subroutine gasbc (is, ie, js, je) #if defined O_embm !======================================================================= ! calculate boundary conditions for the atmospheric model !======================================================================= implicit none integer ie, is, je, js, i, iem1, isp1, j, jem1, jsp1, k, n real sss, sst, xconv, t_in, s_in, dic_in, ta_in, co2_in real atmpres, pH, co2star, dco2star, pCO2 real dpco2, CO3, Omega_c, Omega_a, scco2, piston_vel, avgflxc real calday, f, sco2, o2sat, o2sato, o2surf, piston_o2, cfc11ccn real cfc12ccn, wt, sccfc, piston_cfc, sol_cfc, cfcsat, ao, tarea real tdc14ccn, h_r, d, f1, f2, f3, f4, f5, area, C2K, tmp, zero real depth real ak, aaqg, adicg, r13a, r13dic, batmc13, bdic13 include "size.h" include "npzd.h" include "param.h" include "pconst.h" include "stdunits.h" include "coord.h" include "csbc.h" # if defined O_mom include "mw.h" # endif # if defined O_ice # if defined O_ice_cpts include "cpts.h" # endif include "ice.h" # endif include "switch.h" include "tmngr.h" include "cembm.h" include "atm.h" include "insolation.h" include "calendar.h" include "grdvar.h" include "levind.h" include "solve.h" # if defined O_mtlm include "mtlm.h" c# if defined O_mtlm_carbon_13 c include "mtlmc13.h" c# endif c# if defined O_mtlm_carbon_14 c include "mtlmc14.h" c# endif # endif # if defined O_save_carbon_carbonate_chem include "diaga.h" # endif # if !defined O_embm_annual real cosz(is:ie,js:je) # endif real dmsk(is:ie,js:je) isp1 = is + 1 iem1 = ie - 1 jsp1 = js + 1 jem1 = je - 1 ! xconv is constant to convert piston_vel from cm/hr -> cm/s ! here it is 100.*a*xconv (100 => m to cm, a=0.337, xconv=1/3.6e+05) xconv = 33.7/3.6e+05 xconv = xconv*0.75 C2K = 273.15 # if defined O_carbon atmpres = 1.0 !atm zero = 0. # if defined O_carbon_13 ! fractionation factors from Zhang et al. 1995 Geochi. ! Cosmochi. Acta ak = 0.99915 ! kinetic fractionation aaqg = 0.998764 ! aquatic - gas fractionation # if defined O_carbon_13_coupled r13a = c13ccn/(co2ccn-c13ccn) # else r13a = (dc13ccn*0.001 + 1.)*rc13std # endif batmc13 = ak*aaqg*r13a # endif # endif # if defined O_mom # if !defined O_constant_flux_reference || defined O_cfcs_data || defined O_cfcs_data_transient dmsk(:,:) = 1. where (kmt(:,:) .eq. 0) dmsk(:,:) = 0. # endif # if !defined O_constant_flux_reference !----------------------------------------------------------------------- ! calculate new global average sea surface flux references !----------------------------------------------------------------------- if (issdic .ne. 0) & call areaavg (sbc(1,1,issdic), dmsk, gaost(idic)) if (issdic13 .ne. 0) & call areaavg (sbc(1,1,issdic13), dmsk, gaost(idic13)) if (issalk .ne. 0) & call areaavg (sbc(1,1,issalk), dmsk, gaost(ialk)) if (isso2 .ne. 0) & call areaavg (sbc(1,1,isso2), dmsk, gaost(io2)) if (isspo4 .ne. 0) & call areaavg (sbc(1,1,isspo4), dmsk, gaost(ipo4)) if (issdop .ne. 0) & call areaavg (sbc(1,1,issdop), dmsk, gaost(idop)) # if !defined O_npzd_no_vflux if (issphyt .ne. 0) & call areaavg (sbc(1,1,issphyt), dmsk, gaost(iphyt)) if (isszoop .ne. 0) & call areaavg (sbc(1,1,isszoop), dmsk, gaost(izoop)) if (issdetr .ne. 0) & call areaavg (sbc(1,1,issdetr), dmsk, gaost(idetr)) # endif if (issno3 .ne. 0) & call areaavg (sbc(1,1,issno3), dmsk, gaost(ino3)) if (issdon .ne. 0) & call areaavg (sbc(1,1,issdon), dmsk, gaost(idon)) # if !defined O_npzd_no_vflux if (issdiaz .ne. 0) & call areaavg (sbc(1,1,issdiaz), dmsk, gaost(idiaz)) # endif if (issdin15 .ne. 0) & call areaavg (sbc(1,1,issdin15), dmsk, gaost(idin15)) if (issdon15 .ne. 