Your search keyword '"PARASITOID WASP"' showing total 2,280 results

1. A new enigmatic genus of the ichneumonid subfamily Ctenopelmatinae (Hymenoptera, Ichneumonidae) from Thailand

Author

Ranjith, Avunjikkattu Parambil, Quicke, Donald L. J., Reshchikov, Alexey, Butcher, Buntika, and Pensoft Publishers

Subjects

Malaise trap, new species, parasitoid wasp, South East Asia, taxonomy

Published

2024

2. Taxonomic revision of the extant species of the Japanese Stephanidae (Hymenoptera), with discussion on distribution pattern and conservation importance.

Author

Watanabe, Kyohei

Abstract

The Japanese species of the family Stephanidae Leach, 1815 are revised. A total of nine extant species are recognized from Japan, including two new species, Megischus pretiosussp. nov. and Parastephanellus ryukyuensissp. nov., and one species, Foenatopus ruficollis (Enderlein, 1913), is newly recorded from Japan. The female of Foenatopus cervinus Townes, 1958 and the male of Megischus baogong Ge & Tan, 2022 are newly described. A key to the Japanese genera and species of this family is proposed. The biogeographic pattern and the origin of Japanese stephanids, the role of Kuroshio Current, and the conservation importance of endemic species to the Ogasawara (Bonin) Islands are also discussed. [ABSTRACT FROM AUTHOR]

Published

2024

3. Supplementary sugars enhance the production efficiency and parasitism performance of the egg parasitoid Trichogramma dendrolimi (Hymenoptera: Trichogrammatidae).

Author

Xu, Haoyang, Li, Yisong, Fang, Haibo, Liu, Xiaoxia, Zhang, Songdou, Chen, Qiuming, and Li, Zhen

Subjects

APHIS glycines, BIOLOGICAL pest control agents, BROOD parasitism, HYMENOPTERA, TRICHOGRAMMA

Abstract

Trichogramma spp. wasps are egg parasitoids with a long history of mass rearing for augmentation biocontrol programs in field crop and orchard landscapes. Supplementary nutrition can improve the longevity, fecundity, and biocontrol efficacy of parasitoids. To improve the production efficiency and parasitism performance of Trichogramma dendrolimi Matsumura (Hymenoptera: Trichogrammatidae), the present study screened and examined the potential supplementary nutrients for this biological control agent. Dietary supplementation with a 10% sucrose solution significantly increased wasp longevity and parasitism potential of T. dendrolimi on host eggs, but provision of pollen did not provide additional benefits. Laboratory and greenhouse cage tests demonstrated that wasp access to soybean aphid Aphis glycines Matsumura (Hemiptera: Aphididae) honeydew, comprised primarily of melezitose and trehalose, improved T. dendrolimi longevity and parasitism. In conclusion, provision of a 10% sucrose solution to adult wasps will enhance the mass-rearing efficiency of T. dendrolimi ; furthermore, field release of T. dendrolimi by plant vectors bearing honeydew-producing aphids holds promise for improving the biocontrol efficacy of T. dendrolimi. [ABSTRACT FROM AUTHOR]

Published

2024

4. The Chromosome-level Genome Provides Insights into the Evolution and Adaptation of Extreme Aggression.

Author

Liu, Peng-Cheng, Wang, Zi-Yin, Qi, Mei, and Hu, Hao-Yuan

Subjects

ANIMAL aggression, MOLECULAR biology, ENDANGERED species, MULTIOMICS, ANTIBACTERIAL agents

Abstract

Extremely aggressive behavior, as the special pattern, is rare in most species and characteristic as contestants severely injured or killed ending the combat. Current studies of extreme aggression are mainly from the perspectives of behavioral ecology and evolution, while lacked the aspects of molecular evolutionary biology. Here, a high-quality chromosome-level genome of the parasitoid Anastatus disparis was provided, in which the males exhibit extreme mate-competition aggression. The integrated multiomics analysis highlighted that neurotransmitter dopamine overexpression, energy metabolism (especially from lipid), and antibacterial activity are likely major aspects of evolutionary formation and adaptation for extreme aggression in A. disparis. Conclusively, our study provided new perspectives for molecular evolutionary studies of extreme aggression as well as a valuable genomic resource in Hymenoptera. [ABSTRACT FROM AUTHOR]

Published

2024

5. Using DNA barcoding to identify high-priority taxa (Hymenoptera: Ichneumonidae) from Great Smoky Mountains National Park.

Author

Landers, Emerie, Claridge, Brandon, Kuhn, Will, Seymour, Victoria, Peek, Hettie, Fluet, Scout, Ramgren, Jake, Phelps, Jake, Paulk, Brayden, Cordner, Lydia, and Blaschke, Jeremy

Subjects

GENETIC barcoding, ICHNEUMONIDAE, NATIONAL parks & reserves, HYMENOPTERA, TAXONOMISTS

Abstract

The All Taxa Biodiversity Inventory (ATBI) in Great Smoky Mountains National Park (GSMNP) seeks to document every species of living thing in the park. The ATBI is decades in progress, yet some taxa remain virtually untouched by taxonomists. Such "high priority" taxa include the hyper-diverse parasitoid wasp family Ichneumonidae. Despite the positive and multifaceted effects ichneumonids have on their environment, only a small percentage of those collected in the park have been identified as species, mostly to their complex morphology and overwhelming diversity. Recently, DNA barcoding has transformed biodiversity inventories, streamlining the process to be more rapid and efficient. To test the effectiveness of barcoding 20 + year-old specimens of Ichneumonidae and catalog new records for GSMNP, COI was amplified from 95 ichneumonid morphospecies collected from Andrew's Bald, NC. Species identifications were confirmed morphologically. Eighty-one ichneumonids generated sequence data, representing 16 subfamilies and 44 genera. The subfamily Oxytorinae is newly recorded from GSMNP, along with 10 newly recorded genera and 23 newly recorded species across Ichneumonidae. These results contribute significantly to the ATBI by adding new park records for a high-priority taxon and demonstrate the effectiveness of applying DNA barcoding to samples in long-term storage or those lacking immediate taxonomic expertise. [ABSTRACT FROM AUTHOR]

Published

2024

6. Inhibition of the Notch signal transducer CSL by Pkc53E-mediated phosphorylation to fend off parasitic immune challenge in Drosophila

Author

Sebastian Deichsel, Lisa Frankenreiter, Johannes Fechner, Bernd M Gahr, Mirjam Zimmermann, Helena Mastel, Irina Preis, Anette Preiss, and Anja C Nagel

Subjects

immune challenge, notch inhibition, protein kinase C 53E, CSL/suppressor of hairless, parasitoid wasp, host defense, Medicine, Science, Biology (General), QH301-705.5

Abstract

Notch signalling activity regulates hematopoiesis in Drosophila and vertebrates alike. Parasitoid wasp infestation of Drosophila larvae, however, requires a timely downregulation of Notch activity to allow the formation of encapsulation-active blood cells. Here, we show that the Drosophila CSL transcription factor Suppressor of Hairless [Su(H)] is phosphorylated at Serine 269 in response to parasitoid wasp infestation. As this phosphorylation interferes with the DNA binding of Su(H), it reversibly precludes its activity. Accordingly, phospho-deficient Su(H)S269A mutants are immune-compromised. A screen for kinases involved in Su(H) phosphorylation identified Pkc53E, required for normal hematopoiesis as well as for parasitoid immune response. Genetic and molecular interactions support the specificity of the Su(H)-Pkc53E relationship. Moreover, phorbol ester treatment inhibits Su(H) activity in vivo and in human cell culture. We conclude that Pkc53E targets Su(H) during parasitic wasp infestation, thereby remodelling the blood cell population required for wasp egg encapsulation.

Published

2024

7. Effective control of insect pests through intercropping of cabbage with barley and buckwheat: Effective control of insect pests through intercropping

Author

Sekine, Takayuki, Oe, Takaho, Komagata, Yasuyuki, and Itabashi, Takeru

Published

2024

8. Susceptibility of European Agrilus beetle species to the biocontrol agents of Emerald Ash Borer in the laboratory

Author

Katy Reed, Freya Cole, Neil Audsley, Anastasia Uglow, Rachel Down, Kerry Barnard, and Daegan Inward

Subjects

Agrilus planipennis, Biological control, Parasitoid wasp, Invasive pest, Agriculture, Biology (General), QH301-705.5

Abstract

The emerald ash borer (EAB, Agrilus planipennis Fairmaire (Coleoptera: Buprestidae) is devastating ash trees in its invaded range of North America and spreading rapidly towards Western Europe from European Russia and Ukraine. To allow a rapid response when the beetle is detected, slow its spread and protect trees as part of a wider integrated pest management programme, pre-emptive biological control strategies that are suitable for Great Britain and the rest of Europe must urgently be developed. Three classical hymenopteran biological control agents have been mass-reared and released within North America to control EAB: the egg parasitoid Oobius agrili Zhang and Huang (Hymenoptera: Encyrtidae), and the larval parasitoids Tetrastichus planipennisi and Spathius galinae Belokobylskij & Strazanac (Hymenoptera: Braconidae). This study presents data on the risk these parasitoid wasps might pose to British Agrilus beetles. “No-choice” laboratory assays tested the susceptibility of A. biguttatus Fabricus eggs and larvae and A. sulcicollis Lacordaire and A. convexicollis Redtenbacher eggs to the parasitoids. Oobius agrili, T. planipennisi and S. galinae all attacked A. biguttatus, and offspring were produced. Oobius agrili also attacked the eggs of A. convexicollis, but not A. sulcicollis. This study is the first to show parasitism of a non-target species by T. planipennisi. Further work is needed to fully assess the non-target risk of these parasitoids for release using more ecologically relevant tests, such as ‘choice’, semi-field and chemical ecology assays on the attacked Agrilus species.

