Spatial and temporal patterns of vegetation, terrain, and greenness in the Toolik Lake and Upper Kuparuk River Region

Thesis (M.S.) University of Alaska Fairbanks, 2007 With a warming climate, Alaska's arctic tundra vegetation is changing. Here I use four Landsat satellite images and glacial geology, surficial geomorphology, vegetation, slope angle, aspect, and elevation maps to examine spatial and temporal pa...

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Main Author: Munger, Corinne A.
Format: Thesis
Language:English
Published: 2007
Subjects:
Arctic
Fairbanks
Tundra
Alaska
Online Access:http://hdl.handle.net/11122/5614
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record_format openpolar
spelling ftunivalaska:oai:scholarworks.alaska.edu:11122/5614 2023-05-15T14:52:03+02:00 Spatial and temporal patterns of vegetation, terrain, and greenness in the Toolik Lake and Upper Kuparuk River Region Munger, Corinne A. 2007-08 http://hdl.handle.net/11122/5614 en_US eng http://hdl.handle.net/11122/5614 Department of Biology and Wildlife Thesis ms 2007 ftunivalaska 2023-02-23T21:36:28Z Thesis (M.S.) University of Alaska Fairbanks, 2007 With a warming climate, Alaska's arctic tundra vegetation is changing. Here I use four Landsat satellite images and glacial geology, surficial geomorphology, vegetation, slope angle, aspect, and elevation maps to examine spatial and temporal patterns of greenness in the Toolik Lake and Upper Kuparuk River Region in Arctic Alaska. The 30-m resolution of the Landsat images used in this analysis allowed for detection of patterns of heterogeneity in the greenness and in the greening of the landscape. Such studies complement the finer temporal resolution of AVHRR data, which are more appropriate to detect annual variation in greenness and greening across broad regions. This study suggests that the measured changes in AVHRR derived NDVI values are likely the result of a real change in arctic vegetation and are not simply due to technical problems with AVHRR sensors. Between 1985 and 1999 the mean Landsat-derived NDVI across the Toolik Lake and Upper Kuparuk Region increased 0.076 or 15.9%. The greening detected by Landsat data occurred heterogeneously across the landscape with the most rapid change occurring in well-vegetated areas such as tussock tundra and shrubby areas, on areas of nonsorted circles, and at lower elevations. Introduction -- Background : a changing Arctic -- Background : the Toolik Lake and the Upper Kuparuk River Region -- Glacial history and relationship to vegetation -- Change in the Toolik Lake and Upper Kuparuk River Region -- Methods -- Vegetation-Terrain relationships -- Calculation of Landsat NDVI -- NDVI-Terrain relationships -- Change in NDVI -- Results -- Vegetation-Terrain relationships -- Vegetation and glacial geology -- Vegetation and surficial geomorphology -- Vegetation, glacial geology, and surficial geomorphology -- Vegetation and slope angle -- Vegetation and aspect -- Vegetation and elevation -- NDVI-terrain relationships -- Glacial geology -- Surficial Geomorphology -- Vegetation -- Slope angle -- Aspect -- Elevation -- ... Thesis Arctic Tundra Alaska University of Alaska: ScholarWorks@UA Arctic Fairbanks
institution Open Polar
collection University of Alaska: ScholarWorks@UA
op_collection_id ftunivalaska
language English
description Thesis (M.S.) University of Alaska Fairbanks, 2007 With a warming climate, Alaska's arctic tundra vegetation is changing. Here I use four Landsat satellite images and glacial geology, surficial geomorphology, vegetation, slope angle, aspect, and elevation maps to examine spatial and temporal patterns of greenness in the Toolik Lake and Upper Kuparuk River Region in Arctic Alaska. The 30-m resolution of the Landsat images used in this analysis allowed for detection of patterns of heterogeneity in the greenness and in the greening of the landscape. Such studies complement the finer temporal resolution of AVHRR data, which are more appropriate to detect annual variation in greenness and greening across broad regions. This study suggests that the measured changes in AVHRR derived NDVI values are likely the result of a real change in arctic vegetation and are not simply due to technical problems with AVHRR sensors. Between 1985 and 1999 the mean Landsat-derived NDVI across the Toolik Lake and Upper Kuparuk Region increased 0.076 or 15.9%. The greening detected by Landsat data occurred heterogeneously across the landscape with the most rapid change occurring in well-vegetated areas such as tussock tundra and shrubby areas, on areas of nonsorted circles, and at lower elevations. Introduction -- Background : a changing Arctic -- Background : the Toolik Lake and the Upper Kuparuk River Region -- Glacial history and relationship to vegetation -- Change in the Toolik Lake and Upper Kuparuk River Region -- Methods -- Vegetation-Terrain relationships -- Calculation of Landsat NDVI -- NDVI-Terrain relationships -- Change in NDVI -- Results -- Vegetation-Terrain relationships -- Vegetation and glacial geology -- Vegetation and surficial geomorphology -- Vegetation, glacial geology, and surficial geomorphology -- Vegetation and slope angle -- Vegetation and aspect -- Vegetation and elevation -- NDVI-terrain relationships -- Glacial geology -- Surficial Geomorphology -- Vegetation -- Slope angle -- Aspect -- Elevation -- ...
format Thesis
author Munger, Corinne A.
spellingShingle Munger, Corinne A.
Spatial and temporal patterns of vegetation, terrain, and greenness in the Toolik Lake and Upper Kuparuk River Region
author_facet Munger, Corinne A.
author_sort Munger, Corinne A.
title Spatial and temporal patterns of vegetation, terrain, and greenness in the Toolik Lake and Upper Kuparuk River Region
title_short Spatial and temporal patterns of vegetation, terrain, and greenness in the Toolik Lake and Upper Kuparuk River Region
title_full Spatial and temporal patterns of vegetation, terrain, and greenness in the Toolik Lake and Upper Kuparuk River Region
title_fullStr Spatial and temporal patterns of vegetation, terrain, and greenness in the Toolik Lake and Upper Kuparuk River Region
title_full_unstemmed Spatial and temporal patterns of vegetation, terrain, and greenness in the Toolik Lake and Upper Kuparuk River Region
title_sort spatial and temporal patterns of vegetation, terrain, and greenness in the toolik lake and upper kuparuk river region
publishDate 2007
url http://hdl.handle.net/11122/5614
geographic Arctic
Fairbanks
geographic_facet Arctic
Fairbanks
genre Arctic
Tundra
Alaska
genre_facet Arctic
Tundra
Alaska
op_relation http://hdl.handle.net/11122/5614
Department of Biology and Wildlife
_version_ 1766323176111865856

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