Colpixys, Waterston, 1916

Colpixys View in CoL , Xiphentedon and morphologically similar genera

The genera Colpixys and Xiphentedon are similar and likely related to Entedon , but differ mainly in the morphology of the mesosoma, in particular in the median area of the propodeum. In both genera the median carina, which is the key diagnostic character for Entedon , is replaced by a median strip or furrow varying in shape and sculpture. Also, there are other features of head and mesosoma which either suggest relationships between or being critical for differentiation of the mentioned above genera. A review of some key characters is provided below, ranging from the propodeum to the head.

Propodeum ( Fig. 1 View Fig )

The main characters distinguishing Entedon , Xiphentedon and Colpixys from each other concern the structure of the propodeum. The possession of the complete median propodeal carina ( Fig. 1A–C View Fig , mc) has been considered as diagnostic for Entedon (Erd̂s 1944; Graham 1963, 1971; Bouček 1988).

The median carina is a keel-shaped structure stretching from the anterior to the posterior edge of the propodeum ( Fig. 1A–C View Fig , mc). It may slightly bifurcate anteriorly ( Fig. 1C View Fig , mc) or disappear posteriorly in a raised coarse reticulation ( Fig. 1B View Fig ) in Entedon . In most Afrotropical, Indo-Malay, Australian and some Holarctic species, the carina is surrounded by groove-like channels on the sides ( Fig. 1C View Fig , lc). This carina is absent in the described species of Xiphentedon ( Fig. 1D View Fig ) and Colpixys ( Fig. 1F View Fig ) and, correspondingly, in all the new species described below.

The median propodeal area of Colpixys and Xiphentedon may appear in one of three different configurations: (1) smooth flat strip delimited by nearly straight carinae ( Fig. 1D View Fig , mstr); (2) shallow coriaceous strip delimited by fine carinae ( Figs 18C–D View Fig , 19D, G View Fig ); (3) sunken coriaceous furrow sharply delimited by raised borders ( Fig. 1F View Fig , mf).

The coriaceous furrow sharply delimited by raised borders is diagnostic for both hitherto described species of Colpixys ( C. necator , Fig. 9A and C View Fig . gigas Bouček, 1972, Fig. 1F View Fig , mf), as well as for the below-described C. eburnus sp. nov. ( Fig. 9B View Fig ). The type species of Xiphentedon , X. kayovei , and most of the other (new) species gathered below into the kayovei -group, possess a smooth or light coriaceous median strip (of either broad V or Y shape) delimited by fine carinae on the median propodeum ( Figs 1D View Fig , 13C View Fig , 14E View Fig ). The coriaceous, distinctly margined strip (often Y-shaped) is found in some species described below under the proposed danielssoni and forceps groups of Xiphentedon ( Figs 21C View Fig , 25D View Fig , 26E View Fig , 27D View Fig , 28A View Fig and others).

The median propodeal strip of Xiphentedon may or may be not homologous to the median propodeal furrow of Colpixys . On the one hand, this groove-like strip may appear homologous to the lateral channels occasionally flanking the median propodeal carina in Entedon ( Fig. 1C View Fig , lc), i.e., being resultant from the secondary loss of the carina. On the other hand, the median strip may appear homologous to the median propodeal carina of Entedon ( Fig. 1C View Fig , mc), being a derivation of a longitudinal split of its apical bifurcation. Both these hypotheses require independent verification.

The median furrow (or groove) is relatively rare in entedonines. It is present in a state similar to that of Colpixys in the genus Afrotroppopsis Gumovsky, 2007 ( Gumovsky 2007: fig. 1c). It is also present in modified states in some species of Pediobius Walker, 1846 , e.g., Р. ropalidiae (Risbec, 1958) ( Fig. 1E View Fig ), where the submedian carinae are nearly subparallel ( Fig. 1E View Fig , smc), but weakly diverging posteriorly as in the majority of its congeners.

