New species of the genus Oxytelus Gravenhorst, 1802 from Russia (Coleoptera: Staphylinidae: Oxytelinae) Author Semionenkov, O. I. Author Gildenkov, M. Yu. text Russian Entomological Journal 2022 2022-03-31 31 1 32 35 http://dx.doi.org/10.15298/rusentj.31.1.06 journal article 10.15298/rusentj.31.1.06 0132-8069 10978459 Oxytelus ( Tanycraerus ) ruthenus Semionenkov et Gildenkov, sp.n. Figs 1 –3, 5. MATERIAL. Holotype , , Russia , Smolensk Area , with labels: “ RUSSIA : Smolensk Area , Demidov district, BaklanovoKirovkaBorovikiGorodistchye road. Car net. 7.V.2016 , O. Semionenkov ” “Holotypus Oxytelus ruthenus Semionenkov & Gildenkov , 2022 [red]” ( ZMUM ). Paratypes [all specimens with labels: “Paratypus Oxytelus ruthenus Semionenkov & Gildenkov , 2022 [red]”]: 1♀RUSSIA : Smolensk Area , Demidov district, PrzhevalskoyeAnosinkiPodosinki route. Car net. 3.V.2017 , O. Semionenkov ” “ Oxytelus assingi Schülke, 2012 , O. Semionenkov det.” (cOS) ; 1♂ , 1♀RUSSIA : Smolensk Area , Demidov district, BaklanovoPrzhevalskoyeRudnyaKlimyaty route. Car net. 19.V.2017 , O. Semionenkov ” (cOS) ; 2♀♀RUSSIA : Smolensk Area , Yartsevo district, vicinity of Yartsevo , the Vop´ river valley, edge of a temporary pool, in wet litter, 3–19.X.2019 , O. Semionenkov ” ( ZMUM ) ; 1♂ , 2♀♀RUSSIA : Smolensk Area , Demidov district, BaklanovoPrzhevalskoyeGukiZhelyukhovoDukhovstchina distr., Ribshevo route. Car net. 11.V.2019 , O. Semionenkov ” ( ZMUM ) ; 2♂♂RUSSIA : Smolensk Area , Smolensk district , Novyie BatekiOlshaKasplyaBabny route. Car net. 23.IV.2019 , O. Semionenkov ” ( 1♂ — cMSch; 1♂ — cOS) ; 1♂RUSSIA : Smolensk Area , Dukhovstchina district, Ribshevo –Bol´shoye BeresnevoDukhovstchinaZuevo route. Car net. 28.V.2020 , O. Semionenkov ” (cMG) ; 2♂♂RUSSIA : Smolensk Area , Demidov district, PrzhevalskoyeZhelyukhovo route. Car net. 28.V.2020 , O. Semionenkov ” ( 1♂ZMUM ; 1♂ — cOS) ; 1♂RUSSIA : Kaluga Area , Kaluga , Olgov´sky lane, window trap, 26.V–29.VI.2009 , S. Alekseev , A. Rogulenko ” (cOS) ; 1♂RUSSIA : Murmansk Area , Pechengsky district, Pasvik Nature Reserve , meadow, soil trap, 10.IX.2011 . O. Trushitsyna leg.” “ Oxytelus assingi Schülke, 2012 V. B. Semenov det. 2014” “prope Oxytelus assingi Schulke, 2012 det. M. Gildenkov, 2014” (cMG) ; 1♂ , 2♀♀ , 2 ex.RUSSIA : Murmansk Area , Pechengsky district, Pasvik Nature Reserve , meadow, soil trap, 10.IX.2011 . O. Trushitsyna leg.” ( ZMUM ) ; 1♂Russia : Murmansk Area , Pechenga district, Pasvik Nature Reserve , Varlam island,meadow, 10.VII.2011 , O. Trushitsyna ” ( ZIN ); 2♂♂Russia : Murmansk Area , Pechenga district, Pasvik Nature Reserve , meadow, soil trap, 22.VII.2011 , O. Trushitsyna ” ( ZMUM ) ; 1♂Russia : Murmansk Area , Pechenga district, Pasvik Nature Reserve , meadow, soil trap, 29.VI.2012 , O. Trushitsyna ” (cMSch) ; 1♂Russia : Murmansk Area , Pechenga district, Pasvik Nature Reserve , meadow, soil trap, 20.VI.2012 , O. Trushitsyna ” “ Oxytelus assingi Schülke, 2012 V. B. Semenov det. 2014” ( ZMUM ) ; 2♂♂ , 1♀Russia : Murmansk Area , Pechenga district, Pasvik Nature Reserve , meadow, soil trap, 1.VIII.2011 , O. Trushitsyna ” (cOS) ; 2♂♂ , 2♀♀Russia : Kamchatka , Bystrinsky Natural Park. Floodplain of Belaya River , near the stream, meadow, 25.07– 3.08.2016 , V . Lobanova ” “ Oxytelus assingi Schülke, 2012 V. B. Semenov det. 2017” ( 1♂ – cMSch; 1♂ , 2♀♀ — cOS) ; 1♂Russia : Kamchatka , Bystrinsky Natural Park. Floodplain of Ketachan River , near the stream. June 2015 , V .I. Lobanova leg.” ( ZMUM ) ; 1♂ , 2♀♀Russia : Kamchatka , Bystrinsky Natural Park. Floodplain of Irakan River , Salix /meadow, 22– 24.06.2016 , V . Lobanova ” ( ZIN ) ; 3♂♂ , 6♀♀Russia : Kamchatka , Bystrinsky Natural Park. Surroundings of Mount Alney , near the stream, 26.07– 1.08.2016 , V . Lobanova ” “ Oxytelus assingi Schülke, 2012 V. B. Semenov det. 2017” (cOS) ; 1♂Russia , Kamchatka , near Kamenskoe , 20.07.2011 , A.S. Ryabukhin leg.” “ Oxytelus assingi Schulke, 2012 | det. M. Gildenkov , 2018” (cMG) ; 1♂ , “ Russia , Kamchatka , near Ossora , 30.07.2008 , A.S. Ryabukhin leg.” “ Oxytelus assingi Schulke, 2012 | det. M. Gildenkov , 2018” (cMG) . COMPARATIVE MATERIAL. Paratype of Oxytelus assingi Schülke, 2012: 1♂ , Russia , Krasnodar Territory, Krasnaya Polyana, with labels: “RU [10] — W-Caucasus, 16 km ENE Krasnaya Polyana, 2040 m , 43°43´04´´N , 40°23´41´´E , 17.VII.2011 , V . Assing” “ PARATYPUS Oxytelus assingi spec. nov. det. M. Schülke 2011/2012 [gelb]” (cMSch). Paratypes Oxytelus altaicus Kastcheev, 1999: 1♂ , 3 ex. , Russia , Altai , environs of the village of Rakhmanovskie Klyuchi, with labels: “ Altai , Rakhman. Klyuchi, 14– 16.6.1980 . V . Kastch. [Kastcheev]” “ Paratypus Oxytelus altaicus Kastcheev, 1999 / rev. M. Gildenkov, 2011” altaicus [red]” ( ZIN ). DESCRIPTION ( holotype ). Measurements: head width with eyes — 0.772; head width at temples — 0.772; head length from front margin of clypeus to the beginning of neck — 0.572; length of antenna — 0.915; ocular length (longitudinal) — 0.186; length of temple — 0.215; length of pronotum — 0.658; maximum width of pronotum — 0.930; sutural length of elytra (length of elytra from apex of scutellum to posterior margin of sutural angle) — 0.658; maximum width of elytra — 1.073; maximum width of abdomen — 1.044; length of aedeagus (from base of median lobe to apex of parameres) — 0.701; length of forebody (from anterior margin of clypeus to apex of elytra) — 2.159; total length (from anterior margin of clypeus to apex of abdomen) — 4.4. Body black-brown, shining. Head, pronotum and abdomen black-brown; elytra red-brown; legs, base of antennae (1– 4 antennomeres), mouthparts (labrum, mandibulae and labial palpi) light brown; apical antennomeres (5–11) dark brown. Head depressed, trapezoid, lateral margins of clypeus from infraocular tubercles to anterior margin narrowing at approximately 45°. Anterior margin of clypeus rounded inside. Head length from front margin of clypeus to the beginning of neck is related to maximum width (head width with eyes equal to head width at temples) approximately as 20:27. Temples well developed, rounded. Eyes of medium size, slightly convex, with small facets; their diameter related to length of temple approximately as 13:15. Head with distinct, moderately large, and dense punctation; diameter of punctures approximately equal to 3 diameters of eye facet. Punctation sparse, distances between punctures in temples, frons and eyes area less than their diameter, intervals smooth, shining. Punctation on infraocular tubercles, clypeus, vertex, and anterior part of neck constriction sparse; distances between punctures noticeably greater than their diameter.Lateral margins of neck constriction densely, granularly shagreen. Antennae moderately short. First four antennomeres smooth, antennomeres 5–11 covered with dense setae. Basal antennomere cylindrical, slightly curved, about 4 times as long as broad; antennomere 2 cone-shaped, about 1.5 times as long as broad; 3 cone-shaped, about 1.5 times as long as broad, much narrower and slightly shorter than 2; 4 cupshaped, approximately as long as broad; 5–6 transverse; 7–10 strongly transverse; 11 slightly shorter than 10, elongate, narrowing to apex, slightly longer than broad; 9–11 antennomeres much more massive than 5–8, but not forming a distinct club. Pronotum slightly convex with a rounded base, maximum broad after about 2/3 of length measured from the base. Length of pronotum related to its maximum broad approximately as 46:65. Pronotal disc distinctly with rather large and densely punctation. Punctation of pronotal disc and head in eyes and temples area is very similar. Three paramedian impressions distinct, rather wide and long. Central impression located on medial line, two other slightly curving impressions — on both sides of central ( Fig. 1 ). Elytra rather wide, their length from humeral to posterior margins related to maximum width approximately as 58:75. Punctation of elytra distinct, rather large and densely, with