Lycoperdina smirnoviorum Gusakov, 2017

Lycoperdina smirnoviorum Gusakov, 2017 ,

last-instar larva

Figs 1–3 View Figs 1–5 , 6–28 View Figs 6–14 View Figs 15–17 View Fig View Figs 19–28 .

MATERIAL EXAMINED. four last-instar larvae (one reared to adult): Russia, Primorsky krai, Land of the Leopard National park, ~ 2 km S from Listvennichny cordon, h~ 400m, 43°33’43"N 131°21’20"E, in fruiting body of Lycoperdon , 30.V.2019 (adult emerged 28.VI.2019), leg. A. Zaitsev, adult determined by K. Makarov ( MPGU) GoogleMaps ; five last-instar larvae (two reared to adults): Russia, Primorsky krai, Land of the Leopard National park, near Gusevsky cordon, 43°23´620´´N 131°32´200´´E, in fruiting body of Lycoperdon , 1.VI.2021 (adults emerged 24.VII.2021), leg. A. Zaitsev, adults determined by K. Makarov.

ADDITIONAL MATERIAL. Aphorista vittata Fabricius, 1787 , two last-instar larvae: USA, Michigan, Portage, near Hampton Lake, 16.IV.1972, leg & det. D.K. Young; Corynomalus sp. , four last-instar larvae, two adults: Peru, Junin province, Perene river, h= 1100 m, 8 km NNE Puerto Ocopa, Cananeden vill., S 11°06´W 73°50´, 23.III.2009, leg. A. Petrov, det. A. Zaitsev; Endomychus coccineus Linnaeus, 1758 , 47 last-instar larvae (together with adults): Russia, Moscow region, Volokolamsk district, near Pagubino village, 55°57´480´´N 35°55´250´´E, on Alnus log, 8. V.2010, leg. & det. A. Zaitsev; Mycetina marginalis Gebler, 1830 , 30 last-instar larvae (two reared to adult): Russia, Primorsky krai, Lazovsky dist., Lazo env., Proselochny cordon, 42°59´888´´N 134°06´935´´E under bark of Quercus , 18.VIII.2007, leg. A. Zaitsev & K. Makarov, adult determined by K. Makarov.

DESCRIPTION. Maximum body length (from anterior margin of clypeus to the apex of processes of abdominal segment IX) 8.1 mm; head length 0.9 mm; head width 1.2 mm; maximum width of thorax 1.9 mm; maximum width of abdomen 2.2 mm. Head distinctly narrower than prothorax; body elongate, cylindrical; widest across abdominal segment III, then tapering posterad. Each abdominal segment with medial paired tergal processes and well developed apically rounded laterotergites, all gradually increasing in length from I to IX segment; urogomphi absent ( Figs 1–3 View Figs 1–5 ). Head brown-grey dorsally and pale-grey ventrally; bottom half of the antennal ring as well as hypopharingeal rod darker. Antennomeres and labrum yellow-grey; mandibles darker, with brown apices; labium slightly pigmented. Thoracic tergites brown-grey, with lighter spots on areas of coxal muscles attachment (= sigillae). Laterotergites of meso- and metathorax greyish; pleurites barely pigmented except apodemes. Mesothoracic spiracle heavily pigmented, brown. Sternites very light color- ed, almost indistinguishable from surrounding cuticle.

Legs weakly pigmented. Coxae light colored at the base, apically becoming light-grey. Distal joints dorsally brown-grey, lighter than thoracic tergites, ventrally less pigmented. Acute processes of abdominal tergites and laterotergites brown-grey, rest surface of tergites light-grey; spiracles wellpigmented, brown. Epipleurites faintly colored, greyish; on segments IV–VIII more pigmented. Hypopleurites and sternites very light colored, almost indistinguishable from surrounding cuticle. Abdominal segment X dorsally brown-grey, ventrally almost white.

Most surface of head and all sclerotized body areas are covered with long simple setae; membranous areas with numerous, usually shorter simple setae.

Head ( Figs 6–14 View Figs 6–14 ) prognathous, 0.75 as long as wide. Epicranial suture absent; frontal sutures U-shaped, reaching anterior tentorial pits, their bases contigous ( Fig. 6 View Figs 6–14 ). Frontoclypeal suture distinct, arcuate, epistomal ridge distinct. Stemmata four on each side ( Fig. 3 View Figs 1–5 ), three forming transverse row behind antennae’s insertion, one located posteriorly.

