Austroconops Wirth and Lee

Austroconops Wirth and Lee Austroconops Wirth and Lee, 1958: 337. Type species: Austroconops mcmillani Wirth and Lee, by original designation. DIAGNOSIS: Male. The only extant or fossil Ceratopogonidae with flagellomere 13 (fig. 1A, B) with a subbasal constriction, with two well­developed radial cel...

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Main Authors: BORKENT, ART, CRAIG, DOUGLAS A.
Format: Text
Language:unknown
Published: Zenodo 2004
Subjects:
Biodiversity
Taxonomy
Animalia
Arthropoda
Insecta
Diptera
Ceratopogonidae
Austroconops
Combs
Mullen
Seta
Taimyr
Siberia
Online Access:https://dx.doi.org/10.5281/zenodo.5060648
https://zenodo.org/record/5060648
id ftdatacite:10.5281/zenodo.5060648
record_format openpolar
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language unknown
topic Biodiversity
Taxonomy
Animalia
Arthropoda
Insecta
Diptera
Ceratopogonidae
Austroconops
spellingShingle Biodiversity
Taxonomy
Animalia
Arthropoda
Insecta
Diptera
Ceratopogonidae
Austroconops
BORKENT, ART
CRAIG, DOUGLAS A.
Austroconops Wirth and Lee
topic_facet Biodiversity
Taxonomy
Animalia
Arthropoda
Insecta
Diptera
Ceratopogonidae
Austroconops
description Austroconops Wirth and Lee Austroconops Wirth and Lee, 1958: 337. Type species: Austroconops mcmillani Wirth and Lee, by original designation. DIAGNOSIS: Male. The only extant or fossil Ceratopogonidae with flagellomere 13 (fig. 1A, B) with a subbasal constriction, with two well­developed radial cells, and r­m parallel to R 1 (fig. 1K). Female. The only extant or fossil Ceratopogonidae with two well­developed, clearly open, radial cells and r­m parallel to R 1 (fig. 1L). Egg. Only Ceratopogonidae with egg (fig. 2A) markedly elongate and remaining pale throughout larval development. Larva (all instars). The only Ceratopogonidae with markedly elongate antenna bearing an elongate blade and a prognathous head (figs. 2H, 3C, 12A, B). Pupa. The only Ceratopogonidae with the hindleg sheath not exposed from under lateral margin of wing sheath and with abdominal segments 2–8 with bifurcate setae (fig. 4A). DESCRIPTION: Live adults of both sexes. With subcutaneous blue­green tissue (likely fat body) externally evident in all areas (head, thorax, abdomen) with membrane or thin cuticle (including tip of halter). Wings completely overlapping at rest. Male with permanently erect antennal setae. Male adult. Head : Ommatidia narrowly separated dorsomedially, with single vertex seta. Antenna (fig. 1A, B) with well­developed plume of permanently erect setae, 13 separate flagellomeres, flagellomeres 12–13 more elongate than preceding flagellomeres, flagello­ mere 12 with or without subbasal constriction, flagellomere 13 with subbasal constriction, flagellomere 1 with two patches of short sensilla trichodea, without sensilla coeloconica. Mouthparts moderately short to moderately long. Mandible elongate (ending near apex of labrum), with several slender terminal spicules. Lacinia elongate, simple. Palpus (fig. 1C, D) with 4–5 segments, segment 3 ovoid to elongate, slender, with capitate sensilla scattered on mesal surface or perhaps in pit, at least extant species with membranous area between segment 3 and 4 + 5. Thorax : With three anterior pronotal apodemes. Scutum with scattered elongate setae. Scutellum rounded or angular in dorsal view. Anapleural suture elongate. Wing (fig. 1K): Without macrotrichia, fine microtrichia present on all membrane. Alula with fringe of macrotrichia. Costa extending to or beyond apex of R 3. Both radial cells present. r­m parallel to R 1. M bifurcating distal to r­m. Legs : Femora, tibiae slender. Legs lacking armature, except in some species with stout setae on some or all of first tarsomeres, some with pair of thick setae on apex of tarsomeres 1–4. Tarsal ratio (Ta 1 /Ta 2) of foreleg/hindleg = 1.4–1.9. Fore­ and midleg trochanter without pair of thick setae. Midleg tibia with or without apical spur. Hindtibia apex with two rows of spines. Hindleg first tarsomere with or without thick basal spine, with scattered setae (fig. 1M, N). Claws on fore­, mid­, hindleg equal in size, both equal on each leg, each claw simple or toothed, apically bifid (possibly simple in Lebanese amber fossils). Slender empodium. Genitalia : Apicolateral process absent to well developed. Gonocoxite short to moderately elongate. Gonostylus variable, apical spine present or absent. Parameres fused medially (known only in extant species). Aedeagus short, setose lobe with ventral plate (known only in extant species). Female adult. Head : Ommatidia narrowly separated dorsomedially, with single vertex seta. Antenna with 13 separate flagellomeres, flagellomeres gradually increasing in length from flagellomeres 2–13 or with flagellomeres 9–13 more elongate than preceding flagellomeres, flagellomere 1 with two groups of short sensilla trichodea, without sensilla coeloconica. Mouthparts moderately elongate, further details not visible in fossils. Mandible (fig. 1G, H) and laciniae with fine teeth in extant species. Palpus (fig. 1E, F, 23D) with 4–5 segments, segment 3 ovoid to elongate, with capitate sensilla scattered on mesal surface, at least extant species with membranous area between segments 3 and 4 + 5. Thorax : With three anterior pronotal apodemes (known only in extant species). Scutum with scattered elongate setae. Scutellum angular in dorsal view. Anapleural suture elongate. Wing (fig. 1L): Without macrotrichia, fine microtrichia present on all membrane. Alula with or without fringe of macrotrichia. Costa extending to or beyond apex of R 3. Both radial cells present. M bifurcating distal to r­m. r­m parallel to R 1. Legs : Femora, tibiae slender. Legs lacking armature except in some with pair of stout