Quantifying Absolute Dynamic Topography by Synergy of Satellite, Geoid and Hydrodynamic Model

Accurate determination of absolute dynamic topography (ADT) has been mostly under-utilized because of limited access to high resolution geoid models. However, quantification of ADT is essential for advancing in realistically understanding ocean dynamic (e.g., ocean current patterns, sea level trends...

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Main Authors: Mostafavi, M., Delpeche Ellmann, N., Ellmann, A.
Format: Conference Object
Language:English
Published: 2023
Subjects:
Sea ice
Online Access:https://gfzpublic.gfz-potsdam.de/pubman/item/item_5018371
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spelling ftgfzpotsdam:oai:gfzpublic.gfz-potsdam.de:item_5018371 2023-07-02T03:33:42+02:00 Quantifying Absolute Dynamic Topography by Synergy of Satellite, Geoid and Hydrodynamic Model Mostafavi, M. Delpeche Ellmann, N. Ellmann, A. 2023 https://gfzpublic.gfz-potsdam.de/pubman/item/item_5018371 eng eng info:eu-repo/semantics/altIdentifier/doi/10.57757/IUGG23-2385 https://gfzpublic.gfz-potsdam.de/pubman/item/item_5018371 XXVIII General Assembly of the International Union of Geodesy and Geophysics (IUGG) info:eu-repo/semantics/conferenceObject 2023 ftgfzpotsdam https://doi.org/10.57757/IUGG23-2385 2023-06-11T23:39:54Z Accurate determination of absolute dynamic topography (ADT) has been mostly under-utilized because of limited access to high resolution geoid models. However, quantification of ADT is essential for advancing in realistically understanding ocean dynamic (e.g., ocean current patterns, sea level trends etc.). Most importantly it allows conformity of a stable vertical reference datum to be used amongst nations. As a result, this study develops and explores a method that derives ADT by employing both a geodetic and oceanographic approach. The geodesy approach utilizes multi-satellite along track satellite altimetry (SA) data in conjunction with the NKG2015 geoid model (developed by Baltic Sea countries). For the oceanographic approach the vertical datum of HDMs are often undisclosed, thus a method is applied using geoid referred tide gauges (TG), that corrects the HDM. The study site is that of the entire Baltic Sea for the period 2017‒2019.The statistical results showed average discrepancies between SA and HDM within range of ±20 cm; RMSE between 6‒ 9 cm and a standard deviation between 2‒16 cm. The method employed different sources; thus it identified problems with SA, HDM, TG, and geoid. For instance, possible geoid problems were discovered in the eastern Baltic Sea whereas for SA the northern Baltic sea-ice may be problematic. The comparison also revealed that SA along-track data has potential to show more realistic variation of ADT compared to that of HDM (which tended to generate a smooth surface). Also, in most cases, the HDM tended to underestimate the ADT. Conference Object Sea ice GFZpublic (German Research Centre for Geosciences, Helmholtz-Zentrum Potsdam)
institution Open Polar
collection GFZpublic (German Research Centre for Geosciences, Helmholtz-Zentrum Potsdam)
op_collection_id ftgfzpotsdam
language English
description Accurate determination of absolute dynamic topography (ADT) has been mostly under-utilized because of limited access to high resolution geoid models. However, quantification of ADT is essential for advancing in realistically understanding ocean dynamic (e.g., ocean current patterns, sea level trends etc.). Most importantly it allows conformity of a stable vertical reference datum to be used amongst nations. As a result, this study develops and explores a method that derives ADT by employing both a geodetic and oceanographic approach. The geodesy approach utilizes multi-satellite along track satellite altimetry (SA) data in conjunction with the NKG2015 geoid model (developed by Baltic Sea countries). For the oceanographic approach the vertical datum of HDMs are often undisclosed, thus a method is applied using geoid referred tide gauges (TG), that corrects the HDM. The study site is that of the entire Baltic Sea for the period 2017‒2019.The statistical results showed average discrepancies between SA and HDM within range of ±20 cm; RMSE between 6‒ 9 cm and a standard deviation between 2‒16 cm. The method employed different sources; thus it identified problems with SA, HDM, TG, and geoid. For instance, possible geoid problems were discovered in the eastern Baltic Sea whereas for SA the northern Baltic sea-ice may be problematic. The comparison also revealed that SA along-track data has potential to show more realistic variation of ADT compared to that of HDM (which tended to generate a smooth surface). Also, in most cases, the HDM tended to underestimate the ADT.
format Conference Object
author Mostafavi, M.
Delpeche Ellmann, N.
Ellmann, A.
spellingShingle Mostafavi, M.
Delpeche Ellmann, N.
Ellmann, A.
Quantifying Absolute Dynamic Topography by Synergy of Satellite, Geoid and Hydrodynamic Model
author_facet Mostafavi, M.
Delpeche Ellmann, N.
Ellmann, A.
author_sort Mostafavi, M.
title Quantifying Absolute Dynamic Topography by Synergy of Satellite, Geoid and Hydrodynamic Model
title_short Quantifying Absolute Dynamic Topography by Synergy of Satellite, Geoid and Hydrodynamic Model
title_full Quantifying Absolute Dynamic Topography by Synergy of Satellite, Geoid and Hydrodynamic Model
title_fullStr Quantifying Absolute Dynamic Topography by Synergy of Satellite, Geoid and Hydrodynamic Model
title_full_unstemmed Quantifying Absolute Dynamic Topography by Synergy of Satellite, Geoid and Hydrodynamic Model
title_sort quantifying absolute dynamic topography by synergy of satellite, geoid and hydrodynamic model
publishDate 2023
url https://gfzpublic.gfz-potsdam.de/pubman/item/item_5018371
genre Sea ice
genre_facet Sea ice
op_source XXVIII General Assembly of the International Union of Geodesy and Geophysics (IUGG)
op_relation info:eu-repo/semantics/altIdentifier/doi/10.57757/IUGG23-2385
https://gfzpublic.gfz-potsdam.de/pubman/item/item_5018371
op_doi https://doi.org/10.57757/IUGG23-2385
_version_ 1770273752141004800

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