! source file: /sfs/fs6/home-geomar/smomw258/UVic_ESCM/2.9/updates/02/source/mtlm/mtlmio.F subroutine mtlmout (is, ie, js, je) !----------------------------------------------------------------------- ! Output routine for the mtlm !----------------------------------------------------------------------- implicit none include "size.h" include "param.h" include "pconst.h" include "stdunits.h" include "calendar.h" include "coord.h" include "grdvar.h" include "mtlm.h" include "csbc.h" include "cembm.h" include "iounit.h" include "switch.h" include "tmngr.h" character(120) :: fname character(32) :: nstamp integer is, ie, js, je, ntrec integer nyear, nmonth, nday, nhour, nmin, nsec real time, tmp if (tsits .and. ntatil .ne. 0) then call ta_mtlm_tsi (is, ie, js, je, 2) time = year0 + accel_yr0 + (relyr - accel_yr0)*accel call rdstmp (stamp, nyear, nmonth, nday, nhour, nmin, nsec) nyear = time call mkstmp (nstamp, nyear, nmonth, nday, nhour, nmin, nsec) call def_tsi call def_tsi_mtlm (fname) ! convert from kg to Pg tai_clnd = (tai_CV + tai_CS)*1.e-12 ! convert from kg s-1 to Pg year-1 tai_cfa2l = (tai_NPP - tai_RESP_S - tai_BURN) & *1.e-12*yrlen*daylen call mtlm_tsi_out (fname, avgpertsi, avgtimtsi, nstamp, tai_CS &, tai_RESP_S, tai_LIT_C_T, tai_BURN, tai_CV, tai_NPP, tai_GPP &, tai_HT, tai_LAI, tai_LYING_SNOW, tai_TSOIL, tai_TSTAR &, tai_M, tai_ET, tai_clnd, tai_cfa2l, ntrec) call ta_mtlm_tsi (is, ie, js, je, 0) endif if (timavgts .and. ntatsl .ne. 0) then !----------------------------------------------------------------------- ! write atmospheric time averaged data !----------------------------------------------------------------------- ! calculate average values call ta_mtlm_tavg (is, ie, js, je, 2) ! write time averaged data time = year0 + accel_yr0 + (relyr - accel_yr0)*accel call rdstmp (stamp, nyear, nmonth, nday, nhour, nmin, nsec) nyear = time call mkstmp (nstamp, nyear, nmonth, nday, nhour, nmin, nsec) call def_tavg call def_tavg_mtlm (fname) call mtlm_tavg_out (fname, is, ie, js, je, imt, jmt &, POINTS, NPFT, NTYPE, xt, yt, xu, yu, dxt, dyt, dxu, dyu &, avgpertavg, avgtimtavg, nstamp, land_map, ta_TS1, ta_CS &, ta_RESP_S, ta_LIT_C_T, ta_BURN, ta_FRAC, ta_GPP, ta_NPP &, ta_HT, ta_LAI, ta_C_VEG &, tlat, tlon, tgarea, ntrec) write (*,'(a,i5,a,a,a,a)') '=> Lnd time means #' &, ntrec, ' written to ',trim(fname),' on ', stamp ! zero time average accumulators call ta_mtlm_tavg (is, ie, js, je, 0) endif if (restrt) then if (restts) then call def_rest (0) call def_rest_mtlm (0, fname) call mtlm_rest_out (fname, is, ie, js, je) endif if (eorun) then call def_rest (1) call def_rest_mtlm (1, fname) call mtlm_rest_out (fname, is, ie, js, je) endif endif return end subroutine ta_mtlm_tavg (is, ie, js, je, iflag) !======================================================================= ! land data time averaging ! input: ! is, ie, js, je = starting and ending indicies for i and j ! iflag = flag (0 = zero, 1 = accumulate, 2 = write) !