chemics_init.F

!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
!               __          _______  ______       _____  _____                 !
!               \ \        / /  __ \|  ____|     / ____|/ ____|                !
!                \ \  /\  / /| |__) | |__ ______| |  __| |                     !
!                 \ \/  \/ / |  _  /|  __|______| | |_ | |                     !
!                  \  /\  /  | | \ \| |         | |__| | |____                 !
!                   \/  \/   |_|  \_\_|          \_____|\_____|                !
!                                                                              !
!------------------------------------------------------------------------------!
!         WRF-GC - two-way, nested coupled meteorology-chemistry model         !
!                             v3.0.0 (April 2024)                              !
!------------------------------------------------------------------------------!
!  Formerly known as WRF-GCHP, WRF-GIGC. GCHP-powered chemistry add-on for WRF !
!  WRF & GCHP are (c) their original authors.                                  !
!  WRF-GC coupling layer (c) Haipeng Lin, Xu Feng, Tzung-May Fu                !
!  Developed at Atmospheric Chemistry and Climate Group, Peking U./SUSTech     !
!    by Haipeng Lin <hplin@seas.harvard.edu>, Xu Feng <xfeng@g.harvard.edu>    !
!    April 2018                                                                !
!                                                                              !
!  Atmospheric Chemistry and Climate Group, SUSTech: https://atmoschem.org.cn/ !
!  WRF-GC Documentation: https://wrfgc.readthedocs.io/                         !
!------------------------------------------------------------------------------!
!  Chemistry driver developed based on Project "Pumpkin":                      !
!    Abstracted Bindings for Chemistry-to-WRF.                                 !
!  (c) 2018 Haipeng Lin, Peking U.                                             !
!  This chemical interface (chem/) is written after comprehensive study of the !
!  original chem_driver.F from WRF-Chem v3.6.1, (c) respective authors.        !
!------------------------------------------------------------------------------!
!  Refer to the chem_driver.F chemistry driver for release history             !
!------------------------------------------------------------------------------!
!
!   MAJOR CHANGES:
!   - Jan 2018. H.P. Lin - Initial Version
!   - Apr 2018. H.P. Lin - Restructure chemics_init to use WRF memorder XZY & get IJK from module_domain,
!                          as there seems to be stack incompatibility between chemics_init & start_em.
!   - May 2018. H.P. Lin - Allow ICs to be passed in from WRF, while passing b/g values from GC if no ICs.
!   - Jun 2018. H.P. Lin - Now use GIGC_Stateful_Mod
!   - May 2020. H.P. Lin - Refactor to use new implementation of GC_Stateful_Mod.
!   - Apr 2022. H.P. Lin - Update to WRFv4 arguments
!   - Sep 2022. H.P. Lin - Support CO2 and CH4 specialty simulations
!   - Apr 2024. A. Ding  - WRF-GC v3.0 pnetCDF-based diagnostics. See docs.
!
!------------------------------------------------------------------------------!

subroutine chem_init(id, chem, emis_ant, scalar, dt, bioemdt, photdt, &
                     chemdt, & 
                     stepbioe, stepphot, stepchem, stepfirepl, &
                     plumerisefire_frq, z_at_w, xlat, xlong, g, &
                     aerwrf, config_flags, grid, &
                     alt, t, p, convfac, ttday, tcosz, &
                     julday, gmt, &
                     tauaer1, tauaer2, tauaer3, tauaer4, &
                     gaer1, gaer2, gaer3, gaer4, &
                     waer1, waer2, waer3, waer4, &
                     l2aer, l3aer, l4aer, l5aer, l6aer, l7aer, &
                     extaerlw1, extaerlw2, extaerlw3, extaerlw4,                 &
                     extaerlw5, extaerlw6, extaerlw7, extaerlw8,                 &
                     extaerlw9, extaerlw10, extaerlw11, extaerlw12,              &
                     extaerlw13, extaerlw14, extaerlw15, extaerlw16,             &
                     tauaerlw1, tauaerlw2, tauaerlw3, tauaerlw4,                 &
                     tauaerlw5, tauaerlw6, tauaerlw7, tauaerlw8,                 &
                     tauaerlw9, tauaerlw10, tauaerlw11, tauaerlw12,              &
                     tauaerlw13, tauaerlw14, tauaerlw15, tauaerlw16,             &
                     dgnum4d, dgnumwet4d, dgnum_a1, dgnum_a2,                    &
                     dgnum_a3, dgnumwet_a1, dgnumwet_a2, dgnumwet_a3,            &
                     pm2_5_dry, pm2_5_water, pm2_5_dry_ec,                       &
                     tsoa, asoa, bsoa,                                           &    ! dummy in WRFv4
                     last_chem_time_year, last_chem_time_month,                  &
                     last_chem_time_day, last_chem_time_hour,                    &
                     last_chem_time_minute, last_chem_time_second,               &
                     chem_in_opt, kemit, num_vert_mix, numgas_out,               &
                     oldids, oldide, oldjds, oldjde, oldkds, oldkde,             &
                     oldims, oldime, oldjms, oldjme, oldkms, oldkme,             &
                     oldits, oldite, oldjts, oldjte, oldkts, oldkte)

