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Brazil cprcm CMORise

Converting the output from the Met Office CSSP Brazil convecting-permitting model (CPRCM) output into a single-variable netCDF files consistent with CMOR 3.7, CF-1.7 CMIP-6.2 and CF standards.

Climate forcing and Lateral Boundary Conditions (LBCs):

The Brazil CPRCM experiment includes three simulations performed with the Met Office regional environment model (MOHC-REM3), using the regional atmosphere-land tropical configuration at 4.5 km grid spacing (MOHC-HadREM3-RAL1T-4.5km).

The Hindcast simulation (hindcast) is ran for 1998-2008. The boundary conditions are provided by the ERA-interim dataset, dynamically downscaled to the CPRCM 4.5km resolution using two-step nesting. ERA-Interim data is first downscaled to 25 km with MOHC-HadREM3-GA705-25km and then into 4.5km with HadREM3-RAL1T-4.5km.

The present-day control simulation (pdControl) covers the same period and the boundary conditions are provided by the HadGEM3 atmosphere-land model at 25km (MOHC-HadGEM3-GC31-N512). Sea surface temperatures (SSTs) and sea ice are from the present-day daily 0.25 deg. dataset (Reynolds et al., 2007).

The Future simulation (future2100) simulates 10 years under 2100 RCP8.5 forcing driven by the MOHC-HadGEM3-GC31-N512 model. The future forcing includes GHG concentrations for the year 2100 from the RCP8.5 scenario (Moss et al., 2010) and sea surface temperatures (SST) anomalies between the 1975-2005 and 2085-2115 from the MOHC-HadGEM2-ES CMIP5 RCP8.5 simulation, added to the present-days (Reynolds) SSTs.

Data conversion

We have used a Python-based tool for converting the UM output into CMOR standards. This tool has been developed by the Climate Data Dissemination System (CDDS) team at the Met Office (https://github.com/MetOffice/CDDS) and was extensively used to convert the Met Office UM data for CMIP6.

Data conversion: progress table (correct on 23/12/2024)

variables.txt STASH code CF standard name / description CMORised?
HOURLY Hindcast PD FUT
E1hr/pr:apq m01s04i203+ m01s04i204  precipitation_flux (THM) yes yes yes
tas:ap1 m01s03i236 1.5m temperature (T1H) no no no
hfss:ape m01s03i217 SH at surface (THM) No no no
hfls:ape m01s03i234 LH at surface (THM) no no no
apc/psl:apc m01s16s222 mslp no no no
3-HOURLY Hindcast PD FUT
ps:apd m01s00i409 Surface pressure (T3HM) No no no
mrro:apd m01s08i234 + m01s08i235 Total runoff (T3HM) No no no
rss:apd m01s01i201 Net SW down at surface (T3HM) No no no
:apd m01s02i201 Net LW down at surface (T3HM) No no no
rsds:apd m01s01i235 Downwelling SW surface (T3HM) No no no
rlds:apd m01s02i207 Downwelling LW surface (T3HM) No no no
ts:apd m01s00i024 Surface temperature (T3H) No no no
huss:apd m01s03i237 specific humidity at 1.5m (T3H) No no no
DAILY Hindcast PD FUT
day/pr:apa m01s04i203+ m01s04i204  precipitation_flux Yes yes yes
day/tas:apa m01s03i236 [lbproc=128] air_temperature Mean yes yes no
day/tasmin:apa m01s03i236 [lbproc=4096] air_temperature Min Yes yes yes
day/tasmax:apa m01s03i236 [lbproc=8192] air_temperature Max Yes yes yes
Eday/ts:apa m01s00i024 surface_temperature Yes yes yes
day/huss:apa m01s03i237 [lbproc=128] specific_humidity yes yes No
day/hurs:apa m01s03i245 [lbproc=128] relative_humidity yes yes no
day/evspsbl:apa m01s03i223 evapotranspiration no no no
day/mrso:apb Level sum (m01s08i223 [lbproc=128]) Soil moisture content yes no no
apa m01s03i225 Uwind 10m No no No
apa m01s03i224 Vwind 10m no no no
apb m01s30i201 *U wind on pressure levels No no no
apb m01s30i202 *V wind on pressure levels No no no
apb m01s30i205 *q on pressure levels no no no

*each pressure level needs to be processed separately

Brazil CPRCM experiment: Simulations segments, calendar and spinup

Each of the three simulations was split into two segments of 5 years (+1 year spinup), which were run in parallel to save computing time. The spinup yr for segment one is 2007 and the simulation period is 1998-2002. The spinup yr for segment two is 2002 and the simulation period is 2003-2008.