0) & call areaavg (sbc(1,1,issdon15), dmsk, gaost(idon15)) # if !defined O_npzd_no_vflux if (issphytn15 .ne. 0) & call areaavg (sbc(1,1,issphytn15), dmsk, gaost(iphytn15)) if (isszoopn15 .ne. 0) & call areaavg (sbc(1,1,isszoopn15), dmsk, gaost(izoopn15)) if (issdetrn15 .ne. 0) & call areaavg (sbc(1,1,issdetrn15), dmsk, gaost(idetrn15)) if (issdiazn15 .ne. 0) & call areaavg (sbc(1,1,issdiazn15), dmsk, gaost(idiazn15)) # endif if (issdoc13 .ne. 0) & call areaavg (sbc(1,1,issdoc13), dmsk, gaost(idoc13)) # if !defined O_npzd_no_vflux if (issphytc13 .ne. 0) & call areaavg (sbc(1,1,issphytc13), dmsk, gaost(iphytc13)) if (isszoopc13 .ne. 0) & call areaavg (sbc(1,1,isszoopc13), dmsk, gaost(izoopc13)) if (issdetrc13 .ne. 0) & call areaavg (sbc(1,1,issdetrc13), dmsk, gaost(idetrc13)) if (issdiazc13 .ne. 0) & call areaavg (sbc(1,1,issdiazc13), dmsk, gaost(idiazc13)) # endif if (issc14 .ne. 0) & call areaavg (sbc(1,1,issc14), dmsk, gaost(ic14)) # endif # if defined O_cfcs_data || defined O_cfcs_data_transient ! always update cfc flux references since initial is usually zero if (isscfc11 .ne. 0) & call areaavg (sbc(1,1,isscfc11), dmsk, gaost(icfc11)) if (isscfc12 .ne. 0) & call areaavg (sbc(1,1,isscfc12), dmsk, gaost(icfc12)) # endif # endif !----------------------------------------------------------------------- ! zero totals for new accumulation !----------------------------------------------------------------------- atatm = 0. flux(:,:,:) = 0. # if defined O_plume subflux(:,:,:) = 0. # endif # if defined O_convect_brine cbf(:,:,:) = 0. cba(:,:,:) = 0. # endif sbc(:,:,ihflx) = 0. sbc(:,:,isflx) = 0. sbc(:,:,iro) = 0. # if defined O_mtlm sbc(:,:,iat) = 0. sbc(:,:,irh) = 0. sbc(:,:,ipr) = 0. sbc(:,:,ips) = 0. sbc(:,:,iaws) = 0. sbc(:,:,iswr) = 0. # endif # if defined O_carbon sbc(:,:,idicflx) = 0. # if defined O_carbon_13 sbc(:,:,idic13flx) = 0. # endif # if defined O_carbon_14 sbc(:,:,ic14flx) = 0. # endif # endif # if defined O_npzd_alk sbc(:,:,ialkflx) = 0. # endif # if defined O_npzd_o2 sbc(:,:,io2flx) = 0. # endif # if defined O_npzd sbc(:,:,ipo4flx) = 0. sbc(:,:,idopflx) = 0. # if !defined O_npzd_no_vflux sbc(:,:,iphytflx) = 0. sbc(:,:,izoopflx) = 0. sbc(:,:,idetrflx) = 0. # endif # if defined O_npzd_nitrogen sbc(:,:,ino3flx) = 0. sbc(:,:,idonflx) = 0. # if !defined O_npzd_no_vflux sbc(:,:,idiazflx) = 0. # endif # if defined O_npzd_nitrogen_15 sbc(:,:,idin15flx) = 0. sbc(:,:,idon15flx) = 0. # if !defined O_npzd_no_vflux sbc(:,:,iphytn15flx) = 0. sbc(:,:,izoopn15flx) = 0. sbc(:,:,idetrn15flx) = 0. sbc(:,:,idiazn15flx) = 0. # endif # endif # if defined O_carbon_13 sbc(:,:,idoc13flx) = 0. # if !defined O_npzd_no_vflux sbc(:,:,iphytc13flx) = 0. sbc(:,:,izoopc13flx) = 0. sbc(:,:,idetrc13flx) = 0. # if defined O_npzd_nitrogen sbc(:,:,idiazc13flx) = 0. # endif # endif # endif # endif # endif # if defined O_cfcs_data || defined O_cfcs_data_transient sbc(:,:,icfc11flx) = 0. sbc(:,:,icfc12flx) = 0. # endif # if defined O_solar_data || defined O_solar_data_transient !----------------------------------------------------------------------- ! set solar constant !----------------------------------------------------------------------- call solardata # endif # if !defined O_embm_annual !----------------------------------------------------------------------- ! update insolation for the current day !----------------------------------------------------------------------- ! subroutine decl is expecting a 365.25 day year calday = dayoyr*365.25/yrlen call decl (calday, eccen, obliq, mvelp, lambm0, sindec, eccf) i = (ie-is+1)*(je-js+1) ! get average zenith angle call zenith (i, c0, daylen, daylen, tlat, tlon, sindec, cosz) solins(is:ie,js:je) = solarconst*eccf*cosz(is:ie,js:je) # endif # if defined O_volcano_data || defined O_volcano_data_transient !