! source file: /raid23/jmuglia/ironruns3/lig15/lgm-sol10accum-diffqy01/updates/gasbc.F subroutine gasbc (is, ie, js, je) !======================================================================= ! 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" include "mw.h" include "ice.h" 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" include "mtlm.h" c# if defined 1 c include "mtlmc13.h" c# endif c# if defined 1 c include "mtlmc14.h" c# endif include "diaga.h" real cosz(is:ie,js:je) 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 atmpres = 1.0 !atm zero = 0. ! fractionation factors from Zhang et al. 1995 Geochi. ! Cosmochi. Acta ak = 0.99915 ! kinetic fractionation aaqg = 0.998764 ! aquatic - gas fractionation r13a = (dc13ccn*0.001 + 1.)*rc13std batmc13 = ak*aaqg*r13a !----------------------------------------------------------------------- ! zero totals for new accumulation !----------------------------------------------------------------------- atatm = 0. flux(:,:,:) = 0. sbc(:,:,ihflx) = 0. sbc(:,:,isflx) = 0. sbc(:,:,iro) = 0. sbc(:,:,iat) = 0. sbc(:,:,irh) = 0. sbc(:,:,ipr) = 0. sbc(:,:,ips) = 0. sbc(:,:,iaws) = 0. sbc(:,:,iswr) = 0. sbc(:,:,idicflx) = 0. sbc(:,:,idic13flx) = 0. sbc(:,:,ic14flx) = 0. sbc(:,:,ialkflx) = 0. sbc(:,:,io2flx) = 0. sbc(:,:,ipo4flx) = 0. sbc(:,:,idopflx) = 0. sbc(:,:,idfeflx) = 0. sbc(:,:,idfeadep) = 0. sbc(:,:,ino3flx) = 0. sbc(:,:,idonflx) = 0. sbc(:,:,idin15flx) = 0. sbc(:,:,idon15flx) = 0. sbc(:,:,idoc13flx) = 0. !----------------------------------------------------------------------- ! set solar constant !----------------------------------------------------------------------- call solardata !----------------------------------------------------------------------- ! 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) !----------------------------------------------------------------------- ! set co2 concentration or emissions by tracking average co2 !----------------------------------------------------------------------- call co2ccndata !----------------------------------------------------------------------- ! set c14 concentration !----------------------------------------------------------------------- call c14data tdc14ccn = 0. tarea = 0. !----------------------------------------------------------------------- ! update any atmospheric data !----------------------------------------------------------------------- call data (is, ie, js, je) !----------------------------------------------------------------------- ! calculate freezing point of sea water using UNESCO (1983) !----------------------------------------------------------------------- sspH(:,:) = 0. ssCO3(:,:) = 0. ssOc(:,:) = 0. ssOa(:,:) = 0. sspCO2(:,:) = 0. 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 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.)) ao = 1. - aice(i,j,2) !----------------------------------------------------------------------- ! calculate ocean carbon fluxes !----------------------------------------------------------------------- t_in = sst s_in = sss dic_in = sbc(i,j,issdic) ta_in = sbc(i,j,issalk) co2_in = co2ccn 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) sspH(i,j) = pH ssCO3(i,j) = CO3 ssOc(i,j) = Omega_c ssOa(i,j) = Omega_a sspCO2(i,j) = pCO2 ! 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 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) !----------------------------------------------------------------------- ! calculate ocean c14 fluxes !----------------------------------------------------------------------- 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) sbc(i,j,ic14flx) = piston_vel*((dco2star + co2star) & *(1 + dc14ccn*0.001)*rc14std & - co2star*sbc(i,j,issc14)/sbc(i,j,issdic)) !----------------------------------------------------------------------- ! 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)) else !----------------------------------------------------------------------- ! calculate land carbon fluxes !----------------------------------------------------------------------- ! 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 sbc(i,j,idic13flx) = (sbc(i,j,inpp13) - sbc(i,j,isr13) & - sbc(i,j,iburn13))*0.1/12.e-6 sbc(i,j,ic14flx) = (sbc(i,j,inpp14) - sbc(i,j,isr14) & - sbc(i,j,iburn14))*0.1/12.e-6 endif enddo enddo !----------------------------------------------------------------------- ! set boundary conditions for carbon !----------------------------------------------------------------------- call setbcx (sbc(1,1,idicflx), imt, jmt) call setbcx (sbc(1,1,idic13flx), imt, jmt) dmsk(:,:) = 1. call areaavg (sbc(1,1,idicflx), dmsk, avgflxc) dmsk(:,:) = 1. call areaavg (sbc(1,1,idic13flx), dmsk, avgflxc) carbemit = carbemit + co2emit*atmsa*segtim*daylen*1e-15 dmsk(:,:) = 1. call areaavg (sbc(1,1,ic14flx), dmsk, avgflxc) !----------------------------------------------------------------------- ! set boundary conditions for c14 !----------------------------------------------------------------------- call setbcx (sbc(1,1,ic14flx), imt, jmt) if (tarea .gt. 0) dc14ccn = tdc14ccn/tarea !----------------------------------------------------------------------- ! set boundary conditions for oxygen !----------------------------------------------------------------------- call setbcx (sbc(1,1,io2flx), imt, jmt) !----------------------------------------------------------------------- ! calculate CO2 forcing !----------------------------------------------------------------------- call co2forc !----------------------------------------------------------------------- ! set flags to calculate new coefficients !----------------------------------------------------------------------- newcoef(:,:) = .true. !----------------------------------------------------------------------- ! zero time averages if not in an averaging period !----------------------------------------------------------------------- if (.not. timavgperts) call ta_embm_tavg (is, ie, js, je, 0) !----------------------------------------------------------------------- ! zero time step integrals if not in an averaging period !----------------------------------------------------------------------- if (.not. tsiperts) call ta_embm_tsi (is, ie, js, je, 0) return end