Coexistence of minicircular and a highly rearranged mtDNA molecule suggests that recombination shapes mitochondrial genome organization.

Recombination has been proposed as a possible mechanism to explain mitochondrial (mt) gene rearrangements, although the issue of whether mtDNA recombination occurs in animals has been controversial. In this study, we sequenced the entire mt genome of the megaspilid wasp Conostigmus sp., which possessed a highly rearranged mt genome. The sequence of the A+T-rich region contained a number of different types of repeats, similar to those reported previously in the nematode Meloidogyne javanica, in which recombination was discovered. In Conostigmus, we detected the end products of recombination: a range of minicircles. However, using isolated (cloned) fragments of the A+T-rich region, we established that some of these minicircles were found to be polymerase chain reaction (PCR) artifacts. It appears that regions with repeats are prone to PCR template switching or PCR jumping. Nevertheless, there is strong evidence that one minicircle is real, as amplification primers that straddle the putative breakpoint junction produce a single strong amplicon from genomic DNA but not from the cloned A+T-rich region. The results provide support for the direct link between recombination and mt gene rearrangement. Furthermore, we developed a model of recombination which is important for our understanding of mtDNA evolution.

First Record of Telenomus dilophonotae (Hymenoptera, Scelionidae), Parasitizing Eggs of Erinnyis ello (Lepidoptera, Sphingidae) in Western Paraná, Brazil, with Molecular Characterization and Records of Occurrences.

There are few records for Telenomus dilophonotae Cameron, 1913 (Hymenoptera, Scelionidae) from South America. In Brazil, the first occurrence was reported in Bahia in rubber crops, Hevea brasiliensis (Willd. ex Adr. de Juss.) Muell. - Arg., there parasitizing eggs of Erinnyis ello Linnaeus, 1758 (Lepidoptera, Sphingidae). It was also found parasitizing the same host in cassava, Manihot esculenta Crantz (Euphorbiaceae). This is the first record of occurrence of T. dilophonotae in the state of Paraná, parasitizing eggs of E. ello in areas of cassava production in the western region of Paraná, this being the southernmost record of the species. Here, photographs, the first sequence of DNA barcode of this species of parasitoid wasp, and a distribution map are provided.

A taxonomic revision of the Old World genus Dichoteleas Kieffer (Hymenoptera, Scelionidae).

The genus Dichoteleas Kieffer (Scelionidae: Scelioninae) is known only from the Old World: Kenya, Tanzania, Malawi, South Africa, Madagascar, southern India, the island of New Guinea, and eastern Australia. After revision, 10 species are recognized. Four species were previously recognized and are redescribed: D.ambositrae Risbec (Madagascar), D.indicus Saraswat (India: Kerala), D.rugosus Kieffer (Australia: Queensland), and D.subcoeruleus Dodd (Australia: Queensland). Six species are described as new: D.fulgidussp. nov. (Indonesia: Papua Barat), D.fuscussp. nov. (Papua New Guinea, Australia: Queensland), D.hamatussp. nov. (Kenya, Tanzania, Malawi, South Africa)., D.rubyaesp. nov. (Madagascar), D.striatussp. nov. (Madagascar), and D.umbrasp. nov. (Tanzania). Dichoteleaspappi Szabó is treated as a junior synonym of D.rugosus. An identification key to species of the genus is provided.

The first mitochondrial genome for the wasp superfamily Platygastroidea: the egg parasitoid Trissolcus basalis.

The nearly complete mitochondrial (mt) genome of an egg parasitoid, Trissolcus basalis (Wollaston), was sequenced using both 454 and Illumina next-generation sequencing technologies. A portion of the noncoding region remained unsequenced, possibly owing to the presence of repeats. The sequenced portion of the genome is 15,768 bp and has a high A+T content (84.2%), as is typical for hymenopteran mt genomes. A total of 36 of the 37 genes normally present in animal mt genomes were located. The one exception was trnR; a truncated version of this gene is present between trnS(1) and nd5, but it is unclear whether this gene fragment could code for the entire trnR gene. The mt gene arrangement of T. basalis is different from other Proctotrupomorpha mt genomes, with a number of trn genes in different positions. However, no shared derived gene rearrangements were identified in the present study. Bayesian analyses of mt genomes from 29 hymenopteran taxa and seven other orders of holometabolous insects support some uncontroversial evolutionary relationships, but indicate that much higher levels of taxonomic sampling are necessary for the resolution of family and superfamily relationships.

Identification and expression of chemosensory receptor genes in the egg parasitoid Trissolcus basalis.