Another essential character, which has not been discussed for Entedon and allied genera, is the lateral propodeal sulcus ( Fig. 1C–D View Fig ). If the sulcus is complete, it surrounds the spiracular elevation and continues posteromedially to the supracoxal flange to the nucha, such that it delimits the submedian propodeal area laterally. The posterior part of the sulcus, referred to as the “channel between median panels and supracoxal flange” by Burks (2003), is often crossed by distinct costulae. The lateral propodeal sulcus is complete in many (chiefly tropical) species of Entedon ( Fig. 1C View Fig , ls), in Xiphentedon kayovei and most new species attributed below to this genus ( Fig. 1D View Fig , ls), and in some other genera (e.g., Proacrias Ihering, 1914 ). In most Holarctic species of Entedon and in Colpixys the sulcus is interrupted in its median part ( Fig. 1A–B, F View Fig ).

Thorax ( Figs 2–4 View Fig View Fig View Fig )

The pronotal shoulders, or “the postero-lateral expansions of the pronotum, which form a bump or protuberance” ( Schauff 1988), or “lateral bullae” ( Schauff 1991) have often been considered diagnostic for Entedon (Erd ̂s 1944; Graham 1963, 1971; Bouček 1988), and for Entedon and Colpixys ( Schauff 1988) . This ‘shoulder’ represents a callus on the lateral panel of the pronotum ( Fig. 2E–F View Fig , psh) in the above-mentioned genera. In most other entedonines the pronotum is smoothly curved, not forming any lateral swellings or protrusions. Similar, but not identical dorsal expansions of the pronotum are present in some other representatives of Entedoninae , for instance, in species of Apleurotropis Girault, 1913 ( Fig. 3A View Fig , dsh), Pleurotroppopsis Girault, 1913 ( Fig. 3C View Fig ), Parahorismenus Girault, 1915 , Paracrias Ashmead, 1904 , Derostenus Westwood, 1833 , and also in some Pediobius and others. The lateral protrusion (‘shoulders’) of the pronotum represent an expansion of the sharply delimited pronotal collar in these genera.

The pronotal shoulder of Entedon and allied groups is bordered by a semicircular ridge (or plica) below ( Gumovsky 2002, 2011; Burks et al. 2011; Fig. 2 View Fig , lpl), whereas the upper sector of the lateral panel of the pronotum bears no plica in most other entedonine genera. The pronotal ridge is situated in the upper sector of the lateral panel of the pronotum ( Fig. 3E–F View Fig , lpl). The shape of the ridge also varies: it is semicircular in Entedon , Colpixys and Xiphentedon ( Fig. 2 View Fig , lpl), but nearly straight in the shape of a carina in Apleurotropis , Pleurotroppopsis , Chrysocharis Foerster, 1856 , Achrysocharoides Girault, 1913 ( Fig. 3 View Fig , pcr) and some other genera.

One of the peculiarities of the lateral pronotal ridge of Entedon , Colpixys and Xiphentedon is its proximity to a sparse group of orifices near its anterior margin ( Fig. 2 View Fig , or). Similar orifices are present as a dense group in species of Pleurotroppopsis and Apleurotropis , which possess a transverse carina that is topologically similar to the lateral pronotal ridge mentioned above ( Fig. 3 View Fig ). The nature and function of these orifices is unknown; they may be structures used in a sensory or secretory capacity.

The prosternum is the sclerite that is connected posteriorly to the propleuron and bears the prodiscrimen and the profurca ( Yoder et al. 2010). This sclerite is exposed in Entedoninae and is visible as a diamondshaped structure due to divergent propleurae, unlike in the subfamily Eulophinae ( Gauthier et al. 2000) . In most entedonines the prosternum is flat or, if convex, evenly curved. This condition is found in Colpixys , with the exception of C. eburnus sp. nov., whereas in Xiphentedon the prosternum bears a flange (occasionally with pubescence on the ventral surface) ( Figs 22A View Fig , 27E–F View Fig , 36C–D View Fig , 38B–C View Fig ). Similar prosternum shapes occur in some species of the putatively related genus Entedon .

