ore JHR 48: I-I 8 (20 I 6) JOURNAL COR. Ppeetreaiewed open atectiouryst eae at (f-) Hymenoptera http://jhr.pensoft.net The inserational Society of ymenopterists. RESEARCH Systematics, biology and distribution of Microdontomerus iridis (Picard, 1930), comb. n. (Hymenoptera, Torymidae, Toryminae, Microdontomerini), a parasitoid of Mantodea oothecae Petr Jansta', Gerard Delvare’, Lars Krogmann?, Kai Schiitte*, Ralph S. Peters? | Charles University in Prague, Department of Zoology, Vinitnd 7, 128 44 Praha 2, Czech Republic 2 Cirad UMR CBGP. 755 Avenue du Campus Agropolis, 30016, 34988 Montferrier-sur-Lez Cedex, France 3 Staatli- ches Museum fiir Naturkunde Stuttgart, Entomologie, Rosenstein 1, 70191 Stuttgart, Germany 4 Universitat Hamburg, Zoologisches Institut, Abt. Tierdkologie und Naturschutz und Centrum fir Naturkunde, Zoologi- sches Museum, Martin-Luther-King-Platz 3, 20146 Hamburg, Germany § Zoologisches Forschungsmuseum Alexander Koenig, Abteilung Arthropoda, Adenauerallee 160, 53113 Bonn, Germany Corresponding author: Petr Jansta (janstapetr@gmail.com) Academic editor: H. Baur | Received 9 December 2015 | Accepted 13 February 2016 | Published 1 March 2016 http:/!zoobank.org/6 CES E5B8-23C3-4292-924C-441 9000F03ED Citation: Jansta P, Delvare G, Krogmann L, Schiitte K, Peters RS (2016) Systematics, biology and distribution of Microdontomerus iridis (Picard, 1930), comb. n. (Hymenoptera, Torymidae, Toryminae, Microdontomerini), a parasitoid of Mantodea oothecae. Journal of Hymenoptera Research 48: 1-18. doi: 10.3897/JHR.48.7470 Abstract Here, we report on a unique parasitoid wasp species of Toryminae reared from oothecae of praying man- tids in the Mediterranean region. Based on the first available large specimen series, we transfer the species to Microdontomerus iridis comb. n. (from Torymus), describe the so far unknown male, designate a neo- type, expand the known geographical distribution by adding new records from Greece, Spain and Turkey, and provide the first images of live specimens of the species as well as information on its larval biology. We also transfer Microdontomerus carayoni comb. n. from /diomacromerus. Keywords Chalcidoidea, Mediterranean area, ectoparasitoid, /ris oratoria, larval biology Copyright Petr Jansta et al. This is an open access article distributed under the terms of the Creative Commons Attribution License (CC BY 4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. 2 Petr Jansta et al. / Journal of Hymenoptera Research 48: 1-18 (2016) Introduction Torymus iridis (Picard, 1930) is an exceptional species in the species-rich and biologically diverse subfamily Toryminae, as it is one of very few species with a reliable host record of Mantodea oothecae outside the strictly Mantodea oothecae-associated Podagrionini. However, data on this species are very scarce. The only two published records are the original description by Picard (1930) from oothecae of Jris oratoria (Linnaeus, 1758) and an additional record from the same host species by Bernard (1936). Both records were restricted to France. The male remained unknown. We reared a non-podagrionine species from I. oratoria oothecae collected in France, Greece, Spain and Turkey, and tentatively identified it as Torymus iridis. The availability of this larger series, for the first time also including males, led us to revise the taxonomic status of this biologically exceptional species. In this study, we transfer the species to the correct genus and tribe, provide a de- scription of the male, designate a neotype due to all historic material including the type specimens apparently having been lost, update and expand the known geographical distribution, and provide the first photographs of live specimens of the species as well as additional biological data. Material and methods Oothecae of /ris oratoria were collected from several locations in France, Greece, Spain and Turkey. Oothecae were collected in open Mediterranean steppe habitats under stones (Greece, Spain, and Turkey), glued to the substrate or to the stones, or very near the coast on outer walls or stakes (France). The oothecae were subsequently stored in boxes or Petri dishes at room tempera- ture. Emerging specimens were card mounted or stored in 96% alcohol at —20 °C. In total, we reared 23 females and 7 males of the wasp species from six oothecae of Jris oratoria. Additional oothecae of Jris oratoria were collected in Spain, some of which showed emergence holes similar to those formed by emerging wasps reared in the lab. These were dissected to check for parasitoid remains. Pictures of live and mounted specimens were taken with a Keyence VHX-500F digital microscope. Other mounted specimens, including the neotype, were photo- graphed with a JVC KY-75U 3CCD digital