Your search keyword '"parasitoid wasps"' showing total 754 results

1. Lochetica ramii sp. nov. – a new species of Lochetica Kriechbaumer, 1892 (Hymenoptera, Ichneumonidae, Phygadeuontinae) from Finland, with a key to world species

Author

Paappanen, Juuso and Pensoft Publishers

Subjects

Identification, key, North Europe, Palearctic, parasitoid wasps, Phygadeuontinae, saproxylic

Published

2024

2. The state of parasitoid wasp genomics.

Author

Ye, Xinhai, Yang, Yi, Zhao, Xianxin, Fang, Qi, and Ye, Gongyin

Subjects

*PARASITIC insects, *SEX determination, *GENOME size, *COMPARATIVE genomics, *NUCLEOTIDE sequencing

Abstract

The past two decades have witnessed a rapid increase in the genomic sequencing of parasitoid wasps, amassing a rich dataset for detailed studies. Genome size variability in parasitoid wasps is linked to the dynamic evolution of transposable elements. Genomic studies have discovered that a number of genomic changes may be linked to key traits in parasitoid wasps, such as reduced body size, host range shift, and sex determination. The genomic data provide robust support for studying the diversity and evolution of parasitic effectors, including venoms and polydnaviruses. Deeper genomic research is poised to provide insights into the evolution of parasitoid diversity, and the genomic knowledge obtained could be used for enhancing the application of parasitoid wasps in biological control. Parasitoid wasps represent a group of parasitic insects with high species diversity that have played a pivotal role in biological control and evolutionary studies. Over the past 20 years, developments in genomics have greatly enhanced our understanding of the biology of these species. Technological leaps in sequencing have facilitated the improvement of genome quality and quantity, leading to the availability of hundreds of parasitoid wasp genomes. Here, we summarize recent progress in parasitoid wasp genomics, focusing on the evolution of genome size (GS) and the genomic basis of several key traits. We also discuss the contributions of genomics in studying venom evolution and endogenization of viruses. Finally, we advocate for increased sequencing and functional research to better understand parasitoid biology and enhance biological control. [ABSTRACT FROM AUTHOR]

Published

2024

3. Host and venom evolution in parasitoid wasps: does independently adapting to the same host shape the evolution of the venom gland transcriptome?

Author

Yang, Yi, Xiao, Shan, Zhao, Xianxin, Sun, Yu H., Fang, Qi, Fan, Longjiang, Ye, Gongyin, and Ye, Xinhai

Subjects

*BIOLOGICAL evolution, *VENOM glands, *GENE expression, *CONVERGENT evolution, *WASPS, *VENOM

Abstract

Background: Venoms have repeatedly evolved over 100 occasions throughout the animal tree of life, making them excellent systems for exploring convergent evolutionary novelty. Growing evidence supports that venom evolution is predominantly driven by prey or host-related selection pressures, and the expression patterns of venom glands reflect adaptive evolution. However, it remains elusive whether the evolution of expression patterns in venom glands is likewise a convergent evolution driven by their prey/host species. Results: We utilized parasitoid wasps that had independently adapted to Drosophila hosts as models to investigate the convergent evolution of venom gland transcriptomes in 19 hymenopteran species spanning ~ 200 million years of evolution. Comparative transcriptome analysis reveals that the global expression patterns among the venom glands of Drosophila parasitoid wasps do not achieve higher similarity compared to non-Drosophila parasitoid wasps. Further evolutionary analyses of expression patterns at the single gene, orthogroup, and Gene Ontology (GO) term levels indicate that some orthogroups/GO terms show correlation with the Drosophila parasitoid wasps. However, these groups rarely include genes highly expressed in venom glands or putative venom genes in the Drosophila parasitoid wasps. Conclusions: Our study suggests that convergent evolution may not play a predominant force shaping gene expression levels in the venom gland of the Drosophila parasitoid wasps, offering novel insights into the co-evolution between venom and prey/host. [ABSTRACT FROM AUTHOR]

Published

2024

4. Host and venom evolution in parasitoid wasps: does independently adapting to the same host shape the evolution of the venom gland transcriptome?

Author

Yi Yang, Shan Xiao, Xianxin Zhao, Yu H. Sun, Qi Fang, Longjiang Fan, Gongyin Ye, and Xinhai Ye

Subjects

Convergent evolution, Gene expression, Venom, Comparative transcriptome, Parasitoid wasps, Biology (General), QH301-705.5

Abstract

Abstract Background Venoms have repeatedly evolved over 100 occasions throughout the animal tree of life, making them excellent systems for exploring convergent evolutionary novelty. Growing evidence supports that venom evolution is predominantly driven by prey or host-related selection pressures, and the expression patterns of venom glands reflect adaptive evolution. However, it remains elusive whether the evolution of expression patterns in venom glands is likewise a convergent evolution driven by their prey/host species. Results We utilized parasitoid wasps that had independently adapted to Drosophila hosts as models to investigate the convergent evolution of venom gland transcriptomes in 19 hymenopteran species spanning ~ 200 million years of evolution. Comparative transcriptome analysis reveals that the global expression patterns among the venom glands of Drosophila parasitoid wasps do not achieve higher similarity compared to non-Drosophila parasitoid wasps. Further evolutionary analyses of expression patterns at the single gene, orthogroup, and Gene Ontology (GO) term levels indicate that some orthogroups/GO terms show correlation with the Drosophila parasitoid wasps. However, these groups rarely include genes highly expressed in venom glands or putative venom genes in the Drosophila parasitoid wasps. Conclusions Our study suggests that convergent evolution may not play a predominant force shaping gene expression levels in the venom gland of the Drosophila parasitoid wasps, offering novel insights into the co-evolution between venom and prey/host.

Published

2024

5. Development and Competition of Three Parasitoid Wasps, Brachymeria podagrica, Dirhinus himalayanus , and Nasonia vitripennis , in Their Host, Sarcophaga dux , in Single and Mixed Infections.

Author

Schuster, Rolf K. and Sivakumar, Saritha

Subjects

MIXED infections, SARCOPHAGIDAE, FORENSIC sciences, CRIMINAL investigation, WASPS

Abstract

Laboratory trials were carried out to investigate the development of three entomophagous parasitoid wasps in preimaginal stages of Sarcophaga dux in monoinfections and mixed infections. Laboratory-raised postfeeding S. dux third-stage larvae were exposed to Brachymeria podagrica. After pupation, 50 of these fly puparia were brought in contact with pupal parasitoid Dirhinus himalayanus and 50 with Nasonia vitripennis, and the remaining 50 puparia were left as Brachymeria monoinfection. In three further trials, each set of 50 freshly pupated host puparia from the same source was exposed to N. vitripennis and D. himalayanus, as monoinfections and mixed infections, respectively. The uninfected control group consisted of 50 S. dux larvae that were kept separately under the same conditions. The percentages of successfully developed B. podagrica and D. himalayanus in monoinfections were 56 and 86%, respectively, and progeny of N. vitripennis hatched from 88% of the exposed host puparia. In mixed infections, N. vitripennis dominated over B. podagrica and D. himalayanus with rates of successfully infected hosts of 50 and 94%, respectively. The number of Nasonia progeny in these groups ranged from 4 to 49 and 5 to 43, respectively. Dirhinus himalayanus did not develop in the simultaneous infection with N. vitripennis. Not a single S. dux eclosed in the six experimental groups, while in the uninfected control group, 46 (92%) adult flies eclosed 11 to 14 days after the start of pupation. Since the three parasitoids emerge from flesh fly pupae, these insects can become important in criminal forensic investigations when corpses are in an advanced stage of decay. More data on their preimaginal development at different temperatures are necessary. [ABSTRACT FROM AUTHOR]

Published

2024

6. Chilean Darwin Wasps (Ichneumonidae): Biogeographic Relationships and Distribution Patterns.

Author

Pádua, Diego G., Moreira-Muñoz, Andrés, Morales-Fierro, Vanezza, and Araujo, Rodrigo O.

Subjects

*WASPS, *ICHNEUMONIDAE, *TEMPERATE forests, *SPECIES diversity, *ENDEMIC species, *BIODIVERSITY, *SPECIES

Abstract

Simple Summary: The global biodiversity crisis poses many challenges for humanity, and continuing to classify and gain knowledge of the "hidden biodiversity" of less studied groups considered hyper-diverse insect groups, such as the parasitoid wasp (Ichneumonidae), is one of them. There is a particular need for more taxonomic and distributional knowledge of the Neotropics and its neighboring regions. We assessed the current knowledge of the Ichneumonidae, otherwise known as Darwin wasps, in Chile, a country with a diverse ecogeographic gradient, from the southern cold and humid tip of South America approaching the Antarctic Circle to the arid Atacama beyond the Tropic of Capricorn. Following the most up-to-date taxonomic knowledge, we assessed biogeographic relationships at the genus level and the spatial patterns of biodiversity at the species and genera levels along the latitudinal gradient. The results show that biogeographic relationships are based on six faunistic elements (cosmopolitan; endemic; Neotropical; Holarctic–Oriental; south-temperate; and Australasian), reinforcing the early view of two different areas for Chilean ichneumonids: a northern province and a Neantarctic realm, with a high percentage of endemic genera and species. Spatial biodiversity patterns assessed at different scales show a bimodal distribution of richness: around 34° and 38° S in the Metropolitan and Araucanía Regions. From an ecoregional perspective, richness is concentrated in the Valdivian temperate forests, but when assessed at a 0.5 × 0.5 cell scale, several outstanding cells are in the contact zone between the temperate forests and the Chilean Matorral in the Central Chilean biodiversity hotspot. Interpreting richness involves two phenomena difficult to disentangle: genuine species diversity and collection bias closer to areas with larger human populations. In contrast, the Atacama Desert shows little or no presence of Darwin wasps, which is to be expected due to the lack of potential hosts. These results reinforce the need to continue sampling and studying available collections to help close the knowledge gaps already recognized as Wallacean and Linnean shortfalls in order to gain additional information on potential threats to endemic genera and species. Ichneumonidae, or Chilean Darwin wasps, are an important component of South American hymenopteran diversity, but the taxonomic and distributional knowledge on this insect is still deficient. Taking advantage of recently updated taxonomic knowledge, we assessed biogeographic relationships at the genus level and biodiversity spatial patterns along the latitudinal gradient. The results show the presence of 264 species in Chile, arranged in 102 genera and 22 subfamilies. Biogeographic relationships are based on six elements (cosmopolitan (n = 50; 36%), endemic (n = 29; 21%), Neotropical (n = 22; 16%), Holarctic–Oriental (n = 19; 14%), south-temperate (n = 16; 11%) and Australasian) and composed of just three genera: Anacis, Labena, and Meringops. Species and genera show a bimodal distribution along the latitudinal gradient: around 34° and 38° S. From an ecoregional perspective, richness is concentrated in the Valdivian temperate forests, but when assessed at a 0.5 × 0.5 cell scale, several outstanding cells are in the contact zone between the temperate forests and the Chilean Matorral. On the other hand, the Atacama Desert shows little or no presence of Darwin wasps. The results agree with Charles Porter, who identified a northern province composed of Neotropical and cosmopolitan genera with their own representatives in the far north (11 genera), a distributional gap in the core of the Atacama Desert, and around 128 genera in Porter's Neantarctic realm, covering all of Chile from 25° S to Cape Horn, including the Juan Fernandez islands. These results reinforce knowledge gaps and the need for more sampling and studies of available collections. Due to sampling gaps at this stage, identifying a continued increase or decrease in richness towards higher latitudes is not possible. More taxonomic and distributional information is also needed to assess potential threats to endemic genera and species. [ABSTRACT FROM AUTHOR]

