! ! $Id: aeropt_2bands.F90 2641 2016-09-29 21:26:46Z aborella $ ! SUBROUTINE AEROPT_2BANDS( & pdel, m_allaer, delt, RHcl, & tau_allaer, piz_allaer, & cg_allaer, m_allaer_pi, & flag_aerosol, pplay, t_seri, presnivs) USE dimphy USE aero_mod USE phys_local_var_mod, only: absvisaer USE pres2lev_mod ! Yves Balkanski le 12 avril 2006 ! Celine Deandreis ! Anne Cozic Avril 2009 ! a partir d'une sous-routine de Johannes Quaas pour les sulfates ! IMPLICIT NONE INCLUDE "YOMCST.h" ! ! Input arguments: ! REAL, DIMENSION(klon,klev), INTENT(in) :: pdel REAL, INTENT(in) :: delt REAL, DIMENSION(klon,klev,naero_tot), INTENT(in) :: m_allaer REAL, DIMENSION(klon,klev,naero_tot), INTENT(in) :: m_allaer_pi REAL, DIMENSION(klon,klev), INTENT(in) :: RHcl ! humidite relative ciel clair INTEGER, INTENT(in) :: flag_aerosol REAL, DIMENSION(klon,klev), INTENT(in) :: pplay REAL, DIMENSION(klon,klev), INTENT(in) :: t_seri REAL, DIMENSION(klev), INTENT(in) :: presnivs ! ! Output arguments: ! REAL, DIMENSION(klon,klev,naero_grp,nbands), INTENT(out) :: tau_allaer ! epaisseur optique aerosol REAL, DIMENSION(klon,klev,naero_grp,nbands), INTENT(out) :: piz_allaer ! single scattering albedo aerosol REAL, DIMENSION(klon,klev,naero_grp,nbands), INTENT(out) :: cg_allaer ! asymmetry parameter aerosol ! ! Local ! REAL, DIMENSION(klon,klev,naero_tot,nbands) :: tau_ae REAL, DIMENSION(klon,klev,naero_tot,nbands) :: tau_ae_pi REAL, DIMENSION(klon,klev,naero_tot,nbands) :: piz_ae REAL, DIMENSION(klon,klev,naero_tot,nbands) :: cg_ae LOGICAL :: soluble INTEGER :: i, k,n, ierr, inu, m, mrfspecies INTEGER :: spsol, spinsol, spss INTEGER :: RH_num(klon,klev) INTEGER, PARAMETER :: nb_level=19 ! number of vertical levels in DATA INTEGER, PARAMETER :: nbre_RH=12 INTEGER, PARAMETER :: naero_soluble=7 ! 1- BC soluble; 2- POM soluble; 3- SO4. acc. 4- SO4 coarse ! 5- seasalt super coarse 6- seasalt coarse 7- seasalt acc. INTEGER, PARAMETER :: naero_insoluble=3 ! 1- Dust; 2- BC insoluble; 3- POM insoluble LOGICAL, SAVE :: firstcall=.TRUE. !$OMP THREADPRIVATE(firstcall) ! Coefficient optiques sur 19 niveaux REAL, SAVE, DIMENSION(nb_level) :: presnivs_19 ! Pression milieux couche pour 19 niveaux (nb_level) !$OMP THREADPRIVATE(presnivs_19) REAL, SAVE, DIMENSION(nb_level) :: A1_ASSSM_b1_19, A2_ASSSM_b1_19, A3_ASSSM_b1_19,& B1_ASSSM_b1_19, B2_ASSSM_b1_19, C1_ASSSM_b1_19, C2_ASSSM_b1_19,& A1_CSSSM_b1_19, A2_CSSSM_b1_19, A3_CSSSM_b1_19,& B1_CSSSM_b1_19, B2_CSSSM_b1_19, C1_CSSSM_b1_19, C2_CSSSM_b1_19,& A1_SSSSM_b1_19, A2_SSSSM_b1_19, A3_SSSSM_b1_19,& B1_SSSSM_b1_19, B2_SSSSM_b1_19, C1_SSSSM_b1_19, C2_SSSSM_b1_19,& A1_ASSSM_b2_19, A2_ASSSM_b2_19, A3_ASSSM_b2_19,& B1_ASSSM_b2_19, B2_ASSSM_b2_19, C1_ASSSM_b2_19, C2_ASSSM_b2_19,& A1_CSSSM_b2_19, A2_CSSSM_b2_19, A3_CSSSM_b2_19,& B1_CSSSM_b2_19, B2_CSSSM_b2_19, C1_CSSSM_b2_19, C2_CSSSM_b2_19,& A1_SSSSM_b2_19, A2_SSSSM_b2_19, A3_SSSSM_b2_19,& B1_SSSSM_b2_19, B2_SSSSM_b2_19, C1_SSSSM_b2_19, C2_SSSSM_b2_19 !$OMP THREADPRIVATE(A1_ASSSM_b1_19, A2_ASSSM_b1_19, A3_ASSSM_b1_19) !$OMP THREADPRIVATE(B1_ASSSM_b1_19, B2_ASSSM_b1_19, C1_ASSSM_b1_19, C2_ASSSM_b1_19) !$OMP THREADPRIVATE(A1_CSSSM_b1_19, A2_CSSSM_b1_19, A3_CSSSM_b1_19) !$OMP THREADPRIVATE(B1_CSSSM_b1_19, B2_CSSSM_b1_19, C1_CSSSM_b1_19, C2_CSSSM_b1_19) !$OMP THREADPRIVATE(A1_SSSSM_b1_19, A2_SSSSM_b1_19, A3_SSSSM_b1_19) !$OMP THREADPRIVATE(B1_SSSSM_b1_19, B2_SSSSM_b1_19, C1_SSSSM_b1_19, C2_SSSSM_b1_19) !$OMP THREADPRIVATE(A1_ASSSM_b2_19, A2_ASSSM_b2_19, A3_ASSSM_b2_19) !$OMP THREADPRIVATE(B1_ASSSM_b2_19, B2_ASSSM_b2_19, C1_ASSSM_b2_19, C2_ASSSM_b2_19) !$OMP THREADPRIVATE(A1_CSSSM_b2_19, A2_CSSSM_b2_19, A3_CSSSM_b2_19) !$OMP THREADPRIVATE(B1_CSSSM_b2_19, B2_CSSSM_b2_19, C1_CSSSM_b2_19, C2_CSSSM_b2_19) !$OMP THREADPRIVATE(A1_SSSSM_b2_19, A2_SSSSM_b2_19, A3_SSSSM_b2_19) !$OMP THREADPRIVATE(B1_SSSSM_b2_19, B2_SSSSM_b2_19, C1_SSSSM_b2_19, C2_SSSSM_b2_19) ! Coefficient optiques interpole sur le nombre de niveau du modele REAL, ALLOCATABLE, DIMENSION(:), SAVE :: & A1_ASSSM_b1, A2_ASSSM_b1, A3_ASSSM_b1,& B1_ASSSM_b1, B2_ASSSM_b1, C1_ASSSM_b1, C2_ASSSM_b1,& A1_CSSSM_b1, A2_CSSSM_b1, A3_CSSSM_b1,& B1_CSSSM_b1, B2_CSSSM_b1, C1_CSSSM_b1, C2_CSSSM_b1,& A1_SSSSM_b1, A2_SSSSM_b1, A3_SSSSM_b1,& B1_SSSSM_b1, B2_SSSSM_b1, C1_SSSSM_b1, C2_SSSSM_b1,& A1_ASSSM_b2, A2_ASSSM_b2, A3_ASSSM_b2,& B1_ASSSM_b2, B2_ASSSM_b2, C1_ASSSM_b2, C2_ASSSM_b2,& A1_CSSSM_b2, A2_CSSSM_b2, A3_CSSSM_b2,& B1_CSSSM_b2, B2_CSSSM_b2, C1_CSSSM_b2, C2_CSSSM_b2,& A1_SSSSM_b2, A2_SSSSM_b2, A3_SSSSM_b2,& B1_SSSSM_b2, B2_SSSSM_b2, C1_SSSSM_b2, C2_SSSSM_b2 !