentrations when tested were 500 ppm, 1000 ppm, 1500 ppm, 3000 ppm, and 6000 ppm, and were applied on the eating medium. Both mortality and larval weight were monitored for 6 days. All three viruses had significant mortality rates on both moths (23.3–83.3% in the highest dose) and larval weights had considerable decreases (70–80% in the highest dose). Generally, noteworthy insecticidal action was recorded after 4 days and in doses higher than 1500 ppm. These results highlight that entomopathogenic viruses may infect species other than their natural host and can be implemented in terms of Integrated Pest Management. [ABSTRACT FROM AUTHOR]

Published

2024

30. Differential influence of temperature on the toxicity of three insecticides against the codling moth Cydia pomonella (L.) and two natural enemies.

Author

Perrin, Marie, Borowiec, Nicolas, Thaon, Marcel, Siegwart, Myriam, Delattre, Thomas, and Moiroux, Joffrey

Subjects

*CODLING moth, *INSECTICIDES, *CHLORANTRANILIPROLE, *SPINOSAD, *TEMPERATURE, *GLOBAL warming, *SPRING

Abstract

Insecticide toxicity may strongly vary with temperature, and interspecific differences have been commonly reported for this relationship. A differential influence of temperature on insecticide toxicity between pests and their natural enemies may have important consequences on biological control in a global warming context. This study aimed to investigate cross effects between temperature and three insecticides—i.e., chlorantraniliprole, emamectin and spinosad—on the mortality of a major pest in orchards, Cydia pomonella L., and two of its natural enemies in southern France, the predatory earwig Forficula auricularia L. and the introduced parasitoid Mastrus ridens Horstmann. We observed a decreased efficiency of emamectin and spinosad with increasing temperature on mortality of codling moth, while no influence of temperature on chlorantraniliprole efficacy was observed. Increasing temperatures increased the toxicity of spinosad and chlorantraniliprole against M. ridens and only for emamectin on F. auricularia. This study provides essential insight to make recommendations for using these insecticides in combination with two natural enemies to control the codling moth in prevision of global warming. Our results suggest that the use of spinosad may become sub-optimal under higher temperatures. In contrast, chlorantraniliprole should be suitable under warmer climatic conditions to control C. pomonella and the less detrimental against F. auricularia and M. ridens. To conserve the use of biological control strategies relying on F. auricularia, alternating use of emamectin during early spring, when its toxicity is the lowest on this natural enemy, chlorantraniliprole during summer could limit resistance risks in codling moth populations and reduce the insecticides' impact on the populations of natural enemies. [ABSTRACT FROM AUTHOR]

Published

2024

31. Elma Bahçelerinde Elma İçkurdu ve Kırmızı örümceklere Karşı Kullanılan Bazı İnsektisit ve Akarisitlerin Akdeniz Meyve Sineği, Ceratitis capitata (Diptera:Tephritidae) Üzerinde Etkileri.

Author

YEŞİLIRMAK, Mustafa Murat, SEVİNÇ, Mehmet Sedat, and YAMAN, Burcu

Abstract

Copyright of Anadolu (1300-0225) is the property of Anadolu Dergisi and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

32. Descriptions of two new species of Phaecadophora Walsingham, 1900 (Lepidoptera, Tortricidae, Olethreutinae) from China.

Author

Yange Li, Wenqing Jing, Shulian Hao, and Haili Yu

Subjects

*TORTRICIDAE, *FEMALE reproductive organs, *LEPIDOPTERA, *MALE reproductive organs, *SPECIES, *CODLING moth, *INSECT anatomy, BEETLE anatomy

Abstract

Two new species of the genus Phaecadophora, P. dactylina sp. nov. and P. vascularis sp. nov., are described from the southwest China. Photographs of the adults and the genitalia are provided. Keys to the species of the genus based on the male and female genitalia are given. [ABSTRACT FROM AUTHOR]

Published

2023

33. A new species of Concinocordis Razowski and Brown, 2012 from Kenya (Lepidoptera: Tortricidae).

Author

Brown, John W. and Timm, Alicia E.

