diff --git a/physics/GFS_phys_time_vary.fv3.F90 b/physics/GFS_phys_time_vary.fv3.F90 index cd1f8287a..4b6909f74 100644 --- a/physics/GFS_phys_time_vary.fv3.F90 +++ b/physics/GFS_phys_time_vary.fv3.F90 @@ -60,6 +60,22 @@ module GFS_phys_time_vary contains + subroutine copy_error(myerrmsg, myerrflg, errmsg, errflg) + implicit none + character(*), intent(in) :: myerrmsg + integer, intent(in) :: myerrflg + character(*), intent(out) :: errmsg + integer, intent(inout) :: errflg + if(myerrflg /= 0 .and. errflg == 0) then + !$OMP CRITICAL + if(errflg == 0) then + errmsg = myerrmsg + errflg = myerrflg + endif + !$OMP END CRITICAL + endif + end subroutine copy_error + !> \section arg_table_GFS_phys_time_vary_init Argument Table !! \htmlinclude GFS_phys_time_vary_init.html !! @@ -193,6 +209,9 @@ subroutine GFS_phys_time_vary_init ( real(kind=kind_phys), dimension(:), allocatable :: dzsno real(kind=kind_phys), dimension(:), allocatable :: dzsnso + integer :: myerrflg + character(len=255) :: myerrmsg + ! Initialize CCPP error handling variables errmsg = '' errflg = 0 @@ -207,7 +226,7 @@ subroutine GFS_phys_time_vary_init ( !$OMP shared (me,master,ntoz,h2o_phys,im,nx,ny,levs,idate) & !$OMP shared (xlat_d,xlon_d,imap,jmap,errmsg,errflg) & !$OMP shared (levh2o,h2o_coeff,h2o_pres,h2opl) & -!$OMP shared (iamin, iamax, jamin, jamax) & +!$OMP shared (iamin, iamax, jamin, jamax, lsm_noahmp) & !$OMP shared (iaerclm,iaermdl,ntrcaer,aer_nm,iflip,iccn) & !$OMP shared (jindx1_o3,jindx2_o3,ddy_o3,jindx1_h,jindx2_h,ddy_h) & !$OMP shared (jindx1_aer,jindx2_aer,ddy_aer,iindx1_aer,iindx2_aer,ddx_aer) & @@ -216,36 +235,43 @@ subroutine GFS_phys_time_vary_init ( !$OMP shared (isot,ivegsrc,nlunit,sncovr,sncovr_ice,lsm,lsm_ruc) & !$OMP shared (min_seaice,fice,landfrac,vtype,weasd,snupx,salp_data) & !$OMP shared (ozphys) & -!$OMP private (ix,i,j,rsnow,vegtyp) +!$OMP private (ix,i,j,rsnow,vegtyp,myerrmsg,myerrflg) !$OMP sections !$OMP section !> - Call read_h2odata() to read stratospheric water vapor data + need_h2odata: if(h2o_phys) then call read_h2odata (h2o_phys, me, master) ! Consistency check that the hardcoded values for levh2o and ! h2o_coeff in GFS_typedefs.F90 match what is set by read_h2odata ! in GFS_typedefs.F90: allocate (Tbd%h2opl (IM,levh2o,h2o_coeff)) if (size(h2opl, dim=2).ne.levh2o) then - write(errmsg,'(2a,i0,a,i0)') "Value error in GFS_phys_time_vary_init: ", & + write(myerrmsg,'(2a,i0,a,i0)') "Value error in GFS_phys_time_vary_init: ", & "levh2o from read_h2odata does not match value in GFS_typedefs.F90: ", & levh2o, " /= ", size(h2opl, dim=2) - errflg = 1 + myerrflg = 1 + call copy_error(myerrmsg, myerrflg, errmsg, errflg) end if if (size(h2opl, dim=3).ne.h2o_coeff) then - write(errmsg,'(2a,i0,a,i0)') "Value error in GFS_phys_time_vary_init: ", & + write(myerrmsg,'(2a,i0,a,i0)') "Value error in GFS_phys_time_vary_init: ", & "h2o_coeff from read_h2odata does not match value in GFS_typedefs.F90: ", & h2o_coeff, " /= ", size(h2opl, dim=3) - errflg = 1 + myerrflg = 1 + call copy_error(myerrmsg, myerrflg, errmsg, errflg) end if + endif need_h2odata !$OMP section !> - Call read_aerdata() to read aerosol climatology, Anning added coupled !> added coupled gocart and radiation option to initializing aer_nm if (iaerclm) then ntrcaer = ntrcaerm - call read_aerdata (me,master,iflip,idate,errmsg,errflg) + myerrflg = 0 + myerrmsg = 'read_aerdata failed without a message' + call read_aerdata (me,master,iflip,idate,myerrmsg,myerrflg) + call copy_error(myerrmsg, myerrflg, errmsg, errflg) else if(iaermdl ==2 ) then do ix=1,ntrcaerm do j=1,levs @@ -270,16 +296,27 @@ subroutine GFS_phys_time_vary_init ( !$OMP section !> - Call tau_amf dats for ugwp_v1 if (do_ugwp_v1) then - call read_tau_amf(me, master, errmsg, errflg) + myerrflg = 0 + myerrmsg = 'read_tau_amf failed without a message' + call read_tau_amf(me, master, myerrmsg, myerrflg) + call copy_error(myerrmsg, myerrflg, errmsg, errflg) endif !$OMP section !> - Initialize soil vegetation (needed for sncovr calculation further down) - call set_soilveg(me, isot, ivegsrc, nlunit, errmsg, errflg) + myerrflg = 0 + myerrmsg = 'set_soilveg failed without a message' + call set_soilveg(me, isot, ivegsrc, nlunit, myerrmsg, myerrflg) + call copy_error(myerrmsg, myerrflg, errmsg, errflg) !$OMP section !> - read in NoahMP table (needed for NoahMP init) - call read_mp_table_parameters(errmsg, errflg) + if(lsm == lsm_noahmp) then + myerrflg = 0 + myerrmsg = 'read_mp_table_parameters failed without a message' + call read_mp_table_parameters(myerrmsg, myerrflg) + call copy_error(myerrmsg, myerrflg, errmsg, errflg) + endif !$OMP end sections @@ -374,7 +411,9 @@ subroutine GFS_phys_time_vary_init ( if (errflg/=0) return if (iaerclm) then + ! This call is outside the OpenMP section, so it should access errmsg & errflg directly. call read_aerdataf (me, master, iflip, idate, fhour, errmsg, errflg) + ! If it is moved to an OpenMP section, it must use myerrmsg, myerrflg, and copy_error. if (errflg/=0) return end if @@ -460,7 +499,8 @@ subroutine GFS_phys_time_vary_init ( !$omp shared(dwsat_table,dksat_table,psisat_table,smoiseq) & !$OMP shared(smcwtdxy,deeprechxy,rechxy,errmsg,errflg) & !$OMP private(vegtyp,masslai,masssai,snd,dzsno,dzsnso,isnow) & -!$OMP private(soiltyp,bexp,smcmax,smcwlt,dwsat,dksat,psisat,ddz) +!$OMP private(soiltyp,bexp,smcmax,smcwlt,dwsat,dksat,psisat) & +!$OMP private(myerrmsg,myerrflg,ddz) do ix=1,im if (landfrac(ix) >= drythresh) then tvxy(ix) = tsfcl(ix) @@ -575,8 +615,9 @@ subroutine GFS_phys_time_vary_init ( dzsno(-1) = 0.20_kind_phys dzsno(0) = snd - 0.05_kind_phys - 0.20_kind_phys else - errmsg = 'Error in GFS_phys_time_vary.fv3.F90: Problem with the logic assigning snow layers in Noah MP initialization' - errflg = 1 + myerrmsg = 'Error in GFS_phys_time_vary.fv3.F90: Problem with the logic assigning snow layers in Noah MP initialization' + myerrflg = 1 + call copy_error(myerrmsg, myerrflg, errmsg, errflg) endif ! Now we have the snowxy field diff --git a/physics/GFS_rrtmg_pre.F90 b/physics/GFS_rrtmg_pre.F90 index 108d6f407..5da5c86fb 100644 --- a/physics/GFS_rrtmg_pre.F90 +++ b/physics/GFS_rrtmg_pre.F90 @@ -980,7 +980,7 @@ subroutine GFS_rrtmg_pre_run (im, levs, lm, lmk, lmp, n_var_lndp, lextop,& & imp_physics_mg, iovr, iovr_rand, iovr_maxrand, iovr_max, & & iovr_dcorr, iovr_exp, iovr_exprand, idcor, idcor_con, & & idcor_hogan, idcor_oreopoulos, lcrick, lcnorm, & - & imfdeepcnv, imfdeepcnv_gf, imfdeepcnv_gf, do_mynnedmf, & + & imfdeepcnv, imfdeepcnv_gf, imfdeepcnv_c3, do_mynnedmf, & & lgfdlmprad, & & uni_cld, lmfshal, lmfdeep2, cldcov, clouds1, & & effrl, effri, effrr, effrs, effr_in, & diff --git a/physics/clm_lake.f90 b/physics/clm_lake.f90 index 4fa6dacb6..620f79a96 100644 --- a/physics/clm_lake.f90 +++ b/physics/clm_lake.f90 @@ -229,6 +229,31 @@ end subroutine is_salty !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! + subroutine calculate_z_dz_lake(i,input_lakedepth,clm_lakedepth,z_lake,dz_lake) + implicit none + integer, intent(in) :: i + real(kind_phys), intent(inout) :: clm_lakedepth(:) ! lake depth used by clm + real(kind_phys), intent(in) :: input_lakedepth(:) ! lake depth before correction (m) + real(kind_lake) :: z_lake(nlevlake) ! layer depth for lake (m) + real(kind_lake) :: dz_lake(nlevlake) ! layer thickness for lake (m) + real(kind_lake) :: depthratio + + if (input_lakedepth(i) == spval) then + clm_lakedepth(i) = zlak(nlevlake) + 0.5_kind_lake*dzlak(nlevlake) + z_lake(1:nlevlake) = zlak(1:nlevlake) + dz_lake(1:nlevlake) = dzlak(1:nlevlake) + else + depthratio = input_lakedepth(i) / (zlak(nlevlake) + 0.5_kind_lake*dzlak(nlevlake)) + z_lake(1) = zlak(1) + dz_lake(1) = dzlak(1) + dz_lake(2:nlevlake) = dzlak(2:nlevlake)*depthratio + z_lake(2:nlevlake) = zlak(2:nlevlake)*depthratio + dz_lake(1)*(1._kind_lake - depthratio) + end if + + end subroutine calculate_z_dz_lake + + !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! + !> \section arg_table_clm_lake_run Argument Table !! \htmlinclude clm_lake_run.html !! @@ -258,8 +283,8 @@ SUBROUTINE clm_lake_run( & salty, savedtke12d, snowdp2d, h2osno2d, snl2d, t_grnd2d, t_lake3d, & lake_icefrac3d, t_soisno3d, h2osoi_ice3d, h2osoi_liq3d, h2osoi_vol3d, & - z3d, dz3d, zi3d, z_lake3d, dz_lake3d, watsat3d, csol3d, sand3d, clay3d, & - tkmg3d, tkdry3d, tksatu3d, clm_lakedepth, cannot_freeze, & + z3d, dz3d, zi3d, & + input_lakedepth, clm_lakedepth, cannot_freeze, & ! Error reporting: errflg, errmsg) @@ -336,14 +361,8 @@ SUBROUTINE clm_lake_run( & dz3d real(kind_phys), dimension( :,-nlevsnow+0: ) ,INTENT(inout) :: zi3d - REAL(KIND_PHYS), DIMENSION( :,: ),INTENT(INOUT) :: z_lake3d - REAL(KIND_PHYS), DIMENSION( :,: ),INTENT(INOUT) :: dz_lake3d - REAL(KIND_PHYS), DIMENSION( :,: ),INTENT(INOUT) :: watsat3d - REAL(KIND_PHYS), DIMENSION( :,: ),INTENT(INOUT) :: csol3d, sand3d, clay3d - REAL(KIND_PHYS), DIMENSION( :,: ),INTENT(INOUT) :: tkmg3d - REAL(KIND_PHYS), DIMENSION( :,: ),INTENT(INOUT) :: tkdry3d - REAL(KIND_PHYS), DIMENSION( :,: ),INTENT(INOUT) :: tksatu3d REAL(KIND_PHYS), DIMENSION( : ) ,INTENT(INOUT) :: clm_lakedepth + REAL(KIND_PHYS), DIMENSION( : ) ,INTENT(INOUT) :: input_lakedepth ! ! Error reporting: @@ -430,10 +449,10 @@ SUBROUTINE clm_lake_run( & character*255 :: message logical, parameter :: feedback_to_atmosphere = .true. ! FIXME: REMOVE - real(kind_lake) :: to_radians, lat_d, lon_d, qss + real(kind_lake) :: to_radians, lat_d, lon_d, qss, tkm, bd - integer :: month,num1,num2,day_of_month - real(kind_lake) :: wght1,wght2,Tclim + integer :: month,num1,num2,day_of_month,isl + real(kind_lake) :: wght1,wght2,Tclim,depthratio logical salty_flag, cannot_freeze_flag @@ -451,31 +470,19 @@ SUBROUTINE