$OMP THREADPRIVATE(A1_ASSSM_b1, A2_ASSSM_b1, A3_ASSSM_b1) !$OMP THREADPRIVATE(B1_ASSSM_b1, B2_ASSSM_b1, C1_ASSSM_b1, C2_ASSSM_b1) !$OMP THREADPRIVATE(A1_CSSSM_b1, A2_CSSSM_b1, A3_CSSSM_b1) !$OMP THREADPRIVATE(B1_CSSSM_b1, B2_CSSSM_b1, C1_CSSSM_b1, C2_CSSSM_b1) !$OMP THREADPRIVATE(A1_SSSSM_b1, A2_SSSSM_b1, A3_SSSSM_b1) !$OMP THREADPRIVATE(B1_SSSSM_b1, B2_SSSSM_b1, C1_SSSSM_b1, C2_SSSSM_b1) !$OMP THREADPRIVATE(A1_ASSSM_b2, A2_ASSSM_b2, A3_ASSSM_b2) !$OMP THREADPRIVATE(B1_ASSSM_b2, B2_ASSSM_b2, C1_ASSSM_b2, C2_ASSSM_b2) !$OMP THREADPRIVATE(A1_CSSSM_b2, A2_CSSSM_b2, A3_CSSSM_b2) !$OMP THREADPRIVATE(B1_CSSSM_b2, B2_CSSSM_b2, C1_CSSSM_b2, C2_CSSSM_b2) !$OMP THREADPRIVATE(A1_SSSSM_b2, A2_SSSSM_b2, A3_SSSSM_b2) !$OMP THREADPRIVATE(B1_SSSSM_b2, B2_SSSSM_b2, C1_SSSSM_b2, C2_SSSSM_b2) REAL,PARAMETER :: RH_tab(nbre_RH)=(/0.,10.,20.,30.,40.,50.,60.,70.,80.,85.,90.,95./) REAL, PARAMETER :: RH_MAX=95. REAL:: DELTA(klon,klev), rh(klon,klev), H REAL:: tau_ae2b_int ! Intermediate computation of epaisseur optique aerosol REAL:: piz_ae2b_int ! Intermediate computation of Single scattering albedo REAL:: cg_ae2b_int ! Intermediate computation of Assymetry parameter REAL :: Fact_RH(nbre_RH) REAL :: zrho REAL :: fac REAL :: zdh(klon,klev) INTEGER, ALLOCATABLE, DIMENSION(:) :: aerosol_name INTEGER :: nb_aer ! ! Proprietes optiques ! REAL:: alpha_aers_2bands(nbre_RH,nbands,naero_soluble) !--unit m2/g SO4 REAL:: alpha_aeri_2bands(nbands,naero_insoluble) REAL:: cg_aers_2bands(nbre_RH,nbands,naero_soluble) !--unit REAL:: cg_aeri_2bands(nbands,naero_insoluble) REAL:: piz_aers_2bands(nbre_RH,nbands,naero_soluble) !-- unit REAL:: piz_aeri_2bands(nbands,naero_insoluble) !-- unit INTEGER :: id LOGICAL :: used_aer(naero_tot) REAL :: tmp_var, tmp_var_pi DATA presnivs_19/& 100426.5, 98327.6, 95346.5, 90966.8, 84776.9, & 76536.5, 66292.2, 54559.3, 42501.8, 31806, & 23787.5, 18252.7, 13996, 10320.8, 7191.1, & 4661.7, 2732.9, 1345.6, 388.2/ !***********************BAND 1*********************************** !ACCUMULATION MODE DATA A1_ASSSM_b1_19/ 4.373E+00, 4.361E+00, 4.331E+00, & 4.278E+00, 4.223E+00, 4.162E+00, & 4.103E+00, 4.035E+00, 3.962E+00, & 3.904E+00, 3.871E+00, 3.847E+00, & 3.824E+00, 3.780E+00, 3.646E+00, & 3.448E+00, 3.179E+00, 2.855E+00, 2.630E+00/ DATA A2_ASSSM_b1_19/ 2.496E+00, 2.489E+00, 2.472E+00, & 2.442E+00, 2.411E+00, 2.376E+00, & 2.342E+00, 2.303E+00, 2.261E+00, & 2.228E+00, 2.210E+00, 2.196E+00, & 2.183E+00, 2.158E+00, 2.081E+00, & 1.968E+00, 1.814E+00, 1.630E+00, 1.501E+00/ DATA A3_ASSSM_b1_19/-4.688E-02, -4.676E-02, -4.644E-02, & -4.587E-02, -4.528E-02, -4.463E-02, & -4.399E-02, -4.326E-02, -4.248E-02, & -4.186E-02, -4.151E-02, -4.125E-02, & -4.100E-02, -4.053E-02, -3.910E-02, & -3.697E-02, -3.408E-02, -3.061E-02, -2.819E-02/ DATA B1_ASSSM_b1_19/ 1.165E-08, 1.145E-08, 1.097E-08, & 1.012E-08, 9.233E-09, 8.261E-09, & 7.297E-09, 6.201E-09, 5.026E-09, & 4.098E-09, 3.567E-09, 3.187E-09, & 2.807E-09, 2.291E-09, 2.075E-09, & 1.756E-09, 1.322E-09, 8.011E-10, 4.379E-10/ DATA B2_ASSSM_b1_19/ 2.193E-08, 2.192E-08, 2.187E-08, & 2.179E-08, 2.171E-08, 2.162E-08, & 2.153E-08, 2.143E-08, 2.132E-08, & 2.124E-08, 2.119E-08, 2.115E-08, & 2.112E-08, 2.106E-08, 2.100E-08, & 2.090E-08, 2.077E-08, 2.061E-08, 2.049E-08/ DATA C1_ASSSM_b1_19/ 7.365E-01, 7.365E-01, 7.365E-01, & 7.364E-01, 7.363E-01, 7.362E-01, & 7.361E-01, 7.359E-01, 7.358E-01, & 7.357E-01, 7.356E-01, 7.356E-01, & 7.356E-01, 7.355E-01, 7.354E-01, & 7.352E-01, 7.350E-01, 7.347E-01, 7.345E-01/ DATA C2_ASSSM_b1_19/ 5.833E-02, 5.835E-02, 5.841E-02, & 5.850E-02, 5.859E-02, 5.870E-02, & 5.880E-02, 5.891E-02, 5.904E-02, & 5.914E-02, 5.920E-02, 5.924E-02, & 5.928E-02, 5.934E-02, 5.944E-02, & 5.959E-02, 5.979E-02, 6.003E-02, 6.020E-02/ !COARSE MODE DATA A1_CSSSM_b1_19/ 7.403E-01, 7.422E-01, 7.626E-01, & 8.019E-01, 8.270E-01, 8.527E-01, & 8.702E-01, 8.806E-01, 8.937E-01, & 9.489E-01, 1.030E+00, 1.105E+00, & 1.199E+00, 1.357E+00, 1.660E+00, & 2.540E+00, 4.421E+00, 2.151E+00, 9.518E-01/ DATA A2_CSSSM_b1_19/ 4.522E-01, 4.532E-01, 4.644E-01, & 4.859E-01, 4.996E-01, 5.137E-01, & 5.233E-01, 5.290E-01, 5.361E-01, & 