The axillula has been considered to be an indistinctly defined and externally small area posterior to the axilla in the Chalcidoidea ( Krogmann & Vilhelmsen 2006). No discernible structures, apart from small carinae or ridges, are generally reported for this area. However, occasionally the axilla bears a projection in some of the groups discussed below. This projection occurs in genera which are not closely related, i.e., Entedon (the tribe Entedonini of Entedoninae ), Entedononecremnus Girault, 1915 (the tribe Euderomphalini of Entedoninae ) and Trisecodes Delvare & LaSalle, 2000 (formerly unplaced within Eulophidae Westwood 1829 , now in Systasidae Bouček, 1988 ; Burks et al. 2022). The shape of the projection is diverse and provisionally diagnostic at the species level for many Afrotropical, Oriental, Australasian and occasionally European species of Entedon , but also in Xiphentedon , as illustrated below. This projection bears two to five tooth-like indentations in these entedonines (for example, Figs 12F View Fig , 16C View Fig , 18D View Fig , 19G View Fig , 20F View Fig , 24G View Fig , 28B, D View Fig , 30D View Fig , 36F View Fig ).

Another character is the shape and form of the transepimeral line. The transepimeral line separates the lower and upper parts of the mesepimeron ( Gibson et al. 1997; Fig. 4 View Fig , tps). The transepimeral line is sulcate in most Eulophidae , and particularly in the majority of Entedoninae ( Fig. 4E–F View Fig , tps). However, in Entedon , Xiphentedon and Colpixys this sulcus is absent, and the delimitation of the lower mesepimeron is traceable only by the change in sculpture ( Fig. 4A–D View Fig , lep 2).

A further character is the size (surface area and length) of the metascutellum. Most Entedonini of Entedoninae possess a comparatively long metascutellum, distinctly visible in dorsal view. The metascutellum is semicircular in shape in most species of Entedon ( Fig. 1A–C View Fig , msc) and Colpixys ( Fig. 1F View Fig , msc). However, in the specimens examined of the subgenus Cederholmia of Entedon , in X. kayovei , and also in some new species described below, the metascutellum is reduced to a narrow bar which is barely discernible in dorsal view (for example, Fig. 1D View Fig ).

Head ( Figs 5–7 View Fig View Fig View Fig )

The V-shaped or transverse frontal sutures (frontal sulcus: Graham 1959, 1971; frontal grooves/sutures: Schauff 1988, 1991; the transverse facial sulcus: Burks et al. 2011; Fig. 5 View Fig ) is found in most of the Entedonini , and is likely one of the morphological synapomorphies for Entedoninae (e.g., Schauff 1991). Although the sutures are reduced in many species of Entedon (a secondary loss: Schauff 1988; Fig. 6C–D View Fig ), they are distinctly traceable in some species of this genus ( Fig. 6A–B View Fig ) and in all species classified below as either Colpixys or Xiphentedon ( Fig. 6E–F View Fig ).

The non-sulcate scrobal grooves are conserved across genera and shared by Chrysocharis ( Fig. 5D View Fig ), Achrysocharoides ( Fig. 5E–F View Fig ), Entedon ( Fig. 6A–D View Fig ), and Derostenus ( Schauff 1988) . Entedon and Achrysocharoides have been shown to be closely related ( Gumovsky 2002; Burks et al. 2011). The genera Colpixys and Xiphentedon also possess these non-sulcate scrobal grooves ( Fig. 6E–F View Fig ), which may indicate their affinity to Entedon and Achrysocharoides . The anellus is defined as a small, narrow (or disc-like) flagellomere situated between the pedicel and the first funicular segment, or as the flagellomere that is located proximally on the flagellum and lacks longitudinal sensilla ( Yoder et al. 2010). Schauff (1991) analyzed the number and conditions of anelli, which occur in Entedoninae and are proposed to distinguish the terminal anellus from the first funicular segment based on the absence (anellus) or presence (funicular segment) of the multiporous plate sensilla, apart from separation by size. Also, the possession of three anelli was considered a plesiomorphy for Entedoninae by Schauff (1991). The groups with three anelli ( Tropicharis Hansson, 1998 ) and with only one anellus ( Closterocerus Westwood, 1833 , Chrysonotomyia Ashmead, 1904 , Omphale Haliday, 1833 and Parzaommomyia Girault, 1915 ) were demonstrated to be a grade at the base of Entedonini by Burks et al. (2011).