----------------------------------------------------------------------- ! set anomalous volcanic forcing (modify solins) !----------------------------------------------------------------------- call volcdata dmsk(:,:) = 1. call areaavg (solins, dmsk, tmp) if (tmp .gt. 0.) solins(:,:) = solins(:,:)*(tmp - volcfor)/tmp # endif # if defined O_co2emit_data_transient !----------------------------------------------------------------------- ! set co2 emissions !----------------------------------------------------------------------- call co2emitdata # if defined O_carbon_co2_2d !----------------------------------------------------------------------- ! set co2 emissions distribution !----------------------------------------------------------------------- call co2distdata # endif # endif # if defined O_co2ccn_data || defined O_co2ccn_data_transient || defined O_co2emit_track_co2 !----------------------------------------------------------------------- ! set co2 concentration or emissions by tracking average co2 !----------------------------------------------------------------------- call co2ccndata # endif # if defined O_co2emit_track_sat || defined O_embm_vcs !----------------------------------------------------------------------- ! set co2 emissions by tracking average surface air temperature !----------------------------------------------------------------------- call satdata # endif # if defined O_carbon_14 # if defined O_c14ccn_data || defined O_c14ccn_data_transient !----------------------------------------------------------------------- ! set c14 concentration !----------------------------------------------------------------------- call c14data # if defined O_c14ccn_data tdc14ccn = 0. tarea = 0. # endif # endif # endif # if defined O_cfcs_data || defined O_cfcs_data_transient !----------------------------------------------------------------------- ! set CFC concentration !----------------------------------------------------------------------- call cfcdata # endif # if defined O_aggfor_data || defined O_aggfor_data_transient !----------------------------------------------------------------------- ! set additional greenhouse gas forcing !----------------------------------------------------------------------- call aggdata # endif !----------------------------------------------------------------------- ! update any atmospheric data !----------------------------------------------------------------------- call data (is, ie, js, je) # if defined O_embm_awind !----------------------------------------------------------------------- ! calculate winds with new feedback !----------------------------------------------------------------------- call add_awind (is, ie, js, je) # endif # if defined O_embm && defined O_sealev_data_transient !----------------------------------------------------------------------- ! set anomalous sea level !----------------------------------------------------------------------- # if defined O_sealev_data_transient && defined O_sealev_salinity dsealev = sealev call sealevdata dsealev = sealev - dsealev # else call sealevdata # endif area = ocnsa/atmsa do j=2,jmtm1 do i=2,imtm1 elev_sealev(i,j) = sealev*(1. - area)*tmsk(i,j) & - sealev*area*(1. - tmsk(i,j)) enddo enddo # endif !----------------------------------------------------------------------- ! calculate freezing point of sea water using UNESCO (1983) !