5.655E-01, 6.085E-01, 6.483E-01, & 6.979E-01, 7.819E-01, 9.488E-01, & 1.450E+00, 2.523E+00, 1.228E+00, 5.433E-01/ DATA A3_CSSSM_b1_19/-8.516E-03, -8.535E-03, -8.744E-03, & -9.148E-03, -9.406E-03, -9.668E-03, & -9.848E-03, -9.955E-03, -1.009E-02, & -1.064E-02, -1.145E-02, -1.219E-02, & -1.312E-02, -1.470E-02, -1.783E-02, & -2.724E-02, -4.740E-02, -2.306E-02, -1.021E-02/ DATA B1_CSSSM_b1_19/ 2.535E-07, 2.530E-07, 2.479E-07, & 2.380E-07, 2.317E-07, 2.252E-07, & 2.208E-07, 2.182E-07, 2.149E-07, & 2.051E-07, 1.912E-07, 1.784E-07, & 1.624E-07, 1.353E-07, 1.012E-07, & 6.016E-08, 2.102E-08, 0.000E+00, 0.000E+00/ DATA B2_CSSSM_b1_19/ 1.221E-07, 1.217E-07, 1.179E-07, & 1.104E-07, 1.056E-07, 1.008E-07, & 9.744E-08, 9.546E-08, 9.299E-08, & 8.807E-08, 8.150E-08, 7.544E-08, & 6.786E-08, 5.504E-08, 4.080E-08, & 2.960E-08, 2.300E-08, 2.030E-08, 1.997E-08/ DATA C1_CSSSM_b1_19/ 7.659E-01, 7.658E-01, 7.652E-01, & 7.639E-01, 7.631E-01, 7.623E-01, & 7.618E-01, 7.614E-01, 7.610E-01, & 7.598E-01, 7.581E-01, 7.566E-01, & 7.546E-01, 7.513E-01, 7.472E-01, & 7.423E-01, 7.376E-01, 7.342E-01, 7.334E-01/ DATA C2_CSSSM_b1_19/ 3.691E-02, 3.694E-02, 3.729E-02, & 3.796E-02, 3.839E-02, 3.883E-02, & 3.913E-02, 3.931E-02, 3.953E-02, & 4.035E-02, 4.153E-02, 4.263E-02, & 4.400E-02, 4.631E-02, 4.933E-02, & 5.331E-02, 5.734E-02, 6.053E-02, 6.128E-02/ !SUPER COARSE MODE DATA A1_SSSSM_b1_19/ 2.836E-01, 2.876E-01, 2.563E-01, & 2.414E-01, 2.541E-01, 2.546E-01, & 2.572E-01, 2.638E-01, 2.781E-01, & 3.167E-01, 4.209E-01, 5.286E-01, & 6.959E-01, 9.233E-01, 1.282E+00, & 1.836E+00, 2.981E+00, 4.355E+00, 4.059E+00/ DATA A2_SSSSM_b1_19/ 1.608E-01, 1.651E-01, 1.577E-01, & 1.587E-01, 1.686E-01, 1.690E-01, & 1.711E-01, 1.762E-01, 1.874E-01, & 2.138E-01, 2.751E-01, 3.363E-01, & 4.279E-01, 5.519E-01, 7.421E-01, & 1.048E+00, 1.702E+00, 2.485E+00, 2.317E+00/ DATA A3_SSSSM_b1_19/-3.025E-03, -3.111E-03, -2.981E-03, & -3.005E-03, -3.193E-03, -3.200E-03, & -3.239E-03, -3.336E-03, -3.548E-03, & -4.047E-03, -5.196E-03, -6.345E-03, & -8.061E-03, -1.038E-02, -1.395E-02, & -1.970E-02, -3.197E-02, -4.669E-02, -4.352E-02/ DATA B1_SSSSM_b1_19/ 6.759E-07, 6.246E-07, 5.542E-07, & 4.953E-07, 4.746E-07, 4.738E-07, & 4.695E-07, 4.588E-07, 4.354E-07, & 3.947E-07, 3.461E-07, 3.067E-07, & 2.646E-07, 2.095E-07, 1.481E-07, & 9.024E-08, 5.747E-08, 2.384E-08, 6.599E-09/ DATA B2_SSSSM_b1_19/ 5.977E-07, 5.390E-07, 4.468E-07, & 3.696E-07, 3.443E-07, 3.433E-07, & 3.380E-07, 3.249E-07, 2.962E-07, & 2.483E-07, 1.989E-07, 1.623E-07, & 1.305E-07, 9.015E-08, 6.111E-08, & 3.761E-08, 2.903E-08, 2.337E-08, 2.147E-08/ DATA C1_SSSSM_b1_19/ 8.120E-01, 8.084E-01, 8.016E-01, & 7.953E-01, 7.929E-01, 7.928E-01, & 7.923E-01, 7.910E-01, 7.882E-01, & 7.834E-01, 7.774E-01, 7.725E-01, & 7.673E-01, 7.604E-01, 7.529E-01, & 7.458E-01, 7.419E-01, 7.379E-01, 7.360E-01/ DATA C2_SSSSM_b1_19/ 2.388E-02, 2.392E-02, 2.457E-02, 2.552E-02, & 2.615E-02, 2.618E-02, 2.631E-02, 2.663E-02, & 2.735E-02, 2.875E-02, 3.113E-02, 3.330E-02, & 3.615E-02, 3.997E-02, 4.521E-02, 5.038E-02, & 5.358E-02, 5.705E-02, 5.887E-02/ !*********************BAND 2************************************************ !ACCUMULATION MODE DATA A1_ASSSM_b2_19/1.256E+00, 1.246E+00, 1.226E+00, 1.187E+00, 1.148E+00, & 1.105E+00, 1.062E+00, 1.014E+00, 9.616E-01, 9.205E-01, & 8.970E-01, 8.800E-01, 8.632E-01, 8.371E-01, 7.943E-01, & 7.308E-01, 6.448E-01, 5.414E-01, 4.693E-01/ DATA A2_ASSSM_b2_19/5.321E-01, 5.284E-01, 5.196E-01, 5.036E-01, 4.872E-01, & 4.691E-01, 4.512E-01, 4.308E-01, 4.089E-01, 3.917E-01, & 3.818E-01, 3.747E-01, 3.676E-01, 3.567E-01, 3.385E-01, & 3.116E-01, 2.751E-01, 2.312E-01, 2.006E-01/ DATA A3_ASSSM_b2_19/-1.053E-02, -1.046E-02, -1.028E-02, -9.964E-03, -9.637E-03, & -9.279E-03, -8.923E-03, -8.518E-03, -8.084E-03, -7.741E-03, & -7.545E-03, -7.405E-03, -7.265E-03, -7.048E-03, -6.687E-03, & -6.156E-03, -5.433E-03, -4.565E-03, -3.961E-03/ DATA B1_ASSSM_b2_19/1.560E-02, 1.560E-02, 1.561E-02, 1.565E-02, 1.568E-02, & 1.572E-02, 1.576E-02, 1.580E-02, 1.584E-02, 1.588E-02, & 1.590E-02, 1.592E-02, 1.593E-02, 1.595E-02, 1.599E-02, & 1.605E-02, 1.612E-02, 1.621E-02, 1.627E-02/ DATA B2_ASSSM_b2_19/1.073E-02, 1.074E-02, 1.076E-02, 1.079E-02, 1.082E-02, & 1.085E-02, 1.089E-02, 1.093E-02, 1.097E-02, 1.100E-02, & 1.102E-02, 1.103E-02, 1.105E-02, 1.107E-02, 1.110E-02, & 1.115E-02, 1.122E-02, 