setae on apex of tarsomeres 1–4 of all legs. TR of foreleg/hindleg = 1.7–2.2. Fore­ and midleg trochanter without pair of thick setae. Midleg tibia with or without apical spur. Hindtibia apex with two rows of spines. Hindleg first tarsomere with or without thick basal spine, with scattered slender or stout setae. Claws on fore­, mid­, hindleg equal in size, both equal on each leg, each claw simple or toothed (fig. 1I, J). Empodium slender. Genitalia : Two large, one markedly smaller spermathecae. Sternite 9 continuous medially. Segment 10 with pair of setae. Cerci short to moderately elongate. Egg (fig. 2A): Very light yellowish brown, appearing nearly white during development of larva. Elongate and slender. With 9–10 longitudinal rows of short, minute tubercles, each tubercle slender at base, expanded distally (fig. 2B). Anterior end more rounded than posterior end. Eggshell opening a single dorsal slit along most of length. All larval instars : Head capsule (figs. 2H, K, 3A, C, G, 7A, B, 8A, B, 12A, B, 13A, B): Nearly square in dorsoventrally viewed outline; light brown, with only pigmentation present: dark epipharyngeal bar, premandible, apex of mandible; eye in later instars (some seconds, all thirds, fourths) a single, roughly circular to oval spot. Ecdysial suture extended anteriorly slightly beyond level of sensillum s, possibly longer but difficult to discern; area of thinner cuticle broad in area of sensilla j (anterior one), p, r. Ventral suture not present. Setae all simple (not bifurcate), arrangement as in figures 2H, K, 3C, G, 7A, B, 8A, 12A, B, 13A, B; following sensilla present: x (both setae present), t (or possibly an anteriorly placed q), s, p (two long setae, posterior one expanded distally), r (a short peg), j (anterior one a short peg on head capsule; other a more elongate seta on anterior margin of cervix), o (both an equally long seta), w, u, m, v, and y. Antenna (figs. 9A, B, 14A, B) elongate, with three segments; with well developed, short, basal segment, segments 2–3 short, slender, segment 3 tapering to slender, elongate apex; first segment otherwise bearing greatly elongate, multiporous blade and five other sensilla: accessory blade, sensilla 1–4; sensillum 1 long, slender, with apical pit with small peg; sensillum 2 moderately elongate; sensillum 3 short, bilobed; sensillum 4 moderately elongate, with pores. Labrum (figs. 3A, 15A, B, 17C, 19) wide, with well developed torma, with well developed, dark, articulating, apically bent premandible; torma abutting lateral margin of stout, black, transverse epipharyngeal bar; epipharyngeal bar forming large, ventrally directed, internal, median lobe, posterodorsally directed bilobed apodeme and lateral apodeme abutting torma; labrum with 10 sensilla: sensilla 1–4 an anterodorsal group, with sensillum 1 a peg in pit, sensillum 2 a styloconicum on cuticular projection, sensilla 3, 4 lobe­shaped with 4 longer than 3, sensillum 5 an elongate seta, sensilla 6, 7 basally stout basiconica, sensilla 8, 9 laterally placed, sensillum 8 short seta, sensillum 9 a short peg, sensillum 10 a stout seta; ventral margin with well developed scopae, 18–21 more­or­less uniform teeth (three lateral teeth more stout) in undivided row. Mandible (figs. 2I, 3E, 10A) curved, apical half tapering to sharp, darkly pigmented, point, with dorsal and ventral grooves; with large to very small lobe (not visible in some specimens) on inner surface; with subbasal seta and minute peg in pit on outer margin; with well developed apodeme attached to dorsal margin of mandible, extending into posterior half of head capsule. Maxilla (figs. 10B, 16B, 17D) well developed, wide; palpus elongate; large lobelike, apically tapering plate dorsal to base of palpus; with posteromedial elongate seta; palpus with 4 apical or subapical sensilla, two lateral sensilla each with elongate slender nib; group of 7 thick sensilla lateral to palpus: sensillum 1 extending to about half length of palpus; sensillum 2 with rounded apex; sensillum 3 short, arising near base of sensillum 4; sensillum 4 with elongate apical nib; sensillum 5 on elongate cuticular extension; sensillum 6 with rounded apex, ribbed; sensillum 7 with rounded apex; lateral seta elongate. Pharyngeal complex (figs. 2J, 3F) well developed, epipharynx with two lateral arms, apparently lacking combs (present but difficult to discern in some other Ceratopogonidae). Hypopharynx with lateral arms articulating with lateral apices of lateral arms of epipharynx. Thorax, abdomen: Cuticle unpigmented, transparent, thin. Prothorax secondarily divided, with well developed cervix; with elongate proleg (figs. 2C–G, 4B, 7B, 12B, 17A, 18), with apical hooks, 5–6 (per half) anterior terminal hooks elongate, posterior hooks short; proleg capable in life of being withdrawn into prothorax (posterior to cervix). Segment nine (figs. 3B, H, 11A, B) with well­separated (with bases not closely ap­ proximated) setae: dorsal setae o, i, l 1, d, l 2, l 3, l 4, ventral setae i, o, l 1, l 2, v; posterior proleg (figs. 2C–G, 3B, 11A, B, 17B) a single posterior structure with about 15–20 well developed hooks, dorsal hooks with broader bases than ventral, more slender hooks; ventral hooks with spicules; proleg capable of being extruded or withdrawn into body cavity. Four anal papillae, each apically bifur­ cate. Midgut white, with annulations (obscured by fat body in some third­ and fourthinstar larvae); anterior margin situated at midlength of fourth true abdominal segment (at anterior margin of apparent segment 8 in larvae with secondarily divided segments). With two Malpighian tubules. First­instar larva : Head capsule (figs. 7A, B, 8A): With dorsal, darkly pigmented egg burster (figs. 2H, 7A, B, 8B). Without eyespot. Mandible (fig. 2I) with large triangular tooth on inner margin (not evident in some specimens). Hypostoma lacking teeth (figs. 2K, 8A) Abdomen : With or without segments 1–8 secondarily divided (so abdomen appears to have either 9 or 17 segments) (fig. 2C, D). Abdominal segment 9 (fig. 11A, B) with at least dorsal setae o, i, d, l 1, 1 2, 1 3, ventral setae o, i present; others not visible but may be present; dorsal seta o notably thicker, longer than other setae on segment. Hemolymph unpigmented. Second­instar larva : Head capsule : With or without eyespot. Mandible likely (not clearly visible) with moderately sized triangular tooth on inner margin. Hypostoma with well developed row of teeth. Abdomen : With segments 1–8 secondarily divided (so abdomen appears to have 17 segments) (fig. 2E). Abdominal segment 9 with uncertain number of setae; dorsal seta o at least slightly thicker than other setae on segment. Hemolymph unpigmented or very pale pink. Third­instar larva: Head capsule : With eyespot. Mandible with small bump on inner margin. Hypostoma (fig. 19) with well developed row of teeth, central tooth largest. Abdomen : With segments 1–8 secondarily divided (so abdomen appears to have 17 segments) (fig. 2F). Abdominal segment 9 with 7 dorsal, 5 ventral setae distributed as in figures 3H, 17B; dorsal seta o at least slightly thicker than other setae on segment. Hemolymph unpigmented or pink. Some fat body visible in more mature larvae. Fourth­instar larva : Head capsule : With eyespot. Mandible (fig. 3E) with small bump on inner margin. Hypostoma (figs. 3G, 16A) with well developed row of teeth, central tooth largest. Abdomen : With segments 1–8 secondarily divided (so abdomen appears to have 17 segments) (fig. 2G). Abdominal segment 9 with 7 dorsal, 5 ventral setae distributed as in figures 3H, 17B; dorsal seta o equal in diameter to other long setae on segment. Hemolymph pink or reddish. Fat body present. Pupa : Only pupa known is of A. mcmillani , described below. DISTRIBUTION AND BIONOMICS The only two extant species are restricted to southwestern Australia (fig. 22B), but Cretaceous fossils are known from France, Spain, Siberia, Lebanon, and Myanmar (Borkent, 2000a; Szadziewski, in press; Szadziewski and Arillo, 2001), proving that the genus was once much more broadly distributed. The only species in which females have been observed to bite are those of A. mcmillani , which feed on kangaroos and humans. However, the finely serrate mandible and retrorse lacinial teeth of the adult females of A. annettae strongly indicate that these too feed on vertebrates (Borkent, 1995: 129– 132). The morphology of the claws of the female of A. annettae additionally may indicate that these feed on birds (see discussion below under that species). The mouthparts of fossil Austroconops are not visible (Borkent, 2000a), and therefore it is uncertain what they fed upon. The presence, however, of vertebrate blood­feeding in A. mcmillani and the phylogenetic position of the genus as an early lineage within the family where vertebrate blood­feeding is plesiotypic strongly suggest that all extinct species fed on vertebrates (Borkent, 1995, 2000a). Details of male swarming in A. mcmillani are given below. First­instar larvae of A. annettae and A. mcmillani were both successfully reared to fourth­instar larvae (and A. mcmillani to the pupal stage) in very wet soil, with regular (generally every second day) additions of nematodes and a fecal infusion. All instars of the aquatic larvae were clearly attracted to fresh drops of fecal infusion as shown by the concentrations of larvae directly under these drops and they were rarely seen to feed on nematodes. This phenomenon, and the presence of well developed, finely toothed scopae (figs. 3A, 19) suggest that they are likely associated with feces or concentrated decomposing vegetation in nature (producing an abundance of microorganisms). Some second, nearly all third, and all fourth­instar larvae had pink or red hemolymph, indicating the presence of hemoglobin, which additionally suggests that they may be associated with an oxygen deficient wet habitat. Larvae cannot swim but use a combination of their anterior and posterior prolegs and, especially in later instars, a relatively slow serpentine body motion to move through wet substrate. Further details of behavior and habitat are provided below for each species. Borkent et al. (1987) suggested that the blue­green pigmentation of live adult A. mcmillani may have indicated that the then unknown larvae were feeding on algae because this coloration has been observed in some Ceratopogonidae such as some Culicoides species of the schulzei species group and some Dasyhelea Kieffer species which feed on algae as larvae. Our observations here show that the relationship between algal feeding and adult color is not substantiated for at least A. mcmillani as larvae matured to adulthood without feeding on algae. Austroconops annettae was also successfully reared to the fourth­instar without algae. TAXONOMIC DISCUSSION We consider the elongate, pale egg of Austroconops species unique within the family. Eggs laid by other Ceratopogonidae are initially pale but soon turn dark. However, of 103 extant genera, eggs have been described for only 18 genera and of those, 4 genera are known only as eggs described from within the female abdomen (so their final color cannot be determined). We identified the four larval instars of both species based on the following evidence. First­instar larvae are easily identified by their darkly pigmented egg burster (figs. 2H, 7A, B, 8B). Because of the small number of measured second and fourth­instars of reared Austroconops larvae it was initially difficult to identify the instars 