Subjects

*TORTRICIDAE, *LEPIDOPTERA, *SPECIES, *NUCLEOTIDE sequence, *DNA sequencing, *CODLING moth

Abstract

Concinocordis wilsonarum Razowski and Brown, 2012 was described from seven specimens reared from native fruit (all Sapotaceae) in Kenya. The accumulation of additional specimens and re-analyses of DNA sequence data (COI barcodes) reveals that the species is actually a complex of three distinct entities, each separated from its nearest relative by COI divergences of at least 8%. Differences in forewing maculation provide additional evidence that the three are distinct. Concinocordis bartocki Brown, new species, is described, but the second new species is not because it is represented by a single male in exceedingly poor condition. A damaged pupal exuvium of C. wilsonarum shows marked dissimilarities with the pupae of other tortricids. The enigmatic tribal assignment of Concinocordis is discussed briefly. [ABSTRACT FROM AUTHOR]

Published

2023

34. Chemosensory Receptor Expression in the Abdomen Tip of the Female Codling Moth, Cydia pomonella L. (Lepidoptera: Tortricidae).

Author

Walker III, William B., Cattaneo, Alberto M., Stout, Jennifer L., Evans, MacKenzie L., and Garczynski, Stephen F.

Subjects

*CODLING moth, *GENE expression, *LEPIDOPTERA, *OLFACTORY receptors, *TORTRICIDAE, *TASTE receptors, *OVIPARITY, *ORCHARDS

Abstract

Simple Summary: The codling moth, Cydia pomonella, is a major global agricultural pest of apple, pear, and walnut, and its behaviors are largely influenced by taste and smell. Different protein families that function as chemosensory receptors mediate detection of compounds from the environment. Manipulation of codling moth behaviors by using these compounds in orchards has been a successful approach to reduce fruit damage. This approach, however, has largely targeted male behaviors. Since it is the females that lay eggs, which propagate the species, in this report we sought to learn more about female behaviors. Specifically, we examined gene expression of the smell and taste receptors in female codling moth abdomen tip organs involved in egg-laying behaviors. We identified sets of both smell and taste receptor genes expressed in the abdomen tip that are likely candidates to influence egg-laying decisions. We also determined that expression of some of these receptors is increased or decreased after mating. These results increase our knowledge about the genes that can influence female codling moth behaviors. Future research will study the role of individual receptors with the aim of identifying taste and smell compounds that can be used to manipulate female codling moth behaviors in orchards. In insects, the chemical senses influence most vital behaviors, including mate seeking and egg laying; these sensory modalities are predominantly governed by odorant receptors (ORs), ionotropic receptors (IRs), and gustatory receptors (GRs). The codling moth, Cydia pomonella, is a global pest of apple, pear, and walnut, and semiochemically based management strategies limit the economic impacts of this species. The previous report of expression of a candidate pheromone-responsive OR in female codling moth ovipositor and pheromone glands raises further questions about the chemosensory capacity of these organs. With an RNA-sequencing approach, we examined chemoreceptors' expression in the female codling moth abdomen tip, sampling tissues from mated and unmated females and pupae. We report 37 ORs, 22 GRs, and 18 IRs expressed in our transcriptome showing overlap with receptors expressed in adult antennae as well as non-antennal candidate receptors. A quantitative PCR approach was also taken to assess the effect of mating on OR expression in adult female moths, revealing a few genes to be upregulated or downregulating after mating. These results provide a better understanding of the chemosensory role of codling moth female abdomen tip organs in female-specific behaviors. Future research will determine the function of specific receptors to augment current semiochemical-based strategies for codling moth management. [ABSTRACT FROM AUTHOR]

Published

2023

35. Phenotypic Diversity of a Leafroller Archips podana (Lepidoptera, Tortricidae) Does Not Change along an Industrial Pollution Gradient.

Author

Kozlov, Mikhail V.

Subjects

*TORTRICIDAE, *PHEROMONE traps, *MALE reproductive organs, *STATISTICAL power analysis, *LEPIDOPTERA, *INDUSTRIAL pollution, *CODLING moth

Abstract

Simple Summary: Populations of the large fruit-tree tortrix Archips podana consist of a mixture of four morphs that differ in male genitalia traits, ecology and sexual behaviour. Here, I tested whether these morphs differently respond to pollution. I found that the within-population diversity of A. podana around the industrial city of Lipetsk in central Russia correlated neither with the distance to the nearest industrial polluter nor with the number of moths captured by pheromone traps. Thus, the four phenotypes of A. podana similarly respond to pollution. Morphological polymorphism offers rich opportunities for studying the eco-evolutionary mechanisms that drive the adaptations of local populations to heterogeneous and changing environments. In this study, I explore the association between pollution load, abundance of large fruit-tree tortrix Archips podana and its within-species diversity (expressed in the presence of apical and/or lateral prongs on the phallus in male genitalia) across 26 study sites located 0.5 to 31 km from the industrial city of Lipetsk in central Russia. The Shannon diversity index, calculated from the frequencies of four morphs, correlated neither with the distance to the nearest industrial polluter (a proxy of pollution load) nor with the number of moths captured by pheromone traps (a measure of population abundance). The statistical power of the correlation analysis was sufficient (67%) to detect a medium effect (i.e., Pearson correlation coefficient with an absolute value of 0.40), if it existed. I conclude that the four phenotypes of A. podana do not differ in tolerance to industrial pollution and similarly respond to pollution-induced environmental disturbance. This is the first study of industrial pollution impacts on within-species diversity of insects expressed in the discrete traits of their male genitalia. [ABSTRACT FROM AUTHOR]