1.130E-02, 1.136E-02/ DATA C1_ASSSM_b2_19/7.429E-01, 7.429E-01, 7.429E-01, 7.427E-01, 7.427E-01, & 7.424E-01, 7.423E-01, 7.422E-01, 7.421E-01, 7.420E-01, & 7.419E-01, 7.419E-01, 7.418E-01, 7.417E-01, 7.416E-01, & 7.415E-01, 7.413E-01, 7.409E-01, 7.408E-01/ DATA C2_ASSSM_b2_19/3.031E-02, 3.028E-02, 3.022E-02, 3.011E-02, 2.999E-02, & 2.986E-02, 2.973E-02, 2.959E-02, 2.943E-02, 2.931E-02, & 2.924E-02, 2.919E-02, 2.913E-02, 2.905E-02, 2.893E-02, & 2.874E-02, 2.847E-02, 2.817E-02, 2.795E-02/ !COARSE MODE DATA A1_CSSSM_b2_19/7.061E-01, 7.074E-01, 7.211E-01, 7.476E-01, 7.647E-01, & 7.817E-01, 7.937E-01, 8.007E-01, 8.095E-01, 8.436E-01, & 8.932E-01, 9.390E-01, 9.963E-01, 1.093E+00, 1.256E+00, & 1.668E+00, 1.581E+00, 3.457E-01, 1.331E-01/ DATA A2_CSSSM_b2_19/3.617E-01, 3.621E-01, 3.662E-01, 3.739E-01, 3.789E-01, & 3.840E-01, 3.874E-01, 3.895E-01, 3.921E-01, 4.001E-01, & 4.117E-01, 4.223E-01, 4.356E-01, 4.581E-01, 5.099E-01, & 6.831E-01, 6.663E-01, 1.481E-01, 5.703E-02/ DATA A3_CSSSM_b2_19/-6.953E-03, -6.961E-03, -7.048E-03, -7.216E-03, -7.322E-03, & -7.431E-03, -7.506E-03, -7.551E-03, -7.606E-03, -7.791E-03, & -8.059E-03, -8.305E-03, -8.613E-03, -9.134E-03, -1.023E-02, & -1.365E-02, -1.320E-02, -2.922E-03, -1.125E-03/ DATA B1_CSSSM_b2_19/1.007E-02, 1.008E-02, 1.012E-02, 1.019E-02, 1.024E-02, & 1.029E-02, 1.033E-02, 1.035E-02, 1.038E-02, 1.056E-02, & 1.083E-02, 1.109E-02, 1.140E-02, 1.194E-02, 1.270E-02, & 1.390E-02, 1.524E-02, 1.639E-02, 1.667E-02/ DATA B2_CSSSM_b2_19/4.675E-03, 4.682E-03, 4.760E-03, 4.908E-03, 5.004E-03, & 5.102E-03, 5.168E-03, 5.207E-03, 5.256E-03, 5.474E-03, & 5.793E-03, 6.089E-03, 6.457E-03, 7.081E-03, 7.923E-03, & 9.127E-03, 1.041E-02, 1.147E-02, 1.173E-02/ DATA C1_CSSSM_b2_19/7.571E-01, 7.571E-01, 7.570E-01, 7.568E-01, 7.565E-01, & 7.564E-01, 7.563E-01, 7.562E-01, 7.562E-01, 7.557E-01, & 7.552E-01, 7.545E-01, 7.539E-01, 7.527E-01, 7.509E-01, & 7.478E-01, 7.440E-01, 7.404E-01, 7.394E-01/ DATA C2_CSSSM_b2_19/4.464E-02, 4.465E-02, 4.468E-02, 4.474E-02, 4.477E-02, & 4.480E-02, 4.482E-02, 4.484E-02, 4.486E-02, 4.448E-02, & 4.389E-02, 4.334E-02, 4.264E-02, 4.148E-02, 3.957E-02, & 3.588E-02, 3.149E-02, 2.751E-02, 2.650E-02/ !SUPER COARSE MODE DATA A1_SSSSM_b2_19/2.357E-01, 2.490E-01, 2.666E-01, 2.920E-01, 3.120E-01, & 3.128E-01, 3.169E-01, 3.272E-01, 3.498E-01, 3.960E-01, & 4.822E-01, 5.634E-01, 6.763E-01, 8.278E-01, 1.047E+00, & 1.340E+00, 1.927E+00, 1.648E+00, 1.031E+00/ DATA A2_SSSSM_b2_19/1.219E-01, 1.337E-01, 1.633E-01, 1.929E-01, 2.057E-01, & 2.062E-01, 2.089E-01, 2.155E-01, 2.300E-01, 2.560E-01, & 2.908E-01, 3.199E-01, 3.530E-01, 3.965E-01, 4.475E-01, & 5.443E-01, 7.943E-01, 6.928E-01, 4.381E-01/ DATA A3_SSSSM_b2_19/-2.387E-03, -2.599E-03, -3.092E-03, -3.599E-03, -3.832E-03, & -3.842E-03, -3.890E-03, -4.012E-03, -4.276E-03, -4.763E-03, & -5.455E-03, -6.051E-03, -6.763E-03, -7.708E-03, -8.887E-03, & -1.091E-02, -1.585E-02, -1.373E-02, -8.665E-03/ DATA B1_SSSSM_b2_19/1.260E-02, 1.211E-02, 1.126E-02, 1.056E-02, 1.038E-02, & 1.037E-02, 1.033E-02, 1.023E-02, 1.002E-02, 9.717E-03, & 9.613E-03, 9.652E-03, 9.983E-03, 1.047E-02, 1.168E-02, & 1.301E-02, 1.399E-02, 1.514E-02, 1.578E-02/ DATA B2_SSSSM_b2_19/2.336E-03, 2.419E-03, 2.506E-03, 2.610E-03, 2.690E-03, & 2.694E-03, 2.711E-03, 2.752E-03, 2.844E-03, 3.043E-03, & 3.455E-03, 3.871E-03, 4.507E-03, 5.373E-03, 6.786E-03, & 8.238E-03, 9.208E-03, 1.032E-02, 1.091E-02/ DATA C1_SSSSM_b2_19/7.832E-01, 7.787E-01, 7.721E-01, 7.670E-01, 7.657E-01, & 7.657E-01, 7.654E-01, 7.648E-01, 7.634E-01, 7.613E-01, & 7.596E-01, 7.585E-01, 7.574E-01, 7.560E-01, 7.533E-01, & 7.502E-01, 7.476E-01, 7.443E-01, 7.423E-01/ DATA C2_SSSSM_b2_19/3.144E-02, 3.268E-02, 3.515E-02, 3.748E-02, 3.837E-02, & 3.840E-02, 3.860E-02, 3.906E-02, 4.006E-02, 4.173E-02, & 4.338E-02, 4.435E-02, 4.459E-02, 4.467E-02, 4.202E-02, & 3.864E-02, 3.559E-02, 3.183E-02, 2.964E-02/ !