Experiment Calendar UM model suite ID (Segment I) suite ID: Segment II Driving model Driving suite
hindcast Gregorian MOHC-HadREM3-RAL1T-4.5km mi-ba751 mi-bb055 MOHC-HadREM3-GA705-25km mi-ba898
pcControl 360-day MOHC-HadREM3-RAL1T-4.5km mi-ba488 mi-bb069 MOHC-HadGEM3-GC31-N512 u-ab261
future2100 360-day MOHC-HadREM3-RAL1T-4.5km mi-ba489 mi-bb070 MOHC-HadGEM3-GC31-N512 u-ab268

Initialisation Details:

Hindcast Simulations:

  • MO rose suites mi-ba751 was initialised at 1998-01-01 from a dump file from its spinup suite (mi-ba451). This
    was initialised from the RCM (MOHC-HadREM3-GA705-25km) dump at 1997-01-01. The RCM was initialised at 1992-01-01 from reconfiguration, which uses offline JULES run to create estimate of the soil moisture state.
  • MO rose suites mi-bb055 was initialised at 2003-01-01 from a spinup dump of suite mi-ba451.

pcControl Simulations:

  • MO rose suite mi-ba488 was initialised at 1997-01-01 from a PD GCM dump (MOHC-HadGEM3-GC31-N512, MO rose suite u-ab261). The first year of mi-ba488 is regarded as spinup and the simulation begins at 1998-01-01.
  • MO rose suite mi-bb069 was initialised at 2002-01-01 from a u-ab261 dump. The first year of mi-bb069 is its spinup and the simulation begins at 2003-01-01.

Future2100 Simulations:

  • MO rose suite mi-ba489 was initialised at 1998-01-01 from a Future GCM dump (MOHC-HadGEM3-GC31-N512, MO rose suite u-ab268). The first year of mi-ba489 is regarded as spinup and the simulation begins at 1998-01-01.
  • MO rose suite mi-bb070 was initialised at 2002-01-01 from a u-ab268 dump. The first year of mi-bb070 is its spinup and the simulation begins at 2003-01-01.

File names convention, variant ID and metadata:

We have generated single-variable netCDF files consistent with CMOR 3.7, CF-1.7 CMIP-6.2 and CF standards. The filename is given in the CMIP6 format, as following:

{variable}{frequency}{model_id}{experiment_id}{variant_id}{grid_type}{start_date}-{end_date}.nc

For example: ‘pr_day_HadREM3-RAL1T_hindcast_r1i1p1f1_gn_19980101-19981231.nc’

Files from the future2100 also have dates from 1998-01-01 to 2008-01-01, even though their forcing are for 2100. This is to reflect the dates of the base SSTs that are used. For this reason, time series plots will have 1998-2008 dates for both the pdControl and the future2100 simulations.

The CMIP6 netCDF file names contain information on variant-id, with the format e.g.: r1i1p1f1. The letters express the following: r - realisation (i.e. ensemble member), I - initialisation method, p- physics, f- forcing. We have decided not to use the variant ID to distinguish between the different CSSP Brazil simulations (because of subtly different meaning of r, i, p and f in the CMIP experiments) and therefore filenames from all simulations are defined as r1i1p1f1.

The netCDF files metadata includes information about the timestep (60s or 1/1440 of a day), diagnostic name and units, the experiment name and suite id and a link to this url.

Licensing and data use:

Citations: Halladay, K., Kahana, R., Johnson, B. et al. Convection-permitting climate simulations for South America with the Met Office Unified Model. Clim Dyn 61, 5247–5269 (2023). https://doi.org/10.1007/s00382-023-06853-0

Kahana, R., Halladay, K. et al. Future precipitation projections for Brazil and tropical South America from a Convection-permitting climate simulation. Front. Clim. Sec. Predictions and Projections Volume 6 (2024) doi: 10.3389/fclim.2024.1419704 https://www.frontiersin.org/journals/climate/articles/10.3389/fclim.2024.1419704/abstract