Clypeus transverse, with rounded lateral margins, bearing two mesosetae on each side: one close to anterior margin, another on lateral edge ( Figs 6–7 View Figs 6–14 ). Clypeolabral suture distinct; labrum ( Fig. 8 View Figs 6–14 ) with truncate anterior margin, about 0.5 as long as basal wide; dorsally with five setae and single pore on each side: two microsetae on anterior margin, two macrosetae on lateral edge, one microseta near posterior margin and one pore located anteriorly to it. Moreover, unpaired pore present in central area. Frontal sclerite ( Fig. 6 View Figs 6–14 ) with numerous granules on all surface except anterior region before frontoclypeal suture and areas of muscles attachment; each side with ten macrosetae, eight mesosetae, two microsetae and single pore located at the level of anterior forth of frontal suture. Parietal sclerites dorsally ( Fig. 6 View Figs 6–14 ) covered with the same granulae except regions near antennal insertions and areas of muscles attachment; each sclerite with 12 macrosetae, 14 mesosetae, 11 microsetae and two pores (one near the distal stemma of transverse row, another near the posterior margin of the head). Ventral surface of parietal sclerites mostly smooth, each sclerite with 10 macrosetae, four mesosetae and two pores located near anterior part of hypostomal ridge ( Fig. 9 View Figs 6–14 ). Hypostomal ridge with transverse curvation below cardo; hypostomal rods diverging posteriorly, almost reaching posterior margin of the head capsule. Paragular area smooth, without setae. Tentorium with broad bridge; posteri- or arms basally connected with postoccipital ridge; each anterior arm reaching parietal sclerite, where distinct tentorial pit can be observed externally near the anterior end of frontal suture ( Fig. 7 View Figs 6–14 ).

Antenna ( Fig. 10 View Figs 6–14 ) short, with three antennomeres, 0.2 as long as head capsule length. Antennomere I 0.7 as long as wide, dorsally with two pores, ventrally with single pore. Antennomere II 1.2 as long as antennomere I and 1.2 as long as wide, dorsally with single subapical pore. Its apical part with elongated conical sensorial appendage, which is 1.3 as long as antennomere III; also three apical microsetae present ventrally. Antennomere III 0.4 as long as antennomere II and 1.1 as long as wide; its apical part with five smaller sensilla surrounding larger elongated one.

Epipharynx ( Fig. 8 View Figs 6–14 ). Anterior half on each side with numerous microtrichia of various length, absent in central area, where two sensilla located; one campaniform and one conical sensilla located near the anterior margin, and three mesosetae present laterally. Posterior half with numerous uniform microtrichia; mostly membranous except several areas with heavier sclerotized spines and tubercles.

Mandibles ( Figs 11–12 View Figs 6–14 ) almost symmetrical, very broad, each 0.9 as long as basal width, with large membranous area; when closed, their apices directed forward and almost parallel to each other ( Fig. 7 View Figs 6–14 ). Apex truncate, incisor area with 2– 3 obtuse teeth; prostheca well developed, mostly membranous; mola tuberculate, with distinct lateral ridges ( Fig. 11 View Figs 6–14 ). Ventrally each mandible with two microsetae and two pores located along the outer margin. Due to such specific shape of mandible, its abductor muscle is larger than adductor, which reflects in the size of their apodemes ( Fig. 12 View Figs 6–14 ) and, possibly, in development of large membranous area. Such reversion in muscles size is rather rare in Coleoptera larvae, and has been described before for some Eucnemidae [ Ford, Spilman, 1979].

Maxilla ( Fig. 13 View Figs 6–14 ) with somewhat triangular cardo, which is “divided” by the internal sclerotization into proxicardo with smooth surface, and disticardo bearing single mesoseta; maxillary articulating area membranous. Stipes ventrally smooth, with small sclerotized area on outer edge of basal part; with two mesosetae. Dorsal side of stipes mostly membranous. Mala broad with distal part slightly narrowed; its apex rounded. Ventral surface of mala with five mesosetae: one located on proximal part and other near the inner margin, distally to it there are three subapical mesosetae arranged in transverse row; apical area with numerous elongated spines. Dorsally mala with three subapical mesosetae arranged in transverse row; apical area covered in numerous distinctly shorter spines.

Maxillary palps three-jointed, palpifer with ventral microseta. Palpomere I 0.5 as long as wide, apex ventrally with two pores, dorsally with several small asperities. Palpomere II 0.8 as long as palpomere I and 0.7 as long as wide, ventrally with single apical pore. Palpomere III 1.7 as long as palpomere II and 1.7 as long as wide; ventrally with single pore, dorsally with medial digitiform sensillum. Apex of palpomere III with a group of six short conical sensilla.