*************************************************************************** spsol = 0 spinsol = 0 spss = 0 DATA alpha_aers_2bands/ & ! bc soluble 7.675,7.675,7.675,7.675,7.675,7.675, & 7.675,7.675,10.433,11.984,13.767,15.567,& 4.720,4.720,4.720,4.720,4.720,4.720, & 4.720,4.720,6.081,6.793,7.567,9.344, & ! pom soluble 5.503,5.503,5.503,5.503,5.588,5.957, & 6.404,7.340,8.545,10.319,13.595,20.398, & 1.402,1.402,1.402,1.402,1.431,1.562, & 1.715,2.032,2.425,2.991,4.193,7.133, & ! sulfate 4.681,5.062,5.460,5.798,6.224,6.733, & 7.556,8.613,10.687,12.265,16.32,21.692, & 1.107,1.239,1.381,1.490,1.635,1.8030, & 2.071,2.407,3.126,3.940,5.539,7.921, & ! sulfate coarse 4.681,5.062,5.460,5.798,6.224,6.733, & 7.556,8.613,10.687,12.265,16.32,21.692, & 1.107,1.239,1.381,1.490,1.635,1.8030, & 2.071,2.407,3.126,3.940,5.539,7.921, & ! seasalt Super Coarse Soluble (SS) 0.5090,0.6554,0.7129,0.7767,0.8529,1.2728, & 1.3820,1.5792,1.9173,2.2002,2.7173,4.1487, & 0.5167,0.6613,0.7221,0.7868,0.8622,1.3027, & 1.4227,1.6317,1.9887,2.2883,2.8356,4.3453, & ! seasalt Coarse Soluble (CS) 0.5090,0.6554,0.7129,0.7767,0.8529,1.2728, & 1.3820,1.5792,1.9173,2.2002,2.7173,4.1487, & 0.5167,0.6613,0.7221,0.7868,0.8622,1.3027, & 1.4227,1.6317,1.9887,2.2883,2.8356,4.3453, & ! seasalt Accumulation Soluble (AS) 4.125, 4.674, 5.005, 5.434, 5.985, 10.006, & 11.175,13.376,17.264,20.540,26.604, 42.349,& 4.187, 3.939, 3.919, 3.937, 3.995, 5.078, & 5.511, 6.434, 8.317,10.152,14.024, 26.537/ DATA alpha_aeri_2bands/ & ! dust insoluble 0.7661,0.7123,& ! bc insoluble 10.360,4.437, & ! pom insoluble 3.741,0.606/ DATA cg_aers_2bands/ & ! bc soluble .612, .612, .612, .612, .612, .612, & .612, .612, .702, .734, .760, .796, & .433, .433, .433, .433, .433, .433, & .433, .433, .534, .575, .613, .669, & ! pom soluble .663, .663, .663, .663, .666, .674, & .685, .702, .718, .737, .757, .777, & .544, .544, .544, .544, .547, .554, & .565, .583, .604, .631, .661, .698, & ! sulfate .658, .669, .680, .688, .698, .707, & .719, .733, .752, .760, .773, .786, & .544, .555, .565, .573, .583, .593, & .610, .628, .655, .666, .692, .719, & ! sulfate coarse .658, .669, .680, .688, .698, .707, & .719, .733, .752, .760, .773, .786, & .544, .555, .565, .573, .583, .593, & .610, .628, .655, .666, .692, .719, & ! seasalt Super Coarse soluble (SS) .727, .747, .755, .761, .770, .788, & .792, .799, .805, .809, .815, .826, & .717, .738, .745, .752, .761, .779, & .781, .786, .793, .797, .803, .813, & ! seasalt Coarse soluble (CS) .727, .747, .755, .761, .770, .788, & .792, .799, .805, .809, .815, .826, & .717, .738, .745, .752, .761, .779, & .781, .786, .793, .797, .803, .813, & ! Sesalt Accumulation Soluble (AS) .727, .741, .748, .754, .761, .782, & .787, .792, .797, .799, .801, .799, & .606, .645, .658, .669, .681, .726, & .734, .746, .761, .770, .782, .798/ DATA cg_aeri_2bands/ & ! dust insoluble .701, .670, & ! bc insoluble .471, .297, & ! pom insoluble .568, .365/ DATA piz_aers_2bands/& ! bc soluble .445, .445, .445, .445, .445, .445, & .445, .445, .461, .480, .505, .528, & .362, .362, .362, .362, .362, .362, & .362, .362, .381, .405, .437, .483, & ! pom soluble .972, .972, .972, .972, .972, .974, & .976, .979, .982, .986, .989, .992, & .924, .924, .924, .924, .925, .927, & .932, .938, .945, .952, .961, .970, & ! sulfate 1.000,1.000,1.000,1.000,1.000,1.000, & 1.000,1.000,1.000,1.000,1.000,1.000, & .992, .988, .988, .987, .986, .985, & .985, .985, .984, .984, .984, .984, & ! sulfate coarse 1.000,1.000,1.000,1.000,1.000,1.000, & 1.000,1.000,1.000,1.000,1.000,1.000, & .992, .988, .988, .987, .986, .985, & .985, .985, .984, .984, .984, .984, & ! seasalt Super Coarse Soluble (SS) 1.000,1.000,1.000,1.000,1.000,1.000, & 1.000,1.000,1.000,1.000,1.000,1.000, & 0.992,0.989,0.987,0.986,0.986,0.980, & 0.980,0.978,0.976,0.976,0.974,0.971, & ! seasalt Coarse soluble (CS) 1.000,1.000,1.000,1.000,1.000,1.000, & 1.000,1.000,1.000,1.000,1.000,1.000, & 0.992,0.989,0.987,0.986,0.986,0.980, & 0.980,0.978,0.976,0.976,0.974,0.971, & ! seasalt Accumulation Soluble (AS) 1.000, 1.000, 1.000, 1.000, 1.000, 1.000, & 1.000, 1.000, 1.000, 1.000, 1.000, 1.000, & 0.970, 0.975, 0.976, 0.977, 0.978, 0.982, & 0.982, 0.983, 0.984, 0.984, 0.985, 0.985/ DATA piz_aeri_2bands/ & ! dust insoluble .963, .987, & ! bc insoluble .395, .264, & ! pom insoluble .966, .859/ ! Interpolation des coefficients optiques de 19 niveaux vers le nombre des niveaux du model IF (firstcall) THEN firstcall=.FALSE. IF (.NOT. ALLOCATED(A1_ASSSM_b1)) THEN