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from MPIOM ocean circulation model forced by ECMWF operational atmospheric data
produced by IERS Associated Product Centre Deutsches GeoForschungsZentrum GFZ Potsdam

Author: M. Thomas ( R. Dill ( H. Dobslaw (
Affiliation: Deutsches GeoForschungsZentrum GFZ Dep. 1: Geodesy and Remote Sensing Sec. 1.3: Earth System Modelling Telegrafenberg 14473 Potsdam, Germany

GFZ provides these data as Associated Product Centre by order of the International Earth Rotation and Reference System Service (IERS). The data is public availably without any warranty of any kind what so ever, either express or implied, including warranties of merchantability. GFZ shall not be liable for incidental, consequential, or special consequences arising out of the use of this data.

Files in this directory:

README_NTOL this file, last updated 2016-10-05
NTOL 1976 -now (CF)ESMGFZ_NTOL_cf_v1.0_3h_yyyy.ncoperational oceanic loading version v1.0 in center of Earth figure frame.
griddedoceanic loading from ocean bottom pressure fields of MPIOM, forced with same ECMWF operational data (reduced to reference topography) as NTAL and HYDL sampling: 0.5°x0.5°, 3h
variables: duV vertical deformation , unit=m
duNShorizontal deformation North-South, unit=m
duEWhorizontal deformation East-West, unit=m
dggravity change, unit=10-8 m/s2 (mugal)
HYDL (CM)ESMGFZ_NTOL_cm_v1.0_3h_yyyy.ncoperational oceanic loading version v1.0 in center of Earth mass frame.
NTOL forecast (CF)ESMGFZ_NTOL_cf_v1.0_3h_yyyy_dddF.nclatest 6-day forecast starting from the day of the year "ddd"
NTOL forecast (CM) latest 6-day forecast starting from the day of the year "ddd"

Oceanic mass loads are derived from 3-hourly non-tidal ocean bottom pressure given on a regular 1.0° x 1.0° global grid from the ocean model MPIOM (same model configuration as for AOD1B RL06). Oceanic tides were removed by harmonic analysis of 12 major tidal constituents. Non-tidal ocean bottom pressure is resampled on a regular 0.125°x0.125° global grid.

The operational ECMWF model is typically updated about two times a year to incorporate the most recent improvements in the numerical scheme, the physical model or the data assimilation procedures into the system for steadily improving daily weather forecasting quality. Such changes frequently affect the long-term stability of meteorological quantities in the ECMWF deterministic model, but this operational model data is available in near real-time with substantially higher spatial resolution than the alternatively available atmospheric re-analyses data sets.

Harmonized Atmospheric Surface Pressure Time-Series:
The surface pressure time-series from ECMWF reanalysis ERA-40, ERA-Interim, and operational ECMWF were projected onto a time-invariant reference topography under consideration of the time-variable atmospheric density structure. This approach allows to use the latest data from the operational ECMWF deterministic model maintaining at the same time the long-term stability of re-analysis data sets.

In future, we will use this harmonized atmospheric data sets, updated in near real-time, as consistent basis for the forcing of our ocean model MPIOM, the hydrological model LSDM and all our derived products, such as GRACE AOD, hydrological loading, non-tidal atmospheric loading and non-tidal oceanic loading.

For atmospheric loading the atmospheric tides were removed by harmonic analysis of 12 major tidal constituents.

please go back to the LOADING toplevel directory and have a look at /LOADING/README

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