Graham (1971) did not specify the number of anelli for Entedon , but mentioned one anellus only. Schauff (1988) mentioned that there are three anelli, with the first being largest in Entedon . However, Bouček (1988) also mentioned that Entedon has only one anellus. Waterston (1916) mentioned the “triple ring joint” (namely, three anelli) for Colpixys . Risbec (1957) did not mention the number and shape of anelli for Xiphentedon .

Species of Entedon ( Fig. 7A–B View Fig ), Colpixys ( Fig. 7C–D View Fig ) and Xiphentedon ( Fig. 7H View Fig ) indeed have three anelli: the notably and evenly enlarged first anellus, and two following anelli which taper dorsally, and thus the anelli appear subtriangular in shape ( Fig. 7A–D, H View Fig ). The third anellus is asymmetrical and its shape appears different when viewed from different angles ( Fig. 7A–D View Fig ). The third anellus is comparatively wide and bears trichoid sensilla when observed from the exterior view ( Fig. 7A, D, H, a View Fig 3 View Fig ) in most species of Entedon , Colpixys and Xiphentedon . Occasionally, the third anellus is wider in this part than the entire first anellus (e.g., in Colpixys gigas , Fig. 7D, a View Fig 3 View Fig ). However, it is rather thin and hardly different from the preceding second anellus when seen from the interior (medial) view ( Fig. 7C, a View Fig 3 View Fig ). The difference in size between internal and external aspects and also in the sensillar armoration of the enlarged anellus occurs in other genera too ( Schauff 1991). For example, the structure of anelli described above is also inherent to Pleurotroppopsis podagrica (Waterson, 1925) ( Fig. 7G View Fig ). In addition, the enlarged (terminal of the two) anellus in Mestocharis maculata (Foerster, 1841) bears numerous trichoid and even one asymmetrical basiconic peg sensillum (= sensillum ampulaceum: Fig. 7E–F View Fig ).

This review of some key morphological characters of the discussed taxa indicates that a combined molecular and morphological phylogenetic assessment of relationships of Colpixys and Xiphentedon is necessary. Either of these groups may appear to be derived within Entedon , and that may require reconsideration of their taxonomic ranks in future. This report, however, addresses the species diversity of Colpixys or Xiphentedon in their revised concepts, with comprehensive morphological descriptions.

Key to the species of Xiphentedon Risbec, 1957 View in CoL and Colpixys Waterston, 1916 View in CoL

1. Pronotum with protruding lateral shoulders ( Fig. 2 View Fig , psh); each shoulder is in the form of a convex callus in the upper sector of the lateral panel of the pronotum, and delimited by a semicircular plica beneath ( Fig. 2 View Fig , lpl); transepimeral sulcus is effaced ( Fig. 4A–D View Fig ) ................................................... 2

– Pronotum without bulging lateral shoulders surrounded by a distinct semicircular plica below; if similar structures are present, then in different combinations: either shoulders are present, not as bulges or bumps, but as expansions of the delimited pronotal collar ( Fig. 3A View Fig , dsh), or the plica (semicircular or straight) is not delimiting a bulging shoulder from below; transepimeral sulcus present as a distinct groove ( Fig. 4E–F View Fig ) ................................................. other genera of Entedoninae

2. Propodeum with a single median carina ( Fig. 1A–C View Fig , mc), nearly reaching the metascutellum, which is visible in dorsal view as a wide semi-circular plate ( Fig. 1A–C View Fig , msc); frontal sutures are angulate ( Fig. 6A–B View Fig , fs) or absent ( Fig. 6C–D View Fig ) ........................................................... Entedon Dalman, 1820 View in CoL

– Propodeum with median strip ( Fig. 1D View Fig ), or a deep furrow delimited by two submedian carinae or by pliciform borders ( Fig. 1F View Fig ) medially; metascutellum visible ( Fig. 1F View Fig ) or hardly discernible ( Fig. 1D View Fig ) in dorsal view; face with V-shaped frontal sutures ( Fig. 6F View Fig , fs) .......................................................3 ( Xiphentedon Risbec, 1957 View in CoL and Colpixys Waterston, 1916 View in CoL )

