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Journal articles on the topic 'Diapriini'

Author: Grafiati
Published: 2 June 2025
Last updated: 19 July 2025

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1

LOIÁCONO, MARTA S., and CECILIA B. MARGARÍA. "A note on Szelenyiopria pampeana (Loiácono) n. comb., parasitoid wasps (Hymenoptera: Diapriidae) attacking the fungus growing ant, Acromyrmex lobicornis Emery (Hymenoptera: Formicidae: Attini) in La Pampa, Argentina." Zootaxa 2105, no. 1 (2009): 63–65. http://dx.doi.org/10.11646/zootaxa.2105.1.5.

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Diapriids are predominately known as parasitoids of fly pupae. According to Huggert and Masner (1983), representatives of three subfamilies of ants (Myrmicinae, Formicinae and Dorylinae) are the known hosts of myrmecophilic diapriinae wasps (Diapriidae: Diapriinae); within the Myrmicinae, the genera known to be associated with diapriines are Solenopsis Westwood, Tetramorium Mayr and possibly Myrmica Latreille. Acromyrmex ambiguus (Emery) (Myrmicinae), is known as larval host of Szelenyiopria lucens (Loiácono) (Loiácono 1987). Masner and García (2002) noted that this is the first member of the tribe Diapriini in the New World to be positively reared from ants. Gymnopria pampeana Loiácono was reared from A. lobicornis Emery in Argentina (Loiácono et al. 2000). Fernández Marin et al. (2006) provided details of the biology of the diapriine wasps Acanthopria spp. and Mimopriella sp., both of which attack larvae of Cyphomyrmex fungus-growing ants.
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2

Loiácono, Marta S., Cecilia B. Margaría, and Daniel A. Aquino. "Diapriinae Wasps (Hymenoptera: Diaprioidea: Diapriidae) Associated with Ants (Hymenoptera: Formicidae) in Argentina." Psyche: A Journal of Entomology 2013 (2013): 1–11. http://dx.doi.org/10.1155/2013/320590.

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We provide an overview of diapriid wasps associated with ants in Argentina and the diversity of interactions they have developed with their hosts. As a result, we report 16 species of nine genera of Diapriinae, two new geographic distributions, three new association records, illustrations, and photographs. We highlight myrmecophile symphylic species, with a high degree of integration with the host ants, adaptation being morphological and behavioral. A table with diapriid species and ant hosts is given.
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3

Yoder, Matthew. "Mannomicrus (Hymenoptera: Diapriidae), a new genus of myrmecophilic diapriid, with a digital version of Masner and García's (2002) key to New World Diapriinae and an illustration of digital description and key markup using an ontology." Zootaxa 1439 (December 31, 2007): 47–55. https://doi.org/10.5281/zenodo.273722.

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Yoder, Matthew (2007): Mannomicrus (Hymenoptera: Diapriidae), a new genus of myrmecophilic diapriid, with a digital version of Masner and García's (2002) key to New World Diapriinae and an illustration of digital description and key markup using an ontology. Zootaxa 1439: 47-55, DOI: 10.5281/zenodo.273722
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YODER, MATTHEW. "Mannomicrus (Hymenoptera: Diapriidae), a new genus of myrmecophilic diapriid, with a digital version of Masner and García's (2002) key to New World Diapriinae and an illustration of digital description and key markup using an ontology." Zootaxa 1439, no. 1 (2007): 47. http://dx.doi.org/10.11646/zootaxa.1439.1.2.

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Mannomicrus Yoder gen. nov. is described with the type species Hemilexis jessei Mann, 1914. The genus is only the second myrmecophilic member of the tribe Spilomicrini (Diapriidae: Diapriinae) known from the New World. The new genus is diagnosed versus potentially closely related genera and included in an updated on-line version of a recently published key to New World Diapriinae, which is introduced here. The digital key extends the utility of the original key with additional annotations, navigational functions, and additional images. Both the text of the key and an on-line version of the description can be "marked-up", with words contained there-in checked against an ontology of Hymenoptera morphology terms and linked where matches are found. The usage and means to produce the digital products are briefly reviewed. Both the key and a digital version of the description presented here mark the start of a new web site on diapriid systematics available at http://www.diapriid.org.
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5

Kim, Chang-Jun, David Notton, and Jong-Wook Lee. "Discovery of Trichopria keralensis (Hymenoptera, Diaprioidea, Diapriidae) in South Korea and Japan, a review of the keralensis species group of Trichopria and the nomenclature and synonymy of Alareka." Journal of Hymenoptera Research 52 (October 28, 2016): 143–51. https://doi.org/10.3897/jhr.52.8546.

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Trichopria keralensis is recorded for the first time from South Korea and Japan and a detailed redescription and photographs of this species are given. The genus Alareka is a junior synonym of Trichopria syn. n. Alareka keralensis is transferred to Trichopria keralensis comb. n. T. keralensis and closely related species are referred to the keralensis species group of Trichopria. The keralensis species group is recorded here for the first time from the East Palaearctic, West Palaearctic, Afrotropical and Australian (Oceanian) regions. The multiple original spellings of Alareka, Alarika, Alareka keralensis and Alareka keralaensis are resolved.
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6

Carlos Henrique Marchiori. "Description of the Diapriidae Family (Insecta: Diptera)." International Journal of Frontiers in Science and Technology Research 2, no. 2 (2022): 001–18. http://dx.doi.org/10.53294/ijfstr.2022.2.2.0030.

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Diapriidae are commonly found in moist and shady habitats, where they can be very diverse; despite its abundance, little is known about its biology. The basal diapriids, Belytinae and Ambositrinae are probably parasitoids of larvae or pupae of Mycetophilidae and Sciaridae (Diptera). Diapriinae are mostly Diptera parasitoids (Brachycera and Cyclorrhapha), some species parasitize staphylinid and scarab (Coleoptera) larvae others are associated with Formicidae (or with dipterans associated with ants. Some species of Diapriidae were used in biological control programs for dipterans. The purpose of this article is to obtain description of the Family (Insecta: Hymenoptera). In this article, the bionomy of the Diapriidae Family will be studied. To this end, a bibliographic survey of Ichneumonidae was carried out in the years 1940 to 2021. Only complete articles published in scientific journals and expanded abstracts presented at national and international scientific events, Doctoral Thesis and Master's Dissertation were considered. Data were also obtained from platforms such as: Academia.edu, Frontiers, Qeios, Pubmed, Biological Abstract, Publons, Dialnet, World, Wide Science, Springer, RefSeek, Microsoft Academic, Science and ERIC.
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7

Notton, David G. "A catalogue of types of Diapriinae (Hymenoptera, Diapriidae) at the National Museum of Natural History, Paris, with notes on the classification of Diapriinae and a brief history of the types of Jean-Jacques Kieffer (1856-1925)." Zoosystema 26, no. 2 (2004): 315–52. https://doi.org/10.5281/zenodo.5393841.