Parasitic wasps largely rely on chemosenses to locate resources. Understanding the evolution of their chemoreceptors can help elucidate the mechanisms underlying host adaptation and speciation. Trissolcus basalis is a biological control agent of the southern green stink bug, a pantropical pest, and is ideal for investigating the evolution of chemoreceptors. We identified 34 gustatory receptors, 170 odorant receptors, one odorant co-receptor, and 23 ionotropic receptors. Comparison with other Hymenoptera revealed species-specific expansions of 21 Grs and 53 Ors. Most of these Or expansions have 9 exons. Gender- and tissue-specific analyses showed that 5 Grs and 54 Ors are expressed only in antennae in both sexes, 66 Ors in female antennae only, and 4 Ors in male antennae alone. The identification and expression profile of chemosensory receptor genes in T. basalis helps in understanding the link between the evolution of chemoreceptors and speciation in parasitic wasps.

Integrative taxonomy and phylogeography of Telenomus remus (Scelionidae), with the first record of natural parasitism of Spodoptera spp. in Brazil.

The egg parasitoid Telenomus remus (Hymenoptera: Scelionidae) has been investigated for classical and applied biological control of noctuid pests, especially Spodoptera (Lepidoptera: Noctuidae) species. Although T. remus was introduced into Brazil over three decades ago for classical biological control of S. frugiperda, this wasp has not been recorded as established in corn or soybean crops. We used an integrative approach to identify T. remus, combining a taxonomic key based on the male genitalia with DNA barcoding, using a cytochrome c oxidase subunit I mitochondrial gene fragment. This is the first report of natural parasitism of T. remus on S. frugiperda and S. cosmioides eggs at two locations in Brazil. We also confirmed that the T. remus lineage in Brazil derives from a strain in Venezuela (originally from Papua New Guinea and introduced into the Americas, Africa, and Asia). The occurrence of T. remus parasitizing S. frugiperda and S. cosmioides eggs in field conditions, not associated with inundative releases, suggests that the species has managed to establish itself in the field in Brazil. This opens possibilities for future biological control programs, since T. remus shows good potential for mass rearing and egg parasitism of important agricultural pests such as Spodoptera species.

Revision of the genus Oxyscelio Kieffer (Hymenoptera, Scelionidae) from China.

The genus Oxyscelio Kieffer from China is revised. Thirty-four species are recognized, of which two species are described as new: O. nullicarina Mo Chen, sp. n., O. paracuculli Mo Chen, sp. n., and fourteen species are newly recorded from China: O. aclavae Burks, O. arcus Burks, O. brevidentis Burks, O. excavatus (Kieffer), O. flabelli Burks, O. jaune Burks, O. kiefferi Dodd, O. labis Burks, O. mesiodentis Burks, O. mollitia Burks, O. nasolabii Burks, O. nubbin Burks, O. ogive Burks, and O. reflectens Burks. Keys to the Chinese species are provided.

Systematics of Scelioninae (Hymenoptera, Platygastroidea): new synonymy, distribution, and species.

The genera Doddiella Kieffer, 1913 and Aratala Dodd, 1927 are treated as junior synonyms of of Aneuroscelio Kieffer, 1913 following study of the rediscovered holotype of the type species Aneuroscelio rufipes Kieffer, 1913 (syn. nov.). The nine species previously recognized in Doddiella are all transferred to Aneuroscelio (comb. nov.). Calliscelio schlingeri (Masner & Johnson) is recognized as a junior synonym of Calliscelio vitilevuensis (Fullaway) (syn. nov.). Huddlestonium exu Polaszek & Johnson is recorded from Kenya, significantly expanding its known range from West Africa (Côte d'Ivoire, São Tomé). A new species of the genus Tyrannoscelio Masner, Johnson & Arias-Penna, T. cerradensis sp. nov, is described from Paraguay and the Center-West of Brazil (Mato Grosso). The depositories of the holotypes of five recently described are corrected.

Calixomeria, a new genus of Sceliotrachelinae (Hymenoptera, Platygastridae) from Australia.

Calixomerialasallei gen. n. et sp. n. is described as a new genus and species of Sceliotrachelinae. Calixomeria most closely resembles genera of the Aphanomerus-cluster but possesses several characters that readily separate it from other sceliotracheline genera. The key of Masner and Huggert (1989) is modified to accommodate Calixomeria, and the relationship of the genus to other members of the subfamily is discussed.

New species of Idris Förster (Hymenoptera, Platygastroidea) from southeast Asia, parasitoids of the eggs of pholcid spiders (Araneae, Pholcidae).