2–4. The fourth­instar of A. mcmillani was confidently identified because one of these molted to the pupal stage. Although the head capsule of this individual was not retrieved from the mud and therefore not measured, observations before it pupated showed that it was clearly close to, or within, the range of measurements reported here. Head capsule length increments of all instars followed Dyar’s Law, increasing by a factor of 1.32, 1.31, and 1.34 for A. mcmillani and 1.33, 1.32, and 1.25 for A. annettae . The latter value, the factor of change for third to fourth­instar, may be due to the small sample size of fourth­instar A. annettae or perhaps to less than optimal feeding conditions (and hence smaller individuals). These values are similar to those reported for species of Culicoides , which are about 1.4 (Kettle and Lawson, 1952; Kettle and Elson, 1975). There are significant statistical differences in egg characteristics (table 3) and larval head capsule lengths (table 4) of the different instars between A. mcmillani and A. annettae . Considering, however, that these immatures were obtained from eggs laid by a very few females, and that the larvae were reared under laboratory conditions, the size differences noted here may be artifacts. Otherwise, eggs and larvae of the two species could not be distinguished from one another. Larvae of Austroconops , when compared to other Ceratopogonidae, are missing head capsule sensilla z, k (sensory pit), and q. Also, there are two additional dorsolateral setae on larval abdominal segment 9 (fig. 3H), here labeled as l 3 and l 4, which have not been reported in other Ceratopogonidae. The larval antennal sensilla of Ceratopogonidae have never been described in sufficient detail to determine most homologies within and outside the family. Larvae of Austroconops species have a well­defined basal segment bearing 6 apical sensilla and a further second and third segment (figs. 9A, B, 14A, B, 20A). Based on position, relatively large size, and a uniformly porous surface, the most elongate, porous sensillum is homologous to the ‘‘large lobe’’ present in Culicoides (Murphree and Mullen, 1991) and most other Ceratopogoninae (Borkent and Bissett, 1990; Borkent and Craig, 1999). Based on position and some details of structure, the following sensilla are likely homologous to sensilla in Chironomidae: most elongate, porous sensillum = blade; mesal short sensillum = accessory blade; short bilobed sensillum labeled sensillum 3 here = fused style and peg sensillum. The remaining three short sensilla do not have readily apparent homologies with Chironomidae; they are labeled here as sensilla 1, 2, and 4. Sensillum 1 has an open apex bearing a tiny peg. Sensillum 4 has a porous surface. The labrum of Austroconops shows a number of similarities to other Ceratopogonidae. Sensilla 1–4 are clearly pre : Published as part of BORKENT, ART & CRAIG, DOUGLAS A., 2004, Austroconops Wirth and Lee, a Lower Cretaceous Genus of Biting Midges Yet Living in Western Australia: a New Species, First Description of the Immatures and Discussion of Their Biology and Phylogeny (Diptera: Ceratopogonidae), pp. 1-68 in American Museum Novitates 3449 on pages 5-27, DOI: 10.1206/0003-0082(2004)449<0001:AWALAL>2.0.CO;2, http://zenodo.org/record/4712435 : {"references": ["Borkent, A. 2000 a. Biting midges (Ceratopogonidae: Diptera) from Lower Cretaceous Lebanese amber with a discussion of the diversity and patterns found in other ambers. In D. Grimaldi (editor), Studies on fossils in amber, with particular reference to the Cretaceous of New Jersey, pp. 355 - 452. Leiden: Backhuys.", "Borkent, A. 1995. Biting midges in the Cretaceous amber of North America (Diptera: Ceratopogonidae). Leiden: Backhuys, 237 pp.", "Borkent, A., W. W. Wirth, and A. L. Dyce. 1987. The newly discovered male of Austroconops (Ceratopogonidae: Diptera) with a discussion of the phylogeny of the basal lineages of the Ceratopogonidae. Proceedings of the Entomological Society of Washington 89: 587 - 606.", "Kettle, D. S., and J. W. H. Lawson. 1952. The early stages of British biting midges Culicoides Latreille (Diptera: Ceratopogonidae) and allied genera. Bulletin of Entomological Research 43: 421 - 467, pls. 14 - 19.", "Kettle, D. S., and M. M. Elson. 1975. The undescribed male and immature stages of Culicoides interrogatus Lee and Reye. Journal of the Australian Entomological Society 14: 23 - 29.", "Murphree, C. S., and G. R. Mullen. 1991. Comparative larval morphology of the genus Culicoides Latreille (Diptera: Ceratopogonidae) in North America with a key to species. Bulletin of the Society of Vector Ecology 16: 269 - 399.", "Borkent, A., and B. Bissett. 1990. A revision of the Holarctic species of Serromyia Meigen (Diptera: Ceratopogonidae). Systematic Entomology 15: 153 - 217.", "Borkent, A., and D. A. Craig. 1999. A revision of the Neotropical genus Baeodasymyia Clastrier and Raccurt (Diptera: Ceratopogonidae) with a discussion of their phylogenetic relationships. American Museum Novitates 3274: 1 - 26.", "Hribar, L. J., and G. R. Mullen. 1991. Comparative morphology of the mouthparts and associated feeding structures of biting midge larvae (Diptera: Ceratopogonidae). Contributions of the American Entomological Institute 26 (3): 3 - 71.", "Szadziewski, R. 1996. Biting midges from Lower Cretaceous amber of Lebanon and Upper Cretaceous Siberian amber of Taimyr (Diptera, Ceratopogonidae). Studia Dipterologica 3: 23 - 86.", "Szadziewski, R. 2000. Biting midges (Diptera: Ceratopogonidae) from the Lower Cretaceous amber of Jordan. Polskie Pismo Entomologiczne 69: 251 - 256."]}
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author BORKENT, ART
CRAIG, DOUGLAS A.
author_facet BORKENT, ART
CRAIG, DOUGLAS A.