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Notton, David G. (2004): A catalogue of types of Diapriinae (Hymenoptera, Diapriidae) at the National Museum of Natural History, Paris, with notes on the classification of Diapriinae and a brief history of the types of Jean-Jacques Kieffer (1856-1925). Zoosystema 26 (2): 315-352, DOI: 10.5281/zenodo.5393841
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8

Brazidec, Manuel, and Lars Vilhelmsen. "New species of belytine and diapriine wasps (Hymenoptera: Diapriidae) from Eocene Baltic amber." European Journal of Taxonomy 813 (April 13, 2022): 57–86. https://doi.org/10.5852/ejt.2022.813.1733.

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Brazidec, Manuel, Vilhelmsen, Lars (2022): New species of belytine and diapriine wasps (Hymenoptera: Diapriidae) from Eocene Baltic amber. European Journal of Taxonomy 813: 57-86, DOI: 10.5852/ejt.2022.813.1733, URL: http://dx.doi.org/10.5852/ejt.2022.813.1733
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9

Chemyreva, Vasilisa G., David G. Notton, and Alejandro Zaldívar-Riverón. "Revision of Palaearctic Idiotypa (Hymenoptera, Diapriidae, Diapriinae, Spilomicrini)." Zootaxa 4966, no. 2 (2021): 127–44. https://doi.org/10.11646/zootaxa.4966.2.2.

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Chemyreva, Vasilisa G., Notton, David G., Zaldívar-Riverón, Alejandro (2021): Revision of Palaearctic Idiotypa (Hymenoptera, Diapriidae, Diapriinae, Spilomicrini). Zootaxa 4966 (2): 127-144, DOI: 10.11646/zootaxa.4966.2.2
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10

Notton, David G. "A catalogue of the types of Diapriinae (Hymenoptera, Diapriidae) at the Natural History Museum, London." European Journal of Taxonomy 75 (February 26, 2014): 1–123. https://doi.org/10.5852/ejt.2014.75.

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11

Chemyreva, Vasilisa G. "Revision of the genus Symphytopria Kieffer (Hymenoptera, Diapriidae, Diapriinae) with notes on its taxonomy." Zootaxa 5541, no. 3 (2024): 375–82. https://doi.org/10.11646/zootaxa.5541.3.8.

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Chemyreva, Vasilisa G. (2024): Revision of the genus Symphytopria Kieffer (Hymenoptera, Diapriidae, Diapriinae) with notes on its taxonomy. Zootaxa 5541 (3): 375-382, DOI: 10.11646/zootaxa.5541.3.8, URL: http://dx.doi.org/10.11646/zootaxa.5541.3.8
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12

Lak, Malvina, and André Nel. "An enigmatic diapriid wasp (Insecta, Hymenoptera) from French Cretaceous amber." Geodiversitas 31, no. 1 (2009): 137–44. https://doi.org/10.5252/g2009n1a12.

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Lak, Malvina, Nel, André (2009): An enigmatic diapriid wasp (Insecta, Hymenoptera) from French Cretaceous amber. Geodiversitas 31 (1): 137-144, DOI: 10.5252/g2009n1a12, URL: http://www.bioone.org/doi/abs/10.5252/g2009n1a12
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13

Theertha, P. V., K. Rajmohana, and Sunita Patra. "First record of subfamily diapriinae (diaprioidea: diapriidae) from Odisha, with generic level distribution in rice ecosystems." Records of the Zoological Survey of India 123, no. 2 (2023): 165–70. https://doi.org/10.26515/rzsi/v123/i2/2023/172482.

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Theertha, P. V., Rajmohana, K., Patra, Sunita (2023): First record of subfamily diapriinae (diaprioidea: diapriidae) from Odisha, with generic level distribution in rice ecosystems. Records of the Zoological Survey of India 123 (2): 165-170, DOI: 10.26515/rzsi/v123/i2/2023/172482
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14

MASNER, LUBOMÍR, and R. JOSÉ LUIS GARCÍA. "The Genera Of Diapriinae (Hymenoptera: Diapriidae) In The New World." Bulletin of the American Museum of Natural History 2002, no. 268 (2002): 1–138. https://doi.org/10.1206/0003-0090(2002)268<0001:TGODHD>2.0.CO;2.

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MASNER, LUBOMÍR, GARCÍA R, JOSÉ LUIS (2002): The Genera Of Diapriinae (Hymenoptera: Diapriidae) In The New World. Bulletin of the American Museum of Natural History 2002 (268): 1-138, DOI: 10.1206/0003-0090(2002)268&lt;0001:TGODHD&gt;2.0.CO;2, URL: http://www.bioone.org/doi/abs/10.1206/0003-0090%282002%29268%3C0001%3ATGODHD%3E2.0.CO%3B2
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15

MASNER, LUBOMÍR, and JOSÉ LUIS GARCÍA R. "THE GENERA OF DIAPRIINAE (HYMENOPTERA: DIAPRIIDAE) IN THE NEW WORLD." Bulletin of the American Museum of Natural History 268 (April 2002): 1–138. http://dx.doi.org/10.1206/0003-0090(2002)268<0001:tgodhd>2.0.co;2.

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16

CHEMYREVA, VASILISA G. "Revision of the genus Symphytopria Kieffer (Hymenoptera, Diapriidae, Diapriinae) with notes on its taxonomy." Zootaxa 5541, no. 3 (2024): 375–82. http://dx.doi.org/10.11646/zootaxa.5541.3.8.