Published

2025

9. Parasitoid wasp venom re-programs host behavior through downmodulation of brain central complex activity and motor output

Author

Rana, Amit, Adams, Michael E, and Libersat, Frederic

Subjects

Biological Sciences, Neurosciences, Neurological, Animals, Wasps, Wasp Venoms, Insect Bites and Stings, Cockroaches, Periplaneta, Brain, Venom, Central complex, Cockroach, Descending control, Locomotion, Parasitoid wasp, Medical and Health Sciences, Physiology, Biological sciences

Abstract

The parasitoid wasp Ampulex compressa hunts down its host, the American cockroach (Periplaneta americana), and envenomates its brain to make it a behaviorally compliant food supply for its offspring. The primary target of the wasp sting is a locomotory command center called the central complex (CX). In the present study, we employ, for the first time, chronic recordings of patterned cockroach CX activity in real time as the brain is infused with wasp venom. CX envenomation is followed by sequential changes in the pattern of neuronal firing that can be divided into three distinct temporal phases during the 2 h interval after venom injection: (1) reduction in neuronal activity for roughly 10 min immediately after venom injection; (2) rebound of activity lasting up to 25 min; (3) reduction of ongoing activity for up to 2 h. Long-term reduction of CX activity after venom injection is accompanied by decreased activity of both descending interneurons projecting to thoracic locomotory circuitry (DINs) and motor output. Thus, in this study, we provide a plausible chain of events starting in the CX that leads to decreased host locomotion following brain envenomation. We propose that these events account for the onset and maintenance of the prolonged hypokinetic state observed in stung cockroaches.

Published

2023

10. Three new species of the genus Rhogadopsis Brèthes (Hymenoptera, Braconidae, Opiinae) from South Korea.

Author

Han, Yunjong, van Achterberg, Cornelis, and Kim, Hyojoong

Subjects

*BRACONIDAE, *HYMENOPTERA, *WASPS, *SYNONYMS, *SPECIES

Abstract

Three new species of Rhogadopsis Brèthes, 1913 (R. clausulata sp. nov., R. obliqoides sp. nov. and R. setosipunctata sp. nov.) are described and illustrated. Rhogadopsis unicarinata (Fischer, 1959) is a new combination and a new synonym of R. mediocarinata (Fischer, 1963), syn. nov. An identification key to the species of Rhogadopsis known from South Korea is provided. [ABSTRACT FROM AUTHOR]

Published

2024

11. Transcriptomic Insights into Host Metabolism and Immunity Changes after Parasitization by Leptopilina myrica.

Author

Zhang, Junwei, Shan, Jieyu, Shi, Wenqi, Feng, Ting, Sheng, Yifeng, Xu, Zixuan, Dong, Zhi, Huang, Jianhua, and Chen, Jiani

Subjects

*FATTY acid synthases, *INTEGRATED pest control, *TRANSCRIPTOMES, *METABOLISM, *SEX allocation, HOSTS of parasitoids

Abstract

Simple Summary: The intricate coevolution between parasitoids and their hosts has long been a hot research topic. Parasitoids usually manipulate the host's metabolism and immunity to favor the development of their offspring. In this study, we employed RNA-sequencing (RNA-seq) analysis to explore the mechanisms of the manipulation strategy of Leptopilina myrica on its host Drosophila melanogaster. A total of 445 differentially expressed genes (DEGs) were identified in host larvae at 48 h post parasitization. Among them, a large proportion of DEGs plays essential roles in host nutrition metabolism and immunity. Furthermore, the reliability of our RNA-seq data was confirmed through a qRT-PCR analysis. Our findings help to elucidate the potential mechanism underlying wasp parasitization and provide insights into their applications in biological control and integrated pest management in agriculture. Parasitoids commonly manipulate their host's metabolism and immunity to facilitate their offspring survival, but the mechanisms remain poorly understood. Here, we deconstructed the manipulation strategy of a newly discovered parasitoid wasp, L. myrica, which parasitizes D. melanogaster. Using RNA-seq, we analyzed transcriptomes of L. myrica-parasitized and non-parasitized Drosophila host larvae. A total of 22.29 Gb and 23.85 Gb of clean reads were obtained from the two samples, respectively, and differential expression analysis identified 445 DEGs. Of them, 304 genes were upregulated and 141 genes were downregulated in parasitized hosts compared with non-parasitized larvae. Based on the functional annotations in the Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) databases, we found that the genes involved in host nutrition metabolism were significantly upregulated, particularly in carbohydrate, amino acid, and lipid metabolism. We also identified 30 other metabolism-related DEGs, including hexokinase, fatty acid synthase, and UDP-glycosyltransferase (Ugt) genes. We observed that five Bomanin genes (Boms) and six antimicrobial peptides (AMPs) were upregulated. Moreover, a qRT-PCR analysis of 12 randomly selected DEGs confirmed the reproducibility and accuracy of the RNA-seq data. Our results provide a comprehensive transcriptomic analysis of how L. myrica manipulates its host, laying a solid foundation for studies on the regulatory mechanisms employed by parasitoid wasps in their hosts. [ABSTRACT FROM AUTHOR]

Published

2024

12. Cellular Immunity of Drosophila willistoni Reveals Novel Complexity in Insect Anti-Parasitoid Defense.

Author

Cinege, Gyöngyi, Fodor, Kinga, Magyar, Lilla B., Lipinszki, Zoltán, Hultmark, Dan, and Andó, István

Subjects

*CELLULAR immunity, *INSECT defenses, *CELL fusion, *IMMUNE response, *PHAGOCYTOSIS, *DROSOPHILA

Abstract

Coevolution of hosts and their parasites has shaped heterogeneity of effector hemocyte types, providing immune defense reactions with variable effectiveness. In this work, we characterize hemocytes of Drosophila willistoni, a species that has evolved a cellular immune system with extensive variation and a high degree of plasticity. Monoclonal antibodies were raised and used in indirect immunofluorescence experiments to characterize hemocyte subpopulations, follow their functional features and differentiation. Pagocytosis and parasitization assays were used to determine the functional characteristics of hemocyte types. Samples were visualized using confocal and epifluorescence microscopy. We identified a new multinucleated giant hemocyte (MGH) type, which differentiates in the course of the cellular immune response to parasitoids. These cells differentiate in the circulation through nuclear division and cell fusion, and can also be derived from the central hematopoietic organ, the lymph gland. They have a binary function as they take up bacteria by phagocytosis and are involved in the encapsulation and elimination of the parasitoid. Here, we show that, in response to large foreign particles, such as parasitoids, MGHs differentiate, have a binary function and contribute to a highly effective cellular immune response, similar to the foreign body giant cells of vertebrates. [ABSTRACT FROM AUTHOR]

Published

2024

13. Lack of impact of Wolbachia on foraging behavior and morphological characteristics of the parasitoid wasp, Habrobracon hebetor (Braconidae)

Author

Niloufar Doostalizadeh, Ali Asghar Talebi, Yaghoub Fathipour, Ary Hoffmann, and Mohammad Mehrabadi

Subjects

Wolbachia, Symbiont-insect interaction, Foraging behavior, Parasitoid wasp, Agriculture, Biology (General), QH301-705.5

Abstract

Wolbachia are the most widespread intracellular alphaproteobacteria in insects with a variety of phenoptypic effects on the fitness and reproduction of their host, but much less is known about how these bacteria affect host behavior. In this study, we asked whether Wolbachia affects the foraging behavior of the parasitoid wasp Habrobracon hebetor (Hym.: Braconidae), an important biological control agent of many lepidopteran larvae. To test this, we analyzed the functional and numerical responses of Wolbachia-infected and uninfected (tetracycline cured) wasps, as well as morphological parameters. Functional response analysis showed Holling type II responses in both the Wolbachia-infected and uninfected females. The handling time and searching efficiency of Wolbachia-infected and uninfected females were similar, although the estimated maximum parasitism rate was shorter in infected females. Regardless of Wolbachia infection status, there was a negative non-linear relationship between the number of larvae parasitized by a female and an increase in the host density, reflecting a decrease in the total number of eggs laid. Our results also showed that Wolbachia had no effect on morphological traits of the parasitoid wasp. Together, these results suggest that Wolbachia which are prevalent in H. hebetor have limited impact on foraging behavior and morphology.

