The first pipizine hoverfly from the Oligocene of Cereste, France

• Autorzy: Nidergas V. , Hadrava J. , Garrouste R. , Prokop J. , Schubnel T. , Nel A.
• Języki publikacji: EN

Abstrakty

EN

The Oligocene Oligopipiza quadriguttata Nidergras, Hadrava, and Nel gen. et sp. nov. is the first fossil Pipizinae found in the lacustrine outcrop of Céreste (South-East of France). It differs from the other Pipizinae in the male genitalia, with a surstylus without tooth and shorter than epandrium, and a long epandrium with a very deep and narrow median theca. It is compared to other extant and fossil Pipizinae. Its position in this clade is supported by its inclusion in previous morphological phylogenetic analysis of the Syrphidae. Palaeoecological inferences for the paleobiota of Céreste are made based on this taxon and point to the presence of a mixed forest. The taphonomy of these flies is discussed. They were probably embedded in surface microbial mats. The pollinator role of Oligopipiza quadriguttata is also discussed on the basis of the presence of pollen surrounding the fossil flies.

• Wydawca: -
• Czasopismo: Acta Palaeontologica Polonica
• Rocznik: 2018
• Tom: 63
• Numer: 3
• Opis fizyczny: p.539-548,fig.,ref.

Twórcy

autor

Nidergas V.

• Institut Systematique Evolution Biodiversite (ISYEB), Museum national d’Histoire naturelle, CNRS, Sorbonne Universite, EPHE, 57 rue Cuvier, CP 50, F-75005 Paris, France

autor

Hadrava J.

• Department of Zoology, Faculty of Science, Charles University, Vinicna 7, CZ-128 43, Praha 2, Czech Republic
• Institute of Entomology, Biological Centre, Czech Academy of Science, Branisovska 31, CZ–370 05 Ceske Budejovice, Czech Republic

autor

Garrouste R.

• Institut Systematique Evolution Biodiversite (ISYEB), Museum national d’Histoire naturelle, CNRS, Sorbonne Universite, EPHE, 57 rue Cuvier, CP 50, F-75005 Paris, France

autor

Prokop J.

• Department of Zoology, Faculty of Science, Charles University, Vinicna 7, CZ-128 43, Praha 2, Czech Republic
• Institute of Entomology, Biological Centre, Czech Academy of Science, Branisovska 31, CZ–370 05 Ceské Budejovice, Czech Republic

autor

Schubnel T.

• Institut Systematique Evolution Biodiversite (ISYEB), Museum national d’Histoire naturelle, CNRS, Sorbonne Universite, EPHE, 57 rue Cuvier, CP 50, F-75005 Paris, France

autor

Nel A.

• Institut Systematique Evolution Biodiversite (ISYEB), Museum national d’Histoire naturelle, CNRS, Sorbonne Universite, EPHE, 57 rue Cuvier, CP 50, F-75005 Paris, France