----------------------------------------------------------------------- # if defined O_save_carbon_carbonate_chem sspH(:,:) = 0. ssCO3(:,:) = 0. ssOc(:,:) = 0. ssOa(:,:) = 0. sspCO2(:,:) = 0. # endif do j=jsp1,jem1 do i=isp1,iem1 if (tmsk(i,j) .ge. 0.5) then sss = 1000.0*sbc(i,j,isss) + 35.0 frzpt(i,j) = -.0575*sss + 1.71e-3*sss**1.5 - 2.155e-4*sss**2 # if defined O_mom # if defined O_carbon || defined O_npzd_o2 || defined O_cfcs_data || defined O_cfcs_data_transient sst = sbc(i,j,isst) ! put reasonable limits on sst and sss for chemistry flux calculations sst = min(35.,max(sst,-2.)) sss = min(45.,max(sss,0.)) # if defined O_ice # if defined O_ice_cpts ao = 1. do n=1,ncat ao = ao - A(i,j,2,n) enddo # else ao = 1. - aice(i,j,2) # endif # else ao = 1. # endif # endif # if defined O_carbon !----------------------------------------------------------------------- ! calculate ocean carbon fluxes !----------------------------------------------------------------------- t_in = sst s_in = sss dic_in = sbc(i,j,issdic) # if defined O_npzd_alk ta_in = sbc(i,j,issalk) # else ta_in = 2.36775*sss/(socn*1000.) # endif # if defined O_carbon_co2_2d co2_in = at(i,j,2,ico2) # else co2_in = co2ccn # endif call co2calc_SWS (t_in, s_in, dic_in, ta_in, co2_in, atmpres &, zero, pH, co2star, dco2star, pCO2, dpco2 &, CO3, Omega_c, Omega_a) # if defined O_save_carbon_carbonate_chem sspH(i,j) = pH ssCO3(i,j) = CO3 ssOc(i,j) = Omega_c ssOa(i,j) = Omega_a sspCO2(i,j) = pCO2 # endif ! Schmidt number for CO2 scco2 = 2073.1 - 125.62*sst + 3.6276*sst**2 & - 0.043219*sst**3 piston_vel = ao*xconv*((sbc(i,j,iws)*0.01)**2) & *((scco2/660.)**(-0.5)) ! dic in umol cm-3 or (mol m-3) => flux in umol cm-2 s-1 sbc(i,j,idicflx) = piston_vel*dco2star # if defined O_carbon_co2_2d ! convert from umol cm-2 s-1 => g cm-2 s-1 flux(i,j,ico2) = sbc(i,j,idicflx)*12.e-6 + flux(i,j,ico2) # endif # if defined O_carbon_13 adicg = 1.01051 - 1.05e-4*sst ! DIC-gas fractionation r13dic = sbc(i,j,issdic13) & / (sbc(i,j,issdic)-sbc(i,j,issdic13)) r13dic = min(r13dic, 2.*rc13std) r13dic = max(r13dic, 0.5*rc13std) bdic13 = ak*aaqg*r13dic/adicg sbc(i,j,idic13flx) = piston_vel & *((batmc13/(1+batmc13))*(dco2star + co2star) & - (bdic13/(1+bdic13))*co2star) c sbc(i,j,idic13flx) = sbc(i,j,idicflx)*rc13std/(1+rc13std) # endif # if defined O_carbon_14 !----------------------------------------------------------------------- ! calculate ocean c14 fluxes !----------------------------------------------------------------------- # if defined O_c14ccn_data if (tlat(i,j) .gt. 20.) then dc14ccn = dc14ccnn elseif (tlat(i,j) .lt. -20.) then dc14ccn = dc14ccns else dc14ccn = dc14ccne endif tarea = tarea + dxt(i)*dyt(j)*cst(j) tdc14ccn = tdc14ccn + dc14ccn*dxt(i)*dyt(j)*cst(j) # endif sbc(i,j,ic14flx) = piston_vel*((dco2star + co2star) & *(1 + dc14ccn*0.001)*rc14std & - co2star*sbc(i,j,issc14)/sbc(i,j,issdic)) # endif # endif # if defined O_npzd_o2 !----------------------------------------------------------------------- ! calculate ocean oxygen fluxes !----------------------------------------------------------------------- ! Schmidt number for O2 sco2 = 1638.0 - 81.83*sst + 1.483*sst**2 - 0.008004*sst**3 ! piston velocity for O2 piston_o2 = ao*xconv*((sbc(i,j,iws)*0.01)**2) & *(sco2/660.0)**(-0.5) ! oxygen saturation concentration [mol/m^3] f1 = alog((298.15 - sst)/(C2K + sst)) f2 = f1*f1 f3 = f2*f1 f4 = f3*f1 f5 = f4*f1 o2sat = exp (2.00907 + 3.22014*f1 + 4.05010*f2 & + 4.94457*f3 - 2.56847E-1*f4 + 3.88767*f5 & + sss*(-6.24523e-3 - 7.37614e-3*f1 - 1.03410e-2*f2 & - 8.17083E-3*f3) - 4.88682E-7*sss*sss) ! Convert from ml/l to mol/m^3 o2sat = o2sat/22391.6*1000.0 sbc(i,j,io2flx) = piston_o2*(o2sat - sbc(i,j,isso2)) # endif # if defined O_cfcs_data || defined O_cfcs_data_transient !