Four new species of the genus Idris Förster (Hymenoptera: Platygastroidea), reared from the eggs of pholcid spiders (Araneae: Pholcidae) in southeast Asia are described on the basis of external morphology and the barcode region of the mitochondrial COI gene. The new species and their hosts are: I.badius Johnson & Chen, sp. n. (ex Nipisaphyllicola (Deeleman-Reinhold), Panjangehamiguitan Huber), I.balteus Johnson & Chen, sp. n. (ex Panjangecamiguin Huber), I.curtus Johnson & Chen, sp. n. (ex Calapnitanunezae Huber, Panjangecamiguin Huber, Tissahamiabukittimah (Huber), Uthinaluzonica Simon), and I.fusciceps (ex Belisanakhaosok Huber).

Revision of the world species of the genus Habroteleia Kieffer (Hymenoptera, Platygastridae, Scelioninae).

The genus Habroteleia Kieffer is revised. Seven species are recognized, three are redescribed: H. flavipes Kieffer, H. persimilis (Kozlov & Kononova), H. ruficoxa (Kieffer); and four species are described as new: H. mutabilis Chen & Talamas, sp. n., H. salebra Chen & Talamas, sp. n., H. soa Chen & Talamas, sp. n., and H. spinosa Chen & Johnson, sp. n. Four species are treated as junior synonyms of Habroteleia flavipes Kieffer: Chrestoteleia bakeri Kieffer, syn. n., Habroteleia bharatensis Saraswat, syn. n., Habroteleia browni Crawford, syn. n., and Habroteleia kotturensis (Sharma), syn. n.Habroteleia dagavia (Kozlov & Lê), syn. n. is treated as junior synonym of Habroteleia persimilis (Kozlov & Kononova). Baryconus vindhiensis (Sharma), comb. n. is transferred out of Habroteleia Kieffer. Habroteleia impressa (Kieffer) and H. scapularis (Kieffer) remain valid species but their identity and status are unclear.

Revision of the World species of the genus Chromoteleia Ashmead (Hymenoptera, Platygastridae, Scelioninae).

The genus Chromoteleia Ashmead is revised. Twenty-seven species are recognized, of which six species are redescribed: C.congoana (Risbec), C.connectens Kieffer, C.fuscicornis Kieffer, C.longitarsis Kieffer, C.semicyanea Ashmead, C.tricarinata Kieffer; and twenty-one species are described as new: C.aequalis Chen & Johnson, sp. n., C.alternata Chen & Johnson, sp. n., C.bidens Chen & Masner, sp. n., C.copiosa Chen & Johnson, sp. n., C.cuneus Chen & Johnson, sp. n., C.curta Chen & Johnson, sp. n., C.depilis Chen & Johnson, sp. n., C.dispar Chen & Masner, sp. n., C.feng Chen & Johnson, sp. n., C.fossa Chen & Johnson, sp. n., C.ingens Chen & Masner, sp. n., C.levitas Chen & Johnson, sp. n., C.longa Chen & Johnson, sp. n., C.maura Chen & Masner, sp. n., C.parvitas Chen & Johnson, sp. n., C.pilus Chen & Johnson, sp. n., C.plana Chen & Johnson, sp. n., C.rara Chen & Johnson, sp. n., C.robusta Chen & Johnson, sp. n., C.semilutea Chen & Johnson, sp. n., C.sparsa Chen & Johnson, sp. n.Chromoteleiarufithorax Kieffer remains a valid species, but its identity and status are unclear. All species are known only from the Neotropical region except for Chromoteleiacongoana (Resbec) which only occurs in Africa.

The Phanuromyia galeata species group (Hymenoptera, Platygastridae, Telenominae): shining a lantern into an unexplored corner of Neotropical diversity.

