Hostname: page-component-8448b6f56d-xtgtn Total loading time: 0 Render date: 2024-04-18T08:35:38.347Z Has data issue: false hasContentIssue false
  • English
  • Français

A new species of Archaeochrysa Adams (Neuroptera: Chrysopidae) from the early Eocene of Driftwood Canyon, British Columbia, Canada

Published online by Cambridge University Press:  23 September 2014

S. Bruce Archibald  and
Vladimir N. Makarkin
S. Bruce Archibald
Affiliation:
Department of Biological Sciences, Simon Fraser University, Burnaby, British Columbia, Canada Museum of Comparative Zoology, Cambridge, Massachusetts, United States of America Royal BC Museum, Victoria, British Columbia, Canada
Vladimir N. Makarkin*
Affiliation:
Institute of Biology and Soil Sciences, Far Eastern Branch of the Russian Academy of Sciences, Vladivostok, Russia
*
1Corresponding author (e-mail: vnmakarkin@mail.ru).
Get access Rights & Permissions [Opens in a new window]

Abstract

Archaeochrysa sanikwanew species (Neuroptera: Chrysopidae: Nothochrysinae) is described from early Eocene (Ypresian) Okanagan Highlands shale at Driftwood Canyon, British Columbia, Canada. The evolutionary trends of three chrysopid wing venation characters (the shape of the intramedian cell, the position of the crossvein 2m-cu, and the development of the pseudocubitus) are analysed. The forewing venation of this species is very plesiomorphic compared with the vast majority species of Nothochrysinae, both fossil and extant.

Type
Systematics & Morphology
Information
The Canadian Entomologist , Volume 147 , Issue 4 , August 2015 , pp. 359 - 369
Copyright
© Entomological Society of Canada 2014 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Adams, P.A. 1957. A new genus and new species of Chrysopidae from the western United States, with remarks on the wing venation of the family (Neuroptera). Psyche, 63: 6774.Google Scholar
Adams, P.A. 1967. A review of the Mesochrysinae and Nothochrysinae (Neuroptera: Chrysopidae). Bulletin of the Museum of Comparative Zoology, 135: 215238.Google Scholar
Adams, P.A. and Penny, N.D. 1992a. Review of the South American genera of Nothochrysinae (Insecta: Neuroptera: Chrysopidae). In Current research in Neuropterology. Proceedings of the fourth international symposium on Neuropterology. Edited by M. Canard, H. Aspöck, and M.W. Mansell. SACCO, Toulouse, France. Pp. 3541.Google Scholar
Adams, P.A. and Penny, N.D. 1992b. New genera of Nothochrysinae from South America (Neuroptera: Chrysopidae). Pan-Pacific Entomologist, 68: 216221.Google Scholar
Archibald, S.B., Bossert, W.H., Greenwood, D.R., and Farrell, B.D. 2010. Seasonality, the latitudinal gradient of diversity, and Eocene insects. Paleobiology, 36: 374398.CrossRefGoogle Scholar
Archibald, S.B., Cover, S.D., and Moreau, C.S. 2006. Bulldog ants of the Eocene Okanagan Highlands, and the history of the subfamily (Hymenoptera: Formicidae: Myrmeciinae). Annals of the Entomological Society of America, 99: 487523.Google Scholar
Archibald, S.B., Greenwood, D.R., Smith, R.Y., Mathewes, R.W., and Basinger, J.F. 2011. Great Canadian Lagerstätten 1. Early Eocene Lagerstätten of the Okanagan Highlands (British Columbia and Washington State). Geoscience Canada, 38: 155164.Google Scholar
