Retrieval of Summer Sea Ice Concentration in the Pacific Arctic Ocean from AMSR2 Observations and Numerical Weather Data Using Random Forest Regression

The Arctic sea ice concentration (SIC) in summer is a key indicator of global climate change and important information for the development of a more economically valuable Northern Sea Route. Passive microwave (PM) sensors have provided information on the SIC since the 1970s by observing the brightne...

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Published in:Remote Sensing
Main Authors: Han, Hyangsun, Lee, Sungjae, Kim, Hyun-Cheol, Kim, Miae
Format: Article in Journal/Newspaper
Language:unknown
Published: MDPI 2021
Subjects:
Arctic
Arctic Ocean
Pacific
Climate change
Northern Sea Route
Pacific Arctic
Sea ice
Online Access:https://scholarworks.unist.ac.kr/handle/201301/53260
https://doi.org/10.3390/rs13122283
https://www.mdpi.com/2072-4292/13/12/2283
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spelling ftuisanist:oai:scholarworks.unist.ac.kr:201301/53260 2023-05-15T14:48:44+02:00 Retrieval of Summer Sea Ice Concentration in the Pacific Arctic Ocean from AMSR2 Observations and Numerical Weather Data Using Random Forest Regression Han, Hyangsun Lee, Sungjae Kim, Hyun-Cheol Kim, Miae 2021-06 https://scholarworks.unist.ac.kr/handle/201301/53260 https://doi.org/10.3390/rs13122283 https://www.mdpi.com/2072-4292/13/12/2283 ?????? unknown MDPI REMOTE SENSING, v.13, no.12, pp.2283 2072-4292 https://scholarworks.unist.ac.kr/handle/201301/53260 38498 2-s2.0-85108606065 000666420700001 doi:10.3390/rs13122283 https://www.mdpi.com/2072-4292/13/12/2283 ARTICLE ART 2021 ftuisanist https://doi.org/10.3390/rs13122283 2022-05-15T05:55:25Z The Arctic sea ice concentration (SIC) in summer is a key indicator of global climate change and important information for the development of a more economically valuable Northern Sea Route. Passive microwave (PM) sensors have provided information on the SIC since the 1970s by observing the brightness temperature (T-B) of sea ice and open water. However, the SIC in the Arctic estimated by operational algorithms for PM observations is very inaccurate in summer because the T-B values of sea ice and open water become similar due to atmospheric effects. In this study, we developed a summer SIC retrieval model for the Pacific Arctic Ocean using Advanced Microwave Scanning Radiometer 2 (AMSR2) observations and European Reanalysis Agency-5 (ERA-5) reanalysis fields based on Random Forest (RF) regression. SIC values computed from the ice/water maps generated from the Korean Multi-purpose Satellite-5 synthetic aperture radar images from July to September in 2015-2017 were used as a reference dataset. A total of 24 features including the T-B values of AMSR2 channels, the ratios of T-B values (the polarization ratio and the spectral gradient ratio (GR)), total columnar water vapor (TCWV), wind speed, air temperature at 2 m and 925 hPa, and the 30-day average of the air temperatures from the ERA-5 were used as the input variables for the RF model. The RF model showed greatly superior performance in retrieving summer SIC values in the Pacific Arctic Ocean to the Bootstrap (BT) and Arctic Radiation and Turbulence Interaction STudy (ARTIST) Sea Ice (ASI) algorithms under various atmospheric conditions. The root mean square error (RMSE) of the RF SIC values was 7.89% compared to the reference SIC values. The BT and ASI SIC values had three times greater values of RMSE (20.19% and 21.39%, respectively) than the RF SIC values. The air temperatures at 2 m and 925 hPa and their 30-day averages, which indicate the ice surface melting conditions, as well as the GR using the vertically polarized channels at 23 GHz and 18 GHz ... Article in Journal/Newspaper Arctic Arctic Ocean Climate change Northern Sea Route Pacific Arctic Sea ice ScholarWorks@UNIST (Ulsan National Institute of Science and Technology) Arctic Arctic Ocean Pacific Remote Sensing 13 12 2283
institution Open Polar
collection ScholarWorks@UNIST (Ulsan National Institute of Science and Technology)
op_collection_id ftuisanist
language unknown