camera attached to an EntoVision bin- ocular microscope, and the serial images obtained combined with Cartograph 5.6.0 (Microvision, Evry, France) software which allows precise measurements. Additional specimens were photographed with a Leica DXM 1200 digital camera attached to a Leica MZ 16 APO microscope and processed using Auto-Montage (Syncroscopy) software. Photographs were digitally optimized (artefacts removal, background stand- ardization) using Photoshop® V. All figure plates were built using CorelDRAW’. Characters used for measurements of all specimens, their definition and abbrevia- tion are listed in App. 1. They mostly follow Graham (1969), Gibson et al. (1997), Systematics, biology and distribution of Microdontomerus iridis (Picard, 1930) comb. n... 3 Graham and Gijswijt (1998), Krogmann and Vilhelmsen (2006) and Baur (2015) or are newly defined. Some additional abbreviations which are not mentioned in Ap- pendix 1 are: F1-F6 = funicle segments 1-6; Gt,-Gt, = gastral terga 1-5; MPS = multiporous plate sensilla; OI (ovipositor index) = ratio of ovipositor length to length of metatibia. Terms for surface sculpture follow Harris (1979). The measurements (in pm) of characters of individuals of both sexes are com- piled in Suppl. material 1. An overview of the basic descriptive statistics for each body measurement and their ratios are given in App. 2 and 3. All measurements were made with special reference to the correct orientation: eye length was meas- ured in dorsal view, oral fossa breadth was measured in ventral view; all mesosomal and gastral tergites were measured in dorsal view along the median line except length of pronotum which was measured from lateral view; ovipositor length was measured as the part of the ovipositor sheaths that extends beyond the tip of the last gastral tergite. SEM images of uncoated specimens were prepared at the Department of Palaeon- tology of the National Museum in Prague using a Hitachi S-3700N scanning electron microscope. Collection acronyms used are CUPC = Charles University in Prague, Faculty of Science, Department of Zoology, Prague, Czech Republic; GDPC = Gérard Delvare personal collection, Montpellier, France; MNHN = Muséum National d’Histoire Na- turelle, Paris, France; SMNS = State Museum of Natural History Stuttgart, Germany; ZMH = Zoological Museum Hamburg, Germany; ZFMK = Zoologisches Forschun- gsmuseum Alexander Koenig, Bonn, Germany. Results Taxonomy Microdontomerus iridis (Picard, 1930), comb. n. Figs 1-25 Callimome iridis Picard, 1930: 89-90, & (original description from France [Provence], syntypes in MNHN); Bernard 1936: 70 (host record of male and female), Graham and Gijswijt 1998: 161 (catalog, species inquirenda) Torymus iridis: Grissell 1995: 282 (generic transfer, distribution) Material examined. Neotype female (in MNHN), FRANCE: Herault, Palavas-les- Flots, between city and Maguelone Cathedral, 1 ma. s. 1., 43.515167°N, 3.901833°E, February 1979, ex egg-case of /ris oratoria on stake, Foucart A. leg. Non-type specimens: FRANCE, same data as neotype, 4 males (in GDPC); Aniane, city, 66 m a.s.l., 43.686528°N, 3.584361°E, 23.vii.1986, ex egg-case of I. oratoria on wall, Delvare G. leg., 1 female (in GDPC). GREECE, Kerkini Laka National Park, Ker- 4 Petr Jansta et al. / Journal of Hymenoptera Research 48: 1-18 (2016) Figures 1-4. Microdontomerus iridis, female neotype (scale bar 0.15 mm, unless indicated otherwise). I Habitus, lateral (scale bar 1 mm) 2 Head, dorsal 3 Mesosoma (partially), dorsal 4 Mesoscutellum (partially), metascutellum and propodeum, dorsal. kini Mountains foothills, 41.277868°N, 23.214595°E, 254 m a.s.l., 4.v.2010, ex egg- case of I. oratoria, Fusu L. & Popovici O. leg., 9 females, 5 males (in GDPC); SPAIN, Extremadura, rio Magasca, Nordhang, near Trujillo, 5.viii.2009, 10 females, 1 male, em. i. 2010 (1 female), iii.2010 (1 female), v.2010 (4 females), 30.vi.2010 (2 females), 15.vii.2010 (1 male), vii.2010 (2 females) (in SMNS [2 females], ZFMK [2 females], ZMH [6 females, 1 male]); TURKEY, Izmir prov., Cukuralan, GPS 39.17437°N, 026.92825°E, 460m a.s.l., 21.iv.2011, em. 18.v.2011, 8 females, 3 males (in CUPC). Condition of the neotype. Specimen complete, glued on rectangular card, right hind wing removed and glued on card. Systematics, biology and distribution of Microdontomerus iridis (Picard, 1930) comb. n... 5 Figures 5-10. Microdontomerus iridis, female (scale bar 0.2 mm). 