Published

2024

7. Local and landscape drivers of natural enemy communities in Indonesian oil palm plantation.

Author

Rizali, Akhmad, Karindah, Sri, Rahardjo, Bambang Tri, Nurindah, and Sahari, Bandung

Abstract

Oil palm plantations are typically managed in a monoculture system over large areas. This system contributes to biodiversity loss and promotes pest outbreaks by reducing natural enemies. However, ecosystem functions in oil palm plantations vary spatially and temporally and can still support biodiversity under certain conditions. We conducted a study on the species richness, abundance and species composition of natural enemies in oil palm plantations and investigated the factors influencing natural enemy communities in oil palm plantations at both local and landscape scales. We selected 12 sites in an oil palm plantation in Central Borneo, Indonesia, which were grouped into 4 sub‐areas based on the presence of natural habitats, which varied in local and landscape characteristics. Arthropods were sampled using canopy knockdown fogging with a pyrethroid insecticide. Different taxa of natural enemies responded differently to changes in habitat characteristics within oil palm plantations. Species richness of spiders was not affected by either local or landscape scale, but their species composition was affected by oil palm tree age (local scale) and the total edge of dominant oil palm tree age (landscape scale). Ant species richness was influenced by the class area of natural habitat (landscape scale), whereas their species composition was not influenced by either local or landscape scale. On the other hand, species richness of parasitoid wasps was influenced by light intensity (local scale) and the variation of oil palm tree age within a landscape (landscape scale). However, their species composition was only affected by light intensity. The results suggest that oil palm management practices need to consider both local and landscape scales to maintain biodiversity and biological control and to achieve sustainable management of oil palm plantations. [ABSTRACT FROM AUTHOR]

Published

2024

8. Historical Note on the Genus Trichogramma (Hymenoptera, Trichogrammatidae) in Brazil, Focusing on Taxonomy and Diversity

Author

Zucchi, Roberto Antonio and Querino, Ranyse Barbosa

Published

2024

9. Recognition of nonself is necessary to activate Drosophila’s immune response against an insect parasite

Author

Alexandre B. Leitão, Ramesh Arunkumar, Jonathan P. Day, Nancy Hanna, Aarathi Devi, Matthew P. Hayes, and Francis M. Jiggins

Subjects

Immune recognition, Parasitoid wasps, Drosophila melanogaster, Biology (General), QH301-705.5

Abstract

Abstract Background Innate immune responses can be activated by pathogen-associated molecular patterns (PAMPs), danger signals released by damaged tissues, or the absence of self-molecules that inhibit immunity. As PAMPs are typically conserved across broad groups of pathogens but absent from the host, it is unclear whether they allow hosts to recognize parasites that are phylogenetically similar to themselves, such as parasitoid wasps infecting insects. Results Parasitoids must penetrate the cuticle of Drosophila larvae to inject their eggs. In line with previous results, we found that the danger signal of wounding triggers the differentiation of specialized immune cells called lamellocytes. However, using oil droplets to mimic infection by a parasitoid wasp egg, we found that this does not activate the melanization response. This aspect of the immune response also requires exposure to parasite molecules. The unidentified factor enhances the transcriptional response in hemocytes and induces a specific response in the fat body. Conclusions We conclude that a combination of danger signals and the recognition of nonself molecules is required to activate Drosophila’s immune response against parasitic insects.

Published

2024

10. A new species of genus Monoctonus (Hymenoptera, Braconidae, Aphidiinae) from South Korea

Author

Sangjin Kim, Jelisaveta Čkrkić, Željko Tomanović, Ju-Hyeong Sohn, Jongok Lim, and Hyojoong Kim

Subjects

DNA barcoding, parasitoid wasps, systematics, taxo, Biology (General), QH301-705.5

Abstract

The genus Monoctonus Haliday, 1833 is a small group which consists of 24 species worldwide. In South Korea, Chang and Youn (1983) recorded one species, M. similis Starý & Schlinger, 1967, but the evidence for identification of this species is doubtful and further confirmation is required (personal communication with Prof. Jong-Cheol Paik).An additional Monoctonus species is recorded as new to science from South Korea. Descriptions and illustrations of the new species –Monoctonus koreanus sp. nov. – are provided, together with its mitochondrial cytochrome c oxidase subunit I (COI) data and phylogenetic position. A key to the female of the two species present in Korea is provided.

Published

2024

11. Two new records of the genus Trioxys (Hymenoptera, Braconidae, Aphidiinae) parasitic on bamboo aphids from South Korea

Author

Sangjin Kim, Juhyeong Sohn, and Hyojoong Kim

Subjects

DNA barcoding, natural enemy, parasitoid wasps, sy, Biology (General), QH301-705.5

Abstract

The genus Trioxys Haliday, 1833 consists of more than 80 species worldwide with three species being recorded in South Korea. In this study, we report the first observation of the two additional species, T. liui Chou & Chou, 1993 from Takecallis arundinariae (Essig, 1917) on Phyllostachys bambusoides Siebold & Zucc., 1843 and T. remaudierei Starý & Rakhshani, 2017 from T. taiwana (Takahashi, 1926) on Sasa borealis (Hack.) Makino & Shibata, 1901.Trioxys liui and T. remaudierei are described and reported with phototographs of the diagnostic morphological characters and the mitochondrial cytochrome c oxidase subunit I (COI) data (barcode region) and Bayesian tree of the phylogenetic analysis amongst the closely-related taxa are provided.

Published

2024

12. Recognition of nonself is necessary to activate Drosophila's immune response against an insect parasite.

Author

Leitão, Alexandre B., Arunkumar, Ramesh, Day, Jonathan P., Hanna, Nancy, Devi, Aarathi, Hayes, Matthew P., and Jiggins, Francis M.

Subjects

*INSECT parasites, *PARASITIC insects, *IMMUNE response, *DROSOPHILA, *FAT, *PARASITOIDS

Abstract

Background: Innate immune responses can be activated by pathogen-associated molecular patterns (PAMPs), danger signals released by damaged tissues, or the absence of self-molecules that inhibit immunity. As PAMPs are typically conserved across broad groups of pathogens but absent from the host, it is unclear whether they allow hosts to recognize parasites that are phylogenetically similar to themselves, such as parasitoid wasps infecting insects. Results: Parasitoids must penetrate the cuticle of Drosophila larvae to inject their eggs. In line with previous results, we found that the danger signal of wounding triggers the differentiation of specialized immune cells called lamellocytes. However, using oil droplets to mimic infection by a parasitoid wasp egg, we found that this does not activate the melanization response. This aspect of the immune response also requires exposure to parasite molecules. The unidentified factor enhances the transcriptional response in hemocytes and induces a specific response in the fat body. Conclusions: We conclude that a combination of danger signals and the recognition of nonself molecules is required to activate Drosophila's immune response against parasitic insects. [ABSTRACT FROM AUTHOR]

Published

2024

13. A review of the genus Zygota (Hymenoptera, Diapriidae) in Germany with taxonomic notes on this genus and its distinction from Pantoclis.

