Monitoring permafrost degradation rates due to climate change : developing a practical GIS-based method

Peatlands in the Alberta boreal forest are predicted to experience early and severe climate change impacts through permafrost degradation (melting). Permafrost loss and the subsequent release of greenhouse gases are predicted to have significant global climate change implications. This study provide...

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Bibliographic Details
Main Author:	Adams, Austin Allen
Other Authors:	Cynthia Lane
Language:	English
Published:	2017
Subjects:	air photo monitoring climate change collapse scars landscape diversity indices peatlands permafrost degradation Canada permafrost
Online Access:	http://hdl.handle.net/10170/1051

id	ftviurr:oai:viurrspace.ca:10170/1051
record_format	openpolar
spelling	ftviurr:oai:viurrspace.ca:10170/1051 2023-06-18T03:42:37+02:00 Monitoring permafrost degradation rates due to climate change : developing a practical GIS-based method Adams, Austin Allen Cynthia Lane 2017-03-17 application/pdf http://hdl.handle.net/10170/1051 en eng http://hdl.handle.net/10170/1051 air photo monitoring climate change collapse scars landscape diversity indices peatlands permafrost degradation 2017 ftviurr 2023-06-04T20:21:53Z Peatlands in the Alberta boreal forest are predicted to experience early and severe climate change impacts through permafrost degradation (melting). Permafrost loss and the subsequent release of greenhouse gases are predicted to have significant global climate change implications. This study provides visual and quantifiable evidence that climate change is impacting Canada by developing an objective, cost-effective method to monitor peatland permafrost degradation in the Alberta boreal forest. Peatland landscape pattern shifts resulting from permafrost melting over time were correlated to changes in local ClimateWNA climate variables using GIS. Landscape diversity indices of these shifts were calculated from grey-scale pixel tones of historical Alberta air photos and correlated with climate and geographical variables, using the SPSS Linear Mixed Model with repeated measures. Resulting models that combine date, temperature, precipitation and latitude variables were determined to be most appropriate for communicating climate change impacts in Alberta permafrost peatlands to decision makers. Other/Unknown Material permafrost VIURRSpace (Royal Roads University and Vancouver Island University) Canada
institution	Open Polar
collection	VIURRSpace (Royal Roads University and Vancouver Island University)
op_collection_id	ftviurr
language	English
topic	air photo monitoring climate change collapse scars landscape diversity indices peatlands permafrost degradation
spellingShingle	air photo monitoring climate change collapse scars landscape diversity indices peatlands permafrost degradation Adams, Austin Allen Monitoring permafrost degradation rates due to climate change : developing a practical GIS-based method
topic_facet	air photo monitoring climate change collapse scars landscape diversity indices peatlands permafrost degradation
description	Peatlands in the Alberta boreal forest are predicted to experience early and severe climate change impacts through permafrost degradation (melting). Permafrost loss and the subsequent release of greenhouse gases are predicted to have significant global climate change implications. This study provides visual and quantifiable evidence that climate change is impacting Canada by developing an objective, cost-effective method to monitor peatland permafrost degradation in the Alberta boreal forest. Peatland landscape pattern shifts resulting from permafrost melting over time were correlated to changes in local ClimateWNA climate variables using GIS. Landscape diversity indices of these shifts were calculated from grey-scale pixel tones of historical Alberta air photos and correlated with climate and geographical variables, using the SPSS Linear Mixed Model with repeated measures. Resulting models that combine date, temperature, precipitation and latitude variables were determined to be most appropriate for communicating climate change impacts in Alberta permafrost peatlands to decision makers.
author2	Cynthia Lane
author	Adams, Austin Allen
author_facet	Adams, Austin Allen
author_sort	Adams, Austin Allen
title	Monitoring permafrost degradation rates due to climate change : developing a practical GIS-based method
title_short	Monitoring permafrost degradation rates due to climate change : developing a practical GIS-based method
title_full	Monitoring permafrost degradation rates due to climate change : developing a practical GIS-based method
title_fullStr	Monitoring permafrost degradation rates due to climate change : developing a practical GIS-based method
title_full_unstemmed	Monitoring permafrost degradation rates due to climate change : developing a practical GIS-based method
title_sort	monitoring permafrost degradation rates due to climate change : developing a practical gis-based method
publishDate	2017
url	http://hdl.handle.net/10170/1051
geographic	Canada
geographic_facet	Canada
genre	permafrost
genre_facet	permafrost
op_relation	http://hdl.handle.net/10170/1051
_version_	1769008601049858048

Monitoring permafrost degradation rates due to climate change : developing a practical GIS-based method

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