      ! WRF Core Dependencies
      use module_domain
      use module_configure
      use module_state_description
      use module_model_constants, only: DEGRAD, p1000mb
      use module_dm

      ! WRF Physics Dependencies
      ! Just maintaining old code to not break CAM Physics Support.
      use module_cam_support, only: gas_pcnst_modal_aero, gas_pcnst_modal_aero_pos

      ! WRF Chemistry Dependencies
      use module_tropopause, only: tropopause_init
      use module_input_chem_data, only: get_last_gas, last_chem_time, setup_gasprofile_maps
      use module_mixactivate_wrappers, only: wrfgc_mixactivate_init
      use module_diag_aero_size_info, only: diag_aero_wrfgc_aercld_ptrs
  
      !! GIGC: Grid Independent GEOS-Chem
      ! GIGC_Chunk_Mod provides the GEOS-Chem Column Model Code
      use GIGC_Chunk_Mod

      ! HEMCO: Harvard-NASA Emissions Component
      use HCO_TYPES_MOD, only: ConfigObj

      ! Input_Opt_Mod provides the Input_Opt% type (OptInput) struct
      use Input_Opt_Mod, only: OptInput, Set_Input_Opt
      use State_Chm_Mod, only: ChmState
      use State_Met_Mod, only: MetState
      use State_Diag_Mod, only: DgnState
      use State_Grid_Mod

      ! Use our conversion module for GEOS-Chem code
      use WRFGC_Convert_State_Mod, only: WRFGC_Set_WRF, WRFGC_IdxSetup
#ifdef use_wrfgc_history_output
      ! Use our history output moduel
      use WRFGC_History_Mod, only: wrfgc_history_init
#endif
      ! Use our stateful module for Grid-Independent GEOS-Chem States
      use GC_Stateful_Mod, only: GIGC_States, Global_Input_Opt, Global_HcoConfig, Global_DiagList

      use PRECISION_MOD

      implicit none

      ! provides information on WRF DMPAR parallel (MPI) process information
      ! namely whether this is the master process, using wrf_dm_on_monitor()
      logical, external      :: wrf_dm_on_monitor

      real, intent(in)       :: bioemdt, photdt, chemdt, dt, gmt
      integer, intent(in)    :: plumerisefire_frq
      integer, intent(in)    :: chem_in_opt
      integer, intent(inout) :: num_vert_mix
      integer, intent(inout) :: numgas_out                      ! WRFv4 and above fix
      integer, intent(in)    :: id, julday, kemit, &
                                last_chem_time_year, &
                                last_chem_time_month, &
                                last_chem_time_day, &
                                last_chem_time_hour, &
                                last_chem_time_minute, &
                                last_chem_time_second, &
                                oldids, oldide, oldjds, oldjde, oldkds, oldkde, &
                                oldims, oldime, oldjms, oldjme, oldkms, oldkme, &
                                oldits, oldite, oldjts, oldjte, oldkts, oldkte

      ! Ugly fix for coordinates which I added back in WRFv3 but might not
      ! be necessary anymore. To check. Orig. hplin 4/2018 now 4/24/22
      integer :: ids, ide, jds, jde, kds, kde, &
                 ims, ime, jms, jme, kms, kme, &
                 its, ite, jts, jte, kts, kte
                 
      integer, intent(out) :: stepbioe, stepphot, stepchem, stepfirepl
      type(grid_config_rec_type), intent(in) :: config_flags
      type(domain), intent(inout) :: grid

      ! MEMORDER XZY: %s-em31 is I, %s-em32 is K, %s-em33 is J
      real, dimension(grid%sm31:grid%em31, grid%sm32:grid%em32, grid%sm33:grid%em33), &
         intent(INOUT) :: pm2_5_dry, pm2_5_water, pm2_5_dry_ec, &
         tauaer1, tauaer2, tauaer3, tauaer4, &
         extaerlw1, extaerlw2, extaerlw3, extaerlw4, &
         extaerlw5, extaerlw6, extaerlw7, extaerlw8, &
         extaerlw9, extaerlw10, extaerlw11, extaerlw12, &
         extaerlw13, extaerlw14, extaerlw15, extaerlw16, &
         tauaerlw1, tauaerlw2, tauaerlw3, tauaerlw4, &
         tauaerlw5, tauaerlw6, tauaerlw7, tauaerlw8, &
         tauaerlw9, tauaerlw10, tauaerlw11, tauaerlw12, &
         tauaerlw13, tauaerlw14, tauaerlw15, tauaerlw16, &
         gaer1, gaer2, gaer3, gaer4, &
         waer1, waer2, waer3, waer4, &
         tsoa,  asoa,  bsoa