ALLOCATE(A1_ASSSM_b1(klev),A2_ASSSM_b1(klev), A3_ASSSM_b1(klev),& B1_ASSSM_b1(klev), B2_ASSSM_b1(klev), C1_ASSSM_b1(klev), C2_ASSSM_b1(klev),& A1_CSSSM_b1(klev), A2_CSSSM_b1(klev), A3_CSSSM_b1(klev),& B1_CSSSM_b1(klev), B2_CSSSM_b1(klev), C1_CSSSM_b1(klev), C2_CSSSM_b1(klev),& A1_SSSSM_b1(klev), A2_SSSSM_b1(klev), A3_SSSSM_b1(klev),& B1_SSSSM_b1(klev), B2_SSSSM_b1(klev), C1_SSSSM_b1(klev), C2_SSSSM_b1(klev),& A1_ASSSM_b2(klev), A2_ASSSM_b2(klev), A3_ASSSM_b2(klev),& B1_ASSSM_b2(klev), B2_ASSSM_b2(klev), C1_ASSSM_b2(klev), C2_ASSSM_b2(klev),& A1_CSSSM_b2(klev), A2_CSSSM_b2(klev), A3_CSSSM_b2(klev),& B1_CSSSM_b2(klev), B2_CSSSM_b2(klev), C1_CSSSM_b2(klev), C2_CSSSM_b2(klev),& A1_SSSSM_b2(klev), A2_SSSSM_b2(klev), A3_SSSSM_b2(klev),& B1_SSSSM_b2(klev), B2_SSSSM_b2(klev), C1_SSSSM_b2(klev), C2_SSSSM_b2(klev), stat=ierr) IF (ierr /= 0) CALL abort_physic('aeropt_2bands', 'pb in allocation 1',1) END IF ! bande 1 CALL pres2lev(A1_ASSSM_b1_19, A1_ASSSM_b1, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(A2_ASSSM_b1_19, A2_ASSSM_b1, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(A3_ASSSM_b1_19, A3_ASSSM_b1, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(B1_ASSSM_b1_19, B1_ASSSM_b1, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(B2_ASSSM_b1_19, B2_ASSSM_b1, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(C1_ASSSM_b1_19, C1_ASSSM_b1, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(C2_ASSSM_b1_19, C2_ASSSM_b1, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(A1_CSSSM_b1_19, A1_CSSSM_b1, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(A2_CSSSM_b1_19, A2_CSSSM_b1, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(A3_CSSSM_b1_19, A3_CSSSM_b1, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(B1_CSSSM_b1_19, B1_CSSSM_b1, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(B2_CSSSM_b1_19, B2_CSSSM_b1, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(C1_CSSSM_b1_19, C1_CSSSM_b1, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(C2_CSSSM_b1_19, C2_CSSSM_b1, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(A1_SSSSM_b1_19, A1_SSSSM_b1, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(A2_SSSSM_b1_19, A2_SSSSM_b1, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(A3_SSSSM_b1_19, A3_SSSSM_b1, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(B1_SSSSM_b1_19, B1_SSSSM_b1, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(B2_SSSSM_b1_19, B2_SSSSM_b1, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(C1_SSSSM_b1_19, C1_SSSSM_b1, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(C2_SSSSM_b1_19, C2_SSSSM_b1, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) ! bande 2 CALL pres2lev(A1_ASSSM_b2_19, A1_ASSSM_b2, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(A2_ASSSM_b2_19, A2_ASSSM_b2, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(A3_ASSSM_b2_19, A3_ASSSM_b2, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(B1_ASSSM_b2_19, B1_ASSSM_b2, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(B2_ASSSM_b2_19, B2_ASSSM_b2, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(C1_ASSSM_b2_19, C1_ASSSM_b2, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(C2_ASSSM_b2_19, C2_ASSSM_b2, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(A1_CSSSM_b2_19, A1_CSSSM_b2, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(A2_CSSSM_b2_19, A2_CSSSM_b2, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(A3_CSSSM_b2_19, A3_CSSSM_b2, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(B1_CSSSM_b2_19, B1_CSSSM_b2, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(B2_CSSSM_b2_19, B2_CSSSM_b2, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(C1_CSSSM_b2_19, C1_CSSSM_b2, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(C2_CSSSM_b2_19, C2_CSSSM_b2, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(A1_SSSSM_b2_19, A1_SSSSM_b2, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(A2_SSSSM_b2_19, A2_SSSSM_b2, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(A3_SSSSM_b2_19, A3_SSSSM_b2, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(B1_SSSSM_b2_19, B1_SSSSM_b2, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(B2_SSSSM_b2_19, B2_SSSSM_b2, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(C1_SSSSM_b2_19, C1_SSSSM_b2, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) CALL pres2lev(C2_SSSSM_b2_19, C2_SSSSM_b2, nb_level, klev, presnivs_19, presnivs, 1, 1, .FALSE.) END IF ! firstcall DO k=1, klev DO i=1, klon zrho=pplay(i,k)/t_seri(i,k)/RD ! kg/m3 zdh(i,k)=pdel(i,k)/(RG*zrho) ! m ENDDO ENDDO IF (flag_aerosol .EQ. 