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A Discussion of Atmospheric Circulation During the Last Ice Age

Published online by Cambridge University Press:  20 January 2017

R.G. Barry ,
J.D. Ives  and
J.T. Andrews
R.G. Barry
Affiliation:
Institute of Arctic and Alpine Research, University of Colorado, Boulder, Colorado 80302 USA
J.D. Ives
Affiliation:
Institute of Arctic and Alpine Research, University of Colorado, Boulder, Colorado 80302 USA
J.T. Andrews
Affiliation:
Institute of Arctic and Alpine Research, University of Colorado, Boulder, Colorado 80302 USA
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Quaternary Research , Volume 1 , Issue 3 , September 1971 , pp. 415 - 418
Copyright
University of Washington

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References

Barry, R.G. (1960). The application of synoptic studies in palaeoclimatology: A case-study for Labrador-Ungava. Geografiska Annaler 42, 3644.Google Scholar
Barry, R.G. (1966). Meteorological aspects of the glacial history of Labrador-Ungava with special reference to atmospheric vapour transport. Geographical Bulletin 8, 319340.Google Scholar
Blake, W.H. (1966). End moraines and deglaciation chronology in northern Canada with reference to southern Baffin Island. Geological Survey of Canada, Paper 66-2631.Google Scholar
Blake, W.H. (1970). Studies of glacial history in Arctic Canada. I. Pumice, radiocarbon dates, and differential postglacial uplift in the eastern Queen Elizabeth Islands. Canadian Journal of Earth Sciences, 7, 634664.CrossRefGoogle Scholar
Broecker, W.S. van Donk, J. (1970). Insolation changes, ice volumes and the O18 record in deep-sea cores. Reviews of Geophysics and Space Physics 8, 169198.CrossRefGoogle Scholar
Brinkmann, W.A.R. (1970). "A Synoptic Climatological Study of Synchronous Growth of the Keewatin and Labrador-Ungava Dispersal Centers of the Laurentide Ice Sheet." Unpub. Manuscript,Institute of Arctic and Alpine Research, University of Colorado 51Unpub. manuscript.Google Scholar
Bryson, R.A. Wendland, W.M. Ives, J.D. Andrews, J.T. (1969). Radiocarbon isochrones on the disintegration of the Laurentide ice sheet. Arctic and Alpine Research 1, 114.CrossRefGoogle Scholar
Craig, B.G. Fyles, J.G. (1965). Quaternary of Arctic Canada. Transactions of the Research Institute for Arctic Geology, USSR143, 533(in Russian, English summary).Google Scholar
Dansgaard, W. Johnsen, S.I. Møller, J. Langway jr., C.C. (1969). One thousand centuries of climatic record from Camp Century on the Greenland ice sheet. Science 166, 377381.CrossRefGoogle ScholarPubMed
Dzerdzeevski, D.L. (1963). Fluctuations of general circulation of the atmosphere and climate in the twentieth century. In "Changes of Climate, Arid Zone Research," Vol. 20, 285295. UNESCO Paris.Google Scholar
Emiliani, C. (1961). Cenozoic climatic changes as indicated by the stratigraphy and chronology of deep-sea cores of Globerigina ooze facies. Annals of the New York Academy of Sciences 95, 521536.CrossRefGoogle Scholar
Epstein, S. Sharp, R.P. Gow, A.J. (1970). Antarctic ice sheet: Stable isotope analyses of Byrd Station cores and inter-hemispheric climatic implications. Science 168, 15701572.CrossRefGoogle Scholar
Falconer, G. Ives, J.D. Løken, O.H. Andrews, J.T. (1965). Major end moraines in eastern and central Arctic Canada. Geographical Bulletin 7, 137153.Google Scholar
Flint, R.F. (1945). Glacial map of North America. Geological Society of America Special Paper No. 60, Part 1, Map.Google Scholar
(1958). Geological Association of Canada. "Glacial Map of Canada," Geological Association Ottawa.Google Scholar
Geological Survey of Canada (1968)."Glacial Map of Canada," Geological Survey of Canada, Department of Energy, Mines and Resources OttawaMap 1253A.Google Scholar
Geological Survey of Canada(1969). "Retreat of Wisconsin and Recent Ice in North America,"Map 1257A. Geological Survey of Canada, Department of Energy, Mines and Resources, Ottawa.Google Scholar
Goldthwaite, R.P. Dreimanis, A. Forsyth, J.L. Karrow, P.F. White, G.W. (1965). Pleistocene deposits of the Erie lobe. In "The Quarternary of the United States"(Wright jr., H.E. Frey, D.G., eds.), pp85112.Princeton University Press Princeton, New Jersey.Google Scholar
Gross, H. (1958). Die bisherigen Ergebnisse von C-14 Messunges. Eiszeitalter und Gegenwart 9, 155187.Google Scholar
Ives, J.D. (1956). Till patterns in central Labrador. Canadian Geographer 8, 2533.CrossRefGoogle Scholar
Ives, J.D. (1960). The deglaciation of Labrador-Ungava—An outline. Cahiers de Géographie de Québec No. 8, 323344.CrossRefGoogle Scholar
Ives, J.D. Andrews, J.T. (1963). Studies in the physical geography of north-central Baffin Island, N.W.T. Geographical BulletinNo. 19, 548.Google Scholar
Jackson, C.I.J. (1961). Summer precipitation in the Queen Elizabeth Islands. Folia Geographica Danica 9, 140153.Google Scholar
Lamb, H.H. Johnson, A.I. (1966). Secular variations of the atmospheric circulation since 1750. Geophysical Memoir No.110, Her Majesty's Stationery Office London 125.Google Scholar
Lamb, H.H. Woodroffe, A. (1970). Atmospheric circulation during the last Ice Age. Quaternary Research 1, 2958.CrossRefGoogle Scholar
Leighly, J. (1949). On continentality and glaciation. Geografiska Annaler 31, 131145.Google Scholar
Nichols, H. (1967). The postglacial history of vegetation and climate at Ennadai Lake, Keewatin, and Lynn Lake, Manitoba. Eiszeitalter und Gegenwart 18, 176197.Google Scholar
Nichols, H. (1970). Late Quaternary pollen diagrams from the Canadian Arctic barren ground at Pelly Lake, northern Keewatin, N.W.T. Arctic and Alpine Research 2, 4361.CrossRefGoogle Scholar
Richmond, G.M. (1970). Comparison of the Quaternary stratigraphy of the Alps and Rocky Mountains. Quaternary Research 1, 328.CrossRefGoogle Scholar
Tanner, W.F. (1965). Cause and development of an ice age. Journal of Geology 73, 413430.CrossRefGoogle Scholar
van der Hammen, J. Maarleveld, A.D. Vogel, J.C. Zagwin, W.H. (1967). Stratigraphy, climatic succession and radiocarbon dating of the last glacial in the Netherlands. Geologie en Mijnbouw 46, 7995.Google Scholar
Veeh, H.H. Chappell, J. (1970). Astronomical theory of climatic change: Support from New Guinea. Science 167, 862865.CrossRefGoogle ScholarPubMed
Weertman, J. (1964). Rate of growth or shrinkage of non-equilibrium ice sheets. Journal of Glaciology 38, 145158.CrossRefGoogle Scholar