Barron, E., Rivas-Carballo, R., Postigo-Mijarra, J.M., Alcalde-Olivares, C., Vieira, M., Castro, L., et al. 2010. The Cenozoic vegetation of the Iberian Peninsula: a synthesis. Review of Palaeobotany and Palynology, 162: 382402.Google Scholar
Béthoux, O. 2005. Wing venation pattern of Plecoptera (Insecta: Neoptera). Illiesia, 1: 5281.Google Scholar
Béthoux, O. and Jarzembowski, E.A. 2010. New basal neopterans from Writhlington (UK, Pennsylvanian). Alavesia, 3: 8796.Google Scholar
Bigler, F. 1984. Biological control by chrysopids: integration with pesticides. In Biology of Chrysopidae. Edited by M. Canard, Y. Séméria, and T.R. New. Dr. W. Junk Publishers, The Hague, The Netherlands. Pp. 233245.Google Scholar
Brooks, S.J. and Barnard, P.C. 1990. The green lacewings of the world: a generic review (Neuroptera: Chrysopidae). Bulletin of the British Museum of Natural History (Entomology), 59: 117286.Google Scholar
Carpenter, F.M. 1935. Tertiary insects of the family Chrysopidae. Journal of Paleontology, 9: 259271.Google Scholar
Chambers, L., Pringle, M., Fitton, G., Larsen, L.M., Pedersen, A.K., and Parrish, R. 2003. Recalibration of the Palaeocene-Eocene boundary (P-E) using high precision U-Pb and Ar-Ar isotopic dating. EGS-AGU-EUG Joint Assembly, Nice, 6–11 April 2003. Geophysical Research Abstracts 5: 9681. Copernicus Publications, Göttingen, Germany.Google Scholar
Cockerell, T.D.A. 1909. Two fossil Chrysopidae. The Canadian Entomologist, 41: 218219.CrossRefGoogle Scholar
Cockerell, T.D.A. 1914. New and little-known insects from the Miocene of Florissant, Colorado. Journal of Geology, 22: 714724.Google Scholar
Engel, M.S. and Grimaldi, D. 2007. The neuropterid fauna of Dominican and Mexican amber (Neuropterida: Megaloptera, Neuroptera). American Museum Novitates, 3587: 158.Google Scholar
Evanoff, E., McIntosh, W.C., and Murphey, P.C. 2001. Stratigraphic summary and 40Ar/39Ar geochronology of the Florissant Formation, Colorado. In Fossil flora and stratigraphy of the Florissant Formation, Colorado. Volume 1. Proceedings of the Denver Museum of Nature and Science. Volume 4. Edited by E. Evanoff, K. Gregory-Wodzicki, and K. Johnson. Denver Museum of Nature and Science, Denver, Colorado. Pp. 116.Google Scholar
Goncharova, I.A. 1989. Dvustvorchatye mollyuski Tarkhanskogo i Chokrakskogo basseinov [Bivalve molluscs of Tarkhanian and Tshokrakian Basins]. Trudy Paleontologicheskogo Instituta, 234: 1200. (In Russian).Google Scholar
Greenwood, D.R., Archibald, S.B., Mathewes, R.W., and Moss, P.T. 2005. Fossil biotas from the Okanagan Highlands, southern British Columbia and northern Washington State: climates and ecosystems across an Eocene landscape. Canadian Journal of Earth Sciences, 42: 167185.CrossRefGoogle Scholar
Handschin, E. 1937. Fossile Insekten aus Siebenbürgen. Mitteilungen der Schweizerischen Entomologischen Gesellschaft, 17: 2529.Google Scholar
Iturralde-Vinent, M.A. and MacPhee, R.D.E. 1996. Age and paleogeographical origin of Dominican amber. Science, 273: 18501852.Google Scholar
Jepson, J.E., Makarkin, V.N., and Coram, R.A. 2012. Lacewings (Insecta: Neuroptera) from the Lower Cretaceous Purbeck Limestone Group of southern England. Cretaceous Research, 34: 3147.CrossRefGoogle Scholar
Kovanci, B. and Canbulat, S. 2007. A new species of the genus Nothochrysa McLachlan 1868 from northwestern Turkey (Neuroptera: Chrysopidae) with a key to western Palaearctic species. Annales de la Société Entomologique de France (N.S.), 43: 165168.Google Scholar
