Hostname: page-component-8448b6f56d-sxzjt Total loading time: 0 Render date: 2024-04-19T17:46:54.468Z Has data issue: false hasContentIssue false
  • English
  • Français

LATE QUATERNARY HISTORY OF THE NORTHERN BEETLE FAUNA OF NORTH AMERICA: A SYNTHESIS OF FOSSIL AND DISTRIBUTIONAL EVIDENCE

Published online by Cambridge University Press:  31 May 2012

Donald P. Schwert  and
Allan C. Ashworth
Donald P. Schwert
Affiliation:
Geology Department, North Dakota State University, Fargo, North Dakota, USA 58105
Allan C. Ashworth
Affiliation:
Geology Department, North Dakota State University, Fargo, North Dakota, USA 58105
Get access

Abstract

Fossils from sites of Late Quaternary age in North America provide tangible evidence of temporal changes in the character of the northern beetle fauna. Based on a synthesis of the fossil data with analyses of the present distributions for northern species, a rudimentary model is proposed to explain the recent history of the fauna of the arctic and the boreal forest.An open-ground beetle fauna of arctic–subarctic affinities had become established along the southern margin of the Laurentide ice sheet in the midcontinent by 20 500 years before present (yr B.P.). Climatic warming decimated this fauna throughout lowland areas at some time between 16 700 and 15 300 yr B.P.; small populations of some arctic–subarctic species, however, survived within either alpine habitats of the Cordillera and Appalachians or specialized environments associated with stagnant ice.Populations of the same arctic–subarctic beetle species existed within the ice-free Alaska–Yukon refugium throughout the late Wisconsinan. During the Holocene, this region served as the principal centre-of-origin for the dispersal of the arctic–subarctic beetle fauna.The beetle fauna of the boreal forest was also displaced southward by Late Wisconsinan glaciation. By 15 300 yr B.P., however, this fauna had largely replaced the arctic–subarctic beetle fauna along the ice margin of the midcontinent. Evidence provided by fossils from a series of sites demonstrates that beetle species of the boreal forest dispersed northward into Canada as the ice front receded.

Résumé

Des fossiles provenant de sites datant de la fin du Quaternaire en Amérique du Nord fournissent des preuves tangibles des changements de la nature de la faune coléoptérienne au cours du temps. A l'aide d'une synthèse des données fossiles analysant la distribution actuelle des espèces nordiques, un modèle simple est proposé pour expliquer l'histoire récente de la faune de l'arctique et de la forêt boréale.Une faune coléoptérienne de sol dénudé avec des affinitées arctiques–subarctiques s'était établie le long de la bordure sud de la calotte glaciaire Laurentide au milieu du continent autour de 20 500 ans B.P. Le réchauffement climatique a décimé cette faune dans les terres basses quelque part entre 16 700 et 15 300 B.P.; de petites populations de certaines espèces arctiques–subarctiques ont cependant survécu dans des milieux alpins de la Cordillère ou des Appalaches, ou dans des milieux particuliers avec glace stagnante.Des populations des mêmes espèces coléoptériennes arctiques–subarctiques ont persisté dans le refuge de l'Alaska–Yukon durant toute la dernière partie du Wisconsinien. Au cours de l'Holocène, cette région a servi de foyer principal de dispersion des coléoptères arctiques–subarctiques.La faune coléoptérienne de la forêt boréale a aussi été déplacée au sud par la glaciation de la fin du Wisconsinien. Autour de 15 300 B.P. cependant, cette faune avait remplacé la faune coléoptérienne arctique–subarctique le long de la bordure glaciaire du milieu du continent. Des preuves fossiles provenant de plusieurs sites démontrent que des espèces de coléoptères de la forêt boréale se sont avancées vers le nord au Canada avec le retrait du front glaciaire.