Author

Hübner, Jeremy, Chemyreva, Vasilisa, Macek, Jan, and Kolyada, Victor

Subjects

*BIOLOGICAL classification, *GENETIC barcoding, *HEMIPTERA, *HYMENOPTERA, *WASPS

Abstract

This study provides a comprehensive overview of the genus Zygota Förster combining DNA barcoding and current morphology. Nineteen species of Zygota were found throughout Germany, including the newly described species Zygota walli sp. nov. First species records for Germany are: Zygota balteata Macek, 1997; Z. comitans Macek, 1997; Z. spinosipes (Kieffer, 1908); Z. sordida Macek, 1997; Z. angularis Macek, 1997 and Z. vigil Nixon, 1957. We also clarify diagnoses for the two related genera, Pantoclis Förster and Zygota to designate the boundaries of the Zygota genus and propose new synonymies: Zygota caligula Buhl, 1997 is a junior synonym of Z. congener (Zetterstedt, 1840); Z. reticulata Kozlov, 1978 is a junior synonym of Z. ruficornis (Curtis, 1831). Thirteen species of Zygota sensu Nixon (1957) are transferred to the genus Pantoclis with the following new combinations proposed: Zygota brevinervis (Kieffer, 1908) (= Pantoclis brevinervis (Kieffer, 1909), comb. nov.); Z. brevipennis (Kieffer, 1908) (= P. brevipennis (Kieffer, 1908), comb. nov.); Z. caecutiens (Kieffer, 1908) (= P. caecutiens (Kieffer, 1908), comb. nov.); Z. cursor (Kieffer, 1908) (= P. cursor (Kieffer, 1908), comb. nov.); Z. fossulata (Thomson, 1858) (=P. fossulata (Thomson, 1858), comb. nov.); Z. fuscata (Thomson, 1858) (= P. fuscata (Thomson, 1858), comb. no v.); Z. hemiptera (Thomson, 1858) (= P. hemiptera (Thomson, 1858), comb. nov.); Z. microtoma (Kieffer, 1909) (= P. microtoma (Kieffer, 1909), comb. nov.); Z. soluta (Kieffer, 1907) (= P. soluta (Kieffer, 1907), comb. nov.); Z. striata (Kieffer, 1909) (= P. striata (Kieffer, 1909), comb. nov.); Z. subaptera (Thomson, 1858) (= P. subaptera (Thomson, 1858), comb. nov.); Z. sulciventris (Kieffer, 1909) (= P. sulciventris (Kieffer, 1909), comb. nov.), and Z. unicolor (Kieffer, 1908) (= P. unicolor (Kieffer, 1908), comb. nov.). [ABSTRACT FROM AUTHOR]

Published

2024

14. Diversity of Parasitoid Wasps and Comparison of Sampling Strategies in Rice Fields Using Metabarcoding.

Author

Wang, Liyang, Wu, Hongxuan, He, Wei, Lai, Guihong, Li, Junxi, Liu, Siling, and Zhou, Qiang

Subjects

*WASPS, *NUCLEOTIDE sequencing, *GENETIC barcoding, *AGRICULTURE, *NUMBERS of species, *ETHANOL, *BIOLOGICAL pest control, *DNA primers

Abstract

Simple Summary: DNA metabarcoding was used to survey the biodiversity of parasitoid wasps in rice fields. DNA was collected from tissue samples of selected parasitoid wasps in the ethanol of Malaise traps. The results demonstrated the utility of the ethanol filter method for obtaining species information. However, it may lack detailed information and potentially lead to a reduced estimate of species richness. We also identified additional insect species in the parasitoid samples through metabarcoding. The results demonstrate the efficacy of high throughput sequencing on adult parasitoid wasps to determine their host associations. These data enhance the understanding of host species and provide insights into food web dynamics. A comprehensive and precise evaluation of Arthropoda diversity in agricultural landscapes can enhance biological pest control strategies. We used Malaise traps and sweep nets to collect insects from three double-cropping paddy fields. DNA was extracted from the ethanol preservative of the Malaise traps and from tissue samples of selected parasitoid wasps. This was followed by amplification using DNA barcoding primers to prepare high-throughput sequencing libraries. We annotated a total of 4956 operational taxonomic units (OTUs), encompassing 174 genera and 32 families of parasitoid wasps. The ethanol filter method efficiently captured a wide range of information. However, the method has low resolution and may result in a reduced estimate of species abundance. Additional insect species were also identified in the parasitoid samples. This suggests that high throughput sequencing from adult parasitoid wasps can also detect host species, enabling a better understanding of host species and providing insights into food webs. [ABSTRACT FROM AUTHOR]

Published

2024

15. A photographic type catalogue of Platygastroidea (Insecta, Hymenoptera) in the Natural History Museum Vienna

Author

Jessica Awad, Dominique Zimmermann, and Elijah Talamas

Subjects

Digitization, parasitoid wasps, Platygastridae, Scelionidae, Sparasionidae, Zoology, QL1-991, Botany, QK1-989

Abstract

As insect decline threatens the fauna of Central Europe, “dark taxa” present an obstacle to understanding biodiversity loss. The superfamily Platygastroidea is a dark taxon, with many superficial descriptions requiring examination of type material to characterize and revise species and genera. The Natural History Museum Vienna (Naturhistorisches Museum Wien) is arguably the most important historical collection of Platygastroidea in Central Europe. Type specimens from 85 species in 21 genera and three families are here catalogued and photographically illustrated, including previously undocumented types described by Förster, Kieffer, Nees von Esenbeck, and Ratzeburg. Lectotypes are designated for Anteris bicolor Kieffer, Anteris simulans Kieffer, Hadronotus laticeps Kieffer, Leptacis foersteri Kieffer, Plastogryon investis Kieffer, Plastogryon sagax Kieffer, Prophanurus mayri Kieffer, and Telenomus laeviceps Förster. Trissolcus schimitsheki (Szelényi) syn. nov. is treated as a junior synonym of Trissolcus scutellaris (Thomson) and Telenomus nomas Förster syn. nov. is treated as a junior synonym of Trissolcus semistriatus (Nees). Baeus maculatus (Förster) comb. nov. is transferred from Telenomus. Historical, taxonomic, and curatorial remarks are included, providing an essential foundation for revisionary work on the Platygastroidea of Central Europe and beyond.

Published

2024

16. Review of German Spilomicrus Westwood (Hymenoptera, Diapriidae, Spilomicrini).

Author

Hübner, Jeremy Joshua and Chemyreva, Vasilisa

Subjects

DIAPRIIDAE, CLASSIFICATION of insects, INSECT morphology, GENETIC barcoding, INSECT identification

Abstract

Background This study provides an integrative taxonomy-based review for the genus Spilomicrus Westwood in Germany using DNA barcoding and classic morphology. New information Spilomicrus simplex Tomsik, 1947 is placed in synonymy with S. antennatus Jurine, 1807; Spilomicrus thomsoni Kieffer, 1911 is removed from synonymy with S. hemipterus Marshall, 1868. A lectotype is designated for Spilomicrus nigripes Thomson, 1858. Newly recorded for Germany are the following species: S. thomsoni Kieffer, 1911, S. crassiclavis Marshall, 1868, S. lusitanicus Kieffer, 1910 and S. diversus Chemyreva, 2021. Three species, Spilomicrus brevimalaris sp. nov., S. flavecorpus sp. nov. and S. politus sp. nov. are described as new to science. The 23 DNA-barcodes with species identification present a substantial addition over the previous German checklist. This study aims to update the number of nationwide known Spilomicrus species from fifteen to twenty. Furthermore, a new key to identify all European Spilomicrus species is provided. [ABSTRACT FROM AUTHOR]

Published

2024

17. RNAi 技术在寄生蜂中的应用研究进展.

Author

张龙喜, 吕琳, 张欢欢, 周金成, 车午男, and 董辉

Abstract

RNA interference technology has been widely used for investigating functions of genes for more than 20 years since its inception. In Hymenoptera, parasitoid wasps are a group of important natural enemy against pests in agriculture and forestry. The inhibition of target gene expression relies on the delivery of dsRNA. However, the parasitoids develop on host insects, and interact with their hosts. This biological characteristic makes it challenging to conduct RNAi technology. The RNAi technology has already been conducted in the studies involved the molecular mechanisms of at least 13 species of parasitoid wasps, e.g. Nasonia vitripennis, Microplitis mediator, Cotesia vestalis, Pteromalus puparum, and Meteorus pulchbernis. This study reviewed the studies of the molecular mechanisms by using RNAi method, and summarized the factors influencing RNAi efficiency in parasitoid wasps, aiming to provide the reference for application of RNAi technology in parasitoid wasps. [ABSTRACT FROM AUTHOR]

Published

2023

18. Complex Effects of a Land-Use Gradient on Pollinators and Natural Enemies: Natural Habitats Mitigate the Effects of Aphid Infestation on Pollination Services.

Author

Shapira, Tal, Roth, Tohar, Bar, Adi, Coll, Moshe, and Mandelik, Yael

Subjects

*POLLINATORS, *POLLINATION, *BIOLOGICAL pest control, *BIOLOGICAL control of insects, *FLOWERING of plants, *PLANT productivity

Abstract

Simple Summary: Pollination and biological pest control by insects are crucial ecosystem services for agriculture. The activity of pollinators and natural enemies (natural pest control providers), is influenced by land-use and by interactions among these organisms. However, little is known about the combined effects of such factors on the activity of these beneficial organisms and on their ultimate effects on crop yield. We studied how the characteristics of natural habitats, nearby vegetation and the presence of herbivorous pests affect pollination, natural pest control and seed set by model plants. The study was conducted in a Mediterranean agro-ecosystem, where we placed caged and uncaged potted model plants that were either aphid-infested or aphid-free. We quantified the activity of pollinators on model plant flowers, aphid predation and parasitism by natural enemies, as well as fruit and seed set. Our findings revealed a notably stronger positive effect of natural areas on pollinator activity when plants were infested with aphids compared to aphid-free plants. This suggests a potentially crucial role of natural habitats in lessening the negative impact of aphid infestation on pollination services. These results highlight the complex effects of land-use on pollinators, natural enemies and plant productivity. Pollinators and natural enemies are essential ecosystem service providers influenced by land-use and by interactions between them. However, the understanding of the combined impacts of these factors on pollinator and natural enemy activities and their ultimate effects on plant productivity remains limited. We investigated the effects of local and landscape vegetation characteristics and the presence of herbivorous pests on pollination and biological control services and their combined influence on phytometer seed set. The study was conducted in a Mediterranean agro-ecosystem, encompassing ten shrubland plots spanning a land-use gradient. Within each plot, we placed caged and uncaged potted phytometer plants that were either aphid-infested or aphid-free. We quantified insect flower visitation, aphid predation and parasitism rates, and fruit and seed set. We found scale-dependent responses of pollinators and natural enemies to land-use characteristics. Flower species richness had a positive impact on aphid parasitism rates but a negative effect on pollinator activity. Notably, we found a more pronounced positive effect of natural areas on pollinator activity in aphid-infested compared to aphid-free plants, indicating a potentially critical role of natural habitats in mitigating the adverse effects of aphid infestation on pollination services. These results highlight the complex and interactive effects of land-use on pollinators and natural enemies, with significant implications for plant productivity. [ABSTRACT FROM AUTHOR]

Published

2023

19. Development and Competition of Three Parasitoid Wasps, Brachymeria podagrica, Dirhinus himalayanus, and Nasonia vitripennis, in Their Host, Sarcophaga dux, in Single and Mixed Infections

