Ice Freeze-up and Break-up Detection of Shallow Lakes in Northern Alaska with Spaceborne SAR

Shallow lakes, with depths less than ca . 3.5–4 m, are a ubiquitous feature of the Arctic Alaskan Coastal Plain, covering up to 40% of the land surface. With such an extended areal coverage, lakes and their ice regimes represent an important component of the cryosphere. The duration of the ice seaso...

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Published in:Remote Sensing
Main Authors: Surdu, Cristina M., Duguay, Claude R., Pour, Homa Kheyrollah, Brown, Laura C.
Language:unknown
Published: 2015
Subjects:
Arctic
Asar
Alaska
Online Access:http://hdl.handle.net/1807/92285
https://doi.org/10.3390/rs70506133
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spelling ftunivtoronto:oai:localhost:1807/92285 2023-05-15T15:02:01+02:00 Ice Freeze-up and Break-up Detection of Shallow Lakes in Northern Alaska with Spaceborne SAR Surdu, Cristina M. Duguay, Claude R. Pour, Homa Kheyrollah Brown, Laura C. 2015-05-18 http://hdl.handle.net/1807/92285 https://doi.org/10.3390/rs70506133 unknown Remote Sensing 7 (5): 6133-6159 (2015) http://hdl.handle.net/1807/92285 https://doi.org/10.3390/rs70506133 2015 ftunivtoronto https://doi.org/10.3390/rs70506133 2020-06-17T12:22:11Z Shallow lakes, with depths less than ca . 3.5–4 m, are a ubiquitous feature of the Arctic Alaskan Coastal Plain, covering up to 40% of the land surface. With such an extended areal coverage, lakes and their ice regimes represent an important component of the cryosphere. The duration of the ice season has major implications for the regional and local climate, as well as for the physical and biogeochemical processes of the lakes. With day and night observations in all weather conditions, synthetic aperture radar (SAR) sensors provide year-round acquisitions. Monitoring the evolution of radar backscatter (σ°) is useful for detecting the timing of the beginning and end of the ice season. Analysis of the temporal evolution of C-band σ° from Advanced Synthetic Aperture Radar (ASAR) Wide Swath and RADARSAT-2 ScanSAR, with a combined frequency of acquisitions from two to five days, was employed to evaluate the potential of SAR to detect the timing of key lake-ice events. SAR observations from 2005 to 2011 were compared to outputs of the Canadian Lake Ice Model (CLIMo). Model simulations fall within similar ranges with those of the SAR observations, with a mean difference between SAR observations and model simulations of only one day for water-clear-of-ice (WCI) from 2006 to 2010. For freeze onset (FO), larger mean differences were observed. SAR analysis shows that the mean FO date for these shallow coastal lakes is 30 September and the mean WCI date is 5 July. Results reveal that greater variability existed in the mean FO date (up to 26 days) than in that of melt onset (MO) (up to 12 days) and in that of WCI (6 days). Additionally, this study also identifies limitations and provides recommendations for future work using C-band SAR for monitoring the lake- ice phenology of shallow Arctic lakes. Other/Unknown Material Arctic Alaska University of Toronto: Research Repository T-Space Arctic Asar ENVELOPE(134.033,134.033,68.667,68.667) Remote Sensing 7 5 6133 6159
institution Open Polar
collection University of Toronto: Research Repository T-Space
op_collection_id ftunivtoronto
language unknown
description Shallow lakes, with depths less than ca . 3.5–4 m, are a ubiquitous feature of the Arctic Alaskan Coastal Plain, covering up to 40% of the land surface. With such an extended areal coverage, lakes and their ice regimes represent an important component of the cryosphere. The duration of the ice season has major implications for the regional and local climate, as well as for the physical and biogeochemical processes of the lakes. With day and night observations in all weather conditions, synthetic aperture radar (SAR) sensors provide year-round acquisitions. Monitoring the evolution of radar backscatter (σ°) is useful for detecting the timing of the beginning and end of the ice season. Analysis of the temporal evolution of C-band σ° from Advanced Synthetic Aperture Radar (ASAR) Wide Swath and RADARSAT-2 ScanSAR, with a combined frequency of acquisitions from two to five days, was employed to evaluate the potential of SAR to detect the timing of key lake-ice events. SAR observations from 2005 to 2011 were compared to outputs of the Canadian Lake Ice Model (CLIMo). Model simulations fall within similar ranges with those of the SAR observations, with a mean difference between SAR observations and model simulations of only one day for water-clear-of-ice (WCI) from 2006 to 2010. For freeze onset (FO), larger mean differences were observed. SAR analysis shows that the mean FO date for these shallow coastal lakes is 30 September and the mean WCI date is 5 July. Results reveal that greater variability existed in the mean FO date (up to 26 days) than in that of melt onset (MO) (up to 12 days) and in that of WCI (6 days). Additionally, this study also identifies limitations and provides recommendations for future work using C-band SAR for monitoring the lake- ice phenology of shallow Arctic lakes.
author Surdu, Cristina M.
Duguay, Claude R.
Pour, Homa Kheyrollah
Brown, Laura C.
spellingShingle Surdu, Cristina M.
Duguay, Claude R.
Pour, Homa Kheyrollah
Brown, Laura C.
Ice Freeze-up and Break-up Detection of Shallow Lakes in Northern Alaska with Spaceborne SAR
author_facet Surdu, Cristina M.
Duguay, Claude R.
Pour, Homa Kheyrollah
Brown, Laura C.
author_sort Surdu, Cristina M.
title Ice Freeze-up and Break-up Detection of Shallow Lakes in Northern Alaska with Spaceborne SAR
title_short Ice Freeze-up and Break-up Detection of Shallow Lakes in Northern Alaska with Spaceborne SAR
title_full Ice Freeze-up and Break-up Detection of Shallow Lakes in Northern Alaska with Spaceborne SAR
title_fullStr Ice Freeze-up and Break-up Detection of Shallow Lakes in Northern Alaska with Spaceborne SAR
title_full_unstemmed Ice Freeze-up and Break-up Detection of Shallow Lakes in Northern Alaska with Spaceborne SAR
title_sort ice freeze-up and break-up detection of shallow lakes in northern alaska with spaceborne sar
publishDate 2015
url http://hdl.handle.net/1807/92285
https://doi.org/10.3390/rs70506133
long_lat ENVELOPE(134.033,134.033,68.667,68.667)
geographic Arctic
Asar
geographic_facet Arctic
Asar
genre Arctic
Alaska
genre_facet Arctic
Alaska
op_relation Remote Sensing 7 (5): 6133-6159 (2015)
http://hdl.handle.net/1807/92285
https://doi.org/10.3390/rs70506133
op_doi https://doi.org/10.3390/rs70506133
container_title Remote Sensing
container_volume 7
container_issue 5
container_start_page 6133
op_container_end_page 6159
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