======================================================================= implicit none include "size.h" include "mtlm.h" include "csbc.h" include "switch.h" integer i, is, ie, j, js, je, iflag, L, n real rntatsl !----------------------------------------------------------------------- ! time averaged data !----------------------------------------------------------------------- if (iflag .eq. 0.) then ! zero ntatsl = 0 ta_TS1(:) = 0. ta_TSTAR_GB(:) = 0. ta_M(:) = 0. ta_CS(:) = 0. ta_RESP_S(:) = 0. ta_LIT_C_T(:) = 0. ta_BURN(:) = 0. ta_GPP(:,:) = 0. ta_NPP(:,:) = 0. ta_HT(:,:) = 0. ta_LAI(:,:) = 0. ta_C_VEG(:,:) = 0. ta_LYING_SNOW(:) = 0. ta_SURF_ROFF(:) = 0. ta_FRAC(:,:) = 0. elseif (iflag .eq. 1) then ! accumulate ntatsl = ntatsl + 1 ta_TS1(:) = ta_TS1(:) + TS1(:) ta_TSTAR_GB(:) = ta_TSTAR_GB(:) + TSTAR_GB(:) ta_M(:) = ta_M(:) + M(:) ta_CS(:) = ta_CS(:) + CS(:) ta_RESP_S(:) = ta_RESP_S(:) + RESP_S(:) ta_LIT_C_T(:) = ta_LIT_C_T(:) + LIT_C_T(:) do j=js,je do i=is,ie L = land_map(i,j) if (L .ne. 0) then ta_BURN(L) = ta_BURN(L) + sbc(i,j,iburn) endif enddo enddo do n=1,NPFT ta_GPP(:,n) = ta_GPP(:,n) + GPP(:,n)*FRAC(:,n) ta_NPP(:,n) = ta_NPP(:,n) + NPP(:,n)*FRAC(:,n) ta_HT(:,n) = ta_HT(:,n) + HT(:,n)*FRAC(:,n) ta_LAI(:,n) = ta_LAI(:,n) + LAI(:,n)*FRAC(:,n) ta_C_VEG(:,n) = ta_C_VEG(:,n) + C_VEG(:,n)*FRAC(:,n) enddo ta_LYING_SNOW(:) = ta_LYING_SNOW(:) + LYING_SNOW(:) ta_SURF_ROFF(:) = ta_SURF_ROFF(:) + SURF_ROFF(:) ta_FRAC(:,:) = ta_FRAC(:,:) + FRAC(:,:) elseif (iflag .eq. 2 .and. ntatsl .ne. 0) then ! average rntatsl = 1./float(ntatsl) ta_TS1(:) = ta_TS1(:)*rntatsl ta_TSTAR_GB(:) = ta_TSTAR_GB(:) *rntatsl ta_M(:) = ta_M(:)*rntatsl ta_CS(:) = ta_CS(:)*rntatsl ta_RESP_S(:) = ta_RESP_S(:)*rntatsl ta_LIT_C_T(:) = ta_LIT_C_T(:)*rntatsl/SEC_YEAR ta_BURN(:) = ta_BURN(:)*rntatsl ta_GPP(:,:) = ta_GPP(:,:)*rntatsl ta_NPP(:,:) = ta_NPP(:,:)*rntatsl ta_HT(:,:) = ta_HT(:,:)*rntatsl ta_LAI(:,:) = ta_LAI(:,:)*rntatsl ta_C_VEG(:,:) = ta_C_VEG(:,:)*rntatsl ta_LYING_SNOW(:) = ta_LYING_SNOW(:)*rntatsl ta_SURF_ROFF(:) = ta_SURF_ROFF(:)*rntatsl ta_FRAC(:,:) = ta_FRAC(:,:)*rntatsl endif return end subroutine ta_mtlm_tsi (is, ie, js, je, iflag) !======================================================================= ! land data time integral averaging ! input: ! is, ie, js, je = starting and ending indicies for i and j ! iflag = flag (0 = zero, 1 = accumulate, 2 = write) !======================================================================= implicit none include "size.h" include "csbc.h" include "mtlm.h" include "switch.h" integer is, ie, js, je, iflag, n real rntatil, data(imt,jmt), dmsk(imt,jmt), wt(imt, jmt), tmp !----------------------------------------------------------------------- ! time averaged integrated data !