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The genus Symphytopria Kieffer, 1910 is revised based on an examination of the holotypes of all described species. Symphytopria fusciceps Kieffer, 1910, syn. nov. and S. nigroclavata Kieffer, 1910, syn. nov. are synonymized with Symphytopria fulva Kieffer, 1910; S. facialis Kieffer, 1910, syn. nov. is synonymized with S. trisulcata Kieffer, 1910. The male of S. fulva is described for the first time and illustrated. The generic diagnosis and the diagnosis of all included species is clarified. The tribal affiliation of this genus within the subfamily Diapriinae is discussed.
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17

Lak, Malvina, and André Nel. "An enigmatic diapriid wasp (Insecta, Hymenoptera) from French Cretaceous amber." Geodiversitas 31, no. 1 (2009): 137–44. http://dx.doi.org/10.5252/g2009n1a12.

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18

CHEMYREVA, VASILISA G., DMITRY V. VASILENKO, and EVGENY E. PERKOVSKY. "‘Where there are many cattle’ in the Eocene of Ukraine: Review of Ambositra Masner (Hymenoptera, Diapriidae, Ambositrinae) from Rovno amber, with the description of three new species." Zootaxa 5446, no. 4 (2024): 499–516. http://dx.doi.org/10.11646/zootaxa.5446.4.3.

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Three species of the genus Ambositra: A. epicnemia sp. nov., A. bicarinata sp. nov. and A. masneri sp. nov. are described from Eocene Rovno amber. The new combination Ambositra villumi (Brazidec &amp; Vilhelmsen) comb. nov. is suggested for the extinct diapriid wasp Basalys villumi described from Baltic amber. The female of A. villumi is described. A detailed illustration of the single extant species Ambositra famosa Masner and the original illustrated key for all known Ambositra species is given. The diagnosis of the genus Ambositra is clarified.
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19

Moura, A. P. de, and D. C. M. de Moura. "LEVANTAMENTO E FLUTUAÇÃO POPULACIONAL DE PARASITOIDES DE MOSCASDAS-FRUTAS (DIPTERA: TEPHRITIDAE) DE OCORRÊNCIA EM GOIABEIRA (PSIDIUM GUAJAVA L.) EM FORTALEZA, CEARÁ." Arquivos do Instituto Biológico 78, no. 2 (2011): 225–31. http://dx.doi.org/10.1590/1808-1657v78p2252011.

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RESUMO Objetivou-se com o presente trabalho conhecer os himenópteros parasitoides associados às moscas-das-frutas (Diptera: Tephritidae) de ocorrência em pomar urbano de goiabeira (Psidium guajava L.) (Myrtaceae), em Fortaleza, Ceará, bem como determinar a flutuação populacional desses organismos nesse ecossistema. Realizaram-se coletas de frutos maduros em plantas de goiabeira e frutos recém-caídos, no período de novembro de 1999 a outubro de 2000. Os parasitoides obtidos pertencem às famílias Braconidae, Chalcididae, Figitidae (Eucoilinae), Diapriidae (Diapriinae) e Eulophidae, sendo que os da família Figitidae são os mais comuns. As maiores incidências desses organismos ocorreram nos meses de janeiro e março de 2000.
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20

CHEMYREVA, VASILISA G., DAVID G. NOTTON, and ALEJANDRO ZALDÍVAR-RIVERÓN. "Revision of Palaearctic Idiotypa (Hymenoptera, Diapriidae, Diapriinae, Spilomicrini)." Zootaxa 4966, no. 2 (2021): 127–44. http://dx.doi.org/10.11646/zootaxa.4966.2.2.

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A revision of the Palaearctic species of the genus Idiotypa Förster is provided. The genus Eunuchopria Szabó, 1961 is a junior synonym of Idiotypa Förster, 1856 syn. n. and the new combination Idiotypa nitens (Szabó, 1961) comb. n., is established. Dublicate original spellings I. marii and I. mariae are resolved by first reviser action; I. mariae is now the correct original spelling. Lectotypes are designated for Idiotypa mariae and I. maritima. New synonymy is proposed: I. maritima (Haliday, 1833) = I. rufiventris (Thomson, 1858) syn. n.; = I. nigriceps Kieffer, 1909 syn. n.; = I. nigriceps Kieffer, 1911 syn. n. The three valid species I. mariae Gregor, 1939, I. maritima (Haliday, 1833) and I. nitens (Szabó, 1961) are redescribed, illustrated and keyed.
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21

Loiácono, Marta S., Cecilia B. Margaría, Estela Quirán, and Bárbara Corró Molas. "Revision of the myrmecophilous diapriid genus Bruchopria Kieffer (Hymenoptera, Proctotrupoidea, Diapriidae)." Revista Brasileira de Entomologia 46, no. 3 (2002): 231–35. http://dx.doi.org/10.1590/s0085-56262002000300001.

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22

Margaría, Cecilia Beatriz, and Marta Susana Loiácono. "Estudio de la colección de microhimenópteros Diaprioidea (Hymenoptera) del Museo de La Plata." Revista del Museo de La Plata 2, no. 2 (2017): 19–37. http://dx.doi.org/10.24215/25456377e040.

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En esta contribución se presenta la información actualizada de los diaprioideos y se efectúa una recopilación acerca de indicadores biológicos -representatividad taxonómica y geográfica– aplicados a los ejemplares de la colección de Diaprioidea del Museo de La Plata, Argentina. Respecto a las subfamilias Ambositrinae y Diapriinae, el 62.3% y el 64,28 de los ejemplares respectivamente, están identificados a nivel genérico, y en cuanto a Belytinae el 60,93% a nivel subfamilia; Las provincias argentinas de Neuquén y Misiones son las que presentan mayor representatividad geográfica; los géneros más representados en la colección son Dissoxylabis Kieffer (74,28%), Gladicauda Early (53,89%) y Spilomicrus Westwood (37,45%). Se brinda la lista de taxones presentes en la colección. El análisis de las asociaciones parasitoide hospedador dio como resultado 35 registros de hospedadores.
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Early, JW, and ID Naumann. "Rostropria, a new genus of Opisthognathous Diapriine wasp from Australia, and notes on the genus Neurogalesus (Hymenoptera : Proctotrupoidea : Diapriidae)." Invertebrate Systematics 3, no. 5 (1989): 523. http://dx.doi.org/10.1071/it9890523.