author_sort BORKENT, ART
title Austroconops Wirth and Lee
title_short Austroconops Wirth and Lee
title_full Austroconops Wirth and Lee
title_fullStr Austroconops Wirth and Lee
title_full_unstemmed Austroconops Wirth and Lee
title_sort austroconops wirth and lee
publisher Zenodo
publishDate 2004
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long_lat ENVELOPE(-79.150,-79.150,-73.483,-73.483)
ENVELOPE(-84.600,-84.600,-78.800,-78.800)
ENVELOPE(9.895,9.895,63.645,63.645)
geographic Combs
Mullen
Seta
geographic_facet Combs
Mullen
Seta
genre Taimyr
Siberia
genre_facet Taimyr
Siberia
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spelling ftdatacite:10.5281/zenodo.5060648 2023-05-15T18:31:18+02:00 Austroconops Wirth and Lee BORKENT, ART CRAIG, DOUGLAS A. 2004 https://dx.doi.org/10.5281/zenodo.5060648 https://zenodo.org/record/5060648 unknown Zenodo http://zenodo.org/record/4712435 http://publication.plazi.org/id/055F9036FFA82174FFDBFFF4FFFD0037 https://zenodo.org/communities/biosyslit https://dx.doi.org/10.1206/0003-0082(2004)449<0001:awalal>2.0.co;2 http://zenodo.org/record/4712435 http://publication.plazi.org/id/055F9036FFA82174FFDBFFF4FFFD0037 https://dx.doi.org/10.5281/zenodo.4712439 https://dx.doi.org/10.5281/zenodo.4712441 https://dx.doi.org/10.5281/zenodo.4712443 https://dx.doi.org/10.5281/zenodo.4712477 https://dx.doi.org/10.5281/zenodo.4712447 https://dx.doi.org/10.5281/zenodo.4712514 https://dx.doi.org/10.5281/zenodo.4712461 https://dx.doi.org/10.5281/zenodo.4712463 https://dx.doi.org/10.5281/zenodo.4712479 https://dx.doi.org/10.5281/zenodo.4712465 https://dx.doi.org/10.5281/zenodo.4712483 https://dx.doi.org/10.5281/zenodo.4712487 https://dx.doi.org/10.5281/zenodo.4712493 https://dx.doi.org/10.5281/zenodo.4712497 https://dx.doi.org/10.5281/zenodo.4712469 https://dx.doi.org/10.5281/zenodo.4712489 https://dx.doi.org/10.5281/zenodo.4712495 https://dx.doi.org/10.5281/zenodo.4712471 https://dx.doi.org/10.5281/zenodo.4712512 https://dx.doi.org/10.5281/zenodo.4712501 https://dx.doi.org/10.5281/zenodo.5060649 https://zenodo.org/communities/biosyslit Open Access Creative Commons Zero v1.0 Universal https://creativecommons.org/publicdomain/zero/1.0/legalcode cc0-1.0 info:eu-repo/semantics/openAccess CC0 Biodiversity Taxonomy Animalia Arthropoda Insecta Diptera Ceratopogonidae Austroconops article-journal ScholarlyArticle Text Taxonomic treatment 2004 ftdatacite https://doi.org/10.5281/zenodo.5060648 https://doi.org/10.1206/0003-0082(2004)449<0001:awalal>2.0.co;2 https://doi.org/10.5281/zenodo.4712439 https://doi.org/10.5281/zenodo.4712441 https://doi.org/10.5281/zenodo.4712443 https://doi.org/10.5281/z 2022-03-10T15:32:16Z Austroconops Wirth and Lee Austroconops Wirth and Lee, 1958: 337. Type species: Austroconops mcmillani Wirth and Lee, by original designation. DIAGNOSIS: Male. The only extant or fossil Ceratopogonidae with flagellomere 13 (fig. 1A, B) with a subbasal constriction, with two well­developed radial cells, and r­m parallel to R 1 (fig. 1K). Female. The only extant or fossil Ceratopogonidae with two well­developed, clearly open, radial cells and r­m parallel to R 1 (fig. 1L). Egg. Only Ceratopogonidae with egg (fig. 2A) markedly elongate and remaining pale throughout larval development. Larva (all instars). The only Ceratopogonidae with markedly elongate antenna bearing an elongate blade and a prognathous head (figs. 2H, 3C, 12A, B). Pupa. The only Ceratopogonidae with the hindleg sheath not exposed from under lateral margin of wing sheath and with abdominal segments 2–8 with bifurcate setae (fig. 4A). DESCRIPTION: Live adults of both sexes. With subcutaneous blue­green tissue (likely fat body) externally evident in all areas (head, thorax, abdomen) with membrane or thin cuticle (including tip of halter). Wings completely overlapping at rest. Male with permanently erect antennal setae. Male adult. Head : Ommatidia narrowly separated dorsomedially, with single vertex seta. Antenna (fig. 1A, B) with well­developed plume of permanently erect setae, 13 separate flagellomeres, flagellomeres 12–13 more elongate than preceding flagellomeres, flagello­ mere 12 with or without subbasal constriction, flagellomere 13 with subbasal constriction, flagellomere 1 with two patches of short sensilla trichodea, without sensilla coeloconica. Mouthparts moderately short to moderately long. Mandible elongate (ending near apex of labrum), with several slender terminal spicules. Lacinia elongate, simple. Palpus (fig. 1C, D) with 4–5 segments, segment 3 ovoid to elongate, slender, with capitate sensilla scattered on mesal surface or perhaps in pit, at least extant species with membranous area between segment 3 and 4 + 5. Thorax : With three anterior pronotal apodemes. Scutum with scattered elongate setae. Scutellum rounded or angular in dorsal view. Anapleural suture elongate. Wing (fig. 1K): Without macrotrichia, fine microtrichia present on all membrane. Alula with fringe of macrotrichia. Costa extending to or beyond apex of R 3. Both radial cells present. r­m parallel to R 1. M bifurcating distal to r­m. Legs : Femora, tibiae slender. Legs lacking armature, except in some species with stout setae on some or all of first tarsomeres, some with pair of thick setae on apex of tarsomeres 1–4. Tarsal ratio (Ta 1 /Ta 2) of foreleg/hindleg = 1.4–1.9. Fore­ and midleg trochanter without pair of thick setae. Midleg tibia with or without apical spur. Hindtibia apex with two rows of spines. Hindleg first tarsomere with or without thick basal spine, with scattered setae (fig. 1M, N). Claws on fore­, mid­, hindleg equal in size, both equal on each leg, each claw simple or toothed, apically bifid (possibly simple in Lebanese amber fossils). Slender empodium. Genitalia : Apicolateral process absent to well developed. Gonocoxite short to moderately elongate. Gonostylus variable, apical spine present or absent. Parameres fused medially (known only in extant species). Aedeagus short, setose lobe with ventral plate (known only in extant species). Female adult. Head : Ommatidia narrowly separated dorsomedially, with single vertex seta. Antenna with 13 separate flagellomeres, flagellomeres