Author

Rolf K. Schuster and Saritha Sivakumar

Subjects

parasitoid wasps, Brachymeria podagrica, Dirhinus himalayanus, Nasonia vitripennis, Sarcophaga dux, Medicine

Abstract

Laboratory trials were carried out to investigate the development of three entomophagous parasitoid wasps in preimaginal stages of Sarcophaga dux in monoinfections and mixed infections. Laboratory-raised postfeeding S. dux third-stage larvae were exposed to Brachymeria podagrica. After pupation, 50 of these fly puparia were brought in contact with pupal parasitoid Dirhinus himalayanus and 50 with Nasonia vitripennis, and the remaining 50 puparia were left as Brachymeria monoinfection. In three further trials, each set of 50 freshly pupated host puparia from the same source was exposed to N. vitripennis and D. himalayanus, as monoinfections and mixed infections, respectively. The uninfected control group consisted of 50 S. dux larvae that were kept separately under the same conditions. The percentages of successfully developed B. podagrica and D. himalayanus in monoinfections were 56 and 86%, respectively, and progeny of N. vitripennis hatched from 88% of the exposed host puparia. In mixed infections, N. vitripennis dominated over B. podagrica and D. himalayanus with rates of successfully infected hosts of 50 and 94%, respectively. The number of Nasonia progeny in these groups ranged from 4 to 49 and 5 to 43, respectively. Dirhinus himalayanus did not develop in the simultaneous infection with N. vitripennis. Not a single S. dux eclosed in the six experimental groups, while in the uninfected control group, 46 (92%) adult flies eclosed 11 to 14 days after the start of pupation. Since the three parasitoids emerge from flesh fly pupae, these insects can become important in criminal forensic investigations when corpses are in an advanced stage of decay. More data on their preimaginal development at different temperatures are necessary.

Published

2024

20. A taxonomic treatment of Synopeas Förster (Platygastridae, Platygastrinae) from the island of New Guinea

Author

Awad, Jessica, Bremer, Jonathan, Butterill, Phil, Moore, Matthew, Talamas, Elijah, and Pensoft Publishers

Subjects

Cecidomyiidae, CO1 barcoding, galls, Papua New Guinea, parasitoid wasps, Platygastroidea, taxonomy

Published

2021

21. Three new species of the genus Aphidius (Hymenoptera, Braconidae, Aphidiinae) from South Korea

Author

Kim, Sangjin, Tomanović, Željko, Yu, Yeonghyeok, Sohn, Juhyeong, Han, Yun Jong, Lee, Gyeonghyeon, Kim, Hyojoong, and Pensoft Publishers

Subjects

DNA barcoding, natural enemy, parasitoid wasps, systematics, taxonomy

Published

2021

22. Review of the world species of Paroplitis Mason, 1981 (Hymenoptera, Braconidae, Microgastrinae), with description of three new species

Author

Fujie, Shunpei, Japoshvili, George, Fernandez-Triana, Jose, and Pensoft Publishers

Subjects

Georgia, Japan, Palaearctic, parasitoid wasps, taxonomic revision, world key

Published

2021

23. RNA virus diversity in three parasitoid wasps of tephritid flies: insights from novel and known species

Author

Wei Zhang, Rong Li, Shuai Li, Shao-Yang Li, Jinzhi Niu, and Jin-Jun Wang

Subjects

parasitoid wasps, tephritid flies, RNA virus, VsiRNA, Microbiology, QR1-502

Abstract

ABSTRACT Parasitoid wasps are a diverse group of parasitoid insects that play a crucial role in biological control and integrated pest management programs due to their wide range of host species and complex behaviors. Previous studies have reported that select RNA viruses in parasitoid wasps can affect either the host-parasitoid wasp or the pest host parasitized by the wasps. Therefore, a study of the dynamics of RNA viruses in parasitoid wasps is essential for artificial breeding programs and improving their parasitic capabilities. In this study, we detected the presence of nine novel and three known RNA viruses with complete genomes in three parasitoid wasp species: Diachasmimorpha longicaudata, Fopius arisanus, and Spalangia endius. These wasps are parasitoids that can parasitel tephritid flies, one of the most important pest groups of fruits and vegetables. In D. longicaudata, the small RNAs derived from the viruses exhibited distinct peaks at 22 nt and were symmetrically distributed across the viral genome. These findings indicate that these viruses can activate the host’s RNAi immune response. PCR detection further revealed that DlNaLV efficiently infects female individuals of D. longicaudata with 100% efficiency, and ZcNLV is capable of infecting both D. longicaudata and its host, Zeugodacus cucurbitae. Our findings contribute to a better understanding of RNA viruses in parasitoid wasps and lay the foundation for future research on the triple-level trophic relationships between tephritid flies, parasitoid wasps, and RNA viruses. IMPORTANCE Parasitoid wasp populations have developed persistent beneficial symbiotic relationships with several viruses through repeated evolution. However, there have been limited reports on RNA viruses in parasitoid wasps of tephritid flies, a significant pest group affecting fruits and vegetables. This study explores the diversity of RNA viruses in three parasitoid wasps of tephritid flies and highlights the potential biological significance of specific viruses in Diachasmimorpha longicaudata. These findings have important implications for the development of sustainable pest management strategies and the enhancement of artificial rearing techniques for parasitoid wasps.

Published

2023

24. New species based on the biological species concept within the complex of Lariophagus distinguendus (Hymenoptera, Chalcidoidea, Pteromalidae), a parasitoid of household pests.

Author

Pollmann, Marie, Kuhn, Denise, König, Christian, Homolka, Irmela, Paschke, Sina, Reinisch, Ronja, Schmidt, Anna, Schwabe, Noa, Weber, Justus, Gottlieb, Yuval, and Steidle, Johannes Luitpold Maria

Subjects

*CHALCID wasps, *PTEROMALIDAE, *HYMENOPTERA, *SPECIES, *GENETIC distance, REPRODUCTIVE isolation

Abstract

The pteromalid parasitoid Lariophagus distinguendus (Foerster) belongs to the Hymenoptera, a megadiverse insect order with high cryptic diversity. It attacks stored product pest beetles in human storage facilities. Recently, it has been shown to consist of two separate species. To further study its cryptic diversity, strains were collected to compare their relatedness using barcoding and nuclear genes. Nuclear genes identified two clusters which agree with the known two species, whereas the barcode fragment determined an additional third Clade. Total reproductive isolation (RI) according to the biological species concept (BSC) was investigated in crossing experiments within and between clusters using representative strains. Sexual isolation exists between all studied pairs, increasing from slight to strong with genetic distance. Postzygotic barriers mostly affected hybrid males, pointing to Haldane's rule. Hybrid females were only affected by unidirectional Spiroplasma‐induced cytoplasmic incompatibility and behavioural sterility, each in one specific strain combination. RI was virtually absent between strains separated by up to 2.8% COI difference, but strong or complete in three pairs from one Clade each, separated by at least 7.2%. Apparently, each of these clusters represents one separate species according to the BSC, highlighting cryptic diversity in direct vicinity to humans. In addition, these results challenge the recent 'turbo‐taxonomy' practice of using 2% COI differences to delimitate species, especially within parasitic Hymenoptera. The gradual increase in number and strength of reproductive barriers between strains with increasing genetic distance also sheds light on the emergence of barriers during the speciation process in L. distinguendus. [ABSTRACT FROM AUTHOR]

Published

2023

25. Molecular identification of hymenopteran parasitoids and their endosymbionts from agromyzids.

Author

Xu, Xuefen, Hoffmann, Ary A., Umina, Paul A., Ward, Samantha E., Coquilleau, Marianne P., Malipatil, Mallik B., and Ridland, Peter M.

Subjects

*BRACONIDAE, *PARASITIC wasps, *LEAFMINERS, *HORTICULTURAL crops, *BIOLOGICAL pest control agents, *AGROMYZIDAE, *CYTOCHROME oxidase

Abstract

Three polyphagous pest Liriomyza spp. (Diptera: Agromyzidae) have recently invaded Australia and are damaging horticultural crops. Parasitic wasps are recognized as effective natural enemies of leafmining species globally and are expected to become important biocontrol agents in Australia. However, the hymenopteran parasitoid complex of agromyzids in Australia is poorly known and its use hindered due to taxonomic challenges when based on morphological characters. Here, we identified 14 parasitoid species of leafminers based on molecular and morphological data. We linked DNA barcodes (5′ end cytochrome c oxidase subunit I (COI) sequences) to five adventive eulophid wasp species (Chrysocharis pubicornis (Zetterstedt), Diglyphus isaea (Walker), Hemiptarsenus varicornis (Girault), Neochrysocharis formosa (Westwood), and Neochrysocharis okazakii Kamijo) and two braconid species (Dacnusa areolaris (Nees) and Opius cinerariae Fischer). We also provide the first DNA barcodes (5′ end COI sequences) with linked morphological characters for seven wasp species, with three identified to species level (Closterocerus mirabilis Edwards & La Salle, Trigonogastrella parasitica (Girault), and Zagrammosoma latilineatum Ubaidillah) and four identified to genus (Aprostocetus sp., Asecodes sp., Opius sp. 1, and Opius sp. 2). Phylogenetic analyses suggest C. pubicornis , D. isaea , H. varicornis, and O. cinerariae are likely cryptic species complexes. Neochrysocharis formosa and Aprostocetus sp. specimens were infected with Rickettsia. Five other species (Cl. mirabilis , D. isaea, H. varicornis, Opius sp. 1, and Opius sp. 2) were infected with Wolbachia , while two endosymbionts (Rickettsia and Wolbachia) co-infected N. okazakii. These findings provide background information about the parasitoid fauna expected to help control the leafminers. [ABSTRACT FROM AUTHOR]

Published

2023

26. Genomics and Mitogenomics of Ampulex compressa

Author

Khazaali, Mahziar

Subjects

Entomology, Genetics, Ampulex compressa, genomics, mitogenomics, parasitoid wasps, phylogenetics, venom

Abstract

Background: Ampulex compressa, the emerald jewel wasp, is a parasitoid wasp that uniquely incapacitates its cockroach prey. The species is notable for its neurologically active venom, which contains a complex mixture of peptides, primarily ampulexins, which facilitate behavioral manipulation of its host.Methods: We conducted comprehensive genomic and mitogenomic analyses of a male Ampulex compressa using short-read Illumina sequencing for nuclear DNA and mitochondrial DNA assembly. The study employed advanced bioinformatic tools for sequence assembly, annotation, and phylogenetic analysis, including SPAdes, GetOrganelle, Augustus, Geneious, and phylogenetic inference using RAxML and MrBayes based on mitochondrial protein-coding genes.Results: The assembled nuclear genome measured 277.7 Mbp across 11,507 scaffolds, while the mitochondrial genome was 17,097 bp long, including 13 protein-coding genes, 22 tRNA genes, and two rRNA genes. Phylogenetic analysis positioned Ampulex compressa closely with other aculeate parasitoids, corroborating the taxonomic placement within Apoidea. Gene annotation revealed four ampulexin genes within a single scaffold, suggesting a potential gene family. Additionally, karyotyping identified 11 chromosomes, aligning with the expected number for the species.Conclusion: This study provides the first complete mitochondrial genome and an extensive nuclear genome assembly for Ampulex compressa. Findings confirm the conserved nature of mitochondrial genomes across Apoidea and support ongoing research into the evolutionary adaptations associated with parasitoidism, such as venom production. Further comparative genomic studies are encouraged to explore gene functions and evolutionary trajectories within Hymenoptera.

