Description of upgrade
The CAMS IFS cycle 50R1 is based on ECMWF's IFS Cycle 50r1.
The CAMS datasets affected by the upgrade are:
- CAMS global atmospheric composition forecasts (COMPO)
- CAMS global greenhouse gas forecasts (GHG)
Timetable for implementation
The planned timetable for the implementation of the cycle 50R1 is as follows:
| Date | Event |
|---|---|
| late April 2025 | Implementation |
The timetable represents current expectations and may change in light of actual progress made.
Current Status
IFS cycle 50R1 is going through its final preparation phase.
Meteorological content of the new cycle
The meteorological changes can be found on the ECMWF IFS CY50R1 page.
Atmospheric composition and greenhouse gas upgrades of the new cycle
Assimilation
- Updated background errors for NWP, now taken from the operational EDA (COMPO)
Updated background errors for O3 to remove spurious long-range correlations (COMPO) - The EDA-based B matrix used in 49r1 is tapered in the stratosphere for 50r1 for CH4 (GHG)
- The EDA-based B matrix used in 49r1 is tapered near the surface in 50r1 for CO2 (GHG)
Observations
- Sentinel 3 AOD over ocean actively assimilated (COMPO)
- TROPOMI for CH4 (GHG)
Emissions
- CAMS-GLOB-ANT-M1, a merged emission data set using regional emissions inventories for North-America (EPA), Europe (CAMS-REG) and China (MECS) and Edgar 6.2 elsewhere (COMPO)
- Activation of weekly cycle in anthropogenic emissions
- Online BVOC emissions simulation (COMPO)
- New GFAS emissions 1.4.2 (MODIS and VIIRS-based)
Model changes
Aerosol developments (COMPO):
- Implementation of an equilibration time parameterization for nitrate/ammonium formation
- Revision of hydrophilic growth of OM, SOA and fine mode nitrate
- Correction of hydrophilic growth factor of sea salt for sedimentation
- Sedimentation velocity computed online for all species, using the Stokes formula
Reactive gases developments (COMPO):
- Update of heterogeneous chemistry parameterization
- Revision of SO2 + H2O2 aqueous phase reaction
Technical details of the new cycle
New parameters
| paramId | shortName | name | units | GRIB edition | Components |
|---|---|---|---|---|---|
Model & Pressure levels | |||||
| 216013 | MolBSC355 | Molecular backscatter coefficient at 355 nm | m-1 sr-1 | 2 | CAMS Aerosol Model |
| 216014 | MolBSC532 | Molecular backscatter coefficient at 532 nm | m-1 sr-1 | 2 | CAMS Aerosol Model |
| 216015 | MolBSC1064 | Molecular backscatter coefficient at 1064 nm | m-1 sr-1 | 2 | CAMS Aerosol Model |
| 216023 | MolBSC910 | Molecular backscatter coefficient at 910 nm | m-1 sr-1 | 2 | CAMS Aerosol Model |
| 216016 | AerBSC355 | Aerosol backscatter coefficient at 355 nm | m-1 sr-1 | 2 | CAMS Aerosol Model |
| 216017 | AerBSC532 | Aerosol backscatter coefficient at 355 nm | m-1 sr-1 | 2 | CAMS Aerosol Model |
| 216018 | AerBSC1064 | Aerosol backscatter coefficient at 355 nm | m-1 sr-1 | 2 | CAMS Aerosol Model |
| 216024 | AerBSC910 | Aerosol backscatter coefficient at 355 nm | m-1 sr-1 | 2 | CAMS Aerosol Model |
| 216025 | Aerext340 | Aerosol extinction coefficient at 340 nm | m^-1 | 2 | CAMS Aerosol Model |
| 216026 | Aerext440 | Aerosol extinction coefficient at 440 nm | m^-1 | 2 | CAMS Aerosol Model |
| 216027 | Aerext800 | Aerosol extinction coefficient at 800 nm | m^-1 | 2 | CAMS Aerosol Model |
| 216019 | Aerext910 | Aerosol extinction coefficient at 910 nm | m^-1 | 2 | CAMS Aerosol Model |
| 216020 | SSA910 | Single Scattering Albedo at 910 nm | 2 | CAMS Aerosol Model | |
| 215186 | Aerbcksctgnd355 | Aerosol backscatter coefficient at 355 nm as seen from the ground | m-1 sr-1 | 2 | CAMS Aerosol Model |
| 215187 | Aerbcksctgnd532 | Aerosol backscatter coefficient at 532 nm as seen from the ground | m-1 sr-1 | 2 | CAMS Aerosol Model |
| 215188 | Aerbcksctgnd1064 | Aerosol backscatter coefficient at 1064 nm as seen from the ground | m-1 sr-1 | 2 | CAMS Aerosol Model |
| 216022 | Aerbcksctgnd910 | Aerosol backscatter coefficient at 910 nm as seen from the ground | m-1 sr-1 | 2 | CAMS Aerosol Model |
| 215183 | Aerbckscttoa355 | Aerosol backscatter coefficient at 355 nm as seen from Top Of Atmosphere (TOA) | m-1 sr-1 | 2 | CAMS Aerosol Model |
| 215184 | Aerbckscttoa532 | Aerosol backscatter coefficient at 532 nm as seen from TOA | m-1 sr-1 | 2 | CAMS Aerosol Model |
| 215185 | Aerbckscttoa1064 | Aerosol backscatter coefficient at 1064 nm as seen from TOA | m-1 sr-1 | 2 | CAMS Aerosol Model |
| 216021 | Aerbckscttoa910 | Aerosol backscatter coefficient at 910 nm as seen from TOA | m-1 sr-1 | 2 | CAMS Aerosol Model |
Surface level | |||||
216033 | trco3 | Tropospheric column vertically-integrated mass density of ozone | kg m-2 | 2 | CAMS Chemical Model |
216034 | trcco | Tropospheric column vertically-integrated mass density of carbon monoxide | kg m-2 | 2 | CAMS Chemical Model |
216035 | trcno2 | Tropospheric column vertically-integrated mass density of nitrogen dioxide | kg m-2 | 2 | CAMS Chemical Model |
Change to GRIB encoding
The GRIB model identifiers (generating process identification number) for cycle 50r1 will be changed as follows:
GRIB 1 Section 1 Octets | GRIB 2 Section 4 Octets | ecCodes key | Component | Model identifier | |
|---|---|---|---|---|---|
49r1 | 50r1 | ||||
6 | 14 | generatingProcessIdentifier | Atmospheric model | 158 | 161 |
6 | 14 | generatingProcessIdentifier | Ocean wave model | 106 | 109 |
6 | 14 | generatingProcessIdentifier | soil moisture model | 146 | 146 |
For all parameters in GRIB 2 the Master Tables Version Number will be changed as follows:
GRIB 2 Section 1 Octets | ecCodes key | Master Tables Version Number | |
|---|---|---|---|
49r1 | 50r1 | ||
10 | tablesVersion | 33 | 35 |
Software
To handle the data of Cycle 50r1 we recommend to use the ECMWF software packages
ecCodes (2.44.0)
CodesUI (minimum version)
Magics (4.16.0)
Metview (5.26.1)
ODC (1.6.0)
On the ATOS HPC these versions correspond to ecmwf-toolbox/2025.1