Kukalová-Peck, J. and Lawrence, J.F. 2004. Relationships among coleopteran suborders and major endoneopteran lineages: evidence from hind wing characters. European Journal of Entomology, 101: 95144.Google Scholar
Lanphere, M.A. 2000. Duration of sedimentation of the Creede Formation from 40Ar/39Ar age. In Ancient Lake Creede: its volcano-tectonic setting, history of sedimentation, and relation to mineralization in the Creede Mining District, Special Paper. Volume 346. Edited by P.M. Bethke and R.L. Hay. Geological Society of America, Boulder, Colorado. Pp. 7176.Google Scholar
Makarkin, V.N. 1991. Miotsenovye setchatokrylye (Neuroptera) Severnogo Kavkaza i Sikhote-Alinya [Miocene Neuroptera from North Caucasus and Sikhote-Alin’]. Paleontologicheskii Zhurnal, 1991: 5768. (In Russian, English summary).Google Scholar
Makarkin, V.N. 1994. Upper Cretaceous Neuroptera from Russia and Kazakhstan. Annales de la Société Entomologique de France, 30: 283292.CrossRefGoogle Scholar
Makarkin, V.N. 1997. Fossil Neuroptera of the lower Cretaceous of Baisa, East Siberia. Part 3. Chrysopidae. Spixiana, 20: 107118.Google Scholar
Makarkin, V.N. 2014. A new fossil green lacewing (Neuroptera: Chrysopidae) from the Eocene Tadushi Formation, eastern Sikhote-Alin. Far Eastern Entomologist, 272: 17.Google Scholar
Makarkin, V.N. and Archibald, S.B. 2013. A diverse new assemblage of green lacewings (Insecta: Neuroptera: Chrysopidae) from the Early Eocene Okanagan Highlands, western North America. Journal of Paleontology, 87: 122145.CrossRefGoogle Scholar
Makarkin, V.N., Yang, Q., Peng, Y.Y., and Ren, D. 2012. A comparative overview of the neuropteran assemblage of the Early Cretaceous Yixian Formation (China), with description of a new genus of Psychopsidae (Insecta: Neuroptera). Cretaceous Research, 35: 5768.Google Scholar
Martill, D.M. and Heimhofer, U. 2008. Stratigraphy of the Crato Formation. In The Crato fossil beds of Brazil. Window into an ancient world. Edited by D.M. Martill, G. Bechly, and R.F. Loveridge. Cambridge University Press, Cambridge, United Kingdom. Pp. 2543.Google Scholar
Martins-Neto, R.G. 1997. Neurópteros (Insecta, Planipennia) da Formação Santana (Cretáceo Inferior), Bacia do Araripe, nordeste do Brasil. X - Descrição de novos táxons (Chrysopidae, Babinskaiidae, Myrmeleontidae, Ascalaphidae e Psychopsidae). Revista Uniersidade de Guarulhos, Série Ciências Exatas e Technológicas, 2: 6883.Google Scholar
Martins-Neto, R.G. 2003. The Santana Formation Paleoentomofauna reviewed. Part I – Neuropteroida (Neuroptera and Raphidioptera): systematic and phylogeny, with description of new taxa. Acta Geologica Leopoldensia, 25: 3566.Google Scholar
Martins-Neto, R.G. and Vulcano, M.A. 1989. Neurópteros (Insecta: Planipennia) da Formação Santana (Cretáceo Inferior), Bacia do Araripe, Nordeste do Brasil. I - Família Chrysopidae. Anais da Academia Brasileira de Ciencias, 60: 189201.Google Scholar
Martynov, A.V. 1927. Jurassic fossil insects from Turkestan. 7. Some Odonata, Neuroptera, Thysanoptera. Izvestia Akademii Nauk SSSR (Series 6), 21: 757768.Google Scholar
Moss, P.T., Greenwood, D.R., and Archibald, S.B. 2005. Regional and local vegetation community dynamics of the Eocene Okanagan Highlands (British Columbia-Washington State) from palynology. Canadian Journal of Earth Sciences, 42: 187204.Google Scholar