The Phanuromyia galeata species group is delineated and its species richness explored for the first time (Hymenoptera: Platygastridae, Telenominae). Fifteen species are described, all of which are new: Phanuromyia comata Nesheim & Masner, sp. n. (Brazil), P. constellata Nesheim, sp. n. (Paraguay), P. corys Nesheim & Masner, sp. n. (Brazil), P. cranos Nesheim & Masner, sp. n. (Bolivia, Costa Rica, Ecuador, French Guiana), P. cudo Nesheim & Masner, sp. n. (Belize, Bolivia, Brazil, Colombia, Costa Rica, Ecuador, French Guiana, Panama, Peru, Trinidad and Tobago, Venezuela), P. dissidens Nesheim & Masner, sp. n. (Bolivia, Brazil, French Guiana), P. galeata Nesheim & Masner, sp. n. (Belize, Brazil, Colombia, Costa Rica, Ecuador, El Salvador, French Guiana, Mexico, Peru), P. galerita Nesheim & Masner, sp. n. (Brazil, Ecuador, French Guiana), P. hjalmr Nesheim, sp. n. (Bolivia, Costa Rica, Ecuador, Paraguay, Venezuela), P. krossotos Nesheim, sp. n. (Ecuador), P. odo Nesheim, sp. n. (Belize, Bolivia, Brazil, Colombia, Costa Rica, Ecuador, El Salvador, French Guiana, Guatemala, Mexico, Panama, Peru, Trinidad and Tobago, Venezuela), P. pauper Nesheim, sp. n. (Ecuador, Peru), P. princeps Nesheim, sp. n. (Brazil, Ecuador, French Guiana), P. tonsura Nesheim, sp. n. (Brazil, Colombia, Ecuador, Paraguay, Peru), P. tubulifer Nesheim & Masner, sp. n. (Brazil, Guyana).

New World species of the genus Calliscelio Ashmead (Hymenoptera, Platygastridae, Scelioninae).

The genus Calliscelio Ashmead is presumed to be a diverse group of parasitoids of the eggs of crickets (Orthoptera: Gryllidae). A least one species has been found to be an important factor in depressing cricket pest populations. The New World species of Calliscelio are revised. Forty-two species are recognized, 3 are redescribed: Calliscelio bisulcatus (Kieffer), Calliscelio laticinctus Ashmead, Calliscelio rubriclavus (Ashmead), comb. n.; and 38 are described as new: Calliscelio absconditum Chen & Johnson, sp. n., Calliscelio absum Chen & Johnson, sp. n., Calliscelio alcoa Chen & Masner, sp. n., Calliscelio amadoi Chen & Johnson, sp. n., Calliscelio armila Chen & Masner, sp. n., Calliscelio bidens Chen & Masner, sp. n., Calliscelio brachys Chen & Johnson, sp. n., Calliscelio brevinotaulus Chen & Johnson, sp. n., Calliscelio brevitas Chen & Johnson, sp. n., Calliscelio carinigena Chen & Johnson, sp. n., Calliscelio crater Chen & Johnson, sp. n., Calliscelio crena Chen & Johnson, sp. n., Calliscelio eboris Chen & Johnson, sp. n., Calliscelio extenuatus Chen & Johnson, sp. n., Calliscelio flavicauda Chen & Johnson, sp. n., Calliscelio foveolatus Chen & Johnson, sp. n., Calliscelio gatineau Chen & Johnson, sp. n., Calliscelio glaber Chen & Masner, sp. n., Calliscelio granulatus Chen & Masner, sp. n., Calliscelio latifrons Chen & Johnson, sp. n., Calliscelio levis Chen & Johnson, sp. n., Calliscelio longius Chen & Johnson, sp. n., Calliscelio magnificus Chen & Masner, sp. n., Calliscelio migma Chen & Johnson, sp. n., Calliscelio minutia Chen & Johnson, sp. n., Calliscelio paraglaber Chen & Johnson, sp. n., Calliscelio pararemigio Chen & Masner, sp. n., Calliscelio prolixus Chen & Johnson, sp. n., Calliscelio punctatifrons Chen & Johnson, sp. n., Calliscelio remigio Chen & Masner, sp. n., Calliscelio ruga Chen & Johnson, sp. n., Calliscelio rugicoxa Chen & Masner, sp. n., Calliscelio sfina Chen & Johnson, sp. n., Calliscelio storea Chen & Johnson, sp. n., Calliscelio suni Chen & Johnson, sp. n., Calliscelio telum Chen & Johnson, sp. n., Calliscelio torqueo Chen & Johnson, sp. n., Calliscelio virga Chen & Johnson, sp. n. Four species are treated as junior synonyms of Calliscelio rubriclavus (Ashmead): Anteris nigriceps Ashmead, syn. n., Caloteleia marlattii Ashmead, syn. n., Caloteleia grenadensis Ashmead, syn. n., and Macroteleia ruskini Girault, syn. n.

Systematics of the parasitic wasp genus Oxyscelio Kieffer (Hymenoptera, Platygastridae s.l.), part III: African fauna.