Bibliografia

• Archibald, S.B., Kehlmaier, C., and Mathewes, R.W. 2014. Early Eocene big headed flies (Diptera: Pipunculidae) from the Okanagan Highlands, western North America. The Canadian Entomologist 146: 429–443.
• Barba-Montoya, J., dos Reis, M., Schneider, H., Donoghue, P.C.J., and Yang, Z.-H. 2018. Constraining uncertainty in the timescale of angiosperm evolution and the veracity of a Cretaceous Terrestrial Revolution. New Phytologist 218: 819–834.
• Bičík, V. and Láska, P. 2011. Comparison of the importance of aphid predators and parasitoids based on field samples. Acta Societatis Zoologicae Bohemicae 75: 1–6.
• Cautru, J.P. and Gigot, P. 1982. L’Oligocène lignitifère du bassin de Manosque- Forcalquier (Alpes-de-Haute-Provence). Etude géologique de la partie nord du bassin (synclinal d’Apt-Forcalquier). Inventaire des Ressources Nationales de Charbon. 180 pp. BRGM, Paris.
• Claussen, C., Goeldlin de Tiefenau, P., and Lucas, J.A.W. 1994. Zur Identität von Pipizella heringii (Zetterstedt) var. hispanica Strobl, 1909 – mit einer Typenrevision der paläarktischen Arten der Gattung Heringia Róndani, 1856, sensu stricto (Diptera, Syrphidae). Mitteilungen der Schweizerischen Entomologischen Gesellschaft 67: 309–326.
• Dirickx, H. 2009. Les Syrphidae (Diptera) revisités. L’héritage du passé. Bulletin de la Société Royale Belge d’Entomologie 145: 49–86.
• Ducreux, J.L., Hugueney, M., and Truc, G. 1985. La formation des calcaires et lignites de Sigonce (Oligocène moyen, bassin de Forcalquier, Alpesde-Haute-Provence): datation à l’aide des mammifères; reconstitution des milieux de dépôts. Geobios 18: 109–114.
• Evenhuis, N.L. 1994. Catalogue of the Fossil Flies of the World (Insecta: Diptera). 600 pp. Backhuys Publishers, Leiden.
• Glaum, P. 1997. A theoretical basis for the study of predatory syrphid fly ecology. Theoretical Ecology 10: 391–402.
• Gregor, H.-J. von 2002. Die fossile Megaflora von Cereste in der Provence. Flora Tertiaria Mediterranea 4: 1–55.
• Grimaldi, D. 1999. The co-radiations of pollinating insects and angiosperms in the Cretaceous. Annals of the Missouri Botanical Garden 86: 373–406.
• Heie, O.E. and Lutz, H. 2002. Fossil aphids from Early Oligocene deposits near Céreste, France, with descriptions of new genera and species ( Hemiptera, Sternorrhyncha, Aphidoidea). Mainzer Naturwissenchaften Archiv 40: 113–122.
• Heyden, L. von 1870. Fossile Dipteren aus der Braunkohle von Rott im Siebengebirge. Palaeontographica 17: 237–266.
• Hippa, H. and Ståhls, G. 2005. Morphological characters of adult Syrphidae: descriptions and phylogenetic utility. Acta Zoologica Fennica 215: 1–72.
• Hull, F.M. 1945. A revisional study of the fossil Syrphidae (Diptera). Bulletin of the Museum of Comparative Zoology 95: 215–355.
• Kotthoff, U. and Schmid, U. 2005. A new fossil hoverfly (Insecta, Diptera: Syrphidae) from the Randeck Maar (Early Miocene, Sout-west Germany). Palaeontology 48: 1091–1096.
• Kovalev, V.G. 1979. The main aspects in the evolution of Diptera Brachycera in the Mesozoic Era [in Russian]. In: O.A. Skarlato, K.V. Skufjin, E.P. Narchuk, O.P. Negrobov, and M.N. Kandybina (eds.), Èkologičeskie i morfologičeskie principy sistematiki dvukrylyh (Insecta), 35–37. Akademiâ Nauk SSSR, Zoologičeskij Institut, Leningrad.
• Lefebvre, V., Villemant, C., Fontaine, C., and Daugeron, C. 2018. Altitudinal, temporal and trophic partitioning of flower-visitors in Alpine communities. Scientific Reports 8 (4706): 1–12.
• Mengual, X., Ståhls, G., and Rojo, S. 2015. Phylogenetic relationships and taxonomic ranking of pipizine flower flies (Diptera: Syrphidae) with implications for the evolution of aphidophagy. Cladistics 31: 491–508.
• Meunier, F. 1902. Description de quelques diptères de l’ambre. Annales de la Société Scientifique de Bruxelles 26: 94–104.
• Nel, A. 1991. Analyse d’entomofaunes cénozoiques. Intérêt de la Paléoentomologie pour les Sciences de la Terre et de la Vie. 882 pp. Thèse de Doctorat (nouveau régime), Université de Reims-Champagne-Ardenne, Reims.