      !-- Arrays needed to output dgnum when restarting
      real, dimension(grid%sm31:grid%em31, grid%sm32:grid%em32, grid%sm33:grid%em33, 3), intent(INOUT) :: dgnum4d, dgnumwet4d
      real, dimension(grid%sm31:grid%em31, grid%sm32:grid%em32, grid%sm33:grid%em33), intent(INOUT) :: dgnum_a1, dgnum_a2, dgnum_a3, dgnumwet_a1, dgnumwet_a2, dgnumwet_a3
      !-- end dgnum restart arrays

      real, dimension(grid%sm31:grid%em31, grid%sm32:grid%em32, grid%sm33:grid%em33, 1:4), &
         intent(INOUT) :: l2aer, l3aer, l4aer, l5aer, l6aer, l7aer
      real, dimension(grid%sm31:grid%em31, grid%sm32:grid%em32, grid%sm33:grid%em33), intent(IN) :: z_at_w, t, p, alt, convfac
      real, dimension(grid%sm31:grid%em31, grid%sm32:grid%em32, grid%sm33:grid%em33, num_chem), intent(INOUT) :: chem
      real, dimension(grid%sm31:grid%em31, grid%sm32:grid%em32, grid%sm33:grid%em33, 1) :: moist_dummy
      real, dimension(grid%sm31:grid%em31, grid%sm32:grid%em32, grid%sm33:grid%em33, num_emis_ant), intent(INOUT) :: emis_ant
      real, dimension(grid%sm31:grid%em31, grid%sm32:grid%em32, grid%sm33:grid%em33, num_scalar), intent(INOUT) :: scalar
      real, dimension(grid%sm31:grid%em31, grid%sm32:grid%em32, grid%sm33:grid%em33), intent(INOUT) :: aerwrf
      real, dimension(grid%sm31:grid%em31, grid%sm33:grid%em33), intent(INOUT) :: ttday, tcosz, xlat, xlong
      real, intent(IN) :: g

      ! Local Variables
      character*256 :: mminlu_loc
      character*256 :: message_txt
      type(WRFU_TimeInterval) :: tmpTimeInterval
      integer :: i, j, k, l, numgas, n, kk, nv, gigc_ptr

      !! GEOS-Chem Integration Variables
      ! GEOS_CHEM_RC (RC in GEOS-Chem speak) is the return result code for all GIGC Subroutines.
      ! 0 = Success, > 0 is error
      integer :: GEOS_CHEM_RC

      real(4), allocatable :: lonCtr(:, :)  ! Lon Centers (rad)
      real(4), allocatable :: latCtr(:, :)  ! Lat Centers (rad)
      real(4), allocatable :: lonEdge(:, :) ! Lon Edges (rad)
      real(4), allocatable :: latEdge(:, :) ! Lat Edges (rad)
      integer              :: IM, JM
      integer              :: II, JJ       ! Loop variable
      integer              :: nymdB, nhmsB, nymdE, nhmsE

      ! For hybrid-grid in WRF
      real(fp), allocatable :: Ap(:)
      real(fp), allocatable :: Bp(:)

      ! From module_aerosols_sorgam / dep_simple, hplin 2-25-2018
      ! num_chem is from module_state_description
      logical, allocatable :: is_aerosol(:) ! true if field is aerosol (any phase)

      ! From module ctrans_grell, hplin 2-25-2018
      real                 :: epsilc

      ! WRF DM (MPI) Parallel Information - is master process?
      logical              :: Am_I_Root
      integer              :: WRF_DM_MyProc, WRF_DM_NProc, WRF_DM_Comm

      ! Debug level from WRF.
      integer              :: debug_level

      !!!!!!!!!!!!! %% EXECUTABLE SECTION %% !!!!!!!!!!!!!!
      call get_ijk_from_grid(grid, &
                             ids, ide, jds, jde, kds, kde, &
                             ims, ime, jms, jme, kms, kme, &
                             its, ite, jts, jte, kts, kte)

      call nl_get_debug_level(1, debug_level)
      call set_wrf_debug_level(debug_level)

      ! Do not touch ide, jde
      ite = min(ite, ide - 1)
      jte = min(jte, jde - 1)

      ! Domain sizing
      IM = ite - its + 1
      JM = jte - jts + 1

      ! Prep GEOS_CHEM ReturnCode (RC)
      GEOS_CHEM_RC = 0

      if(wrf_dm_on_monitor()) then
         Am_I_Root = .true.
      else
         Am_I_Root = .false.
      endif

      call wrf_get_nproc(WRF_DM_NProc)
      call wrf_get_myproc(WRF_DM_MyProc)
      call wrf_get_dm_communicator(WRF_DM_Comm)

      ! Pass some HPC Information to Input_Opt...
      Global_Input_Opt%isMPI   = .true.
      Global_Input_Opt%amIRoot = Am_I_Root
      Global_Input_Opt%thisCPU = WRF_DM_MyProc
      Global_Input_Opt%numCPUs = WRF_DM_NProc
      Global_Input_Opt%MPIComm = WRF_DM_Comm

      if(debug_level .ge. 2) then
        Global_Input_Opt%LPRT    = .true. ! Print debug information? (LD70)
      endif

      ! Temporary kludge to tune down KPP sensitivity if operating in multi-domain
      ! mode. (hplin, 5/20/20)
      if(config_flags%gc_kpp_stop) then                       ! Default behavior
        if(Global_Input_Opt%KppStop .eq. .true.) then
          if(grid%id .ge. 2) then
            Global_Input_Opt%KppStop = .false.
          endif
        endif
      else                                                    ! Override KPP stop.
        Global_Input_Opt%KppStop = .false.
      endif