Published

2024

27. The Nepalese species of the genus Enicospilus Stephens, 1835 (Hymenoptera, Ichneumonidae, Ophioninae): a preliminary revision and identification key to species

Author

Shimizu, So and Pensoft Publishers

Subjects

Biogeography, Darwin wasps, elevation, Nepal, new species, parasitoid wasps, systematics, taxonomy

Published

2020

28. Diversity of Parasitoid Wasps and Comparison of Sampling Strategies in Rice Fields Using Metabarcoding

Author

Liyang Wang, Hongxuan Wu, Wei He, Guihong Lai, Junxi Li, Siling Liu, and Qiang Zhou

Subjects

metabarcoding, biodiversity, rice fields, parasitoid wasps, Science

Abstract

A comprehensive and precise evaluation of Arthropoda diversity in agricultural landscapes can enhance biological pest control strategies. We used Malaise traps and sweep nets to collect insects from three double-cropping paddy fields. DNA was extracted from the ethanol preservative of the Malaise traps and from tissue samples of selected parasitoid wasps. This was followed by amplification using DNA barcoding primers to prepare high-throughput sequencing libraries. We annotated a total of 4956 operational taxonomic units (OTUs), encompassing 174 genera and 32 families of parasitoid wasps. The ethanol filter method efficiently captured a wide range of information. However, the method has low resolution and may result in a reduced estimate of species abundance. Additional insect species were also identified in the parasitoid samples. This suggests that high throughput sequencing from adult parasitoid wasps can also detect host species, enabling a better understanding of host species and providing insights into food webs.

Published

2024

29. Editorial: Recent advances in the chemical ecology of parasitic Hymenoptera

Author

Joachim Ruther, Thomas Schmitt, and Johannes Stökl

Subjects

parasitic Hymenoptera, parasitoid wasps, pheromones, synomones, kairomones, communication, Evolution, QH359-425, Ecology, QH540-549.5

Published

2023

30. New species based on the biological species concept within the complex of Lariophagus distinguendus (Hymenoptera, Chalcidoidea, Pteromalidae), a parasitoid of household pests

Author

Marie Pollmann, Denise Kuhn, Christian König, Irmela Homolka, Sina Paschke, Ronja Reinisch, Anna Schmidt, Noa Schwabe, Justus Weber, Yuval Gottlieb, and Johannes Luitpold Maria Steidle

Subjects

cryptic diversity, parasitoid wasps, reproductive isolation, species delimitation, turbo‐taxonomy, Ecology, QH540-549.5

Abstract

Abstract The pteromalid parasitoid Lariophagus distinguendus (Foerster) belongs to the Hymenoptera, a megadiverse insect order with high cryptic diversity. It attacks stored product pest beetles in human storage facilities. Recently, it has been shown to consist of two separate species. To further study its cryptic diversity, strains were collected to compare their relatedness using barcoding and nuclear genes. Nuclear genes identified two clusters which agree with the known two species, whereas the barcode fragment determined an additional third Clade. Total reproductive isolation (RI) according to the biological species concept (BSC) was investigated in crossing experiments within and between clusters using representative strains. Sexual isolation exists between all studied pairs, increasing from slight to strong with genetic distance. Postzygotic barriers mostly affected hybrid males, pointing to Haldane's rule. Hybrid females were only affected by unidirectional Spiroplasma‐induced cytoplasmic incompatibility and behavioural sterility, each in one specific strain combination. RI was virtually absent between strains separated by up to 2.8% COI difference, but strong or complete in three pairs from one Clade each, separated by at least 7.2%. Apparently, each of these clusters represents one separate species according to the BSC, highlighting cryptic diversity in direct vicinity to humans. In addition, these results challenge the recent ‘turbo‐taxonomy’ practice of using 2% COI differences to delimitate species, especially within parasitic Hymenoptera. The gradual increase in number and strength of reproductive barriers between strains with increasing genetic distance also sheds light on the emergence of barriers during the speciation process in L. distinguendus.

Published

2023

31. Phylogenomic inference of the higher classification of velvet ants (Hymenoptera: Mutillidae).

Author

Waldren, George C., Sadler, Emily A., Murray, Elizabeth A., Bossert, Silas, Danforth, Bryan N., and Pitts, James P.

Subjects

*PARSIMONIOUS models, *SEXUAL dimorphism, *STAPHYLINIDAE, *TRIBES, *CLASSIFICATION, *TEST validity, *WASPS, *HYMENOPTERA

Abstract

The family Mutillidae (Hymenoptera) is a species‐rich group of aculeate wasps that occur worldwide. The higher‐level classification of the family has historically been controversial due, in part, to the extreme sexual dimorphism exhibited by these insects and their morphological similarity to other wasp taxa that also have apterous females. Modern hypotheses on the internal higher classification of Mutillidae have been exclusively based on morphology and, further, they include Myrmosinae as a mutillid subfamily. In contrast, several molecular‐based family‐level studies of Aculeata recovered Myrmosinae as a nonmutillid taxon. To test the validity of these morphology‐based classifications and the phylogenetic placement of the controversial taxon Myrmosinae, a phylogenomic study of Mutillidae was conducted using ultraconserved elements (UCEs). All currently recognized subfamilies and tribes of Mutillidae were represented in this study using 140 ingroup taxa. The maximum likelihood criterion (ML) and the maximum parsimony criterion (MP) were used to infer the phylogenetic relationships within the family and related taxa using an aligned data set of 238,764 characters; the topologies of these respective analyses were largely congruent. The modern higher classification of Mutillidae, based on morphology, is largely congruent with the phylogenomic results of this study at the subfamily level, whereas the tribal classification is poorly supported. The subfamily Myrmosinae was recovered as sister to Sapygidae in the ML analysis and sister to Sapygidae + Pompilidae in the MP analysis; it is consequently raised to the family level, Myrmosidae, stat.nov. The two constituent tribes of Myrmosidae are raised to the subfamily level, Kudakrumiinae, stat.nov., and Myrmosinae, stat.nov. All four recognized tribes of Mutillinae were found to be non‐monophyletic; three additional mutilline clades were recovered in addition to Ctenotillini, Mutillini, Smicromyrmini, and Trogaspidiini sensu stricto. Three new tribes are erected for members of these clades: Pristomutillini Waldren, trib.nov., Psammothermini Waldren, trib.nov., and Zeugomutillini Waldren, trib.nov. All three recognized tribes of Sphaeropthalminae were found to be non‐monophyletic; six additional sphaeropthalmine clades were recovered in addition to Dasymutillini, Pseudomethocini, and Sphaeropthalmini sensu stricto. The subtribe Ephutina of Mutillinae: Mutillini was found to be polyphyletic, with the Ephuta genus‐group recovered within Sphaeropthalminae and the Odontomutilla genus‐group recovered as sister to Myrmillinae + Mutillinae. Consequently, the subtribe Ephutina is transferred from Mutillinae: Mutillini and is raised to a tribe within Sphaeropthalminae, Ephutini, stat.nov. Further, the taxon Odontomutillinae, stat.nov., is raised from a synonym of Ephutina to the subfamily level. The sphaeropthalmine tribe Pseudomethocini was found to be polyphyletic, with the subtribe Euspinoliina recovered as a separate clade in Sphaeropthalminae; consequently, Euspinoliina is raised to a tribe, Euspinoliini, stat.nov., in Sphaeropthalminae. The dasylabrine tribe Apteromutillini was recovered within Dasylabrini and is proposed as a new synonym of Dasylabrinae. Finally, dating analyses were conducted to infer the ages of the Pompiloidea families (Mutillidae, Myrmosidae, Pompilidae, and Sapygidae) and the ages of the Mutillidae subfamilies and tribes. [ABSTRACT FROM AUTHOR]

Published

2023

32. DNA barcoding of rhopalosomatid larvae reveals a new host record and genetic evidence of a second species of Rhopalosoma Cresson (Hymenoptera, Rhopalosomatidae) in America north of Mexico

Author

Miller, Lance, Benefield, Torie D., Lounsbury, Sarah, Lohrmann, Volker, Blaschke, Jeremy D, and Pensoft Publishers

Subjects

molecular phylogenetics, Orthoptera, parasitoid wasps, Vespoidea

Published

2019

33. New insights into the genome and transmission of the microsporidian pathogen Nosema muscidifuracis.

Author

Xiao Xiong, Geden, Christopher J., Bergstralh, Dan T., White, Roxie L., Werren, John H., and Xu Wang

Subjects

GENE rearrangement, CHROMOSOME duplication, INSECT parasites, PTEROMALIDAE, BIRDS of prey, OVUM, GENOMES