clm_lake_run( & lakedepth_default=lakedepth_default, fhour=fhour, & oro_lakedepth=oro_lakedepth, savedtke12d=savedtke12d, snowdp2d=snowdp2d, & h2osno2d=h2osno2d, snl2d=snl2d, t_grnd2d=t_grnd2d, t_lake3d=t_lake3d, & - lake_icefrac3d=lake_icefrac3d, z_lake3d=z_lake3d, dz_lake3d=dz_lake3d, & + lake_icefrac3d=lake_icefrac3d, & t_soisno3d=t_soisno3d, h2osoi_ice3d=h2osoi_ice3d, h2osoi_liq3d=h2osoi_liq3d, & - h2osoi_vol3d=h2osoi_vol3d, z3d=z3d, dz3d=dz3d, zi3d=zi3d, watsat3d=watsat3d, & - csol3d=csol3d, tkmg3d=tkmg3d, fice=fice, hice=hice, min_lakeice=min_lakeice, & + h2osoi_vol3d=h2osoi_vol3d, z3d=z3d, dz3d=dz3d, zi3d=zi3d, & + fice=fice, hice=hice, min_lakeice=min_lakeice, & tsfc=tsfc, & - use_lake_model=use_lake_model, use_lakedepth=use_lakedepth, tkdry3d=tkdry3d, & - tksatu3d=tksatu3d, im=im, prsi=prsi, xlat_d=xlat_d, xlon_d=xlon_d, & - clm_lake_initialized=clm_lake_initialized, sand3d=sand3d, clay3d=clay3d, & + use_lake_model=use_lake_model, use_lakedepth=use_lakedepth, & + im=im, prsi=prsi, xlat_d=xlat_d, xlon_d=xlon_d, & + clm_lake_initialized=clm_lake_initialized, input_lakedepth=input_lakedepth, & tg3=tg3, clm_lakedepth=clm_lakedepth, km=km, me=me, master=master, & errmsg=errmsg, errflg=errflg) if(errflg/=0) then return endif - if(any(clay3d>0 .and. clay3d<1)) then - write(message,*) 'Invalid clay3d. Abort.' - errmsg=trim(message) - errflg=1 - return - endif - if(any(dz_lake3d>0 .and. dz_lake3d<.1)) then - write(message,*) 'Invalid dz_lake3d. Abort.' - errmsg=trim(message) - errflg=1 - return - endif lake_points=0 snow_points=0 @@ -540,6 +547,26 @@ SUBROUTINE clm_lake_run( & lake_points = lake_points+1 + call calculate_z_dz_lake(i,input_lakedepth,clm_lakedepth,z_lake(1,:),dz_lake(1,:)) + + do c = 2,column + z_lake(c,:) = z_lake(1,:) + dz_lake(c,:) = dz_lake(1,:) + enddo + + ! Soil hydraulic and thermal properties + isl = ISLTYP(i) + if (isl == 0 ) isl = 14 + if (isl == 14 ) isl = isl + 1 + + watsat = 0.489_kind_lake - 0.00126_kind_lake*sand(isl) + csol = (2.128_kind_lake*sand(isl)+2.385_kind_lake*clay(isl)) / (sand(isl)+clay(isl))*1.e6_kind_lake ! J/(m3 K) + tkm = (8.80_kind_lake*sand(isl)+2.92_kind_lake*clay(isl))/(sand(isl)+clay(isl)) ! W/(m K) + bd = (1._kind_lake-watsat(1,1))*2.7e3_kind_lake + tkmg = tkm ** (1._kind_lake- watsat(1,1)) + tkdry = (0.135_kind_lake*bd + 64.7_kind_lake) / (2.7e3_kind_lake - 0.947_kind_lake*bd) + tksatu = tkmg(1,1)*0.57_kind_lake**watsat(1,1) + do c = 1,column forc_t(c) = SFCTMP ! [K] @@ -567,8 +594,6 @@ SUBROUTINE clm_lake_run( & do k = 1,nlevlake t_lake(c,k) = t_lake3d(i,k) lake_icefrac(c,k) = lake_icefrac3d(i,k) - z_lake(c,k) = z_lake3d(i,k) - dz_lake(c,k) = dz_lake3d(i,k) enddo do k = -nlevsnow+1,nlevsoil t_soisno(c,k) = t_soisno3d(i,k) @@ -581,14 +606,6 @@ SUBROUTINE clm_lake_run( & do k = -nlevsnow+0,nlevsoil zi(c,k) = zi3d(i,k) enddo - do k = 1,nlevsoil - watsat(c,k) = watsat3d(i,k) - csol(c,k) = csol3d(i,k) - tkmg(c,k) = tkmg3d(i,k) - tkdry(c,k) = tkdry3d(i,k) - tksatu(c,k) = tksatu3d(i,k) - enddo - enddo eflx_lwrad_net = -9999 @@ -747,7 +764,7 @@ SUBROUTINE clm_lake_run( & hice(I) = 0 ! sea_ice_thickness do k=1,nlevlake if(lake_icefrac3d(i,k)>0) then - hice(i) = hice(i) + dz_lake3d(i,k) + hice(i) = hice(i) + dz_lake(c,k) endif end do else ! Not an ice point @@ -5315,14 +5332,14 @@ SUBROUTINE lakeini(kdt, ISLTYP, gt0, snowd, weasd, lakedepth_default, fhour, & oro_lakedepth, savedtke12d, snowdp2d, h2osno2d, & !o snl2d, t_grnd2d, t_lake3d, lake_icefrac3d, & - z_lake3d, dz_lake3d, t_soisno3d, h2osoi_ice3d, & + t_soisno3d, h2osoi_ice3d, & h2osoi_liq3d, h2osoi_vol3d, z3d, dz3d, & - zi3d, watsat3d, csol3d, tkmg3d, & + zi3d, & fice, hice, min_lakeice, tsfc, & use_lake_model, use_lakedepth, & - tkdry3d, tksatu3d, im, prsi, & + im, prsi, & xlat_d, xlon_d, clm_lake_initialized, & - sand3d, clay3d, tg3, clm_lakedepth, & + input_lakedepth, tg3, clm_lakedepth, & km, me, master, errmsg, errflg) !> Some fields in lakeini are not available during initialization, @@ -5360,6 +5377,7 @@ SUBROUTINE lakeini(kdt, ISLTYP, gt0, snowd, real(kind_phys), intent(in) :: lakedepth_default real(kind_phys), dimension(IM),intent(inout) :: clm_lakedepth + real(kind_phys), dimension(IM),intent(inout) :: input_lakedepth real(kind_phys), dimension(IM),intent(in) :: oro_lakedepth real(kind_phys), dimension(IM),intent(out) :: savedtke12d real(kind_phys), dimension(IM),intent(out) :: snowdp2d, & @@ -5368,43 +5386,24 @@ SUBROUTINE lakeini(kdt, ISLTYP, gt0, snowd, t_grnd2d real(kind_phys), dimension(IM,nlevlake),INTENT(out) :: t_lake3d, & - lake_icefrac3d, & - z_lake3d, & - dz_lake3d + lake_icefrac3d real(kind_phys), dimension(IM,-nlevsnow+1:nlevsoil ),INTENT(out) :: t_soisno3d, & h2osoi_ice3d, & h2osoi_liq3d, & h2osoi_vol3d, & z3d, & dz3d - real(kind_phys), dimension(IM,nlevsoil),INTENT(out) :: watsat3d, & - csol3d, & - tkmg3d, & - tkdry3d, & - tksatu3d - real(kind_phys), dimension(IM,nlevsoil),INTENT(inout) :: clay3d, & - sand3d real(kind_phys), dimension( IM,-nlevsnow+0:nlevsoil ),INTENT(out) :: zi3d !LOGICAL, DIMENSION( : ),intent(out) :: lake !REAL(KIND_PHYS), OPTIONAL, DIMENSION( : ), INTENT(IN) :: lake_depth ! no separate variable for this in CCPP - real(kind_lake), dimension( 1:im,1:nlevsoil ) :: bsw3d, & - bsw23d, & - psisat3d, & - vwcsat3d, & - watdry3d, & - watopt3d, & - hksat3d, & - sucsat3d integer :: n,i,j,k,ib,lev,bottom ! indices real(kind_lake),dimension(1:im ) :: bd2d ! bulk density of dry soil material [kg/m^3] real(kind_lake),dimension(1:im ) :: tkm2d ! mineral conductivity real(kind_lake),dimension(1:im ) :: xksat2d ! maximum hydraulic conductivity of soil [mm/s] real(kind_lake),dimension(1:im ) :: depthratio2d ! ratio of lake depth to standard deep lake depth - real(kind_lake),dimension(1:im ) :: clay2d ! temporary - real(kind_lake),dimension(1:im ) :: sand2d ! temporary logical,parameter :: arbinit = .false. real(kind_lake),parameter :: defval = -999.0 @@ -5413,16 +5412,19 @@ SUBROUTINE lakeini(kdt, ISLTYP, gt0, snowd, character*256 :: message real(kind_lake) :: ht real(kind_lake) :: rhosn - real(kind_lake) :: depth + real(kind_lake) :: depth, lakedepth logical :: climatology_limits + real(kind_lake) :: z_lake(nlevlake) ! layer depth for lake (m) + real(kind_lake) :: dz_lake(nlevlake) ! layer thickness for lake (m) + integer, parameter :: xcheck=38 integer, parameter :: ycheck=92 integer :: used_lakedepth_default, init_points, month, julday integer :: mon, iday, num2, num1, juld, day2, day1, wght1, wght2 - real(kind_lake) :: Tclim + real(kind_lake) :: Tclim, watsat used_lakedepth_default=0 @@ -5456,6 +5458,8 @@ SUBROUTINE lakeini(kdt, ISLTYP, gt0, snowd, cycle endif + input_lakedepth=clm_lakedepth + snl2d(i) = defval do k = -nlevsnow+1,nlevsoil h2osoi_liq3d(i,k) = defval @@ -5468,8 +5472,6 @@ SUBROUTINE lakeini(kdt, ISLTYP, gt0, snowd, do k = 1,nlevlake t_lake3d(i,k) = defval lake_icefrac3d(i,k) = defval - z_lake3d(i,k) = defval - dz_lake3d(i,k) = defval enddo if (use_lake_model(i) == 1) then @@ -5499,60 +5501,9 @@ SUBROUTINE lakeini(kdt, ISLTYP, gt0, snowd, isl = ISLTYP(i) if (isl == 0 ) isl = 14 if (isl == 14 ) isl = isl + 1 - do k = 1,nlevsoil - sand3d(i,k) = sand(isl) - clay3d(i,k) = clay(isl) - - ! Cannot continue if either of these checks fail. - if(clay3d(i,k)>0 .and. clay3d(i,k)<1) then - write(message,*) 'bad clay3d ',clay3d(i,k) - write(0,'(A)') trim(message) - errmsg = trim(message) - errflg = 1 - return - endif - if(sand3d(i,k)>0 .and. sand3d(i,k)<1) then - write(message,*) 'bad sand3d ',sand3d(i,k) - write(0,'(A)') trim(message) - errmsg = trim(message) - errflg = 1 - return - endif - enddo - do k = 1,nlevsoil - clay2d(i) = clay3d(i,k) - sand2d(i) = sand3d(i,k) - watsat3d(i,k) = 0.489_kind_lake - 0.00126_kind_lake*sand2d(i) - bd2d(i) = (1._kind_lake-watsat3d(i,k))*2.7e3_kind_lake - xksat2d(i) = 0.0070556_kind_lake *( 10._kind_lake**(-0.884_kind_lake+0.0153_kind_lake*sand2d(i)) ) ! mm/s - tkm2d(i) = (8.80_kind_lake*sand2d(i)+2.92_kind_lake*clay2d(i))/(sand2d(i)+clay2d(i)) ! W/(m K) - - bsw3d(i,k) = 2.91_kind_lake + 0.159_kind_lake*clay2d(i) - bsw23d(i,k) = -(3.10_kind_lake + 0.157_kind_lake*clay2d(i) - 0.003_kind_lake*sand2d(i)) - psisat3d(i,k) = -(exp((1.54_kind_lake - 0.0095_kind_lake*sand2d(i) + 0.0063_kind_lake*(100.0_kind_lake-sand2d(i) & - -clay2d(i)))*log(10.0_kind_lake))*9.8e-5_kind_lake) - vwcsat3d(i,k) = (50.5_kind_lake - 0.142_kind_lake*sand2d(i) - 0.037_kind_lake*clay2d(i))/100.0_kind_lake - hksat3d(i,k) = xksat2d(i) - sucsat3d(i,k) = 10._kind_lake * ( 10._kind_lake**(1.88_kind_lake-0.0131_kind_lake*sand2d(i)) ) - tkmg3d(i,k) = tkm2d(i) ** (1._kind_lake- watsat3d(i,k)) - tksatu3d(i,k) = tkmg3d(i,k)*0.57_kind_lake**watsat3d(i,k) - tkdry3d(i,k) = (0.135_kind_lake*bd2d(i) + 64.7_kind_lake) / (2.7e3_kind_lake - 0.947_kind_lake*bd2d(i)) - csol3d(i,k) = (2.128_kind_lake*sand2d(i)+2.385_kind_lake*clay2d(i)) / (sand2d(i)+clay2d(i))*1.e6_kind_lake ! J/(m3 K) - watdry3d(i,k) = watsat3d(i,k) * (316230._kind_lake/sucsat3d(i,k)) ** (-1._kind_lake/bsw3d(i,k)) - watopt3d(i,k) = watsat3d(i,k) * (158490._kind_lake/sucsat3d(i,k)) ** (-1._kind_lake/bsw3d(i,k)) - end do - if (clm_lakedepth(i) == spval) then - clm_lakedepth(i) = zlak(nlevlake) + 0.5_kind_lake*dzlak(nlevlake) - z_lake3d(i,1:nlevlake) = zlak(1:nlevlake) - dz_lake3d(i,1:nlevlake) = dzlak(1:nlevlake) - else - depthratio2d(i) = clm_lakedepth(i) / (zlak(nlevlake) + 0.5_kind_lake*dzlak(nlevlake)) - z_lake3d(i,1) = zlak(1) - dz_lake3d(i,1) = dzlak(1) - dz_lake3d(i,2:nlevlake) = dzlak(2:nlevlake)*depthratio2d(i) - z_lake3d(i,2:nlevlake) = zlak(2:nlevlake)*depthratio2d(i) + dz_lake3d(i,1)*(1._kind_lake - depthratio2d(i)) - end if + call calculate_z_dz_lake(i,input_lakedepth,clm_lakedepth,z_lake,dz_lake) + z3d(i,1:nlevsoil) = zsoi(1:nlevsoil) zi3d(i,0:nlevsoil) = zisoi(0:nlevsoil) dz3d(i,1:nlevsoil) = dzsoi(1:nlevsoil) @@ -5633,9 +5584,9 @@ SUBROUTINE lakeini(kdt, ISLTYP, gt0, snowd, if(lake_icefrac3d(i,1) > 0.) then depth = 0. do k=2,nlevlake - depth = depth + dz_lake3d(i,k) + depth = depth + dz_lake(k) if(hice(i) >= depth) then - lake_icefrac3d(i,k) = max(0.,lake_icefrac3d(i,1)+(0.-lake_icefrac3d(i,1))/z_lake3d(i,nlevlake)*depth) + lake_icefrac3d(i,k) = max(0.,lake_icefrac3d(i,1)+(0.