5 Head, frontal, arrow indicates de- pression in cuticle sculpture (specimen from Greece) 6 Head, posterior (specimen from Turkey) 7 An- tenna, lateral (specimen from Turkey) 8 Mesosoma, lateral (specimen from Greece) 9 Hind leg, lateral (specimen from Turkey) 10 Metasoma, dorsal (specimen from Greece). Comments. The species was described from four females, which were housed in the Abeille de Perrin collection (in MNHN). Locating these specimens remained un- successful. The French entomologist Abeille de Perrin lived and worked in Marseille. Therefore, it is possible that the ootheca of 1. oratoria from which the syntype speci- mens emerged was collected in the department Bouches-du-Rhéne. Diagnosis. Head 1.09-1.18x as broad as high and 1.87—2.04x as broad as long. Anterior margin of clypeus straight and recessed relative to corners of oral fossa. 6 Petr Jansta et al. / Journal of Hymenoptera Research 48: 1-18 (2016) Scrobes bare and less sculptured relative to the rest of face and interantennal area. Toruli inserted above ventral level of eye. Face between lateral level of eye and toruli with small depression contrasting with nearby surface sculpture. OOL about as long as LOD. Antenna with scape not reaching anterior ocellus; flagellum with two anelli and six funicular segments, all funicular segments transverse. Posterior part of midlobe of mesoscutum and entire mesoscutellum flattened dorsally; mesoscutellum less sculp- tured in contrast to pronotum and mesoscutum. Fore wing with speculum reaching end of marginal vein; costal cell dorsally with one row of setae along anterior margin, cubital cell without setae and basal cell at most with few setae along anterior margin; basal and cubital setal line complete; marginal vein 1.40—2.00x as long as postmar- ginal vein and 2.55—3.78x as long as stigmal vein. All tarsi slightly longer than tibiae, metafemur simple, without any tooth. Metasoma with hypopygium reaching almost end of gaster; Gt, incised medially, Gt,—Gt, distinctly emarginate medially, Gt,-Gt, slightly emarginate. Ovipositor 0.65—0.79x as long as body; OI 2.50—2.90. Description: FEMALE neotype. Body length excluding ovipositor 2.14 mm; length of ovipositor 1.51 mm. Head, mesosoma, meso- and metacoxa and metaso- ma metallic bronze green with coppery reflections, especially on mesonotum (Fig. 1). Lower part of scape, tegula, pro- and mesofemur and pro-, meso- and metatibia pale yellow. Procoxa brown in proximal part, pale yellow in distal part. Metafemur pale yellow with brownish spot in the middle; pro-, meso- and metatarsus pale yellow proximally and brownish distally. Distal part of scape, flagellum and ovipositor brown. Pedicel brown with metallic reflection. Fore wing slightly infumate, wing venation pale brown, setae brown. Head. Head 1.10x as broad as high; 1.99x as broad as long (Fig. 2); 1.12x as broad as mesonotum at its widest part in dorsal view. Temple short, strongly converging, one quarter as long as eye. Eyes separated by 1.10x their own height, eye 1.81x as high as long. Head slightly reticulate with thin, short, pale setae on face, vertex and temple which are about as long as two meshes of the reticulation; scrobe more finely reticulate, without setae. Face between lateral level of eye and torulus with small depression in cuticle sculpture (Fig. 5). Clypeus with anterior margin nearly straight and recessed relative to corners of oral fossa; ventral part of clypeus smooth (Fig. 5). Malar space two thirds as long as breadth of oral fossa and 0.49x as long as eye height. Occipital carina absent (Fig. 6). Antenna with scape 3.90x and pedicel 1.46x as long as broad, the former not reaching ventral margin of anterior ocellus; torulus inserted hardly above ventral level of eye. Combined length of pedicel and flagellum 1.20x as long as breadth of head. Flagellum with two anelli, the first narrower, the second as broad as pedicel; remaining flagellomeres barely to distinctly transverse, with F1 the smallest, 0.73x as long as broad, hardly wider than pedicel, and bearing only few MPS; F2—F6 of about same dimensions, 0.79-0.85x as long as broad (Fig. 7). POL 2.94x OOL, OOL 0.98x LOD. Mesosoma. Mesosoma 1.74x as long as broad. Pronotum 0.78x as broad as mes- oscutum. Pronotum and mesoscutum fairly faintly and irregularly reticulate, especially on posterior part of mesoscutum, and covered with thin, short, pale setae (Fig. 3). Pos- Systematics, biology and distribution of Microdontomerus iridis (Picard, 1930) comb. n... 7 terior part of midlobe of mesoscutum and entire mesoscutellum flattened dorsally (Fig. 8). Notaulus narrow, weakly impressed and obliterated by sculpture. Mesoscutellum 1.06x as long as broad, without frenal area. Mesoscutellum and axilla more sparsely covered with setae and less sculptured than posterior part of midlobe of mesoscutum, partly coriaceous. Propodeum delicately reticulate, with incomplete and barely vis- ible median carina (Fig. 4). Hind leg with coxa alutaceous, covered by setae dorsally and ventrally, 2.53x as long as broad; metafemur 3.59x as long as broad, without any tooth; metatibia 6.76x as