Labium ( Figs 13–14 View Figs 6–14 ). Ligula with two lateral lobes, dorsally covered in numerous microtrichia; its anterior margin with ventral microseta and pore on each side. Prementum short, ventrally on each side with one micro- and one mesoseta shifted towards palpifer. Labial palps ( Fig. 13 View Figs 6–14 ) with single palpomere, which is 2.3 as long as wide; ventrally with basal microseta and pore on outer and inner margin accordingly, as well as single subapical pore; apex with a group of 7 short conical sensilla. Hypopharynx ( Fig. 14 View Figs 6–14 ) on each side with three oblique rows of microtrichia originated from antero-lateral edges of ligula lobes, and numerous microtrichia of various length located in medial part. Hypopharyngeal sclerotisation consists of well-defined sclerome, bracon and a pair of parallel rods.

Mentum ( Fig. 13 View Figs 6–14 ) distinct, trapezoidal, with paired lateral sclerites, each with single microseta; central area membranous, with single macroseta on each side. Submentum fused with gula in single large sclerite, bearing one anterior macroseta on each side.

Thorax ( Figs 15–17 View Figs 15–17 ). Cervicosternum membranous, with three mesosetae on each side ( Fig. 17 View Figs 15–17 ).

Thorax about 0.3 as long as total body length, widest across metathorax. Prothorax is 0.6 as long as wide, 1.2 as long as mesothorax and 1.4 as long as metathorax.

Prothorax with a pair of large pronotal sclerites, covered in numerous small tubercles except invaginated areas of muscles attachment; ecdysial line not distinct. Each pronotal plate with numerous simple setae of various length and eight pores ( Fig. 15 View Figs 15–17 ); membranous area surrounding pronotum with numerous microasperities and simple setae of various length.

Meso- and metathorax with each notal plate divided in two sclerites: larger dorsal (= tergite), covered in numerous small tubercles and bearing about 30 setae (mostly macro- and mesosetae) as well as two pores; smaller sclerite located laterally (= laterotergite) ( Fig. 15 View Figs 15–17 ), more convex, almost without tubercles and bearing about 20 setae as well as two pores. Membranous area with the same vestiture as on prothorax.

Mesothoracic spiracle annular, opening at the edge of membranous spiracular disk, which is lesser than spiracle; metathoracic spiracle rudimentary ( Fig. 16 View Figs 15–17 ).

Prothoracic episternum with four mesosetae; epimeron with single macroseta. Prosternite faintly sclerotized with two mesosetae and single macroseta on each side; a pair of mesosetae located posteriorly on membranous area ( Fig. 17 View Figs 15–17 ).

Meso- and metathoracic episternum differs from that on prothorax by additional two microsetae; epimeron with additional mesoseta. Meso- and metasternite as well as membranous area with additional meso- and microsetae.

Thoracic endoskeleton is of the same structure as was described for L.? dux [ Tomaszewska, Zaitsev, 2012].

Legs ( Fig. 18 View Fig ) 5-jointed, short and stout, slightly increasing in size posteriorly; all three pairs similar in structure and chaetotaxy, covered in mostly meso- and macrosetae; length ratio of its joints to coxa is 0.5: 0.7: 0.6: 0.3. Coxa with 30 setae: 5 dorsal, 3 ventral, 10 anterior and 12 posterior. Trochanter with six setae: two anterior, one posterior and three ventral; seven pores present: five anterior and two posterior. Femur with nine setae: two dorsal, two ventral, three anterior, two posterior, and two pores: one anterior, one posterior. Tibiotarsus with eight setae: four anterior, three posterior and one ventral; single apical anterior pore present. Pretarsus with single stout claw bearing single seta.

Abdomen ( Figs 19–28 View Figs 19–28 ). About 0.6 as long as total body length, widest across abdominal segment III, then narrowing posteriorly. Abdominal segments ( AS) I–IX with both tergites and laterotergites developed; each tergite covered in small tubercules except apical part and forming acute process increasing in size on subsequent segments ( Figs 1 View Figs 1–5 , 19, 25 View Figs 19–28 ), on AS IX they sometimes called urogomphi (see Discussion). Laterotergites with less tubercles, rounded apically and becoming more convex on subsequent segments. Each tergite of AS I–VIII ( Fig. 22 View Figs 19–28 ) with 13–17 setae of various length and single pore; on AS IX ( Fig. 25 View Figs 19–28 ) with 22 setae and single pore. Each laterotergite on AS I–IX with 20–22 setae of various length and single pore ( Figs 19, 25 View Figs 19–28 ). Membranous area surrounding sclerites with numerous setae of various length.