-lake_icefrac3d(i,1))/z_lake(nlevlake)*depth) else lake_icefrac3d(i,k) = 0. endif @@ -5649,8 +5600,8 @@ SUBROUTINE lakeini(kdt, ISLTYP, gt0, snowd, t_grnd2d(i) = max(tfrz,tsfc(i)) endif do k = 2, nlevlake - if(z_lake3d(i,k).le.depth_c) then - t_lake3d(i,k) = tsfc(i)+(277.2_kind_lake-tsfc(i))/depth_c*z_lake3d(i,k) + if(z_lake(k).le.depth_c) then + t_lake3d(i,k) = tsfc(i)+(277.2_kind_lake-tsfc(i))/depth_c*z_lake(k) else t_lake3d(i,k) = 277.2_kind_lake end if @@ -5684,7 +5635,8 @@ SUBROUTINE lakeini(kdt, ISLTYP, gt0, snowd, do k = 1,nlevsoil h2osoi_vol3d(i,k) = 1.0_kind_lake - h2osoi_vol3d(i,k) = min(h2osoi_vol3d(i,k),watsat3d(i,k)) + watsat = 0.489_kind_lake - 0.00126_kind_lake*sand(isl) + h2osoi_vol3d(i,k) = min(h2osoi_vol3d(i,k),watsat) ! soil layers if (t_soisno3d(i,k) <= tfrz) then diff --git a/physics/clm_lake.meta b/physics/clm_lake.meta index 3de543078..11a44286a 100644 --- a/physics/clm_lake.meta +++ b/physics/clm_lake.meta @@ -289,6 +289,14 @@ type = real kind = kind_phys intent = in +[input_lakedepth] + standard_name = lake_depth_before_correction + long_name = lake depth_before_correction + units = m + dimensions = (horizontal_loop_extent) + type = real + kind = kind_phys + intent = inout [wind] standard_name = wind_speed_at_lowest_model_layer long_name = wind speed at lowest model level @@ -716,76 +724,6 @@ type = real kind = kind_phys intent = inout -[z_lake3d] - standard_name = depth_of_lake_interface_layers - long_name = depth of lake interface layers - units = fraction - dimensions = (horizontal_loop_extent, lake_vertical_dimension_for_clm_lake_model) - type = real - kind = kind_phys - intent = inout -[dz_lake3d] - standard_name = thickness_of_lake_layers - long_name = thickness of lake layers - units = fraction - dimensions = (horizontal_loop_extent, lake_vertical_dimension_for_clm_lake_model) - type = real - kind = kind_phys - intent = inout -[watsat3d] - standard_name = saturated_volumetric_soil_water_in_lake_model - long_name = saturated volumetric soil water in lake model - units = m - dimensions = (horizontal_loop_extent, lake_vertical_dimension_for_clm_lake_model) - type = real - kind = kind_phys - intent = inout -[csol3d] - standard_name = soil_heat_capacity_in_lake_model - long_name = soil heat capacity in lake model - units = m - dimensions = (horizontal_loop_extent, lake_vertical_dimension_for_clm_lake_model) - type = real - kind = kind_phys - intent = inout -[sand3d] - standard_name = clm_lake_percent_sand - long_name = percent sand in clm lake model - units = percent - dimensions = (horizontal_loop_extent,soil_vertical_dimension_for_clm_lake_model) - type = integer - intent = inout -[clay3d] - standard_name = clm_lake_percent_clay - long_name = percent clay in clm lake model - units = percent - dimensions = (horizontal_loop_extent,soil_vertical_dimension_for_clm_lake_model) - type = integer - intent = inout -[tkmg3d] - standard_name = soil_mineral_thermal_conductivity_in_lake_model - long_name = soil mineral thermal conductivity in lake model - units = m - dimensions = (horizontal_loop_extent, lake_vertical_dimension_for_clm_lake_model) - type = real - kind = kind_phys - intent = inout -[tkdry3d] - standard_name = dry_soil_thermal_conductivity_in_lake_model - long_name = dry soil thermal conductivity in lake model - units = m - dimensions = (horizontal_loop_extent, lake_vertical_dimension_for_clm_lake_model) - type = real - kind = kind_phys - intent = inout -[tksatu3d] - standard_name = saturated_soil_thermal_conductivity_in_lake_model - long_name = saturated soil thermal conductivity in lake model - units = m - dimensions = (horizontal_loop_extent, lake_vertical_dimension_for_clm_lake_model) - type = real - kind = kind_phys - intent = inout [clm_lakedepth] standard_name = clm_lake_depth long_name = clm internal copy of lake depth with 10.0 replaced by default lake depth diff --git a/physics/cu_c3_deep.F90 b/physics/cu_c3_deep.F90 index c3a4b2c4e..7092840c3 100644 --- a/physics/cu_c3_deep.F90 +++ b/physics/cu_c3_deep.F90 @@ -159,12 +159,12 @@ subroutine cu_c3_deep_run( & nranflag,itf,ktf,its,ite, kts,kte,ipr,imid integer, intent (in ) :: & ichoice - real(kind=kind_phys), dimension (its:ite,4) & + real(kind=kind_phys), dimension (its:,:) & ,intent (in ) :: rand_clos - real(kind=kind_phys), dimension (its:ite) & + real(kind=kind_phys), dimension (its:) & ,intent (in ) :: rand_mom,rand_vmas !$acc declare copyin(rand_clos,rand_mom,rand_vmas) - real(kind=kind_phys), intent(in), dimension (its:ite) :: ca_deep(:) + real(kind=kind_phys), intent(in), dimension (its:) :: ca_deep(:) integer, intent(in) :: do_capsuppress real(kind=kind_phys), intent(in), dimension(:) :: cap_suppress_j !$acc declare create(cap_suppress_j) @@ -177,28 +177,28 @@ subroutine cu_c3_deep_run( & ! outq = output q tendency (per s) ! outqc = output qc tendency (per s) ! pre = output precip - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (inout ) :: & cnvwt,outu,outv,outt,outq,outqc,cupclw - real(kind=kind_phys), dimension (its:ite) & + real(kind=kind_phys), dimension (its:) & ,intent (out ) :: & frh_out,rainevap - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (in ) :: & tmf, qmicro, sigmain, forceqv_spechum - real(kind=kind_phys), dimension (its:ite) & + real(kind=kind_phys), dimension (its:) & ,intent (inout ) :: & pre,xmb_out !$acc declare copy(cnvwt,outu,outv,outt,outq,outqc,cupclw,frh_out,pre,xmb_out) - real(kind=kind_phys), dimension (its:ite) & + real(kind=kind_phys), dimension (its:) & ,intent (in ) :: & hfx,qfx,xmbm_in,xmbs_in !$acc declare copyin(hfx,qfx,xmbm_in,xmbs_in) - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (inout ) :: & kbcon,ktop !$acc declare copy(kbcon,ktop) - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (in ) :: & kpbl,tropics !$acc declare copyin(kpbl,tropics) @@ -207,26 +207,26 @@ subroutine cu_c3_deep_run( & ! omega (omeg), windspeed (us,vs), and a flag (ierr) to turn off ! convection for this call only and at that particular gridpoint ! - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (in ) :: & dhdt,rho,t,po,us,vs,tn,delp !$acc declare copyin(dhdt,rho,t,po,us,vs,tn) - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (inout ) :: & omeg !$acc declare copy(omeg) - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (inout) :: & q,qo,zuo,zdo,zdm !$acc declare sigmaout - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (out) :: & sigmaout - real(kind=kind_phys), dimension (its:ite) & + real(kind=kind_phys), dimension (its:) & ,intent (in ) :: & dx,z1,psur,xland !$acc declare copyin(dx,z1,psur,xland) - real(kind=kind_phys), dimension (its:ite) & + real(kind=kind_phys), dimension (its:) & ,intent (inout ) :: & mconv,ccn !$acc declare copy(mconv,ccn) @@ -372,8 +372,8 @@ subroutine cu_c3_deep_run( & !$acc kzdown,kdet,k22,jmin,kstabi,kstabm,k22x,xland1, & !$acc ktopdby,kbconx,ierr2,ierr3,kbmax) - integer, dimension (its:ite), intent(inout) :: ierr - integer, dimension (its:ite), intent(in) :: csum + integer, dimension (its:), intent(inout) :: ierr + integer, dimension (its:), intent(in) :: csum logical, intent(in) :: do_ca, progsigma logical, intent(in) :: flag_init, flag_restart !$acc declare copy(ierr) copyin(csum) @@ -421,7 +421,7 @@ subroutine cu_c3_deep_run( & !$acc tn_bl, qo_bl, qeso_bl, heo_bl, heso_bl, & !$acc qeso_cup_bl,qo_cup_bl, heo_cup_bl,heso_cup_bl, & !$acc gammao_cup_bl,tn_cup_bl,hco_bl,dbyo_bl,xf_dicycle) - real(kind=kind_phys), intent(inout), dimension(its:ite,10) :: forcing + real(kind=kind_phys), intent(inout), dimension(its:,:) :: forcing !$acc declare copy(forcing) integer :: turn,pmin_lev(its:ite),start_level(its:ite),ktopkeep(its:ite) real(kind=kind_phys), dimension (its:ite,kts:kte) :: dtempdz @@ -2078,10 +2078,6 @@ subroutine cu_c3_deep_run( & !> - Call rain_evap_below_cloudbase() to calculate evaporation below cloud base - call rain_evap_below_cloudbase(itf,ktf,its,ite, & - kts,kte,ierr,kbcon,xmb,psur,xland,qo_cup, & - po_cup,qes_cup,pwavo,edto,pwevo,pre,outt,outq) !,outbuoy) - k=1 !$acc kernels do i=its,itf @@ -2137,7 +2133,7 @@ subroutine cu_c3_deep_run( & do k = ktop(i), 1, -1 rain = pwo(i,k) + edto(i) * pwdo(i,k) rn(i) = rn(i) + rain * xmb(i) * .001 * dtime - !if(po(i,k).gt.400.)then + if(k.gt.jmin(i))then if(flg(i))then q1=qo(i,k)+(outq(i,k))*dtime t1=tn(i,k)+(outt(i,k))*dtime @@ -2162,7 +2158,7 @@ subroutine cu_c3_deep_run( & pre(i)=max(pre(i),0.) delqev(i) = delqev(i) + .001*dp*qevap(i)/g endif - !endif ! 400mb + endif endif enddo ! pre(i)=1000.*rn(i)/dtime @@ -2418,16 +2414,16 @@ subroutine rain_evap_below_cloudbase(itf,ktf, its,ite, kts,kte,ierr, & integer ,intent(in) :: itf,ktf, its,ite, kts,kte - integer, dimension(its:ite) ,intent(in) :: ierr,kbcon - real(kind=kind_phys), dimension(its:ite) ,intent(in) ::psur,xland,pwavo,edto,pwevo,xmb - real(kind=kind_phys), dimension(its:ite,kts:kte),intent(in) :: po_cup,qo_cup,qes_cup - real(kind=kind_phys), dimension(its:ite) ,intent(inout) :: pre - real(kind=kind_phys), dimension(its:ite,kts:kte),intent(inout) :: outt,outq !,outbuoy + integer, dimension(its:) ,intent(in) :: ierr,kbcon + real(kind=kind_phys), dimension(its:) ,intent(in) ::psur,xland,pwavo,edto,pwevo,xmb + real(kind=kind_phys), dimension(its:,kts:),intent(in) :: po_cup,qo_cup,qes_cup + real(kind=kind_phys), dimension(its:) ,intent(inout) :: pre + real(kind=kind_phys), dimension(its:,kts:),intent(inout) :: outt,outq !,outbuoy !$acc declare copyin(ierr,kbcon,psur,xland,pwavo,edto,pwevo,xmb,po_cup,qo_cup,qes_cup) !$acc declare copy(pre,outt,outq) - !real, dimension(its:ite) ,intent(out) :: tot_evap_bcb - !real, dimension(its:ite,kts:kte),intent(out) :: evap_bcb,net_prec_bcb + !real, dimension(its:) ,intent(out) :: tot_evap_bcb + !real, dimension(its:,kts:),intent(out) :: evap_bcb,net_prec_bcb !-- locals integer :: i,k @@ -2511,30 +2507,30 @@ subroutine cup_dd_edt(ierr,us,vs,z,ktop,kbcon,edt,p,pwav, & ! ! ierr error value, maybe modified in this routine ! - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (in ) :: & rho,us,vs,z,p,pw - real(kind=kind_phys), dimension (its:ite,1) & + real(kind=kind_phys), dimension (its:,: ) & ,intent (out ) :: & edtc - real(kind=kind_phys), dimension (its:ite) & + real(kind=kind_phys), dimension (its:) & ,intent (out ) :: & pefc - real(kind=kind_phys), dimension (its:ite) & + real(kind=kind_phys), dimension (its:) & ,intent (out ) :: & edt - real(kind=kind_phys), dimension (its:ite) & + real(kind=kind_phys), dimension (its:) & ,intent (in ) :: & pwav,pwev,psum2,psumh,edtmax,edtmin - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (in ) :: & ktop,kbcon,xland1 real(kind=kind_phys), intent (in ) :: & !HCB ccnclean - real(kind=kind_phys), dimension (its:ite) & + real(kind=kind_phys), dimension (its:) & ,intent (inout ) :: & ccn - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (inout) :: & ierr !