Published

2024

14. An odorant receptor mediates the avoidance of Plutella xylostella against parasitoid

Author

Yipeng Liu, Sai Zhang, Song Cao, Emmanuelle Jacquin-Joly, Qiong Zhou, Yang Liu, and Guirong Wang

Subjects

Plutella xylostella, Odorant receptor, Heptanal, Avoidance behavior, Parasitoid wasp, Biology (General), QH301-705.5

Abstract

Abstract Background Ecosystems are brimming with myriad compounds, including some at very low concentrations that are indispensable for insect survival and reproduction. Screening strategies for identifying active compounds are typically based on bioassay-guided approaches. Results Here, we selected two candidate odorant receptors from a major pest of cruciferous plants—the diamondback moth Plutella xylostella—as targets to screen for active semiochemicals. One of these ORs, PxylOR16, exhibited a specific, sensitive response to heptanal, with both larvae and adult P. xylostella displaying heptanal avoidance behavior. Gene knockout studies based on CRISPR/Cas9 experimentally confirmed that PxylOR16 mediates this avoidance. Intriguingly, rather than being involved in P. xylostella–host plant interaction, we discovered that P. xylostella recognizes heptanal from the cuticular volatiles of the parasitoid wasp Cotesia vestalis, possibly to avoid parasitization. Conclusions Our study thus showcases how the deorphanization of odorant receptors can drive discoveries about their complex functions in mediating insect survival. We also demonstrate that the use of odorant receptors as a screening platform could be efficient in identifying new behavioral regulators for application in pest management.

Published

2024

15. Editorial: Community series in recent advances in Drosophila cellular and humoral innate immunity: volume II.

Author

Vesala, Laura, Hultmark, Dan, and Valanne, Susanna

Subjects

NATURAL immunity, DROSOPHILA, ADENOID cystic carcinoma, HUMORAL immunity

Abstract

The article is an editorial introducing a community series on recent advances in Drosophila cellular and humoral innate immunity. The series includes original research and review articles by experts in the field. The articles cover topics such as immune cell diversity, regulatory mechanisms, tumor-associated hemocytes, metabolic changes in immune cells, and the impact of fungal infections. The authors highlight the importance of Drosophila as a model organism for studying host-pathogen interactions and potential therapeutic targets. [Extracted from the article]

Published

2024

16. New Species of Grotea (Hymenoptera, Ichneumonidae, Labeninae) from Ecuador, with New Records and a Key to the Neotropical Species

Author

Mazón, Marina, Bordera, Santiago, and Broad, Gavin R.

Published

2024

17. An odorant receptor mediates the avoidance of Plutella xylostella against parasitoid

Author

Liu, Yipeng, Zhang, Sai, Cao, Song, Jacquin-Joly, Emmanuelle, Zhou, Qiong, Liu, Yang, and Wang, Guirong

Published

2024

18. Identification of candidate genes associated with host-seeking behavior in the parasitoid wasp Diachasmimorpha longicaudata

Author

Wulff, Juan P., Traverso, Lucila M., Latorre-Estivalis, Jose M., Segura, Diego F., and Lanzavecchia, Silvia B.

Published

2024

19. Behavioural consequences of intraspecific variability in a mate recognition signal.

Author

Steurer, Maximilian, Ruther, Joachim, and Pokorny, Tamara

Subjects

*PHEROMONES, *CLEARCUTTING

Abstract

Mate recognition is paramount for sexually reproducing animals, and many insects rely on cuticular hydrocarbons (CHCs) for close-range sexual communication. To ensure reliable mate recognition, intraspecific sex pheromone variability should be low. However, CHCs can be influenced by several factors, with the resulting variability potentially impacting sexual communication. While intraspecific CHC variability is a common phenomenon, the consequences thereof for mate recognition remain largely unknown. We investigated the effect of CHC variability on male responses in a parasitoid wasp showing a clear-cut within-population CHC polymorphism (three distinct female chemotypes, one thereof similar to male profiles). Males clearly discriminated between female and male CHCs, but not between female chemotypes in no-choice assays. When given a choice, a preference hierarchy emerged. Interestingly, the most attractive chemotype was the one most similar to male profiles. Mixtures of female CHCs were as attractive as chemotype-pure ones, while a female–male mixture negatively impacted male responses, indicating assessment of the entire, complex CHC profile composition. Our study reveals that the evaluation of CHC profiles can be strict towards 'undesirable' features, but simultaneously tolerant enough to cover a range of variants. This reconciles reliable mate recognition with naturally occurring variability. [ABSTRACT FROM AUTHOR]

Published

2024

20. Case Study: the Application of Trichogramma Evanescens Westwood (Hymenoptera: Trichogrammatidae) as a Novel Integrated Pest Management Solution against Webbing Clothes Moth Tineola Bisselliella Hummel (Lepidoptera: Tineidae) at Burghley House, Stamford, UK

Author

Shewry, Louise, Hey, Melinda, and Grimshaw, Kelly

Subjects

*INTEGRATED pest control, *TRICHOGRAMMA, *TRICHOGRAMMATIDAE, *LEPIDOPTERA, *CLOTHING & dress, *BIOLOGICAL pest control, *BIOLOGICAL control of insects

Abstract

An on-going webbing clothes moth Tineola bisselliella (WCM) infestation at Burghley House (Burghley) in Stamford, UK was targeted using a novel integrated pest management (IPM) biological control method, the application of parasitoid wasp Trichogramma evanescens (TE). Although widely used in agriculture and stored product protection, previous heritage application of the parasitoid wasp is limited, even more so within the parameters of a historic house context. The short trial presented was designed to assess the feasibility of parasitoid application as an alternative method of IPM within an historic house. The trial was also intended to determine whether parasitoids could be effectively applied by conservators independent of a pest control company. Knowledge of WCM and TE biology and behaviour was a prerequisite for successfully conducting this biological trial. Results suggest that parasitoid wasp TE may be effective within an historic house as a novel form of IPM against WCM, however no firm conclusions are drawn due to the trial's length of only three months. It is suggested a trial of minimum one-year duration, covering multiple WCM breeding cycles, is required to determine wasp efficacy against WCM infestation. However, it is concluded that this trial successfully demonstrates that parasitoid wasps can be applied as a form of IPM by conservators within the heritage sector independent of pest control/ biological control companies, and that parasitoid wasp application offers a viable method of IPM within an historic house. [ABSTRACT FROM AUTHOR]

Published

2024

21. Unveiling Molecular Effects of the Secondary Metabolite 2-Dodecanone in the Model Hymenopteran Nasonia vitripennis.

Author

Planelló, Rosario, Aquilino, Mónica, Beaugeard, Laureen, Llorente, Lola, Herrero, Óscar, Siaussat, David, and Lécureuil, Charlotte

Subjects

PARASITIC insects, PUPAE, INSECT-plant relationships, GENE expression, PEST control, PLANT parasites, BIOPESTICIDES

Abstract

Over the past decade, multiple studies have suggested that the secondary metabolites produced by plants against herbivorous insects could be used as biopesticides. However, as the molecular mechanism of action of these compounds remains unknown, it is difficult to predict how they would affect non-target insects; thus, their innocuity needs to be clarified. Here, we investigate, from the molecular level to the organism, the responses of a useful parasitic insect Nasonia vitripennis (Walker, 1836) being exposed at the pupae stage for 48 h (up to 6 days) to sublethal doses (5 µg/L and 500 µg/L) of 2-Dodecanone. 2-Dodecanone altered the gene expression of genes related to ecdysone-related pathways, biotransformation, and cell homeostasis. A significant induction of ecdysone response-genes (EcR, usp, E78, Hr4, Hr38) was detected, despite no significant differences in ecdysteroid levels. Regarding the cell homeostasis processes, the gene l(2)efl was differentially altered in both experimental conditions, and a dose-dependent induction of hex81 was observed. 2-Dodecanone also triggered an induction of Cyp6aQ5 activity. Finally, 2-Dodecanone exposure had a significant effect on neither development time, energy reserves, nor egg-laying capacity; no potential genotoxicity was detected. For the first time, this study shows evidence that 2-Dodecanone can modulate gene expression and interfere with the ecdysone signalling pathway in N. vitripennis. This could lead to potential endocrine alterations and highlight the suitability of this organism to improve our general understanding of the molecular effects of plant defences in insects. Our findings provide new insights into the toxicity of 2-Dodecanone that could potentially be explored in other species and under field conditions for plant protection and pest management as a means to reduce reliance on synthetic pesticides. [ABSTRACT FROM AUTHOR]

Published

2024

22. Coordinated molecular and ecological adaptations underlie a highly successful parasitoid

Author

Lan Pang, Gangqi Fang, Zhiguo Liu, Zhi Dong, Jiani Chen, Ting Feng, Qichao Zhang, Yifeng Sheng, Yueqi Lu, Ying Wang, Yixiang Zhang, Guiyun Li, Xuexin Chen, Shuai Zhan, and Jianhua Huang

Subjects

parasitoid wasp, venom, teratocyte, interspecific competition, intraspecific competition, molecular adaptations, Medicine, Science, Biology (General), QH301-705.5

Abstract

The success of an organism depends on the molecular and ecological adaptations that promote its beneficial fitness. Parasitoids are valuable biocontrol agents for successfully managing agricultural pests, and they have evolved diversified strategies to adapt to both the physiological condition of hosts and the competition of other parasitoids. Here, we deconstructed the parasitic strategies in a highly successful parasitoid, Trichopria drosophilae, which parasitizes a broad range of Drosophila hosts, including the globally invasive species D. suzukii. We found that T. drosophilae had developed specialized venom proteins that arrest host development to obtain more nutrients via secreting tissue inhibitors of metalloproteinases (TIMPs), as well as a unique type of cell—teratocytes—that digest host tissues for feeding by releasing trypsin proteins. In addition to the molecular adaptations that optimize nutritional uptake, this pupal parasitoid has evolved ecologically adaptive strategies including the conditional tolerance of intraspecific competition to enhance parasitic success in older hosts and the obligate avoidance of interspecific competition with larval parasitoids. Our study not only demystifies how parasitoids weaponize themselves to colonize formidable hosts but also provided empirical evidence of the intricate coordination between the molecular and ecological adaptations that drive evolutionary success.

