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Holocene Climatic Change in the Northern Midwest: Pollen-Derived Estimates

Published online by Cambridge University Press:  20 January 2017

P. J. Bartlein
Affiliation:
Department of Geological Sciences, Brown University, Providence, Rhode Island 02912-1846
T. Webb III
Affiliation:
Department of Geological Sciences, Brown University, Providence, Rhode Island 02912-1846
E. Fleri
Affiliation:
Department of Geological Sciences, Brown University, Providence, Rhode Island 02912-1846

Abstract

Mapping of Holocene pollen data in the midwestern United States has revealed several broadscale vegetational changes that can be interpreted in climatic terms. These changes include (1) the early Holocene northward movement of the spruce-dominated forest and its later southward movement after 3000 yr B.P. and (2) the eastward movement of the prairie/forest border into southwestern Wisconsin by 8000 yr B.P. and its subsequent westward retreat after 6000 yr B.P. When certain basic assumptions are met, multiple regression models can be derived from modern pollen and climate data and used to transform the pollen record of these vegetational changes into quantitative estimates of temperature or precipitation. To maximize the reliability of the regression equations, we followed a sequence of procedures that minimize violations of the assumptions that underlie regression analysis. Reconstructions of precipitation during the Holocene indicated that from 9000 to 6000 yr B.P. precipitation decreased by 10 to 25% over much of the Midwest, while mean July temperature increased by 0.5° to 2.0°C. At 6000 yr B.P. precipitation was less than 80% of its modern values over parts of Wisconsin and Minnesota. After 6000 yr B.P. precipitation generally increased, while mean July temperature decreased in the north, and increased in the south. The time of the maximum temperature varies within the Midwest and is earlier in the north and later in the south.

Type
Research Article
Copyright
University of Washington

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