$acc declare copyin(rho,us,vs,z,p,pw,pwav,pwev,psum2,psumh,edtmax,edtmin,ktop,kbcon) @@ -2671,7 +2667,7 @@ subroutine cup_dd_moisture(ierrc,zd,hcd,hes_cup,qcd,qes_cup, & ! pwev = total normalized integrated evaoprate (i2) ! entr= entrainment rate ! - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (in ) :: & zd,hes_cup,hcd,qes_cup,q_cup,z_cup, & dd_massentr,dd_massdetr,gamma_cup,q,he,p_cup @@ -2679,18 +2675,18 @@ subroutine cup_dd_moisture(ierrc,zd,hcd,hes_cup,qcd,qes_cup, & integer & ,intent (in ) :: & iloop - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (in ) :: & jmin !$acc declare copyin(jmin) - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (inout) :: & ierr !$acc declare copy(ierr) - real(kind=kind_phys), dimension (its:ite,kts:kte)& + real(kind=kind_phys), dimension (its:,kts:)& ,intent (out ) :: & qcd,qrcd,pwd - real(kind=kind_phys), dimension (its:ite)& + real(kind=kind_phys), dimension (its:)& ,intent (out ) :: & pwev,bu !$acc declare copyout(qcd,qrcd,pwd,pwev,bu) @@ -2812,23 +2808,23 @@ subroutine cup_env(z,qes,he,hes,t,q,p,z1, & its,ite, kts,kte ! ! - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (in ) :: & p,t,q !$acc declare copyin(p,t,q) - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (out ) :: & hes,qes !$acc declare copyout(hes,qes) - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (inout) :: & he,z !$acc declare copy(he,z) - real(kind=kind_phys), dimension (its:ite) & + real(kind=kind_phys), dimension (its:) & ,intent (in ) :: & psur,z1 !$acc declare copyin(psur,z1) - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (inout) :: & ierr !$acc declare copy(ierr) @@ -2966,19 +2962,19 @@ subroutine cup_env_clev(t,qes,q,he,hes,z,p,qes_cup,q_cup, & itf,ktf, & its,ite, kts,kte ! - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (in ) :: & qes,q,he,hes,z,p,t !$acc declare copyin(qes,q,he,hes,z,p,t) - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (out ) :: & qes_cup,q_cup,he_cup,hes_cup,z_cup,p_cup,gamma_cup,t_cup !$acc declare copyout(qes_cup,q_cup,he_cup,hes_cup,z_cup,p_cup,gamma_cup,t_cup) - real(kind=kind_phys), dimension (its:ite) & + real(kind=kind_phys), dimension (its:) & ,intent (in ) :: & psur,z1 !$acc declare copyin(psur,z1) - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (inout) :: & ierr !$acc declare copy(ierr) @@ -3077,33 +3073,33 @@ subroutine cup_forcing_ens_3d(closure_n,xland,aa0,aa1,xaa0,mbdt,dtime,ierr,ierr2 ! k22 = updraft originating level ! ichoice = flag if only want one closure (usually set to zero!) ! - real(kind=kind_phys), dimension (its:ite,1:maxens3) & + real(kind=kind_phys), dimension (its:,1:) & ,intent (inout) :: & pr_ens - real(kind=kind_phys), dimension (its:ite,1:maxens3) & + real(kind=kind_phys), dimension (its:,1:) & ,intent (inout ) :: & xf_ens !$acc declare copy(pr_ens,xf_ens) - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (in ) :: & zd,zu,p_cup,zdm - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (in ) :: & omeg - real(kind=kind_phys), dimension (its:ite,1) & + real(kind=kind_phys), dimension (its:,:) & ,intent (in ) :: & xaa0 - real(kind=kind_phys), dimension (its:ite,4) & + real(kind=kind_phys), dimension (its:,:) & ,intent (in ) :: & rand_clos - real(kind=kind_phys), dimension (its:ite) & + real(kind=kind_phys), dimension (its:) & ,intent (in ) :: & aa1,edt,edtm,omegac,sigmab - real(kind=kind_phys), dimension (its:ite) & + real(kind=kind_phys), dimension (its:) & ,intent (in ) :: & mconv,axx !$acc declare copyin(zd,zu,p_cup,zdm,omeg,xaa0,rand_clos,aa1,edt,edtm,mconv,axx) - real(kind=kind_phys), dimension (its:ite) & + real(kind=kind_phys), dimension (its:) & ,intent (inout) :: & aa0,closure_n !$acc declare copy(aa0,closure_n) @@ -3113,13 +3109,13 @@ subroutine cup_forcing_ens_3d(closure_n,xland,aa0,aa1,xaa0,mbdt,dtime,ierr,ierr2 real(kind=kind_phys) & ,intent (in ) :: & dtime - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (inout ) :: & k22,kbcon,ktop - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (in ) :: & xland - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (inout) :: & ierr,ierr2,ierr3 !$acc declare copy(k22,kbcon,ktop,ierr,ierr2,ierr3) copyin(xland) @@ -3129,10 +3125,10 @@ subroutine cup_forcing_ens_3d(closure_n,xland,aa0,aa1,xaa0,mbdt,dtime,ierr,ierr2 integer, intent(in) :: dicycle logical, intent (in) :: progsigma - real(kind=kind_phys), intent(in) , dimension (its:ite) :: aa1_bl,tau_ecmwf - real(kind=kind_phys), intent(inout), dimension (its:ite) :: xf_dicycle - real(kind=kind_phys), intent(out), dimension (its:ite) :: xf_progsigma - real(kind=kind_phys), intent(inout), dimension (its:ite,10) :: forcing + real(kind=kind_phys), intent(in) , dimension (its:) :: aa1_bl,tau_ecmwf + real(kind=kind_phys), intent(inout), dimension (its:) :: xf_dicycle + real(kind=kind_phys), intent(out), dimension (its:) :: xf_progsigma + real(kind=kind_phys), intent(inout), dimension (its:,:) :: forcing !$acc declare copyin(aa1_bl,tau_ecmwf) copy(xf_dicycle,forcing) !- local var real(kind=kind_phys) :: xff_dicycle @@ -3487,31 +3483,31 @@ subroutine cup_kbcon(ierrc,cap_inc,iloop_in,k22,kbcon,he_cup,hes_cup, & ! ! ierr error value, maybe modified in this routine ! - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (in ) :: & he_cup,hes_cup,p_cup !$acc declare copyin(he_cup,hes_cup,p_cup) - real(kind=kind_phys), dimension (its:ite) & + real(kind=kind_phys), dimension (its:) & ,intent (in ) :: & entr_rate,ztexec,zqexec,cap_inc,cap_max !$acc declare copyin(entr_rate,ztexec,zqexec,cap_inc,cap_max) - real(kind=kind_phys), dimension (its:ite) & + real(kind=kind_phys), dimension (its:) & ,intent (inout ) :: & hkb !,cap_max !$acc declare copy(hkb) - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (in ) :: & kbmax !$acc declare copyin(kbmax) - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (inout) :: & kbcon,k22,ierr !$acc declare copy(kbcon,k22,ierr) integer & ,intent (in ) :: & iloop_in - character*50 :: ierrc(its:ite) - real(kind=kind_phys), dimension (its:ite,kts:kte),intent (in) :: z_cup,heo + character*50 :: ierrc(its:) + real(kind=kind_phys), dimension (its:,kts:),intent (in) :: z_cup,heo !$acc declare copyin(z_cup,heo) integer, dimension (its:ite) :: iloop,start_level !$acc declare create(iloop,start_level) @@ -3645,18 +3641,18 @@ subroutine cup_maximi(array,ks,ke,maxx,ierr, & ! x output array with return values ! kt output array of levels ! ks,kend check-range - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (in ) :: & array !$acc declare copyin(array) - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (in ) :: & ierr,ke !$acc declare copyin(ierr,ke) integer & ,intent (in ) :: & ks - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (out ) :: & maxx !$acc declare copyout(maxx) @@ -3708,15 +3704,15 @@ subroutine cup_minimi(array,ks,kend,kt,ierr, & ! x output array with return values ! kt output array of levels ! ks,kend check-range - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (in ) :: & array !$acc declare copyin(array) - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (in ) :: & ierr,ks,kend !$acc declare copyin(ierr,ks,kend) - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (out ) :: & kt !$acc declare copyout(kt) @@ -3771,10 +3767,10 @@ subroutine cup_up_aa0(aa0,z,zu,dby,gamma_cup,t_cup, & ! z = heights of model levels ! ierr error value, maybe modified in this routine ! - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (in ) :: & z,zu,gamma_cup,t_cup,dby - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (in ) :: & kbcon,ktop !$acc declare copyin(z,zu,gamma_cup,t_cup,dby,kbcon,ktop) @@ -3783,11 +3779,11 @@ subroutine cup_up_aa0(aa0,z,zu,dby,gamma_cup,t_cup, & ! - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (inout) :: & ierr !$acc declare copy(ierr) - real(kind=kind_phys), dimension (its:ite) & + real(kind=kind_phys), dimension (its:) & ,intent (out ) :: & aa0 !$acc declare copyout(aa0) @@ -3830,15 +3826,15 @@ subroutine neg_check(name,j,dt,q,outq,outt,outu,outv, & outqc,pret,its,ite,kts,kte,itf,ktf,ktop) integer, intent(in ) :: j,its,ite,kts,kte,itf,ktf - integer, dimension (its:ite ), intent(in ) :: ktop + integer, dimension (its: ), intent(in ) :: ktop - real(kind=kind_phys), dimension (its:ite,kts:kte ) , & + real(kind=kind_phys), dimension (its:,kts: ) , & intent(inout ) :: & outq,outt,outqc,outu,outv - real(kind=kind_phys), dimension (its:ite,kts:kte ) , & + real(kind=kind_phys), dimension (its:,kts: ) , & intent(inout ) :: & q - real(kind=kind_phys), dimension (its:ite ) , & + real(kind=kind_phys), dimension (its: ) , & intent(inout ) :: & pret !$acc declare copy(outq,outt,outqc,outu,outv,q,pret) @@ -3979,38 +3975,38 @@ subroutine cup_output_ens_3d(xff_mid,xf_ens,ierr,dellat,dellaq,dellaqc, & ! pw = pw -epsilon*pd (ensemble dependent) ! ierr error value, maybe modified in this routine ! - real(kind=kind_phys), dimension (its:ite,1:maxens3) & + real(kind=kind_phys), dimension (its:,:) & ,intent (inout) :: & xf_ens,pr_ens - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (inout ) :: & outtem,outq,outqc - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (in ) :: & zu,pwd,p_cup - real(kind=kind_phys), dimension (its:ite) & + real(kind=kind_phys), dimension (its:) & ,intent (in ) :: & sig,xmbm_in,xmbs_in,edt,sigmab,dx - real(kind=kind_phys), dimension (its:ite,2) & + real(kind=kind_phys), dimension (its:,:) & ,intent (in ) :: & xff_mid - real(kind=kind_phys), dimension (its:ite) & + real(kind=kind_phys), dimension (its:) & ,intent (inout ) :: & pre,xmb - real(kind=kind_phys), dimension (its:ite) & + real(kind=kind_phys), dimension (its:) & ,intent (inout ) :: & closure_n - real(kind=kind_phys), dimension (its:ite,kts:kte,1) & + real(kind=kind_phys), dimension (its:,kts:,:) & ,intent (in ) :: & dellat,dellaqc,dellaq,pw - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (in ) :: & ktop,xland1 - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (inout) :: & ierr,ierr2,ierr3 integer, intent(in) :: dicycle - real(kind=kind_phys), intent(in), dimension (its:ite) :: xf_dicycle, xf_progsigma + real(kind=kind_phys), intent(in), dimension (its:) :: xf_dicycle, xf_progsigma !