A Completeness and Complementarity Analysis of the Data Sources in the NOAA In Situ Sea Surface Temperature Quality Monitor (<i>i</i>Quam) System

A Completeness and Complementarity Analysis of the Data Sources in the NOAA In Situ Sea Surface Temperature Quality Monitor (<i>i</i>Quam) System

In situ sea surface temperatures (SST) are the key component of the calibration and validation (Cal/Val) of satellite SST retrievals and data assimilation (DA). The NOAA in situ SST Quality Monitor (<i>i</i>Quam) aims to collect, from various sources, all available in situ SST data, and...

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Main Authors: Haifeng Zhang, Alexander Ignatov
Format: Article
Language:English
Published: MDPI AG 2021-09-01
Series:Remote Sensing
Subjects:
<i>i</i>Quam
in situ SST
ICOADS
FNMOC
CMEMS
AOML
Online Access:https://www.mdpi.com/2072-4292/13/18/3741
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spelling doaj-2e466a3836ae47318c95254cf86e357d2021-09-26T01:18:55ZengMDPI AGRemote Sensing2072-42922021-09-01133741374110.3390/rs13183741A Completeness and Complementarity Analysis of the Data Sources in the NOAA In Situ Sea Surface Temperature Quality Monitor (<i>i</i>Quam) SystemHaifeng Zhang0Alexander Ignatov1NOAA Center for Satellite Applications and Research, College Park, MD 20740, USANOAA Center for Satellite Applications and Research, College Park, MD 20740, USAIn situ sea surface temperatures (SST) are the key component of the calibration and validation (Cal/Val) of satellite SST retrievals and data assimilation (DA). The NOAA in situ SST Quality Monitor (<i>i</i>Quam) aims to collect, from various sources, all available in situ SST data, and integrate them into a maximally complete, uniform, and accurate dataset to support these applications. For each in situ data type, <i>i</i>Quam strives to ingest data from several independent sources, to ensure most complete coverage, at the cost of some redundancy in data feeds. The relative completeness of various inputs and their consistency and mutual complementarity are often unknown and are the focus of this study. For four platform types customarily employed in satellite Cal/Val and DA (drifting buoys, tropical moorings, ships, and Argo floats), five widely known data sets are analyzed: (1) International Comprehensive Ocean-Atmosphere Data Set (ICOADS), (2) Fleet Numerical Meteorology and Oceanography Center (FNMOC), (3) Atlantic Oceanographic and Meteorological Laboratory (AOML), (4) Copernicus Marine Environment Monitoring Service (CMEMS), and (5) Argo Global Data Assembly Centers (GDACs). Each data set reports SSTs from one or more platform types. It is found that drifting buoys are more fully represented in FNMOC and CMEMS. Ships are reported in FNMOC and ICOADS, which are best used in conjunction with each other, but not in CMEMS. Tropical moorings are well represented in ICOADS, FNMOC, and CMEMS. Some CMEMS mooring reports are sampled every 10 min (compared to the standard 1 h sampling in all other datasets). The CMEMS Argo profiling data set is, as expected, nearly identical with those from the two Argo GDACs.https://www.mdpi.com/2072-4292/13/18/3741<i>i</i>Quamin situ SSTICOADSFNMOCCMEMSAOML
collection DOAJ
language English
format Article
sources DOAJ
author Haifeng Zhang
Alexander Ignatov
spellingShingle Haifeng Zhang
Alexander Ignatov
A Completeness and Complementarity Analysis of the Data Sources in the NOAA In Situ Sea Surface Temperature Quality Monitor (<i>i</i>Quam) System
Remote Sensing
<i>i</i>Quam
in situ SST
ICOADS
FNMOC
CMEMS
AOML
author_facet Haifeng Zhang
Alexander Ignatov
author_sort Haifeng Zhang
title A Completeness and Complementarity Analysis of the Data Sources in the NOAA In Situ Sea Surface Temperature Quality Monitor (<i>i</i>Quam) System
title_short A Completeness and Complementarity Analysis of the Data Sources in the NOAA In Situ Sea Surface Temperature Quality Monitor (<i>i</i>Quam) System
title_full A Completeness and Complementarity Analysis of the Data Sources in the NOAA In Situ Sea Surface Temperature Quality Monitor (<i>i</i>Quam) System
title_fullStr A Completeness and Complementarity Analysis of the Data Sources in the NOAA In Situ Sea Surface Temperature Quality Monitor (<i>i</i>Quam) System
title_full_unstemmed A Completeness and Complementarity Analysis of the Data Sources in the NOAA In Situ Sea Surface Temperature Quality Monitor (<i>i</i>Quam) System
title_sort completeness and complementarity analysis of the data sources in the noaa in situ sea surface temperature quality monitor (<i>i</i>quam) system
publisher MDPI AG
series Remote Sensing
issn 2072-4292
publishDate 2021-09-01
description In situ sea surface temperatures (SST) are the key component of the calibration and validation (Cal/Val) of satellite SST retrievals and data assimilation (DA). The NOAA in situ SST Quality Monitor (<i>i</i>Quam) aims to collect, from various sources, all available in situ SST data, and integrate them into a maximally complete, uniform, and accurate dataset to support these applications. For each in situ data type, <i>i</i>Quam strives to ingest data from several independent sources, to ensure most complete coverage, at the cost of some redundancy in data feeds. The relative completeness of various inputs and their consistency and mutual complementarity are often unknown and are the focus of this study. For four platform types customarily employed in satellite Cal/Val and DA (drifting buoys, tropical moorings, ships, and Argo floats), five widely known data sets are analyzed: (1) International Comprehensive Ocean-Atmosphere Data Set (ICOADS), (2) Fleet Numerical Meteorology and Oceanography Center (FNMOC), (3) Atlantic Oceanographic and Meteorological Laboratory (AOML), (4) Copernicus Marine Environment Monitoring Service (CMEMS), and (5) Argo Global Data Assembly Centers (GDACs). Each data set reports SSTs from one or more platform types. It is found that drifting buoys are more fully represented in FNMOC and CMEMS. Ships are reported in FNMOC and ICOADS, which are best used in conjunction with each other, but not in CMEMS. Tropical moorings are well represented in ICOADS, FNMOC, and CMEMS. Some CMEMS mooring reports are sampled every 10 min (compared to the standard 1 h sampling in all other datasets). The CMEMS Argo profiling data set is, as expected, nearly identical with those from the two Argo GDACs.
topic <i>i</i>Quam
in situ SST
ICOADS
FNMOC
CMEMS
AOML
url https://www.mdpi.com/2072-4292/13/18/3741
work_keys_str_mv AT haifengzhang acompletenessandcomplementarityanalysisofthedatasourcesinthenoaainsituseasurfacetemperaturequalitymonitoriiiquamsystem
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AT haifengzhang completenessandcomplementarityanalysisofthedatasourcesinthenoaainsituseasurfacetemperaturequalitymonitoriiiquamsystem
AT alexanderignatov completenessandcomplementarityanalysisofthedatasourcesinthenoaainsituseasurfacetemperaturequalitymonitoriiiquamsystem
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