African species of Oxyscelio (Hymenoptera: Platygastridae s.l.) are revised. A total of 14 species are recognized, 13 of which are described as new: Oxyscelio absentiae Burks, sp. n., Oxyscelio galeri Burks, sp. n., Oxyscelio gyri Burks, sp. n., Oxyscelio idoli Burks, sp. n., Oxyscelio intensionis Burks, sp. n., Oxyscelio io Burks, sp. n., Oxyscelio kylix Burks, sp. n., Oxyscelio lunae Burks, sp. n., Oxyscelio nemesis Burks, sp. n., Oxyscelio pulveris Burks, sp. n., Oxyscelio quassus Burks, sp. n., Oxyscelio teli Burks, sp. n. and Oxyscelio xenii Burks, sp. n. The genus Freniger Szabó, syn. n. is recognized as part of an endemic African species group of Oxyscelio with incomplete hind wing venation, and Oxyscelio bicolor (Szabó), comb. n. is therefore recognized as the only previously described species of Oxyscelio from Africa. The Oxyscelio crateris and Oxyscelio cuculli species groups, previously known from southeast Asia, are represented in Africa by seven and one species respectively.

Fauna Europaea: Hymenoptera - Apocrita (excl. Ichneumonoidea).

Fauna Europaea provides a public web-service with an index of scientific names (including important synonyms) of all living European land and freshwater animals, their geographical distribution at country level (up to the Urals, excluding the Caucasus region), and some additional information. The Fauna Europaea project covers about 230,000 taxonomic names, including 130,000 accepted species and 14,000 accepted subspecies. This represents a huge effort by more than 400 contributing specialists throughout Europe and is a unique (standard) reference suitable for many users in science, government, industry, nature conservation and education. Hymenoptera is one of the four largest orders of insects, with about 130,000 described species. In the Fauna Europaea database, 'Hymenoptera - Apocrita (excluding Ichneumonoidea)' comprises 13 superfamilies, 52 families, 91 subfamilies, 38 tribes and 13,211 species. The paper includes a complete list of taxa dealt with, the number of species in each and the name of the specialist responsible for data acquisition. As a general conclusion about the European fauna of Hymenoptera, the best known countries in terms of recorded species are those from northwestern Europe, with the least known fauna probably in the more eastern and southeastern parts of Europe.

Monograph of the Afrotropical species of Scelio Latreille (Hymenoptera, Platygastridae), egg parasitoids of acridid grasshoppers (Orthoptera, Acrididae).

