Reconstructed salinity, temperature and geostrophic velocities (u and v components) profiles from the surface down to 1900 dbar (every 10 dbar) gridded on a ¼° Cartesian grid for the North Atlantic
This product contains daily snapshots from 1st of January 1993 to 5th of May 2016 of reconstructed salinity, temperature and geostrophic velocities (u and v components) profiles from the surface down to 1900 dbar (every 10 dbar) gridded on a ¼° Cartesian grid for the North Atlantic from 34.1250°N to...
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| Format: | Dataset |
| Language: | English |
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PANGAEA
2019
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| Online Access: | https://doi.pangaea.de/10.1594/PANGAEA.909233 https://doi.org/10.1594/PANGAEA.909233 |
| Summary: | This product contains daily snapshots from 1st of January 1993 to 5th of May 2016 of reconstructed salinity, temperature and geostrophic velocities (u and v components) profiles from the surface down to 1900 dbar (every 10 dbar) gridded on a ¼° Cartesian grid for the North Atlantic from 34.1250°N to 59.8750°N and 74.3750°W to 10.1250°W. Note that some of the regions within the dataset domain are not covered by the data (e.g. Labrador Sea, Irminger Sea and West European Basin). The reconstructed profiles are derived from satellite altimetry data and Argo floats using a Gravest Empirical Mode (GEM) technique. The GEM technique creates a transfer function between T/S profiles and dynamic height from Argo floats in order to parameterize salinity and temperature profiles as a function of dynamic height from the satellite altimetry. The GEM is built by interpolating with a cubic smoothing spline the salinity and temperature from all Argo floats available within a selected region, with the dynamic height referenced to 1900 from the surface until 1900 dbar, at intervals of 10 dbar. The interpolation between the salinity/temperature produces 191 splines interpolated onto a horizontal regular grid of 0.0005 dyn m every 10 dbar called look up table or transfer function. In order to have salinity and temperature vertical profiles whose temporal and spatial distribution correspond to those of the Sea Level Anomaly (SLA) from the satellite altimeter data (daily snapshot gridded on a 1/4° resolution from 1993 to 2016) a mean dynamic topography (MDT) must be added to the SLA in order to produce an absolute value (ADT) that corresponds after applying some adjustments to the dynamic height in the look up table. In this way for each corresponding ADT from satellite altimetry data we have a corresponding salinity and temperature profile from the look up table. Geostrophic velocities from the reconstructed temperature and salinity are calculated relative to the sea surface for each grid point and vertical layer. The absolute ... |
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