Climatic changes in southern Connecticut recorded by pollen deposition at Rogers Lake

Rates of deposition of pollen grains throughout late- and postglacial time were determined from the pollen concentration in radiocarbon-dated sediment. Changes by a factor of 5 or more for all except rare pollen types from one level to the next were considered significant indication of changes in th...

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Bibliographic Details
Main Author: Davis, Margaret B.
Format: Article in Journal/Newspaper
Language:English
Published: 1969
Subjects:
Tundra
Online Access:http://hdl.handle.net/11299/178245
id ftunivminnesdc:oai:conservancy.umn.edu:11299/178245
record_format openpolar
spelling ftunivminnesdc:oai:conservancy.umn.edu:11299/178245 2023-05-15T18:40:36+02:00 Climatic changes in southern Connecticut recorded by pollen deposition at Rogers Lake Davis, Margaret B. 1969 http://hdl.handle.net/11299/178245 en eng Davis, Margaret B. "Climatic Changes in Southern Connecticut Recorded by Pollen Deposition at Rogers Lake." Ecology 50.3 (1969): 409-22. http://hdl.handle.net/11299/178245 Article 1969 ftunivminnesdc 2020-02-02T14:50:17Z Rates of deposition of pollen grains throughout late- and postglacial time were determined from the pollen concentration in radiocarbon-dated sediment. Changes by a factor of 5 or more for all except rare pollen types from one level to the next were considered significant indication of changes in the pollen input to the lake, reflecting changes in the pollen productivity of the surrounding vegetation. Low pollen deposition rates in the oldest sediments reflect the prevalence of tundra vegetation between 14,000 and 12,000 years ago. An increase in the rate for tree pollen occurred 12,000 years ago, when boreal woodland became established. The rates continued to increase until a sudden sharp rise for white pine, hemlock, poplar, oak, and maple pollen 9,000 years ago marked the establishment of forest, similar perhaps to modern forests of the northern Great Lakes region. Pine pollen rates declined 8,000 years ago, and deciduous tree pollen became dominant. Ragweed pollen was deposited at relatively high rates 8,000 years ago, reflecting changes in the vegetation associated with the "prairie period" recorded in the Great Lakes region at this time. Subsequent changes in pollen deposition rates reflect the immigration of beech (6,500 years B.P.), hickory (5,500 years B.P.), and chestnut (2,000 B.P.) to southern Connecticut. During the past few hundred years pollen deposition rates reflect changes in the vegetation caused by disturbance by European settlers. Throughout much of postglacial time the pollen assemblages deposited at Rogers Lake are different from assemblages known from modern sediment. This makes climatic interpretation difficult and suggests that the forest associations of the region as they are recognized now are of quite recent origin. Article in Journal/Newspaper Tundra University of Minnesota Digital Conservancy
institution Open Polar
collection University of Minnesota Digital Conservancy
op_collection_id ftunivminnesdc
language English
description Rates of deposition of pollen grains throughout late- and postglacial time were determined from the pollen concentration in radiocarbon-dated sediment. Changes by a factor of 5 or more for all except rare pollen types from one level to the next were considered significant indication of changes in the pollen input to the lake, reflecting changes in the pollen productivity of the surrounding vegetation. Low pollen deposition rates in the oldest sediments reflect the prevalence of tundra vegetation between 14,000 and 12,000 years ago. An increase in the rate for tree pollen occurred 12,000 years ago, when boreal woodland became established. The rates continued to increase until a sudden sharp rise for white pine, hemlock, poplar, oak, and maple pollen 9,000 years ago marked the establishment of forest, similar perhaps to modern forests of the northern Great Lakes region. Pine pollen rates declined 8,000 years ago, and deciduous tree pollen became dominant. Ragweed pollen was deposited at relatively high rates 8,000 years ago, reflecting changes in the vegetation associated with the "prairie period" recorded in the Great Lakes region at this time. Subsequent changes in pollen deposition rates reflect the immigration of beech (6,500 years B.P.), hickory (5,500 years B.P.), and chestnut (2,000 B.P.) to southern Connecticut. During the past few hundred years pollen deposition rates reflect changes in the vegetation caused by disturbance by European settlers. Throughout much of postglacial time the pollen assemblages deposited at Rogers Lake are different from assemblages known from modern sediment. This makes climatic interpretation difficult and suggests that the forest associations of the region as they are recognized now are of quite recent origin.
format Article in Journal/Newspaper
author Davis, Margaret B.
spellingShingle Davis, Margaret B.
Climatic changes in southern Connecticut recorded by pollen deposition at Rogers Lake
author_facet Davis, Margaret B.
author_sort Davis, Margaret B.
title Climatic changes in southern Connecticut recorded by pollen deposition at Rogers Lake
title_short Climatic changes in southern Connecticut recorded by pollen deposition at Rogers Lake
title_full Climatic changes in southern Connecticut recorded by pollen deposition at Rogers Lake
title_fullStr Climatic changes in southern Connecticut recorded by pollen deposition at Rogers Lake
title_full_unstemmed Climatic changes in southern Connecticut recorded by pollen deposition at Rogers Lake
title_sort climatic changes in southern connecticut recorded by pollen deposition at rogers lake
publishDate 1969
url http://hdl.handle.net/11299/178245
genre Tundra
genre_facet Tundra
op_relation Davis, Margaret B. "Climatic Changes in Southern Connecticut Recorded by Pollen Deposition at Rogers Lake." Ecology 50.3 (1969): 409-22.
http://hdl.handle.net/11299/178245
_version_ 1766229990993559552

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