long as broad; metatarsus long, 1.04x as long as metatibia (Fig. 9). Fore wing 2.35x as long as wide, slightly infumate along wing venation, with dense brown setae on disc; speculum reaching end of marginal vein; costal cell dorsally with one row of setae along anterior margin, with one row of setae ventrally on basal half and 3-4 rows at end of cell, basal and cubital cell bare; basal and cubital setal line complete; marginal vein 1.82x as long as postmarginal vein and 3.87x as long as stig- mal vein; venation pale brown (Fig. 1). Metasoma. Metasoma 1.24x as long as mesosoma (but somewhat collapsed). Peti- ole very short, strongly transverse. Gaster with very shallow alutaceous sculpture; Gt, incised medially, Gt,—Gt, distinctly emarginate medially, Gt,—Gt, slightly emarginate medially (Fig. 10); tip of hypopygium almost reaching apex of gaster (Fig. 1). OI 2.76. Variation. In a number of specimens the head, mesosoma, meso- and metacoxa and metasoma are metallic coppery green with purple reflections. Scape varies from brown in distal part to entirely brown. Tegula varies from pale yellow to pale brown in distal part or even entirely brown. In some darker specimens the procoxa is pale brown to brown in proximal part or entirely brown, sometimes with metallic cop- pery green reflections; pro- and mesofemur sometimes pale brown in the middle; metafemur entirely brown with metallic reflections and all tarsi except pretarsus brownish. The mesosoma of the French specimens is more slender than that of the females from Greece. Mesoscutellum and axilla slightly less sculptured than posteri- or part of midlobe of mesoscutum, almost alutaceous, sometimes only less reticulate. Basel cell of fore wing without setae, in some specimens with up to 10 setae in one row along anterior margin. Body length excluding ovipositor varies between 1.65 and 2.50 mm; length of ovipositor varies between 1.07 and 1.68 mm. Ranges and median of measurements and body ratios are given in App. 2 and 3 (for raw data, see Suppl. material 1). MALE. Length of body 1.90—2.40 mm. Mostly similar to females (Figs 11, 13, 14, 15, 16) except following: one specimen (Spain) metasoma with yellow subbasal ring extending from distal part of Gt, to proximal part of Gt, (Fig. 12). Temple long and less converging, 0.32—0.60x length of eye, hence head less transverse, 1.77—1.96x as broad as long. Head with vertex more vaulted. Eye smaller, 1.43—1.6x as high as long, separated by 1.16—1.20x their own height. Oral fossa wider, malar space 0.49-0.51x breadth of oral fossa. Funicular segments somewhat less transverse than in the female. F1 and F2 two third as long as broad, F6 and clava respectively 0.61x and 1.87x as long as broad (Fig. 17). Pro- and metafemur distinctly swollen (Figs 18, 19), 2.14-2.35x respectively 2.57—2.71x as long as broad, the latter distinctly serrate posteriorly. Pro- 8 Petr Jansta et al. / Journal of Hymenoptera Research 48: 1-18 (2016) Y A vy, CAP ERIISN Figures | l|-19. Microdontomerus iridis, male (scale bar 0.2 mm, unless indicated otherwise). | | Habitus, lateral (specimen from Turkey, scale bar 0.5 mm) 12 Habitus, lateral (specimen from Spain, scale bar 0.5 mm) 13 Head, frontal, arrow indicates depression in cuticle sculpture (specimen from Greece) 14 Head, frontolateral, arrow indicates depression in cuticle sculpture (specimen from Turkey) 15 Head, posterior (specimen from Turkey) 16 Mesosoma, dorsolateral (specimen from Turkey) | 7 Antenna, lateral (specimen from Turkey) 18 Fore leg, lateral (specimen from Greece) 19 Hind leg, lateral (specimen from Greece). podeum sloping at only about 30° relative to surface of mesoscutellum. Other meas- urements as follows: POL 2.30—2.60x OOL; OOL 1.00—1.30x LOD. The variation in relative length of flagellomeres is as follows: F1 0.40—0.82x, F2—F5 0.64—0.85x, F6 0.67—0.77x and clava 1.87—2.62x as long as broad. Mesosoma and mesoscutellum 1.80—2.00x respectively 1.07—1.21x as broad as long; pronotum 0.75—0.88x as long as mesoscutellum; metatibia 5.70—6.50x as long as broad; metatarsus 1.06—1.08x as long as metatibia; fore wing 2.16—2.3x as long as wide, marginal vein 1.48—2.07x and Systematics, biology and distribution of Microdontomerus iridis (Picard, 1930) comb.n... 9 Figures 20-25. 20 Microdontomerus iridis, lateral, male pupa on host egg (specimen from Spain) 21 iridis, lateral, male pupa removed from host egg (specimen from Spain) 22 M. iridis, female on host oo- theca (specimen from Spain) 23 M. iridis, male on host ootheca (specimen from Spain) 24 Rio Magasca, Spain, habitat of M. iridis 25 Iris oratoria (upper) and Ameles sp. (lower) oothecae from Spain, rio Magasca. 