An extended global Earth system data record on daily landscape freeze–thaw status determined from satellite passive microwave remote sensing

The landscape freeze–thaw (FT) signal determined from satellite microwave brightness temperature (Tb) observations has been widely used to define frozen temperature controls on land surface water mobility and ecological processes. Calibrated 37 GHz Tb retrievals from the Scanning Multichannel Mi...

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Published in:Earth System Science Data
Main Authors: Kim, Youngwook, Kimball, John S, Glassy, Joseph M., Du, Jinyang
Format: Text
Language:unknown
Published: ScholarWorks at University of Montana 2017
Subjects:
Greenland
Online Access:https://scholarworks.umt.edu/ntsg_pubs/357
https://doi.org/10.5194/essd-9-133-2017
https://scholarworks.umt.edu/context/ntsg_pubs/article/1356/viewcontent/Kim_ESSD_2017.pdf
id ftunivmontana:oai:scholarworks.umt.edu:ntsg_pubs-1356
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spelling ftunivmontana:oai:scholarworks.umt.edu:ntsg_pubs-1356 2024-09-09T19:43:30+00:00 An extended global Earth system data record on daily landscape freeze–thaw status determined from satellite passive microwave remote sensing Kim, Youngwook Kimball, John S Glassy, Joseph M. Du, Jinyang 2017-02-01T08:00:00Z application/pdf https://scholarworks.umt.edu/ntsg_pubs/357 https://doi.org/10.5194/essd-9-133-2017 https://scholarworks.umt.edu/context/ntsg_pubs/article/1356/viewcontent/Kim_ESSD_2017.pdf unknown ScholarWorks at University of Montana https://scholarworks.umt.edu/ntsg_pubs/357 doi:10.5194/essd-9-133-2017 https://scholarworks.umt.edu/context/ntsg_pubs/article/1356/viewcontent/Kim_ESSD_2017.pdf © 2017 Author(s) Numerical Terradynamic Simulation Group Publications text 2017 ftunivmontana https://doi.org/10.5194/essd-9-133-2017 2024-06-20T05:32:53Z The landscape freeze–thaw (FT) signal determined from satellite microwave brightness temperature (Tb) observations has been widely used to define frozen temperature controls on land surface water mobility and ecological processes. Calibrated 37 GHz Tb retrievals from the Scanning Multichannel Microwave Radiometer (SMMR), Special Sensor Microwave Imager (SSM/I), and SSM/I Sounder (SSMIS) were used to produce a consistent and continuous global daily data record of landscape FT status at 25 km grid cell resolution. The resulting FT Earth system data record (FT-ESDR) is derived from a refined classification algorithm and extends over a larger domain and longer period (1979–2014) than prior FT-ESDR releases. The global domain encompasses all land areas affected by seasonal frozen temperatures, including urban, snow- and ice-dominant and barren land, which were not represented by prior FT-ESDR versions. The FT retrieval is obtained using a modified seasonal threshold algorithm (MSTA) that classifies daily Tb variations in relation to grid-cell-wise FT thresholds calibrated using surface air temperature data from model reanalysis. The resulting FT record shows respective mean annual spatial classification accuracies of 90.3 and 84.3 % for evening (PM) and morning (AM) overpass retrievals relative to global weather station measurements. Detailed data quality metrics are derived characterizing the effects of sub-grid-scale open water and terrain heterogeneity, as well as algorithm uncertainties on FT classification accuracy. The FT-ESDR results are also verified against other independent cryospheric data, including in situ lake and river ice phenology, and satellite observations of Greenland surface melt. The expanded FT-ESDR enables new investigations encompassing snow- and ice-dominant land areas, while the longer record and favorable accuracy allow for refined global change assessments that can better distinguish transient weather extremes, landscape phenological shifts, and climate anomalies from ... Text Greenland University of Montana: ScholarWorks Greenland Earth System Science Data 9 1 133 147
institution Open Polar
collection University of Montana: ScholarWorks
op_collection_id ftunivmontana
language unknown