gradually increasing in length from flagellomeres 2–13 or with flagellomeres 9–13 more elongate than preceding flagellomeres, flagellomere 1 with two groups of short sensilla trichodea, without sensilla coeloconica. Mouthparts moderately elongate, further details not visible in fossils. Mandible (fig. 1G, H) and laciniae with fine teeth in extant species. Palpus (fig. 1E, F, 23D) with 4–5 segments, segment 3 ovoid to elongate, with capitate sensilla scattered on mesal surface, at least extant species with membranous area between segments 3 and 4 + 5. Thorax : With three anterior pronotal apodemes (known only in extant species). Scutum with scattered elongate setae. Scutellum angular in dorsal view. Anapleural suture elongate. Wing (fig. 1L): Without macrotrichia, fine microtrichia present on all membrane. Alula with or without fringe of macrotrichia. Costa extending to or beyond apex of R 3. Both radial cells present. M bifurcating distal to r­m. r­m parallel to R 1. Legs : Femora, tibiae slender. Legs lacking armature except in some with pair of stout setae on apex of tarsomeres 1–4 of all legs. TR of foreleg/hindleg = 1.7–2.2. Fore­ and midleg trochanter without pair of thick setae. Midleg tibia with or without apical spur. Hindtibia apex with two rows of spines. Hindleg first tarsomere with or without thick basal spine, with scattered slender or stout setae. Claws on fore­, mid­, hindleg equal in size, both equal on each leg, each claw simple or toothed (fig. 1I, J). Empodium slender. Genitalia : Two large, one markedly smaller spermathecae. Sternite 9 continuous medially. Segment 10 with pair of setae. Cerci short to moderately elongate. Egg (fig. 2A): Very light yellowish brown, appearing nearly white during development of larva. Elongate and slender. With 9–10 longitudinal rows of short, minute tubercles, each tubercle slender at base, expanded distally (fig. 2B). Anterior end more rounded than posterior end. Eggshell opening a single dorsal slit along most of length. All larval instars : Head capsule (figs. 2H, K, 3A, C, G, 7A, B, 8A, B, 12A, B, 13A, B): Nearly square in dorsoventrally viewed outline; light brown, with only pigmentation present: dark epipharyngeal bar, premandible, apex of mandible; eye in later instars (some seconds, all thirds, fourths) a single, roughly circular to oval spot. Ecdysial suture extended anteriorly slightly beyond level of sensillum s, possibly longer but difficult to discern; area of thinner cuticle broad in area of sensilla j (anterior one), p, r. Ventral suture not present. Setae all simple (not bifurcate), arrangement as in figures 2H, K, 3C, G, 7A, B, 8A, 12A, B, 13A, B; following sensilla present: x (both setae present), t (or possibly an anteriorly placed q), s, p (two long setae, posterior one expanded distally), r (a short peg), j (anterior one a short peg on head capsule; other a more elongate seta on anterior margin of cervix), o (both an equally long seta), w, u, m, v, and y. Antenna (figs. 9A, B, 14A, B) elongate, with three segments; with well developed, short, basal segment, segments 2–3 short, slender, segment 3 tapering to slender, elongate apex; first segment otherwise bearing greatly elongate, multiporous blade and five other sensilla: accessory blade, sensilla 1–4; sensillum 1 long, slender, with apical pit with small peg; sensillum 2 moderately elongate; sensillum 3 short, bilobed; sensillum 4 moderately elongate, with pores. Labrum (figs. 3A, 15A, B, 17C, 19) wide, with well developed torma, with well developed, dark, articulating, apically bent premandible; torma abutting lateral margin of stout, black, transverse epipharyngeal bar; epipharyngeal bar forming large, ventrally directed, internal, median lobe, posterodorsally directed bilobed apodeme and lateral apodeme abutting torma; labrum with 10 sensilla: sensilla 1–4 an anterodorsal group, with sensillum 1 a peg in pit, sensillum 2 a styloconicum on cuticular projection, sensilla 3, 4 lobe­shaped with 4 longer than 3, sensillum 5 an elongate seta, sensilla 6, 7 basally stout basiconica, sensilla 8, 9 laterally placed, sensillum 8 short seta, sensillum 9 a short peg, sensillum 10 a stout seta; ventral margin with well developed scopae, 18–21 more­or­less uniform teeth (three lateral teeth more stout) in undivided row. Mandible (figs. 2I, 3E, 10A) curved, apical half tapering to sharp, darkly pigmented, point, with dorsal and ventral grooves; with large to very small lobe (not visible in some specimens) on inner surface; with subbasal seta and minute peg in pit on outer margin; with well developed apodeme attached to dorsal margin of mandible, extending into posterior half of head capsule. Maxilla (figs. 10B, 16B, 17D) well developed, wide; palpus elongate; large lobelike, apically tapering plate dorsal to base of palpus; with posteromedial elongate seta; palpus with 4 apical or subapical sensilla, two lateral sensilla each with elongate slender nib; group of 7 thick sensilla lateral to palpus: sensillum 1 extending to about half length of palpus; sensillum 2 with rounded apex; sensillum 3 short, arising near base of sensillum 4; sensillum 4 with elongate apical nib; sensillum 5 on elongate cuticular extension; sensillum 6 with rounded apex, ribbed; sensillum 7 with rounded apex; lateral seta elongate. Pharyngeal complex (figs. 2J, 3F) well developed, epipharynx with two lateral arms, apparently lacking combs (present but difficult to discern in some other Ceratopogonidae). Hypopharynx with lateral arms articulating with lateral apices of lateral arms of epipharynx. Thorax, abdomen: Cuticle unpigmented, transparent, thin. Prothorax secondarily divided, with well developed cervix; with elongate proleg (figs. 2C–G, 4B, 7B, 12B, 17A, 18), with apical hooks, 5–6 (per half) anterior terminal hooks elongate, posterior hooks short; proleg capable in life of being withdrawn into prothorax (posterior to cervix). Segment nine (figs. 3B, H, 11A, B) with well­separated (with bases not closely ap­ proximated) setae: dorsal setae o, i, l 1, d, l 2, l 3, l 4, ventral setae i, o, l 1, l 2, v; posterior proleg (figs. 2C–G, 3B, 11A, B, 17B) a single posterior structure with