----------------------------------------------------------------------- ! calculate ocean CFC11 fluxes !----------------------------------------------------------------------- if (tlat(i,j) .gt. 10.) then cfc11ccn = cfc11ccnn elseif (tlat(i,j) .lt. -10.) then cfc11ccn = cfc11ccns else wt = (tlat(i,j) + 10.)/20. cfc11ccn = cfc11ccnn*wt + cfc11ccns*(1. - wt) endif ! Schmidt number for CFC11 sccfc = 3501.8 -210.31*sst + 6.1851*sst**2 -0.07513*sst**3 ! piston velocity for CFC piston_cfc = ao*xconv*((sbc(i,j,iws)*0.01)**2) & *(sccfc/660.0)**(-0.5) ! cfc saturation concentration [mol/m^3] f1 = (sst + 273.16)*0.01 d = (0.091459 - 0.0157274*f1)*f1 - 0.142382 sol_cfc = exp(-229.9261 + 319.6552/f1 + 119.4471*alog(f1) $ - 1.39165*f1*f1 + sss*d ) ! conversion from mol/(l * atm) to mol/(m3 * pptv) cfcsat = 1.0e-12 *1000.*sol_cfc*cfc11ccn sbc(i,j,icfc11flx) = piston_cfc*(cfcsat - sbc(i,j,isscfc11)) !----------------------------------------------------------------------- ! calculate ocean CFC12 fluxes !----------------------------------------------------------------------- if (tlat(i,j) .gt. 10.) then cfc12ccn = cfc12ccnn elseif (tlat(i,j) .lt. -10.) then cfc12ccn = cfc12ccns else wt = (tlat(i,j) + 10.)/20. cfc12ccn = cfc12ccnn*wt + cfc12ccns*(1. - wt) endif ! Schmidt number for CFC12 sccfc = 3845.4 -228.95*sst + 6.1908*sst**2 -0.067430*sst**3 ! piston velocity for CFC12 piston_cfc = ao*xconv*((sbc(i,j,iws)*0.01)**2) & *(sccfc/660.0)**(-0.5) ! cfc saturation concentration [mol/m^3] f1 = (sst + 273.16)*0.01 d = (0.091015 - 0.0153924*f1)*f1 - 0.143566 sol_cfc = exp(-218.0971 + 298.9702/f1 + 113.8049*alog(f1) $ - 1.39165*f1*f1 + sss*d ) ! conversion from mol/(l * atm) to mol/(m3 * pptv) cfcsat = 1.0e-12 *1000.*sol_cfc*cfc12ccn sbc(i,j,icfc12flx) = piston_cfc*(cfcsat - sbc(i,j,isscfc12)) # endif # endif # if defined O_carbon && defined O_mtlm else !----------------------------------------------------------------------- ! calculate land carbon fluxes !----------------------------------------------------------------------- # if defined O_carbon_co2_2d ! convert from kg m-2 s-1 => g cm-2 s-1 flux(i,j,ico2) = (sbc(i,j,inpp) - sbc(i,j,isr) & - sbc(i,j,iburn))*0.1 + flux(i,j,ico2) # else ! convert from kg m-2 s-1 => umol cm-2 s-1 sbc(i,j,idicflx) = (sbc(i,j,inpp) - sbc(i,j,isr) & - sbc(i,j,iburn))*0.1/12.e-6 # if defined O_carbon_13 # if defined O_mtlm_carbon_13 sbc(i,j,idic13flx) = (sbc(i,j,inpp13) - sbc(i,j,isr13) & - sbc(i,j,iburn13))*0.1/12.e-6 # else sbc(i,j,idic13flx) = (sbc(i,j,inpp) - sbc(i,j,isr) & - sbc(i,j,iburn))*0.1/12.e-6 & *rc13std/(1+rc13std) # endif # endif # endif # if defined O_carbon_14 # if defined O_mtlm_carbon_14 sbc(i,j,ic14flx) = (sbc(i,j,inpp14) - sbc(i,j,isr14) & - sbc(i,j,iburn14))*0.1/12.e-6 # else ! use the carbon flux scaled by rc14std for c14 sbc(i,j,ic14flx) = (sbc(i,j,inpp) - sbc(i,j,isr) & - sbc(i,j,iburn))*rc14std*0.1/12.e-6 # endif # endif # endif endif enddo enddo # if defined O_carbon # if defined O_mtlm && defined O_global_sums ntlbc = ntlbc + 1 # endif !----------------------------------------------------------------------- ! set boundary conditions for carbon !