Epipleurites ( Figs 3 View Figs 1–5 , 20, 24 View Figs 19–28 ) protruded, membranous on AS I–III, pigmented apically on AS IV–VIII, reduced on AS IX. Each epipleurite with about 20 mesosetae on flat part and 18 meso- and macrosetae on convex part ( Fig. 24 View Figs 19–28 ). All hypopleurites flat, membranous, largest on AS IV–V, decreasing in size on AS VI–VII, reduced on AS IX; with about 20 setae of various length on largest hypopleurite ( Fig. 20 View Figs 19–28 ).

Abdominal sternites I–IX faintly sclerotised, covered in microasperities which number increasing on subsequent segments; membranous areas with distinctly less number of microasperities. Sternite I on each side with one anterior microseta as well as one micro- and two mesosetae medially; sternites II–VIII ( Fig. 21 View Figs 19–28 ) on each side with total of 21 setae: two anterior microsetae as well as 14 micro-, four meso- and one macroseta medially; sternite IX ( Fig. 26 View Figs 19–28 ) on each side with ten microsetae and two mesosetae. Abdominal spiracles annular ( Fig. 23 View Figs 19–28 ), partially surrounded by membranous spiracular disk, which is distinctly larger than spiracle. Pygopod (abdominal segment X) about 0.8 as long as abdominal segment IX, membranous except well-sclerotized tergite, which bears one mesoseta and eight macrosetae on each side. Pleural and ventral areas with seven mesosetae on each side ( Figs 27–28 View Figs 19–28 ).

Comparative remarks

By now, the knowledge of Lycoperdina larvae is insufficient, with only five species mentioned in literature. Chapuis and Candèze [1853] were the first who gave the diagnosis and some illustrations of the larva of the genus, based on L. succincta ; almost at the same time Dufour [1854] described the larva of L. bovistae Fabricius, 1792 . Unfortunately, these studies are outdated. Böving and Craighead [1931] provided drawings of hypopharyngeal structures and mouthparts of L. succincta without any description given. Larva of North American L. ferruginea LeConte, 1824 appears to be the most studied within the genus, as more or less detailed descriptions have been executed by Peterson [1951], Pakaluk [1984], Tomaszewska [2005], and Böving and Craighead [1931] provided drawing of the head capsule. Hayashi and Nakamura [1953], Hayashi [1959] gave short descriptions of L. dux and L. mandarinea , but the latter turned out to be of Pocadius sp. ( Nitidulidae ) [ Hayashi, 1978]. In the most recent publication, Sogoh and Yoshitomi [2017] used habitus photos of L. dux and L. castaneipennis , but unfortunately descriptions were lacking.

Thus, with most known larvae of the genus not adequately described, it is very hard to reveal the distinguishing features. Sogoh and Yoshitomi [2017] mentioned that larvae of L. dux and L. castaneipennis differ by the size of dorsal tergal processes on abdomen and setae on them. Moreover, when comparing larvae of L. smirnoviorum with other unreared species from Russian Far East in our collection, the differences in shape of antennomere II as well as of meso- and metathoracic tergites can be observed. So, detailed descriptions of reared larvae of other Lycoperdina species are need- ed to compile the appropriate key.

Morphological consideration

Nevertheless, during the study of L. smirnoviorum it becomes possible to clarify certain aspects of Lycoperdininae larval morphology. The first one is concerning “double” hypostomal rods which were mentioned by Lawrence et al. [1999] and Burakowski and Ślipiński [2000] as larval feature of Lycoperdina and later described and figured also for Eumorphus Weber, 1801 [ Tomaszewska, 2005]. I was not able to locate “short hypostomal rod” in L. smirnoviorum larva and, most likely, that in fact it is apodeme of cardo promotor muscle [ Das, 1937] seen through integument, which has exactly the same position as on figure in Tomaszewska’ paper ( Figs 7, 13 View Figs 6–14 ).