      ! Show a KPP warning for this...
      if(Global_Input_Opt%KppStop .eq. .false.) then
        write(6,*) "*** WRF-GC WARNING ***"
        write(6,*) "YOU ARE RUNNING WRF-GC IN MULTI-DOMAIN NESTED MODE, WHICH DISABLES"
        write(6,*) "CRITICAL INTEGRITY FAILSAFES WITHIN GEOS-CHEM KPP INTEGRATOR."
        write(6,*) "Your results may NOT be scientifically valid until you verify the run"
        write(6,*) "has completed without KPP errors. Refer to the log and State_Diag%KppError"
      endif

      ! Warning: We only support a maximum of 8 domains in the model.
      ! Therefore if grid%id is higher we fatally exit.
      if(grid%id .gt. 8 .or. grid%id .lt. 1) then
        call wrf_error_fatal("WRFGC chemics_init: Cannot run with domains < 1 or > 8. This is an arbitrary code limitation.")
      endif

      ! Have we ran this before...?
      if(GIGC_States(grid%id)%Init .eq. .true.) then
        write(6, *) "WRFGC chemics_init: Domain", grid%id, "already initialized, skipping."
        return
      endif

      ! For parallelism (dirty) in chemics_init let's just pass dummies
      ! to lon/latCtr for now. lonCtr and latCtrs' correct values will be
      ! passed onto GIGC_CHUNK_MOD at a later time when doing Chunk_Run.
      !
      ! A value that is enough for any chunk-size should be specified here.
      ! TODO hplin 4/27/2018
      allocate(lonCtr (IM,   JM))
      allocate(latCtr (IM,   JM))
      allocate(lonEdge(IM+1, JM))
      allocate(latEdge(IM,   JM+1))
      ! write(6, *) "its, ite, jts, jte", its, ite, jts, jte
      ! write(6, *) "ims, ime, jms, jme", ims, ime, jms, jme
      ! write(6, *) "im, jm", (ite-its+1), (jte-jts+1)

      ! For every grid box populate with relevant info...
      ! This should be OK for multi-domain now that there is State_Grid. (5/19/20, hplin)
      do j = jts, jte
         do i = its, ite
            ! Loop indexes in GC
            II = i - its + 1
            JJ = j - jts + 1

            ! Prepare lat/lon grid box center information in [rad]
            ! Grab lat lon directly from grid%XLAT, grid%XLONG [deg] (DEGRAD is piconst/180. in model_constants)
            lonCtr(II, JJ) = (grid%XLONG(i, j)) * DEGRAD
            latCtr(II, JJ) = (grid%XLAT (i, j)) * DEGRAD

            ! Grab grid%XLONG_U, grid%XLAT_V for lonEdge, latEdge
            lonEdge(II, JJ) = grid%XLONG_U(i, j) * DEGRAD
            if(i .eq. ite) then
              lonEdge(II+1, JJ) = grid%XLONG_U(i+1, j) * DEGRAD
            endif

            latEdge(II, JJ) = grid%XLAT_V(i, j) * DEGRAD
            if(j .eq. jte) then
              latEdge(II, JJ+1) = grid%XLAT_V(i, j+1) * DEGRAD
            endif
         enddo
      enddo

      ! Get time... YYYYMMDD
      nymdB = config_flags%start_year * 10000 + config_flags%start_month * 100 + config_flags%start_day
      nhmsB = config_flags%start_hour * 10000 + config_flags%start_minute * 100 + config_flags%start_second

      nymdE = config_flags%end_year * 10000 + config_flags%end_month * 100 + config_flags%end_day
      nhmsE = config_flags%end_hour * 10000 + config_flags%end_minute * 100 + config_flags%end_second

      write(message_txt, *) "This is domain ", grid%id
      call wrf_message("*****************************************************************")
      call wrf_message("        __          _______  ______       _____  _____           ")
      call wrf_message("        \ \        / /  __ \|  ____|     / ____|/ ____|          ")
      call wrf_message("         \ \  /\  / /| |__) | |__ ______| |  __| |               ")
      call wrf_message("          \ \/  \/ / |  _  /|  __|______| | |_ | |               ")
      call wrf_message("           \  /\  /  | | \ \| |         | |__| | |____           ")
      call wrf_message("            \/  \/   |_|  \_\_|          \_____|\_____|          ")
      call wrf_message("*****************************************************************")
      call wrf_message("           WRF-GC MODEL, BUILD 2404.22 - WRF BINDINGS            ")
      call wrf_message("                 WRF-GC v3.0.0r2 (Oct 2024)                      ")
      ! call wrf_message(" You are using an experimental future version of WRF-GC 3.0.     ")
      ! call wrf_message(" ** PLEASE VALIDATE YOUR SCIENTIFIC RESULTS AS THIS BUILD IS     ")
      ! call wrf_message(" ** HIGHLY EXPERIMENTAL AND PRONE TO ERRORS!                     ")
      call wrf_message(" For errors, suggestions & feedback email hplin@seas.harvard.edu ")
      call wrf_message("*****************************************************************")
      call wrf_message(message_txt)