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Rostropria, gen. nov., comprising six new species (casta, garbo, gondola, inopicida, simplex and spiniventris) from eastern Australia, is most closely related to Neurogalesus Kieffer. The palpal formula is variable within Rostropria. R. inopicida is a parasite of the sugarcane soldier fly, Inopus rubriceps (Macquart) (Stratiomyidae), and a potential biological control agent for this pest of pastures and sugar cane. Euhoplopria Dodd is synonymised with Neurogalesus and the three described species (E. carinatifrons Dodd, E. lativentris Dodd, E. emargipennis Dodd) are transferred to Neurogalesus.
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Hemp, Claudia, and Konrad Dettner. "Compilation of canthariphilous insects." Beiträge zur Entomologie = Contributions to Entomology 51, no. 1 (2001): 231–45. http://dx.doi.org/10.21248/contrib.entomol.51.1.231-245.

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Die durch Cantharidin angezogenen Insekten werden aufgelistet. Die meisten Cantharidin-abhängigen Insekten sind in der Käferfamilie Anthicidae mit 185 Arten in den drei Unterfamilien Anthicinae (179), Lemodiinae (1) und Tomoderinae (5) gefunden worden. Weitere Cantharidin-abhängige Arten sind bekannt aus den Käferfamilien Endomychidae (5), Cleridae (4), Chrysomelidae (3), und Staphylinidae (1). In der Familie Pyrochroidae sind 23 Arten aus der Unterfamilie Pedilinae und 6 Arten aus den Pyrochroinae Cantharidin beeinflußt. Bei den Dipteren sind dies in den Familien Anthomyiidae (3), Cecidomyidae (2), Ceratopogonidae (22) Chloropidae (1), Platystomatidae (1) und Sciaridae (5). Manche Arten der Heteropterenfamilie Miridae (29) sind bekannt wegen des Einflusses von Cantharidin ebenso jeweils eine Art aus den Familien Lygaeidae und Tingidae. Parasiten der Hymenopterenfamilie Braconidae (6) zeigen eine positive Reaktion auf Cantharidin, ebenso wie Arten der Unterfamilie Diapriinae der Familie Diapriidae. Chemische Analysen von Arten der Fulgoridae und Cicadidae zeigen, dass auch Arten der Homoptera Cantharidin-abhängig scheinen.Stichwörtercantharidin, canthariphilous insects, Coleoptera, Diptera, Heteroptera, Homoptera.
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SHIMBORI, EDUARDO MITIO, VALMIR ANTONIO COSTA, and ROBERTO ANTONIO ZUCCHI. "Annotated checklist and illustrated key to parasitoids (Hymenoptera: Diapriidae, Eulophidae and Pteromalidae) of fruit flies (Diptera, Tephritidae) in Brazil." Zootaxa 4858, no. 1 (2020): 53–70. http://dx.doi.org/10.11646/zootaxa.4858.1.3.

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The hymenopteran parasitoids of pest species of Tephritidae in Brazil are best known by their most prominent species, members of Braconidae and Figitidae. Species in the less-studied families Diapriidae, Eulophidae and Pteromalidae, which are mostly pupal parasitoids, have been largely neglected and the literature on these groups is sparse and scattered. Therefore, their importance as natural enemies of fruit flies is likely underestimated. Here, we present a parasitoid-host-plant checklist of all diapriids, eulophids and pteromalids that parasitize fruit flies of economic importance in Brazil, namely Anastrepha species and Ceratitis capitata. A compilation of information of the seven species of these parasitoids occurring in Brazil—Coptera haywardi Loiácono and Trichopria anastrephae Lima (Diapriidae), Tetrastichus giffardianus Silvestri (Eulophidae), Pachycrepoideus vindemmiae (Rondani), Spalangia endius Walker, S. gemina Bouček and S. simplex Perkins (Pteromalidae)—including their taxonomic status, general biology, and potential as biocontrol agents, is presented. Additionally, we provide an illustrated key to species, aiming to highlight key morphological features and facilitate identification at species level, stimulating future research on these groups.
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Lachaud, Jean-Paul, and Gabriela Pérez-Lachaud. "Diversity of Species and Behavior of Hymenopteran Parasitoids of Ants: A Review." Psyche: A Journal of Entomology 2012 (2012): 1–24. http://dx.doi.org/10.1155/2012/134746.

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Reports of hymenopterans associated with ants involve more than 500 species, but only a fraction unambiguously pertain to actual parasitoids. In this paper, we attempt to provide an overview of both the diversity of these parasitoid wasps and the diversity of the types of interactions they have formed with their ant hosts. The reliable list of parasitoid wasps using ants as primary hosts includes at least 138 species, reported between 1852 and 2011, distributed among 9 families from 3 superfamilies. These parasitoids exhibit a wide array of biologies and developmental strategies: ecto- or endoparasitism, solitary or gregarious, and idio- or koinobiosis. All castes of ants and all developmental stages, excepting eggs, are possible targets. Some species parasitize adult worker ants while foraging or performing other activities outside the nest; however, in most cases, parasitoids attack ant larvae either inside or outside their nests. Based on their abundance and success in attacking ants, some parasitoid wasps like diapriids and eucharitids seem excellent potential models to explore how parasitoids impact ant colony demography, population biology, and ant community structure. Despite a significant increase in our knowledge of hymenopteran parasitoids of ants, most of them remain to be discovered.
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Skovgård, H., and J. B. Jespersen. "Activity and relative abundance of hymenopterous parasitoids that attack puparia of Musca domestica and Stomoxys calcitrans (Diptera: Muscidae) on confined pig and cattle farms in Denmark." Bulletin of Entomological Research 89, no. 3 (1999): 263–69. http://dx.doi.org/10.1017/s0007485399000383.

