Hostname: page-component-848d4c4894-ndmmz Total loading time: 0 Render date: 2024-05-12T17:53:54.229Z Has data issue: false hasContentIssue false
  • English
  • Français

POSTGLACIAL COLONIZATION OF CANADA BY ITS SUBBOREAL WINTER STONEFLIES OF THE GENUS ALLOCAPNIA1

Published online by Cambridge University Press:  31 May 2012

Herbert H. Ross ,
George L. Rotramel ,
John E. H. Martin  and
J. Frank McAlpine
Herbert H. Ross
Affiliation:
Illinois Natural History Survey, Urbana
George L. Rotramel
Affiliation:
Illinois Natural History Survey, Urbana
John E. H. Martin
Affiliation:
Entomology Research Institute, Canada Department of Agriculture, Ottawa
J. Frank McAlpine
Affiliation:
Entomology Research Institute, Canada Department of Agriculture, Ottawa
Get access Rights & Permissions [Opens in a new window]

Abstract

The three boreal species of the winter stonefly genus Allocapnia, minima (Newport), pygmaea (Burmeister), and illinoensis Frison are subboreal species whose ranges include a band across eastern Canada from the western end of Lake Superior to the east coast; minima occurs also in Newfoundland. An analysis of variation in pygmaea and illinoensis suggests that during the Wisconsin glacial maximum these two species occurred south of the ice in the Cumberland Plateau region in east-central United States, and that they dispersed first northward through the Appalachians, then east and west into their present range. Geoclimatic evidence suggests that minima did not persist in Newfoundland during the glacial maximum. Its ecological similarity to pygmaea suggests that minima also persisted in the Cumberland Plateau area and dispersed in the same fashion as the other two species.

Type
Articles
Information
The Canadian Entomologist , Volume 99 , Issue 7 , July 1967 , pp. 703 - 712
Copyright
Copyright © Entomological Society of Canada 1967

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

Brown, R. J. E. 1965. Factors influencing discontinuous permafrost in Canada. Int. Ass. Quat. Res., 7th Int. Congr., Abstr. Gen. Sessions. p. 47Google Scholar
Bryson, R. A., Larsen, J. A., and Irving, W. N.. 1965. Climate and post-glacial forest history in southwestern Keewatin, N.W.T.: 1. Soils and radiocarbon evidence. Int. Ass. Quat. Res., 7th Int. Congr., Abstr. Gen. Sessions. p. 53.Google Scholar
Fernald, M. L. 1925. Persistence of plants in unglaciated areas of Boreal America. Mem. Am. Acad. Arts Sci. 15: 237342.Google Scholar
Hanson, J. F. 1960. A case of hybridization in Plecoptera. Bull. Brooklyn ent. Soc. 40: 2534.Google Scholar
Jenness, J. E. 1960. Late Pleistocene glaciation of eastern Newfoundland. Bull. geol. Soc. Am. 71: 161179.CrossRefGoogle Scholar
Kaiser, K. 1965. European climate during the great Ice-Age. Int. Ass. Quat. Res., 7th Int. Congr., Abstr. Gen. Sessions. p. 255.Google Scholar
Lindroth, C. H. 1963. The fauna history of Newfoundland. Opus. Ent. Lund., Supp. 23.Google Scholar
MacClintock, P., and Twenhofel, W. H.. 1960. Wisconsin glaciation of Newfoundland. Bull. geol. Soc. Am. 51: 17291756.CrossRefGoogle Scholar
Ross, H. H., and Yamamoto, T.. Variations in the winter stonefly Allocapnia granulata as indicators of Pleistocene faunal movements. Ann. ent. Soc. Am. 59: 447458.Google Scholar
Wynne-Edwards, V. C. 1937. Isolated arctic-alpine floras in eastern North America: A discussion of their glacial and recent history. Trans. R. Soc. Can. 31(3): 3358.Google Scholar