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CONNATICHELA ARTEMISIAE, A NEW GENUS AND SPECIES OF WEEVIL FROM THE YUKON TERRITORY (COLEOPTERA: CURCULIONIDAE: LEPTOPIINAE): TAXONOMY, PALEONTOLOGY, AND BIOGEOGRAPHY

Published online by Cambridge University Press:  31 May 2012

Robert S. Anderson
Affiliation:
Department of Entomology, University of Alberta, Edmonton T6G 2E3

Abstract

Connatichela artemisiae, a new genus and species of leptopiine weevil endemic to the Yukon Territory, Canada, is described and illustrated. The genus is placed in the group of leptopiine genera characterized by the absence of metepisternal suture, lack of scales on antennal funiculus, and presence of broad scales on antennal scape. Connatichela members are readily distinguished from related leptopiine genera by the presence of connate tarsal claws and the structure of male and female genitalia. Phylogenetic and zoogeographic relationships of the genus are unresolved at present. Adult specimens were found in association with plants of a small species of Artemisia.

Fossil material of mid-Wisconsin age assignable to C. artemisiae from the Yukon Territory, extreme western Northwest Territories, and Alaska suggests a slightly more widespread Pleistocene distribution, with recent restriction to the Yukon Territory. This restriction may have resulted from a decrease, during the post Wisconsin, in availability of dry steppe-tundra habitats throughout most of Beringia.

Résumé

Connatichela artemisiae, un nouveau genre et une nouvelle espèce de charançon leptopiiné endémique au Territoire du Yukon, Canada, est décrit et illustré. Le genre fait partie du groupe de genres leptopiinés caractérisé par l'absence de suture métépisternale, l'absence d'écaillés sur le funicle antennaire et la présence de larges écailles sur le scape antennaire. Les membres de Connatichela se distinguent aisément des autres genres de Leptopiinés apparentés par leurs griffes tarsales jointes à la base et l'aspect de l'appareil génital de mâles et des femelles. Les relations phylogénétiques et biogéographiques ne sont présentement pas résolues. Les adultes se trouvent associés aux plants d'une petite espèce d'Artemisia.

Des fossiles du Wisconsinien Moyen attribuables à C. artemisiae et provenant du Territoire du Yukon, de l'extrême partie ouest des Territoires du Nord-Ouest et de l'Alaska suggèrent une distribution historique un peu plus étendue qu'actuellement. La restriction récente de l'aire de distribution de C. artemisiae au Yukon pourrait être le résultat d'une dimunition, pendant la période post-Wisconsinienne, de la disponibilité de la steppe-toundra aride comme habitat dans la presque totalité de Béringia.

Type
Articles
Copyright
Copyright © Entomological Society of Canada 1984

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References

Coope, G. R. 1979. Late Cenozoic fossil Coleoptera: Evolution, biogeography, and ecology. Ann. Rev. Ecol. Syst. 10: 247267.CrossRefGoogle Scholar
Dobzhansky, T. 1924. Die weiblichen Generationsorgane der Coccinelliden als Artmerkmal betrachtet (Col.). Ent. Mitt. 13: 1827.Google Scholar
Hopkins, D. M., Matthews, J. V. Jr., Schweger, C. E., and Young, S. B. (Editors). 1982. Paleoecology of Beringia. Academic Press, NY. xiv + 489 pp.Google Scholar
Howden, A. T. 1976. Pandeleteius of Venezuela and Colombia (Curculionidae: Brachyderinae: Tanymecini). Mem. Am. ent. Inst. 24. 310 pp.Google Scholar
Kissinger, D. G. 1964. Curculionidae of America North of Mexico, a Key to the Genera. Taxonomic Publications, South Lancaster, MA. vi + 143 pp.Google Scholar
Kissinger, D. G. 1970. Curculionidae tribe Ophryastini of North America (Coleoptera). Taxonomic Publications, South Lancaster, MA. vi + 238 pp.Google Scholar
Marshall, G. A. K. 1916. Fauna British India. Coleoptera. Rhynchophora: Curculionidae. London. 367 pp.CrossRefGoogle Scholar
Matthews, J. V. Jr., 1968. A paleoenvironmental analysis of three late Pleistocene coleopterous assemblages from Fairbanks, Alaska. Quaest. ent. 4: 202224.Google Scholar
Matthews, J. V. Jr., 1975. Insects and plant macrofossils from two Quaternary exposures in the Old Crow-Porcupine region, Yukon Territory, Canada. Arc. Alp. Res. 7: 249259.CrossRefGoogle Scholar
Matthews, J. V. Jr., 1982. East Beringia during late Wisconsin time: A review of the biotic evidence. pp. 127–150 in Hopkins, D. M., Matthews, J. V. Jr., Schweger, C. E., and Young, S. B. (Eds.), Paleoecology of Beringia. Academic Press, NY. xiv + 489 pp.Google Scholar
McCourt, G. H. 1982. Quaternary palynology of the Bluefish Basin, Northern Yukon Territory. Unpublished M.Sc. Thesis, University of Alberta, Edmonton. xiv + 165 pp.Google Scholar
Morlan, R. E. and Matthews, J. V. Jr., 1983. Taphonomy and paleoecology of fossil insect assemblages from Old Crow River (CRH-15) Northern Yukon Territory, Canada. Geog. phys. Quat. 37: 147157.Google Scholar
Scudder, G. G. E. 1979. Present patterns in the fauna and flora of Canada. pp. 87–179 in Danks, H. V. (Ed.), Canada and its insect fauna. Mem. ent. Soc. Can. 108. 4 + 573 pp.Google Scholar
Ting, P.C. 1936. The mouth parts of the coleopterous group Rhynchophora. Microentomology 1: 93114.Google Scholar