Abstract

Introduction: Nosema is a diverse genus of unicellular microsporidian parasites of insects and other arthropods. Nosema muscidifuracis infects parasitoid wasp species of Muscidifurax zaraptor and M. raptor (Hymenoptera: Pteromalidae), causing ~50% reduction in longevity and ~90% reduction in fecundity. Methods and Results: Here, we report the first assembly of the N. muscidifuracis genome (14,397,169bp in 28 contigs) of high continuity (contig N50 544.3 Kb) and completeness (BUSCO score 97.0%). A total of 2,782 protein-coding genes were annotated, with 66.2% of the genes having two copies and 24.0% of genes having three copies. These duplicated genes are highly similar, with a sequence identity of 99.3%. The complex pattern suggests extensive gene duplications and rearrangements across the genome. We annotated 57 rDNA loci, which are highly GC-rich (37%) in a GC-poor genome (25% genome average). Nosema-specific qPCR primer sets were designed based on 18S rDNA annotation as a diagnostic tool to determine its titer in host samples. We discovered high Nosema titers in Nosemacured M. raptor and M. zaraptor using heat treatment in 2017 and 2019, suggesting that the remedy did not completely eliminate the Nosema infection. Cytogenetic analyses revealed heavy infections of N. muscidifuracis within the ovaries of M. raptor and M. zaraptor, consistent with the titer determined by qPCR and suggesting a heritable component of infection and per ovum vertical transmission. Discussion: The parasitoids-Nosema system is laboratory tractable and, therefore, can serve as a model to inform future genome manipulations of Nosema-host system for investigations of Nosemosis. [ABSTRACT FROM AUTHOR]

Published

2023

34. Massive Somatic and Germline Chromosomal Integrations of Polydnaviruses in Lepidopterans.

Author

Heisserer, Camille, Muller, Héloïse, Jouan, Véronique, Musset, Karine, Periquet, Georges, Drezen, Jean-Michel, Volkoff, Anne-Nathalie, and Gilbert, Clément

Subjects

DOUBLE-strand DNA breaks, FALL armyworm, LARVAE, GERM cells, SOMATIC cells, BRACONIDAE

Abstract

Increasing numbers of horizontal transfer (HT) of genes and transposable elements are reported in insects. Yet the mechanisms underlying these transfers remain unknown. Here we first quantify and characterize the patterns of chromosomal integration of the polydnavirus (PDV) encoded by the Campopleginae Hyposoter didymator parasitoid wasp (HdIV) in somatic cells of parasitized fall armyworm (Spodoptera frugiperda). PDVs are domesticated viruses injected by wasps together with their eggs into their hosts in order to facilitate the development of wasp larvae. We found that six HdIV DNA circles integrate into the genome of host somatic cells. Each host haploid genome suffers between 23 and 40 integration events (IEs) on average 72 h post-parasitism. Almost all IEs are mediated by DNA double-strand breaks occurring in the host integration motif (HIM) of HdIV circles. We show that despite their independent evolutionary origins, PDV from both Campopleginae and Braconidae wasps use remarkably similar mechanisms for chromosomal integration. Next, our similarity search performed on 775 genomes reveals that PDVs of both Campopleginae and Braconidae wasps have recurrently colonized the germline of dozens of lepidopteran species through the same mechanisms they use to integrate into somatic host chromosomes during parasitism. We found evidence of HIM-mediated HT of PDV DNA circles in no less than 124 species belonging to 15 lepidopteran families. Thus, this mechanism underlies a major route of HT of genetic material from wasps to lepidopterans with likely important consequences on lepidopterans. [ABSTRACT FROM AUTHOR]

Published

2023

35. Afrotropical Ceraphronoidea (Insecta: Hymenoptera) put back on the map with the description of 88 new species

Author

Tobias Salden and Ralph S. Peters

Subjects

taxonomy, parasitoid wasps, new species, Afrotropics, dark taxa, Zoology, QL1-991, Botany, QK1-989

Abstract

The number of currently described species of Afrotropical parasitoid wasps does not reflect the true species diversity. One of the most severely understudied parasitoid wasp groups is Ceraphronoidea. In this first study on Afrotropical mainland Ceraphronoidea in more than 20 years, which is also the first ever taxonomic monograph focusing on Ceraphronidae, we describe 88 new species of Ceraphronidae (85 new species) and Megaspilidae (3 new species) from Kakamega Forest (Kenya), Mt. Kilimanjaro (Tanzania) and Ivindo NP (Gabon): Aphanogmus abaluhya sp. nov., A. ashitakai sp. nov., A. idakho sp. nov., A. ikhongamurwi sp. nov., A. isiukhu sp. nov., A. kakamegaensis sp. nov., A. lateritorum sp. nov., A. mangimelii sp. nov., A. mariae sp. nov., A. mashariki sp. nov., A. nehbergi sp. nov., A. njia sp. nov., A. vestrii sp. nov., A. yala sp. nov. (all clavicornis species group), A. dimidiatus sp. nov., A. fraterculus sp. nov., A. guenteri sp. nov., A. kakakili sp. nov., A. kisiwa sp. nov., A. maua sp. nov., A. morriconei sp. nov., A. ndefu sp. nov., A. ngai sp. nov., A. nikii sp. nov., A. pilosicoxa sp. nov., A. rafikii sp. nov., A. robustus sp. nov., A. simbai sp. nov., A. taji sp. nov., A. ukanda sp. nov. (all fumipennis species group), A. campanula sp. nov., A. kikuyu sp. nov., A. pagoda sp. nov. (all tenuicornis species group), Ceraphron banda sp. nov., C. brashi sp. nov., C. breviharpis sp. nov., C. breviscapus sp. nov., C. buyangu sp. nov., C. chemositi sp. nov., C. cingulum sp. nov., C. clavatumeris sp. nov., C. digiti sp. nov., C. eaerendili sp. nov., C. ekero sp. nov., C. ellae sp. nov., C. eulbergi sp. nov., C. herreni sp. nov., C. hitagarciai sp. nov., C. insolitus sp. nov., C. isecheno sp. nov., C. isukha sp. nov., C. ivindoensis sp. nov., C. kaharabu sp. nov., C. kaimosiensis sp. nov., C. kakamegaensis sp. nov., C. kidole sp. nov., C. kimathii sp. nov., C. lirhanda sp. nov., C. longiharpis sp. nov., C. longisetae sp. nov., C. longumerunus sp. nov., C. maathaiae sp. nov., C. malava sp. nov., C. mamamutere sp. nov., C. metapleuralis sp. nov., C. mikoi sp. nov., C. mwekaensis sp. nov., C. nandi sp. nov., C. nzoia sp. nov., C. onesimusi sp. nov., C. pilosiharpis sp. nov., C. pleurosulcus sp. nov., C. reinholdi sp. nov., C. salazar sp. nov., C. sataoi sp. nov., C. semira sp. nov., C. sungura sp. nov., C. tenuimeris sp. nov., C. tiriki sp. nov., C. trietschae sp. nov., Cyoceraphron dhahabudorsalis sp. nov., C. harpe sp. nov., C. invisibilis sp. nov., C. kahawia sp. nov., C. njano sp. nov. (all Ceraphronidae), Conostigmus kijiko sp. nov., C. koleo sp. nov., and Dendrocerus wachagga sp. nov. (all Megaspilidae). In addition, we describe four species of Aphanogmus and five species of Ceraphron without formal naming. A neotype is designated for Dendrocerus anneckei Dessart, 1985 (Megaspilidae). With these new species we more than double the number described from the Afrotropical mainland (65 vs 153). The species numbers found allow us to estimate the real worldwide species number of Ceraphronoidea as being roughly 12 000–21 000, i.e., 16–29 times the number of the currently described species (~730, including the species described herein). This study is meant to highlight that it is necessary and also possible to study the parasitoid wasps of tropical regions and provide momentum for exploring the diversity of small and diverse insect groups in the Afrotropics and elsewhere while also providing the basic knowledge that is much needed for protecting biodiversity and understanding evolution and the networks of life on earth. All described species are diagnosed and illustrated, with focus on the male genitalia. Furthermore, we provide an identification key to males of Afrotropical Ceraphronidae.

Published

2023

36. Taxonomic history and review of the Förster genera of Platygastridae (Hymenoptera: Platygastroidea)

Author

Jessica Awad, Lars Krogmann, and Elijah Talamas

Subjects

taxonomy, parasitoid wasps, historical specimens, Central Europe, Palearctic fauna, Zoology, QL1-991, Botany, QK1-989

Abstract

Platygastridae is a ʻdark taxonʼ, with many genera and species in dire need of professional attention. The taxonomic impediment is especially severe in the Palearctic Platygastrinae due to the abundance of names with vague concepts. Historical descriptions and their associated type material must be examined and clarified before further revisionary work can occur. Arnold Förster described 18 genera of Platygastridae, most of which represent distinct and recognizable lineages. The present study reviews their taxonomic history, providing diagnostic remarks, English translations, and illustrations of important specimens from the Förster collection in the Natural History Museum Vienna. The collection also includes original exemplar specimens of European species whose types have been lost. Neotypes and lectotypes are designated from this material to improve nomenclatural stability in the group. Neotypes are designated for Amblyaspis forticornis (Nees, 1834), Isocybus grandis (Nees, 1834), Platygaster striolata Nees, 1834, and Trichacis tristis (Nees, 1834). Lectotypes are designated for Leptacis spinigera (Nees, 1834) comb. nov. and for Platygaster corvina Förster, 1861, with Platygaster henkvlugi Buhl, 1996 treated as a junior synonym. Platygaster mutica Nees, 1834 stat. rev., nomen dubium, is transferred from Synopeas.

