Millennial and Century Climate Changes in the Colorado Alpine

Ecosystems are the products of regional biotic history, shaped by environmental changes that have occurred over thousands of years. Accordingly, ecological changes take place at many timescales, but perhaps none is more significant than the truly long-term scale of centuries and millennia, for it is...

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Main Author: Elias, Scott
Format: Book Part
Language:unknown
Published: Oxford University Press 2003
Subjects:
Canada
Tundra
Online Access:http://dx.doi.org/10.1093/oso/9780195150599.003.0033
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spelling croxfordunivpr:10.1093/oso/9780195150599.003.0033 2023-05-15T18:40:20+02:00 Millennial and Century Climate Changes in the Colorado Alpine Elias, Scott 2003 http://dx.doi.org/10.1093/oso/9780195150599.003.0033 unknown Oxford University Press Climate Variability and Ecosystem Response in Long-Term Ecological Research Sites book-chapter 2003 croxfordunivpr https://doi.org/10.1093/oso/9780195150599.003.0033 2022-08-05T10:32:16Z Ecosystems are the products of regional biotic history, shaped by environmental changes that have occurred over thousands of years. Accordingly, ecological changes take place at many timescales, but perhaps none is more significant than the truly long-term scale of centuries and millennia, for it is at these timescales that ecosystems form, break apart, and reform in new configurations. This is certainly true in the alpine regions, where glaciations have dominated the landscape for perhaps 90% of the last 2.5 million years (Elias 1996a). In the alpine tundra zone, the periods between ice ages have been relatively brief (10,000–15,000 years), whereas glaciations have been long (90,000–100,000 years). Glacial ice has been the dominant force in shaping alpine landscapes. Glacial climate has been the filter through which the alpine biota has had to pass repeatedly in the Pleistocene. This chapter discusses climatic events during the last 25,000 years (figure 18.1). At the beginning of this interval, temperatures cooled throughout most of the Northern Hemisphere, culminating in the last glacial maximum (LGM), about 20,000–18,000 yr b.p. (radiocarbon years before present). The Laurentide and Cordilleran ice sheets advanced southward, covering most of Canada and the northern tier of the United States. Glaciers also crept down from mountaintops to fill high valleys in the Rocky Mountains. In the Southern Rockies, the alpine tundra zone crept downslope into what is now the subalpine, beyond the reach of the relatively small montane glaciers. By about 14,000 yr b.p., the glacier margins began to recede, leading eventually to the postglacial environments of the Holocene. It is now becoming apparent that the climate changes that drove these events were surprisingly rapid and intense. This chapter examines the evidence for these climatic changes and the biotic response to them in the alpine zone of Colorado. To reconstruct the environmental changes of this period, we must rely on proxy data, that is, the fossil record of ... Book Part Tundra Oxford University Press (via Crossref) Canada
institution Open Polar
collection Oxford University Press (via Crossref)
op_collection_id croxfordunivpr
language unknown
description Ecosystems are the products of regional biotic history, shaped by environmental changes that have occurred over thousands of years. Accordingly, ecological changes take place at many timescales, but perhaps none is more significant than the truly long-term scale of centuries and millennia, for it is at these timescales that ecosystems form, break apart, and reform in new configurations. This is certainly true in the alpine regions, where glaciations have dominated the landscape for perhaps 90% of the last 2.5 million years (Elias 1996a). In the alpine tundra zone, the periods between ice ages have been relatively brief (10,000–15,000 years), whereas glaciations have been long (90,000–100,000 years). Glacial ice has been the dominant force in shaping alpine landscapes. Glacial climate has been the filter through which the alpine biota has had to pass repeatedly in the Pleistocene. This chapter discusses climatic events during the last 25,000 years (figure 18.1). At the beginning of this interval, temperatures cooled throughout most of the Northern Hemisphere, culminating in the last glacial maximum (LGM), about 20,000–18,000 yr b.p. (radiocarbon years before present). The Laurentide and Cordilleran ice sheets advanced southward, covering most of Canada and the northern tier of the United States. Glaciers also crept down from mountaintops to fill high valleys in the Rocky Mountains. In the Southern Rockies, the alpine tundra zone crept downslope into what is now the subalpine, beyond the reach of the relatively small montane glaciers. By about 14,000 yr b.p., the glacier margins began to recede, leading eventually to the postglacial environments of the Holocene. It is now becoming apparent that the climate changes that drove these events were surprisingly rapid and intense. This chapter examines the evidence for these climatic changes and the biotic response to them in the alpine zone of Colorado. To reconstruct the environmental changes of this period, we must rely on proxy data, that is, the fossil record of ...
format Book Part
author Elias, Scott
spellingShingle Elias, Scott
Millennial and Century Climate Changes in the Colorado Alpine
author_facet Elias, Scott
author_sort Elias, Scott
title Millennial and Century Climate Changes in the Colorado Alpine
title_short Millennial and Century Climate Changes in the Colorado Alpine
title_full Millennial and Century Climate Changes in the Colorado Alpine
title_fullStr Millennial and Century Climate Changes in the Colorado Alpine
title_full_unstemmed Millennial and Century Climate Changes in the Colorado Alpine
title_sort millennial and century climate changes in the colorado alpine
publisher Oxford University Press
publishDate 2003
url http://dx.doi.org/10.1093/oso/9780195150599.003.0033
geographic Canada
geographic_facet Canada
genre Tundra
genre_facet Tundra
op_source Climate Variability and Ecosystem Response in Long-Term Ecological Research Sites
op_doi https://doi.org/10.1093/oso/9780195150599.003.0033
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