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Issue: Vol. 4 No. 5: September 2021
Type: Article
Published: 2021-09-24
DOI: 10.11646/palaeoentomology.4.5.11
Page range: 453–461
Abstract views: 500
PDF downloaded: 16

New species of Kamopanorpa Martynov from the Permian of South Siberia with comments on the systematic position of Microptysmatidae (Protomeropina = Permotrichoptera)

Borissiak Palaeontological Institute, Russian Academy of Sciences, Moscow 117647, Russia
Protomeropina Permotrichoptera Trichoptera Amphiesmenoptera wing venation anal loops nygmata

Abstract

The systematic position of Microptysmatidae and Protomeropidae is critically reviewed in light of the latest reassessment by Minet et al. The Microptysmatidae belongs to a stem-group of Trichoptera, or at least to stem-Amphiesmenoptera (depending on chosen methodology), rather than to its own order Permotrichoptera as suggested by Minet et al., and Protomeropidae are not Mecoptera. The double anal loop of Kamopanorpa Martynov, 1928 is not significantly different from that of more advanced amphiesmenopterans, while in Microptysmella Kukalová-Peck & Willmann, 1990, anal veins show clear tendency to looping (not a “fairly different arrangement”). If Microptysmatidae are considered in the traditional way, the polarity of characters listed by Minet et al. as supporting monophyly of the order Permotrichoptera can be treated just the opposite: divided veins RS1, RS2 and M1 are symplesiomorphies with Protomeropidae, and simple M4 is the synapomorphy of Microptysmatidae, Cladochoristidae, and Amphiesmenoptera s. str. In addition, three new species of Kamopanorpa are described from the Permian deposits of Minusinsk Coal Basin, South Siberia: Kamopanorpa rasnitsyni sp. nov., K. sivchikovi sp. nov., and K. rotunda sp. nov. Some traits of fore- and hindwing venation of Microptysmatidae are discussed.

References

  1. Ansorge, J. (2002) Revision of the “Trichoptera” described by Geinitz and Handlirsch from the Lower Toarcian of Dobbertin (Germany) based on new material. Nova Supplementa Entomologica, 15, 55–74.

  2. Aristov, D.S. (2014) Classification of the order Cnemidolestida (Insecta: Perlidea) with descriptions of new taxa. Far Eastern Entomologist, 277, 1–46.

  3. Béthoux, O. (2008) Groundplan, nomenclature, homology, phylogeny, and the question of the insect wing venation pattern. Alavesia, 2, 219–232.

  4. van Eldijk, T.J.B., Wappler, T., Strother, P.K., van der Weijst, C.M.H., Rajaei, H., Visscher, H. & van de Schootbrugge, B. (2018) A Triassic–Jurassic window into the evolution of Lepidoptera. Science Advances, 4, e1701568.  https://doi.org/10.1126/sciadv.1701568

  5. Grimaldi, D. & Engel, M.S. (2005) Evolution of the insects. Cambridge University Press, 755 pp.

  6. Hennig, W. (1981) Insect phylogeny. Wiley, New York. 514 pp.

  7. Ivanov, V.D. (1988) The structure of the Paleozoic caddisflies of the family Microptysmatidae Paleontological Journal, 22 (3), 63–69.

  8. Ivanov, V.D. (1992) A new family of caddis flies (Insecta, Trichoptera) from the Permian of the middle Urals. Paleontological Journal, 26 (4), 36–41.

  9. Ivanov, V.D. & Sukatsheva, I.D. (2002) Order Trichoptera Kirby, 1813. The caddisflies (= Phryganeida Latreille, 1810). In: Rasnitsyn, A.P. & Quicke, D.L.J. (Eds), History of insects. Kluwer Academic Publishers, Dordrecht, Boston, London, pp. 194–199.

  10. Kristensen, N.P. (1984) Studies on the morphology and systematics of primitive Lepidoptera (Insecta). Steenstrupia, 10 (5), 141–191.

  11. Kukalová-Peck, J. & Willmann, R. (1990) Lower Permian ‘mecopteroid-like’ insects from Central Europe (Insecta, Endopterygota). Canadian Journal of Earth Sciences, 27 (3), 459–468.  https://doi.org/10.1139/e90-041

  12. Londt, J.G.H. (1974) “Corneus spots” in insects. Journal of the Entomological Society of Southern Africa, 37 (1), 5–14.