Published

2023

37. Complex Effects of a Land-Use Gradient on Pollinators and Natural Enemies: Natural Habitats Mitigate the Effects of Aphid Infestation on Pollination Services

Author

Tal Shapira, Tohar Roth, Adi Bar, Moshe Coll, and Yael Mandelik

Subjects

agroecology, ecosystem services, herbivores, land-use, Mediterranean agro-ecosystem, parasitoid wasps, Science

Abstract

Pollinators and natural enemies are essential ecosystem service providers influenced by land-use and by interactions between them. However, the understanding of the combined impacts of these factors on pollinator and natural enemy activities and their ultimate effects on plant productivity remains limited. We investigated the effects of local and landscape vegetation characteristics and the presence of herbivorous pests on pollination and biological control services and their combined influence on phytometer seed set. The study was conducted in a Mediterranean agro-ecosystem, encompassing ten shrubland plots spanning a land-use gradient. Within each plot, we placed caged and uncaged potted phytometer plants that were either aphid-infested or aphid-free. We quantified insect flower visitation, aphid predation and parasitism rates, and fruit and seed set. We found scale-dependent responses of pollinators and natural enemies to land-use characteristics. Flower species richness had a positive impact on aphid parasitism rates but a negative effect on pollinator activity. Notably, we found a more pronounced positive effect of natural areas on pollinator activity in aphid-infested compared to aphid-free plants, indicating a potentially critical role of natural habitats in mitigating the adverse effects of aphid infestation on pollination services. These results highlight the complex and interactive effects of land-use on pollinators and natural enemies, with significant implications for plant productivity.

Published

2023

38. Genome of the parasitoid wasp Cotesia chilonis sheds light on amino acid resource exploitation

Author

Xinhai Ye, Shijiao Xiong, Ziwen Teng, Yi Yang, Jiale Wang, Kaili Yu, Huizi Wu, Yang Mei, Cheng Xue, Zhichao Yan, Chuanlin Yin, Fang Wang, Hongwei Yao, Qi Fang, Qisheng Song, Gongyin Ye, and Fei Li

Subjects

Amino acid synthesis, Trait loss, Nutrition exploitation, Genome sequencing, Parasitoid wasps, Cotesia chilonis, Biology (General), QH301-705.5

Abstract

Abstract Background A fundamental feature of parasitism is the nutritional exploitation of host organisms by their parasites. Parasitoid wasps lay eggs on arthropod hosts, exploiting them for nutrition to support larval development by using diverse effectors aimed at regulating host metabolism. However, the genetic components and molecular mechanisms at the basis of such exploitation, especially the utilization of host amino acid resources, remain largely unknown. To address this question, here, we present a chromosome-level genome assembly of the parasitoid wasp Cotesia chilonis and reconstruct its amino acid biosynthetic pathway. Results Analyses of the amino acid synthetic pathway indicate that C. chilonis lost the ability to synthesize ten amino acids, which was confirmed by feeding experiments with amino acid-depleted media. Of the ten pathways, nine are known to have been lost in the common ancestor of animals. We find that the ability to synthesize arginine was also lost in C. chilonis because of the absence of two key genes in the arginine synthesis pathway. Further analyses of the genomes of 72 arthropods species show that the loss of arginine synthesis is common in arthropods. Metabolomic analyses by UPLC-MS/MS reveal that the temporal concentrations of arginine, serine, tyrosine, and alanine are significantly higher in host (Chilo suppressalis) hemolymph at 3 days after parasitism, whereas the temporal levels of 5-hydroxylysine, glutamic acid, methionine, and lysine are significantly lower. We sequence the transcriptomes of a parasitized host and non-parasitized control. Differential gene expression analyses using these transcriptomes indicate that parasitoid wasps inhibit amino acid utilization and activate protein degradation in the host, likely resulting in the increase of amino acid content in host hemolymph. Conclusions We sequenced the genome of a parasitoid wasp, C. chilonis, and revealed the features of trait loss in amino acid biosynthesis. Our work provides new insights into amino acid exploitation by parasitoid wasps, and this knowledge can specifically be used to design parasitoid artificial diets that potentially benefit mass rearing of parasitoids for pest control.

Published

2022

39. Description of four new species of Eadya (Hymenoptera, Braconidae), parasitoids of the Eucalyptus Tortoise Beetle (Paropsis charybdis) and other Eucalyptus defoliating leaf beetles

Author

Ridenbaugh, Ryan, Barbeau, Erin, Sharanowski, Barbara, and Pensoft Publishers

Subjects

Biological control, DNA barcoding, Eucalyptus, Euphorinae, morphometrics, New South Wales, parasitoid wasps, Tasmania, taxonomy, Victoria

Published

2018

40. Taxonomic revision of the genus Oodera Westwood, 1874 (Hymenoptera, Chalcidoidea, Pteromalidae, Cleonyminae), with description of ten new species

Author

Werner, Jennifer, Peters, Ralph, and Pensoft Publishers

Subjects

identification key, new species, parasitoid wasps, taxonomy

Published

2018

41. Contribution to the knowledge of the Brazilian Ephialtini Darwin wasps (Ichneumonidae: Pimplinae).

Author

SANTOS, Isamara S., PÁDUA, Diego G., ARAUJO, Rodrigo O., and SOMAVILLA, Alexandre

Subjects

*ICHNEUMONIDAE, *HYMENOPTERA, *PARASITOID behavior, *SPECIES, *WASPS, *MALES

Abstract

The parasitoid wasps Clistopyga misionensis Bordera & Sääksjärvi and Hymenoepimecis pucallpina Pádua & Sääksjärvi were described recently and were known only from Peru and Argentina, respectively. The males of both species remain unknown. Here, we provide the first record of H. pucallpina for Brazil, Mato Grosso, and its male is described and illustrated for the first time. We also provide a new distribution record of C. misionensi for Brazil, Minas Gerais. A distribution map and images are provided. [ABSTRACT FROM AUTHOR]

Published

2023

42. The Genus Schizoprymnus Förster, 1863 (Hymenoptera, Braconidae, Brachistinae) from China, with Descriptions of Seven New Species †.

Author

Yan, Chengjin, Wu, Qiong, van Achterberg, Cornelis, and Chen, Xuexin

Subjects

*HYMENOPTERA, *BRACONIDAE, *SPECIES

Abstract

Simple Summary: Schizoprymnus is a genus of braconid wasps distributed throughout the whole world except the Neotropical region. There are 126 extant species of Schizoprymnus, 22 of which are known from China (without new species described in this article). This paper describes and illustrates seven new species found in China. The species of the genus Schizoprymnus Förster, 1863 (Hymenoptera, Braconidae, Brachistinae) from China are revised. Seven new species, namely S. carinatus Yan and Chen, sp. nov., S. glabratus Yan and Chen, sp. nov., S. liui Yan and Chen, sp. nov., S. parvidentatus Yan and van Achterberg, sp. nov., S. punctiscutellaris Yan and Chen, sp. nov., S. septentrionalis Yan and Chen, sp. nov., and S. subspinosus Yan and Chen, sp. nov. are described and illustrated. In addition, S. telengai Tobias, 1976 is reported for the first time from China. An updated key to the Chinese species of the genus Schizoprymnus is included. [ABSTRACT FROM AUTHOR]

Published

2023

43. The odorant receptor co‐receptor gene contributes to mating and host‐searching behaviors in parasitoid wasps.

Author

Zhang, Qichao, Chen, Jiani, Wang, Ying, Lu, Yueqi, Dong, Zhi, Shi, Wenqi, Pang, Lan, Ren, Shaopeng, Chen, Xuexin, and Huang, Jianhua

Subjects

OLFACTORY receptors, ANIMAL sexual behavior, WASPS, AMINO acid sequence, BIOLOGICAL control of insects, OLFACTORY perception, POLYMERASE chain reaction

Abstract

Background: Biological control of pest insects by parasitoid wasps is an effective and environmentally friendly strategy compared with the use of synthetic pesticides. Successful courtship and host‐search behaviors of parasitoid wasps are important for biological control efficiency and are often mediated by chemical odorant cues. The odorant receptor co‐receptor (Orco) gene has an essential role in the perception of odors in insects. However, the function of Orco in the mating and host‐searching behaviors of parasitoid wasps remains underexplored. Results: We identified the full‐length Orco genes of four Drosophila parasitoid species in the genus Leptopilina, namely L. heterotoma, L. boulardi, L. syphax and L. drosophilae. Sequence alignment and membrane‐topology analysis showed that Leptopilina Orcos had similar amino acid sequences and topology structures. Phylogenetic analysis revealed that Leptopilina Orcos were highly conserved. Furthermore, the results of quantitative real‐time polymerase chain reactions showed that all four Orco genes had a typical antennae‐biased tissue expression pattern. After knockdown of Orco in these different parasitoid species, we found that Orco‐deficient male parasitoid wasps, but not females, lost their courtship ability. Moreover, Orco‐deficient female parasitoid wasps presented impaired host‐searching performance and decreased oviposition rates. Conclusion: Our study demonstrates that Orcos are essential in the mating and host‐searching behaviors of parasitoid wasps. To our knowledge, this is the first time that the functions of Orco genes have been characterized in parasitoid wasps, which broadens our understanding of the chemoreception basis of parasitoid wasps and contributes to developing advanced pest management strategies. © 2022 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2023

44. Temporal Distribution of Eois Immatures (Lepidoptera, Geometridae) in a Tropical Forest.

Author

Machado, P. A., Gueratto, P. E., Moraes, S. S., Nascimento, A. R., Kato, M. J., and Freitas, A. V. L.