Type
Research Article
Information
The Memoirs of the Entomological Society of Canada , Volume 120 , Supplement S144 , 1988 , pp. 93 - 107
Copyright
Copyright © Entomological Society of Canada 1988

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

Ashworth, A.C. 1977. A late Wisconsinan coleopterous assemblage from southern Ontario and its environmental significance. Can. J. Earth Sci. 14: 16251634.Google Scholar
Ashworth, A.C. 1979. Quaternary Coleoptera studies in North America: past and present. pp. 395–405 in Erwin, T.L., Ball, G.E., and Whitehead, D.R. (Eds.), Carabid Beetles: Their Evolution, Natural History, and Classification. W. Junk, The Hague. 635 pp.Google Scholar
Ashworth, A.C., Clayton, L., and Bickley, W.B.. 1972. The Mosbeck site: a paleoenvironmental interpretation of the late Quaternary history of Lake Agassiz based on fossil insect and mollusc remains. Quat. Res. 2: 176188.Google Scholar
Ashworth, A.C.Schwert, D.P., Watts, W.A., and Wright, H.E. Jr., 1981. Plant and insect fossils at Norwood in south-central Minnesota: a record of late-glacial succession. Quat. Res. 16: 6679.Google Scholar
Baker, R. G., Rhodes, R.S., Schwert, D.P., Ashworth, A.C., Frest, T.J., Hallberg, G.R., and Janssens, J.A.. 1986. A full-glacial biota from southeastern Iowa. J. Quat. Sci. 1: 91107.Google Scholar
Ball, G.E. 1966. A revision of the North American species of the subgenus Cryobius Chaudoir (Pterostichus, Carabidae, Coleoptera). Opusc. ent. Suppl. 28. 166 pp.Google Scholar
Campbell, J.M. 1979. A Revision of the Genus Tachyporus Gravenhorst (Coleoptera: Staphylinidae) of North and Central America. Mem. ent. Soc. Can. 109. 95 pp.Google Scholar
Campbell, J.M. 1980. Distribution patterns of Coleoptera in eastern Canada. Can. Ent. 112: 11611175.Google Scholar
Campbell, J.M. 1982. A revision of the North American Omaliinae (Coleoptera: Staphylinidae). 3. The genus Acidota Stephens. Can. Ent. 114: 10031029.Google Scholar
Campbell, J.M. 1983. A revision of the North American Omaliinae (Coleoptera: Staphylinidae). The genus Olophrum Erichson. Can. Ent. 115: 577622.Google Scholar
Carter, K.D. 1985. Middle and late Wisconsinan (Pleistocene) insect assemblages from Illinois. Unpubl. M.S. thesis, University of North Dakota. 124 pp.Google Scholar
Clayton, L., and Moran, S.R.. 1982. Chronology of late Wisconsinan glaciation in middle North America. Quat. Sci. Rev. 1: 5582.Google Scholar
Coope, G.R. 1979. Late Cenozoic fossil Coleoptera: evolution, biogeography, and ecology. A. Rev. Ecol. Syst. 10: 247267.10.1146/annurev.es.10.110179.001335Google Scholar
Danks, H.V. 1981. Arctic Arthropods: A Review of Systematics and Ecology with Particular Reference to the North American Fauna. Ent. Soc. Can., Ottawa. 608 pp.Google Scholar
Denton, G.H., and Hughes, T.. 1981. The Last Great Ice Sheets. Wiley Interscience Press, New York.Google Scholar
Garry, C.E., Baker, R.W., Schwert, D.P., Millar, B.B., and Schneider, A.F.. 1985. Twocreekan paleoenvironment of the west-central Lake Michigan basin (Kewaunee area) from insectan and molluscan assemblages. Geol. Soc. Am. Abst. Prog. 17(5): 289.Google Scholar
Gordon, R.D. 1985. The Coccinellidae (Coleoptera) of America north of Mexico. J. New York ent. Soc. 93: 1912.Google Scholar
Howden, H.F. 1963. Speculations on some beetles, barriers and climates during the Pleistocene and Pre-Pleistocene periods in some nonglaciated portions of North America. Syst. Tool. 12: 178201.Google Scholar