Published

2023

36. Seasonal activity of Trechnites insidiosus (Hymenoptera: Encyrtidae) and its host Cacopsylla pyricola (Hemiptera: Psyllidae) in pear.

Author

Zilnik, Gabriel, Cooper, W Rodney, Horton, David R, Orpet, Robert, Nottingham, Louis, Hilton, Richard, Adams, Chris, Dickens, Katrina L, Halbert, Susan E, Snyder, James, and Schmidt-Jeffris, Rebecca

Subjects

JUMPING plant-lice, HYMENOPTERA, HEMIPTERA, PEARS, INSECT pests, PHEROMONE traps, CODLING moth, INSECTICIDES

Abstract

Cacopsylla pyricola (Förster) (Hemiptera: Psyllidae) is the most expensive and challenging insect pest of commercial pear trees in the Pacific Northwest. Integrated pest management (IPM) programs are working toward relying more heavily on natural enemies to reduce insecticide use. Trechnites insidiosus (Crawford) (Hymenoptera: Encyrtidae) is the main parasitoid of C. pyricola , but little is known about its biology in the region. Developing sampling tools is important for the deployment of IPM programs, including monitoring of natural enemies. In this study, we examined 2 conventional monitoring methods: beat trays and yellow sticky cards, in addition to screened sticky cards and 3D-printed cylinder traps. Additionally, we tested an overwintering trap for the collection of parasitized C. pyricola. The trapping methods were tested in orchards in Oregon and Washington. Unscreened cards caught the most T. insidiosus and C. pyricola , followed by screened cards, cylinder traps, and then beat trays. Beat trays sometimes failed to catch any T. insidiosus , even when it was found in abundance via other methods. Screened cards and cylinder traps reduced bycatch and increased ease of identifying T. insidiosus. Specimens from the cylinder traps were also more suitable for use in molecular analysis. The overwintering traps were effective at capturing parasitized C. pyricola , but were highly variable year to year. The ideal trapping method will vary based on research needs (e.g. DNA preservation, reducing bycatch, catching higher numbers), but both screened sticky cards and cylinder traps were viable methods for monitoring T. insidiosus and its host. [ABSTRACT FROM AUTHOR]

Published

2023

37. Hail netting excludes key insect pests and protects from fruit damage in a commercial Minnesota apple orchard.

Author

Nelson, Sally G A, Klodd, Annie E, and Hutchison, William D

Subjects

APPLE orchards, INSECT pests, INSECTICIDE application, CODLING moth, INSECT pest control, APPLES, FRUIT harvesting

Abstract

Exclusion netting in some European and North American apple (Malus domestica Borkhausen, Rosaceae, Rosales) orchards has been documented to be an effective method of control for multiple insect pest species. By minimizing reliance on insecticides, these orchards have reduced costs, risks to the environment and non-target species, and reduced the risk of insecticide resistance. This study examined the use of commercially available hail netting (DrapeNet®; Prosser, WA) as a pest exclusion strategy under conditions in Minnesota, USA. In 2021 and 2022, we assessed the efficacy of hail netting as a tool for pest suppression in orchards by monitoring pest species in netted and open plots crossed with and without insecticide applications. Our findings show that both of the major pest species in Minnesota, the codling moth (Cydia pomonella L.; Lepidoptera: Tortricidae) and the apple maggot (Rhagoletis pomonella Walsh; Diptera: Tephritidae), were significantly reduced inside the netting compared to open plots by 94% and 96%, respectively. For a secondary pest, the red-banded leafroller (Argyrotaenia velutinana Walker; Lepidoptera: Tortricidae), moth populations were reduced by 56%. We also found that insecticide application alone did not significantly reduce pest pressure in these species. Additionally, we investigated the subsequent effects of hail netting on fruit quality and yield. The use of hail netting and insecticide application resulted in significantly higher proportions of high-quality fruit at harvest. However, netting did not significantly influence yield. These findings suggest that hail netting can be used to control Midwest apple insect pests with limited insecticide applications while maintaining high fruit quality. [ABSTRACT FROM AUTHOR]

Published

2023

38. 核桃果皮对苹果蠹蛾为害的防御响应.