      ! Get last gas index from module_chem_utilities. This needs to be updated
      ! if the underlying chemical mechanism is updated
      numgas = get_last_gas(config_flags%chem_opt)
      numgas_out = numgas

      ! WRF-Chem used to perform configuration flags validation here.
      ! This can be done too in the future to prevent "gotchas"
      IF (config_flags%chem_opt == 0 .AND. config_flags%aer_ra_feedback .NE. 0) THEN
         call wrf_error_fatal("chemics_init: If no chemistry, aer_ra_feedback must be 0")
      ENDIF

      CALL nl_get_mminlu(1, mminlu_loc)

      IF (trim(mminlu_loc) /= 'USGS' .and. trim(mminlu_loc) /= 'MODIFIED_IGBP_MODIS_NOAH') THEN
         print *, mminlu_loc
         call wrf_error_fatal("chemics_init: Chemistry routines require USGS or MODIS_NOAH land use maps.")
      ELSE
         IF (trim(mminlu_loc) == 'USGS' .and. grid%num_land_cat <= 23) THEN
            call wrf_error_fatal("chemics_init: USGS land use map should have 24 or more categories.")
         ELSEIF (trim(mminlu_loc) == 'MODIFIED_IGBP_MODIS_NOAH' .and. grid%num_land_cat <= 19) THEN
            call wrf_error_fatal("chemics_init: MODIS_NOAH land use map should have 20 or more categories.")
         ENDIF
      ENDIF

      if(.NOT. config_flags%restart) then
       do j=jts,jte
          do k=kts,kte
             do i=its,ite
                tauaer1(i,k,j) = 0.
                tauaer2(i,k,j) = 0.
                tauaer3(i,k,j) = 0.
                tauaer4(i,k,j) = 0.
                gaer1(i,k,j) = 0.
                gaer2(i,k,j) = 0.
                gaer3(i,k,j) = 0.
                gaer4(i,k,j) = 0.
                waer1(i,k,j) = 0.
                waer2(i,k,j) = 0.
                waer3(i,k,j) = 0.
                waer4(i,k,j) = 0.
                l2aer(i,k,j,1) = 0.
                l2aer(i,k,j,2) = 0.
                l2aer(i,k,j,3) = 0.
                l2aer(i,k,j,4) = 0.
                l3aer(i,k,j,1) = 0.
                l3aer(i,k,j,2) = 0.
                l3aer(i,k,j,3) = 0.
                l3aer(i,k,j,4) = 0.
                l4aer(i,k,j,1) = 0.
                l4aer(i,k,j,2) = 0.
                l4aer(i,k,j,3) = 0.
                l4aer(i,k,j,4) = 0.
                l5aer(i,k,j,1) = 0.
                l5aer(i,k,j,2) = 0.
                l5aer(i,k,j,3) = 0.
                l5aer(i,k,j,4) = 0.
                l6aer(i,k,j,1) = 0.
                l6aer(i,k,j,2) = 0.
                l6aer(i,k,j,3) = 0.
                l6aer(i,k,j,4) = 0.
                l7aer(i,k,j,1) = 0.
                l7aer(i,k,j,2) = 0.
                l7aer(i,k,j,3) = 0.
                l7aer(i,k,j,4) = 0.
                extaerlw1(i,k,j) = 0.
                extaerlw2(i,k,j) = 0.
                extaerlw3(i,k,j) = 0.
                extaerlw4(i,k,j) = 0.
                extaerlw5(i,k,j) = 0.
                extaerlw6(i,k,j) = 0.
                extaerlw7(i,k,j) = 0.
                extaerlw8(i,k,j) = 0.
                extaerlw9(i,k,j) = 0.
                extaerlw10(i,k,j) = 0.
                extaerlw11(i,k,j) = 0.
                extaerlw12(i,k,j) = 0.
                extaerlw13(i,k,j) = 0.
                extaerlw14(i,k,j) = 0.
                extaerlw15(i,k,j) = 0.
                extaerlw16(i,k,j) = 0.
                tauaerlw1(i,k,j) = 0.
                tauaerlw2(i,k,j) = 0.
                tauaerlw3(i,k,j) = 0.
                tauaerlw4(i,k,j) = 0.
                tauaerlw5(i,k,j) = 0.
                tauaerlw6(i,k,j) = 0.
                tauaerlw7(i,k,j) = 0.
                tauaerlw8(i,k,j) = 0.
                tauaerlw9(i,k,j) = 0.
                tauaerlw10(i,k,j) = 0.
                tauaerlw11(i,k,j) = 0.
                tauaerlw12(i,k,j) = 0.
                tauaerlw13(i,k,j) = 0.
                tauaerlw14(i,k,j) = 0.
                tauaerlw15(i,k,j) = 0.
                tauaerlw16(i,k,j) = 0.
             end do
          end do
       end do
      end if

      if (config_flags%have_bcs_upper) then
         call wrf_error_fatal("Pumpkin chemics_init: have_bcs_upper = .true. is not supported by this Chemistry abstraction layer.")
      endif

      ! Don't run if there isn't anything to do...
      if(config_flags%chem_opt == 0) then
        CALL wrf_debug(1, 'Pumpkin chemics_init: **** NO CHEMISTRY IS USED IN THIS WRF RUN ****')
        return
      endif