about 15–20 well developed hooks, dorsal hooks with broader bases than ventral, more slender hooks; ventral hooks with spicules; proleg capable of being extruded or withdrawn into body cavity. Four anal papillae, each apically bifur­ cate. Midgut white, with annulations (obscured by fat body in some third­ and fourthinstar larvae); anterior margin situated at midlength of fourth true abdominal segment (at anterior margin of apparent segment 8 in larvae with secondarily divided segments). With two Malpighian tubules. First­instar larva : Head capsule (figs. 7A, B, 8A): With dorsal, darkly pigmented egg burster (figs. 2H, 7A, B, 8B). Without eyespot. Mandible (fig. 2I) with large triangular tooth on inner margin (not evident in some specimens). Hypostoma lacking teeth (figs. 2K, 8A) Abdomen : With or without segments 1–8 secondarily divided (so abdomen appears to have either 9 or 17 segments) (fig. 2C, D). Abdominal segment 9 (fig. 11A, B) with at least dorsal setae o, i, d, l 1, 1 2, 1 3, ventral setae o, i present; others not visible but may be present; dorsal seta o notably thicker, longer than other setae on segment. Hemolymph unpigmented. Second­instar larva : Head capsule : With or without eyespot. Mandible likely (not clearly visible) with moderately sized triangular tooth on inner margin. Hypostoma with well developed row of teeth. Abdomen : With segments 1–8 secondarily divided (so abdomen appears to have 17 segments) (fig. 2E). Abdominal segment 9 with uncertain number of setae; dorsal seta o at least slightly thicker than other setae on segment. Hemolymph unpigmented or very pale pink. Third­instar larva: Head capsule : With eyespot. Mandible with small bump on inner margin. Hypostoma (fig. 19) with well developed row of teeth, central tooth largest. Abdomen : With segments 1–8 secondarily divided (so abdomen appears to have 17 segments) (fig. 2F). Abdominal segment 9 with 7 dorsal, 5 ventral setae distributed as in figures 3H, 17B; dorsal seta o at least slightly thicker than other setae on segment. Hemolymph unpigmented or pink. Some fat body visible in more mature larvae. Fourth­instar larva : Head capsule : With eyespot. Mandible (fig. 3E) with small bump on inner margin. Hypostoma (figs. 3G, 16A) with well developed row of teeth, central tooth largest. Abdomen : With segments 1–8 secondarily divided (so abdomen appears to have 17 segments) (fig. 2G). Abdominal segment 9 with 7 dorsal, 5 ventral setae distributed as in figures 3H, 17B; dorsal seta o equal in diameter to other long setae on segment. Hemolymph pink or reddish. Fat body present. Pupa : Only pupa known is of A. mcmillani , described below. DISTRIBUTION AND BIONOMICS The only two extant species are restricted to southwestern Australia (fig. 22B), but Cretaceous fossils are known from France, Spain, Siberia, Lebanon, and Myanmar (Borkent, 2000a; Szadziewski, in press; Szadziewski and Arillo, 2001), proving that the genus was once much more broadly distributed. The only species in which females have been observed to bite are those of A. mcmillani , which feed on kangaroos and humans. However, the finely serrate mandible and retrorse lacinial teeth of the adult females of A. annettae strongly indicate that these too feed on vertebrates (Borkent, 1995: 129– 132). The morphology of the claws of the female of A. annettae additionally may indicate that these feed on birds (see discussion below under that species). The mouthparts of fossil Austroconops are not visible (Borkent, 2000a), and therefore it is uncertain what they fed upon. The presence, however, of vertebrate blood­feeding in A. mcmillani and the phylogenetic position of the genus as an early lineage within the family where vertebrate blood­feeding is plesiotypic strongly suggest that all extinct species fed on vertebrates (Borkent, 1995, 2000a). Details of male swarming in A. mcmillani are given below. First­instar larvae of A. annettae and A. mcmillani were both successfully reared to fourth­instar larvae (and A. mcmillani to the pupal stage) in very wet soil, with regular (generally every second day) additions of nematodes and a fecal infusion. All instars of the aquatic larvae were clearly attracted to fresh drops of fecal infusion as shown by the concentrations of larvae directly under these drops and they were rarely seen to feed on nematodes. This phenomenon, and the presence of well developed, finely toothed scopae (figs. 3A, 19) suggest that they are likely associated with feces or concentrated decomposing vegetation in nature (producing an abundance of microorganisms). Some second, nearly all third, and all fourth­instar larvae had pink or red hemolymph, indicating the presence of hemoglobin, which additionally suggests that they may be associated with an oxygen deficient wet habitat. Larvae cannot swim but use a combination of their anterior and posterior prolegs and, especially in later instars, a relatively slow serpentine body motion to move through wet substrate. Further details of behavior and habitat are provided below for each species. Borkent et al. (1987) suggested that the blue­green pigmentation of live adult A. mcmillani may have indicated that the then unknown larvae were feeding on algae because this coloration has been observed in some Ceratopogonidae such as some Culicoides species of the schulzei species group and some Dasyhelea Kieffer species which feed on algae as larvae. Our observations here show that the relationship between algal feeding and adult color is not substantiated for at least A. mcmillani as larvae matured to adulthood without feeding on algae. Austroconops annettae was also successfully reared to the fourth­instar without algae. TAXONOMIC DISCUSSION We consider the elongate, pale egg of Austroconops species unique within the family. Eggs laid by other Ceratopogonidae are initially pale but soon turn dark. However, of 103 extant genera, eggs have been described for only 18 genera and of those, 4 genera are known only as eggs described from within the female abdomen (so their final color cannot be determined). We identified the four larval instars of both species based on the following