Origin of a park-forest vegetation mosaic in the Wind River Range, Wyoming

The vegetation of the montane and subalpine zones of the Rocky Mountains is a mosaic of conifer forests and large (1 ha to several square kilometers) treeless “parks” dominated by sagebrush (Artemisia spp.), grasses, and forbs. Three hypotheses for the origin of parks are proposed. The “permanent si...

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Bibliographic Details
Main Author: E.A. Lynch
Format: Dataset
Language:unknown
Published: Montana IoE Data Repository
Subjects:
vegetation mosaic
Wind River Range
Wyoming
Quaternary paleoecology
park
palynology
climate change
Lynch
Parkland
Wind River
Tundra
Online Access:https://search.dataone.org/view/MontanaIOE.12.6
id dataone:MontanaIOE.12.6
record_format openpolar
spelling dataone:MontanaIOE.12.6 2023-11-08T14:15:00+01:00 Origin of a park-forest vegetation mosaic in the Wind River Range, Wyoming E.A. Lynch Dataset Coverage: Wind River Range Forest Pond Lake_WY_Core 2_Charcoal Forest Pond Lake_WY_Core 1_Charcoal Park Pond_WY_Core 1_Charcoal Park Pond_WY_Core 2_Charcoal Park Pond_WY_Core 3_Charcoal ENVELOPE(-109.95,-109.92,43.45,43.37) 2014-06-28T23:00:00Z https://search.dataone.org/view/MontanaIOE.12.6 unknown Montana IoE Data Repository vegetation mosaic Wind River Range Wyoming Quaternary paleoecology park palynology climate change Dataset dataone:urn:node:IOE 2023-11-08T13:36:54Z The vegetation of the montane and subalpine zones of the Rocky Mountains is a mosaic of conifer forests and large (1 ha to several square kilometers) treeless “parks” dominated by sagebrush (Artemisia spp.), grasses, and forbs. Three hypotheses for the origin of parks are proposed. The “permanent site hypothesis” states that the park–forest vegetation mosaic is a result of differences in physical characteristics of sites. In the “remnant hypothesis” parks are thought to be remnants of vegetation that was widespread under previous climate conditions. The “replacement hypothesis” states that parks replace forest vegetation in response to disturbance, climate change, or a combination of these two factors. Patterns in the past distribution of park and forest vegetation in the vicinity of Fish Creek Park (elevation 2750 m) were used to test these hypotheses. Fossil pollen extracted from the sediments of five small ponds in and around Fish Creek Park was used to reconstruct Holocene vegetation changes. Changes in vegetation were reconstructed through the use of multivariate analyses and pollen ratios derived from modern surface samples and by comparison with pollen data from other studies. The pollen record indicates that shortly after deglaciation (∼11000 yr BP) the area supported alpine tundra, followed by whitebark pine–spruce–fir parkland at ∼9500 yr BP. From ∼8500 to 6000 yr BP, a pine parkland occupied the area, perhaps in response to climate conditions warmer than today. By 5000 yr BP a mixed pine–spruce–fir forest resembling the modern subalpine forest near Fish Creek Park probably replaced the pine parkland at all five sites. The modern park vegetation originated only within the last ∼2500 yr. The conversion to park vegetation may not have been synchronous at all three sites, and the replacement of forest by park did not always result in a long-term conversion to park vegetation. The timing and pattern of changes in the vegetation mosaic eliminate the permanent site and remnant hypotheses and suggest instead that climatic cooling over the last several thousand years, possibly combined with removal of forest cover by fire or some other disturbance, could explain the origin of Fish Creek Park. Lynch, E.A. 1998. Origin of a park-forest vegetation mosaic in the Wind River Range, Wyoming. Ecology 79, 1320-1338. Dataset Tundra Montana IoE Data Repository (via DataONE) Lynch ENVELOPE(-57.683,-57.683,-63.783,-63.783) Parkland ENVELOPE(-120.570,-120.570,55.917,55.917) Wind River ENVELOPE(-135.304,-135.304,65.841,65.841) ENVELOPE(-109.95,-109.92,43.45,43.37)
institution Open Polar
collection Montana IoE Data Repository (via DataONE)
op_collection_id dataone:urn:node:IOE