Lindroth, C.H. 1961. The ground-beetles of Canada and Alaska (2). Opusc. ent. Suppl. 20.Google Scholar
Lindroth, C.H. 1963 a. The fauna history of Newfoundland illustrated by carabid beetles. Opusc. ent. Suppl. 23. 112 pp.Google Scholar
Lindroth, C.H. 1963 b. The ground-beetles of Canada and Alaska (3). Opusc. ent. Suppl. 24.Google Scholar
Lindroth, C.H. 1966. The ground-beetles of Canada and Alaska (4). Opusc. ent. Suppl. 29.Google Scholar
Lindroth, C.H. 1968. The ground-beetles of Canada and Alaska (5). Opusc. ent. Suppl. 33.Google Scholar
Lindroth, C.H. 1969. The ground-beetles of Canada and Alaska (6). Opusc. ent. Suppl. 34.Google Scholar
Lindroth, C.H. 1970. Survival of animals and plants on ice-free refugia during the Pleistocene glaciations. Endeavor 29: 129134.Google Scholar
Matthews, J. V. Jr., 1974. Quaternary environments at Cape Deceit (Seward Peninsula, Alaska): evolution of a tundra ecosystem. Geol. Soc. Am. Bull. 85: 13531384.Google Scholar
Matthews, J. V. Jr., 1975. Incongruence of macrofossil and pollen evidence: a case from the late Pleistocene of the northern Yukon coast. Geol. Surv. Can. Paper 75–l(B): 139146.Google Scholar
Miller, R.F., and Morgan, A.V.. 1982. A postglacial coleopterous assemblage from Lockport Gulf, New York. Quat. Res. 17: 258274.Google Scholar
Morgan, A. 1972. The fossil occurrence of Helophorus arcticus Brown (Coleoptera: Hydrophilidae) in Pleistocene deposits of the Scarborough Bluffs, Ontario. Can. J. Zool. 50: 555558.Google Scholar
Morgan, A.V., and Morgan, A.. 1979. The fossil Coleoptera of the Two Creeks Forest Bed, Wisconsin. Quat. Res. 12: 226240.Google Scholar
Morgan, A.V., and Morgan, A.. 1980. Faunal assemblages and distributional shifts of Coleoptera during the Late Pleistocene in Canada and the northern United States. Can. Ent. 112: 11051128.Google Scholar
Mott, R.J., Anderson, T.W., and Matthews, J.V. Jr., 1981. Late-glacial paleoenvironments of sites bordering the Champlain Sea based on pollen and plant macrofossil evidence. pp. 129172in Mahaney, W.C. (Ed.), Quaternary Paleoclimate. GeoAbstracts, Norwich, England.Google Scholar
Ruddiman, W.F., and McIntyre, A.. 1981. The mode and mechanism of the last deglaciation: oceanic evidence. Quat. Res. 16: 125134.Google Scholar
Schwert, D.P., and Morgan, A.V.. 1980. Paleoenvironmental implications of a late glacial insect assemblage from northwestern New York. Quat. Res. 13: 93110.Google Scholar
Schwert, D.P., Anderson, T.W., Morgan, A., Morgan, A.V., and Karrow, P.F.. 1985. Changes in late Quaternary vegetation and insect communities in southwestern Ontario. Quat. Res. 23: 205226.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. 573 pp.Google Scholar
Scudder, S.H. 1894. The effect of glaciation and of the glacial period on the present fauna of North America. Am. J. Sci. (3rd ser.) 48: 179187.Google Scholar
Watts, W.A. 1983. Vegetational history of the eastern United States 25,000 to 10,000 years ago. pp. 294–310 in Wright, H.E. Jr., (Ed.), Late-Quaternary Environments of the United States, Vol. 1 (Porter, S.C., Ed.) The Late Pleistocene. Univ. Minnesota Press, Minneapolis. 407 pp.Google Scholar
Woodman, N. 1982. A subarctic fauna from the late Wisconsinan Elkader site, Clayton County, Iowa. Unpubl. M.S. thesis, University of Iowa. 56 pp.Google Scholar