description The Arctic sea ice concentration (SIC) in summer is a key indicator of global climate change and important information for the development of a more economically valuable Northern Sea Route. Passive microwave (PM) sensors have provided information on the SIC since the 1970s by observing the brightness temperature (T-B) of sea ice and open water. However, the SIC in the Arctic estimated by operational algorithms for PM observations is very inaccurate in summer because the T-B values of sea ice and open water become similar due to atmospheric effects. In this study, we developed a summer SIC retrieval model for the Pacific Arctic Ocean using Advanced Microwave Scanning Radiometer 2 (AMSR2) observations and European Reanalysis Agency-5 (ERA-5) reanalysis fields based on Random Forest (RF) regression. SIC values computed from the ice/water maps generated from the Korean Multi-purpose Satellite-5 synthetic aperture radar images from July to September in 2015-2017 were used as a reference dataset. A total of 24 features including the T-B values of AMSR2 channels, the ratios of T-B values (the polarization ratio and the spectral gradient ratio (GR)), total columnar water vapor (TCWV), wind speed, air temperature at 2 m and 925 hPa, and the 30-day average of the air temperatures from the ERA-5 were used as the input variables for the RF model. The RF model showed greatly superior performance in retrieving summer SIC values in the Pacific Arctic Ocean to the Bootstrap (BT) and Arctic Radiation and Turbulence Interaction STudy (ARTIST) Sea Ice (ASI) algorithms under various atmospheric conditions. The root mean square error (RMSE) of the RF SIC values was 7.89% compared to the reference SIC values. The BT and ASI SIC values had three times greater values of RMSE (20.19% and 21.39%, respectively) than the RF SIC values. The air temperatures at 2 m and 925 hPa and their 30-day averages, which indicate the ice surface melting conditions, as well as the GR using the vertically polarized channels at 23 GHz and 18 GHz ...
format Article in Journal/Newspaper
author Han, Hyangsun
Lee, Sungjae
Kim, Hyun-Cheol
Kim, Miae
spellingShingle Han, Hyangsun
Lee, Sungjae
Kim, Hyun-Cheol
Kim, Miae
Retrieval of Summer Sea Ice Concentration in the Pacific Arctic Ocean from AMSR2 Observations and Numerical Weather Data Using Random Forest Regression
author_facet Han, Hyangsun
Lee, Sungjae
Kim, Hyun-Cheol
Kim, Miae
author_sort Han, Hyangsun
title Retrieval of Summer Sea Ice Concentration in the Pacific Arctic Ocean from AMSR2 Observations and Numerical Weather Data Using Random Forest Regression
title_short Retrieval of Summer Sea Ice Concentration in the Pacific Arctic Ocean from AMSR2 Observations and Numerical Weather Data Using Random Forest Regression
title_full Retrieval of Summer Sea Ice Concentration in the Pacific Arctic Ocean from AMSR2 Observations and Numerical Weather Data Using Random Forest Regression
title_fullStr Retrieval of Summer Sea Ice Concentration in the Pacific Arctic Ocean from AMSR2 Observations and Numerical Weather Data Using Random Forest Regression
title_full_unstemmed Retrieval of Summer Sea Ice Concentration in the Pacific Arctic Ocean from AMSR2 Observations and Numerical Weather Data Using Random Forest Regression
title_sort retrieval of summer sea ice concentration in the pacific arctic ocean from amsr2 observations and numerical weather data using random forest regression
publisher MDPI
publishDate 2021
url https://scholarworks.unist.ac.kr/handle/201301/53260
https://doi.org/10.3390/rs13122283
https://www.mdpi.com/2072-4292/13/12/2283
geographic Arctic
Arctic Ocean
Pacific
geographic_facet Arctic
Arctic Ocean
Pacific
genre Arctic
Arctic Ocean
Climate change
Northern Sea Route
Pacific Arctic
Sea ice
genre_facet Arctic
Arctic Ocean
Climate change
Northern Sea Route
Pacific Arctic
Sea ice
op_relation REMOTE SENSING, v.13, no.12, pp.2283
2072-4292
https://scholarworks.unist.ac.kr/handle/201301/53260
38498
2-s2.0-85108606065
000666420700001
doi:10.3390/rs13122283
https://www.mdpi.com/2072-4292/13/12/2283
op_doi https://doi.org/10.3390/rs13122283
container_title Remote Sensing
container_volume 13
container_issue 12
container_start_page 2283
_version_ 1766319818831560704

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