Subjects

*TROPICAL forests, *GEOMETRIDAE, *LEPIDOPTERA, *SPECIES distribution, *BIOLOGICAL systems

Abstract

Studies of populations on a temporal scale are essential to accessing the real diversity of an area since species may not be distributed equally over time. The temporal distribution of species can be related to climatic conditions, such as temperature and precipitation, which play an important role in biological systems, influencing biotic interactions. Insects may optimise their life-cycles to benefit from suitable environmental conditions, including food availability and escape from predators and parasitoids. The goal of this study is to describe the temporal distribution of Eois Hübner abundance associated with species of Piper and to investigate the role of climate and parasitoid wasps on monthly distributions of immature abundance. The study was carried out in an area of Atlantic Forest in Serra do Japi Biological Reserve (SJ), Jundiaí - SP, Brazil. For 13 months, from June 2015 to July 2016, Eois immatures were sought monthly under all leaves of 24 individuals from ten Piper species and reared until the emergence of adults or parasitoids. A total of 778 immature Eois specimens were sampled, and all abundance peaks were concentrated between March to June. No correlation was found between monthly Eois distribution with precipitation and temperature. Otherwise, the results showed a time-delayed correlation between the rate of parasitism and the abundance of Eois immatures, with the highest rate of parasitism occurring after peak abundance of immatures. [ABSTRACT FROM AUTHOR]

Published

2022

45. Investigating bracovirus chromosomal integration and inheritance in lepidopteran host and nontarget species.

Author

Muller, Héloïse, Heisserer, Camille, Fortuna, Taiadjana, Mougel, Florence, Huguet, Elisabeth, Kaiser, Laure, and Gilbert, Clément

Subjects

*BRACONIDAE, *BIOLOGICAL pest control agents, *SOMATIC cells, *SPECIES, *WASPS

Abstract

Bracoviruses (BVs) are domesticated viruses found in braconid parasitoid wasp genomes. They are composed of domesticated genes from a nudivrius, coding viral particles in which wasp DNA circles are packaged. BVs are viewed as possible vectors of horizontal transfer of genetic material (HT) from wasp to their hosts because they are injected, together with wasp eggs, by female wasps into their host larvae, and because they undergo massive chromosomal integration in multiple host tissues. Here, we show that chromosomal integrations of the Cotesia typhae BV (CtBV) persist up to the adult stage in individuals of its natural host, Sesamia nonagrioides, that survived parasitism. However, while reproducing host adults can bear an average of nearly two CtBV integrations per haploid genome, we were unable to retrieve any of these integrations in 500 of their offspring using Illumina sequencing. This suggests either that host gametes are less targeted by CtBVs than somatic cells or that gametes bearing BV integrations are nonfunctional. We further show that CtBV can massively integrate into the chromosomes of other lepidopteran species that are not normally targeted by the wasp in the wild, including one which is divergent by at least 100 million years from the natural host. Cell entry and chromosomal integration of BVs are thus unlikely to be major factors shaping wasp host range. Together, our results shed new light on the conditions under which BV‐mediated wasp‐to‐host HT may occur and provide information that may be helpful to evaluate the potential risks of uncontrolled HT associated with the use of parasitoid wasps as biocontrol agents. [ABSTRACT FROM AUTHOR]

Published

2022

46. A Synopsis of Knowledge of the Rhopalosomatidae (Hymenoptera) in Brazil: an Annotated Checklist of the Family in the Country, with a Revised Key to the Brazilian Genera

Author

Bulbol, M. M., Schoeninger, K., Oliveira, M. L., and Somavilla, A.

Published

2023

47. Interactions between Metisa plana, its hyperparasitoids and primary parasitoids from good agriculture practices (GAP) and non-gap oil palm plantations.

Author

Fuat, Salbi, Adam, Nur Azura, Hazmi, Izfa Riza, and Yaakop, Salmah

Subjects

OIL palm, PARASITOIDS, INSECTICIDE application, INTEGRATED pest control, PLANTATIONS, PEST control

Abstract

The bagworm species, Metisa plana (Lepidoptera: Psychidae), is a major oil palm pest. The existence of M. plana parasitoids is reliant on the presence of the host (M. plana) and food supplies. However, no detailed information on their food web has been studied as a model system for community ecology, specifically in the oil palm ecosystem. Therefore, in this study, we have listed two main objectives: (1) to determine the diversity of M. plana parasitoids from Good Agriculture Practices (GAP) and non-GAP plantations and (2) to investigate the relationships between hyperparasitism and primary parasitism. The parasitoid samplings were conducted at six oil palm plantations throughout Peninsular Malaysia. A total of 1199 hymenopteran parasitoid specimens belonging to 16 species under 8 families were successfully collected by using malaise traps for 12 months. Based on the Shannon–Wiener diversity index (H'), the diversity of the parasitoids was significantly higher (t = 3.840, p < 0.05) in the GAP plantations compared to the non-GAP plantations. The ratio for hyperparasitoids to primary parasitoids is as follows: 32.19%: 67.81%. Interestingly, the analysis indicated a strong negative correlation between the hyperparasitoids and the primary parasitoids (R = − 0.807, R2 = 0.6509, p < 0.05) collected from the GAP plantations. For the non-GAP, intensive insecticide application for pest control was assumed to be the main reason for the weak correlations. These findings contribute the latest information on the diversity of M. plana parasitoids towards Integrated Pest Management (IPM) strategies and towards successful parasitoid rearing programs. [ABSTRACT FROM AUTHOR]

Published

2022

48. Toxares koreanus sp. nov. – a new Toxares species from South Korea (Hymenoptera, Braconidae, Aphidiinae).

Author

Sangjin Kim, Tomanović, Željko, Petrović, Andjeljko, Čkrkić, Jelisaveta, Gyeonghyoen Lee, Jongok Lim, and Hyojoong Kim

Subjects

*CYTOCHROME oxidase, *BRACONIDAE, *HYMENOPTERA, *SPECIES

Abstract

The genus Toxares Haliday, 1840 is a small taxon of Aphidiinae, consisting four valid species in the world. One Toxares species is recorded as new to science from South Korea, in this study. Descriptions and illustrations of the new species, T. koreanus sp. nov., are provided, together with their mitochondrial cytochrome c oxidase subunit I (COI) and D2 region of the nuclear gene for 28S rRNA (28S) sequences. The phylogenetic tree reconstructed using a combination of COI and 28S revealed the phylogenetic position of the genus Toxares within Aphidiinae. [ABSTRACT FROM AUTHOR]

Published

2022

49. Natural Enemies of the Euwallacea fornicates Species Complex (Coleoptera: Scolytinae) and Their Potential in a Classical Biological Control Program

Author

Husein, Deena Wael

Subjects

Entomology, ambrosia beetles, biological control, molecular gut content, nematodes, parasitoid wasps, shothole borer

Abstract

The Euwallacea fornicatus species complex, collectively known as shothole borers (SHB), is comprised of three major invasive cryptic ambrosia beetles of economic importance. Since their detection, two of these species, the polyphagous shot hole borer (PSHB), Euwallacea fornicatus, and the Kuroshio shothole borer (KSHB), Euwallacea kuroshio, have become established in southern California without effective and cost-efficient control measures. The goal of this dissertation was to find promising natural enemies associated with the E. fornicatus species complex and assess their potential as candidates in a classical biological control program. In chapter 1, I recorded emergence and behavior of parasitoid associated with shothole borer-infested wood material imported from the beetle’s native region. As a result, I identified three parasitoid wasps as natural enemies of PSHB that ions emerged from experimental logs selectively infested with PSHB. In Chapter 2, I attempted to confirm a molecular link between beetles in the E. fornicatus species complex and each parasitoid species using molecular gut content analysis. A large subset of parasitoid wasps from Taiwan, collected from shothole borer-infested wood and yellow panel traps, were sequenced and analyzed for trace amounts of DNA from their host beetles. While a few parasitoid species amplified trace amounts of shothole borer DNA, two braconid parasitoids in the subfamily Euphorinae, along with two parasitoids in the families Bethylidae and Eulophidae amplified shothole borer DNA. In chapter 3, I conducted experiments to identify entomophilic nematodes associated with the E. fornicatus species complex. In doing so, a nematode species in the genus Rhabditolaimus originally detected in Taiwan, the native region to the E. fornicatus species complex, was confirmed to already be established in southern California. Fitness cost experiments indicated adverse effects of this Rhabditolaimus sp. on PSHB brood size when reared in the presence of the nematode. This could be evidence that this nematode is a cryptic factor behind the decline of shothole borer populations in previously-infested regions across southern California.

Published

2023

50. Molecular characterisation of Australasian Ixodiphagus (Hymenoptera; Encyrtidae; Encyrtinae) reveals unexpected diversity and a potential novel host switch.

Author

Giannotta MM, Smith I, Michie M, Blasdell K, Dunn M, Nicholls J, Heath ACG, Rodriguez J, and Gofton AW

Abstract

Ticks are important medical and veterinary parasites that represent a substantial health threat to humans, companion animals, and livestock. Ixodiphagus wasps (Hymenoptera; Encyrtidae) are known endoparasitoids of ixodid (hard) and argasid (soft) ticks, with potential utility as natural biocontrol agents. Two species, Ixodiphagus brunneus and Ixodiphagus mysorensis, are previously recorded from Australia, however, the genus lacks formal revisionary work in Australia, and the validity and host ranges of these species remain uncertain. This work aimed to investigate the diversity of Ixodiphagus in Australasia and provide a molecular data resource for future work on these understudied endoparasitoids. We extracted DNA from archival Ixodiphagus specimens from Australian and New Zealand insect collections and performed high-throughput sequencing which resulted in complete or mostly complete mitochondrial genome sequences from 11 specimens, including I. brunneus, Ixodiphagus taiaroaensis, and a novel Ixodiphagus sp. reared from Rhipicephalus linnaei from Townsville, Australia. In addition, approximately 70% of the genome of the Wolbachia endosymbiont of I. brunneus was recovered. Finally, we screened 178 recently collected pooled tick samples from southern New South Wales, Australia, for Ixodiphagus spp. using 28S rRNA and cytochrome c oxidase subunit 1(COI) gene PCR, and recovered 14 positive samples. Phylogenetic analysis of Australasian Ixodiphagus spp. based on 28S rRNA and complete mitochondrial genome sequences determined that members of the Australasian fauna are distinct from Ixodiphagus hookeri (the only other Ixodiphagus species for which genetic data exists), and that at least two distinct species are present in Australia; I. brunneus identified from Ixodes holocyclus and Haemaphysalis bancrofti ticks, and an uncharacterised Ixodiphagus sp. found in Rhipicephalus linnaei ticks from northern Queensland. Furthermore, there was substantial genetic diversity at the 28S rRNA loci among I. brunneus samples, which may represent normal genetic variability or a secondary cryptic species. The molecular data generated here represents the first known for the genus Ixodiphagus in Australasia, doubling that of the world fauna, and provides the first known complete mitochondrial genomes for these important tick parasitoids., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024