The genus Scelio is a cosmopolitan and speciose group of solitary parasitoids of the eggs of short-horned grasshoppers (Orthoptera: Acrididae). A number of these hosts are important pests, including plague locusts of the genus Schistocerca. Species of Scelio are recognized as potentially important biological control agents, but this possibility has yet to be fully realized, in part because the species-level taxonomy is still incompletely developed. The species of the pulchripennis group have been recently revised. As a continuation of this effort, here we revise the Afrotropical species of Scelio, excluding the pulchripennis species group. Sixty two (62) species are treated, 48 of which are new. Species are classified into the following species groups: ernstii (12 species, 9 new), howardi (23 species, 19 new), ipomeae (6 species, 5 new), irwini (4 species, 3 new), simoni (3 new species) and walkeri (12 species, 9 new). Keys to species groups and to the species within each group are provided. New species described are: S. albatus Yoder, sp. n., S. aphares Yoder, sp. n., S. apospastos Yoder, sp. n., S. ardelio Yoder, sp. n., S. aurantium Yoder, sp. n., S. balo Valerio & Yoder, sp. n., S. bayanga Yoder, sp. n., S. bubulo Yoder, sp. n., S. cano Yoder, sp. n., S. clypeatus Yoder, sp. n., S. concavus Yoder, sp. n., S. copelandi Yoder, sp. n., S. crepo Yoder, sp. n., S. destico Yoder, sp. n., S. dupondi Yoder, sp. n., S. effervesco Yoder, sp. n., S. erugatus Yoder, sp. n., S. exophthalmus Yoder, sp. n., S. fremo Valerio & Yoder, sp. n., S. gemo Yoder, sp. n., S. grunnio Yoder, sp. n., S. harinhalai Yoder, sp. n., S. igland Yoder, sp. n., S. impostor Yoder, sp. n., S. irwini Yoder, sp. n., S. janseni Yoder, sp. n., S. latro Yoder, sp. n., S. memorabilis Yoder, sp. n., S. modulus Yoder, sp. n., S. mutio Yoder, sp. n., S. ntchisii Yoder, sp. n., S. parkeri Yoder, sp. n., S. phaeoprora Yoder, sp. n., S. pilosilatus Yoder, sp. n., S. pipilo Yoder, sp. n., S. quasiclypeatus Yoder, sp. n., S. retifrons Yoder, sp. n., S. ructo Yoder, sp. n., S. scomma Yoder, sp. n., S. simoni Yoder, sp. n., S. simonolus Yoder, sp. n., S. somaliensis Yoder, sp. n., S. susurro Yoder, sp. n., S. tono Yoder, sp. n., S. transtrum Yoder, sp. n., S. tritus Yoder, sp. n., S. ululo Yoder, sp. n., S. vannoorti Valerio & Yoder, sp. n. The following species are redescribed: S. afer Kieffer, S. chapmani Nixon, S. howardi Crawford, S. ipomeae Risbec, stat. n., S. mauritanicus Risbec, S. philippinensis Ashmead, S. remaudierei Ferrière, S. striatus Priesner,S. taylori Nixon, and S. zolotarevskyi Ferrière. The genus Lepidoscelio Kieffer is treated as a junior synonym of Scelio Latreille, syn. n.; its type species, Lepidoscelio fuscipennis Kieffer, 1905 is transferred to Scelio, renamed Scelio obscuripennis Johnson, nom. n. (preoccupied by Scelio fuscipennis Ashmead, 1887), and redescribed. The following additional species are transferred from Lepidoscelio to Scelio: S. cayennensis (Risbec), comb. n., S. insularis Ashmead, rev. comb., S. luteus (Cameron), comb. n., S. thoracicus Ashmead, rev. comb. Lectotypes are designated for S. africanus Risbec, S. ipomeae Risbec, S. mauritanicus Risbec, S. remaudierei Ferrière, S. sudanensis Ferrière, and S. zolotarevskyi Ferrière. Scelio gaudens Nixon is a junior synonym of Scelio striatus Priesner, syn. n.; Scelio africanus Risbec and Scelio clarus Fouts are both junior synonyms of Scelio afer Kieffer, syn. n.; Scelio sudanensis Ferrière and Scelio cheops Nixon are both junior synonyms of Scelio zolotarevskyi Ferrière, syn. n.; Scelio cahirensis Priesner is a junior synonym of Scelio mauritanicus Risbec, syn. n. The name Scelio chapmanni Nixon is an incorrect original spelling, requiring an emendation to S. chapmani. Digital versions of the identification keys are available at http://www.waspweb.org/Platygastroidea/Keys/index.htm.

Chinese species of egg-parasitoids of the genera Oxyscelio Kieffer, Heptascelio Kieffer and Platyscelio Kieffer (Hymenoptera: Platygastridaes.l., Scelioninae).

To date, the known Chinese fauna of egg-parasitoids of the genus Oxyscelio Kieffer encompasses two species from the mainland - Oxysceliodoumao Burks and Oxyscelionubbin Burks. Here we record eighteen species of Oxyscelio from collections in mainland China: Oxyscelioarvi Burks, Oxyscelioceylonensis (Dodd), Oxyscelioconvergens Burks, Oxysceliocordis Burks, Oxysceliocrebritas Burks, Oxysceliocuculli Burks, Oxysceliodermatoglyphes Burks, Oxysceliodoumao Burks, Oxyscelioflorus Kononova, Oxysceliogranorum Burks, Oxysceliointermedietas Burks, Oxysceliojugi Burks, Oxysceliokramatos Burks, Oxysceliolongiventris Burks, Oxyscelionaraws Kozlov & Lê, Oxyscelioperpensus Kononova, Oxyscelioplanocarinae Burks, and Oxysceliostriarum Burks. Oxyscelio is primarily found in the tropics, and most of these species are shared with Taiwan and southeast Asia. Three species previously known only from Japan, Oxyscelioarvi, Oxyscelioflorus, Oxyscelioperpensus, are shared. The Chinese species are recorded from Guangdong, Guangxi, Hainan, Hebei, Hunan, Shaanxi, Sichuan, Yunnan and Zhejiang as well as additional material from Taiwan. Heptasceliohamatus Masner & Johnson and Platysceliopulchricornis Kieffer are both recorded from Hainan and Guangdong, as well as records of Platysceliopulchricornis from Sarawak and Thailand.

Systematics of the parasitic wasp genus Oxyscelio Kieffer (Hymenoptera, Platygastridae s.l.), part II: the Australian and southwest Pacific fauna.