Published

2024

23. Online citizen sciences reveal natural enemies and new occurrence data of Meteorus stellatus Fujie, Shimizu & Maeto, 2021 (Hymenoptera, Braconidae, Euphorinae)

Author

Shimizu, So, Chen, Hsuan-Pu, Lin, Kai-Ti, Chen, Ren-Jye, Fujie, Shunpei, Hung, Su-Chuan, Lo, Mei-Ling, Tsai, Ke-Hsiung, Maeto, Kaoru, and Pensoft Publishers

Subjects

Facebook, Ichneumonidae, Lepidoptera, parasitoid wasp, predator, Pteromalidae, social media, Sphingidae, Trichogrammatidae, Vespidae

Published

2023

24. Three new species and two new records of the genus Phaenocarpa Foerster (Hymenoptera, Braconidae, Alysiinae) from South Korea

Author

Sohn, Juhyeong, Achterberg, C. van, Lee, Gyeonghyeon, Kim, Hyojoong, and Pensoft Publishers

Subjects

COI barcode, cyclostome, koinobiont, natural enemy, parasitoid wasp, systematics, taxonomy

Published

2021

25. Revision of the genus Schoenlandella (Hymenoptera, Braconidae, Cardiochilinae) in the New World, with a potential biological control agent for a lepidopteran pest of bitter gourd (Momordica charantia L.)

Author

Kang, Ilgoo, Sharkey, Michael J., Diaz, Rodrigo, and Pensoft Publishers

Subjects

Caribbean Islands, Crambidae, melonworm moth, Neotropical region, parasitoid wasp

Published

2021

26. Revision of the genus Xanthopimpla Saussure, 1892 (Hymenoptera, Ichneumonidae, Pimplinae) from Japan

Author

Watanabe, Kyohei, Matsumoto, Rikio, and Pensoft Publishers

Subjects

Asia, Biogeography, bionomics, new species, parasitoid wasp, Ryukyu Islands, taxonomy

Published

2021

27. Revision of Iranian Schoenlandella Cameron, 1905 (Hymenoptera, Braconidae, Cardiochilinae) with descriptions of two new species from Hormozgan province

Author

Kang, Ilgoo, Ameri, Ali, Sharkey, Michael J., and Pensoft Publishers

Subjects

Old World, parasitoid wasp, taxonomy, Western Palearctic region

Published

2021

28. How to eliminate pathogen without killing oneself? Immunometabolism of encapsulation and melanization in Drosophila.

Author

Dolezal, Tomas

Subjects

SUICIDE, DROSOPHILA, METABOLIC regulation, IMMUNE response, CELL differentiation

Abstract

Cellular encapsulation associated with melanization is a crucial component of the immune response in insects, particularly against larger pathogens. The infection of a Drosophila larva by parasitoid wasps, like Leptopilina boulardi, is the most extensively studied example. In this case, the encapsulation and melanization of the parasitoid embryo is linked to the activation of plasmatocytes that attach to the surface of the parasitoid. Additionally, the differentiation of lamellocytes that encapsulate the parasitoid, along with crystal cells, is accountable for the melanization process. Encapsulation and melanization lead to the production of toxic molecules that are concentrated in the capsule around the parasitoid and, at the same time, protect the host from this toxic immune response. Thus, cellular encapsulation and melanization represent primarily a metabolic process involving the metabolism of immune cell activation and differentiation, the production of toxic radicals, but also the production of melanin and antioxidants. As such, it has significant implications for host physiology and systemic metabolism. Proper regulation of metabolism within immune cells, as well as at the level of the entire organism, is therefore essential for an efficient immune response and also impacts the health and overall fitness of the organism that survives. The purpose of this "perspective" article is to map what we know about the metabolism of this type of immune response, place it in the context of possible implications for host physiology, and highlight open questions related to the metabolism of this important insect immune response. [ABSTRACT FROM AUTHOR]

Published

2023

29. Microbiome composition is shaped by geography and population structure in the parasitic wasp Asobara japonica, but not in the presence of the endosymbiont Wolbachia.

Author

Brinker, Pina, Chen, Fangying, Chehida, Yacine Ben, Beukeboom, Leo W., Fontaine, Michael C., and Salles, Joana Falcao

Subjects

*PARASITIC wasps, *POPULATION geography, *WOLBACHIA, *BIOMES, *GLOBAL environmental change, *WHOLE genome sequencing

Abstract

The microbial community composition is crucial for diverse life‐history traits in many organisms. However, we still lack a sufficient understanding of how the host microbiome is acquired and maintained, a pressing issue in times of global environmental change. Here we investigated to what extent host genotype, environmental conditions, and the endosymbiont Wolbachia influence the bacterial communities in the parasitic wasp Asobara japonica. We sampled multiple wasp populations across 10 locations in their natural distribution range in Japan and sequenced the host genome (whole genome sequencing) and microbiome (16S rRNA gene). We compared the host population structure and bacterial community composition of wasps that reproduce sexually and are uninfected with Wolbachia with wasps that reproduce asexually and carry Wolbachia. The bacterial communities in asexual wasps were highly similar due to a strong effect of Wolbachia rather than host genomic structure. In contrast, in sexual wasps, bacterial communities appear primarily shaped by a combination of population structure and environmental conditions. Our research highlights that multiple factors shape the bacterial communities of an organism and that the presence of a single endosymbiont can strongly alter their compositions. This information is crucial to understanding how organisms and their associated microbiome will react in the face of environmental change. [ABSTRACT FROM AUTHOR]

Published

2023

30. Parasitoid Serpins Evolve Novel Functions to Manipulate Host Homeostasis.

Author

Wu, Zhiwei, Yuan, Ruizhong, Gu, Qijuan, Wu, Xiaotong, Gu, Licheng, Ye, Xiqian, Zhou, Yuenan, Huang, Jianhua, Wang, Zhizhi, and Chen, Xuexin

Subjects

BIOLOGICAL evolution, METABOLIC regulation, SERPINS, DIAMONDBACK moth, GENOMICS, HOMEOSTASIS

Abstract

Parasitoids introduce various virulence factors when parasitism occurs, and some taxa generate teratocytes to manipulate the host immune system and metabolic homeostasis for the survival and development of their progeny. Host-parasitoid interactions are extremely diverse and complex, yet the evolutionary dynamics are still poorly understood. A category of serpin genes, named CvT-serpin s, was discovered to be specifically expressed and secreted by the teratocytes of Cotesia vestalis , an endoparasitoid of the diamondback moth Plutella xylostella. Genomic and phylogenetic analysis indicated that the C. vestalis serpin genes are duplicated and most of them are clustered into 1 monophyletic clade. Intense positive selection was detected at the residues around the P1–P1′ cleavage sites of the Cv-serpin reactive center loop domain. Functional analyses revealed that, in addition to the conserved function of melanization inhibition (CvT-serpins 1, 16, 18, and 21), CvT-serpins exhibited novel functions, i.e. bacteriostasis (CvT-serpins 3 and 5) and nutrient metabolism regulation (CvT-serpins 8 and 10). When the host-parasitoid system is challenged with foreign bacteria, CvT-serpins act as an immune regulator to reprogram the host immune system through sustained inhibition of host melanization while simultaneously functioning as immune effectors to compensate for this suppression. In addition, we provided evidence that CvT-serpin8 and 10 participate in the regulation of host trehalose and lipid levels by affecting genes involved in these metabolic pathways. These findings illustrate an exquisite tactic by which parasitoids win out in the parasite–host evolutionary arms race by manipulating host immune and nutrition homeostasis via adaptive gene evolution and neofunctionalization. [ABSTRACT FROM AUTHOR]

Published

2023

31. Taxonomic and nomenclatural notes on Geodiapria longiceps Kieffer, 1911 (Hymenoptera, Diapriidae) and synonymy of the genus Geodiapria Kieffer, 1910.