2.73-3.44x as long as postmarginal vein respectively stigmal vein; metasoma 0.80-— 1.20x as long as mesosoma but depending on degree of collapsing. Taxonomic remarks Taxonomic placement Microdontomerus iridis (Picard, 1930) was erroneously placed in Callimome, now con- sidered a synonym of Jorymus (see Grissell 1995), and classified in the tribe Torymini. 10 Petr Jansta et al. / Journal of Hymenoptera Research 48: 1-18 (2016) However, it lacks the defining synapomorphy of Torymini, i.e., the sinuous suture between mesepimeron and metapleuron, with the anterior margin of the metapleuron projecting forward. In the key to genera of Toryminae by Grissell (1995), M. iridis falls into couplet 49 (genera Idiomacromerus and Microdontomerus). However, Grissell (1995) found it difficult to distinguish some species of Idiomacromerus from Microdontomerus and vice versa. The only character used for recognition of these two genera was the number of anelli. Later, Grissell (2005) found more reliable characters and separated these two genera based on the presence or absence of the occipital carina. Microdontomerus iridis has no occipital carina (Figs 6, 15) which defines the genus Microdontomerus (Grissell 1995, 2005). The classification in Microdontomerus is also supported by the study of JanSta et al. (unpublished) that uses molecular data to infer the phylogeny of Torymi- dae. In this study, M. iridis is placed within a monophyletic clade together with other species of Microdontomerus. Recognition of the species Only five species of Microdontomerus are known from the Old World: four Palaearctic (M. albipes (Giraud, 1870), M. annulatus (Spinola, 1808), M. iridis (Picard, 1930), M. ovivorus (Steffan, 1967)), and one Afrotropical (MM. senegalensis (Risbec, 1951)) (Noyes 2015). This genus is much more diverse in the Nearctic (Grissell 2005), with 19 species described. Microdontomerus iridis differs from the Old World species by the presence of two anelli. However, the list in Noyes (2015) is mostly based, for the Old World species, on the catalogue by Grissell (1995) in which the division between Microdonto- merus and Idiomacromerus is demarcated by the number of anelli. Both the distinction and the accordant list are out of date. An examination of collections at hand showed that several species, which would be classified as Microdontomerus according to the presence or absence of an occipital carina (Grissell 2005), are currently included in Idiomacromerus. This is the case for Microdontomerus carayoni comb. n. (based on the examination of the holotype, in MNHN) and at least four undescribed species, all dis- tributed in the Mediterranean area or Central Asia. They all have extensive pale colour- ing — mostly yellow — at least on the metasoma, sometimes on the whole body, while M. iridis only has very reduced yellow spots on Gt, ., usually visible on specimens in alcohol; in dried specimens the metasoma collapses and tergites overlap each other, masking the yellow spots. Microdontomerus iridis indeed differs from the majority of species presently classified in [diomacromerus by the absence of the occipital carina. ‘The specific host is another key feature for the recognition of the species. No other non-podagrionine and non-palachiine Torymidae has been recorded from mantid ege-cases, except Microdontomerus senegalensis (Risbec, 1951) (reared from Tarachodes saussurei, maybe as hyperparasitoid of podagrionines), which differs from M. iridis by having only a single anellus and seven funicular segments according to the original description and illustration (Risbec 1951: fig. 154e, p. 319). Systematics, biology and distribution of Microdontomerus iridis (Picard, 1930) comb. n... 11 Assignment to Callimome iridis A neotype is designated because we were unable to locate or trace the type specimen or any material referred to by Bernard (1936) in the collection of the Paris museum (MNHN). Apparently, all material used for the description and other publications so far, is lost, and a neotype designation was necessary to fix the taxonomic status of the species. The assignment of the recently reared torymids that we examined in this study to C. iridis is based on the fact that C. iridis is the only known non-podagrionine Toryminae species from J. oratoria, the host from which all specimens examined by us were reared. In fact, surveys of parasitoids of Mantodea in the Palaearctic (unpub- lished) showed that the parasitoids of /. oratoria are host-specific and, except rarely for Podagrion spp., do not host-shift to other mantid species. Furthermore, the recently reared specimens completely agree with the original description of C. iridis, especially in the colour of the body and appendices, the sculpture of the mesosoma, and the rela- tive length of the exserted part of the ovipositor. Biology. All specimens were reared from oothecae of Iris