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AbstractA survey was conducted on 84 pig and cattle farms in Denmark between August and October 1996 and 1997. The aim was to describe the activity and relative abundance of parasitoids (Hymenoptera: Pteromalidae and Ichneumonidae) that attack puparia of Musca domestica Linnaeus and Stomoxys calcitrans (Linnaeus). In total, seven pteromalid species were recovered: Spalangia cameroni Perkins, S. nigripes Curtis, S. subpunctata Förster, Muscidifurax raptorGirault &amp; Sanders, Pachycrepoideus vindemiae (Rondani), Urolepis rufipes(Ashmead) and Nasonia vitripennis (Walker), an ichneumonid Phygadeuon fumatorGravenhorst, a diapriid Trichopria sp., and a staphylinid Aleocharasp. This is the first time that U. rufipes has been recorded in Europe. Spalangia cameroni and M. raptor were the most frequently recorded species in all regions of the country, and accounted for the main parasitism of Musca domesticaand Stomoxys calcitrans puparia. The overall rate of parasitism per farm was low: 12.9% of the total number of fly puparia collected. Direct ordination, used to assess the habitat distribution of the parasitoids, showed that Muscidifurax raptor mainly seeks fly puparia in outdoor manure heaps and especially in manure from pigs rather than from cattle, whereas Spalangia cameroni mainly seeks fly puparia indoors, irrespective of livestock.
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Kawai, Ryoji, Seonwoo Yoon, and David G. Notton. "A review of Tetramopria (Hymenoptera, Diapriidae, Diapriinae) of the Eastern Palaearctic with notes on mating behaviour and interactions with host ants." Journal of Hymenoptera Research 98 (June 12, 2025): 621–36. https://doi.org/10.3897/jhr.98.148115.

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Eastern Palaearctic Tetramopria are reviewed; the previously unknown female of T. turbinata is described; T. tortilis is newly recorded from Korea and T. turbinata is newly recorded from Japan; an updated key for all Palaearctic Tetramopria species is given. For both Eastern Palaearctic Tetramopria species we report observations of mating, and interactions between the wasps and their host ants.
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Cardenas, Cody Raul, Amy Rongyan Luo, Tappey H. Jones, Ted R. Schultz, and Rachelle M. M. Adams. "Using an integrative taxonomic approach to delimit a sibling species, Mycetomoellerius mikromelanos sp. nov. (Formicidae: Attini: Attina)." PeerJ 9 (June 24, 2021): e11622. http://dx.doi.org/10.7717/peerj.11622.

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The fungus-growing ant Mycetomoellerius (previously Trachymyrmex) zeteki (Weber 1940) has been the focus of a wide range of studies examining symbiotic partners, garden pathogens, mating frequencies, and genomics. This is in part due to the ease of collecting colonies from creek embankments and its high abundance in the Panama Canal region. The original description was based on samples collected on Barro Colorado Island (BCI), Panama. However, most subsequent studies have sampled populations on the mainland 15 km southeast of BCI. Herein we show that two sibling ant species live in sympatry on the mainland: Mycetomoellerius mikromelanos Cardenas, Schultz, &amp; Adams and M. zeteki. This distinction was originally based on behavioral differences of workers in the field and on queen morphology (M. mikromelanos workers and queens are smaller and black while those of M. zeteki are larger and red). Authors frequently refer to either species as “M. cf. zeteki,” indicating uncertainty about identity. We used an integrative taxonomic approach to resolve this, examining worker behavior, chemical profiles of worker volatiles, molecular markers, and morphology of all castes. For the latter, we used conventional taxonomic indicators from nine measurements, six extrapolated indices, and morphological characters. We document a new observation of a Diapriinae (Hymenoptera: Diapriidae) parasitoid wasp parasitizing M. zeteki. Finally, we discuss the importance of vouchering in dependable, accessible museum collections and provide a table of previously published papers to clarify the usage of the name T. zeteki. We found that most reports of M. zeteki or M. cf. zeteki—including a genome—actually refer to the new species M. mikromelanos.
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Harris-Shultz, Karen R., John Scott Armstrong, Michael Caballero, William Wyatt Hoback, and Joseph E. Knoll. "Insect Feeding on Sorghum bicolor Pollen and Hymenoptera Attraction to Aphid-Produced Honeydew." Insects 13, no. 12 (2022): 1152. http://dx.doi.org/10.3390/insects13121152.

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Pollinators are declining globally, potentially reducing both human food supply and plant diversity. To support pollinator populations, planting of nectar-rich plants with different flowering seasons is encouraged while promoting wind-pollinated plants, including grasses, is rarely recommended. However, many bees and other pollinators collect pollen from grasses which is used as a protein source. In addition to pollen, Hymenoptera may also collect honeydew from plants infested with aphids. In this study, insects consuming or collecting pollen from sweet sorghum, Sorghum bicolor, were recorded while pan traps and yellow sticky card surveys were placed in grain sorghum fields and in areas with Johnsongrass, Sorghum halepense to assess the Hymenoptera response to honeydew excreted by the sorghum aphid (SA), Melanaphis sorghi. Five genera of insects, including bees, hoverflies, and earwigs, were observed feeding on pollen in sweet sorghum, with differences observed by date, but not plant height or panicle length. Nearly 2000 Hymenoptera belonging to 29 families were collected from grain sorghum with 84% associated with aphid infestations. About 4 times as many Hymenoptera were collected in SA infested sorghum with significantly more ants, halictid bees, scelionid, sphecid, encyrtid, mymarid, diapriid and braconid wasps were found in infested sorghum plots. In Johnsongrass plots, 20 times more Hymenoptera were collected from infested plots. Together, the data suggest that sorghum is serving as a pollen food source for hoverflies, earwigs, and bees and sorghum susceptible to SA could provide energy from honeydew. Future research should examine whether planting strips of susceptible sorghum at crop field edges would benefit Hymenoptera and pollinators.
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31

Kim, Chang-Jun, and Jong-Wook Lee. "Spilomicrus magnussp. nov., a new diapriid wasp (Hymenoptera: Diaprioidea: Diapriidae) from South Korea and two new records of the genusSpilomicrusfrom the Eastern Palaearctic region." Entomological Research 46, no. 6 (2016): 360–64. http://dx.doi.org/10.1111/1748-5967.12181.

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32

Nenotek, Petronella S., Mayavira V. Hahuly, and Agnes V. Simamora. "PENGELOLAAN HAMA DAN PENYAKIT TANAMAN JERUK DI KELOMPOK TANI SION DESA OELBUBUK TIMOR TENGAH SELATAN." Jurnal Pengabdian Kepada Masyarakat Undana 15, no. 2 (2021): 36–45. http://dx.doi.org/10.35508/jpkmlppm.v15i2.6054.