----------------------------------------------------------------------- if (iflag .eq. 0.) then ! zero ntatil = 0 tai_CS = 0 tai_RESP_S = 0 tai_LIT_C_T = 0 tai_BURN = 0 tai_CV = 0 tai_NPP = 0 tai_GPP = 0 tai_HT = 0 tai_LAI = 0 tai_LYING_SNOW = 0 tai_TSOIL = 0 tai_TSTAR = 0 tai_M = 0 tai_ET = 0 elseif (iflag .eq. 1) then ! set data mask dmsk(:,:) = 1. where (land_map(:,:) .eq. 0) dmsk(:,:) = 0. ! accumulate ntatil = ntatil + 1 call unloadland (POINTS, CS, imt, jmt, land_map, data) call areatot (data, dmsk, tmp) ! convert area to m2 tai_CS = tai_CS + tmp*1.e-4 call unloadland (POINTS, RESP_S, imt, jmt, land_map, data) call areatot (data, dmsk, tmp) ! convert area to m2 tai_RESP_S = tai_RESP_S + tmp*1.e-4 call unloadland (POINTS, LIT_C_T, imt, jmt, land_map, data) call areatot (data, dmsk, tmp) ! convert area to m2 tai_LIT_C_T = tai_LIT_C_T + tmp*1.e-4 call areatot (sbc(:,:,iburn), dmsk, tmp) ! convert area to m2 tai_BURN = tai_BURN + tmp*1.e-4 call unloadland (POINTS, CV, imt, jmt, land_map, data) call areatot (data, dmsk, tmp) ! convert area to m2 tai_CV = tai_CV + tmp*1.e-4 do n=1,NPFT call unloadland (POINTS, FRAC(1,n), imt, jmt, land_map, wt) call unloadland (POINTS, NPP(1,n), imt, jmt, land_map, data) data(:,:) = data(:,:)*wt(:,:) call areatot (data, dmsk, tmp) ! convert area to m2 tai_NPP = tai_NPP + tmp*1.e-4 call unloadland (POINTS, GPP(1,n), imt, jmt, land_map, data) data(:,:) = data(:,:)*wt(:,:) call areatot (data, dmsk, tmp) ! convert area to m2 tai_GPP = tai_GPP + tmp*1.e-4 call unloadland (POINTS, HT(1,n), imt, jmt, land_map, data) data(:,:) = data(:,:)*wt(:,:) call areaavg (data, dmsk, tmp) tai_HT = tai_HT + tmp call unloadland (POINTS, LAI(1,n), imt, jmt, land_map, data) data(:,:) = data(:,:)*wt(:,:) call areaavg (data, dmsk, tmp) tai_LAI = tai_LAI + tmp enddo call unloadland (POINTS, LYING_SNOW, imt, jmt, land_map, data) call areatot (data, dmsk, tmp) ! convert area to m2 tai_LYING_SNOW = tai_LYING_SNOW + tmp*1.e-4 call unloadland (POINTS, TS1, imt, jmt, land_map, data) call areaavg (data, dmsk, tmp) tai_TSOIL = tai_TSOIL + tmp call unloadland (POINTS, TSTAR_GB, imt, jmt, land_map, data) call areaavg (data, dmsk, tmp) tai_TSTAR = tai_TSTAR + tmp call unloadland (POINTS, M, imt, jmt, land_map, data) call areaavg (data, dmsk, tmp) tai_M = tai_M + tmp call unloadland (POINTS, ET, imt, jmt, land_map, data) call areaavg (data, dmsk, tmp) tai_ET = tai_ET + tmp elseif (iflag .eq. 2 .and. ntatil .ne. 0) then ! average rntatil = 1./float(ntatil) tai_CS = tai_CS*rntatil tai_RESP_S = tai_RESP_S*rntatil tai_LIT_C_T = tai_LIT_C_T*rntatil/SEC_YEAR tai_BURN = tai_BURN*rntatil tai_CV = tai_CV*rntatil tai_NPP = tai_NPP*rntatil tai_GPP = tai_GPP*rntatil tai_HT = tai_HT*rntatil tai_LAI = tai_LAI*rntatil tai_LYING_SNOW = tai_LYING_SNOW*rntatil tai_TSOIL = tai_TSOIL*rntatil tai_TSTAR = tai_TSTAR*rntatil tai_M = tai_M*rntatil tai_ET = tai_ET*rntatil endif return end subroutine unloadland (ld, dl, id, jd, map, dij) implicit none integer i, id, j, jd, l, ld, map(id,jd) real dl(ld), dij(id,jd) dij(:,:) = 0. do j=1,jd do i=1,id l = map(i,j) if (l .ge. 1 .and. l .le. ld) dij(i,j) = dl(l) enddo enddo return end subroutine loadland (ld, dl, id, jd, map, dij) implicit none integer i, id, j, jd, l, ld, map(id,jd) real dl(ld), dij(id,jd) dl(:) = 0. do j=1,jd do i=1,id l = map(i,j) if (l .ge. 1 .and. l .le. ld) dl(l) = dij(i,j) enddo enddo return end