- Created by Helen Setchell, last modified by Kathy Maskell on Jan 25, 2023
Description of the upgrade
Cycle 36r4 included a new cloud parametrization scheme and new surface analysis schemes for snow and soil moisture.
Implemented: 09 November 2010
Datasets affected
- HRES
- ENS
Resolution
Unchanged
| Horizontal | Vertical |
|---|---|
Horizontal (unchanged)
| Vertical (unchanged)
|
Meteorological content
- Five-species prognostic microphysics scheme, introducing cloud rain water content, and cloud ice water content as new model variables.
- Retuning and simplification of convective entrainment/detrainment and land/sea dependent threshold for precipitation
- Retuning of subgrid-scale orographic gravity wave drag
- Adjustment to diffusion in stable boundary Iayers near the surface
- All-sky improvements of microwave radiance assimilation
- Adaptation to neutral wind of the observation operator for scatterometer data
- New soil-moisture analysis scheme (SEKF, simplified ensemble Kalman filter)
- New snow analysis based on 0I (Optimum Interpolation), and upgrade of NESDIS snow cover data to 4 km resolution.
- Monthly varying climatology of leaf area index (LAI) based on MODIS data
- The 4D-Var of the Early Delivery suite performs 2 rather than 3 updates of the outer loop
ENS
- Revision of stochastically perturbed physical tendencies
- Introduction of spectral stochastic backscatter scheme
- Retuned initial perturbation amplitudes
Meteorological impact
- Benefit in terms of objective scores in the medium range in both hemispheres, particularly in the upper troposphere.
- positive verification for winds against observations, whereas verification against analyses tends to be negative in the shorter range, which can be explained by higher variability in the analysed wind fields.
- improved snow analysis issues that affected the analysed snow depth on the 2009/2010 winter
- modifications to the stable boundary layer improve the diurnal cycle of 2m temperature, especially some reduction of the night-time cold bias over Europe
- improved tropospheric humidity analysis
ENS
- improved probabilistic scores in the extra-tropics
- better tuned spread-skill relationship - especially for 500 hPa geopotential height in the earlier forecast ranges (days 1-5)
New and changed parameters
New parameters
8 | Surface run off | sro | m | sfc | fc, full EPS |
9 | Sub-surface run off | ssro | m | sfc | fc, full EPS |
66 | Leaf area index, low vegetation | lai_lv | m**2/m**2 | sfc | an, fc |
67 | Leaf area index, high vegetation | lai_hv | m**2/m**2 | sfc | an, fc |
75 | Cloud Rain Water Content | crwc | kg/kg | ml | an, fc, full EPS |
76 | Cloud Snow Water Content | cswc | kg/kg | ml | an, fc, full EPS |
228003 | Friction velocity | zust | m/s | sfc | fc |
228023 | Cloud Base Height | cbh | m | sfc | fc, full EPS |
228024 | Zero Degree Level | deg0l | m | sfc | fc, full EPS |
228131 | Neutral Wind at 1m u- component | u10n | m/s | sfc | fc |
228132 | Neutral Wind at 1m v- component | v10n | m/s | sfc | fc |
Technical content
Model ID and experiment number
- Atmospheric: 139
- Ocean wave: 107
- Limited-area ocean wave: 207
E-suite experiment number = 0051
Resources
ECMWF Newsletter: See Newsletter 126
Contents of this page
All IFS cycles
- Terminology for IFS testing
- Implementation of IFS Cycle 49r1
- Implementation of IFS Cycle 48r1
- Implementation of IFS Cycle 47r3
- Implementation of IFS Cycle 47r2
- Implementation of IFS Cycle 47r1
- Implementation of IFS cycle 46r1
- Implementation of IFS cycle 45r1
- Implementation of Seasonal Forecast SEAS5
- Implementation of IFS cycle 43r3
- Implementation of IFS Cycle 43r1
- Implementation of IFS cycle 41r2
- Introducing the octahedral reduced Gaussian grid
- Horizontal resolution increase
- Boundary-Condition Programme ENS at 06 and 18 UTC
- Implementation of IFS Cycle 41r1
- IFS cycle upgrades pre 2015