identifier	taxonID	type	CVterm	format	language	title	description	additionalInformationURL	UsageTerms	rights	Owner	contributor	creator	bibliographicCitation
3C67F1ED053C5C5EBB7803A0B9357E5E.text	3C67F1ED053C5C5EBB7803A0B9357E5E.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Protaphycus shuvalikovi Simutnik 2022	<html xmlns:mods="http://www.loc.gov/mods/v3">
    <body>
        <div>
            <p> Protaphycus shuvalikovi Simutnik sp. nov.</p>
            <p>Figs 1, 2</p>
            <p>Material.</p>
            <p>  Holotype, SIZK ZH-98, 1♀,  Zhovkini , Varash District, Rovno Region, Ukraine; Rovno amber, late Eocene. The inclusion is in a yellow and clear piece of amber in a shape of irregular triangular prism (ca. 22  × 10  × 12  × 6 mm). All body parts are preserved. </p>
            <p>Syninclusions.</p>
            <p> ZH-93  Coleoptera :?  Anthicidae ; ZH-94  Diptera :  Chironomidae ; ZH-95  Coleoptera :  Scirtidae ; ZH-96  Coleoptera , 2  Diptera :  Sciaridae ,  Cecydomyiidae ); ZH-97  Diptera :  Chironomidae ; ZH-98 4  Diptera :  Sciaridae ,  Limoniidae ,  Chironomidae ,  Nematocera ; ZH-99  Hymenoptera :  Mymarommatidae ,  Diptera :  Chironomidae ,  Collembola :  Entomobryomorpha ; ZH-100 2  Diptera :  Psychodidae ,  Chironomidae ; ZH-101  Hymenoptera ; ZH-102  Limoniidae ; ZH-103  Diptera :  Sciaridae ; ZH-104  Diptera :  Sciaridae ; ZH-105  Diptera :  Empididae ; ZH-106  Diptera :  Chironomidae ; ZH-107  Thysanoptera ; ZH-108  Diptera :  Chironomidae ; ZH-109  Diptera :  Brachycera ; ZH-110  Diptera :  Chironomidae ; ZH-111  Thysanoptera :  Thripidae ; ZH-112 2  Diptera :  Hybotidae ,  Chironomidae . </p>
            <p>Etymology.</p>
            <p>The species is named in memory of our colleague Vladimir Borisovich Shuvalikov, an entomologist, geneticist, and teacher.</p>
            <p>Description.</p>
            <p>Female. Habitus as in Fig. 1A, B. Body length 0.6 mm.</p>
            <p>Coloration and sculpture. Body, tegula, legs, gaster dorsally and ventrally black; clava darker than F6 (Fig. 2A); surface of frontovertex, mesoscutum, scutellum and axillae smooth, shiny (probably due to the presence of a thin layer of air), but without visible metallic shine; mesoscutum with rare black setae (Fig. 1A), ovipositor sheaths pale yellow; head, thorax, legs, and gaster shallow reticulate, but surface of head only sparsely punctate, some cells of frontovertex with one convex point (Fig. 1A).</p>
            <p> Head. Hypognathous, slightly wider than thorax in dorsal view, about 1.5  × as broad as long; occipital margin sharp, but not carinate (Fig. 1B); eyes clothed in sparse setae 2  × as long as diameter of eye facet (Fig. 1A), with inner orbits parallel; frontovertex only slightly longer than broad, almost one-third head width; ocelli in right-angled triangle, posterior ocelli elliptical in dorsal view, OOL about one-third posterior ocellus diameter (Fig. 1A, B); OCL slightly shorter than posterior ocellar diameter; OOL:POL:LOL:OCL about 1:8:5:2; eye reaching occipital margin; facial cavity, location of toruli, and interantennal prominence not visible in holotype. </p>
            <p> Antenna. Geniculate, 11-segmented (1:1:6:3); scape long, not widened (Fig. 1B); pedicel conical, about as long as F1-F4 combined, longer than any segment of funicle, all funicular segments transverse, F1-F4 very small and subequal (Fig. 1A, B), mps not visible; F6 twice as broad as long (Fig. 2A); width of flagellomeres increases toward apex; at least, all segments of clava with mps (Fig. 2A); clava large, only slightly shorter than funicle (Fig. 1A); about 2  × as long as broad, with small oblique truncation (sensor region) on rounded apical segment (Fig. 2 A), wider than F6; flagellum and clava clothed in very short setae. </p>