Author

曹小艳, 叶晓琴, and 阿地力·沙塔尔

Subjects

CODLING moth, METABOLITES, WALNUT, ENZYMES

Abstract

Copyright of Forest Research is the property of Forest Research Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

39. PP 1/7 (4) Cydia pomonella.

Subjects

*CODLING moth, *PLANT protection, *INSECTICIDES, *SUNSHINE, *RAINFALL, *EXTREME weather, *PLANT products

Abstract

The document titled "PP 1/7 (4) Cydia pomonella" provides a standard for conducting trials to evaluate the efficacy of insecticides against Cydia pomonella, a pest that affects pome fruits. The document outlines the experimental conditions, including the selection of test organisms and crops, as well as the design and layout of the trial. It also provides guidelines for the application of treatments, assessment and recording of measurements, and reporting of results. The document emphasizes the importance of adhering to local agricultural practices and considering potential effects on non-target organisms and the environment. [Extracted from the article]

Published

2024

40. A FURTHER RECORD OF BACTRA VENOSANA (ZELLER, 1847) (LEP.: TORTRICIDAE: OLETHREUTINAE: BACTRINI) FOR GREAT BRITAIN AND IRELAND AND SOME DIAGNOSTIC NOTES.

Author

STERLING, MARK

Subjects

TORTRICIDAE, CODLING moth

Abstract

A fourth specimen of Bactra venosana (Zeller, 1847) is recorded for Great Britain and Ireland and diagnostic notes for distinguishing B. venosana from other UK species of Bactra are presented. [ABSTRACT FROM AUTHOR]

Published

2024

41. Assembly and Genome Annotation of Different Strains of Apple Fruit Moth Virus (Cydia pomonella granulovirus)

Author

Tatiana N. Lakhova, Aleksandra A. Tsygichko, Alexandra I. Klimenko, Vladimir Y. Ismailov, Gennady V. Vasiliev, Anzhela M. Asaturova, and Sergey A. Lashin

Subjects

Cydia pomonella granulovirus, codling moth, genome sequencing, comparative genomic analysis, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Cydia pomonella granulovirus is a natural pathogen for Cydia pomonella that is used as a biocontrol agent of insect populations. The study of granulovirus virulence is of particular interest since the development of resistance in natural populations of C. pomonella has been observed during the long-term use of the Mexican isolate CpGV. In our study, we present the genomes of 18 CpGV strains endemic to southern Russia and from Kazakhstan, as well as a strain included in the commercial preparation “Madex Twin”, which were sequenced and analyzed. We performed comparative genomic analysis using several tools. From comparisons at the level of genes and protein products that are involved in the infection process of virosis, synonymous and missense substitution variants have been identified. The average nucleotide identity has demonstrated a high similarity with other granulovirus genomes of different geographic origins. Whole-genome alignment of the 18 genomes relative to the reference revealed regions of low similarity. Analysis of gene repertoire variation has shown that BZR GV 4, BZR GV 6, and BZR GV L-7 strains have been the closest in gene content to the commercial “Madex Twin” strain. We have confirmed two deletions using read depth coverage data in regions lacking genes shown by homology analysis for granuloviruses BZR GV L-4 and BZR GV L-6; however, they are not related to the known genes causing viral pathogenicity. Thus, we have isolated novel CpGV strains and analyzed their potential as strains producing highly effective bioinsecticides against C. pomonella.

Published

2024

42. Modern forest pathological state of the walnut-fruit forests of Kyrgyzstan.

Author

Teshebaeva, Z. A., Zhusupbaeva, G. I., Momunova, G. A., and Kalykberdieva, A. M.

Subjects

*FOREST reserves, *CODLING moth, *LYMANTRIA dispar, *SCALE insects, *BIOLOGICAL pest control, *NUTS, *PISTACHIO