$acc declare copyin(zu,pwd,p_cup,sig,xmbm_in,xmbs_in,edt,xff_mid,dellat,dellaqc,dellaq,pw,ktop,xland1,xf_dicycle) !$acc declare copy(xf_ens,pr_ens,outtem,outq,outqc,pre,xmb,closure_n,ierr,ierr2,ierr3) ! @@ -4248,15 +4244,15 @@ subroutine cup_up_moisture(name,ierr,z_cup,qc,qrc,pw,pwav, & ! zu = normalized updraft mass flux ! gamma_cup = gamma on model cloud levels ! - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (in ) :: & p_cup,rho,q,zu,gamma_cup,qe_cup, & up_massentr,up_massdetr,dby,qes_cup,z_cup - real(kind=kind_phys), dimension (its:ite) & + real(kind=kind_phys), dimension (its:) & ,intent (in ) :: & zqexec,c0 ! entr= entrainment rate - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (in ) :: & kbcon,ktop,k22,xland1 !$acc declare copyin(p_cup,rho,q,zu,gamma_cup,qe_cup,up_massentr,up_massdetr,dby,qes_cup,z_cup,zqexec,c0,kbcon,ktop,k22,xland1) @@ -4268,7 +4264,7 @@ subroutine cup_up_moisture(name,ierr,z_cup,qc,qrc,pw,pwav, & ! ierr error value, maybe modified in this routine - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (inout) :: & ierr !$acc declare copy(ierr) @@ -4281,11 +4277,11 @@ subroutine cup_up_moisture(name,ierr,z_cup,qc,qrc,pw,pwav, & ! pwav = totan normalized integrated condensate (i1) ! c0 = conversion rate (cloud to rain) - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (out ) :: & qc,qrc,pw,clw_all !$acc declare copy(qc,qrc,pw,clw_all) - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (inout) :: & c1d !$acc declare copy(c1d) @@ -4295,11 +4291,11 @@ subroutine cup_up_moisture(name,ierr,z_cup,qc,qrc,pw,pwav, & real(kind=kind_phys), dimension (its:ite) :: & pwavh !$acc declare create(pwavh) - real(kind=kind_phys), dimension (its:ite) & + real(kind=kind_phys), dimension (its:) & ,intent (out ) :: & pwav,psum,psumh !$acc declare copyout(pwav,psum,psumh) - real(kind=kind_phys), dimension (its:ite) & + real(kind=kind_phys), dimension (its:) & ,intent (in ) :: & ccn !$acc declare copyin(ccn) @@ -4329,7 +4325,7 @@ subroutine cup_up_moisture(name,ierr,z_cup,qc,qrc,pw,pwav, & is_deep = (name == 'deep') !$acc kernels - prop_b(kts:kte)=0 + prop_b(kts:)=0 !$acc end kernels iall=0 clwdet=0.1 !0.02 @@ -4429,7 +4425,7 @@ subroutine cup_up_moisture(name,ierr,z_cup,qc,qrc,pw,pwav, & ! !now do the rest ! - kklev(i)=maxloc(zu(i,:),1) + kklev(i)=maxloc(zu(i,2:ktop(i)),1) !$acc loop seq do k=kbcon(i)+1,ktop(i) if(t(i,k) > 273.16) then @@ -4489,6 +4485,8 @@ subroutine cup_up_moisture(name,ierr,z_cup,qc,qrc,pw,pwav, & endif if(k.gt.kbcon(i)+1)c1d(i,k)=clwdet*up_massdetr(i,k-1) if(k.gt.kbcon(i)+1)c1d_b(i,k)=clwdet*up_massdetr(i,k-1) + c1d(i,k)=0.005 + c1d_b(i,k)=0.005 if(autoconv.eq.2) then ! @@ -4646,11 +4644,11 @@ subroutine rates_up_pdf(rand_vmas,ipr,name,ktop,ierr,p_cup,entr_rate_2d,hkbo,heo implicit none character *(*), intent (in) :: name integer, intent(in) :: ipr,its,ite,itf,kts,kte,ktf - real(kind=kind_phys), dimension (its:ite,kts:kte),intent (inout) :: entr_rate_2d,zuo - real(kind=kind_phys), dimension (its:ite,kts:kte),intent (in) ::p_cup, heo,heso_cup,z_cup - real(kind=kind_phys), dimension (its:ite),intent (in) :: hkbo,rand_vmas - integer, dimension (its:ite),intent (in) :: kstabi,k22,kpbl,csum,xland,pmin_lev - integer, dimension (its:ite),intent (inout) :: kbcon,ierr,ktop,ktopdby + real(kind=kind_phys), dimension (its:,kts:),intent (inout) :: entr_rate_2d,zuo + real(kind=kind_phys), dimension (its:,kts:),intent (in) ::p_cup, heo,heso_cup,z_cup + real(kind=kind_phys), dimension (its:),intent (in) :: hkbo,rand_vmas + integer, dimension (its:),intent (in) :: kstabi,k22,kpbl,csum,xland,pmin_lev + integer, dimension (its:),intent (inout) :: kbcon,ierr,ktop,ktopdby !$acc declare copy(entr_rate_2d,zuo,kbcon,ierr,ktop,ktopdby) & !$acc copyin(p_cup, heo,heso_cup,z_cup,hkbo,rand_vmas,kstabi,k22,kpbl,csum,xland,pmin_lev) @@ -4737,7 +4735,7 @@ subroutine rates_up_pdf(rand_vmas,ipr,name,ktop,ierr,p_cup,entr_rate_2d,hkbo,heo ktop(i)= 0 else call get_zu_zd_pdf_fim(kklev,p_cup(i,:),rand_vmas(i),zubeg,ipr,xland(i),zuh2,1,ierr(i),k22(i), & - kfinalzu+1,zuo(i,kts:kte),kts,kte,ktf,beta_u,kbcon(i),csum(i),pmin_lev(i)) + kfinalzu+1,zuo(i,kts:),kts,kte,ktf,beta_u,kbcon(i),csum(i),pmin_lev(i)) endif endif ! end deep if ( is_mid ) then @@ -4748,7 +4746,7 @@ subroutine rates_up_pdf(rand_vmas,ipr,name,ktop,ierr,p_cup,entr_rate_2d,hkbo,heo kfinalzu=ktop(i) ktopdby(i)=ktop(i)+1 call get_zu_zd_pdf_fim(kklev,p_cup(i,:),rand_vmas(i),zubeg,ipr,xland(i),zuh2,3, & - ierr(i),k22(i),ktopdby(i)+1,zuo(i,kts:kte),kts,kte,ktf,beta_u,kbcon(i),csum(i),pmin_lev(i)) + ierr(i),k22(i),ktopdby(i)+1,zuo(i,kts:),kts,kte,ktf,beta_u,kbcon(i),csum(i),pmin_lev(i)) endif endif ! mid if ( is_shallow ) then @@ -4759,7 +4757,7 @@ subroutine rates_up_pdf(rand_vmas,ipr,name,ktop,ierr,p_cup,entr_rate_2d,hkbo,heo kfinalzu=ktop(i) ktopdby(i)=ktop(i)+1 call get_zu_zd_pdf_fim(kbcon(i),p_cup(i,:),rand_vmas(i),zubeg,ipr,xland(i),zuh2,2,ierr(i),k22(i), & - ktopdby(i)+1,zuo(i,kts:kte),kts,kte,ktf,beta_u,kbcon(i),csum(i),pmin_lev(i)) + ktopdby(i)+1,zuo(i,kts:),kts,kte,ktf,beta_u,kbcon(i),csum(i),pmin_lev(i)) endif endif ! shal @@ -4782,8 +4780,8 @@ subroutine get_zu_zd_pdf_fim(kklev,p,rand_vmas,zubeg,ipr,xland,zuh2,draft,ierr,k real(kind=kind_phys), parameter :: beta_dd=4.0,g_beta_dd=6. integer, intent(in) ::ipr,xland,kb,kklev,kt,kts,kte,ktf,kpbli,csum,pmin_lev real(kind=kind_phys), intent(in) ::max_mass,zubeg - real(kind=kind_phys), intent(inout) :: zu(kts:kte) - real(kind=kind_phys), intent(in) :: p(kts:kte) + real(kind=kind_phys), intent(inout) :: zu(kts:) + real(kind=kind_phys), intent(in) :: p(kts:) real(kind=kind_phys) :: trash,beta_deep,zuh(kts:kte),zuh2(1:40) integer, intent(inout) :: ierr integer, intent(in) ::draft @@ -5057,20 +5055,20 @@ subroutine cup_up_aa1bl(aa0,t,tn,q,qo,dtime, & ! z = heights of model levels ! ierr error value, maybe modified in this routine ! - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (in ) :: & z_cup,zu,gamma_cup,t_cup,dby,t,tn,q,qo - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (in ) :: & kbcon,ktop real(kind=kind_phys), intent(in) :: dtime ! ! input and output ! - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (inout) :: & ierr - real(kind=kind_phys), dimension (its:ite) & + real(kind=kind_phys), dimension (its:) & ,intent (out ) :: & aa0 ! @@ -5107,14 +5105,14 @@ subroutine get_inversion_layers(ierr,p_cup,t_cup,z_cup,qo_cup,qeso_cup,k_inv_lay implicit none integer ,intent (in ) :: itf,ktf,its,ite,kts,kte - integer, dimension (its:ite) ,intent (in ) :: ierr,kstart,kend + integer, dimension (its:) ,intent (in ) :: ierr,kstart,kend !$acc declare copyin(ierr,kstart,kend) integer, dimension (its:ite) :: kend_p3 !$acc declare create(kend_p3) - real(kind=kind_phys), dimension (its:ite,kts:kte), intent (in ) :: p_cup,t_cup,z_cup,qo_cup,qeso_cup - real(kind=kind_phys), dimension (its:ite,kts:kte), intent (out) :: dtempdz - integer, dimension (its:ite,kts:kte), intent (out) :: k_inv_layers + real(kind=kind_phys), dimension (its:,kts:), intent (in ) :: p_cup,t_cup,z_cup,qo_cup,qeso_cup + real(kind=kind_phys), dimension (its:,kts:), intent (out) :: dtempdz + integer, dimension (its:,kts:), intent (out) :: k_inv_layers !$acc declare copyin(p_cup,t_cup,z_cup,qo_cup,qeso_cup) !$acc declare copyout(dtempdz,k_inv_layers) !-local vars @@ -5308,15 +5306,15 @@ subroutine get_lateral_massflux(itf,ktf, its,ite, kts,kte implicit none integer, intent (in) :: draft integer, intent(in):: itf,ktf, its,ite, kts,kte - integer, intent(in) , dimension(its:ite) :: ierr,ktop,kbcon,k22 + integer, intent(in) , dimension(its:) :: ierr,ktop,kbcon,k22 !$acc declare copyin(ierr,ktop,kbcon,k22) - !real(kind=kind_phys), intent(in), optional , dimension(its:ite):: lambau - real(kind=kind_phys), intent(inout), optional , dimension(its:ite):: lambau - real(kind=kind_phys), intent(in) , dimension(its:ite,kts:kte) :: zo_cup,zuo - real(kind=kind_phys), intent(inout), dimension(its:ite,kts:kte) :: cd,entr_rate_2d - real(kind=kind_phys), intent( out), dimension(its:ite,kts:kte) :: up_massentro, up_massdetro & + !real(kind=kind_phys), intent(in), optional , dimension(its:):: lambau + real(kind=kind_phys), intent(inout), optional , dimension(its:):: lambau + real(kind=kind_phys), intent(in) , dimension(its:,kts:) :: zo_cup,zuo + real(kind=kind_phys), intent(inout), dimension(its:,kts:) :: cd,entr_rate_2d + real(kind=kind_phys), intent( out), dimension(its:,kts:) :: up_massentro, up_massdetro & ,up_massentr, up_massdetr - real(kind=kind_phys), intent( out), dimension(its:ite,kts:kte), optional :: & + real(kind=kind_phys), intent( out), dimension(its:,kts:), optional :: & up_massentru,up_massdetru !$acc declare copy(lambau,cd,entr_rate_2d) copyin(zo_cup,zuo) copyout(up_massentro, up_massdetro,up_massentr, up_massdetr) !$acc declare copyout(up_massentro, up_massdetro,up_massentr, up_massdetr, up_massentru,up_massdetru) @@ -5437,10 +5435,10 @@ subroutine get_partition_liq_ice(ierr,tn,po_cup, p_liq_ice,melting_layer implicit none character *(*), intent (in) :: cumulus integer ,intent (in ) :: itf,ktf, its,ite, kts,kte - real(kind=kind_phys), intent (in ), dimension(its:ite,kts:kte) :: tn,po_cup - real(kind=kind_phys), intent (inout), dimension(its:ite,kts:kte) :: p_liq_ice,melting_layer + real(kind=kind_phys), intent (in ), dimension(its:,kts:) :: tn,po_cup + real(kind=kind_phys), intent (inout), dimension(its:,kts:) :: p_liq_ice,melting_layer !$acc declare copyin(tn,po_cup) copy(p_liq_ice,melting_layer) - integer , intent (in ), dimension(its:ite) :: ierr + integer , intent (in ), dimension(its:) :: ierr !