            <p> Mesosoma. Pronotum almost vertical, with small transverse dorsal surface (Fig. 1A, B); mesoscutum broader than long,  ﬂat , notaular lines present as grooves (Fig. 1A, B: n) at extreme anterior part of mesoscutum; axillae transverse-triangular with anteromedial angles contiguous (Fig. 1A); scutellum  ﬂat , about as long as mesoscutum. </p>
            <p> Wings. Fully developed, forewings wide, with round apex; linea calva with filum spinosum, covering setae along basal margin of linea calva present, well developed (Fig. 1A,B: cs); area basal to covering setae bare and looking like speculum (Fig. 1A); hyaline break (unpigmented area) present; proportions of forewing venation, shape of parastigma, and setation of linea calva as in Figs 1A,B, 2A; marginal vein 2  × as long as broad and about 1.5 as long as postmarginal (Fig. 1A,B); stigmal vein with long narrow uncus, consisting row of uncal sensilla; seta marking apex of postmarginal vein of fore wing not longer than others on the marginal and postmarginal veins; setae of marginal fringe short. </p>
            <p>Legs. Normal in size, alike polygonal reticulate; tarsi 5-segmented, mesotibial spur slightly longer than mesobasitarsus, both relatively short (Fig. 2A).</p>
            <p>Gaster. Polygonal reticulate equal dorsally and ventrally; apex of hypopygium sharp, distinctly reaching way past apex of syntergum (Fig. 2C: hyp, syn); gonostyli (Fig. 2C: v3) separated from apex of hypopygium; lateral margin of hypopygium bare, without row of setae; shape of hypopygium, location of cercal plates, and cercal setae as in Fig. 2B, C.</p>
            <p>Male. Unknown.</p>
            <p> The earliest known  Encyrtidae include one female and four males were ascribed to five different genera from middle Eocene Sakhalinian amber (Simutnik 2021; Simutnik et al. 2021a). They did not have the filum spinosum and differed significantly from the both extant and late Eocene European encyrtids. To date, 16 species from 14 extinct genera are described from the Rovno, Baltic, and Danish ambers. Half of them, including the  Protaphycus shuvalikovi , had the filum spinosum and, putatively, belong to  Encyrtinae . The most of the known European amber  Encyrtidae differ from the majority of extant ones by the subapical position of the cerci, the relatively long marginal vein of the forewing, a distinctly swollen but not triangular parastigma, a short radicle, and by a seta marking the apex of the postmarginal vein that is not any longer than others on this vein. The  Sulia glaesaria Simutnik, 2015 with a unique abdominal structure, a largest of the known extinct members of the family, was described from Danish amber and then reported from Rovno amber (Simutnik 2015a; Simutnik et al. 2021b). </p>
            <p>A comparative morphological analysis of the paleontological data allowed tracing character changes in some morphological structures in members of the family from the middle Eocene, through the late Eocene, to the present (Simutnik 2021). However, further analysis is required to determine the place of these fossil on the phylogenetic tree.</p>
        </div>
    </body>
</html>
	https://treatment.plazi.org/id/3C67F1ED053C5C5EBB7803A0B9357E5E	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Simutnik, Serguei A.;Perkovsky, Evgeny E.;Vasilenko, Dmitry V.	Simutnik, Serguei A., Perkovsky, Evgeny E., Vasilenko, Dmitry V. (2022): Protaphycus shuvalikovi Simutnik gen. et sp. nov. (Chalcidoidea, Encyrtidae, Encyrtinae) from Rovno amber. Journal of Hymenoptera Research 91: 1-9, DOI: http://dx.doi.org/10.3897/jhr.91.81957, URL: http://dx.doi.org/10.3897/jhr.91.81957
7ED54CED131F58F8ABB195177CD60F77.text	7ED54CED131F58F8ABB195177CD60F77.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Protaphycus Simutnik 2022	<html xmlns:mods="http://www.loc.gov/mods/v3">
    <body>
        <div>
            <p> Genus  Protaphycus Simutnik gen. nov.</p>
            <p>Type species.</p>
            <p> Protaphycus shuvalikovi Simutnik, sp. nov. </p>
