2urn:lsid:arphahub.com:pub:45048D35-BB1D-5CE8-9668-537E44BD4C7Eurn:lsid:zoobank.org:pub:91BD42D4-90F1-4B45-9350-EEF175B1727AZooKeysZK1313-29891313-2970Pensoft Publishers10.3897/zookeys.711.2012120121Research ArticleTrichopteraBiogeographySystematicsCenozoicEuropeThe larva of AdicellasyriacaUlmer 1907, including a key to the European larvae of Adicella McLachlan, 1877 (Trichoptera, Leptoceridae)WaringerJohannjohann.waringer@univie.ac.athttps://orcid.org/0000-0002-0114-16361MalickyHans2GrafWolfram3VitecekSimonhttps://orcid.org/0000-0002-7637-563X14Department of Limnology and Bio-Oceanography, University of Vienna, Althanstrasse 14, A-1090 Vienna, AustriaUniversity of ViennaViennaAustriaSonnengasse 13, A- 3293 Lunz am See, AustriaUnaffiliatedLunz am SeeAustriaInstitute of Hydrobiology and Aquatic Ecology Management, University of Natural Resources, Gregor Mendelstr. 33, A-1180 Vienna, AustriaUniversity of Natural ResourcesViennaAustriaSenckenberg Research Institute and Natural History Museum, Senckenberganlage 25, 60325 Frankfurt am Main, GermanySenckenberg Research Institute and Natural History MuseumFrankfurt am MainGermany
Corresponding author: Johann Waringer (johann.waringer@univie.ac.at)
Academic editor: R. Holzenthal
201723102017711131140FFEDFFEF-3855-FFA5-4254-FFDC6D40E608AB590BED-71B3-4B2C-9445-D53A8CC278D911500260808201726092017Johann Waringer, Hans Malicky, Wolfram Graf, Simon VitecekThis is an open access article distributed under the terms of the Creative Commons Attribution License (CC BY 4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.http://zoobank.org/AB590BED-71B3-4B2C-9445-D53A8CC278D9
Adicellasyriaca is a leptocerid caddisfly distributed throughout the Balkan Peninsula, the Carpathians, the Hungarian Lowlands, the Pontic Province, and the Caucasus. This paper describes the previously unknown larva of this species, based on material from the Greek island of Corfu. Information on the morphology of the fifth larval instar is given, and the most important diagnostic features are illustrated. A key to the known larvae of the European species of Adicella McLachlan, 1877 is provided. In the context of existing identification keys, the larva of Adicellasyriaca Ulmer, 1907 keys together with Adicellacremisa Malicky, 1972, but the species pair can be easily separated by the number of setae on the pro- and mesonotum, and setation patterns on abdominal dorsum IX.
Waringer J, Malicky H, Graf W, Vitecek S (2017) The larva of Adicella syriacaUlmer 1907, including a key to the European larvae of Adicella McLachlan, 1877 (Trichoptera: Leptoceridae). ZooKeys 711: 131–140. https://doi.org/10.3897/zookeys.711.20121
Introduction
Eleven species of Adicella McLachlan, 1877 are currently known in Europe (Graf et al. 2008; Malicky 2004, 2005a). However, with respect to larval taxonomy, descriptions for only four species were uncovered: Adicellameridionalis Morton, 1906 (Vieira-Lanero et al. 1997, Vieira-Lanero 2000), A.filicornis (Pictet, 1834), A.reducta (McLachlan, 1865) (Wallace et al. 2003, Waringer and Graf 2011) and A.cremisa Malicky, 1972 (Graf et al., submitted). However, of the remaining seven species where larvae are unknown, Malicky collected larvae of A.syriaca on the Greek island of Corfu. Adicellasyriaca was described by Ulmer, 1907, based on material from Lebanon (Morse 2017); the species is rather widely distributed throughout Europe, ranging from the Balkans through the Carpathians and Hungarian Lowlands to the Caucasus (Ćukušić et al. 2017; Graf et al. 2008; Ibrahimi et al. 2012; Morse 2017; Živić et al. 2006). With our description of its larva and the key, proposed here, the identification of five out of eleven European Adicella species is now possible, without an adult male specimen as frequently required in caddisfly studies.