$acc declare copyin(ierr) integer :: i,k real(kind=kind_phys) :: dp @@ -5539,11 +5537,11 @@ subroutine get_melting_profile(ierr,tn_cup,po_cup, p_liq_ice,melting_layer,qrco implicit none character *(*), intent (in) :: cumulus integer ,intent (in ) :: itf,ktf, its,ite, kts,kte - integer ,intent (in ), dimension(its:ite) :: ierr - real(kind=kind_phys) ,intent (in ), dimension(its:ite) :: edto - real(kind=kind_phys) ,intent (in ), dimension(its:ite,kts:kte) :: tn_cup,po_cup,qrco,pwo & + integer ,intent (in ), dimension(its:) :: ierr + real(kind=kind_phys) ,intent (in ), dimension(its:) :: edto + real(kind=kind_phys) ,intent (in ), dimension(its:,kts:) :: tn_cup,po_cup,qrco,pwo & ,pwdo,p_liq_ice,melting_layer - real(kind=kind_phys) ,intent (inout), dimension(its:ite,kts:kte) :: melting + real(kind=kind_phys) ,intent (inout), dimension(its:,kts:) :: melting !$acc declare copyin(ierr,edto,tn_cup,po_cup,qrco,pwo,pwdo,p_liq_ice,melting_layer,melting) integer :: i,k real(kind=kind_phys) :: dp @@ -5615,13 +5613,13 @@ subroutine get_cloud_top(name,ktop,ierr,p_cup,entr_rate_2d,hkbo,heo,heso_cup,z_c kstabi,k22,kbcon,its,ite,itf,kts,kte,ktf,zuo,kpbl,klcl,hcot) implicit none integer, intent(in) :: its,ite,itf,kts,kte,ktf - real(kind=kind_phys), dimension (its:ite,kts:kte),intent (inout) :: entr_rate_2d,zuo - real(kind=kind_phys), dimension (its:ite,kts:kte),intent (in) ::p_cup, heo,heso_cup,z_cup - real(kind=kind_phys), dimension (its:ite),intent (in) :: hkbo - integer, dimension (its:ite),intent (in) :: kstabi,k22,kbcon,kpbl,klcl - integer, dimension (its:ite),intent (inout) :: ierr,ktop + real(kind=kind_phys), dimension (its:,kts:),intent (inout) :: entr_rate_2d,zuo + real(kind=kind_phys), dimension (its:,kts:),intent (in) ::p_cup, heo,heso_cup,z_cup + real(kind=kind_phys), dimension (its:),intent (in) :: hkbo + integer, dimension (its:),intent (in) :: kstabi,k22,kbcon,kpbl,klcl + integer, dimension (its:),intent (inout) :: ierr,ktop !$acc declare copy(entr_rate_2d,zuo,ierr,ktop) copyin(p_cup, heo,heso_cup,z_cup,hkbo,kstabi,k22,kbcon,kpbl,klcl) - real(kind=kind_phys), dimension (its:ite,kts:kte) :: hcot + real(kind=kind_phys), dimension (its:,kts:) :: hcot !$acc declare create(hcot) character *(*), intent (in) :: name real(kind=kind_phys) :: dz,dh, dbythresh @@ -5644,7 +5642,7 @@ subroutine get_cloud_top(name,ktop,ierr,p_cup,entr_rate_2d,hkbo,heo,heso_cup,z_c kfinalzu=ktf-2 ktop(i)=kfinalzu if(ierr(i).eq.0)then - dby (kts:kte)=0.0 + dby (kts:)=0.0 start_level(i)=kbcon(i) !-- hcot below kbcon @@ -5704,16 +5702,16 @@ subroutine calculate_updraft_velocity(its,itf,ktf,ite,kts,kte,ierr,progsigma, implicit none logical, intent(in) :: progsigma integer, intent(in) :: itf,its,ktf,ite,kts,kte - integer, dimension (its:ite), intent(inout) :: ierr - real(kind=kind_phys), dimension (its:ite,kts:kte),intent (in) :: zo,entr_rate_2d, & + integer, dimension (its:), intent(inout) :: ierr + real(kind=kind_phys), dimension (its:,kts:),intent (in) :: zo,entr_rate_2d, & cd,po,qeso,to,qo,dbyo,clw_all,qlk,delp,zu - integer, dimension (its:ite),intent(in) :: k22,kbcon,ktcon + integer, dimension (its:),intent(in) :: k22,kbcon,ktcon real(kind=kind_phys), dimension (its:ite) :: sumx real(kind=kind_phys) ,intent (in) :: fv,rd,el2orc real(kind=kind_phys), dimension (its:ite,kts:kte) :: drag, buo, zi, del - real(kind=kind_phys), dimension (its:ite,kts:kte),intent (out) :: wu2,omega_u, & + real(kind=kind_phys), dimension (its:,kts:),intent (out) :: wu2,omega_u, & zeta,zdqca - real(kind=kind_phys), dimension (its:ite),intent(out) :: wc,omegac + real(kind=kind_phys), dimension (its:),intent(out) :: wc,omegac real(kind=kind_phys) :: rho,bb1,bb2,dz,dp,ptem,tem1,ptem1,tem,rfact,gamma,val integer :: i,k diff --git a/physics/cu_c3_driver.F90 b/physics/cu_c3_driver.F90 index fd4d37b0b..8592e08f9 100644 --- a/physics/cu_c3_driver.F90 +++ b/physics/cu_c3_driver.F90 @@ -340,8 +340,8 @@ subroutine cu_c3_driver_run(ntracer,garea,im,km,dt,flag_init,flag_restart,& ! !> - Set tuning constants for radiation coupling ! - tun_rad_shall(:)=.01 - tun_rad_mid(:)=.3 !.02 + tun_rad_shall(:)=.012 + tun_rad_mid(:)=.15 !.02 tun_rad_deep(:)=.3 !.065 edt(:)=0. edtm(:)=0. @@ -644,7 +644,6 @@ subroutine cu_c3_driver_run(ntracer,garea,im,km,dt,flag_init,flag_restart,& enddo !$acc end kernels if (dx(its)<6500.) then - ichoice=10 imid_gf=0 endif ! @@ -680,10 +679,6 @@ subroutine cu_c3_driver_run(ntracer,garea,im,km,dt,flag_init,flag_restart,& do i=its,itf if(xmbs(i).gt.0.)then cutens(i)=1. - if (dx(i)<6500.) then - ierrm(i)=555 - ierr (i)=555 - endif endif enddo !$acc end kernels @@ -954,38 +949,6 @@ subroutine cu_c3_driver_run(ntracer,garea,im,km,dt,flag_init,flag_restart,& !gdc(i,k,8)=(outq(i,k))*86400.*xlv/cp gdc(i,k,8)=(outqm(i,k)+outqs(i,k)+outq(i,k))*86400.*xlv/cp gdc(i,k,9)=gdc(i,k,2)+gdc(i,k,3)+gdc(i,k,4) -! -!> - Calculate subsidence effect on clw -! -! dsubclw=0. -! dsubclwm=0. -! dsubclws=0. -! dp=100.*(p2d(i,k)-p2d(i,k+1)) -! if (clcw(i,k) .gt. -999.0 .and. clcw(i,k+1) .gt. -999.0 )then -! clwtot = cliw(i,k) + clcw(i,k) -! clwtot1= cliw(i,k+1) + clcw(i,k+1) -! dsubclw=((-edt(i)*zd(i,k+1)+zu(i,k+1))*clwtot1 & -! -(-edt(i)*zd(i,k) +zu(i,k)) *clwtot )*g/dp -! dsubclwm=((-edtm(i)*zdm(i,k+1)+zum(i,k+1))*clwtot1 & -! -(-edtm(i)*zdm(i,k) +zum(i,k)) *clwtot )*g/dp -! dsubclws=(zus(i,k+1)*clwtot1-zus(i,k)*clwtot)*g/dp -! dsubclw=dsubclw+(zu(i,k+1)*clwtot1-zu(i,k)*clwtot)*g/dp -! dsubclwm=dsubclwm+(zum(i,k+1)*clwtot1-zum(i,k)*clwtot)*g/dp -! dsubclws=dsubclws+(zus(i,k+1)*clwtot1-zus(i,k)*clwtot)*g/dp -! endif -! tem = dt*(outqcs(i,k)*cutens(i)+outqc(i,k)*cuten(i) & -! +outqcm(i,k)*cutenm(i) & -! +dsubclw*xmb(i)+dsubclws*xmbs(i)+dsubclwm*xmbm(i) & -! ) -! tem1 = max(0.0, min(1.0, (tcr-t(i,k))*tcrf)) -! if (clcw(i,k) .gt. -999.0) then -! cliw(i,k) = max(0.,cliw(i,k) + tem * tem1) ! ice -! clcw(i,k) = max(0.,clcw(i,k) + tem *(1.0-tem1)) ! water -! else -! cliw(i,k) = max(0.,cliw(i,k) + tem) -! endif -! -! enddo !> - FCT treats subsidence effect to cloud ice/water (begin) dp=100.*(p2d(i,k)-p2d(i,k+1)) @@ -1041,8 +1004,8 @@ subroutine cu_c3_driver_run(ntracer,garea,im,km,dt,flag_init,flag_restart,& gdc(i,16,10)=pret(i)*3600. maxupmf(i)=0. - if(forcing(i,6).gt.0.)then - maxupmf(i)=maxval(xmb(i)*zu(i,kts:ktf)/forcing(i,6)) + if(forcing2(i,6).gt.0.)then + maxupmf(i)=maxval(xmb(i)*zu(i,kts:ktf)/forcing2(i,6)) endif if(ktop(i).gt.2 .and.pret(i).gt.0.)dt_mf(i,ktop(i)-1)=ud_mf(i,ktop(i)) diff --git a/physics/cu_c3_driver_post.F90 b/physics/cu_c3_driver_post.F90 index 74957a6b2..d5d2dee3b 100644 --- a/physics/cu_c3_driver_post.F90 +++ b/physics/cu_c3_driver_post.F90 @@ -66,20 +66,19 @@ subroutine cu_c3_driver_post_run (im, km, t, q, prevst, prevsq, cactiv, cactiv_m conv_act_m(i)=0.0 endif ! reflectivity parameterization for parameterized convection (reference:Unipost MDLFLD.f) - if(sqrt(garea(i)).lt.6500.)then ze = 0.0 ze_conv = 0.0 dbz_sum = 0.0 - cuprate = raincv(i) * 3600.0 / dt ! cu precip rate (mm/h) - ze_conv = 300.0 * cuprate**1.4 - if (maxupmf(i).gt.0.05) then + cuprate = 1.e3*raincv(i) * 3600.0 / dt ! cu precip rate (mm/h) + if(cuprate .lt. 0.05) cuprate=0. + ze_conv = 300.0 * cuprate**1.5 + if (maxupmf(i).gt.0.1 .and. cuprate.gt.0.) then do k = 1, km ze = 10._kind_phys ** (0.1 * refl_10cm(i,k)) dbz_sum = max(dbzmin, 10.0 * log10(ze + ze_conv)) refl_10cm(i,k) = dbz_sum enddo endif - endif enddo !$acc end kernels diff --git a/physics/cu_c3_sh.F90 b/physics/cu_c3_sh.F90 index 0ea0f28ae..a79e1dfcf 100644 --- a/physics/cu_c3_sh.F90 +++ b/physics/cu_c3_sh.F90 @@ -6,12 +6,12 @@ module cu_c3_sh use progsigma, only : progsigma_calc !real(kind=kind_phys), parameter:: c1_shal=0.0015! .0005 - real(kind=kind_phys), parameter:: c1_shal=0. !0.005! .0005 real(kind=kind_phys), parameter:: g =9.81 real(kind=kind_phys), parameter:: cp =1004. real(kind=kind_phys), parameter:: xlv=2.5e6 real(kind=kind_phys), parameter:: r_v=461. - real(kind=kind_phys), parameter:: c0_shal=.001 + real(kind=kind_phys) :: c0_shal=.004 + real(kind=kind_phys) :: c1_shal=0. !0.005! .0005 real(kind=kind_phys), parameter:: fluxtune=1.5 contains @@ -95,23 +95,23 @@ subroutine cu_c3_sh_run ( & ! outq = output q tendency (per s) ! outqc = output qc tendency (per s) ! pre = output precip - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (inout ) :: & cnvwt,outt,outq,outqc,cupclw,zuo,outu,outv !$acc declare copy(cnvwt,outt,outq,outqc,cupclw,zuo,outu,outv) - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (in ) :: & tmf, qmicro, sigmain, forceqv_spechum - real(kind=kind_phys), dimension (its:ite) & + real(kind=kind_phys), dimension (its:) & ,intent (out ) :: & xmb_out - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (inout ) :: & ierr - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (out ) :: & kbcon,ktop,k22 - integer, dimension (its:ite) & + integer, dimension (its:) & ,intent (in ) :: & kpbl,tropics !$acc declare copyout(xmb_out,kbcon,ktop,k22) copyin(kpbl,tropics) copy(ierr) @@ -119,13 +119,13 @@ subroutine cu_c3_sh_run ( & ! basic environmental input includes a flag (ierr) to turn off ! convection for this call only and at that particular gridpoint ! - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (in ) :: & t,po,tn,dhdt,rho,us,vs,delp - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (inout) :: & q,qo - real(kind=kind_phys), dimension (its:ite) & + real(kind=kind_phys), dimension (its:) & ,intent (in ) :: & xland,z1,psur,hfx,qfx,dx @@ -133,7 +133,7 @@ subroutine cu_c3_sh_run ( & ,intent (in ) :: & dtime,tcrit,fv,r_d !$acc declare sigmaout - real(kind=kind_phys), dimension (its:ite,kts:kte) & + real(kind=kind_phys), dimension (its:,kts:) & ,intent (out) :: & sigmaout @@ -245,7 +245,7 @@ subroutine cu_c3_sh_run ( & real(kind=kind_phys) buo_flux,pgeoh,dp,entup,detup,totmas real(kind=kind_phys) xff_shal(3),blqe,xkshal - character*50 :: ierrc(its:ite) + character*50 :: ierrc(its:) real(kind=kind_phys), dimension (its:ite,kts:kte) :: & up_massentr,up_massdetr,up_massentro,up_massdetro,up_massentru,up_massdetru !$acc declare create(up_massentr,up_massdetr,up_massentro,up_massdetro,up_massentru,up_massdetru) @@ -274,6 +274,8 @@ subroutine cu_c3_sh_run ( & ktopx(i)=0 if(xland(i).gt.1.5 .or. xland(i).lt.0.5)then xland1(i)=0 + c0_shal=.001 + c1_shal=.001 ! ierr(i)=100 endif pre(i)=0. @@ -669,11 +671,11 @@ subroutine cu_c3_sh_run ( & if(qco(i,k)>=trash ) then dz=z_cup(i,k)-z_cup(i,k-1) ! cloud liquid water - c1d(i,k)=.02*up_massdetr(i,k-1) + c1d(i,k)=c1_shal! 0. !.02*up_massdetr(i,k-1) qrco(i,k)= (qco(i,k)-trash)/(1.