Abstract

The forest pathological state of the walnut-fruit forests of Kyrgyzstan was studied. The main factors influencing the degradation of walnut-fruit forests have been identified. It is shown that the main pests of the forest in recent years are gypsy moth (Lymantria dispar L.), cherry slimy sawfly (Caliroa cerasi L.), apple ermine moth (Yponomeuta malinella Zell.), apple codling moth (Cydia pomonella L.), blood apple aphids – (Eriosoma lanigerum Hausm), Turkestan peacock-eye (Neoris stroliczkana schenki Stgr.), Turkestan goldtail (Euproctis karghalica Moore.), California scale insect (Quadraspidiotus perniciosus Comstok), skinned moth (Erannis defoliaria Cl.), mountain ringed silkworm (Malacosoma parallela Stgr.), plum false scale insect (Sphaerolecanium prunastri Fonsc.), pistachio codling moth (Recurvaria pistaciicola Danil), pistachio pachyderm (Eurytoma plotnikovi Nik.), pistachio seed beetle (Megastigmus pistaciae Walk.), poplar leaf beetle (Chrysomela populi L.), leafworms, etc. Of the diseases of the forest on fruit crops, an outbreak is given by soot fungus, bacterial burn, powdery mildew (Podosphera leucotricha Salm.), apple scab (Venturia inaequalis Wint.), etc. The bioecological features of the cherry slimy sawfly were studied and recommendations were given for the biological control of the main pests and diseases of the forest. [ABSTRACT FROM AUTHOR]

Published

2023

43. Seasonal wild dance of dual endosymbionts in the pear psyllid Cacopsylla pyricola (Hemiptera: Psylloidea).

Author

Štarhová Serbina, Liliya, Corretto, Erika, Enciso Garcia, Juan Sebastian, Berta, Michela, Giovanelli, Tobia, Dittmer, Jessica, and Schuler, Hannes

Subjects

*JUMPING plant-lice, *HEMIPTERA, *PEARS, *ENDOSYMBIOSIS, *SEASONS, *CODLING moth

Abstract

Most sap-feeding insects maintain obligate relationships with endosymbiotic bacteria that provide their hosts with essential nutrients. However, knowledge about the dynamics of endosymbiont titers across seasons in natural host populations is scarce. Here, we used quantitative PCR to investigate the seasonal dynamics of the dual endosymbionts "Candidatus Carsonella ruddii" and "Ca. Psyllophila symbiotica" in a natural population of the pear psyllid Cacopsylla pyricola (Hemiptera: Psylloidea: Psyllidae). Psyllid individuals were collected across an entire year, covering both summer and overwintering generations. Immatures harboured the highest titers of both endosymbionts, while the lowest endosymbiont density was observed in males. The density of Carsonella remained high and relatively stable across the vegetative period of the pear trees, but significantly dropped during the non-vegetative period, overlapping with C. pyricola's reproductive diapause. In contrast, the titer of Psyllophila was consistently higher than Carsonella's and exhibited fluctuations throughout the sampling year, which might be related to host age. Despite a tightly integrated metabolic complementarity between Carsonella and Psyllophila, our findings highlight differences in their density dynamics throughout the year, that might be linked to their metabolic roles at different life stages of the host. [ABSTRACT FROM AUTHOR]

Published

2023

44. A Genome-Wide Analysis of Serine Protease Inhibitors in Cydia pomonella Provides Insights into Their Evolution and Expression Pattern.

Author

Wu, Qiang, Xing, Longsheng, Du, Min, Huang, Cong, Liu, Bo, Zhou, Hongxu, Liu, Wanxue, Wan, Fanghao, and Qian, Wanqiang

Subjects

*SERINE proteinase inhibitors, *CODLING moth, *PROTEASE inhibitors, *AMINO acid analysis, *INSECT genes, *SERINE, *SERPINS

Abstract

Serine protease inhibitors (serpins) appear to be ubiquitous in almost all living organisms, with a conserved structure and varying functions. Serpins can modulate immune responses by negatively regulating serine protease activities strictly and precisely. The codling moth, Cydia pomonella (L.), a major invasive pest in China, can cause serious economic losses. However, knowledge of serpin genes in this insect remain largely unknown. In this study, we performed a systematic analysis of the serpin genes in C. pomonella, obtaining 26 serpins from the C. pomonella genome. Subsequently, their sequence features, evolutionary relationship, and expression pattern were characterized. Comparative analysis revealed the evolution of a number of serpin genes in Lepidoptera. Importantly, the evolutionary relationship and putative roles of serpin genes in C. pomonella were revealed. Additionally, selective pressure analysis found amino acid sites with strong evidence of positive selection. Interestingly, the serpin1 gene possessed at least six splicing isoforms with distinct reactive-center loops, and these isoforms were experimentally validated. Furthermore, we observed a subclade expansion of serpins, and these genes showed high expression in multiple tissues, suggesting their important roles in C. pomonella. Overall, this study will enrich our knowledge of the immunity of C. pomonella and help to elucidate the role of serpins in the immune response. [ABSTRACT FROM AUTHOR]

Published

2023

45. Male and Female Tortricid Moth Response to Non-Pheromonal Semiochemicals.

Author

Giri, Ajay P., Short, Brent D., and Piñero, Jaime C.