The Australasian and southwest Pacific species of Oxyscelio (Hymenoptera: Platygastridae s.l.) are revised. A total of 80 species are recognized as valid, 13 of which are redescribed: O. atricoxa (Dodd), O. concoloripes (Dodd), O. flavipes (Kieffer), O. grandis (Dodd), O. hyalinipennis (Dodd), O. magniclava (Dodd), O. mirellus (Dodd), O. montanus (Dodd), O. nigriclava (Dodd), O. nigricoxa (Dodd), O. rugulosus (Dodd), O. shakespearei (Girault), and O. solitarius (Dodd). Oxyscelio glabriscutellum (Dodd) syn. n. is placed as a subjective junior synonym of O. rugulosus. Sixty-seven new species are described, many representing new distributional records for the genus - O. aciculae Burks, sp. n., O. anfractus Burks, sp. n., O. bellariorum Burks, sp. n., O. bicoloripedis Burks, sp. n., O. brevitas Burks, sp. n., O. catenae Burks, sp. n., O. caudarum Burks, sp. n., O. circulorum Burks, sp. n., O. clivi Burks, sp. n., O. clupei Burks, sp. n., O. conjuncti Burks, sp. n., O. contusionis Burks, sp. n., O. corrugationis Burks, sp. n., O. croci Burks, sp. n., O. cuspidis Burks, sp. n., O. densitatis Burks, sp. n., O. dissimulationis Burks, sp. n., O. divisionis Burks, sp. n., O. exiguitatis Burks, sp. n., O. fluctuum Burks, sp. n., O. foliorum Burks, sp. n., O. funis Burks, sp. n., O. gressus Burks, sp. n., O. hamorum Burks, sp. n., O. incisurae Burks, sp. n., O. lenitatis Burks, sp. n., O. leviventris Burks, sp. n., O. limbi Burks, sp. n., O. liminis Burks, sp. n., O. linguae Burks, sp. n., O. lintris Burks, sp. n., O. livens Burks, sp. n., O. mystacis Burks, sp. n., O. nasi Burks, sp. n., O. nitoris Burks, sp. n., O. obliquiatis Burks, sp. n., O. oblongiclypei Burks, sp. n., O. obturationis Burks, sp. n., O. oculi Burks, sp. n., O. palati Burks, sp. n., O. pectinis Burks, sp. n., O. pollicis Burks, sp. n., O. proceritatis Burks, sp. n., O. productionis Burks, sp. n., O. radii Burks, sp. n., O. rami Burks, sp. n., O. rupturae Burks, sp. n., O. sarcinae Burks, sp. n., O. scismatis Burks, sp. n., O. sciuri Burks, sp. n., O. scutorum Burks, sp. n., O. sepisessor Burks, sp. n., O. sinuationis Burks, sp. n., O. sordes Burks, sp. n., O. spatula Burks, sp. n., O. stipulae Burks, sp. n., O. stringerae Burks, sp. n., O. tenuitatis Burks, sp. n., O. truncationis Burks, sp. n., O. tubi Burks, sp. n., O. umbonis Burks, sp. n., O. uncinorum Burks, sp. n., O. valdecatenae Burks, sp. n., O. velamenti Burks, sp. n., O. verrucae Burks, sp. n., O. viator Burks, sp. n., and O. wa Burks, sp. n. The fauna is divided into nine diagnostic species groups, with five species unplaced to group.

Systematics of the parasitic wasp genus Oxyscelio Kieffer (Hymenoptera, Platygastridae s.l.), Part I: Indo-Malayan and Palearctic fauna.