      ! Set the num_vert_mix variable if using ACM
      num_vert_mix = 0
      IF (config_flags%bl_pbl_physics == ACMPBLSCHEME) THEN
         mix_select: select case(config_flags%chem_opt)
            case (radm2sorg_aq, radm2sorg_aqchem, racmsorg_aq)
               ! if you have aqueous chemistry, then the num_vert_mix needs to be # of gas species & not # of chemistry_species.
               num_vert_mix = numgas
            case default
               num_vert_mix = num_chem
         end select mix_select

         if (num_vert_mix .gt. config_flags%ndepvel) then
            write (message_txt, '(A30,2(I8,2x))') 'chem_init: num_vert_mix and ndepvel ', num_vert_mix, config_flags%ndepvel
            call wrf_message(trim(message_txt))
            call wrf_error_fatal("Pumpkin chemics_init: FATAL - num_vert_mix > ndepvel ")
         endif
      endif

      ! Calculate "timesteps" for out intent.
      stepbioe = nint(bioemdt*60./dt)
      stepphot = nint(photdt*60./dt)
      stepchem = nint(chemdt*60./dt)
      stepfirepl = nint(plumerisefire_frq*60/dt)
      stepbioe = max(stepbioe, 1)
      stepphot = max(stepphot, 1)
      stepchem = max(stepchem, 1)
      stepfirepl = max(stepfirepl, 1)
      call wrf_debug(15, 'Pumpkin chemics_init: Starting chemistry init')

      ! Setup the cross reference mappings between the default profiles and
      ! the gas mechanism species (wig, 2-May-2007)
      ! Sets up the cross reference mapping indices and fractional
      ! apportionment of the default species profiles for use with
      ! ICs and BCs. (module_input_chem_data)
      call setup_gasprofile_maps(config_flags%chem_opt, numgas)

      ! Aerosol Information (is_aerosol array) allocation.
      if (.not. allocated(is_aerosol)) then
         allocate (is_aerosol(num_chem))
      else
         if (size(is_aerosol) /= num_chem) &
            call wrf_error_fatal("The number of chemistry species has changed between nests. Use same chem_opt for all domains.")
      end if
  
      ! Initialize pointers used by aerosol-cloud-interaction routines
      call diag_aero_wrfgc_aercld_ptrs(num_chem, is_aerosol, config_flags)
 
      ! The top level in WRF does not contain data and should NOT be passed to GEOS-Chem
      ! nor the stateful conversion routines (8/7/18, hplin)
      kte = kte - 1

      write(message_txt, *) "Pumpkin chemics_init: its, ite, jts, jte, kts, kte: ", its, " ", ite, " ", jts, " ", jte, " ", kts, " ", kte, "domain", grid%id
      call wrf_debug(1, message_txt)

      write(message_txt, *) "Pumpkin chemics_init: ims, ime, jms, jme, kms, kme: ", ims, " ", ime, " ", jms, " ", jme, " ", kms, " ", kme, "domain", grid%id
      call wrf_debug(1, message_txt)
     
      write(message_txt, *) "Pumpkin chemics_init: ids, ide, jds, jde, kds, kde: ", ids, " ", ide, " ", jds, " ", jde, " ", kds, " ", kde, "domain", grid%id
      call wrf_debug(1, message_txt)

      ! Check the stack corruption for debug (hplin, 5/22/20)
      if(debug_level .ge. 2) then
        write(6,*) "Pumpkin chemics_init, old indices: its, ite, jts, jte, kts, kte", oldits, oldite, oldjts, oldjte, oldkts, oldkte
        write(6,*) "Pumpkin chemics_init, old indices: ids, ide, jds, jde, kds, kde", oldids, oldide, oldjds, oldjde, oldkds, oldkde
        write(6,*) "Pumpkin chemics_init, old indices: ims, ime, jms, jme, kms, kme", oldims, oldime, oldjms, oldjme, oldkms, oldkme
      endif

      ! Prepare GIGC grid state object
      call Init_State_Grid(Global_Input_Opt, GIGC_States(grid%id)%State_Grid, GEOS_CHEM_RC)

      GIGC_States(grid%id)%State_Grid%ID          = grid%id       ! ID of this grid
      GIGC_States(grid%id)%State_Grid%NX          = ite-its+1     ! # lons   on this PET
      GIGC_States(grid%id)%State_Grid%NY          = jte-jts+1     ! # lats   on this PET
      GIGC_States(grid%id)%State_Grid%NZ          = kte-kts+1     ! # levels on this PET

      ! GC does not need to know about this.
      GIGC_States(grid%id)%State_Grid%GlobalNX    = ite-its+1     ! # lons   in global grid
      GIGC_States(grid%id)%State_Grid%GlobalNY    = jte-jts+1     ! # lats   in global grid
      GIGC_States(grid%id)%State_Grid%NativeNZ    = kte-kts+1     ! # levels in global grid
      GIGC_States(grid%id)%State_Grid%XMinOffset  = 1             ! X offset from global grid
      GIGC_States(grid%id)%State_Grid%XMaxOffset  = GIGC_States(grid%id)%State_Grid%NX ! X offset from global grid
      GIGC_States(grid%id)%State_Grid%YMinOffset  = 1             ! Y offset from global grid
      GIGC_States(grid%id)%State_Grid%YMaxOffset  = GIGC_States(grid%id)%State_Grid%NY ! Y offset from global grid