3. Metascutellum long, easily discernible in dorsal view ( Fig. 1F View Fig , msc), if somewhat smaller, then semi-circular in shape (but not in the shape of a narrow bar: C. eburnus sp. nov., Figs 9B View Fig , 11F View Fig ), and anterior margin of mesoscutellum without a paired anteromedian protrusion; propodeum ( Figs 1F View Fig , 9A–B View Fig ): with median furrow represented by a deep sunken area, delimited by sinuous margins ( Fig. 1F View Fig , mf), lateral propodeal sulcus incomplete, supracoxal flange with two to five setae posteriad of spiracular projection; axillula without a projection, at most with carinulae or plicae ( Fig. 9C–D, F View Fig ); gena evenly curved ( Fig. 11D View Fig ); metasomal petiole conical with margined, notably raised ‘roof’ dorsally in both sexes ( Figs 8C View Fig , 10C View Fig , 11F View Fig ); prosternum either evenly curved or with an arc traced by a carina, not a flange ............................................................................ 4 ( Colpixys Waterston, 1916 View in CoL )

– Metascutellum different: hardly visible in dorsal view, present as a narrow, bar-shaped strip ( Fig. 1D View Fig , msc); propodeum with median smooth or coriaceous strip in the shape of a Y ( Fig. 18C View Fig ) or broad V ( Fig. 1D View Fig ), distinctly delimited by fine carinae which diverge anteriorly; lateral propodeal sulcus complete ( Fig. 1D View Fig , ls): if not ( X. acutigena sp. nov., Fig. 38D View Fig ), then anterior margin of mesoscutellum with a paired anteromedian protrusion ( Fig. 37B, D View Fig ); supracoxal flange asetose; axillula with indentate projection ( Figs 12F View Fig , 16C View Fig , 18D View Fig , 19G View Fig , 20F View Fig , 24G View Fig , 28B, D View Fig , 30D View Fig , 36F View Fig ); shape of gena and metasomal petiole varies; prosternum planar: with a flange (often with pubescence on ventral surface) on its arc ( Figs 22A View Fig , 27E–F View Fig , 36C–D View Fig ) .......................6 ( Xiphentedon Risbec, 1957 View in CoL )

4. F1 of female about 6.0× as long as wide, F2 about 5.0× as long as wide; gaster of female 6.0–7.0× as long as wide, 2.2–2.3× combined length of head plus mesosoma, syntergum long, 6.0–7.0× as long as wide, parallel-sided ( Fig. 10A View Fig ); funicle of male five-segmented ....... C. gigas Bouček, 1972 View in CoL

– F1 of female 3.0–4.0× as long as wide, F2 2.0–3.0 × as long as wide; gaster of female at most 3.0× as long as wide, slightly longer than head plus mesosoma, syntergum sub-triangular, wider than long; male (when known) with three-segmented funicle and two-segmented clava......................... 5

5. Metascutellum long (about one-third the length of propodeum), with lateral margins outlined ( Figs 8C View Fig , 9A View Fig ); metasoma of female slightly longer than head plus mesosoma, about 2.0–3.0 × as long as wide ( Fig. 8A–B View Fig ); dorsal ‘roof’ of metasomal petiole about 0.4× as long as propodeum ( Figs 8 View Fig С, 9A); prosternum evenly curved; tip of scape slightly darker than the remaining part of it; subcosta of submarginal vein with two to three dorsal setae; fore wing mostly transparent; male funiculars less than 3.0× as long as wide ............................................... C. necator Waterston, 1916 View in CoL

– Metascutellum short (about one quarter the length of propodeum), with lateral margins evenly curved ( Figs 9B View Fig , 11F View Fig ); metasoma shorter than head plus mesosoma ( Fig. 11C, E View Fig ), as long as wide or slightly wider than long; dorsal ‘roof’ of petiole about 0.3 × as long as propodeum ( Fig. 11F View Fig ); prosternum with a transverse carina or ridge on its arc; base of scape slightly darker than the remaining apical part ( Fig. 11C–D View Fig ); subcosta of submarginal vein with two dorsal setae; fore wing slightly infumate medially ( Fig. 11A–C View Fig ) ......................................................................................... C. eburnus sp. nov.