oratoria (Mantodea). Dissection of additional oothecae with emergence holes (same locality data as the ex- amined M. iridis from Spain; oothecae deposited at ZMH) showed that M. iridis is an ege ectoparasitoid, feeding on one host egg per specimen (Figs 20, 21). Figs 22 and 23 show a female and a male specimen respectively on its host ootheca. Distribution. According to published records (Picard 1930), M. iridis is restricted to southern France. We significantly expand the known distribution by adding new records from Greece, Spain and Turkey. Based on all parasitoid records and the known host distribution (Battiston et al. 2010) we assume that M. iridis is distributed over the entire Mediterranean region. Figures 24 and 25 show the Spanish collection site of M. iridis and the host ootheca glued on stone. Discussion The most striking feature of M. iridis, for which we present all necessary taxonomic actions as well as new data on its life history, is the apparently very specific association with an unusual host, the egg cases of ris oratoria. Although Microdontomerus is not a species-rich group with little morphological variation between species, the host range within the genus Microdontomerus is very broad. Larvae of Microdontomerus species are known as parasitoids of various life stages of Lepidoptera (including eggs), larvae of solitary bees and larvae of Cynipidae (both Hymenoptera) and Tephritidae (Dip- tera), eggs of beetles (Buprestidae) and Mantodea eggs (two species). Some species are hyperparasitoids of Ichneumonidae, Braconidae (Hymenoptera) and Tachinidae (Dip- tera) larvae in caterpillars (Lepidoptera) and larvae of Buprestidae, Cerambycidae and Curculionidae (Coleoptera) (Grissell 2005). In fact, the genus is a striking example of the evolution of very different host associations in closely related species that can be found in many groups of Toryminae (see Noyes 2015). However, while we were able 1? Petr Jansta et al. / Journal of Hymenoptera Research 48: 1-18 (2016) to provide some data for M. iridis, in general, little biological information is available for most species of Microdontomerus. Verification of host records is required and many biological features still need to be understood before we will fully appreciate the evolu- tion of host associations in Microdontomerus and related groups. Acknowledgements We are indebted to Antoine Foucart (from Cirad, Montpellier, France), Ovidiu A. Pop- ovici and Lucian Fusu (both from Alexandru Ioan Cuza University, Iasi, Romania) for collecting egg-cases and providing us the material. We are also grateful to Claire Vil- lemant and Agniéle Touret-Alby (from MNHN, Paris, France) for facilitating access of the MNHN collections, and to Trevor Burt for linguistic help. We thank Hannes Baur, Stefan Schmidt and one anonymous reviewer for valuable comments on the manuscript. Examination of specimens using the Hitashi S-3700N scanning electron microscope was possible due to the Barrande I project, partially supported by the European Union. References Battiston R, Picciau L, Fontana P, Marshall J (2010) Mantids of the Euro-Mediterranean Area. WBA books, Verona, 232 pp. Baur H (2015) Pushing the limits — two new species of Pteromalus (Hymenoptera, Chalci- doidea, Pteromalidae) from Central Europe with remarkable morphology. ZooKeys 514: 43-72. doi: 10.3897/zookeys.514.9910 Bernard F (1936) Morphologie et comportement des Anastatus (Hym. 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Krogmann L, Vilhelmsen L (2006) Phylogenetic implications of the mesosomal skeleton in Chalcidoidea (Hymenoptera, Apocrita) — tree searches in a jungle of homoplasy. Inverte- brate Systematics 20: 615-674. doi: 10.1071/IS06012 Noyes JS (2015) Universal Chalcidoidea Database. http://www.nhm.ac.uk/research-curation/ research/projects/chalcidoids/ [accessed on 7 Jul 2015] Systematics, biology and distribution of Microdontomerus iridis (Picard, 1930) comb. n... 13 Picard F (1930) Sur deux Hyménopteres chalcidides nouveaux, parasites dans des oothéques de Mantides. Bulletin de la Société Entomologique de France 35: 87-90. Risbec J (1951) I. Les Chalcidoides d’A.O.F. Mémoire de L’Institut Frangais d'Afrique Noire 1321-406. Appendix | Abbreviation, name and definition of the 62 measurements used in this study (See Material and methods for further information). Abbreviation Character definition ant.l pera Combined length of pedicel plus flagellum, outer aspect (Graham 1969) aod.d AOD Anterior (=median) ocellus diameter Apical spur of an as2.1 pehebilenst Length of apical spur of mesotibia as3.l Apicalspor ol Length of the longest apical spur of metatibia : metatibia length 8 5 bod.l Body length Sum of lengths of head, mesosoma and metasoma el Costal cell of fore | Length of costal