      ! The below strat/trop levels MUST BE RECONFIGURED later
      ! using climatology data from tropopause (WRF) (hplin, 19/12/28)
      ! example: 47 = 38, 44; 72 = 40, 59
      !
      ! This is performed within GIGC_Chunk_Run at runtime based on input
      ! State_Met%TROPP. (5/19/20 hplin)
      GIGC_States(grid%id)%State_Grid%MaxTropLev  = GIGC_States(grid%id)%State_Grid%NZ ! # trop. levels below
      GIGC_States(grid%id)%State_Grid%MaxStratLev = GIGC_States(grid%id)%State_Grid%NZ ! # strat. levels below

      ! Prepare Ap, Bp hybrid coordinates because they are necessary for initialization
      ! as EMISSIONS_INIT needs to read Ap, Bp coordinates as soon as initialization now
      if(config_flags%hybrid_opt .eq. 2) then
        allocate(Ap(GIGC_States(grid%id)%State_Grid%NZ+1))
        allocate(Bp(GIGC_States(grid%id)%State_Grid%NZ+1))

        do k = kts, kte
            Ap(k) = (grid%c4f(k) + (1 - grid%c3f(k)) * grid%p_top) * .01_fp
            Bp(k) = grid%c3f(k)
        enddo

        Ap(GIGC_States(grid%id)%State_Grid%NZ+1) = grid%p_top / p1000mb * .01_fp
        Bp(GIGC_States(grid%id)%State_Grid%NZ+1) = 0
      endif

      write(message_txt, *) "GIGC chemics_init: nymdB, nhmsB, nymdE, nhmsE", nymdB, nhmsB, nymdE, nhmsE

      ! Initialize GEOS-Chem Input_Opt fields to zeros or equivalent - only on first domain
      if(grid%id .eq. 1) then
        call Set_Input_Opt( am_I_Root, Global_Input_Opt, GEOS_CHEM_RC )

        ! Pass some HPC Information to Input_Opt...
        Global_Input_Opt%isMPI   = .true.
        Global_Input_Opt%amIRoot = Am_I_Root
        Global_Input_Opt%thisCPU = WRF_DM_MyProc
        Global_Input_Opt%numCPUs = WRF_DM_NProc
        Global_Input_Opt%MPIComm = WRF_DM_Comm
      endif

      ! Prepare GIGC
      ! Call the GEOS-Chem Column Code for Initialization 
      ! GIGC_Chunk_Init will call GIGC_State_Init to initialize the respective stateful variable values.
      ! Also call GIGC_State_Boot to read the configuration variables as necessary ...
      CALL GIGC_Chunk_Init( nymdB     = nymdB,                           & ! YYYYMMDD @ start of run
                            nhmsB     = nhmsB,                           & ! hhmmss   @ start of run
                            nymdE     = nymdE,                           & ! YYYYMMDD @ end of run
                            nhmsE     = nhmsE,                           & ! hhmmss   @ end of run
                            tsChem    = chemdt*60.,                      & ! Chemical timestep [s]
                            tsDyn     = chemdt*60.,                      & ! Dynamic  timestep [s]
                            tsRad     = chemdt*60.,                      & ! RRTMG    timestep [s]
                            lonCtr    = lonCtr,                          & ! Lon centers [radians]
                            latCtr    = latCtr,                          & ! Lat centers [radians]
                            lonEdge   = lonEdge,                         & ! Lon edges [radians]
                            latEdge   = latEdge,                         & ! Lat edges [radians]
                            Input_Opt = Global_Input_Opt,                & ! Input Options obj
                            State_Chm = GIGC_States(grid%id)%State_Chm,  & ! Chemistry State obj
                            State_Diag= GIGC_States(grid%id)%State_Diag, & ! Diagnostics State obj
                            State_Grid= GIGC_States(grid%id)%State_Grid, & ! Grid State obj
                            State_Met = GIGC_States(grid%id)%State_Met,  & ! Meteorology State obj
                            HcoConfig = Global_HcoConfig,                & ! HEMCO Configuration Object
                            RC        = GEOS_CHEM_RC,                    & ! GC Status Code (Success?)
                            MPI_COMM  = WRF_DM_Comm,                     & ! MPI Communicator
                            Ap        = Ap,                              & ! Ap coords
                            Bp        = Bp,                              & ! Bp coords
                            ID        = grid%id)                           ! Domain identifier, this PET

      write(message_txt, *) "GIGC chemics_init: Return from GIGC_Chunk_Init return code ", GEOS_CHEM_RC
      call wrf_debug(1, message_txt)

      write(message_txt, *) "GIGC chemics_init: GIGC_Chunk_Init completed for ID #", grid%id
      call wrf_debug(1, message_txt)