6. Anterior margin of mesoscutellum with a paired anteromedian protrusion ( Figs 34B View Fig , 35D View Fig , 36E View Fig , 37B, D View Fig ); median area of propodeum with coriaceous or lightly reticulate strip, borders of which diverge anteriorly (mostly broadly Y-shaped) and delimited by fine carinae or pliciform borders ( Figs 33D View Fig , 34B View Fig , 35D View Fig , 36E View Fig , 37B, D View Fig ); metasomal petiole short conical in female, long conical in male (when known)…7 ( forceps group of Xiphentedon View in CoL )

– Anterior margin of mesoscutellum almost straight or evenly curved ( Figs 16D View Fig , 25D View Fig , 32C View Fig ), at most with weak indentation ( Figs 19D View Fig , 30E View Fig ) ............................................................................................ 9

7. Gena with a short acute spike ( Figs 37E–F View Fig , 38A–B View Fig ); scape pale, slightly darkened apically; fore tibia with two pale stripes, other tibiae pale ( Fig. 37C View Fig ); median strip of propodeum lightly reticulate, its delimitation fading posteriorly among coarse reticulation; lateral propodeal sulcus incomplete, interrupted medially ( Figs 37B, D View Fig , 38D View Fig ); axillular projection lamellate and multidentate ( Fig. 38E View Fig View Fig View Fig View Fig View Fig View Fig ); male antenna with a deep constriction between two terminal flagellomeres (clavomeres) ..................................................................................................... X. acutigena sp. nov.

– Gena smooth, without a spike; scape dark, mid and hind tibiae darkened not more than basally; median strip of propodeum coriaceous, stretching back to nucha; lateral propodeal sulcus complete ......... 8

8. Mid and hind tibiae darkened with just a narrow basal band ( Fig. 33A View Fig ), fore tibia with two traceable longitudinal pale stripes; median strip of propodeum nearly 2.0 × as wide anteriorly as posteriorly (narrowly Y-shaped) ( Figs 33D View Fig , 34B View Fig ) ................................................................... X. forceps sp. nov.

– Legs almost entirely dark ( Fig. 35A View Fig ); median strip of propodeum less than 1.5 × as wide anteriorly as posteriorly ( Figs 35D View Fig , 36E View Fig ) .............................................................................. X. gerardi sp. nov.

9. Larger species, usually more than 2.0 mm in length, head more than 2.0× as wide as long, gaster at least slightly longer than broad, median strip of propodeum of broad V ( Figs 12E View Fig , 13C View Fig , 14E View Fig , 16D View Fig , 19D View Fig ) or broad Y ( Figs 18C View Fig , 20E View Fig ) shape…10 ( kayovei View in CoL group of Xiphentedon View in CoL )

– Smaller species, usually less than 2.0 mm in length, head less than 2.0 × as wide as long, gaster mostly subcircular, median propodeal strip Y-shaped ( Figs 21C View Fig , 24H View Fig , 25D View Fig , 26E View Fig , 27D View Fig , 29F View Fig ) ......................................................................................15 ( danielssoni View in CoL group of Xiphentedon View in CoL )

10. Propodeal strip subtrapeziform with nearly straight carinae diverging anteriorly (broad V-shaped, Fig. 1D View Fig ), posterior areas of propodeum mostly smooth; gaster elongate, funicular segments with short peduncles ................................................................................................................................11

– Propodeal strip Y-shaped, sculptured ( Fig. 18C View Fig ), posterior areas of propodeum light reticulate; gaster slightly longer than broad, funicular segments with dictinct peduncles ......................................... 14

11. Propodeal median strip coriaceous, submedian areas light reticulate posteriorly ( Fig. 19D View Fig ); gaster about 2.3× as long as wide ( Fig. 19A View Fig ), syntergum about 1.3–1.4 × as long as wide; anterior margin of mesoscutellum with very short median paired indentations ( Fig. 19D View Fig ); costal cell with three setae on ventral surface ................................................................................................... X. simoni sp. nov.