The Indo-Malayan and Palearctic species of Oxyscelio (Hymenoptera: Platygastridae s.l.) are revised. A total of 90 species are recognized as valid, 19 of which are redescribed - Oxyscelio acutiventris (Kieffer), Oxyscelio brevinervis (Kieffer), Oxyscelio carinatus (Kieffer), Oxyscelio ceylonensis (Dodd), Oxyscelio consobrinus (Kieffer), Oxyscelio crassicornis (Kieffer), Oxyscelio cupularis (Kieffer), Oxyscelio dorsalis (Kieffer), Oxyscelio excavatus (Kieffer), Oxyscelio flavipennis (Kieffer), Oxyscelio florus Kononova, Oxyscelio foveatus Kieffer, Oxyscelio kiefferi Dodd, Oxyscelio magnus (Kieffer), Oxyscelio marginalis (Kieffer), Oxyscelio naraws Kozlov & Lê, Oxyscelio perpensus Kononova, Oxyscelio rugosus (Kieffer) and Oxyscelio spinosiceps (Kieffer), and 71 which are described as new - Oxyscelio aclavae Burks, sp. n., Oxyscelio amrichae Burks, sp. n., Oxyscelio anguli Burks, sp. n., Oxyscelio angustifrons Burks, sp. n., Oxyscelio angustinubbin Burks, sp. n., Oxyscelio arcus Burks, sp. n., Oxyscelio arvi Burks, sp. n., Oxyscelio asperi Burks, sp. n., Oxyscelio aureamediocritas Burks, sp. n., Oxyscelio bipunctuum Burks, sp. n., Oxyscelio brevidentis Burks, sp. n., Oxyscelio caesitas Burks, sp. n., Oxyscelio capilli Burks, sp. n., Oxyscelio capitis Burks, sp. n., Oxyscelio cavinetrion Burks, sp. n., Oxyscelio chimaerae Burks, sp. n., Oxyscelio codae Burks, sp. n., Oxyscelio convergens Burks, sp. n., Oxyscelio cordis Burks, sp. n., Oxyscelio crateris Burks, sp. n., Oxyscelio crebritas Burks, sp. n., Oxyscelio crustum Burks, sp. n., Oxyscelio cuculli Burks, sp. n., Oxyscelio cyrtomesos Burks, sp. n., Oxyscelio dasymesos Burks, sp. n., Oxyscelio dasynoton Burks, sp. n., Oxyscelio dermatoglyphes Burks, sp. n., Oxyscelio doumao Burks, sp. n., Oxyscelio fistulae Burks, sp. n., Oxyscelio flabellae Burks, sp. n., Oxyscelio flaviventris Burks, sp. n., Oxyscelio fodiens Burks, sp. n., Oxyscelio fossarum Burks, sp. n., Oxyscelio fossularum Burks, sp. n., Oxyscelio genae Burks, sp. n., Oxyscelio granorum Burks, sp. n., Oxyscelio granuli Burks, sp. n., Oxyscelio greenacus Burks, sp. n., Oxyscelio halmaherae Burks, sp. n., Oxyscelio intermedietas Burks, sp. n., Oxyscelio jaune Burks, sp. n., Oxyscelio jugi Burks, sp. n., Oxyscelio kramatos Burks, sp. n., Oxyscelio labis Burks, sp. n., Oxyscelio lacunae Burks, sp. n., Oxyscelio latinubbin Burks, sp. n., Oxyscelio latitudinis Burks, sp. n., Oxyscelio limae Burks, sp. n., Oxyscelio longiventris Burks, sp. n., Oxyscelio mesiodentis Burks, sp. n., Oxyscelio mollitia Burks, sp. n., Oxyscelio nasolabii Burks, sp. n., Oxyscelio nodorum Burks, sp. n., Oxyscelio noduli Burks, sp. n., Oxyscelio nubbin Burks, sp. n., Oxyscelio obsidiani Burks, sp. n., Oxyscelio ogive Burks, sp. n., Oxyscelio operimenti Burks, sp. n., Oxyscelio peludo Burks, sp. n., Oxyscelio planocarinae Burks, sp. n., Oxyscelio praecipitis Burks, sp. n., Oxyscelio reflectens Burks, sp. n., Oxyscelio regionis Burks, sp. n., Oxyscelio sinuum Burks, sp. n., Oxyscelio spinae Burks, sp. n., Oxyscelio striarum Burks, sp. n., Oxyscelio tecti Burks, sp. n., Oxyscelio unguis Burks, sp. n., Oxyscelio vadorum Burks, sp. n., Oxyscelio vittae Burks, sp. n. and Oxyscelio zeuctomesos. Neotypes are designated for nine species, including the type species O. foveatus Kieffer, Oxyscelio brevinervis (Kieffer), Oxyscelio bifurcatus (Kieffer), Oxyscelio frontalis (Kieffer), Oxyscelio crassicornis (Kieffer), Oxyscelio cupularis (Kieffer), Oxyscelio foveatus Kieffer, Oxyscelio kiefferi Dodd, Oxyscelio magnus (Kieffer) and Oxyscelio marginalis (Kieffer). Oxyscelio bifurcatus (Kieffer) syn. n. and Oxyscelio frontalis (Kieffer) syn. n. are synonymized under Oxyscelio consobrinus (Kieffer). The fauna is divided into 13 species groups, with six species unplaced to a group. A phylogenetic analysis employing 73 morphological characters did not find most of these groups to be monophyletic, but they are retained to aid in specimen identification. Potential biogeographical patterns are discussed, including regional variation in surface sculpture and a morphological link between Sri Lankan and Australian species.