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Abstrak&#x0D; Kelompok Tani Sion merupakan salah satu kelompok yang membudidayakan empat jenis tanam jeruk yaitu jeruk keprok SoE (JKS), jeruk hikson, jeruk siam, dan jeruk nipis. Berbagai jenis OPT yang memengaruhi pertumbuhan dan perkembangan jeruk diantaranya Phtytopthora sp., Diplodia sp, virus triteza, Scirtotfrips citri, Diaprina citri, lalat buah. Masalah lain yang dihadapi oleh mitra adalah tidak memberikan pupuk bagi tanaman. PKM ini bertujuan untuk membimbing, membina, dan memberdayakan petani mengelola hama penyakit jeruk ramah lingkungan dengan menggunakan pupuk hayati dan biopestisida. Menjawab permasalahan petani metode yang digunakan adalah yaitu penyuluhan dan pelatihan, adobsi dan introduksi teknologi (demplot dan percobaan terapan teknologi yang murah dan ekonomis serta ramah lingkungan); dan pemberdayaan anggota kelompok tani melalui pendampingan dan evaluasi oleh tim pelaksana. Hasil pelaksanaan menunjukkan bahwa sebanyak 40% anggota kelompok tani mengenal jenis hama dan penyakit pada jeruk, 70% anggota kelompok dapat membuat pupuk hayati tricokompos, pupuk organik cair, dan pestisida nabati. Sebanyak 60% petani mengaplikasikan tricokompos pada tanaman jeruk dan beberapa jenis tanaman lainnya seperti cabai. &#x0D; &#x0D; Abstract&#x0D; The Sion Farmers Group is one of the groups that cultivate four species of citrus, namely Soe Mandarin, hikson oranges, Siamese oranges, and limes. Various species of pests and dieases that affect the growth and development of citrus include Phytopthora sp., Diplodia sp., Triteza virus, Scirtotfrips citri, Diaporina citri and fruit flies. Another problem faced by parteners is not providing fertilizer for plants. This community partnership program aims to guide, foster, and empower farmers to manage environmentally friendly citrus pests using biological fertilizers and biopesticides. Answering farmers’ problems, the methods used are counseling and training, adoption and introduction of technology (demonstrations and experiments on the applications of cheap and economical technology as well as environmentally friendly); and emprowerment of farmer group members through mentoring and evaluation by the implementing team. The results of the implementation showed that as many as 40% of farmer group members knew the species of pests and diaseases in citrus, 70% of group members could make tricocompost biofertilizer, liquid organic fertilizer, and botanical pesticides. As many as 60% of farmers apply tricocompost on citrus plants and several other species of plants such as chili.
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33

Feng, Jun, David Notton, and Zai-fu Xu. "A new species of Calogalesus Kieffer from China (Hymenoptera, Diapriidae) with a key to World species." ZooKeys 626 (October 20, 2016): 57–65. https://doi.org/10.3897/zookeys.626.9771.

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A new species of Calogalesus Kieffer, 1912, C. sinicus sp. n., is described and illustrated, collected from a Chinese prickly ash (Zanthoxylum bungeanum Maxim.) orchard in Yunnan province of China. This is the third described species of the genus in the World. The new species can be distinguished from the other two described Calogalesus species by the head profile, proportions of the antennal segments, tridentate mandible, and mandible length. A key to World species of the genus is provided.
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34

Fitton, M. G., M. R. Shaw, and A. D. Austin. "The Hymenoptera associated with spiders in Europe." Zoological Journal of the Linnean Society 90 (December 31, 1987): 65–93. https://doi.org/10.5281/zenodo.23727.

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35

V.G., Chemyreva, and Kolyada V.A. "Review of the Pantolyta genus (Hymenoptera: Diapriidae: Pantolytini) from Russia, with description of a new species." Zoosystematica Rossica 28, no. 1 (2019): 163–76. https://doi.org/10.31610/zsr/2019.28.1.163.

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Seven species of the genus&nbsp;<em>Pantolyta</em>&nbsp;Foerster are found to occur in Russia. One species,&nbsp;<em>P. ele&shy;gans</em><strong>sp. nov.</strong>&nbsp;from Russia (Kunashir I.) and Japan (Hokkaido I.), is described as new for science. Eight known species of&nbsp;<em>Pantolyta&nbsp;</em>are reviewed and keyed. Colour illustrations are provided to all species.
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36

Zuparko, R. L., and J. Hamai. "Depositions of parasitic Hymenoptera (Insecta) types from the University of California, Berkeley." Pan-Pacific Entomologist 70 (December 31, 1994): 313–17. https://doi.org/10.5281/zenodo.24509.

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37

Mukerjee, M. K. "Descriptions of some new and records of some known Proctotrupoidea (Hymenoptera) from Garhwal Himalayas, India." Records of the Zoological Survey of India Occasional Papers 163 (December 31, 1994): 1–73. https://doi.org/10.5281/zenodo.24529.

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38

Graham, M. W. R. de V. "The remains of Nees von Esenbeck's collection of Hymenoptera in the University Museum, Oxford." Entomologists Monthly Magazine 124 (December 31, 1988): 19–35. https://doi.org/10.5281/zenodo.23986.

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39

Johnson, N. F. "Catalog of world Proctotrupoidea excluding Platygastridae." Memoirs of the American Entomological Institute 51 (December 31, 1992): 1–825. https://doi.org/10.5281/zenodo.23656.

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40

Johnson, N. F. "Catalog of world Proctotrupoidea excluding Platygastridae." Memoirs of the American Entomological Institute 51 (December 31, 1992): 1–825. https://doi.org/10.5281/zenodo.23657.

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41

Sarazin, M. J. "Primary types of Ceraphronoidea, Evaniodea, Proctotrupoidea, and Trigonaloidea (Hymenoptera) in the Canadian National Collection." Canadian Entomologist 118 (December 31, 1986): 957–89. https://doi.org/10.5281/zenodo.23712.

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42

Hou, Zi, and Zai-fu Xu. "Description of a new species of the genus Monelata Förster, 1856 from China (Hymenoptera, Diapriidae)." ZooKeys 574 (March 28, 2016): 97–104. https://doi.org/10.3897/zookeys.574.7628.

