RADIOCARBON ISOCHRONES OF THE RETREAT OF THE LAURENTIDE ICE SHEET.

A Map of northern North America is presented which shows isochrones of the outer limit of the Laurentide ice sheet from about 13,000 years ago until the present. The data points are radiocarbon dates of moraines, basal peat, and lacustrine deposits which represent the dates of deglaciation. The chro...

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Bibliographic Details
Main Authors: Bryson,Reid A., Wendland,Wayne M.
Other Authors: WISCONSIN UNIV MADISON DEPT OF METEOROLOGY
Format: Text
Language:English
Published: 1967
Subjects:
Geology
Geochemistry and Mineralogy
Snow
Ice and Permafrost
(*GEOLOGIC AGE DETERMINATION
ICE)
(*GLACIERS
NORTH AMERICA)
DEPOSITS
PERIODIC VARIATIONS
CLOUD COVER
ENERGY
HEAT TRANSFER
GREAT LAKES
HISTORY
ARCTIC REGIONS
ARCTIC OCEAN ISLANDS
MAPS
MASS TRANSFER
RADIOCARBON DATING
Arctic
Arctic Ocean
Hudson Bay
Baffin Island
Hudson
Barnes Ice Cap
Baffin
Ice
Ice cap
Ice Sheet
Keewatin
permafrost
James Bay
Online Access:http://www.dtic.mil/docs/citations/AD0664816
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=AD0664816
Description
Summary:A Map of northern North America is presented which shows isochrones of the outer limit of the Laurentide ice sheet from about 13,000 years ago until the present. The data points are radiocarbon dates of moraines, basal peat, and lacustrine deposits which represent the dates of deglaciation. The chronology of the ice sheet shows that the ice front retreated northward from the Great Lakes to south of James Bay by about 8,000 years ago. By about 7,500 yrs BP, the continental ice sheet was split by an open Hudson Bay, with one center of ice over northern Keewatin and Baffin Island, and another about 400 km south of Ungava. By 7,000 yrs BP, the ice over Baffin Island had separated from the mass of ice to the west. The Baffin Island ice remained after that time, and apparently is found today as the Barnes Ice Cap and the Penny Glacier. The ice retreated faster over the Prairie Provinces than over the Labrador-Quebec area, suggesting that snowfall and/or cloud cover inhibited the retreat in the more maritime area. A glacial energy balance is presented which compares a glacial net radiation regime to that of a non-glacial time. The effect of variations in mean cloud cover and snowfall upon the ablation rate are investigated. It is suggested that cloud cover is the important determining factor for glacial net budget at lower latitudes, and that snowfall is more important at higher latitudes. (Author)

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