Materials and methods
Two final instar larvae and many adults of Adicellasyriaca were collected by Malicky at Mesaria on the island of Corfu, Greece (39°44'N, 19°44'E, 40 m a.s.l.) on 1 May 1979. Larval caddisflies were picked from the mineral substrate with forceps, and adults were collected using light traps. The material was preserved in 70% ethanol. The larvae were studied and photographed using a Nikon SMZ 1500 binocular microscope with DS-Fi1 camera and NIS-elements D 3.1 image stacking software for combining 8–45 frames in one focused image. Larval morphological features are named following Wiggins (1998) and Waringer and Graf (2011), nomenclature of primary setae and setal areas (= sa) follows Wiggins (1998). Species association was enabled by the fact that final instar larvae and adults were collected at the same location; in addition, the other four Leptoceridae species known from Corfu are well known in the larval stage (Leptocerusinterruptus (Fabricius, 1775), L.tineiformis Curtis, 1834, Mystacidesazurea (Linnaeus, 1761): Wallace et al. 2003; Waringer and Graf 2011); Triaenodesochreelluslefkas Malicky, 1974: Corallini Sorcetti and Moretti 1984; Vieira-Lanero (2000)). Although the location was repeatedly sampled, A.syriaca was the only Adicella species on this island. Final instar larvae and adults of Adicellasyriaca used for the descriptions are deposited in the collection of Hans Malicky (Lunz am See, Austria). Comparative larval material of Adicellacremisa, A.filicornis and A.reducta is deposited in the collections of W. Graf and J. Waringer (Vienna, Austria). The larval material is intended to be subsequently transferred to Austrian Museum collections.
ResultsDescription of the fifth instar larva of AdicellasyriacaAnimaliaTrichopteraLeptoceridae94D05208-DD9E-5581-91F0-20CC24530081AdicellasyriacaUlmer, 1907Diagnosis.
Head with pattern composed of dark bands and dark muscle attachment spots; case with spiral pattern, constructed of plant material; metanotal sa3 reduced to a single seta per side; pronotum with 56–65 setae of varying length per pronotal half; total number of setae per mesonotal sclerite 11–13; outermost seta of abdominal dorsum IX setal group approximately as long as width of this segment.
Biometry.
Body length ranging from 6.8 to 7.7 mm, head width from 0.58 to 0.60 mm (n = 2).
Head.
Head capsule surface smooth, with very shallow wrinkles, elongated and hypognathous. Base coloration pale yellow, with dark, reddish brown, oval muscle attachment spots on lateral and postero-ventral sections of parietalia. Frontoclypeus and parietal bands along frontoclypeal and coronal sutures dark reddish brown (Figs 1–3). White ring present around eyes (Fig. 3). Complete set of primary setae present (Figs 1–3). Frontoclypeus elongated, narrow, without central constriction (Fig. 1). Subocular ecdysial line running from foramen occipitale to ventro-lateral section of parietalia. Anteriorly of the eyes the subocular ecdysial line bends dorsally, eventually meeting frontoclypeal suture in a straight line (Fig. 3, arrow). Antennae slender, approximately six times longer than their basal width, situated at extreme anterior end of parietalia and originating from a socket-like ridge; antennal apex with single seta (Fig. 1a). Labrum light brown, quadrangular, with anterior median notch, ventral brush and six pairs of primary setae (Fig. 1). Ventral apotome medium brown, with darker brown anterior border, elongated quadrangular, with irregular lateral and posterior sides (Fig. 2). Mandibles black, each with ventral and dorsal cutting edge and terminal teeth along edge (Fig. 2).
Thorax.
Pronotum yellowish brown, with dark brown roundish muscle attachment spots (Fig. 3); with continuous row of widely-spaced, straight, black setae along anterior border; pronotal surface densely covered by 56–65 black setae of varying length per pronotal half (Fig. 3). Pleural sclerites irregular, elongated, pale, with black ventral margins; anteriorly, with brownish, finger-like protrochantin with blunt tip bearing one dark terminal seta (Fig. 3). Prosternal horn absent.
Mesonotum covered by two sclerites, each posterior half with large, semicircular central constriction; sclerites pale yellow, with distinct markings and muscle attachment spots along anterior margin and at center (Fig. 4). Total number of setae of varying lengths per mesonotal sclerite is 11–13 (sa1 without setae, each sa2 with 3 setae, each sa3 with 8–10 setae; Fig. 4). Mesopleurites pale, with narrow, blackish central bar (Fig. 3). Mesoventer without setae.