            <p>Species composition.</p>
            <p>Type species only.</p>
            <p>Etymology.</p>
            <p> The new genus, probably, most closely related to the extant genus  Aphycus . The genus name is a masculine noun. </p>
            <p>Diagnosis.</p>
            <p> Female. It is the smallest of the described fossil members of the family, 0.6 mm length. Habitus  ‘encyrtiform’ , body compact, squat, not flattened; frontovertex subquadrate; notaular lines present anteriorly; F1-F3 almost ring-like; forewings 2  × as long as broad, linea calva also unusually wide, entire; filum spinosum and covering setae (sensu Sharkov 1985) present; bare strip resembling a speculum runs alongside linea calva, basal to row of covering setae, below parastigma; parastigma distinctly swollen; marginal vein relatively long, longer than postmarginal, and about as long as stigmal vein; uncus well-developed; cerci located close to gastral apex; apex of hypopygium reaching way past apex of last gastral tergum (Fig. 2C: hyp, syn); ovipositor sheaths small, only slightly exserted, separated from hypopygium (Fig. 2C: v3). </p>
            <p>Remarks.</p>
            <p> Placement of  Protaphycus in  Encyrtinae is supported by the presence of the filum spinosum of linea calva. The new genus somewhat resembles the extant genus  Aphycus Mayr, 1876 in having a similar structure of the antenna: the clava is large, the pedicel is long, the funicular segments are transverse; the mesoscutum has incomplete notaular lines; the linea calva is entire, with distinct covering setae; the parastigma is distinctly swollen. But it is distinguished by the long marginal vein; the linea calva is noticeably wider; the presence of bare area alongside linea calva, basal to row of the covering setae; the seta marking the apex of the postmarginal vein is no longer than others on the marginal and postmarginal veins; the relatively short mesobasitarsus; and by the subapical position of the cerci. </p>
            <p> Unlike most extant representatives of the subfamily, the hypopygium in  Protaphycus is not transverse, triangular and reaching way past apex of the syntergum (Fig. 2C: hyp). Similar structure of the hypopygium is known in  Aphycus ,  Ageniaspis Dahlbom, 1857, some species of  Copidosoma Ratzeburg, 1844 and, possible, in a few other extant  Encyrtinae . But, the apex of the hypopygium in these genera really extend only the apex of this syntergum and does not extend past of it. This state is only found in one or two other unrelated genera, e.g.  Coccidoctonus Crawford, 1912 (J. S. Noyes, pers. comm. 2022). </p>
            <p> From the  Aphycoides Mercet, 1921 it differs by the presence of the distinct notaular lines, F1 shorter than its length, and a very wide linea calva. </p>
            <p> From the  Oriencyrtus Sugonjaev &amp; Trjapitzin, 1974 which has some characters in common with  Protaphycus and is definitely one of the most basal extant encyrtid genera (Noyes and Hayat 1994; J. S. Noyes, pers. comm. 2022) it differs by the presence of the filum spinosum. In addition, the forewings of  Protaphycus are 2  × as long as broad, this is unusually broad for encyrtids according to J. S. Noyes, pers. comm. 2022, and noted e.g. in the extant genus  Oesol Noyes &amp; Woolley, 1994 (Noyes and Woolley 1994; P: 1333). </p>
        </div>
    </body>
</html>
	https://treatment.plazi.org/id/7ED54CED131F58F8ABB195177CD60F77	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Simutnik, Serguei A.;Perkovsky, Evgeny E.;Vasilenko, Dmitry V.	Simutnik, Serguei A., Perkovsky, Evgeny E., Vasilenko, Dmitry V. (2022): Protaphycus shuvalikovi Simutnik gen. et sp. nov. (Chalcidoidea, Encyrtidae, Encyrtinae) from Rovno amber. Journal of Hymenoptera Research 91: 1-9, DOI: http://dx.doi.org/10.3897/jhr.91.81957, URL: http://dx.doi.org/10.3897/jhr.91.81957