cell of fore wing, measured from end of humeral plate to the wing length point at which the submarginal vein touches the leading edge of the wing clv.b Clava breadth Greatest breadth of clava, outer aspect (Baur 2015) clv.] Clava length Greatest length of clava, outer aspect (Baur 2015) eye.h Greatest length of eye height, lateral view (Baur 2015) eye.l Eye length Length of eye, dorsal view (Graham 1969) 43.b First funicular Greatest breadth of first funicular segment (= third flagellar segment), outer ‘ ement breadth aspect (Baur 2015) First funicular Greatest length of first funicular segment (= third flagellar segment), outer 3.1 segment length aspect (Baur 2015) Second funicular Greatest breadth of second funicular segment (= third flagellar segment), f4.b segment breadth outer aspect (Baur 2015) Second funicular | Greatest length of second funicular segment (= third flagellar segment), outer 4.1 segment length aspect (Baur 2015) Sixth funicular | Greatest breadth of sixth funicular segment (= third flagellar segment), outer A8.b segment breadth aspect (Baur 2015) Sixth funicular Greatest length of sixth funicular segment (= third flagellar segment), outer 8.1 segment length aspect (Baur 2015) fm1.b Profemur breadth Greatest breadth of profemur, outer aspect fn Profernurlénget Length of profemur, from distal end of trochanter to tip of profemur, measured along midline, outer aspect fm2.b Mesofemur breadth Greatest breadth of mesofemur, outer aspect fn. Mecofemudtengeh Length of mesofemur, from distal end of trochanter to tip of mesofemur, measured along midline, outer aspect fm3.b Metafemur breadth Greatest breadth of metafemur, outer aspect (Baur 2015) fm3] Mieoteotnlenadk Length of metafemur, from distal end of trochanter to tip of metafemur, j gt measured along midline, outer aspect (Baur 2015) F frv.b Minimal distance between compound eyes at level level of median ocellus 14 Petr Jansta et al. / Journal of Hymenoptera Research 48: 1-18 (2016) Abbreviation | Character name Character definition fwib ee eee Greatest breadth of fore wing, measured at about right angle to marginal and ; ea postmarginal veins (Baur 2015) Greatest length of fore wing, measured from end of humeral plate to tip of wing (Baur 2015) hea.b Head breadth Greatest breadth of head, dorsal view (Baur 2015) Distance between anterior margin of clypeus and anterior edge of anterior ocellus, frontal view (Baur 2015) hea.l Head length Length of head, dorsal view (Graham 1969) Greatest breadth of fore wing, measured at about right angle to marginal and postmarginal veins fwi.l Fore wing length hea.h Head height hwi.b Hind wing breadth Greatest length of hind wing, measured from end of humeral plate to tip of wing hwi.l Hind wing length Hind wing venation length Combined length of submarginal and marginal vein of hind wing, measured as direct distance from end of humeral plate to the apical end of marginal vein hwv.l Distance between anterior margin of clypeus and lower margin of torulus lof-h Lower face height (Baur 2015) Length of marginal vein, distance between the point at which the mayv.| er ee submarginal vein touches the leading edge of the wing and the point at MP which stigmal vein and postmarginal vein unite (Graham 1969) ree Mesoscutum Greatest breadth of mesoscutum just in front of level of tegula, dorsal view i breadth (Baur 2015) Length of mesoscutum along median line from posterior edge of pronotum mnsccl Mesoscurimilengen to posterior edge of mesoscutum, dorsal view (Baur 2015) ae Malar Distance between the point where malar sulcus enters mouth margin and of pee malar sulcus enters lower edge of eye, lateral view (Graham 1969) brads M ty ofc ee Length of mesosoma along median line from anterior edge of pronotum = ein, wry collar to posterior edge of nucha, dorsal view (Baur 2015) a Metsamalenerh Length of metasoma, measured from anterior margin of petiole to the tip of the last gastral tergite, dorsal view of.b Oral fossa breadth Intermalar distance, ventral view (Graham 1969) Shortest distance between posterior ocellus and eye margin, dorsal view oat Cee (Graham 1969) to Length of ovipositor, measured as the part of the ovipositor sheaths that ovisl Suvipestonicnat extend beyond the tip of the last gastral tergite pdl.b Pedicel breadth Greatest breadth of pedicel, outer aspect (Baur 2015) pdl.l Pedicel length Length of pedicel, outer aspect (Baur 2015) ; ; Length of postmarginal vein (Graham 1969), distance between the point at Postmarginal vein : : i ; ‘ : : pmyv.l | which the stigmal vein and postmarginal vein unite, apically to where the ength f vein appears to end (Baur 2015) Distance between anterior edge of neck to posterior edge of collar, lateral pntl Pronotum length : view pod.d POD Posterior (=lateral) ocellus