• Pauli, T., Burt, T.O., Meusemann, K., Bayless, K., Donath, A., Podsiadlowski, L., Mayer, C., Kozlov, A., Vasilikopoulos, A., Liu, S., Zhou, X., Yeates, D., Misof, B., Peters, R.S., and Mengual, X. 2018. New data, same story: phylogenomics does not support Syrphoidea (Diptera: Syrphidae, Pipunculidae). Systematic Entomology 43: 447–459.
• Pound, M.J. and Salzmann, U. 2017. Heterogeneity in global vegetation and terrestrial climate change during the late Eocene to early Oligocene transition. Scientific Reports 7 (43386): 1–12.
• Rojo, S., Gilbert, F., Marcos-García, M.A., Nieto, J.M., and Mier Durante, M.P. 2003. A World Review of Predatory Hoverflies (Diptera, Syrphidae: Syrphinae) and their Prey. 319 pp. CIBIO Ediciones, Alicante.
• Speight, M.C.D. and Smith, K.G.V. 1975. A key to males of the British species of Neocnemodon Goffe (Dipt.: Syrphidae). Entomologist’s Record 87: 150–153.
• Speight, M.C.D. and Castella, E. 2016. StN Content and Glossary of Terms 2016. Syrph the Net, the database of European Syrphidae (Diptera) 94: 1–89.
• Ståhls, G., Hippa, H., Rotheray, G., Muona, J., and Gilbert, F. 2003. Phylogeny of Syrphidae (Diptera) inferred from combined analysis of molecular and morphological characters. Systematic Entomology 28: 433–450.
• Swofford, D.L. 2002. PAUP* Phylogenetic Analysis Using Parcimony (*and Other Methods). Version 4.0 b10. Sinauer Associates.
• Ssymank A., Kearns C.A., Pape T., and Thompson F.C. 2008. Pollinating flies (Diptera): a major contribution to plant diversity and agricultureal production. Biodiversity 9 (1–2): 86–89.
• Théobald, N. 1937. Les insectes fossiles des terrains oligocènes de France. Bulletin Mensuel (Mémoires) de la Société des Sciences de Nancy 1: 1–473.
• Thiébaut, M. 1999. A new locality of Raskya vetusta (Ettingshausen) Manchester & Hably from France. Revue de Paléobiologie 18: 509–515.
• Thompson, F.C. 1972. A contribution to a generic revision of the Neotropical Milesinae (Diptera: Syrphidae). Arquivos de Zoologia 23: 73–215.
• Thompson, F.C. 1981. The flower flies of the West Indies (Diptera: Syrphidae). Memoirs of the Entomological Society of Washington 9: 1–200.
• Thompson, F.C. 1999. A key to the genera of the flower flies (Diptera: Syrphidae) of the Neotropical region including descriptions of new genera and species and a glossary of taxonomic terms. Contributions on Entomology, International 3: 321–378.
• Violovitsh, N.A. 1985. New flower flies (Diptera, Syrphidae) of the Palaearctic fauna [in Russian]. Novye i Maloizvestnye Vidy Fauny Sibiri (Supplement) 18: 80–96.
• Vujić, A., Radenković, S., and Polić, D. 2008. A review of the luteitarsis group of the genus Pipiza Fallén (Diptera: Syrphidae) with description of a new species from the Balkan Peninsula. Zootaxa 1845: 33–46.
• Vujić, A., Ståhls, G., Ačanski, J., Bygebjerg, R., and Stefanović, A. 2013. Systematics of Pipizini and taxonomy of European Pipiza Fallen: molecular and morphological evidence (Diptera, Syrphidae). Zoologica Scripta 42: 288–305.
• Wiegmann, B.M., Trautwein, M.D., Winkler, I.S., Barr, N.B., Kim, J.-W., Lambkin, C., Bertone, M.A., Cassel, B.K., Bayless, K.M., Heimberg, A.M., Wheeler, B.M., Peterson, K.J., Pape, T., Sinclair, B.J., Skevington, J.H., Blagoderov, V., Caravas, J., Kutty, S.N., Schmidt-Ott, U., Kampmeier, G.E., Thompson, F.C., Grimaldi, D.A., Beckenbach, A.T., Courtney, G.W., Friedrich, M., Meier, R., and Yeates, D.K. 2011. Episodic radiations in the fly tree of life. Proceedings of the National Academy of Sciences of the United States of America 108: 5691–5695.
• Wiegmann, B.M., Yeates, D.K., Thorne, J.L., and Kishino, H. 2003. Time flies, a new molecular time-scale for brachyceran fly evolution without a clock. Systematic Biology 52: 745–756.
• Young, A.D., Lemmon, A.R., Skevington, J.H., Mengual, X., Ståhls, G., Reemer, M., Jordaens, K., Kelso, S., Lemmon, E.M., Hauser, M., De Meyer, M., Misof, B., and Wiegmann, B.M. 2016. Anchored enrichment dataset for true flies (order Diptera) reveals insights into the phylogeny of flower flies (family Syrphidae). BMC Evolutionary Biology 16: 1–13.

Identyfikatory

DOI

10.4202/app.00500.2018