1) THEN nb_aer = 2 ALLOCATE (aerosol_name(nb_aer)) aerosol_name(1) = id_ASSO4M_phy aerosol_name(2) = id_CSSO4M_phy ELSEIF (flag_aerosol .EQ. 2) THEN nb_aer = 2 ALLOCATE (aerosol_name(nb_aer)) aerosol_name(1) = id_ASBCM_phy aerosol_name(2) = id_AIBCM_phy ELSEIF (flag_aerosol .EQ. 3) THEN nb_aer = 2 ALLOCATE (aerosol_name(nb_aer)) aerosol_name(1) = id_ASPOMM_phy aerosol_name(2) = id_AIPOMM_phy ELSEIF (flag_aerosol .EQ. 4) THEN nb_aer = 3 ALLOCATE (aerosol_name(nb_aer)) aerosol_name(1) = id_CSSSM_phy aerosol_name(2) = id_SSSSM_phy aerosol_name(3) = id_ASSSM_phy ELSEIF (flag_aerosol .EQ. 5) THEN nb_aer = 1 ALLOCATE (aerosol_name(nb_aer)) aerosol_name(1) = id_CIDUSTM_phy ELSEIF (flag_aerosol .EQ. 6) THEN nb_aer = 10 ALLOCATE (aerosol_name(nb_aer)) aerosol_name(1) = id_ASSO4M_phy aerosol_name(2) = id_ASBCM_phy aerosol_name(3) = id_AIBCM_phy aerosol_name(4) = id_ASPOMM_phy aerosol_name(5) = id_AIPOMM_phy aerosol_name(6) = id_CSSSM_phy aerosol_name(7) = id_SSSSM_phy aerosol_name(8) = id_ASSSM_phy aerosol_name(9) = id_CIDUSTM_phy aerosol_name(10)= id_CSSO4M_phy ENDIF ! ! loop over modes, use of precalculated nmd and corresponding sigma ! loop over wavelengths ! for each mass species in mode ! interpolate from Sext to retrieve Sext_at_gridpoint_per_species ! compute optical_thickness_at_gridpoint_per_species !CDIR ON_ADB(fact_RH) !CDIR SHORTLOOP DO n=1,nbre_RH-1 fact_RH(n)=1./(RH_tab(n+1)-RH_tab(n)) ENDDO DO k=1, KLEV !CDIR ON_ADB(fact_RH) DO i=1, KLON rh(i,k)=MIN(RHcl(i,k)*100.,RH_MAX) RH_num(i,k) = INT( rh(i,k)/10. + 1.) IF (rh(i,k).GT.85.) RH_num(i,k)=10 IF (rh(i,k).GT.90.) RH_num(i,k)=11 DELTA(i,k)=(rh(i,k)-RH_tab(RH_num(i,k)))*fact_RH(RH_num(i,k)) ENDDO ENDDO used_aer(:)=.FALSE. DO m=1,nb_aer ! tau is only computed for each mass fac=1.0 IF (aerosol_name(m).EQ.id_ASBCM_phy) THEN soluble=.TRUE. spsol=1 spss=0 ELSEIF (aerosol_name(m).EQ.id_ASPOMM_phy) THEN soluble=.TRUE. spsol=2 spss=0 ELSEIF (aerosol_name(m).EQ.id_ASSO4M_phy) THEN soluble=.TRUE. spsol=3 spss=0 fac=1.375 ! (NH4)2-SO4/SO4 132/96 mass conversion factor for OD ELSEIF (aerosol_name(m).EQ.id_CSSO4M_phy) THEN soluble=.TRUE. spsol=4 spss=0 fac=1.375 ! (NH4)2-SO4/SO4 132/96 mass conversion factor for OD ELSEIF (aerosol_name(m).EQ.id_SSSSM_phy) THEN soluble=.TRUE. spsol=5 spss=3 ELSEIF (aerosol_name(m).EQ.id_CSSSM_phy) THEN soluble=.TRUE. spsol=6 spss=2 ELSEIF (aerosol_name(m).EQ.id_ASSSM_phy) THEN soluble=.TRUE. spsol=7 spss=1 ELSEIF (aerosol_name(m).EQ.id_CIDUSTM_phy) THEN soluble=.FALSE. spinsol=1 spss=0 ELSEIF (aerosol_name(m).EQ.id_AIBCM_phy) THEN soluble=.FALSE. spinsol=2 spss=0 ELSEIF (aerosol_name(m).EQ.id_AIPOMM_phy) THEN soluble=.FALSE. spinsol=3 spss=0 ELSE CYCLE ENDIF id=aerosol_name(m) used_aer(id)=.TRUE. IF (soluble) THEN IF (spss.NE.0) THEN IF (spss.EQ.1) THEN !accumulation mode DO k=1, KLEV !CDIR ON_ADB(A1_ASSSM_b1) !CDIR ON_ADB(A2_ASSSM_b1) !CDIR ON_ADB(A3_ASSSM_b1) !CDIR ON_ADB(B1_ASSSM_b1) !CDIR ON_ADB(B2_ASSSM_b1) !CDIR ON_ADB(C1_ASSSM_b1) !CDIR ON_ADB(C2_ASSSM_b2) !CDIR ON_ADB(A1_ASSSM_b2) !CDIR ON_ADB(A2_ASSSM_b2) !CDIR ON_ADB(A3_ASSSM_b2) !CDIR ON_ADB(B1_ASSSM_b2) !CDIR ON_ADB(B2_ASSSM_b2) !CDIR ON_ADB(C1_ASSSM_b2) !CDIR ON_ADB(C2_ASSSM_b2) DO i=1, KLON H=rh(i,k)/100 tmp_var=m_allaer(i,k,spsol)/1.e6*zdh(i,k)*fac tmp_var_pi=m_allaer_pi(i,k,spsol)/1.e6*zdh(i,k)*fac ! band 1 tau_ae2b_int=A1_ASSSM_b1(k)+A2_ASSSM_b1(k)*H+A3_ASSSM_b1(k)/(H-1.05) piz_ae2b_int=1-B1_ASSSM_b1(k)-B2_ASSSM_b1(k)*H cg_ae2b_int=C1_ASSSM_b1(k)+C2_ASSSM_b1(k)*H tau_ae(i,k,id,1) = tmp_var*tau_ae2b_int tau_ae_pi(i,k,id,1) = tmp_var_pi* tau_ae2b_int piz_ae(i,k,id,1) = piz_ae2b_int cg_ae(i,k,id,1)= cg_ae2b_int !band 2 tau_ae2b_int=A1_ASSSM_b2(k)+A2_ASSSM_b2(k)*H+A3_ASSSM_b2(k)/(H-1.05) piz_ae2b_int=1-B1_ASSSM_b2(k)-B2_ASSSM_b2(k)*H cg_ae2b_int=C1_ASSSM_b2(k)+C2_ASSSM_b2(k)*H tau_ae(i,k,id,2) = tmp_var*tau_ae2b_int tau_ae_pi(i,k,id,2) = tmp_var_pi* tau_ae2b_int piz_ae(i,k,id,2) = piz_ae2b_int cg_ae(i,k,id,2)= cg_ae2b_int ENDDO ENDDO ENDIF IF (spss.EQ.2) THEN !coarse mode DO k=1, KLEV !CDIR ON_ADB(A1_CSSSM_b1) !CDIR ON_ADB(A2_CSSSM_b1) !CDIR ON_ADB(A3_CSSSM_b1) !CDIR ON_ADB(B1_CSSSM_b1) !CDIR ON_ADB(B2_CSSSM_b1) !CDIR ON_ADB(C1_CSSSM_b1) !CDIR ON_ADB(C2_CSSSM_b2) !CDIR ON_ADB(A1_CSSSM_b2) !CDIR ON_ADB(A2_CSSSM_b2) !CDIR ON_ADB(A3_CSSSM_b2) !CDIR ON_ADB(B1_CSSSM_b2) !CDIR ON_ADB(B2_CSSSM_b2) !CDIR