A new genus of Mantispidae (Insecta: Neuroptera) from the Eocene of Germany, with a review of the fossil record and palaeobiogeography of the family Wedmann, Sonja Makarkin, Vladimir N. Zoological Journal of the Linnean Society 2007 2007-04-30 149 4 701 716 Navas 1909 [362,538,798,822] Insecta Mantispidae Animalia Neuroptera 2 703 Arthropoda subFamily Symphrasinae   Diagnosis:[based mainly on Lambkin, 1986a; modified here; different diagnostic character states are designated by numerals, e.g. (10)]. Fore tarsus 4- segmented (1), with terminal segment enlarged, apically pointed (2); adjacent segment arising near its middle (3) in both male and female. Female with externally evident ovipositor (4). Trichosors (i.e. small setigerous thickenings of wing margin between tips of veins, veinlets) often well developed, around almost entire wing margin, except basally (5). Pterostigma situated between R1 and the costal margin (6). Sc entering wing margin within pterostigma, often poorly discernible (7). In forewing two subcostal crossveins, intermediate (2sc-r), distal (3sc-r); basal crossvein (1sc-r) lacking (8); crossvein 3sc-r single, long (9); only two r1-rs crossveins (10); CuP touching 1A proximally (11); M fused basally with R for considerable distance (12); crossvein a2-a3 absent (13). Hindwing with only one r1-rs crossvein (14); CuP present (15); basal crossvein r-m sinuate (16).  Included genera: Symphrasites gen. nov.from the Middle Eocene of Germany;  Plega Navás, 1928,  Trichoscelia Westwood, 1852; and  Anchieta Navás, 1909; the latter three extant and distributed from South America to southern North America ( Fig. 1).  Remarks:The species of the subfamily Symphrasinaeare easily distinguished from others of the family, in particular by a short Sc that always terminates within the pterostigma, so that the pterostigma is located between R1 and the costal margin. In other mantispids (except  Mesomantispa) the Sc approaches R1 and terminates distal to the pterostigma (the latter is always located anterior to Sc). The majority of extant symphrasine species have been examined, with no exceptions found (K. M. Hoffman, pers. comm. 2004; V. N.Makarkin, pers. observ.). Some published drawings incorrectly imply that Sc is bent to R1 and then fused with R 1 inthe subfamily (e.g. Tjeder, 1959: fig. 244; Willmann, 1990: fig. 16; Hoffman, 2002: fig. 537). In symphrasine species the terminal portion of Sc, and generally the veins within the pterostigma, are inconspicuous. Sc seems to disappear distal to 3sc-r1, making it appear to terminate on R1. Although it is often poorly visible, in all species the Sc actually continues distal to 3sc-r1. This can be deduced from the observation that a number of veinlets terminate on C within the pterostigma (i.e. distal to 3sc-r1), but because they do not arise from R1, this probably indicates the presence of the Sc distal to 3sc-r 1 inthese species. In  Mesomantispa, the Sc appears to also terminate at R1, but the true relationship is unclear (see below). The structure of the distal part of the Sc in the Symphrasinaeis similar to that of some Rhachiberothidaeand Berothidae, in that the Sc is far removed from R1 and often poorly discernible (it is sometimes atrophied) distal to 3sc-r (e.g. Aspöck & Mansell, 1994: fig. 43 for Rhachiberothidae; Archibald & Makarkin, 2004: fig. 3 for Berothidae). The relationships of Rhachiberothidaeand Symphrasinaeremain unclear. They are obviously closely related (e.g. Tjeder, 1959; Willmann, 1990, 1994; Aspöck & Nemeschkal, 1998), and the question asked by Tjeder in 1959 remains relevant: ‘is  Symphrasis[ sic, read as Symphrasinae] really as closely related to the other Mantispidaeas to be included in that family?’ ( Tjeder, 1959: 275). This problem is, however, outside the scope of this paper (see also below under  Whalfera). The Symphrasinaeare considered to be the sister group of [ Drepanicinae+ ( Calomantispinae+ Mantispinae)] and they are regarded to be the most plesiomorphic mantispids ( Lambkin, 1986a). We believe that the latter concept requires some re-examination, however. Indeed, some character states of their venation and prothorax are plesiomorphic in the family [compare characters (5), (15), and (16) of the subfamily diagnosis – additionally, the humeral veinlet in the forewing is recurrent and the anterior part of the pronotum is not closed ventrally (i.e. not tubular) in some species]. Symphrasinae, however, possess more numerous and striking apomorphic character states in their venation and in the structure of their foreleg and abdomen [characters (1)–(4), (6)–(8), and (10)–(14) of the subfamily diagnosis]. Most of these states are plesiomorphic in the Drepanicinae. The exceptions are some apomorphies of this subfamily, e.g. CuP in the hindwing is absent; the basal crossvein r-m is either upright or at most inclined, but not sinuate; and the prothorax is entirely tubular (but all of these characters are shared by Mantispidaeand Calomantispidae). So, Drepanicinaemight be considered at least as plesiomorphic as Symphrasinae.