approximately more equal distances between punctures than on head and pronotum. Diameter of punctures approximately equal to 3 diameters of eye facet, distances between punctures slightly less than their diameter, intervals smooth, shining. Scutellum rhomboid, fine and smooth shagreen ( Fig. 1 ). Abdominal tergites with fine smooth shagreenity and fine, sparse punctures at posterior margin. Sternite VIII of characteristic structure (Fig. 3), with wide, rounded incisions on posterior margin, passing into the lateral margins of median process, gradually narrowing to flatly rounded apex. At the level of posterior angles of sternite VIII, there is a transverse ridge with weakly rounded posterior margin and two setae. Figs 1–2. Oxytelus ( Tanycraerus ) ruthenus sp.n. : 1 — holotype, male, dorsal view; 2 — aedeagus, holotype, ventral view; 3 — Sternit VIII. Scale bars: 1 — 1 mm; 2–3 — 0.2 mm. Рис. 1–2. Oxytelus ( Tanycraerus ) ruthenus sp.n. : 1 — голотип, самец, сверху; 2 — Эдеагус, голотип, сниЗу; 3 — VIII стернит. МасШтаб: 1 — 1 мм; 2–3 — 0,2 мм. Aedeagus ( Fig. 2 ) of characteristic structure, with wide median lobe rounded at the apex and relatively narrow parameres. Aedeagus structure is invariable in different parts of the distribution area. Female ( paratypes ). In coloration and body proportions similar to male, sexual dimorphism present, males, as a rule, but not always, have a more massive head. Variability. Variation in color, body size and proportions not significant. Specimens from Kamchatka often have slightly denser punctation of head. Most males have a more massive head than females, however, some males and females similar in body proportions. COMPARATIVE NOTES . To clarify the diagnosis of the new species, the type material of O . assingi and O . altaicus was studied. The new species is very close to O . assingi and was misidentified as it for a long time [ Semionenkov, Gildenkov, 2017 ; Lobkova et al., 2017 ; Ryabukhin, Gildenkov, 2018 ]. Differs by significantly paler coloration of antennal base (1–4 antennomeres) and mouthparts: in O. ruthenus sp.n. (all studied specimens), they are light brown, while in O. assingi (the paratype studied and [ Schülke, 2012: 1660 , Fig. 2 ]) — dark brown; slightly more developed eyes, ratio of temple length to ocular length in O. ruthenus sp.n. ( holotype ) = 1.156, in O. assingi ( paratype studied) = 1.285 ( Fig. 1 and [ Schülke, 2012: 1660 , Fig. 2 ]); shorter antennae (7–10 antennomeres of O. ruthenus sp.n. are significantly more transverse) ( Fig. 1 and [ Schülke, 2012: 1660 , Fig. 2 ]). Transverse ridge on median process of abdominal sternite VIII of the new species, compared to O. assingi , has not so clear angles at posterior margin (Fig. 3 and [ Schülke, 2012: 1660 , Fig. 3]). The new species reliably differs by the structure of the aedeagus parameres ( Figs 4–5 ). Comparison of Oxytelus ruthenus sp.n. with O. laqueatus (Marsham, 1802) and O. altaicus shows that the latter two species are much closer to each other than to O. ruthenus and O. assingi , have similar structure of the aedeagus and sternite VIII [ Schülke, 2012: 1660 , Figs 6–7; Kastcheev, 1999: 147 , Figs 6–7, 13–14]. At the same time, O. laqueatus and O. altaicus are well distinguished from O. ruthenus sp.n. and O. assingi by significantly more developed parameres ( Fig. 2 and [ Schülke, 2012: 1660 , Figs 4 , 7; Kastcheev, 1999: 147 , Fig. 6]). DISTRIBUTION. According to available data, the new species reliably lives in the Northern and Central part of European Russia and in Kamchatka . ETYMOLOGY. From the Latin “Ruthenia” — one of the names of ancient Russia . HABITAT. Most of the material in the climatic conditions of Central Russia was collected by car net in spring. Two specimens from Smolensk Area were taking by sifting wet litter together with Oxytelus fulvipes Erichson, 1839 . Specimens from the Northern Russia and Kamchatka were collected from spring to autumn mainly by soil traps in wet biotopes.