Author

Hübner, Jeremy, Chemyreva, Vasilisa G., and Notton, David G.

Subjects

*BIOLOGICAL classification, *SYNONYMS, *SPECIES, *MULTICASTING (Computer networks), *BRACONIDAE

Abstract

This paper reviews the status of Geodiapria and its nominotypical and only included species G. longiceps. Geodiapria was previously understood to be very similar to, and doubtfully separated from the genus Basalys. We use integrative taxonomy (morphology, DNA-barcoding, phylogenetic tree building) to show that the valid name for what was G. longiceps Kieffer, 1911 is now Basalys rufocinctus (Kiefer, 1911) and that Geodiapria is consequently a junior synonym of Basalys syn. nov. The following taxa are new synonyms of B. rufocinctus: Loxotropa longiceps Wasmann, 1909, syn. nov., G. longiceps Kieffer, 1911, syn. nov., L. rufosignata Kieffer, 1911, syn. nov. Basalys rufocinctus is newly reported from Corsica, Germany, Norway and Spain. [ABSTRACT FROM AUTHOR]

Published

2023

32. Psyllaephagus malloticolae sp. nov. (Hymenoptera, Encyrtidae) from India, a parasitoid of leaf gall former, Trioza malloticola ‎(Crawford) ‎(Hemiptera, Triozidae) on Mallotus philippensis

Author

Sangeeta Rawat and Sandeep Kumar

Subjects

chalcidoidea, parasitoid wasp, psyllid, taxonomy, uttarakhand, biocontrol, Science (General), Q1-390, Life, QH501-531, Zoology, QL1-991, Agriculture, Ecology, QH540-549.5

Abstract

Psyllaephagus malloticolae Rawat & Kumar sp. nov. a parasitoid of Trioza malloticola (Crawford) (Hemiptera, Psylloidea, Triozidae) causing galls on leaves of the Kamala tree, Mallotus philippensis Muell, 1865 is described from India. An updated key to all the known allied species of Psyllaephagus Ashmead from India is also provided. The new species comes close to P. garuga Sudhir & Singh, 2011 but differs from it in having Funicular V the longest segment, mid-tibial spur longer than basitarsus, and the exserted ovipositor sheath.

Published

2023

33. Transcriptomic Insights into Host Metabolism and Immunity Changes after Parasitization by Leptopilina myrica

Author

Junwei Zhang, Jieyu Shan, Wenqi Shi, Ting Feng, Yifeng Sheng, Zixuan Xu, Zhi Dong, Jianhua Huang, and Jiani Chen

Subjects

parasitoid wasp, Leptopilina myrica, transcriptome, metabolism, immunity, Science

Abstract

Parasitoids commonly manipulate their host’s metabolism and immunity to facilitate their offspring survival, but the mechanisms remain poorly understood. Here, we deconstructed the manipulation strategy of a newly discovered parasitoid wasp, L. myrica, which parasitizes D. melanogaster. Using RNA-seq, we analyzed transcriptomes of L. myrica-parasitized and non-parasitized Drosophila host larvae. A total of 22.29 Gb and 23.85 Gb of clean reads were obtained from the two samples, respectively, and differential expression analysis identified 445 DEGs. Of them, 304 genes were upregulated and 141 genes were downregulated in parasitized hosts compared with non-parasitized larvae. Based on the functional annotations in the Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) databases, we found that the genes involved in host nutrition metabolism were significantly upregulated, particularly in carbohydrate, amino acid, and lipid metabolism. We also identified 30 other metabolism-related DEGs, including hexokinase, fatty acid synthase, and UDP-glycosyltransferase (Ugt) genes. We observed that five Bomanin genes (Boms) and six antimicrobial peptides (AMPs) were upregulated. Moreover, a qRT-PCR analysis of 12 randomly selected DEGs confirmed the reproducibility and accuracy of the RNA-seq data. Our results provide a comprehensive transcriptomic analysis of how L. myrica manipulates its host, laying a solid foundation for studies on the regulatory mechanisms employed by parasitoid wasps in their hosts.

Published

2024

34. How to eliminate pathogen without killing oneself? Immunometabolism of encapsulation and melanization in Drosophila

Author

Tomas Dolezal

Subjects

melanization, encapsulation, immunometabolism, parasitoid wasp, ROS, hemocyte, Immunologic diseases. Allergy, RC581-607

Abstract

Cellular encapsulation associated with melanization is a crucial component of the immune response in insects, particularly against larger pathogens. The infection of a Drosophila larva by parasitoid wasps, like Leptopilina boulardi, is the most extensively studied example. In this case, the encapsulation and melanization of the parasitoid embryo is linked to the activation of plasmatocytes that attach to the surface of the parasitoid. Additionally, the differentiation of lamellocytes that encapsulate the parasitoid, along with crystal cells, is accountable for the melanization process. Encapsulation and melanization lead to the production of toxic molecules that are concentrated in the capsule around the parasitoid and, at the same time, protect the host from this toxic immune response. Thus, cellular encapsulation and melanization represent primarily a metabolic process involving the metabolism of immune cell activation and differentiation, the production of toxic radicals, but also the production of melanin and antioxidants. As such, it has significant implications for host physiology and systemic metabolism. Proper regulation of metabolism within immune cells, as well as at the level of the entire organism, is therefore essential for an efficient immune response and also impacts the health and overall fitness of the organism that survives. The purpose of this “perspective” article is to map what we know about the metabolism of this type of immune response, place it in the context of possible implications for host physiology, and highlight open questions related to the metabolism of this important insect immune response.

Published

2023

35. First record of Brachymeria amenocles (Hymenoptera: Chalcididae) associated with larvae of Peckia (Peckia) chrysostoma (Diptera: Sarcophagidae) in Brazil

Author

MÔNICA SALAZAR-SOUZA, JOSÉ MARIO D’ALMEIDA, MARCELO S. GONZALEZ, VALÉRIA M. AGUIAR, and DENISE FEDER

Subjects

flesh flies, natural enemy, Neotropical fauna, parasitoid wasp, urban entomology, Science

Abstract

Abstract In this work, we report for the first time the occurrence of the parasitoid wasp Brachymeria amenocles (Walker, 1846) (Hymenoptera: Chalcididae) associated with the larvae of the flesh fly, Peckia (Peckia) chrysostoma (Wiedemann, 1830) (Diptera: Sarcophagidae), in Brazil. This parasitoid species was collected together with the species Brachymeria podagrica (Fabricius, 1787), in the municipality of Rio de Janeiro, geographically located in the Southeast region of Brazil, in larvae of the same host species reared in the same attraction substrate, behaving as solitary parasitoids. A trap containing putrefying sardine was exposed for 48 h, in the upper part of a house, located in Vila Isabel, an urban area. The larvae collected were reared in the laboratory without control of environmental conditions. A total of three adult parasitoid wasps of the species B. podagrica, and nine adult parasitoid wasps of the species B. amenocles emerged from 12 host pupae, resulting in a prevalence of parasitoidism of 4.8% and 14.5%, respectively. Developing parasitoids at the pupal phase were observed in another 34 host pupae dissected.

Published

2023

36. Ophiclypeus, a new genus of Cardiochilinae Ashmead (Hymenoptera, Braconidae) from the Oriental region with descriptions of three new species.

Author

Kang, Ilgoo, Moghaddam, Mostafa Ghafouri, Sharkey, Michael J., Quicke, Donald L. J., Butcher, Buntika A., and Carlton, Christopher E.

Subjects

*BRACONIDAE, *SPECIES, *HYMENOPTERA, *WASPS

Abstract

A new genus of the braconid subfamily Cardiochilinae, Ophiclypeus gen. nov., is described and illustrated based on three new species: O. chiangmaiensis Kang, sp. nov. type species (type locality: Chiang Mai, Thailand), O. dvaravati Ghafouri Moghaddam, Quicke & Butcher, sp. nov. (type locality: Saraburi, Thailand), and O. junyani Kang, sp. nov. (type locality: Dalin, Taiwan). We provide morphological diagnostic characters to separate the new genus from other cardiochiline genera. A modified key couplet (couplet 5) and a new key couplet (couplet 16) are provided with detailed images for Dangerfield's key to the world cardiochiline genera to facilitate recognition of Ophiclypeus gen. nov. [ABSTRACT FROM AUTHOR]

Published

2023

37. Aphaereta pallipes (Hymenoptera: Braconidae) and Dirhinus anthracia (Hymenoptera: Chalcididae) associated with Peckia (Euboettcheria) collusor (Diptera: Sarcophagidae) in Brazil.