Metanotum without sclerotization except pleural sclerites; metanotal sa1 without setae, each sa2 with 1 seta each, sa3 reduced to a single seta per side (Fig. 5, arrows). Metaventer with a row of 4–5 setae per side (Fig. 11). Pleural sclerite arrangement as on mesonotum.
Legs orange-yellow, with very numerous setae, especially on coxae, trochanters, and femora (Figs 6–8); tibiae and tarsi undivided and without central constrictions. Femur of foreleg much wider than those of mid- and hind legs. Claw of mid leg curved and not hook-shaped as in genus Leptocerus (Fig. 7, arrow). Long fringes of swimming setae absent on hind legs.
AdicellasyriacaUlmer 1907, final instar larva. 1 Head, dorsal view (a= antenna; arrow= subocular ecdysial line) 2 Head, ventral view 3 Head and pronotum, right lateral view (arrow= subocular ecdysial line) 4 Mesonotum, dorsal view (sa2, sa3= setal areas 2 and 3) 5 Metathorax and abdominal segments I and II, dorsal (arrows = single seta of sa3) 6 Right foreleg, posterior face. Scale bars: 0.5 mm.
https://binary.pensoft.net/fig/163975Abdomen.
Abdomen white, cylindrical. First abdominal segment with one dorsal and two lateral protuberances (Fig. 9); dorsal sa1 and sa3 not developed, dorsal sa2 with single seta on each side (Fig. 5); oval and light orange lateral sclerite with strongly sclerotized, dark, curved and sickle-shaped posterior process; lateral sclerite with 1 ventral seta (Figs 9, 10). Abdominal tergum IX with pale, weakly sclerotized tergite, bearing 6 long and 4 short terminal setae; abdominal segment IX with 1 posterodorsal seta on either side (Fig. 12). Outermost seta on abdominal dorsum IX approximately as long as width of segment IX (Fig. 12, arrows). Anal prolegs pale and weakly sclerotized, each with large lateral sclerite and more strongly sclerotized anal claw with two tiny accessory hooks (Fig. 13). Each lateral sclerite bearing several long, black setae (Figs 13, 14). Each anal proleg medially with small group of pale, soft ventral setae (Fig. 13vs); tooth-edged plates around anal slit absent (Fig. 14). Gills and lateral line not visible; however, a lateral row of forked lamellae is present on abdominal segment VIII (Fig. 13fl).
AdicellasyriacaUlmer 1907, final instar larva. 7 Right midleg, posterior face (arrow: tarsal claw not hook-shaped) 8 Right hind leg, posterior face 9 Abdominal segments I and II, right lateral (a= lateral sclerite; b= lateral setae) 10 Lateral sclerite, detail 11 Sterna of metathorax and abdominal segments I and II 12 Tip of abdomen, dorsal (arrows= outermost setae of ninth abdominal tergite). Scale bars: 0.5 mm.
https://binary.pensoft.net/fig/163976Case.
In the final instar larvae, straight, cylindrical, tapering, constructed of equally sized pieces of thin plant stems and roots arranged in a typical single spiral (Fig. 15). Case length 12.2–13.9 mm, anterior width 1.9–2.2 mm, posterior width 1.0–1.2 mm (n= 2).
Morphological separation of fifth instar larvae of Adicellasyriaca from other European species of Leptoceridae and Adicella
A summary of morphological features for the identification of Leptoceridae larvae was provided by Wallace et al. (2003) and of Triaenodini larvae by Morse (1981). Within the framework of available leptocerid keys by Waringer and Graf (2011) and Graf et al. (2017), and the descriptions of Vieira-Lanero et al. (1997), Vieira-Lanero (2000), and Graf et al. (2017), A.syriaca is characterised by the following features:
– head with pattern composed of dark bands and dark muscle attachment spots (Figs 1, 3);
– metanotal sa3 reduced to a single seta per side (Fig. 5, arrows);
– pronotum with 56–65 setae of varying length per pronotal half (Fig. 3);
– total number of setae per mesonotal sclerite 11–13 (Fig. 4);
– lateral sclerites on 1st abdominal segment each with dark stripe, bent (Figs 10, 18) and not straight (Fig. 17);
– outermost seta of abdominal dorsum IX setal group (Fig. 12, arrow) approximately as long as width of this segment.
