10. Chemistry specific modifications

CESM2.0 supports one standard mechanisms for CAM, CAM-chem, and WACCM (see details in the cam6_scientific_guide). Here, we describe details on how the chemical mechanism is compiled and how to perform modifications of chemistry in the model, including adding or removing chemical and aerosol species, which requires changing the chemical mechanism and if applicable changes to wet and dry deposition. Additional changes may be required in the namelist, e.g., adding our removing output, changing deposition species etc., as described in Section 5.2. Furthermore, code changes may be required, depending of the specifics of the changes.

10.1. Chemical mechanisms

CESM2.0 supports 6 chemical mechanism (as listed in the Table). The CESM chemical mechanism is a set used to calculate chemical reactions using the chemical preprocessor (http://www.cesm.ucar.edu/working_groups/Chemistry/chemistry.preprocessor.pdf). For existing compsets the preprocessor has been used to compile fortran routines required to run the model: under $CCSMROOT/components/cam/src/chemistry/.

Mechanism
(pre-processor code)
Model:
Chemistry Description
#Species
#Reactions
TSMLT1
(pp_waccm_tsmlt_mam4)
WACCM: Troposphere, stratosphere, mesosphere, and lower thermosphere
231 solution,
2 invariant
583 (433 kinetic,
150 photolysis)
TS1
(pp_trop_strat_mam4_vbs)
CAM-chem: Troposphere and stratosphere
221 solution,
3 invariant
528 (405 kinetic,
123 photolysis)
MA
(pp_waccm_ma_mam4)
WACCM: Middle atmosphere (stratosphere, mesosphere, and lower thermosphere)
98 solution,
2 invariant
298 (207 kinetic,
91 photolysis)
MAD
(pp_waccm_mad_mam4)
WACCM: Middle atmosphere plus D-region ion chemistry
135 solution,
2 invariant
593 (489 kinetic,
104 photolysis)
SC
(pp_waccm_sc_mam4)
WACCM: Specified chemistry
29 solution,
8 invariant
12 (11 kinetic,
1 photolysis)
CAM CAM: Aerosol chemistry
25 solution,
7 invariant
7 (6 kinetic,
1 photolysis)

10.2. Modifications of the Chemical Mechanisms

To modify the chemical mechanism, including changing reaction rates requires the following steps:

  • Check out an existing compset that you would like to modify and compile and build your case
  • Copy the existing chemical mechanism in $CASEROOT/CaseDocs/chem_mech.in to a location (e.g., /glade/u/home/$USER/mechanism/chem_mech_changed.in)
  • Alter your mechanism as desired (see details in CAMchem Wiki page)
  • Point to the new mechanism file in $CASEROOT/env_build.xml, for example:: <entry id=”CAM_CONFIG_OPTS” value=”-phys cam6 -age_of_air_trcs -chem waccm_tsmlt_mam4 -usr_mech_infile /glade/u/home/$USER$/mechanism/chem_mech_changed.in”>
  • Changing the chemical mechanism requires to rebuild your case

10.3. Adding emissions and lower boundary conditions

Adding new chemical or aerosol species requires to include their sources (emissions) and sinks (deposition, see below). Sources can be either emissions (surface or vertical, see Section 6.1) or concentrations in form of lower boundary conditions. To add new emissions you have to copy the existing list of emisisons to your user_nl_cam file and add the additional species (See Section 5.2.1).

To add new lower boundary conditions via namelist, you have to add an addition species to the flbc_list and modify the lbc_file:

flbc_file = ‘/glade/p/cesmdata/cseg/inputdata/atm/waccm/lb/LBC_17500116-20150116_CMIP6_0p5degLat_c180227.nc’ flbc_list = ‘CCL4’, ‘CF2CLBR’, ‘CF3BR’, ‘CFC11’, ‘CFC113’, ‘CFC12’, ‘CH3BR’, ‘CH3CCL3’, ‘CH3CL’, ‘CH4’,

‘CO2’, ‘H2’, ‘HCFC22’, ‘N2O’, ‘CFC114’, ‘CFC115’, ‘HCFC141B’, ‘HCFC142B’, ‘CH2BR2’, ‘CHBR3’, ‘H2402’, ‘OCS’, ‘SF6’, ‘CFC11eq’

10.4. Adding species and changing the mechanism

The addition of species with dry and wet deposition requires code changes. This requires to add information of the Henry’s law coefficient:

  • Copy $CCSMROOT/cime/src/drivers/mct/shr/seq_drydep_mod.F90 in to your $CASEROOTSourceMods/src.share directory and modify the following. You can also map the new new species to deposit with the same rates as a species already undergoing wet deposition and therefore skip this step.

    • In this code, there are several arrays containing: 1) species names, 2) reactivity factors (f0), 3) henry’s law constants, and 4) molecular weights. Add your new species characteristics at the end of each of these arrays.
    • Update the variable “maxspc” to be the total number of species you are dry depositing.
    • Update the variable “n_species_table” to the total number of species listed in these arrays.
  • Additional routines may have to be modified:
    • $CCSMROOT/components/cam/src/chemistry/mozart/mo_neu_wetdep.F90
    • $CCSMROOT/components/cam/src/chemistry/mo_drydep.F90 (subroutine drydep_xactive)
    • $CCSMROOT/components/clm/src/biogeochem/DryDepVelocity.F90
  • Add new species to the masterlist (to be automatically included in your namelists). If you don’t include your species to the mastlist you have to include those in your user_nl_cam namelist.
    • $CCSMROOT/components/cam/bld/namelist_files including master_drydep_list.xml, master_gas_wetdep_list.xml, master_aer_drydep_list.xml, master_aer_wetdep_list.xml

10.5. Running with prognostic fire emissions

This option will be added in CESM2.1

10.6. Running with fixed land data

10.7. Running with interactiv / prescribed biogenic emissions

Running with interactive biogenic emissions:

  • The default setting in CESM2 CAM-chem and WACCM configuration is to run with interactive biogenic emissions, while CAM6 and WACCM SC do not use biogenic emissions. To run with interactive biogenic emissions, this file needs to be specified:

megan_factors_file = ‘/glade/p/cesmdata/cseg/inputdata/atm/cam/chem/trop_mozart/emis/megan21_emis_factors_78pft_c20161108.nc’

  • This file contains the emission factors at standard temperature and pressure for each compound for each plant functional type, as well as the other model parameters. The compound names are given in the variable “Comp_Name”. The default file works with 78 plant function types (PFTs).
  • CLM/MEGAN-v2.1 includes an option for using a map of emission factors for isoprene. The map in the current release is out of date and SHOULD NOT BE USED. Under megan_emis_nl, in drv_flds_on or user_nl_cam: megan_mapped_emisfctrs = .false.

Running with prescribed biogenic emissions:

To turn run with prescribed biogenic emissions requires including those emissions in the namelist for surface emission files that are not indluced in the namelist by default. Additionally, one needs to turn off interactive biogenic emissions, if using a CAMchem or WACCM TSML compset:

&megan_emis_nl
 megan_factors_file = ' '
 megan_specifier = ' '
&

History output:

  • To save the MEGAN emissions in the CAM history files, include the desired MEG_{species} variables in the fincl* fields of user_nml_cam. The SF{species} variables are the total emissions fluxes for each species, so will include all sources if an emissions file was also read for other sources (such as bb).