Author

Salazar-Souza, Mônica, d'Almeida, José Mario, Gonzalez, Marcelo Salabert, Aguiar, Valéria Magalhães, and Feder, Denise

Subjects

*SARCOPHAGIDAE, *DIPTERA, *SPECIES distribution, *INSECTS, *SPECIES, *BRACONIDAE

Abstract

Flies of the Sarcophagidae family are widely distributed in the world, occupying different habitats. Some species have a high degree of synanthropy and are therefore often found in households in the urban environment. In Brazil, there is still little information related to the natural enemies of these insects in the urban environment, where population control is strictly chemical. Therefore, larvae and pupae of Peckia (Euboettcheria) collusor (Curran and Walley) (Diptera: Sarcophagidae) species were exposed in an urbanized location, and the presence and prevalence of parasitoids in the natural control of these immature stages was evaluated. We report for the first time the species Aphaereta pallipes (Say) (Hymenoptera: Braconidae) and Dirhinus anthracia Walker (Hymenoptera: Chalcididae), associated with P. (E.) collusor, highlighting the importance of these parasitoids in natural control in the urban environment, in addition to expanding the list of hosts for both parasitoid species and the distribution of this parasitoid-host interaction for Brazil and the Neotropical region. [ABSTRACT FROM AUTHOR]

Published

2023

38. Nitrogen-Fixing Rhizobia Affect Multitrophic Interactions in the Field.

Author

Godschalx, Adrienne L., Diethelm, Aramee C., Kautz, Stefanie, and Ballhorn, Daniel J.

Subjects

*PARASITOIDS, *RHIZOBIUM, *INSECT communities, *PLANT defenses, *PLANT size, *PLANT communities, *COMMUNITIES

Abstract

Virtually all plants employ direct and indirect defenses against herbivores. While it is known that plant defenses can be affected by belowground symbiotic microbes under controlled conditions, studies showing these multitrophic interactions in nature are surprisingly scarce. Here we tested for effects of rhizobia on insect attraction and direct defense (cyanogenesis) in wild lima bean (Phaseolus lunatus) plants in Costa Rica. We performed bioassays with rhizobia-inoculated (R+) and rhizobia-free (R-) potted plants distributed among native lima bean communities at two spatially separated field sites (450 km apart) and in two field seasons. Without affecting overall plant size, rhizobia altered leaf chemistry (cyanogenesis and soluble leaf nitrogen) and ultimately insect communities visiting the plants. Natural herbivorous chrysomelid beetles were strongly attracted to R + plants, while natural enemies, ants and parasitoid wasps, preferred R- plants resulting in a particularly high herbivore:carnivore ratio on R + plants. This suggests that symbiotic microbes mediate trophic interactions by influencing both direct and indirect plant defenses against herbivores. Our results show that rhizobia affect the plant defensive phenotype and have cascading effects on plant-insect interactions in nature. [ABSTRACT FROM AUTHOR]

Published

2023

39. Identification and functional analysis of aB-crystallins in Pteromalus puparum.

Author

Shuxing Lao, Shijiao Xiong, Qi Fang, and Gongyin Ye

Subjects

HEAT shock proteins, FUNCTIONAL analysis, RNA interference, DEFENSE mechanisms (Psychology), PROTEOMICS, INSECTS

Abstract

Heat shock proteins, including aB-crystallins (CRYAB), are pivotal in cellular defense mechanisms and stress response. This study presents a comprehensive investigation of heat shock proteins (HSPs), with a specific focus on the CRYAB family, within the genome of Pteromalus puparum. The analysis encompasses the identification of these proteins, exploration of their phylogenetic relationships, examination of conserved domains, and evaluation of their response to high temperature conditions. A total of 46 HSPs were identified in the P. puparum genome, and the differential expression of mRNA at 35°C and 25°C drew attention to five genes belonging to the CRYAB family, namely, PpCRYAB-1 to PpCRYAB-5. The conservation level of CRYAB family genes across different species was observed to be relatively modest. Through genome-wide screening of 22 species representing six insect orders, a total of 235 CRYAB proteins were identified, with P. puparum harboring eight CRYAB proteins, indicative of a moderate abundance compared to other species. Intriguingly, evolutionary analysis highlighted PpCRYAB-4 with potentially intricate differentiation in comparison to other members of the CRYAB family. Furthermore, RNA interference (RNAi) results demonstrated significant regulatory effects on adult lifespan under heat stress at 35°C for PpCRYAB-4 and PpCRYAB-5. These findings lay a groundwork for future investigations into stress resistance mechanisms in parasitic wasps, providing fresh insights for the study of insect resilience amidst the backdrop of global climate change. [ABSTRACT FROM AUTHOR]

Published

2023

40. A new species of Entedon Dalman (Hymenoptera, Eulophidae) and three newly recorded species from China.

Author

Ming-Rui Li and Cheng-De Li

Subjects

*EULOPHIDAE, *HYMENOPTERA, *SPECIES, *CHALCID wasps

Abstract

In this paper, a new species of Entedon Dalman, E. flavifemur sp. nov. is described from Tibet and three species, E. albifemur Kamijo, E. crassiscapus Erdös, and E. nomizonis Kamijo are reported from China for the first time. A detailed description and illustrations of the new species are provided, as well as diagnoses and illustrations of the three newly recorded species. [ABSTRACT FROM AUTHOR]

Published

2023

41. Entomopathogens and Parasitoids Allied in Biocontrol: A Systematic Review.

Author

Koller, Janique, Sutter, Louis, Gonthier, Jérémy, Collatz, Jana, and Norgrove, Lindsey

Subjects

PARASITOIDS, BIOPESTICIDES, BIOLOGICAL pest control, FALL armyworm, BEET armyworm, PEST control, BEAUVERIA bassiana

Abstract

Biological pest control is an environmentally friendly alternative to synthetic pesticides, using organisms such as viruses, bacteria, fungi, and parasitoids. However, efficacy is variable and combining different biocontrol agents could improve success rates. We conducted a systematic review of studies combining a parasitoid with an entomopathogenic microorganism, the first of its kind. We searched in Web of Science and extracted data from 49 publications matching the pre-defined inclusion criteria. Combinations of 36 hymenopteran parasitoids with 17 entomopathogenic microorganisms used to control 31 target pests were found. Trichogramma pretiosum and Encarsia formosa were the most frequently studied parasitoids, while Beauveria bassiana, Metarhizium anisopliae, Lecanicillium muscarium, Bacillus thuringiensis var. kurstaki, the Spodoptera exigua multiple nucleopolyhedrovirus, and the Spodoptera frugiperda multiple nucleopolyhedrovirus were the main microbial agents assessed. Out of 49 parasitoid–microorganism combinations assessed in the laboratory experiments, thirty-eight were reported as compatible and six as incompatible. Timing and dosage of biopesticides played a crucial role, with later application and appropriate dosage minimizing adverse effects on parasitoid development. More research is needed to assess compatibility and efficacy under real-world conditions. Our review provides valuable insights for researchers and practitioners to optimize the combined use of micro- and macroorganisms for effective pest control. [ABSTRACT FROM AUTHOR]

Published

2023

42. Functional insights from the GC-poor genomes of two aphid parasitoids, Aphidius ervi and Lysiphlebus fabarum

Author

Dennis, Alice B, Ballesteros, Gabriel I, Robin, Stéphanie, Schrader, Lukas, Bast, Jens, Berghöfer, Jan, Beukeboom, Leo W, Belghazi, Maya, Bretaudeau, Anthony, Buellesbach, Jan, Cash, Elizabeth, Colinet, Dominique, Dumas, Zoé, Errbii, Mohammed, Falabella, Patrizia, Gatti, Jean-Luc, Geuverink, Elzemiek, Gibson, Joshua D, Hertaeg, Corinne, Hartmann, Stefanie, Jacquin-Joly, Emmanuelle, Lammers, Mark, Lavandero, Blas I, Lindenbaum, Ina, Massardier-Galata, Lauriane, Meslin, Camille, Montagné, Nicolas, Pak, Nina, Poirié, Marylène, Salvia, Rosanna, Smith, Chris R, Tagu, Denis, Tares, Sophie, Vogel, Heiko, Schwander, Tanja, Simon, Jean-Christophe, Figueroa, Christian C, Vorburger, Christoph, Legeai, Fabrice, and Gadau, Jürgen

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Genetics, Animals, Aphids, DNA Methylation, GC Rich Sequence, Genomics, Insect Proteins, Sex Determination Processes, Venoms, Wasps, Parasitoid wasp, Aphid host, Aphidius ervi, Lysiphlebus fabarum, GC content, de novo genome assembly, DNA methylation loss, Chemosensory genes, Venom proteins, Toll and Imd pathways, Information and Computing Sciences, Medical and Health Sciences, Bioinformatics, Biological sciences, Biomedical and clinical sciences

Abstract

BackgroundParasitoid wasps have fascinating life cycles and play an important role in trophic networks, yet little is known about their genome content and function. Parasitoids that infect aphids are an important group with the potential for biological control. Their success depends on adapting to develop inside aphids and overcoming both host aphid defenses and their protective endosymbionts.ResultsWe present the de novo genome assemblies, detailed annotation, and comparative analysis of two closely related parasitoid wasps that target pest aphids: Aphidius ervi and Lysiphlebus fabarum (Hymenoptera: Braconidae: Aphidiinae). The genomes are small (139 and 141 Mbp) and the most AT-rich reported thus far for any arthropod (GC content: 25.8 and 23.8%). This nucleotide bias is accompanied by skewed codon usage and is stronger in genes with adult-biased expression. AT-richness may be the consequence of reduced genome size, a near absence of DNA methylation, and energy efficiency. We identify missing desaturase genes, whose absence may underlie mimicry in the cuticular hydrocarbon profile of L. fabarum. We highlight key gene groups including those underlying venom composition, chemosensory perception, and sex determination, as well as potential losses in immune pathway genes.ConclusionsThese findings are of fundamental interest for insect evolution and biological control applications. They provide a strong foundation for further functional studies into coevolution between parasitoids and their hosts. Both genomes are available at https://bipaa.genouest.org.