----------------------------------------------------------------------- call setbcx (sbc(1,1,idicflx), imt, jmt) # if defined O_carbon_13 call setbcx (sbc(1,1,idic13flx), imt, jmt) # endif # if defined O_carbon_co2_2d # if !defined O_co2ccn_user && !defined O_co2ccn_data && !defined O_co2ccn_data_transient flux(:,:,ico2) = flux(:,:,ico2) - co2emit*co2dist(:,:,2) # endif call setbcx (flux(1,1,ico2), imt, jmt) # else dmsk(:,:) = 1. call areaavg (sbc(1,1,idicflx), dmsk, avgflxc) # if !defined O_co2ccn_user && !defined O_co2ccn_data && !defined O_co2ccn_data_transient co2ccn = co2ccn + (co2emit - avgflxc*12.e-6)*segtim*daylen*gtoppm # endif # if defined O_carbon_13 dmsk(:,:) = 1. call areaavg (sbc(1,1,idic13flx), dmsk, avgflxc) # if defined O_carbon_13_coupled c13ccn = c13ccn + (co2emit - avgflxc*12.e-6)*segtim*daylen*gtoppm ! calculate dc13ccn from c13ccn and co2ccn dc13ccn = 1000.*(c13ccn/(co2ccn-c13ccn)/rc13std - 1.) # endif # endif # endif carbemit = carbemit + co2emit*atmsa*segtim*daylen*1e-15 # if defined O_global_sums ! convert from g cm-2 s-1 to umol s-1 for conversion later dtoic = dtoic - co2emit*atmsa*segtim*daylen/12e-6 # endif # if defined O_carbon_14 dmsk(:,:) = 1. call areaavg (sbc(1,1,ic14flx), dmsk, avgflxc) # if defined O_carbon_14_coupled c14ccn = c14ccn + (c14prod - avgflxc)*12.e-6*segtim*daylen*gtoppm ! calculate dc14ccn from c14ccn and co2ccn dc14ccn = 1000.*(c14ccn/co2ccn/rc14std - 1.) # endif !----------------------------------------------------------------------- ! set boundary conditions for c14 !----------------------------------------------------------------------- call setbcx (sbc(1,1,ic14flx), imt, jmt) # if defined O_c14ccn_data if (tarea .gt. 0) dc14ccn = tdc14ccn/tarea # endif # endif # endif # if defined O_npzd_o2 !----------------------------------------------------------------------- ! set boundary conditions for oxygen !----------------------------------------------------------------------- call setbcx (sbc(1,1,io2flx), imt, jmt) # endif # if defined O_cfcs_data || defined O_cfcs_data_transient !----------------------------------------------------------------------- ! set boundary conditions for CFC11 !----------------------------------------------------------------------- call setbcx (sbc(1,1,icfc11flx), imt, jmt) !----------------------------------------------------------------------- ! set boundary conditions for CFC12 !----------------------------------------------------------------------- call setbcx (sbc(1,1,icfc12flx), imt, jmt) # endif !----------------------------------------------------------------------- ! calculate CO2 forcing !----------------------------------------------------------------------- call co2forc !----------------------------------------------------------------------- ! set flags to calculate new coefficients !----------------------------------------------------------------------- newcoef(:,:) = .true. # if defined O_crop_data_transient || defined O_pasture_data_transient || defined O_agric_data_transient !----------------------------------------------------------------------- ! update boundary conditions over vegetation !----------------------------------------------------------------------- call gvsbc # endif # if defined O_time_averages !----------------------------------------------------------------------- ! zero time averages if not in an averaging period !----------------------------------------------------------------------- if (.not. timavgperts) call ta_embm_tavg (is, ie, js, je, 0) # endif # if defined O_time_step_monitor !----------------------------------------------------------------------- ! zero time step integrals if not in an averaging period !----------------------------------------------------------------------- if (.not. tsiperts) call ta_embm_tsi (is, ie, js, je, 0) # endif #endif return end