diameter pol.l POL Shortest distance between posterior ocelli, dorsal view (Graham 1969) scp.b Scape breadth Greatest breadth of scape, outer aspect (Baur 2015) scp. Scape length Length of scape exclusive of radicle, outer aspect (Graham 1969) sct.b iMcoeerealunn Greatest breadth of mesoscutellum (=scutellum), dorsal view breadth sei Mesoscutellum | Length of mesoscutellum (=scutellum) along median line from posterior edge length of mesoscutum to posterior edge of mesoscutellum, dorsal view (Baur 2015) Systematics, biology and distribution of Microdontomerus iridis (Picard, 1930) comb. n.... 15 Abbreviation Character definition Length of stigmal vein, distance between the point at which stigmal vein stv.l Stigmal vein length} and postmarginal vein unite apically, and the distal end of the stigma (Graham 1969) tal.l Protarsus length Length of protarsus, including pretarsus ta2.l Length of mesotarsus, including pretarsus ta3.l Length of metatarsus, including pretarsus (Baur 2015) tb1.1 Protibia length Length of protibia, measured along midline, outer aspect tb2.b Mesotibia breadth Apical breadth of mesotibia, outer aspect tb2.1 Mesotibia length Length of mesotibia, measured along midline, outer aspect tb3.b Metatibia breadth Apical breadth of metatibia, outer aspect (Baur 2015) tb3.1 Length of metatibia, measured along midline, outer aspect (Baur 2015) tmp.| Length of temple, dorsal view (Graham 1969) Teanlbeoecl Breadth of distance between outer margin of torulus and inner margin of tod.b Si ek eye, measured along an imaginary line connecting the ventral margins of the istance ; antennal toruli, frontal view Appendix 2 Overview of 62 measurements (in pm) of Microdontomerus iridis showing minimum, maximum and me- dian values for each character (See Appendix 1 for character name and definition). Female Male Measurement Min Max Median Min Max Median hea.b 600 hea.] 330 hea.h 554 frv.b 338 eye.l 233 tmp.| 105 pol. 178 ool.] 70 pod.d 60 aod.d 82 eye.h 300 msp.| 150 of.b 297 tod.b 952 lof-h 158 scp.| 210 scp.b 60 pdl.l 80 pdl.b 50 ant.l 677 3.1 45 f13.b 60 A4.] 55 16 Petr Jansta et al. / Journal of Hymenoptera Research 48: 1-18 (2016) Measurement Min Max Median Min Max f4.b A8.] A8.b clv.l clv.b mss.1 msc.b pnt.l msc.l sct.l sct.b fm 1.1 fm1.b tb1.1 tal.l fm2.1 fm2.b tb2.] tb2.b as2.1 ta2.1 : : fm3.1 384 570 505 460 572 fm3.b tb3.1 tb3.b as3.1 ta3.l fwi.l fwi.b coll mav.l stv.l pmv.l hwi.l hwi.b hwv.l 521 736 699 795 795 mts. ovi.l bod.| Systematics, biology and distribution of Microdontomerus iridis (Picard, 1930) comb. n.... 17 Appendix 3 Overview of ratios of various measurements of Microdontomerus iridis showing minimum, maximum and median values (See Appendix 1 for character name and definition). Female Male Ratio of measurements Min Max Median Min Median hea.b / hea.l 1.87 2.04 1.96 1.73 1.79 hea.b / hea.h 1.09 1.18 1.13 1.03 1.09 frv.b / eye.h 0.96 1.1 1.01 1.13 119 pol.l / ool. 25 Sel 2.74 aha y. 2.43 ool.l / pod.d 0.91 1.3 1.1 1 1.2 msp.|/ eye.h 0.38 0.49 0.44 0.48 0.5 msp.| / of.b 0.52 0.76 0.57 0.47 0.5 ant.| / hea.h 0.93 1.2 1.14 lal || scp.l / scp.b 3 4.15 325 3 3.5 pdl.l/ pdl.b a3 1.6 1.45 1.38 1.55 13.1 / 3.b 0.63 0.92 0.75 0.4 0.69 4.1 / f14.b 0.63 0.87 0.7 0.64 0.77 18.1 / A8.b 0.56 0.87 0.7 0.61 0.69 clv.l / clv.b 1.67 2.6 2.12 1.87 prea mss.| / msc.b 1.41 1.86 1.69 1.34 1.89 msc.l / msc.b 0.62 0.74 0.67 0.59 0.75 pnt. / sct.l 0.6 0.79 0.69 0.75 0.81 sct.l / sct.b 0.98 1.14 1.03 1.01 1.1 fm1.1/ fm1.b 3.1 3.5 3.29 2.14 22) tal.1/ tb1.1 1.01 1.08 1.05 0.9 0.9 ta2.1/ tb2.] 0.97 1.29 ibs ? ? fm3.1 / fm3.b S27 4 55 257 2.62 ta3.1/ tb3.1 1.02 1.11 1.05 0.98 1.08 fwi.l / fwi.b 2.05 2.5 2.29 2.16 222 ccl.l/ fwi.l 0.35 0.37 0.37 0.39 0.39 mav.l / stv.1 2.55 3.87 3.1 27S 3.1 may.| / pmv.| 1.4 2 Ly 1.48 1.88 hwi.l / hwi.b 3:78 4.14 4,02 4.41 4,4] mts.| / mss.] 1.16 1.53 1.24 0.8 1.05 ovi.l / tb3.1 2.44 2.86 2.63 2 ° ovi.l / bod.1 0.65 0.79 0.72 ? ? 18 Petr Jansta et al. / Journal of Hymenoptera Research 48: 1-18 (2016) Supplementary material | Measurements of female and male characters of Microdontomerus iridis used in this study Authors: Petr Jansta, Gerard Delvare, Lars Krogmann, Kai Schiitte, Ralph S. Peters Data type: measurement Explanation note: Measurements (in m) of female and male characters of Microdonto- merus iridis used in this study (See Material and methods for collection acronyms; see Appendix | for character name and definition). Copyright notice: This dataset is made available under the Open Database License (http://opendatacommons.org/licenses/odbl/1.0/). The Open Database License (ODbL) is a license agreement intended to allow users to freely share, modify, and use this Dataset while maintaining this same freedom for others, provided that the original source and author(s) are credited.