Published

2020

43. Bimaculate species of the genus Foenatopus Smith (Hym., Stephanidae) in Iran, with a new record

Author

Sourush Karimi, Hossein Lotfalizadeh, and abbas Mohammadi-Khoramabadi

Subjects

parasitoid wasp, northwestern iran, distribution, new record, checklist, Science (General), Q1-390, Life, QH501-531, Zoology, QL1-991, Agriculture, Ecology, QH540-549.5

Abstract

View on Scopus Two species of the genus Foenatopus Smith, 1846 (Hym.: Stephanidae), were collected from West-Azarbaijan province, the northwest Iran; Foenatopus prousti Aguiar & Turrisi, 2010 and F. turcomanorum (Semenov, 1891). These species belong to the bimaculate group of this genus. Foenatopus turcomanorum is a new record for Iran. Their morphological characters and distribution are provided. The Iranian species of the bimaculate group of Foenatopus are summarized and tabulated.

Published

2022

44. Parasitoid Wasp Acerophagus papayae : A Promising Solution for the Control of Papaya Mealybug Paracoccus marginatus in Cassava Fields in Vietnam.

Author

Le, Khac Hoang, Tran, Thi Hoang Dong, Tran, Dang Hoa, Nguyen, Tuan Dat, and Van Doan, Cong

Subjects

*MEALYBUGS, *WASPS, *PEST control, *PAPAYA, *CASSAVA, *CROP management, *AGRICULTURAL pests

Abstract

Simple Summary: This study examined the occurrence, biological characteristics, and effectiveness of the parasitoid wasp Acerophagus papayae Noyes and Schauff in controlling the papaya mealybug Paracoccus marginatus Williams and Granara de Willink, a major pest of cassava crops in Vietnam. The results showed that A. papayae naturally occurred more frequently than other species of parasitoid wasps. The honey solution was found to be important for increasing the lifespan of A. papayae in the absence of hosts. The second instar of the mealybug was found to be the most suitable host stage for parasitism by A. papayae. Female wasps can produce a large number of eggs during their entire lives. These findings suggest that A. papayae could be an effective agent for controlling P. marginatus and improving crop pest management not only in Vietnam, but in other regions as well. Cassava is a valuable export commodity crop that is often attacked by pests, causing economic losses for this crop. The papaya mealybug Paracoccus marginatus has become a major pest of cassava in Vietnam. The parasitoid wasp Acerophagus papayae has been demonstrated to be the most efficient parasitoid wasp for controlling P. marginatus in many regions. We observed the occurrence of A. papayae in Vietnam, studied the biological characteristics of A. papayae, and investigated its parasitic activity on P. marginatus. The results showed that A. papayae occurred more frequently than Anagyrus loecki, another known parasitoid of P. marginatus. The lifespan of A. papayae was approximately 16 days. In the absence of hosts, a 50% honey solution was an essential diet to increase the longevity of both female and male of A. papayae. The second instar of P. marginatus was a suitable host stage for parasitism by A. papayae. Female A. papayae laid approximately 60.8 eggs within 17 days, mostly during the first 6 to 7 days. These findings suggest that A. papayae has the potential to control P. marginatus, and could inform the development of more effective pest management strategies for cassava crops in Vietnam and other regions affected by this pest. [ABSTRACT FROM AUTHOR]

Published

2023

45. Expressing Parasitoid Venom Protein VRF1 in an Entomopathogen Beauveria bassiana Enhances Virulence toward Cotton Bollworm Helicoverpa armigera.

Author

Shuocheng Zeng, Zhe Lin, Xianhao Yu, Junjie Zhang, and Zhen Zou

Subjects

*ENTOMOPATHOGENIC fungi, *BEAUVERIA bassiana, *HELIOTHIS zea, *HELICOVERPA armigera, *INSECT pest control, *VENOM, *FALL armyworm, *INSECTICIDES

Abstract

Despite entomopathogenic fungi being used in various insect pest control, it is recognized that they could replace more chemical insecticides if they were more efficient. We have found that cotton bollworm Helicoverpa armigera responded to the infection of entomopathogenic fungus Beauveria bassiana by activating the Toll pathway. Koinobiont wasps also regulate host immunity and development to ensure the survival of their progeny. Previously, venom protein VRF1 was identified in Microplitis mediator. It enters H. armigera hemocytes, suppresses the expression of antimicrobial peptides (AMPs) by inhibiting the Toll pathway, and prevents parasite offspring from being encapsulated. With this in mind, we thought that it might be feasible to increase the virulence of B. bassiana by embedding VRF1 into its genome. Compared with that of wild-type (WT) B. bassiana, the median lethal dose (LD50) of the transformant expressing VRF1 (named BbVRF1) decreased approximately 2.36-fold, and the median time to lethality (LT50) was shortened to 84% when infecting H. armigera (a natural host of M. mediator). The AMP expression level of hemocytes in H. armigera infected with BbVRF1 strain was significantly downregulated compared to that in the control group infected with the WT. In addition, the LD50 of BbVRF1 against the fall armyworm Spodoptera frugiperda (an unnatural host of M. mediator) was decreased 3.45-fold and the LT50 was shortened to 73%, showing a greater virulence. Our research indicated that BbVRF1, an engineered strain of B. bassiana, has greater efficacy against pest insects both within and outside its host range (M. mediator), expanding the utilization of parasitoid wasp virulence effectors. IMPORTANCE Mycoinsecticides are essential for the development of integrated pest management as substitutes to chemical insecticides, but their usage is limited by their inferior virulence. Thus, genetically engineered bioinsecticides, including recombinant entomopathogenic fungi, have been regarded as a breakthrough to rapidly control pests. Deep knowledge of parasitoid wasps allows us to take advantage of this natural enemy of pest insects beyond raising them for field release. Our transformant BbVRF1 (Beauveria bassiana integrated with a venom protein VRF1 from Microplitis mediator) showed a higher virulence in H. armigera and S. frugiperda, demonstrating its potential for managing natural or unnatural hosts of M. mediator. This result provides a new strategy regarding which venom protein of parasitoid wasps can become part of the arsenal with which to equip entomopathogenic fungi. Utilizing parasitoid wasps with this approach could easily overcome the difficulties of artificial culture and enhance the virulence of other biocontrol agents. [ABSTRACT FROM AUTHOR]

Published

2023

46. Circadian Activity and Clock Genes in Pachycrepoideus vindemmiae : Implications for Field Applications and Circadian Clock Mechanisms of Parasitoid Wasps.

Author

Teng, Ziwen, Huo, Mengran, Zhou, Yanan, Zhou, Yuqi, Liu, Yunjie, Lin, Yan, Zhang, Qi, Zhang, Zhiqi, Wan, Fanghao, and Zhou, Hongxu

Subjects

*CIRCADIAN rhythms, *MOLECULAR clock, *CLOCK genes, *INSECT physiology, *WASPS, *INSECT behavior, *BIOLOGICAL pest control agents

Abstract

Simple Summary: Insects regulate their physiology and behavior through their circadian clock in response to daily changes in the photoperiod. Parasitoid wasps are well-known biocontrol agents. Therefore, understanding the circadian activities of parasitoid adults may help improve biological control strategies. In the present study, we characterized the circadian patterns of emergence, mating, and oviposition of an ectoparasitoid wasp, Pachycrepoideus vindemmiae. We also identified eight clock candidate genes, most of which showed significant rhythmic expressions. These results serve as a starting point for further functional studies of the clock genes in P. vindemmiae as well as in other parasitoid wasps. The findings of this study also provide information that could contribute to improving biological control strategies using parasitoid wasps. Despite the importance of circadian rhythms in insect behavior, our understanding of circadian activity and the molecular oscillatory mechanism in parasitoid wasp circadian clocks is limited. In this study, behavioral activities expected to be under the control of the endogenous circadian system were characterized in an ectoparasitoid wasp, Pachycrepoideus vindemmiae. Most adults exhibited emergence between late night and early morning, while mating only occurred during the daytime, with a peak at midday. Oviposition had three peaks in the early morning, late day, or early night and late night. Additionally, we identified eight putative clock genes from P. vindemmiae. The quantitative PCR (qPCR) results indicate that most clock genes showed significant rhythmic expressions. Our comparative analysis of clock genes in P. vindemmiae and 43 other parasitoid wasps revealed that none of the wasps possessed the timeless and cry1 genes commonly found in some other insect species, suggesting that the circadian clock system in parasitoid wasps is distinct from that in other non-Hymenoptera insects such as Drosophila. Thus, this study attempted to build the first hypothetical circadian clock model for a parasitoid wasp, thus generating hypotheses and providing a platform for the future functional characterization of P. vindemmiae clock genes as well as those of other parasitoid wasps. Finally, these findings on P. vindemmiae circadian activity will aid the development of effective field release programs for biological control, which can be tested under field conditions. [ABSTRACT FROM AUTHOR]

Published

2023

47. Microplitis manilae Ashmead (Hymenoptera: Braconidae): Biology, Systematics, and Response to Climate Change through Ecological Niche Modelling.