language unknown
topic vegetation mosaic
Wind River Range
Wyoming
Quaternary paleoecology
park
palynology
climate change
spellingShingle vegetation mosaic
Wind River Range
Wyoming
Quaternary paleoecology
park
palynology
climate change
E.A. Lynch
Origin of a park-forest vegetation mosaic in the Wind River Range, Wyoming
topic_facet vegetation mosaic
Wind River Range
Wyoming
Quaternary paleoecology
park
palynology
climate change
description The vegetation of the montane and subalpine zones of the Rocky Mountains is a mosaic of conifer forests and large (1 ha to several square kilometers) treeless “parks” dominated by sagebrush (Artemisia spp.), grasses, and forbs. Three hypotheses for the origin of parks are proposed. The “permanent site hypothesis” states that the park–forest vegetation mosaic is a result of differences in physical characteristics of sites. In the “remnant hypothesis” parks are thought to be remnants of vegetation that was widespread under previous climate conditions. The “replacement hypothesis” states that parks replace forest vegetation in response to disturbance, climate change, or a combination of these two factors. Patterns in the past distribution of park and forest vegetation in the vicinity of Fish Creek Park (elevation 2750 m) were used to test these hypotheses. Fossil pollen extracted from the sediments of five small ponds in and around Fish Creek Park was used to reconstruct Holocene vegetation changes. Changes in vegetation were reconstructed through the use of multivariate analyses and pollen ratios derived from modern surface samples and by comparison with pollen data from other studies. The pollen record indicates that shortly after deglaciation (∼11000 yr BP) the area supported alpine tundra, followed by whitebark pine–spruce–fir parkland at ∼9500 yr BP. From ∼8500 to 6000 yr BP, a pine parkland occupied the area, perhaps in response to climate conditions warmer than today. By 5000 yr BP a mixed pine–spruce–fir forest resembling the modern subalpine forest near Fish Creek Park probably replaced the pine parkland at all five sites. The modern park vegetation originated only within the last ∼2500 yr. The conversion to park vegetation may not have been synchronous at all three sites, and the replacement of forest by park did not always result in a long-term conversion to park vegetation. The timing and pattern of changes in the vegetation mosaic eliminate the permanent site and remnant hypotheses and suggest instead that climatic cooling over the last several thousand years, possibly combined with removal of forest cover by fire or some other disturbance, could explain the origin of Fish Creek Park. Lynch, E.A. 1998. Origin of a park-forest vegetation mosaic in the Wind River Range, Wyoming. Ecology 79, 1320-1338.
format Dataset
author E.A. Lynch
author_facet E.A. Lynch
author_sort E.A. Lynch
title Origin of a park-forest vegetation mosaic in the Wind River Range, Wyoming
title_short Origin of a park-forest vegetation mosaic in the Wind River Range, Wyoming
title_full Origin of a park-forest vegetation mosaic in the Wind River Range, Wyoming
title_fullStr Origin of a park-forest vegetation mosaic in the Wind River Range, Wyoming
title_full_unstemmed Origin of a park-forest vegetation mosaic in the Wind River Range, Wyoming
title_sort origin of a park-forest vegetation mosaic in the wind river range, wyoming
publisher Montana IoE Data Repository
publishDate
url https://search.dataone.org/view/MontanaIOE.12.6
op_coverage Dataset Coverage: Wind River Range
Forest Pond Lake_WY_Core 2_Charcoal
Forest Pond Lake_WY_Core 1_Charcoal
Park Pond_WY_Core 1_Charcoal
Park Pond_WY_Core 2_Charcoal
Park Pond_WY_Core 3_Charcoal
ENVELOPE(-109.95,-109.92,43.45,43.37)
long_lat ENVELOPE(-57.683,-57.683,-63.783,-63.783)
ENVELOPE(-120.570,-120.570,55.917,55.917)
ENVELOPE(-135.304,-135.304,65.841,65.841)
ENVELOPE(-109.95,-109.92,43.45,43.37)
geographic Lynch
Parkland
Wind River
geographic_facet Lynch
Parkland
Wind River
genre Tundra
genre_facet Tundra
_version_ 1782011790426636288

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