Subjects

*GRAPHOLITA, *CODLING moth, *MOTHS, *APPLE orchards, *SEMIOCHEMICALS, *PHEROMONE traps, *APPLE growing

Abstract

Simple Summary: In eastern North America, apple production faces threats from various moth species, particularly the codling moth (CM), Oriental fruit moth (OFM), redbanded leafroller (RBLR), obliquebanded leafroller (OBLR), and three-lined leafroller (TLLR) in the Tortricidae family. A study in Massachusetts orchards over two years examined the response of these moths to different lures, including commercial ones like Megalure. The results revealed Megalure's attractiveness to both sexes of the OFM and CM. The addition of benzaldehyde enhanced the capture of male OFMs, suggesting its potential to improve commercial lures with aromatic compounds. In eastern North America, apple orchards are often attacked by several species of tortricid moths (Lepidoptera), including Cydia pomonella, Grapholita molesta, Argyrotaenia velutinana, and Pandemis limitata. Sex pheromones are routinely used to monitor male moth populations. Adding plant volatiles to monitoring traps could increase the capture of moths of both sexes and improve the effectiveness of mating disruption systems. This study sought to quantify the attraction of adults of four tortricid moth species to five olfactory treatments, namely (1) Pherocon® CM L2-P, (2) Pherocon Megalure CM 4K Dual® (=Megalure), (3) Megalure + benzaldehyde, (4) TRE 2266 (linalool oxide + (E)-4,8-dimethyl-1,3,7-nonatriene (DMNT)), and (5) TRE 2267 (linalool oxide + DMNT + benzaldehyde), in non-mating disrupted commercial apple orchards in Massachusetts. The commercial lure Megalure was attractive to both sexes of G. molesta and C. pomonella. The addition of benzaldehyde to TRE 2266 or to Megalure significantly increased the capture of male G. molesta during the mid and late season of 2021. Only when benzaldehyde was added to TRE 2266 did the latter lure attract P. limitata in 2020 and 2021. The greatest number of tortricid moths (all four species combined) was captured by TRE 2267. This finding highlights the opportunity to enhance the attractiveness of a commercial lure through the addition of benzaldehyde, an aromatic compound, to Megalure. The potential of these additional volatiles to detect moths in a mating-disrupted orchard and/or remove female moths as a component of a management system is discussed. [ABSTRACT FROM AUTHOR]

Published

2023

46. Increasing catches of adult moth pests (Lepidoptera: Tortricidae) in pome fruit with low‐intensity LED lights added to sex pheromone/kairomone lure‐baited traps.

Author

Knight, Alan Lee, Preti, Michele, Basoalto, Esteban, and Fuentes‐Contreras, Eduardo

Subjects

*PHEROMONE traps, *GRAPHOLITA, *TORTRICIDAE, *CODLING moth, *LEPIDOPTERA, *PHEROMONES

Abstract

Studies of moth pests (Lepidoptera: Tortricidae) of pome fruit in Washington State, USA, evaluated the addition of low‐intensity light‐emitting diode (LED) lights to traps baited with sex pheromone or kairomone lures. Species included codling moth (CM), Cydia pomonella (L.), oriental fruit moth (OFM), Grapholita molesta (Busck), oblique banded leafroller (OBLR), Choristoneura rosaceana (Harris), and eye‐spotted budmoth (ESBM), Spilonota ocellana (Denis and Schiffenmüller). Lures included (E,E)‐8,10‐dodecadien‐1‐ol (codlemone) plus (E,Z)‐2,4‐ethyl decadienoate (pear ester) and acetic acid (AA) (Combo) and a blend of pear ester, (E)‐4,8‐dimethyl‐1,3,7‐nonatriene, pyranoid linalool oxide, and AA (4K) for CM; a three‐component OFM sex pheromone ((E)‐8‐dodecen‐1‐yl‐acetate, (Z)‐8‐dodecen‐1‐yl acetate, and (Z)‐8‐dodecen‐1‐ol) plus codlemone and terpinyl acetate plus AA for OFM; and 2‐phenylethanol and AA for OBLR and ESBM. Traps baited with only LEDs were not attractive for any of these tortricids. The addition of a LED to lure‐baited traps increased male and female catches 2‐12‐fold across the four pest species. The proportional increase in CM catches with the LEDs was similar with both the Combo and 4K lures. Traps baited with the 4K lure caught significantly more CM with a UV LED than with either blue or green LEDs. The proportion of females caught in traps that were mated did not change with the use of the lights across species. Significantly more CM of both sexes were caught in the adhesive on the side of the liner nearest the LED. The addition of LEDs sometimes increased the by‐catch of minute insects, but liners' saturation was never a factor impacting targeted moth catch. Adding the LED light significantly increased the catch of ESBM in CM‐baited traps and CM in OFM‐baited traps, respectively. The development of inexpensive, dual‐modality traps that add a light stimulus to a kairomonal‐based lure may improve direct control of these key orchard pests via female removal. [ABSTRACT FROM AUTHOR]