description The landscape freeze–thaw (FT) signal determined from satellite microwave brightness temperature (Tb) observations has been widely used to define frozen temperature controls on land surface water mobility and ecological processes. Calibrated 37 GHz Tb retrievals from the Scanning Multichannel Microwave Radiometer (SMMR), Special Sensor Microwave Imager (SSM/I), and SSM/I Sounder (SSMIS) were used to produce a consistent and continuous global daily data record of landscape FT status at 25 km grid cell resolution. The resulting FT Earth system data record (FT-ESDR) is derived from a refined classification algorithm and extends over a larger domain and longer period (1979–2014) than prior FT-ESDR releases. The global domain encompasses all land areas affected by seasonal frozen temperatures, including urban, snow- and ice-dominant and barren land, which were not represented by prior FT-ESDR versions. The FT retrieval is obtained using a modified seasonal threshold algorithm (MSTA) that classifies daily Tb variations in relation to grid-cell-wise FT thresholds calibrated using surface air temperature data from model reanalysis. The resulting FT record shows respective mean annual spatial classification accuracies of 90.3 and 84.3 % for evening (PM) and morning (AM) overpass retrievals relative to global weather station measurements. Detailed data quality metrics are derived characterizing the effects of sub-grid-scale open water and terrain heterogeneity, as well as algorithm uncertainties on FT classification accuracy. The FT-ESDR results are also verified against other independent cryospheric data, including in situ lake and river ice phenology, and satellite observations of Greenland surface melt. The expanded FT-ESDR enables new investigations encompassing snow- and ice-dominant land areas, while the longer record and favorable accuracy allow for refined global change assessments that can better distinguish transient weather extremes, landscape phenological shifts, and climate anomalies from ...
format Text
author Kim, Youngwook
Kimball, John S
Glassy, Joseph M.
Du, Jinyang
spellingShingle Kim, Youngwook
Kimball, John S
Glassy, Joseph M.
Du, Jinyang
An extended global Earth system data record on daily landscape freeze–thaw status determined from satellite passive microwave remote sensing
author_facet Kim, Youngwook
Kimball, John S
Glassy, Joseph M.
Du, Jinyang
author_sort Kim, Youngwook
title An extended global Earth system data record on daily landscape freeze–thaw status determined from satellite passive microwave remote sensing
title_short An extended global Earth system data record on daily landscape freeze–thaw status determined from satellite passive microwave remote sensing
title_full An extended global Earth system data record on daily landscape freeze–thaw status determined from satellite passive microwave remote sensing
title_fullStr An extended global Earth system data record on daily landscape freeze–thaw status determined from satellite passive microwave remote sensing
title_full_unstemmed An extended global Earth system data record on daily landscape freeze–thaw status determined from satellite passive microwave remote sensing
title_sort extended global earth system data record on daily landscape freeze–thaw status determined from satellite passive microwave remote sensing
publisher ScholarWorks at University of Montana
publishDate 2017
url https://scholarworks.umt.edu/ntsg_pubs/357
https://doi.org/10.5194/essd-9-133-2017
https://scholarworks.umt.edu/context/ntsg_pubs/article/1356/viewcontent/Kim_ESSD_2017.pdf
geographic Greenland
geographic_facet Greenland
genre Greenland
genre_facet Greenland
op_source Numerical Terradynamic Simulation Group Publications
op_relation https://scholarworks.umt.edu/ntsg_pubs/357
doi:10.5194/essd-9-133-2017
https://scholarworks.umt.edu/context/ntsg_pubs/article/1356/viewcontent/Kim_ESSD_2017.pdf
op_rights © 2017 Author(s)
op_doi https://doi.org/10.5194/essd-9-133-2017
container_title Earth System Science Data
container_volume 9
container_issue 1
container_start_page 133
op_container_end_page 147
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