The second aspect is about the urogomphi, which presence in Lycoperdina have been mentioned by the majority of authors [ Hayashi, Nakamura, 1953; Lawrence, 1991; Burakowski, Ślipiński, 2000; Tomaszewska, 2005]. At the same time, Pakaluk [1984] noted that urogomphi are absent and Peterson [1951] wrote: “ninth segment bearing two enlarged cone-shaped protuberances which may be urogomphi”. Such uncertainty appeared because of common assumption that any paired tergal processes of IX abdominal segment are considered as urogomphi regardless of the origin. Term “urogomphus” was proposed by Böving [1929] for usually paired processus situated exclusively on the posterior end of IX abdominal tergite. But, as can be seen in Lycoperdina , such processes are present on each abdominal segment, varying only in size, and having the very same location and origin, which can be proved by the position of dorsal pore ( Figs 19, 25 View Figs 19–28 ). So, in this case it is just the common attribute of each abdominal segment and thus cannot be treated as true urogomphi. The same concerns some other larvae of Lycoperdininae , eg. Eumorphus and Amphisternus Germar, 1843 , with laterotergites of IX segment usually described as urogomphi. It should be noted that in some Nitidulidae larvae, eg. Pocadius Erichson, 1843 , dorsal tergal projections identical to those on preceding segments occur together with true urogomphi, and in this case named “pregomphi” [ Böving, Craighead, 1931 Hayashi, 1978]. Thus, we have to agree with Pakaluk [1984] in that larvae of Lycoperdina lack true urogomphi; it also applies to the majority of Lycoperdininae (with exception of Mycetina Mulsant, 1846 , which larvae do have true urogomphi, however they were not mentioned by previous authors [Zaitsev, in preparation]).

The last point relates to labial palps, which have been described as single- [ Lawrence, 1991; Burakowski, Ślipiński, 2000] or two-jointed [ Pakaluk, 1984; Tomaszewska, 2005]. Actual number of palpomeres can be established by the analysis of chaetotaxy ( Figs 29–33 View Figs 29–33 ). In various Endomychidae larvae studied (see Material and methods) prementum has conservative pair of ventral setae: one microseta located near the border with mentum (for convenience coded as LA

1

), and other macroseta situated more or less anteriorly from it (LA 2). Truly two-jointed labial palps can be observed, for example, in Endomychus coccineus ( Endomychinae ), where distinct bor- der between palpomeres exists ( Fig. 29 View Figs 29–33 ); palpomere I ventrally with basal microseta on outer edge (LA 3) and pore near inner edge (LA b); palpomere II with single ventral pore (LA c). In all Lycoperdininae larvae studied palpomere I fused with palpomere II, thus forming single-jointed palps; it can be proved by the position of LA 3 and LA b–c ( Figs 30–33 View Figs 29–33 ). In paper of Tomaszewska [2005] “palpomere I” of Aphorista Gorham, 1843 , Amphisternus , Corynomalus Chevrolat, 1836 , Lycoperdina and Mycetina Mulsant, 1846 larvae is figured bearing LA 1, LA 2 or both of them, but actually it is no more than palpifer to which these setae may be shifted occasionally in case of prementum size reduction.

So, within Endomychidae , two-jointed labial palps are characteristic for Endomychinae (incl. Stenotarsinae ), Leiestinae , Merophysiinae , Pleganophorinae and Xenomycetinae [ Sasaji, 1978; Tomaszewska, Zaitsev, 2012; Burakowski, Ślipiński, 2000; Silvestri, 1912; Kemner, 1924; Johnson, 1986; Tomaszewska, 2004] and single-jointed labial palps are typical for Lycoperdininae as well as Epipocinae [ McHugh, Pakaluk, 1997].

Because of the high morphological diversity of larval Lycoperdininae , no characters have been proposed so far that unite them [ Burakowski, Ślipiński, 2000; Tomaszewska, 2005], so the presence of single-jointed labial palps in all studied representatives of this subfamily could become such feature. Moreover, as this character is also typical for Epipocinae , and high degree of similarity between larvae of these subfamilies have been observed earlier [ Tomaszewska, 2005], it could serve as the reliable synapomorphy of this group.

Acknowledgements. The author is greatly indebted to Dr. K.V. Makarov (MPGU, Russia) for the permission of using the photo of L. smirnoviorum adult and valuable suggestions during the study, Dr. H. Yoshitomi (Ehime University, Japan) for sending hard-to-find papers and A.V. Petrov (IFS RAS, Russia) for providing with Corynomalus larvae. Special thanks to the administration and staff of the Land of the Leopard National park ( Russia, Primorsky Krai) for the opportunity to conduct the research.