  13. Martynova, O.M. (1958) Novye nasekomye iz permskikh i mezozoiskikh otlozhenij SSSR [New insects from the Permian and Mesozoic deposits of the USSR]. Materialy k Osnovam Paleontologii, 2, 69–94.

  14. Melnitsky, S.I., Ivanov, V.D. & Sukatsheva, I.D. (2020) Trichoptera. Caddisflies. In: Kopylov, D.S. et al., The Khasurty fossil insect Lagerstätte. Paleontological Journal, 54 (11), 1322–1343.  https://doi.org/10.1134/S0031030120110027

  15. Mey, W., Wichard, W., Müller, P., & Wang, B. (2017) The blueprint of the Amphiesmenoptera—Tarachoptera, a new order of insects from Burmese amber (Insecta, Amphiesmenoptera). Fossil Record, 20, 129–145.  https://doi.org/10.5194/fr-20-129-2017

  16. Minet, J., Huang, D.Y., Wu, H. & Nel, A. (2010) Early Mecopterida and the systematic position of the Microptysmatidae (Insecta: Endopterygota). Annales de la Société Entomologique de France, Nouvelle Série, 46 (1−2), 262−270.  https://doi.org/10.1080/00379271.2010.10697667

  17. Novokshonov, V.G. (1992) Caddisflies of the genus Kamopanorpa (Trichoptera, Microptysmatidae) from the Kungurian of Chekarda (Perm District). Paleontological Journal, 26 (3), 136–141.

  18. Novokshonov, V.G. (1993a) The early evolution of caddis-flies (Trichoptera). Entomological Review, 72 (3), 138–148.

  19. Novokshonov, V.G. (1993b) Caddis flies (Insecta: Trichoptera: Microptysmatidae). Paleontological Journal, 27 (1A), 90–101.

  20. Novokshonov, V.G. (1997) Rannyaya evolyutsiya skorpionnits (Insecta: Panorpida) [Early evolution of the scorpion flies (Insecta: Panorpida)]. Moscow, Nauka Press, 140 pp.

  21. Rasnitsyn, A.P. (2007) On the discussion of the wing venation of (Archae) Orthoptera (Insecta). Paleontological Journal, 41 (3), 341–344.  https://doi.org/10.1134/S0031030107030148

  22. Sukatsheva, I.D. (1976) Caddisflies of the suborder Permotrichoptera. Paleontological Journal, 10 (2), 198–209.

  23. Sukatsheva, I.D. & Aristov, D.S. (2013) New caddisflies of the suborder Protomeropina (Insecta: Trichoptera) from the Permian of Russia. In: Aristov, D.S. (ed.) Fossil insects of the Middle and Upper Permian of European Russia. Paleontological Journal, 47 (7), 741–751.  https://doi.org/10.1134/S0031030113070010

  24. Sukatsheva, I.D. & Aristov, D.S. (2017) New insects (Insecta: Trichoptera, Eoblattida) from the Lower Permian of Russia. Paleontological Journal, 51 (4), 374–381.  https://doi.org/10.1134/S0031030117040116

  25. Sukatsheva, I.D., Beattie, R. & Mostovski, M.B. (2007) Permomerope natalensis sp. n. from the Lopingian of South Africa, and a redescription of the type species of Permomerope (Trichoptera: Protomeropidae). African Invertebrates, 48 (2), 245–251.

  26. Wang, M., Rasnitsyn, A.P., Shih, C. & Ren, D. (2014) A new Cretaceous genus of xyelydid sawfly illuminating nygmata evolution in Hymenoptera. BMC Evolutionary Biology, 14, 131.  https://doi.org/10.1186/1471-2148-14-131

  27. Wichard, W. & Mey, W. (2021) Order Tarachoptera in mid-Cretaceous Burmese amber (Insecta, Amphiesmenoptera). Cretaceous Research, 119, 104681.  https://doi.org/10.1016/j.cretres.2020.104681

  28. Willmann, R. (1989) Evolution und phylogenetisches System der Mecoptera (Insecta: Holometabola). Abhandlungen der Senckenbergischen Naturforschenden Gesellschaft, 544. Verlag W. Kramer, Frankfurt am Main, 153 pp.