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A new species of the genus Monelata Förster, 1856, Monelata truncata sp. n., is described and illustrated from Yunnan Province, China. This is the third Oriental species assigned to this genus. A key to Oriental species of the genus is provided.
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43

P. V. Theertha, K. Rajmohana, and Sunita Patra. "First record of subfamily Diapriinae (Diaprioidea: Diapriidae) from Odisha, with generic level distribution in rice ecosystems." Records of the Zoological Survey of India, November 3, 2023, 165–70. https://doi.org/10.26515/rzsi/v123/i2/2023/172482.

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The present work investigates the distribution of diapriids in the rice fields of Odisha. About 750 diapriid specimens were collected across 10 rice fields falling under the 10 agroclimatic zones through various surveys conducted from 2018-2021. The study documented nine out of the 14 genera of the subfamily Diapriinae found in India, viz. Aneuropria Kieffer, Basalys Westwood, Calogalesus Kieffer, Coptera Say, Entomacis Foerster, Monelata Foerster, Odontopria Kieffer, Spilomicrus Westwood, and Trichopria Ashmead. The distributional status of diapriids across the agroclimatic zones is presented through GIS mapping. Comments on their abundance and morphological specializations are also mentioned. Diapriids are documented for the first time in Odisha. The present findings indicate that they are abundant and widespread in the rice ecosystems of Odisha.
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44

Brazidec, Manuel, and Lars Vilhelmsen. "New species of belytine and diapriine wasps (Hymenoptera: Diapriidae) from Eocene Baltic amber." European Journal of Taxonomy 813 (April 13, 2022). http://dx.doi.org/10.5852/ejt.2022.813.1733.

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The fossil diversity of Diapriidae in Baltic amber, dated Upper Eocene, has been poorly investigated. However, some studies suggest that this family was already diversified at this time. This is supported by our present study of the Baltic amber collection of the Natural History Museum of Denmark, from which we describe and figure ten new species belonging to the subfamilies Belytinae: Belyta knudhoejgaardi sp. nov., Cinetus breviscapus sp. nov., Cinetus elongatus sp. nov., Pantoclis globosa sp. nov., Pantolyta augustinusii sp. nov., Pantolyta chemyrevae sp. nov., Pantolyta similis sp. nov.; and Diapriinae: Basalys villumi sp. nov., Doliopria baltica sp. nov. and Spilomicrus succinalis sp. nov. The diversity of extant genera observed leads us to propose an origin in the early Cenozoic for these taxa. The fossil record of the Diapriidae in Baltic amber is also summarized.
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IZADIZADEH, Mohammad, Ali Asghar TALEBI, Vasilisa G. CHEMYREVA, Samira FARAHANI, and Farzaneh KAZERANI. "The Tribe Spilomicrini Ashmead, 1893 (Hymenoptera: Diapriidae, Diapriinae) in Iran, with New Records for Iranian Fauna." JOURNAL OF THE ENTOMOLOGICAL RESEARCH SOCIETY, November 29, 2024. https://doi.org/10.51963/jers.v26i3.2640.

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A faunistic study of the tribe Spilomicrini Ashmead, 1893 (Hymenoptera: Diapriidae, Diapriinae) has been carried out in Iran. This study is based on the material collected using Malaise traps in four provinces of Iran, including Guilan, Mazandaran, Golestan, and Markazi. The genus Paramesius with one species and Spilomicrus with four species are documented and illustrated for the first time from Iran: P. rufipes Westwood, 1832, S. bipunctatus Kieffer, 1911, S. brevimalaris Hübner &amp; Chemyreva, 2024, S. rufitarsis Kieffer, 1911 and S. stigmaticalis Westwood, 1832. A key to the Iranian Spilomicrini is provided.
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46

Tymochko, Lesia I., Claudio Cuaranhua, and Alex V. Gumovsky. "Habitat distribution of diapriid parasitoid wasps (Hymenoptera, Diaprioidea) in eastern Mozambique." International Journal of Tropical Insect Science, April 16, 2021. http://dx.doi.org/10.1007/s42690-021-00529-0.

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47

Notton, David G. "A catalogue of the types of Diapriinae (Hymenoptera, Diapriidae) at the Natural History Museum, London." European Journal of Taxonomy, no. 75 (February 26, 2014). http://dx.doi.org/10.5852/ejt.2014.75.