Nel, A., Delclòs, X., and Hutin, A. 2005. Mesozoic chrysopid-like Planipennia: a phylogenetic approach (Insecta: Neuroptera). Annales de la Société Entomologique de France (N.F.), 41: 2968.CrossRefGoogle Scholar
Nel, A. and Séméria, Y. 1986. Une nouvelle espèce de Chrysopide fossile du Stampien supérieur (Oligocène) d’Aix-en-Provence Notochrysa stampieni n. sp. (Neuroptera, Chrysopidae, Notochrysinae). Neuroptera International, 4: 2330.Google Scholar
New, T.R. 1980. A revision of the Australian Chrysopidae (Insecta: Neuroptera). Australian Journal of Zoology, Supplementary Series, 77: 1143.CrossRefGoogle Scholar
Oswald, J.D. 1993. Revision and cladistic analysis of the world genera of the family Hemerobiidae (Insecta: Neuroptera). Journal of the New York Entomological Society, 101: 143299.Google Scholar
Panfilov, D.V. 1980. Novye predstaviteli setcharokrylykh (Neuroptera) iz yury Karatau [New representatives of lacewings (Neuroptera) from the Jurassic of Karatau]. In Iskopaemye nasekomye mezozoya [Fossil insects of the Mesozoic]. Edited by V.G. Dolin, D.V. Panfilov, A.G. Ponomarenko, and L.N. Pritykina. Naukova Dumka, Kiev, Ukraine. Pp. 82111. (In Russian).Google Scholar
Peñalver, E., Nel, A., and Martínex-Delclòs, X. 1995. New Nothochrysinae from the Spanish Miocene (Neuroptera, Chrysopidae). Bulletin de la Société entomologique de France, 100: 481487.Google Scholar
Ponomarenko, A.G. 1992. Novye setchatokrylye (Insecta, Neuroptera) iz mezozoya Mongolii [New lacewings (Insecta, Neuroptera) from the Mesozoic of Mongolia]. In Novye taksony iskopaemykh bespozvonochnykh Mongolii [New taxa of fossil invertebrates of Mongolia]. Transactions of the joint Soviet-Mongolian paleontological expedition. Volume 41. Edited by T.A. Grunt, Nauka Press, Moscow, Pp. 101111. (In Russian)Google Scholar
Rasnitsyn, A.P. and Zherikhin, V.V. 2002. 4. Appendix: alphabetic list of selected insect fossil sites. 4.1. Impression fossils. In History of insects. Edited by A.P. Rasnitsyn and D.L.J. Quicke. Kluwer Academic Publishers, Dordrecht, The Netherlands. Pp. 437444.Google Scholar
Ren, D. and Guo, Z.G. 1996. On the new fossil genera and species of Neuroptera (Insecta) from the Late Jurassic of northeast China. Acta Zootaxonomica Sinica, 21: 461479.Google Scholar
Ridgway, R.L. and Murphy, W.L. 1984. Biological control in the field. In Biology of Chrysopidae. Edited by M. Canard, Y. Séméria, and T.R. New. Dr. W. Junk Publishers, The Hague, The Netherlands. Pp. 220228.Google Scholar
Schlüter, T. 1982. Cimbrochrysa moleriensis n. g. n. sp. und Hypochrysa hercyniensis n. sp., zwei fossile Chrysopidae-Arten (Insecta: Planipennia) aus dem europäischen Tertiär. Neues Jahrbuch für Geologie und Paläontologie. Monatshefte, 1982: 257264.Google Scholar
Scudder, S.H. 1885. Systematische Übersicht der fossilen Myriopoden, Arachnoideen und Insekten. In Handbuch der Palaeontologie. Abteilung 1. Palaeozoologie. Band 2. Mollusca und Arthropoda. Edited by K.A. Zittel. Verlag von R. Oldenbourg, Munich, Germany. Pp. 721831.Google Scholar
Scudder, S.H. 1890. The tertiary insects of North America. Report of the United States Geological Survey of the Territories, 13: 1734.Google Scholar