Author

Ghafouri Moghaddam, Mostafa and Butcher, Buntika A.

Subjects

*BRACONIDAE, *HYMENOPTERA, *ECOLOGICAL models, *GEOGRAPHIC information systems, *SEASONAL temperature variations, *HABITATS

Abstract

Simple Summary: This study focused on the parasitoid wasp Microplitis manilae, which is an important natural enemy of noctuid caterpillars, including the pest species of armyworms. The parasitoid wasp is here redescribed and illustrated based on the holotype, and an updated list of all Microplitis species attacking Spodoptera spp. is provided along with a discussion of host-parasitoid-food plant associations. We used a maximum entropy model and a quantum geographic information system to simulate the distribution of M. manilae in present and future periods under four greenhouse gas concentration scenarios. The results indicated that the suitable habitats for M. manilae are mainly in tropical and subtropical countries, and these are expected to expand in the future due to climate change. The study offers a basis for environmental protection and pest management. The parasitoid wasp Microplitis manilae Ashmead (Braconidae: Microgastrinae) is an important natural enemy of caterpillars and of a range of noctuids, including pest species of armyworms (Spodoptera spp.). Here, the wasp is redescribed and, for the first time, illustrated based on the holotype. An updated list of all the Microplitis species attacking the noctuid Spodoptera spp. along with a discussion on host-parasitoid-food plant associations is offered. Based on information about the actual distribution of M. manilae and a set of bioclimatic variables, the maximum entropy (MaxEnt) niche model and the quantum geographic information system (QGIS) were explored to predict the potential distribution of this wasp in a global context. The worldwide geographical distribution of potential climatic suitability of M. manilae at present and in three different periods in the future was simulated. The relative percent contribution score of environmental factors and the Jackknife test were combined to identify dominant bioclimatic variables and their appropriate values influencing the potential distribution of M. manilae. The results showed that under current climate conditions, the prediction of the maximum entropy model highly matches the actual distribution, and that the obtained value of simulation accuracy was very high. Likewise, the distribution of M. manilae was mainly affected by five bioclimatic variables, listed in order of importance as follows: precipitation during the wettest month (BIO13), annual precipitation (BIO12), annual mean temperature (BIO1), temperature seasonality (BIO4), and mean temperature during the warmest quarter (BIO10). In a global context, the suitable habitat of M. manilae would be mainly in tropical and subtropical countries. Furthermore, under the four greenhouse gas concentration scenarios (representative concentration pathways: RCP2.6, RCP4.5, RCP6.0, and RCP8.5) in the future period of the 2070s, the areas with high, medium, and low suitability showed varying degrees of change from current conditions and are expected to expand in the future. This work provides theoretical backing for studies associated with the safeguarding of the environment and pest management. [ABSTRACT FROM AUTHOR]

Published

2023

48. Psyllaephagus malloticolae sp. nov. (Hymenoptera, Encyrtidae) from India, a parasitoid of leaf gall former, Trioza malloticola (Crawford) (Hemiptera, Triozidae) on Mallotus philippensis.

Author

Rawat, Sangeeta and Kumar, Sandeep

Subjects

*HYMENOPTERA, *ENCYRTIDAE, *HEMIPTERA, *BIOLOGICAL pest control agents

Abstract

Psyllaephagus malloticolae Rawat & Kumar sp. nov. a parasitoid of Trioza malloticola (Crawford) (Hemiptera, Psylloidea, Triozidae) causing galls on leaves of the Kamala tree, Mallotus philippensis Muell, 1865 is described from India. An updated key to all the known allied species of Psyllaephagus Ashmead from India is also provided. The new species comes close to P. garuga Sudhir & Singh, 2011 but differs from it in having Funicular V the longest segment, mid-tibial spur longer than basitarsus, and the exserted ovipositor sheath. [ABSTRACT FROM AUTHOR]

Published

2023

49. Online citizen sciences reveal natural enemies and new occurrence data of Meteorus stellatus Fujie, Shimizu & Maeto, 2021 (Hymenoptera, Braconidae, Euphorinae).

Author

So Shimizu, Hsuan-Pu Chen, Kai-Ti Lin, Ren-Jye Chen, Shunpei Fujie, Su-Chuan Hung, Mei-Ling Lo, Ke-Hsiung Tsai, and Kaoru Maeto

Subjects

CITIZEN science, HYMENOPTERA, BRACONIDAE, BIODIVERSITY, SPECIES diversity

Abstract

Background: Citizen science is a research approach that involves collaboration between professional scientists and non-professional volunteers. The utilisation of recent online citizen-science platforms (e.g. social networking services) has greatly revolutionised the accessibility of biodiversity data by providing opportunities for connecting professional and citizen scientists worldwide. Meteorus stellatus Fujie, Shimizu & Maeto, 2021 (Hymenoptera, Braconidae, Euphorinae) has been recorded from the Oriental Islands of Japan and known to be a gregarious endoparasitoid of two macro-sized sphingid moths of Macroglossum, Ma. passalus (Drury) and Ma. pyrrhosticta Butler. It constructs characteristic star-shaped communal cocoons, suspended by a long cable. Although M. stellatus has been reported only from the Oriental Islands of Japan, the authors recognise its occurrence and ecological data from Taiwan and the Palaearctic Island of Japan through posts on online citizen-science groups about Taiwanese Insects on Facebook and an article on a Japanese citizen-scientist's website. New information: Through collaboration between professional and citizen scientists via social media (Facebook groups) and websites, the following new biodiversity and ecological data associated with M. stellatus are provided: 1. Meteorus stellatus is recorded for the first time from Taiwan and the Palaearctic Region (Yakushima Is., Japan). 2. Cechetra minor (Butler, 1875), Hippotion celerio (Linnaeus, 1758) and Macroglossum sitiene (Walker, 1856) (Lepidoptera, Sphingidae) are recorded for the first time as hosts of M. stellatus and two of which (C. minor and H. celerio) represent the first genus-level host records for M. stellatus. 3. Mesochorus sp. (Hymenoptera, Ichneumonidae), indeterminate species of Pteromalidae and Trichogrammatidae (Hymenoptera), are recognised as hyperparasitoid wasps of M. stellatus. 4. Parapolybia varia (Fabricius, 1787) (Hymenoptera, Vespidae) is reported as a predator of pendulous communal cocoons of M. stellatus. The nature of suspended large-sized communal cocoons of M. stellatus and the importance and limitations of digital occurrence data and online citizen science are briefly discussed. [ABSTRACT FROM AUTHOR]

Published

2023

50. Identification and functional analysis of αB-crystallins in Pteromalus puparum

Author

Shuxing Lao, Shijiao Xiong, Qi Fang, and Gongyin Ye

Subjects

parasitoid wasp, HSP, CRYAB, heat stress, lifespan, RNAi, Physiology, QP1-981

Abstract

Heat shock proteins, including αB-crystallins (CRYAB), are pivotal in cellular defense mechanisms and stress response. This study presents a comprehensive investigation of heat shock proteins (HSPs), with a specific focus on the CRYAB family, within the genome of Pteromalus puparum. The analysis encompasses the identification of these proteins, exploration of their phylogenetic relationships, examination of conserved domains, and evaluation of their response to high temperature conditions. A total of 46 HSPs were identified in the P. puparum genome, and the differential expression of mRNA at 35°C and 25°C drew attention to five genes belonging to the CRYAB family, namely, PpCRYAB-1 to PpCRYAB-5. The conservation level of CRYAB family genes across different species was observed to be relatively modest. Through genome-wide screening of 22 species representing six insect orders, a total of 235 CRYAB proteins were identified, with P. puparum harboring eight CRYAB proteins, indicative of a moderate abundance compared to other species. Intriguingly, evolutionary analysis highlighted PpCRYAB-4 with potentially intricate differentiation in comparison to other members of the CRYAB family. Furthermore, RNA interference (RNAi) results demonstrated significant regulatory effects on adult lifespan under heat stress at 35°C for PpCRYAB-4 and PpCRYAB-5. These findings lay a groundwork for future investigations into stress resistance mechanisms in parasitic wasps, providing fresh insights for the study of insect resilience amidst the backdrop of global climate change.

Published

2023