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Analysis of hemlock pollen size in Holocene lake sediments from New England

Published online by Cambridge University Press:  20 January 2017

Lindsay T. Day ,
W. Wyatt Oswald ,
Elaine D. Doughty  and
David R. Foster
Lindsay T. Day
Affiliation:
Emerson College, 120 Boylston Street, Boston, MA 02116, USA
W. Wyatt Oswald*
Affiliation:
Emerson College, 120 Boylston Street, Boston, MA 02116, USA Harvard Forest, 324 North Main Street, Petersham, MA 01366, USA
Elaine D. Doughty
Affiliation:
Harvard Forest, 324 North Main Street, Petersham, MA 01366, USA
David R. Foster
Affiliation:
Harvard Forest, 324 North Main Street, Petersham, MA 01366, USA
*
*Corresponding author at: Emerson College, 120 Boylston Street, Boston, MA 02116, USA. E-mail address:[email protected] (W.W. Oswald).
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Abstract

We explored the middle-Holocene decline of Tsuga canadensis by measuring the diameters of pollen grains in two lake-sediment cores from New England. We hypothesized that a drop in pollen size at the time of the decline followed by an increase in pollen diameters as Tsuga recovered during the late Holocene might indicate reduced abundance of Tsuga in the vicinity of the lake during the decline, as smaller pollen grains travel farther than larger ones. To provide context for this hypothesis, we also measured the diameters of Tsuga pollen grains in the surface sediments of sites spanning the modern-day gradient of Tsuga in New England. Both fossil records exhibited a reduction in pollen size during the interval of the middle-Holocene decline, with diameters similar to those observed in the upper sediments of those sites, yet larger than Tsuga pollen grains in the surface sediments of coastal sites beyond the modern range of Tsuga. This pattern suggests that Tsuga persisted in scattered, low-density populations during the middle Holocene, as it has remained on the landscape since European settlement.

Keywords

Hemlock declineMassachusettsPalynologyTsuga canadensisVermont
Type
Short Paper
Information
Quaternary Research , Volume 79 , Issue 3 , May 2013 , pp. 362 - 365
Copyright
University of Washington

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