Published

2023

47. Assessment of the probability of introduction of Thaumatotibia leucotreta into the European Union with import of cut roses.

Author

Bragard, Claude, Baptista, Paula, Chatzivassiliou, Elisavet, Di Serio, Francesco, Gonthier, Paolo, Jaques Miret, Josep Anton, Fejer Justesen, Annemarie, MacLeod, Alan, Magnusson, Christer Sven, Navas‐Cortes, Juan A, Parnell, Stephen, Potting, Roel, Reignault, Philippe Lucien, Stefani, Emilio, Thulke, Hans‐Hermann, Vicent Civera, Antonio, Van der Werf, Wopke, Yuen, Jonathan, Zappalà, Lucia, and Gutierrez, Andrew Paul

Subjects

*ROSES, *TRANSITION to adulthood, *WASTE treatment, *CODLING moth, *IMPORTS

Abstract

Following a request from the European Commission, the EFSA Panel on Plant Health performed a quantitative pest risk assessment to assess whether the import of cut roses provides a pathway for the introduction of Thaumatotibia leucotreta (Lepidoptera: Tortricidae) into the EU. The assessment was limited to the entry and establishment steps. A pathway model was used to assess how many T. leucotreta individuals would survive and emerge as adults from commercial or household wastes in an EU NUTS2 region climatically suitable in a specific season. This pathway model for entry consisted of three components: a cut roses distribution model, a T. leucotreta developmental model and a waste model. Four scenarios of timing from initial disposal of the cut roses until waste treatment (3, 7, 14 and 28 days) were considered. The estimated median number of adults escaping per year from imported cut roses in all the climatically suitable NUTS2 regions of the EU varied from 49,867 (90% uncertainty between 5,298 and 234,393) up to 143,689 (90% uncertainty between 21,126 and 401,458) for the 3‐ and 28‐day scenarios. Assuming that, on average, a successful mating will happen for every 435 escaping moths, the estimated median number of T. leucotreta mated females per year from imported cut roses in all the climatically suitable NUTS2 regions of the EU would vary from 115 (90% uncertainty between 12 and 538) up to 330 (90% uncertainty between 49 and 923) for the 3‐ and 28‐day scenarios. Due to the extreme polyphagia of T. leucotreta, host availability will not be a limiting factor for establishment. Climatic suitability assessment, using a physiologically based demographic modelling approach, identified the coastline extending from the northwest of the Iberian Peninsula through the Mediterranean as area suitable for establishment of T. leucotreta. This assessment indicates that cut roses provide a pathway for the introduction of T. leucotreta into the EU. [ABSTRACT FROM AUTHOR]

Published

2023

48. Xenorhabdus bakwenae sp. n., associated with the entomopathogenic nematode Steinernema bakwenae.

Author

Ritter, Carla L., Malan, Antoinette P., and Dicks, Leon M.T.

Subjects

*INSECT nematodes, *MOUNTAIN soils, *XENORHABDUS, *CODLING moth, *CHERRIES, *APPLE orchards, *GRAM-negative bacteria

Abstract

Summary: The bacterial strain SF857 was isolated from the entomopathogenic nematode, Steinernema bakwenae SF857, found in soil samples of St Lucie cherry, a species of cherry tree, from the Muriti farm, close to Kroondal (25°44′E, 59°99′S) in the northwest province of South Africa. Strain SF857 is Gram-negative, catalase and oxidase-negative, and lecithinase-positive. Strain SF857 shared the highest 16S rRNA gene sequence similarity (97.7%) with the type strain of Xenorhabdus ishibashii. However, a comparison of housekeeping gene sequences showed that strain SF857 grouped closer to X. griffiniae , X. ehlersii and X. thuongxuanensis than to X. ishibashii. Digital DNA-DNA hybridisation (dDDH) between strain SF857 and all Xenorhabdus spp. is less than the 70% species threshold, confirming that the strain belongs to a separate species. Furthermore, the biochemical characteristics of strain SF857 differ from other Xenorhabdus spp. Based on these findings, strain SF857 represents a novel species within the genus Xenorhabdus , for which the name Xenorhabdus bakwenae sp. n. (type strain SF857T) is proposed. Pathogenicity bioassays with last-instar Cydia pomonella showed S. bakwenae to be highly virulent, with potential use as a biocontrol agent in apple orchards. [ABSTRACT FROM AUTHOR]