Séméria, Y. and Nel, A. 1990. Paleochrysopa monteilsensis gen. et sp. nov., a new fossil of Chrysopidae from the Upper Eocene Formation of Monteils (France), with a review of the known chrysopid fossils (Insecta: Neuroptera). In Advances in Neuropterology. Proceedings of the third international symposium on Neuropterology. Edited by M.W. Mansell and H. Aspöck. South African Department of Agricultural Development Pretoria, South Africa. Pp. 2732.Google Scholar
Statz, G. 1936. Ueber neue Funde von Neuropteren, Panorpaten und Trichopteren aus den tertiären Schiefern von Rott am Siebengebirge. Decheniana, 93: 208255.Google Scholar
Sziráki, G. and Dulai, A. 2002. Sarmatian (Late Miocene) arthropods from Tallya and neighbouring localities (Tokaj Mts, Hungary): preliminary report. Annales Historico-Naturales Musei Nationalis Hungarici, 94: 3144.Google Scholar
Thil, C., Klotz, S., and Uhl, D. 2012. Palaeoclimate estimates for selected leaf floras from the late Pliocene (Reuverian) of Central Europe based on different palaeobotanical techniques. Turkish Journal of Earth Sciences, 21: 125.Google Scholar
Tjeder, B. 1966. Neuroptera-Planipennia. The lace-wings of southern Africa. 5. Family Chrysopidae. In South African animal life. Volume 12. Edited by B. Hanström, P. Brinck, and G. Rudebec. Swedish Natural Science Research Council, Stockholm, Sweden. Pp. 228534.Google Scholar
Tulisalo, U. 1984. Biological control in the greenhouse. In Biology of Chrysopidae. Edited by M. Canard, Y. Séméria, and T.R. New. Dr. W. Junk Publishers, The Hague, The Netherlands. Pp. 228233.Google Scholar
Willmann, R. 1993. Insekten aus der Fur-Formation von Dänemark (Moler, ob. Paleozän / unt. Eozän?). 8. Zwei neue Vertreter der Chrysopidae (Neuroptera). Neues Jahrbuch für Geologie und Paläontologie. Monatshefte, 1993: 239245.Google Scholar
Willmann, R. and Brooks, S.J. 1991. Insekten aus der Fur-Formation von Dänemark (Moler, ob. Paleozän/ unt. Eozän?). 6. Chrysopidae (Neuroptera). Meyniana, 43: 125135.Google Scholar
Winterton, S.L. and Brooks, S.J. 2002. Phylogeny of the apochrysine green lacewings (Neuroptera: Chrysopidae: Apochrysinae). Annals of the Entomological Society of America, 95: 1628.Google Scholar
Wolfe, J.A., Gregory-Wodzicki, K.M., Molnar, P., and Mustoe, G. 2003. Rapid uplift and then collapse in the Eocene of the Okanagan? Evidence from paleobotany [CD-ROM]. In Geological Association of Canada–Mineralogical Association of Canada–Society of Economic Geologists, Joint Annual Meeting, Vancouver, Abstracts. Geological Association of Canada – Mineralogical Association of Canada – Society of Economic Geologists, Vancouver, British Columbia, Canada.Google Scholar
Yang, C.K. 1986. The subfamily Nothochrysinae new to China and a new species of the genus Nothochrysa (Neuroptera: Chrysopidae). Entomotaxonomia, 8: 277280.Google Scholar
Yang, C.K. and Hong, Y.C. 1990. Drakochrysa, an Early Cretaceous new genus of Chrysopidae (Insecta: Neuroptera) from Laiyang Basin, Shandong Province. Geoscience, 4: 1526. (In Chinese, English summary).Google Scholar
Yang, Q., Makarkin, V.N., Winterton, S.L., Khramov, A.V., and Ren, D. 2012. A remarkable new family of Jurassic insects (Neuroptera) with primitive wing venation and its phylogenetic position in Neuropterida. Public Library of Science One, 7: e44762.Google Scholar