      ! Cleanup Ap, Bp
      deallocate(Ap)
      deallocate(Bp)
#ifdef use_wrfgc_history_output
       ! Initialize wrf-gc history collection list
      call wrfgc_history_init(Global_Input_Opt,    &
      State_Chm = GIGC_States(grid%id)%State_Chm,  & ! Chemistry State obj
      State_Diag= GIGC_States(grid%id)%State_Diag, & ! Diagnostics State obj
      State_Met = GIGC_States(grid%id)%State_Met,  & ! Meteorology State obj
      State_Grid= GIGC_States(grid%id)%State_Grid, & ! Grid State obj
      comm      = WRF_DM_Comm                      & ! MPI Communicator
      )
#endif
      if(debug_level .ge. 2) then
        Global_Input_Opt%LPRT    = .true. ! Print debug information? (LD70)
      endif

      ! Output some debug information regarding Input_Opt object.
      write(6, *) "GIGC chemics_init: Following information regarding Input_Opt% (for all doms)"
      write(6, *) "After domain", grid%id
      write(6, *) "HPC: ", Global_Input_Opt%isMPI
      write(6, *) "LPRT: ", Global_Input_Opt%LPRT
      write(6, *) "DoConv: ", Global_Input_Opt%LCONV
      write(6, *) "DoDryDep: ", Global_Input_Opt%LDRYD
      write(6, *) "DoChem: ", Global_Input_Opt%LCHEM
      write(6, *) "DoTurb: ", Global_Input_Opt%LTURB
      write(6, *) "DoWetDep: ", Global_Input_Opt%LWETD

      ! For debug only -- this will print out information for chemical species & ID#s
      ! useful if we are updating GEOS-Chem and need to reseed the WRF registry...
      ! WRITE(6, *) "%%%% REGISTERED STATE_CHM SPECIES DUMP - DEBUG %%%%"
      ! do N = 1, State_Chm%nSpecies
      !     WRITE(6, *) "N:", N, "Name:", State_Chm%SpcData(N)%Info%Name
      ! enddo
      ! End debug only

      ! Setup the chemistry state indexes in GIGC_Convert_State_Mod
      if(grid%id .eq. 1) then
        call WRFGC_IdxSetup(Am_I_Root)
      endif

      ! Run the conversion routines from GEOS-Chem column chemistry code
      ! to store background values
      !! WARNING: scalar, num_scalar is passed into moist
      if(config_flags%chem_in_opt .eq. 0) then
        call WRFGC_Set_WRF(Am_I_Root, config_flags, grid, num_chem, chem, num_scalar, scalar, 1, moist_dummy, & 
                           its, ite, jts, jte, &
                           ide, jde, &
                           kts, kte, &
                           Global_Input_Opt, &
                           GIGC_States(grid%id)%State_Grid, &
                           GIGC_States(grid%id)%State_Met,  &
                           GIGC_States(grid%id)%State_Chm,  &
                           GIGC_States(grid%id)%State_Diag)
      endif

      ! Fill top layer of chem% (K is not paralleled so kde or kte will all work fine)
      do nv = 1, num_chem
         do j = jts, jte
            do i = its, ite
               chem(i, kde, j, nv) = chem(i, kde - 1, j, nv)
            enddo
         enddo
      enddo

      ! Aerosol-cloud interaction is available now (09/21/2019, xfeng)
      if ( (.not.config_flags%restart) .and. (config_flags%progn > 0) ) then
        !    For chem_in_opt==1 modified the wrfgc_mixactivate_init
         !    The sum of mass from interstitial and cloud borne aerosols is attributed to interstitial aerosols
         !    Cloud drop number and cloud aerosol mass are then initialized to zero
         call wrfgc_mixactivate_init(                   &
          config_flags, chem, scalar,                 &
         chem_in_opt,                                &
         ims, ime, jms, jme, kms, kme,               &
         its, ite, jts, jte, kts, kte)
      endif
    
     ! Setup time info for chemistry
      if (config_flags%restart) then
         call wrf_debug(15, "Setting last_chem_time from restart file")
         call WRFU_TimeSet(last_chem_time(id), &
                           YY=last_chem_time_year, &
                           MM=last_chem_time_month, &
                           DD=last_chem_time_day, &
                           H=last_chem_time_hour, &
                           M=last_chem_time_minute, &
                           S=last_chem_time_second)
      else
         call wrf_debug(15, "Setting last_chem_time to model start time-dt")
         call WRFU_TimeIntervalSet(tmpTimeInterval, s_=real(dt, 8))
         last_chem_time(id) = domain_get_current_time(grid) - tmpTimeInterval
      end if

      ! Setup Tropopause Diagnosis Data (module_tropopause)
      call tropopause_init( id, xlat, xlong, config_flags,   &
                            ids, ide, jds,jde, kds,kde,      &
                            ims, ime, jms,jme, kms,kme,      &
                            its, ite, jts,jte, kts,kte       )

      ! Keep the following for compatibility with WRF CAM/MAM Physics Scheme.
      gas_pcnst_modal_aero_pos = max(1, gas_pcnst_modal_aero) ! BSINGH - Fix for non-MAM simulations

      ! Cleanup
      deallocate(lonCtr )
      deallocate(latCtr )
      deallocate(lonEdge)
      deallocate(latEdge)
END SUBROUTINE chem_init