13–15Adicellasyriaca Ulmer, 1907, final instar larva: 13 Tip of abdomen, right lateral (fl= forked lamellae on segment VIII; vs= ventral setae on segment IX) 14 Tip of abdomen, ventral 15 Larval case, right lateral 16 Final instar larvae in their cases. aAdicellafilicornis (Pictet, 1834) bAdicellareducta (McLachlan, 1865) 17–18 Lateral sclerites on abdominal segment I of fifth instar larvae, right lateral view: 17Adicellareducta (McLachlan, 1865) 18Adicellacremisa Malicky, 1972 19Adicellafilicornis (Pictet, 1834), final instar larva. Tip of abdomen, dorsal. Scale bars: 0.5 mm (except Figs 15, 17: 1 mm).
https://binary.pensoft.net/fig/163977Key to the known final instar Adicella larvae of Europe
1
Head uniformly orange, without pattern; case cylindrical, smooth, constructed of mineral particles (Fig. 16a)
2
–
Head pale, with pattern composed of dark bands and dark muscle attachment spots; case with spiral pattern, constructed of plant material (Figs 1, 16b)
3
2
Abdominal dorsum IX (including both posterolateral setae) with 12 setae; species endemic to Iberic-Macaronesian Region (European Ecoregion I)
Adicellameridionalis Morton, 1906
–
Abdominal dorsum IX (including both posterolateral setae) with 14–15 setae (Fig. 19); species widespread outside of European Ecoregion I
Adicellafilicornis (Pictet, 1834)
3
Metanotal sa3 with 13–18 setae per side (Fig. 20)
Adicellareducta (McLachlan, 1865)
–
Metanotal sa3 reduced to a single seta per side (Fig. 5, arrows)
4
4
Pronotum with 56–65 setae of varying length per pronotal half (Fig. 3); total number of setae per mesonotal sclerite is 11–13 (Fig. 4); outermost seta of abdominal dorsum IX setal group (Fig. 12, arrow) approximately as long as width of this segment
Adicellasyriaca Ulmer, 1907
–
Pronotum with 35–37 setae of varying length per pronotal half; total number of setae per mesonotal sclerite is 7–8; outermost seta on abdominal dorsum IX approximately half as long as width of this segment (Fig. 21)
20Adicellareducta (McLachlan, 1865), final instar larva. Metanotum, dorsal view (sa3 = setal area 3) 21Adicellacremisa Malicky, 1972, final instar larva. Tip of abdomen, dorsal (four setae are missing and only their alveolae visible). Scale bars: 0.5 mm.
https://binary.pensoft.net/fig/163978Discussion
The larvae of Adicella species frequent a large range of habitats, including small shallow springs, rocky streams, marshes, canals and rivers, and often colonize root mats of riparian vegetation, with A.reducta remaining the only leptocerid caddisfly to persevere in large impoverished streams (Wallace et al. 2003). Cianficconi and Moretti (1987) also collected larvae of A.cremisa in standing water bodies and irrigated meadows. On Corfu, A.syriaca is most common relatively close to the shore (Malicky 2005b) where it inhabits streams and rivulets, and also mill brooks, shaded by Nereumoleander, Arundodonax, Platanusorientalis, Ficuscarnica, and Inulaviscosa. According to mandible morphology, Adicella larvae are shredders and, to a minor extent, also grazers (Graf et al. 2008); this also fully applies to A.syriaca where mandibles are fitted with ventral and dorsal cutting edges and terminal teeth along edges (Fig. 2).
The distribution of Adicellasyriaca ranges from Tunisia, the Levant, and Turkey, throughout the Balkan Peninsula to Hungary and the Caucasus (Graf et al. 2008; Malicky, 2004, 2005a, b, 2014; Morse 2017). In Greece, A.syriaca is widespread on the mainland, but also on many islands, e.g., Euboea, Corfu, Lefkada, Kefallonia, Samothraki, Skiathos, Samos, Lesbos, Andros, and Rhodes (Malicky, 2005b).
The collection time of final instar larvae of A.syriaca in May fits well into the reported flight period of adults from the onset of April to mid-November. Within this period, a peak in May-June and in October can be observed which might be an indication of two generation cycles per year (Malicky 2005b). In A.cremisa, Graf et al. (2017) observed adults flying amongst dense riparian vegetation in vertical zig-zag patterns of about 10 cm extent; the long whitish antennae obviously played a role as an optical cue in courtship behavior in this species.
Acknowledgements
We are grateful to Ralph Holzenthal, Marcos A. Gonzalez, and Halil Ibrahimi for their helpful comments on this manuscript.
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