+(c0_shal+c1d(i,k))*dz) if(qrco(i,k).lt.0.)then ! hli new test 02/12/19 qrco(i,k)=0. - c1d(i,k)=0. + !c1d(i,k)=0. endif pwo(i,k)=c0_shal*dz*qrco(i,k)*zuo(i,k) clw_all(i,k)=qco(i,k)-trash !LB total cloud before rain and detrain diff --git a/physics/cu_gf_driver.F90 b/physics/cu_gf_driver.F90 index 3b700cc5a..d85b7ac52 100644 --- a/physics/cu_gf_driver.F90 +++ b/physics/cu_gf_driver.F90 @@ -644,7 +644,6 @@ subroutine cu_gf_driver_run(ntracer,garea,im,km,dt,flag_init,flag_restart,& enddo !$acc end kernels if (dx(its)<6500.) then -! ichoice=10 imid_gf=0 endif ! @@ -928,38 +927,6 @@ subroutine cu_gf_driver_run(ntracer,garea,im,km,dt,flag_init,flag_restart,& !gdc(i,k,8)=(outq(i,k))*86400.*xlv/cp gdc(i,k,8)=(outqm(i,k)+outqs(i,k)+outq(i,k))*86400.*xlv/cp gdc(i,k,9)=gdc(i,k,2)+gdc(i,k,3)+gdc(i,k,4) -! -!> - Calculate subsidence effect on clw -! -! dsubclw=0. -! dsubclwm=0. -! dsubclws=0. -! dp=100.*(p2d(i,k)-p2d(i,k+1)) -! if (clcw(i,k) .gt. -999.0 .and. clcw(i,k+1) .gt. -999.0 )then -! clwtot = cliw(i,k) + clcw(i,k) -! clwtot1= cliw(i,k+1) + clcw(i,k+1) -! dsubclw=((-edt(i)*zd(i,k+1)+zu(i,k+1))*clwtot1 & -! -(-edt(i)*zd(i,k) +zu(i,k)) *clwtot )*g/dp -! dsubclwm=((-edtm(i)*zdm(i,k+1)+zum(i,k+1))*clwtot1 & -! -(-edtm(i)*zdm(i,k) +zum(i,k)) *clwtot )*g/dp -! dsubclws=(zus(i,k+1)*clwtot1-zus(i,k)*clwtot)*g/dp -! dsubclw=dsubclw+(zu(i,k+1)*clwtot1-zu(i,k)*clwtot)*g/dp -! dsubclwm=dsubclwm+(zum(i,k+1)*clwtot1-zum(i,k)*clwtot)*g/dp -! dsubclws=dsubclws+(zus(i,k+1)*clwtot1-zus(i,k)*clwtot)*g/dp -! endif -! tem = dt*(outqcs(i,k)*cutens(i)+outqc(i,k)*cuten(i) & -! +outqcm(i,k)*cutenm(i) & -! +dsubclw*xmb(i)+dsubclws*xmbs(i)+dsubclwm*xmbm(i) & -! ) -! tem1 = max(0.0, min(1.0, (tcr-t(i,k))*tcrf)) -! if (clcw(i,k) .gt. -999.0) then -! cliw(i,k) = max(0.,cliw(i,k) + tem * tem1) ! ice -! clcw(i,k) = max(0.,clcw(i,k) + tem *(1.0-tem1)) ! water -! else -! cliw(i,k) = max(0.,cliw(i,k) + tem) -! endif -! -! enddo !> - FCT treats subsidence effect to cloud ice/water (begin) dp=100.*(p2d(i,k)-p2d(i,k+1)) @@ -1015,8 +982,8 @@ subroutine cu_gf_driver_run(ntracer,garea,im,km,dt,flag_init,flag_restart,& gdc(i,16,10)=pret(i)*3600. maxupmf(i)=0. - if(forcing(i,6).gt.0.)then - maxupmf(i)=maxval(xmb(i)*zu(i,kts:ktf)/forcing(i,6)) + if(forcing2(i,6).gt.0.)then + maxupmf(i)=maxval(xmb(i)*zu(i,kts:ktf)/forcing2(i,6)) endif if(ktop(i).gt.2 .and.pret(i).gt.0.)dt_mf(i,ktop(i)-1)=ud_mf(i,ktop(i)) diff --git a/physics/cu_gf_driver_post.F90 b/physics/cu_gf_driver_post.F90 index 56da0feba..5adf3ac42 100644 --- a/physics/cu_gf_driver_post.F90 +++ b/physics/cu_gf_driver_post.F90 @@ -66,20 +66,19 @@ subroutine cu_gf_driver_post_run (im, km, t, q, prevst, prevsq, cactiv, cactiv_m conv_act_m(i)=0.0 endif ! reflectivity parameterization for parameterized convection (reference:Unipost MDLFLD.f) - if(sqrt(garea(i)).lt.6500.)then ze = 0.0 ze_conv = 0.0 dbz_sum = 0.0 - cuprate = raincv(i) * 3600.0 / dt ! cu precip rate (mm/h) - ze_conv = 300.0 * cuprate**1.4 - if (maxupmf(i).gt.0.05) then + cuprate = 1.e3*raincv(i) * 3600.0 / dt ! cu precip rate (mm/h) + if(cuprate .lt. 0.05) cuprate=0. + ze_conv = 300.0 * cuprate**1.5 + if (maxupmf(i).gt.0.1 .and. cuprate.gt.0.) then do k = 1, km ze = 10._kind_phys ** (0.1 * refl_10cm(i,k)) dbz_sum = max(dbzmin, 10.0 * log10(ze + ze_conv)) refl_10cm(i,k) = dbz_sum enddo endif - endif enddo !$acc end kernels diff --git a/physics/noahmp_tables.f90 b/physics/noahmp_tables.f90 index 3b06d7f53..753c8ff24 100644 --- a/physics/noahmp_tables.f90 +++ b/physics/noahmp_tables.f90 @@ -484,6 +484,9 @@ subroutine read_mp_table_parameters(errmsg, errflg) sr2006_psi_e_a, sr2006_psi_e_b, sr2006_psi_e_c, sr2006_smcmax_a, & sr2006_smcmax_b + errmsg = '' + errflg = 0 + ! initialize our variables to bad values, so that if the namelist read fails, we come to a screeching halt as soon as we try to use anything. ! vegetation parameters isurban_table = -99999 @@ -783,7 +786,7 @@ subroutine read_mp_table_parameters(errmsg, errflg) open(15, status='old', form='formatted', action='read', iostat=ierr) end if if ( ierr /= 0 ) then - errmsg = 'warning: cannot find file noahmptable.tb' + errmsg = 'warning: cannot find file noahmptable.tbl' errflg = 1 return ! write(*,'("warning: cannot find file noahmptable.tbl")') @@ -914,7 +917,7 @@ subroutine read_mp_table_parameters(errmsg, errflg) open(15, status='old', form='formatted', action='read', iostat=ierr) end if if ( ierr /= 0 ) then - errmsg = 'warning: cannot find file noahmptable.tb' + errmsg = 'warning: cannot find file noahmptable.tbl' errflg = 1 return ! write(*,'("warning: cannot find file noahmptable.tbl")') @@ -957,7 +960,7 @@ subroutine read_mp_table_parameters(errmsg, errflg) open(15, status='old', form='formatted', action='read', iostat=ierr) end if if ( ierr /= 0 ) then - errmsg = 'warning: cannot find file noahmptable.tb' + errmsg = 'warning: cannot find file noahmptable.tbl' errflg = 1 return ! write(*,'("warning: cannot find file noahmptable.tbl")') @@ -982,7 +985,7 @@ subroutine read_mp_table_parameters(errmsg, errflg) open(15, status='old', form='formatted', action='read', iostat=ierr) end if if (ierr /= 0) then - errmsg = 'warning: cannot find file noahmptable.tb' + errmsg = 'warning: cannot find file noahmptable.tbl' errflg = 1 return ! write(*,'("warning: cannot find file noahmptable.tbl")') @@ -1011,7 +1014,7 @@ subroutine read_mp_table_parameters(errmsg, errflg) open(15, status='old', form='formatted', action='read', iostat=ierr) end if if (ierr /= 0) then - errmsg = 'warning: cannot find file noahmptable.tb' + errmsg = 'warning: cannot find file noahmptable.tbl' errflg = 1 return ! write(*,'("warning: cannot find file noahmptable.tbl")') @@ -1069,7 +1072,7 @@ subroutine read_mp_table_parameters(errmsg, errflg) open(15, status='old', form='formatted', action='read', iostat=ierr) end if if (ierr /= 0) then - errmsg = 'warning: cannot find file noahmptable.tb' + errmsg = 'warning: cannot find file noahmptable.tbl' errflg = 1 return ! write(*,'("warning: cannot find file noahmptable.tbl")') @@ -1096,7 +1099,7 @@ subroutine read_mp_table_parameters(errmsg, errflg) open(15, status='old', form='formatted', action='read', iostat=ierr) end if if (ierr /= 0) then - errmsg = 'warning: cannot find file noahmptable.tb' + errmsg = 'warning: cannot find file noahmptable.tbl' errflg = 1 return ! write(*,'("warning: cannot find file noahmptable.tbl")') @@ -1249,7 +1252,7 @@ subroutine read_mp_table_parameters(errmsg, errflg) open(15, status='old', form='formatted', action='read', iostat=ierr) end if if (ierr /= 0) then - errmsg = 'warning: cannot find file noahmptable.tb' + errmsg = 'warning: cannot find file noahmptable.tbl' errflg = 1 return ! write(*,'("warning: cannot find file noahmptable.tbl")') @@ -1278,7 +1281,7 @@ subroutine read_mp_table_parameters(errmsg, errflg) open(15, status='old', form='formatted', action='read', iostat=ierr) end if if (ierr /= 0) then - errmsg = 'warning: cannot find file noahmptable.tb' + errmsg = 'warning: cannot find file noahmptable.tbl' errflg = 1 return ! write(*,'("warning: cannot find file noahmptable.tbl")') diff --git a/physics/set_soilveg.f b/physics/set_soilveg.f index 37f2c2a73..35f4ace37 100644 --- a/physics/set_soilveg.f +++ b/physics/set_soilveg.f @@ -44,6 +44,9 @@ subroutine set_soilveg(me,isot,ivet,nlunit,errmsg,errflg) & DEFINED_SLOPE, FXEXP_DATA, NROOT_DATA, REFKDT_DATA, Z0_DATA, & CZIL_DATA, LAI_DATA, CSOIL_DATA + errmsg = '' + errflg = 0 + cmy end locals if(ivet.eq.2) then diff --git a/physics/smoke_dust/dust_data_mod.F90 b/physics/smoke_dust/dust_data_mod.F90 index a710701f1..eb809378d 100755 --- a/physics/smoke_dust/dust_data_mod.F90 +++ b/physics/smoke_dust/dust_data_mod.F90 @@ -44,24 +44,10 @@ module dust_data_mod ! Never used: ! real(kind_phys), parameter :: fengsha_alpha = 0.3 ! real(kind_phys), parameter :: fengsha_gamma = 1.3 + ! -- FENGSHA threshold velocities based on Dale A. Gillette's data integer, parameter :: fengsha_maxstypes = 13 -! real(kind_phys), dimension(fengsha_maxstypes) :: dust_uthres = & -! (/ 0.065, & ! Sand - 1 -! 0.20, & ! Loamy Sand - 2 -! 0.52, & ! Sandy Loam - 3 -! 0.50, & ! Silt Loam - 4 -! 0.50, & ! Silt - 5 -! 0.60, & ! Loam - 6 -! 0.73, & ! Sandy Clay Loam - 7 -! 0.73, & ! Silty Clay Loam - 8 -! 0.80, & ! Clay Loam - 9 -! 0.95, & ! Sandy Clay - 10 -! 0.95, & ! Silty Clay - 11 -! 1.00, & ! Clay - 12 -! 9.999 /) ! Other - 13 -! dust_uthres = 0.065, 0.18, 0.27, 0.30, 0.35, 0.38, 0.35, 0.41, 0.41, -! 0.45,0.50,0.45,9999.0 + real(kind_phys), dimension(fengsha_maxstypes), parameter :: dust_uthres = & (/ 0.065, & ! Sand - 1 0.18, & ! Loamy Sand - 2 @@ -76,12 +62,16 @@ module dust_data_mod 0.50, & ! Silty Clay - 11 0.45, & ! Clay - 12 9999.0 /) ! Other - 13 - ! -- FENGSHA uses precalculated drag partition from ASCAT. See: Prigent et al. (2012,2015) - integer, parameter :: dust_calcdrag = 1 - real(kind_phys) :: dust_alpha = 2.2 + ! -- FENGSHA uses precalculated drag partition + integer, parameter :: dust_calcdrag = 1 + ! -- FENGSHA dust moisture parameterization 1:fecan - 2:shao + integer :: dust_moist_opt = 1 + + real(kind_phys) :: dust_alpha = 1.0 real(kind_phys) :: dust_gamma = 1.0 - + real(kind_phys) :: dust_moist_correction = 1.0 + real(kind_phys) :: dust_drylimit_factor = 1.0 ! -- sea salt parameters integer, dimension(nsalt), parameter :: spoint = (/ 1, 2, 2, 2, 2, 2, 3, 3, 3 /) ! 