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The types of nominal species of Diapriinae in the collection of the Natural History Museum, London, are catalogued. Lectotypes are designated for the following taxa: Diapria peraffinis Ashmead, 1896; D. smithii Ashmead, 1896; Galesus bipunctatus Ashmead,1894; G. (G.) foersteri var. nigricornis Kieffer, 1911; G. sexpunctatus Ashmead, 1893; G. walkeri Kieffer, 1907; Idiotypa nigriceps Kieffer, 1909; I. nigriceps Kieffer, 1911; I. pallida Ashmead, 1893; I. pallida Ashmead, 1894; Paramesius angustipennis Kieffer, 1911; P. cameroni Kieffer, 1911; Phaenopria cameroni Kieffer, 1911; P. halterata Kieffer, 1911; P. magniclavata Ashmead, 1896; Tropidopsis clavata Ashmead, 1893; T. clavata Ashmead, 1894. New combinations are proposed: Aneuropria bifurcata comb. nov. for Mantara bifurcata Dodd, 1920; Basalys quadridens comb. nov. for Microgalesus quadridens Kieffer, 1912; Coptera cratocerus comb. nov. for Galesus cratocerus Cameron, 1912; Coptera sexpunctata comb. nov. for Galesus sexpunctatus Ashmead, 1893; Doliopria magniclavata comb. nov. for Phaenopria magniclavata Ashmead, 1896; Spilomicrus aterrimus comb. nov. for Hoplopria aterrima Dodd, 1920; Spilomicrus campbellanus comb. nov. for Antarctopria campbellana Yoshimoto, 1964; Spilomicrus coelopae comb. nov. for Antarctopria coelopae Early, 1978; Spilomicrus diomedeae comb. nov. for Antarctopria diomedeae Early, 1978; Spilomicrus helosciomyzae comb. nov. for Malvina helosciomyzae Early &amp; Horning, 1978; Spilomicrus insulae comb. nov. for Malvina insulae Early, 1980; Spilomicrus latigaster comb. nov. for Antarctopria latigaster Brues in Tillyard, 1920; Spilomicrus punctatus comb. nov. for Malvina punctata Cameron, 1889; Spilomicrus rekohua comb. nov. for Antarctopria rekohua Early, 1978; Trichopria bouceki comb. nov. for Oxypria bouceki Masner, 1959; Trichopria nigriceps comb. nov. for Tropidopria nigriceps Ashmead, 1894; Trichopria nigriceps comb. nov. for Xyalopria nigriceps Kieffer, 1907; Trichopria spinosiceps comb. nov. for Acidopria spinosiceps Dodd, 1920; Trichopria walkeri comb. nov. for Diapria walkeri Dalla Torre 1890. New replacement names are proposed: Coptera mosselensis nom. nov. for C. nigricornis Nixon, 1930 preocc.; Coptera pijiguaorum nom. nov. for C. sexpunctata Montilla &amp; García, 2008 preocc.; Spilomicrus kozlovi nom. nov. for S. punctatus Kozlov, 1978 preocc.; Trichopria fluminis nom. nov. for T. nigriceps (Kieffer, 1907) preocc.; T. thermarum nom. nov. for T. nigriceps (Kieffer, 1913) preocc. New specific synonyms are proposed: Basalys cursitans (Kieffer, 1911) = B. pedisequa (Kieffer, 1911) syn. nov. (the former removed from synonymy with B. parvus Thomson, 1858); B. iphicla Nixon, 1980 = B. macroptera (Kieffer, 1911) syn. nov.; Coptera bipunctata (Ashmead, 1894) = C. sexpunctata (Ashmead, 1893) syn. nov.; Idiotypa nigriceps Kieffer, 1911 = I. nigriceps Kieffer, 1909 syn. nov.; I. pallida Ashmead, 1894 = I. pallida Ashmead, 1893 syn. nov.; Psilus nigricornis (Kieffer, 1911) = P. fuscipennis (Curtis, 1831) syn. nov.; P. walkeri (Kieffer, 1907) = P. fuscipennis (Curtis, 1831) syn. nov.; T. bouceki (Masner, 1959) = T. conotoma (Kieffer, 1911) syn. nov.; Trichopria halterata (Kieffer, 1911) = T. halterata (Kieffer, 1909) syn. nov. New generic synonyms are proposed: Antarctopria Brues in Tillyard, 1920 = Spilomicrus Westwood, 1832 syn. nov.; Malvina Cameron, 1889 = Spilomicrus Westwood, 1832 syn. nov.; Mantara Dodd, 1920 = Aneuropria Kieffer, 1905 syn. nov.; Microgalesus Kieffer, 1912 = Basalys Westwood, 1833 syn. nov.; Xyalopria Kieffer, 1907 = Trichopria Ashmead, 1893 syn. nov. (Xyalopria is removed from synonymy with Megaplastopria Ashmead, 1903). A brief account of some aspects of the history of these types is given.
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48

Theertha, P. V., K. Rajmohana, Sunita Patra, A. Shabnam, and K. P. Dinesh. "Indopria angulata gen. et sp. n., new genus and species of diapriid wasps (Hymenoptera: Diapriidae) from India." Biologia, February 26, 2024. http://dx.doi.org/10.1007/s11756-024-01609-5.

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49

Hovorka, Tomáš, and Jan Macek. "Catalogue of type specimens of the superfamily Diaprioidea (Hymenoptera) deposited in the National Museum of the Czech Republic." Acta Entomologica Musei Nationalis Pragae, December 26, 2024, 501–57. https://doi.org/10.37520/aemnp.2024.032.

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Type specimens from the collection of Hymenoptera deposited in the Department of Entomology, National Museum of the Czech Republic, are currently being catalogued. In this part of the catalogue we deal with the superfamily Diaprioidea Haliday, 1833. We present precise information about the 46 species belonging to the family Diapriidae Haliday, 1833: four species in the subfamily Ambositrinae Masner, 1961; 34 species in the subfamily Belytinae Förster, 1856, including 30 holotype specimens, and eight species in the subfamily Diapriinae Haliday, 1833, including four holotype specimens. We also present precise information about one species belonging to the family Maamingidae Early, Masner, Naumann &amp; Be, 2001. In total, 758 type specimens of the superfamily Diaprioidea are deposited in the National Museum of the Czech Republic. Most species belonging to the family Diapriidae were described by Jan Macek. Current status, distribution and photos are provided for each taxon. For many species listed in this catalogue, these are the first-ever published photographs. The holotype and allotype of two species, Aprestes modesta Macek, 1997 and A. rugifrons Macek, 1997, the holotype of Aprestes japonica Macek, 1997, and the allotype of Aclista pseudobitensis Macek, 2007 are currently missing but available data on these specimens are provided.
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50

Chen, Qiang, Ye Tian, Jinlong Zhang, et al. "Resilience mechanisms of Trichopria drosophilae (Hymenoptera: Diapriinae) under global extreme cooling: insights into parasitic response and physiological adaptation." Journal of Economic Entomology, July 17, 2024. http://dx.doi.org/10.1093/jee/toae134.

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Abstract Global climate warming and frequent extreme low-temperature events have made it essential to investigate the impact of low temperatures on parasitic wasps to protect and strengthen farmland biodiversity, which in turn enhances the biological control potential of natural enemies such as parasitic wasps. We systematically examined how low-temperature stress affects the parasitic functional response of Trichopria drosophilae to Drosophila suzukii (Diptera: Drosophilidae) pupae. Our findings indicate that the parasitic behavior of T. drosophilae towards D. suzukii pupae aligns with the Holling II functional response model following exposure to different temperatures. Within the temperature range of 8 °C to −8 °C, lower temperatures correlated decreased instantaneous attack rate of T. drosophilae and an increase in processing time. The search constant Q initially increased and then decreased with declining temperatures. Short-term low-temperature stress negatively impacted the parasitic and searching abilities of T. drosophilae but did not alter its parasitic functional response model. Notably, short-term low-temperature stress had minimal effects on the water content, protein content, and total sugar content of male and female T. drosophilae adults. However, as temperatures decreased, the activities of key enzymes, including GAPDH, SOD, T-AOC, and malondialdehyde (MDA), exhibited an initial increase followed by a decrease. Conversely, the activities of LDH and HOAD decreased, while the activities of CAT and POD increased. Further study on the effect of short-term low temperature on T. drosophilae can provide a research basis for the large-scale production and low-temperature refrigeration technology of T. drosophilae, and provide a scientific basis for its efficient use in the field.
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