evidence. First­instar larvae are easily identified by their darkly pigmented egg burster (figs. 2H, 7A, B, 8B). Because of the small number of measured second and fourth­instars of reared Austroconops larvae it was initially difficult to identify the instars 2–4. The fourth­instar of A. mcmillani was confidently identified because one of these molted to the pupal stage. Although the head capsule of this individual was not retrieved from the mud and therefore not measured, observations before it pupated showed that it was clearly close to, or within, the range of measurements reported here. Head capsule length increments of all instars followed Dyar’s Law, increasing by a factor of 1.32, 1.31, and 1.34 for A. mcmillani and 1.33, 1.32, and 1.25 for A. annettae . The latter value, the factor of change for third to fourth­instar, may be due to the small sample size of fourth­instar A. annettae or perhaps to less than optimal feeding conditions (and hence smaller individuals). These values are similar to those reported for species of Culicoides , which are about 1.4 (Kettle and Lawson, 1952; Kettle and Elson, 1975). There are significant statistical differences in egg characteristics (table 3) and larval head capsule lengths (table 4) of the different instars between A. mcmillani and A. annettae . Considering, however, that these immatures were obtained from eggs laid by a very few females, and that the larvae were reared under laboratory conditions, the size differences noted here may be artifacts. Otherwise, eggs and larvae of the two species could not be distinguished from one another. Larvae of Austroconops , when compared to other Ceratopogonidae, are missing head capsule sensilla z, k (sensory pit), and q. Also, there are two additional dorsolateral setae on larval abdominal segment 9 (fig. 3H), here labeled as l 3 and l 4, which have not been reported in other Ceratopogonidae. The larval antennal sensilla of Ceratopogonidae have never been described in sufficient detail to determine most homologies within and outside the family. Larvae of Austroconops species have a well­defined basal segment bearing 6 apical sensilla and a further second and third segment (figs. 9A, B, 14A, B, 20A). Based on position, relatively large size, and a uniformly porous surface, the most elongate, porous sensillum is homologous to the ‘‘large lobe’’ present in Culicoides (Murphree and Mullen, 1991) and most other Ceratopogoninae (Borkent and Bissett, 1990; Borkent and Craig, 1999). Based on position and some details of structure, the following sensilla are likely homologous to sensilla in Chironomidae: most elongate, porous sensillum = blade; mesal short sensillum = accessory blade; short bilobed sensillum labeled sensillum 3 here = fused style and peg sensillum. The remaining three short sensilla do not have readily apparent homologies with Chironomidae; they are labeled here as sensilla 1, 2, and 4. Sensillum 1 has an open apex bearing a tiny peg. Sensillum 4 has a porous surface. The labrum of Austroconops shows a number of similarities to other Ceratopogonidae. Sensilla 1–4 are clearly pre : Published as part of BORKENT, ART & CRAIG, DOUGLAS A., 2004, Austroconops Wirth and Lee, a Lower Cretaceous Genus of Biting Midges Yet Living in Western Australia: a New Species, First Description of the Immatures and Discussion of Their Biology and Phylogeny (Diptera: Ceratopogonidae), pp. 1-68 in American Museum Novitates 3449 on pages 5-27, DOI: 10.1206/0003-0082(2004)449<0001:AWALAL>2.0.CO;2, http://zenodo.org/record/4712435 : {"references": ["Borkent, A. 2000 a. Biting midges (Ceratopogonidae: Diptera) from Lower Cretaceous Lebanese amber with a discussion of the diversity and patterns found in other ambers. In D. Grimaldi (editor), Studies on fossils in amber, with particular reference to the Cretaceous of New Jersey, pp. 355 - 452. Leiden: Backhuys.", "Borkent, A. 1995. Biting midges in the Cretaceous amber of North America (Diptera: Ceratopogonidae). Leiden: Backhuys, 237 pp.", "Borkent, A., W. W. Wirth, and A. L. Dyce. 1987. The newly discovered male of Austroconops (Ceratopogonidae: Diptera) with a discussion of the phylogeny of the basal lineages of the Ceratopogonidae. Proceedings of the Entomological Society of Washington 89: 587 - 606.", "Kettle, D. S., and J. W. H. Lawson. 1952. The early stages of British biting midges Culicoides Latreille (Diptera: Ceratopogonidae) and allied genera. Bulletin of Entomological Research 43: 421 - 467, pls. 14 - 19.", "Kettle, D. S., and M. M. Elson. 1975. The undescribed male and immature stages of Culicoides interrogatus Lee and Reye. Journal of the Australian Entomological Society 14: 23 - 29.", "Murphree, C. S., and G. R. Mullen. 1991. Comparative larval morphology of the genus Culicoides Latreille (Diptera: Ceratopogonidae) in North America with a key to species. Bulletin of the Society of Vector Ecology 16: 269 - 399.", "Borkent, A., and B. Bissett. 1990. A revision of the Holarctic species of Serromyia Meigen (Diptera: Ceratopogonidae). Systematic Entomology 15: 153 - 217.", "Borkent, A., and D. A. Craig. 1999. A revision of the Neotropical genus Baeodasymyia Clastrier and Raccurt (Diptera: Ceratopogonidae) with a discussion of their phylogenetic relationships. American Museum Novitates 3274: 1 - 26.", "Hribar, L. J., and G. R. Mullen. 1991. Comparative morphology of the mouthparts and associated feeding structures of biting midge larvae (Diptera: Ceratopogonidae). Contributions of the American Entomological Institute 26 (3): 3 - 71.", "Szadziewski, R. 1996. Biting midges from Lower Cretaceous amber of Lebanon and Upper Cretaceous Siberian amber of Taimyr (Diptera, Ceratopogonidae). Studia Dipterologica 3: 23 - 86.", "Szadziewski, R. 2000. Biting midges (Diptera: Ceratopogonidae) from the Lower Cretaceous amber of Jordan. Polskie Pismo Entomologiczne 69: 251 - 256."]} Text Taimyr Siberia DataCite Metadata Store (German National Library of Science and Technology) Combs ENVELOPE(-79.150,-79.150,-73.483,-73.483) Mullen ENVELOPE(-84.600,-84.600,-78.800,-78.800) Seta ENVELOPE(9.895,9.895,63.645,63.645)

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