– Propodeal strip and submedian areas smooth ................................................................................. 12

12. Syntergum of female gaster somewhat wider than long ( Fig. 17A, C, E View Fig ); costal cell of fore wing asetose .................................................................................... X. halli ( Gumovsky, 1997) comb. nov.

– Syntergum of female gaster at least 3.0 × as long as broad; costal cell of fore wing with a row of short hairs ................................................................................................................................................. 13

13. Syntergum of female about 3.0 × as long as wide ( Fig. 16D View Fig ); mid and hind tibiae darkened similarly: both not more than on their basal one-quarter to one-third ( Fig. 15A–B View Fig ); metasomal petiole of male with anterior collar, slightly longer than broad; costal cell of fore wing with three setae on ventral surfaсe .............................................................................................................. X. neserorum sp. nov.

– Syntergum of female at least 5.0× as long as wide ( Fig. 14C View Fig ); mid and hind tibiae differ in degree of dark coloration: hind tibia darkened not more than on its basal half, but mid tibia darkened on about basal ¾–+/5 ( Figs 12A View Fig , 14A, C View Fig ); metasomal petiole of male nearly 2.8 × as long as wide, without anterior collar; costal cell of fore wing at most with one to two setae on ventral side ............................................................................................................... X. kayovei Risbec, 1957 View in CoL

14. Antennal scape entirely dark, metallic; median propodeal strip abruptly narrowing posteriorly (Y-shaped: Fig. 18C View Fig ), metasomal petiole long and robust, nearly 4.0× as long as wide (appears shorter if observed in dorsal view); gena nearly evenly curved ( Fig. 18E View Fig ); axillular projection with four to five denticles ( Fig. 18D View Fig ) ........................................................................ X. musimba sp. nov.

– Antennal scape pale basally; median propodeal strip gradually narrowing posteriorly (intermediate between broad Y- and V-shaped), metasomal petiole short conical ( Fig. 20E View Fig ); gena bulging; axillular projection with six denticles ( Fig. 20F View Fig ) ................................................................ X. dewittei sp. nov.

15. Antennal scape entirely dark, metallic ............................................................................................ 16

– Antennal scape at least partially pale .............................................................................................. 19

16. Metasomal petiole short, wider than long ( Fig. 30E View Fig ); gaster slightly longer than broad, ovate ( Fig. 30C View Fig ); mid and hind tibiae pale on posterior half ( Fig. 30A, C View Fig ); scape slender, but narrowing apicad, flagellum with short robust segments ( Fig. 30F–G View Fig )................................ X. palabora sp. nov.

– Metasomal petiole robust, as long as or longer than broad ( Fig. 27D View Fig ) .......................................... 17

17. Interantennal space without a process ( Fig. 27F View Fig ) ........................................................................... 18

– Interantennal space with a narrow and sharp process ( Fig. 22A, F View Fig ) ............................................... 20

18. Hind and mid tibiae predominantly darkened, just their extreme tips pale ( Fig. 29A View Fig ); spur of hind tibia 1.2× as long as width of tibia; axillular projection with at least four teeth ( Fig. 29E, H View Fig ) ......... ............................................................................................................................ X. kivuensis sp. nov.

– Hind and mid tibiae dark on about their proximal halves, the rest pale ( Figs 30A, C View Fig , 31B View Fig ); spur of hind tibia not longer than width of tibia; axillular projection bidentate ............ X. wieringai sp. nov.

19. Scape dark with pale base ( Fig. 32E View Fig ) ...................................................................... X. nimba sp. nov.

– Scape entirely pale ( Fig. 31D View Fig ) .............................................................................. X. sangha sp. nov.

20. Head dorsally about 2.0 × as wide as long; dorsal interorbital distance about 1.5× median vertexal distance ( Fig. 22F View Fig ) ...................................................... X. danielssoni ( Gumovsky, 1997) comb. nov.

– Head dorsally about 2.5× as wide as long; dorsal interorbital distance nearly 2.0× median vertexal distance ( Fig. 24D View Fig ) ............................................................................................ X. jeanyvesi sp. nov.