1 Clay, 2 Silt, 3 Sand @@ -93,7 +83,7 @@ module dust_data_mod (/ 1., 0.2, 0.2, 0.2, 0.2, 0.2, 0.333, 0.333, 0.333 /) - ! -- soil vagatation parameters + ! -- soil vegatation parameters integer, parameter :: max_soiltyp = 30 real(kind_phys), dimension(max_soiltyp), parameter :: & maxsmc = (/ 0.421, 0.464, 0.468, 0.434, 0.406, 0.465, & diff --git a/physics/smoke_dust/dust_fengsha_mod.F90 b/physics/smoke_dust/dust_fengsha_mod.F90 index 54a64239d..1e24c8947 100755 --- a/physics/smoke_dust/dust_fengsha_mod.F90 +++ b/physics/smoke_dust/dust_fengsha_mod.F90 @@ -61,6 +61,8 @@ subroutine gocart_dust_fengsha_driver(dt, & REAL(kind_phys), INTENT(IN) :: dt ! time step REAL(kind_phys), INTENT(IN) :: g ! gravity (m/s**2) + + ! Local variables integer :: nmx,i,j,k,imx,jmx,lmx integer :: ilwi @@ -75,6 +77,7 @@ subroutine gocart_dust_fengsha_driver(dt, & real(kind_phys), DIMENSION (num_emis_dust) :: distribution real(kind_phys), dimension (3) :: massfrac real(kind_phys) :: erodtot + real(kind_phys) :: moist_volumetric ! conversion values conver=1.e-9 @@ -174,10 +177,13 @@ subroutine gocart_dust_fengsha_driver(dt, & endif endif + ! soil moisture correction factor + moist_volumetric = dust_moist_correction * smois(i,2,j) + ! Call dust emission routine. call source_dust(imx,jmx, lmx, nmx, dt, tc, ustar, massfrac, & - erodtot, dxy, smois(i,1,j), airden, airmas, bems, g, dust_alpha, dust_gamma, & + erodtot, dxy, moist_volumetric, airden, airmas, bems, g, dust_alpha, dust_gamma, & R, uthr(i,j)) ! convert back to concentration @@ -457,10 +463,16 @@ subroutine DustEmissionFENGSHA(slc, clay, sand, silt, & ! Now compute size-dependent total emission flux ! ---------------------------------------------- - ! Fecan moisture correction - ! ------------------------- - h = moistureCorrectionFecan(slc, sand, clay, rhop) - + + if (dust_moist_opt .eq. 1) then + + ! Fecan moisture correction + ! ------------------------- + h = moistureCorrectionFecan(slc, sand, clay) + else + ! shao soil moisture correction + h = moistureCorrectionShao(slc) + end if ! Adjust threshold ! ---------------- u_thresh = uthrs * h @@ -478,7 +490,7 @@ subroutine DustEmissionFENGSHA(slc, clay, sand, silt, & end subroutine DustEmissionFENGSHA !----------------------------------------------------------------- - real function soilMoistureConvertVol2Grav(vsoil, sandfrac, rhop) + real function soilMoistureConvertVol2Grav(vsoil, sandfrac) ! !USES: implicit NONE @@ -486,7 +498,6 @@ real function soilMoistureConvertVol2Grav(vsoil, sandfrac, rhop) ! !INPUT PARAMETERS: REAL(kind_phys), intent(in) :: vsoil ! volumetric soil moisture fraction [1] REAL(kind_phys), intent(in) :: sandfrac ! fractional sand content [1] - REAL(kind_phys), intent(in) :: rhop ! dry dust density [kg m-3] ! !DESCRIPTION: Convert soil moisture fraction from volumetric to gravimetric. ! @@ -500,20 +511,21 @@ real function soilMoistureConvertVol2Grav(vsoil, sandfrac, rhop) ! !CONSTANTS: REAL(kind_phys), parameter :: rhow = 1000. ! density of water [kg m-3] - + REAL(kind_phys), parameter :: rhop = 1700. ! density of dry soil !EOP !------------------------------------------------------------------------- ! Begin... ! Saturated volumetric water content (sand-dependent) ! [m3 m-3] - vsat = 0.489 - 0.00126 * ( 100. * sandfrac ) + vsat = 0.489 - 0.126 * sandfrac + ! Gravimetric soil content - soilMoistureConvertVol2Grav = vsoil * rhow / (rhop * (1. - vsat)) + soilMoistureConvertVol2Grav = 100.0 * (vsoil * rhow / rhop / ( 1. - vsat)) end function soilMoistureConvertVol2Grav !---------------------------------------------------------------- - real function moistureCorrectionFecan(slc, sand, clay, rhop) + real function moistureCorrectionFecan(slc, sand, clay) ! !USES: implicit NONE @@ -522,7 +534,6 @@ real function moistureCorrectionFecan(slc, sand, clay, rhop) REAL(kind_phys), intent(in) :: slc ! liquid water content of top soil layer, volumetric fraction [1] REAL(kind_phys), intent(in) :: sand ! fractional sand content [1] REAL(kind_phys), intent(in) :: clay ! fractional clay content [1] - REAL(kind_phys), intent(in) :: rhop ! dry dust density [kg m-3] ! !DESCRIPTION: Compute correction factor to account for Fecal soil moisture ! @@ -540,15 +551,46 @@ real function moistureCorrectionFecan(slc, sand, clay, rhop) ! Begin... ! Convert soil moisture from volumetric to gravimetric - grvsoilm = soilMoistureConvertVol2Grav(slc, sand, 2650.) + grvsoilm = soilMoistureConvertVol2Grav(slc, sand) ! Compute fecan dry limit - drylimit = clay * (14.0 * clay + 17.0) + drylimit = dust_drylimit_factor * clay * (14.0 * clay + 17.0) ! Compute soil moisture correction moistureCorrectionFecan = sqrt(1.0 + 1.21 * max(0., grvsoilm - drylimit)**0.68) end function moistureCorrectionFecan +!---------------------------------------------------------------- + real function moistureCorrectionShao(slc) + +! !USES: + implicit NONE + +! !INPUT PARAMETERS: + REAL(kind_phys), intent(in) :: slc ! liquid water content of top soil layer, volumetric fraction [1] + +! !DESCRIPTION: Compute correction factor to account for Fecal soil moisture +! +! !REVISION HISTORY: +! +! 02Apr2020, B.Baker/NOAA - Original implementation +! 01Apr2020, R.Montuoro/NOAA - Adapted for GOCART process library + +! !Local Variables + real :: grvsoilm + real :: drylimit + +!EOP +!--------------------------------------------------------------- +! Begin... + + if (slc < 0.03) then + moistureCorrectionShao = exp(22.7 * slc) + else + moistureCorrectionShao = exp(95.3 * slc - 2.029) + end if + + end function moistureCorrectionShao !--------------------------------------------------------------- real function DustFluxV2HRatioMB95(clay, kvhmax) diff --git a/physics/smoke_dust/rrfs_smoke_wrapper.F90 b/physics/smoke_dust/rrfs_smoke_wrapper.F90 index 1f9ef6340..7b69fc9e3 100755 --- a/physics/smoke_dust/rrfs_smoke_wrapper.F90 +++ b/physics/smoke_dust/rrfs_smoke_wrapper.F90 @@ -12,7 +12,8 @@ module rrfs_smoke_wrapper num_moist, num_chem, num_emis_seas, num_emis_dust, & DUST_OPT_FENGSHA, p_qv, p_atm_shum, p_atm_cldq, & p_smoke, p_dust_1, p_coarse_pm, epsilc - use dust_data_mod, only : dust_alpha, dust_gamma + use dust_data_mod, only : dust_alpha, dust_gamma, dust_moist_opt, & + dust_moist_correction, dust_drylimit_factor use plume_data_mod, only : p_frp_std, p_frp_hr, num_frp_plume use seas_mod, only : gocart_seasalt_driver use dust_fengsha_mod, only : gocart_dust_fengsha_driver @@ -49,6 +50,7 @@ subroutine rrfs_smoke_wrapper_run(im, kte, kme, ktau, dt, garea, land, jdate, ebb_smoke_hr, frp_hr, frp_std_hr, & coef_bb, ebu_smoke,fhist, min_fplume, max_fplume, hwp, wetness, & smoke_ext, dust_ext, ndvel, ddvel_inout,rrfs_sd, & + dust_moist_opt_in, dust_moist_correction_in, dust_drylimit_factor_in, & dust_alpha_in, dust_gamma_in, fire_in, & seas_opt_in, dust_opt_in, drydep_opt_in, coarsepm_settling_in, & do_plumerise_in, plumerisefire_frq_in, addsmoke_flag_in, & @@ -91,12 +93,15 @@ subroutine rrfs_smoke_wrapper_run(im, kte, kme, ktau, dt, garea, land, jdate, real(kind_phys), dimension(:,:), intent(out) :: smoke_ext, dust_ext real(kind_phys), dimension(:,:), intent(inout) :: nwfa, nifa real(kind_phys), dimension(:,:), intent(inout) :: ddvel_inout - real (kind=kind_phys), dimension(:), intent(in) :: wetness - integer, intent(in ) :: imp_physics, imp_physics_thompson - real (kind=kind_phys), intent(in) :: dust_alpha_in, dust_gamma_in, wetdep_ls_alpha_in - integer, intent(in) :: seas_opt_in, dust_opt_in, drydep_opt_in, & - coarsepm_settling_in, plumerisefire_frq_in, & - addsmoke_flag_in, wetdep_ls_opt_in + real(kind_phys), dimension(:), intent(in) :: wetness + real(kind_phys), intent(in) :: dust_alpha_in, dust_gamma_in, wetdep_ls_alpha_in + real(kind_phys), intent(in) :: dust_moist_correction_in + real(kind_phys), intent(in) :: dust_drylimit_factor_in + integer, intent(in) :: dust_moist_opt_in + integer, intent(in) :: imp_physics, imp_physics_thompson + integer, intent(in) :: seas_opt_in, dust_opt_in, drydep_opt_in, & + coarsepm_settling_in, plumerisefire_frq_in, & + addsmoke_flag_in, wetdep_ls_opt_in logical, intent(in ) :: do_plumerise_in, rrfs_sd character(len=*), intent(out) :: errmsg integer, intent(out) :: errflg @@ -314,6 +319,9 @@ subroutine rrfs_smoke_wrapper_run(im, kte, kme, ktau, dt, garea, land, jdate, ! Set at compile time in dust_data_mod: dust_alpha = dust_alpha_in dust_gamma = dust_gamma_in + dust_moist_opt = dust_moist_opt_in + dust_moist_correction = dust_moist_correction_in + dust_drylimit_factor = dust_drylimit_factor_in call gocart_dust_fengsha_driver(dt,chem,rho_phy,smois,p8w,ssm, & isltyp,vegfrac,snowh,xland,dxy,g,emis_dust,ust,znt, & clayf,sandf,rdrag,uthr, & diff --git a/physics/smoke_dust/rrfs_smoke_wrapper.meta b/physics/smoke_dust/rrfs_smoke_wrapper.meta index bf2fddd60..cddc20fbc 100755 --- a/physics/smoke_dust/rrfs_smoke_wrapper.meta +++ b/physics/smoke_dust/rrfs_smoke_wrapper.meta @@ -210,17 +210,17 @@ kind = kind_phys intent = in [nsoil] - standard_name = vertical_dimension_of_soil - long_name = soil vertical layer dimension + standard_name = vertical_dimension_of_soil_internal_to_land_surface_scheme + long_name = number of soil layers internal to land surface model units = count dimensions = () type = integer intent = in [smc] - standard_name = volume_fraction_of_condensed_water_in_soil - long_name = volumetric fraction of soil moisture + standard_name = volume_fraction_of_soil_moisture_for_land_surface_model + long_name = volumetric fraction of soil moisture for lsm units = frac - dimensions = (horizontal_loop_extent,vertical_dimension_of_soil) + dimensions = (horizontal_loop_extent,vertical_dimension_of_soil_internal_to_land_surface_scheme) type = real kind = kind_phys intent = inout @@ -612,6 +612,32 @@ dimensions = () type = logical intent = in +[dust_moist_opt_in] + standard_name = control_for_dust_soil_moisture_option + long_name = smoke dust moisture parameterization 1 - fecan 2 - shao + units = index + dimensions = () + type = integer + active = (do_smoke_coupling) + intent = in +[dust_moist_correction_in] + standard_name = dust_moist_correction_fengsha_dust_scheme + long_name = moisture correction term for fengsha dust emission + units = none + dimensions = () + type = real + kind = kind_phys + active = (do_smoke_coupling) + intent = in +[dust_drylimit_factor_in] + standard_name = dust_drylimit_factor_fengsha_dust_scheme + long_name = moisture correction term for drylimit in fengsha dust emission + units = none + dimensions = () + type = real + kind = kind_phys + active = (do_smoke_coupling) + intent = in [dust_alpha_in] standard_name = alpha_fengsha_dust_scheme long_name = alpha paramter for fengsha dust scheme