Published

2023

49. Estimating plume reach and trapping radii for male and female Cydia pomonella (Lepidoptera: Tortricidae) captured in pheromone–kairomone baited traps in Washington State apple orchards under mating disruption.

Author

Curtiss, R T, Nottingham, Louis, and Gut, Larry J

Subjects

PHEROMONE traps, APPLE orchards, CODLING moth, TORTRICIDAE, LEPIDOPTERA, FEMALES, LARVAE

Abstract

Male Cydia pomonella (L.) (Lepidoptera: Tortricidae) dispersion has largely been studied in nonmating disrupted orchards due to synthetic pheromone interference with capture in monitoring traps. Little is known about female dispersion. This study aimed to characterize male and female dispersion in mating disrupted commercial apple orchards. Sterile C. pomonella recapture data from single-trap multiple-release experiments using PHEROCON CM-DA COMBO + AA Lure-baited orange Pherocon VI delta traps was interpreted to determine pheromone–kairomone lure-baited trap effective area, trap deployment density for effective monitoring, and absolute male and female C. pomonella density in mating disrupted Washington commercial apple orchards. The maximum plume reach of the pheromone–kairomone lure in mating disrupted orchards was <5 m from the baited trap for both sexes. Maximum dispersive distances for 95% of the released C. pomonella in mating disrupted orchards were 106 and 135 m for males and females, yielding trapping areas of 3.87 and 6.16 ha, respectively. Estimates were consistent across 3 growing seasons and represent the first records of male and female dispersal distance and monitoring trap efficacy from commercial C. pomonella mating disrupted apple orchards. With relevance to commercial monitoring programs and economic thresholds in mating disrupted orchards, traps should be deployed at a density of 1 per 3–6 ha. Capture of a single male or female C. pomonella corresponds to at least 82–104 C. pomonella within the 3–6 ha trapping area. This refined C. pomonella capture interpretation in pheromone–kairomone baited traps in mating disrupted commercial apple orchards yields more precise damage estimates and assists in insecticide-use decision making. [ABSTRACT FROM AUTHOR]

Published

2023

50. Study on the Fragrant Pear-Picking Sequences Based on the Multiple Weighting Method.

Author

Ma, Wenhong, Yang, Zhouyang, Qi, Xiaochen, Xu, Yu, Liu, Dan, Tan, Housen, Li, Yongbin, and Yang, Xuhai

Subjects

ANT algorithms, PEARS, HARVESTING time, OPTIMIZATION algorithms, ENERGY consumption, RANGE of motion of joints, CODLING moth, ANTS

Abstract

The production of the Korla fragrant pear is significant, but the optimal harvesting time is short; therefore, the reasonable use of mechanical arms for harvesting is conducive to promoting the sustainable development of the fragrant pear industry. The efficiency of a robot arm when picking fragrant pears is not only determined by the successful extraction of fragrant pears in a complex environment, but the picking sequence of fragrant pears also directly affects the efficiency of the robot arm. In order to simulate an orchard-picking scenario, this paper built three fragrant pear tree models indoors. The number of fragrant pears on the fragrant pear trees was 5, 10, and 20. Three sets of experiments were designed for comparison with real-world conditions. The main steps were as follows: calibrate the three-dimensional coordinates of each fragrant pear on the fragrant pear trees; determine the end position of the robotic arm at each picking point; find the inverse solution for each group; transform the solutions into matrix form using the rated power of each joint as the weight, and identify the minimum value, which is the angle of each joint in the robotic arm when picking the fragrant pear; use the intelligent socket to find the average energy consumption and average time consumed for picking each group of fragrant pears; and determine the loss ratio of the robotic arm based on the amount of rotation in each joint during picking. The experimental results show that the multiple weighting method reduced the energy consumption by 10.627%, 16.072%, and 24.417%, and the time consumption by 11.988%, 14.428%, and 22.561%, respectively, relative to the hybrid ant colony–particle swarm optimization algorithm, which proves the rationality of the fragrant pear picking order delineated using the multiple weighting method. [ABSTRACT FROM AUTHOR]

Published

2023