ON_ADB(C1_CSSSM_b2) !CDIR ON_ADB(C2_CSSSM_b2) DO i=1, KLON H=rh(i,k)/100 tmp_var=m_allaer(i,k,spsol)/1.e6*zdh(i,k)*fac tmp_var_pi=m_allaer_pi(i,k,spsol)/1.e6*zdh(i,k)*fac ! band 1 tau_ae2b_int=A1_CSSSM_b1(k)+A2_CSSSM_b1(k)*H+A3_CSSSM_b1(k)/(H-1.05) piz_ae2b_int=1-B1_CSSSM_b1(k)-B2_CSSSM_b1(k)*H cg_ae2b_int=C1_CSSSM_b1(k)+C2_CSSSM_b1(k)*H tau_ae(i,k,id,1) = tmp_var*tau_ae2b_int tau_ae_pi(i,k,id,1) = tmp_var_pi* tau_ae2b_int piz_ae(i,k,id,1) = piz_ae2b_int cg_ae(i,k,id,1)= cg_ae2b_int ! band 2 tau_ae2b_int=A1_CSSSM_b2(k)+A2_CSSSM_b2(k)*H+A3_CSSSM_b2(k)/(H-1.05) piz_ae2b_int=1-B1_CSSSM_b2(k)-B2_CSSSM_b2(k)*H cg_ae2b_int=C1_CSSSM_b2(k)+C2_CSSSM_b2(k)*H tau_ae(i,k,id,2) = tmp_var*tau_ae2b_int tau_ae_pi(i,k,id,2) = tmp_var_pi* tau_ae2b_int piz_ae(i,k,id,2) = piz_ae2b_int cg_ae(i,k,id,2)= cg_ae2b_int ENDDO ENDDO ENDIF IF (spss.EQ.3) THEN !super coarse mode DO k=1, KLEV !CDIR ON_ADB(A1_SSSSM_b1) !CDIR ON_ADB(A2_SSSSM_b1) !CDIR ON_ADB(A3_SSSSM_b1) !CDIR ON_ADB(B1_SSSSM_b1) !CDIR ON_ADB(B2_SSSSM_b1) !CDIR ON_ADB(C1_SSSSM_b1) !CDIR ON_ADB(C2_SSSSM_b2) !CDIR ON_ADB(A1_SSSSM_b2) !CDIR ON_ADB(A2_SSSSM_b2) !CDIR ON_ADB(A3_SSSSM_b2) !CDIR ON_ADB(B1_SSSSM_b2) !CDIR ON_ADB(B2_SSSSM_b2) !CDIR ON_ADB(C1_SSSSM_b2) !CDIR ON_ADB(C2_SSSSM_b2) DO i=1, KLON H=rh(i,k)/100 tmp_var=m_allaer(i,k,spsol)/1.e6*zdh(i,k)*fac tmp_var_pi=m_allaer_pi(i,k,spsol)/1.e6*zdh(i,k)*fac ! band 1 tau_ae2b_int=A1_SSSSM_b1(k)+A2_SSSSM_b1(k)*H+A3_SSSSM_b1(k)/(H-1.05) piz_ae2b_int=1-B1_SSSSM_b1(k)-B2_SSSSM_b1(k)*H cg_ae2b_int=C1_SSSSM_b1(k)+C2_SSSSM_b1(k)*H tau_ae(i,k,id,1) = tmp_var*tau_ae2b_int tau_ae_pi(i,k,id,1) = tmp_var_pi* tau_ae2b_int piz_ae(i,k,id,1) = piz_ae2b_int cg_ae(i,k,id,1)= cg_ae2b_int ! band 2 tau_ae2b_int=A1_SSSSM_b2(k)+A2_SSSSM_b2(k)*H+A3_SSSSM_b2(k)/(H-1.05) piz_ae2b_int=1-B1_SSSSM_b2(k)-B2_SSSSM_b2(k)*H cg_ae2b_int=C1_SSSSM_b2(k)+C2_SSSSM_b2(k)*H tau_ae(i,k,id,2) = tmp_var*tau_ae2b_int tau_ae_pi(i,k,id,2) = tmp_var_pi* tau_ae2b_int piz_ae(i,k,id,2) = piz_ae2b_int cg_ae(i,k,id,2)= cg_ae2b_int ENDDO ENDDO ENDIF ELSE !CDIR ON_ADB(alpha_aers_2bands) !CDIR ON_ADB(piz_aers_2bands) !CDIR ON_ADB(cg_aers_2bands) DO k=1, KLEV DO i=1, KLON tmp_var=m_allaer(i,k,spsol)/1.e6*zdh(i,k)*fac tmp_var_pi=m_allaer_pi(i,k,spsol)/1.e6*zdh(i,k)*fac !CDIR UNROLL=nbands DO inu=1,nbands tau_ae2b_int= alpha_aers_2bands(RH_num(i,k),inu,spsol)+ & DELTA(i,k)* (alpha_aers_2bands(RH_num(i,k)+1,inu,spsol) - & alpha_aers_2bands(RH_num(i,k),inu,spsol)) piz_ae2b_int = piz_aers_2bands(RH_num(i,k),inu,spsol) + & DELTA(i,k)* (piz_aers_2bands(RH_num(i,k)+1,inu,spsol) - & piz_aers_2bands(RH_num(i,k),inu,spsol)) cg_ae2b_int = cg_aers_2bands(RH_num(i,k),inu,spsol) + & DELTA(i,k)* (cg_aers_2bands(RH_num(i,k)+1,inu,spsol) - & cg_aers_2bands(RH_num(i,k),inu,spsol)) tau_ae(i,k,id,inu) = tmp_var*tau_ae2b_int tau_ae_pi(i,k,id,inu) = tmp_var_pi* tau_ae2b_int piz_ae(i,k,id,inu) = piz_ae2b_int cg_ae(i,k,id,inu)= cg_ae2b_int ENDDO ENDDO ENDDO ENDIF ELSE ! For all aerosol insoluble components !CDIR ON_ADB(alpha_aers_2bands) !CDIR ON_ADB(piz_aers_2bands) !CDIR ON_ADB(cg_aers_2bands) DO k=1, KLEV DO i=1, KLON tmp_var=m_allaer(i,k,naero_soluble+spinsol)/1.e6*zdh(i,k)*fac tmp_var_pi=m_allaer_pi(i,k,naero_soluble+spinsol)/1.e6*zdh(i,k)*fac !CDIR UNROLL=nbands DO inu=1,nbands tau_ae2b_int = alpha_aeri_2bands(inu,spinsol) piz_ae2b_int = piz_aeri_2bands(inu,spinsol) cg_ae2b_int = cg_aeri_2bands(inu,spinsol) tau_ae(i,k,id,inu) = tmp_var*tau_ae2b_int tau_ae_pi(i,k,id,inu) = tmp_var_pi*tau_ae2b_int piz_ae(i,k,id,inu) = piz_ae2b_int cg_ae(i,k,id,inu)= cg_ae2b_int ENDDO ENDDO ENDDO ENDIF ! soluble ENDDO ! nb_aer !correction bug OB ! DO m=1,nb_aer DO m=1,naero_tot IF (.NOT. used_aer(m)) THEN tau_ae(:,:,m,:)=0. tau_ae_pi(:,:,m,:)=0. piz_ae(:,:,m,:)=0. cg_ae(:,:,m,:)=0. ENDIF ENDDO DO inu=1, nbands !!DO mrfspecies=1,naero_grp DO mrfspecies=2,3 !--only deal with total and natural aerosols IF (mrfspecies .EQ. 2) THEN ! = total aerosol AER DO k=1, KLEV DO i=1, KLON tau_allaer(i,k,mrfspecies,inu)=tau_ae(i,k,id_ASSO4M_phy,inu)+tau_ae(i,k,id_CSSO4M_phy,inu)+ & tau_ae(i,k,id_ASBCM_phy,inu)+tau_ae(i,k,id_AIBCM_phy,inu)+ & tau_ae(i,k,id_ASPOMM_phy,inu)+tau_ae(i,k,id_AIPOMM_phy,inu)+ & tau_ae(i,k,id_ASSSM_phy,inu)+tau_ae(i,k,id_CSSSM_phy,inu)+ & tau_ae(i,k,id_SSSSM_phy,inu)+ tau_ae(i,k,id_CIDUSTM_phy,inu) tau_allaer(i,k,mrfspecies,inu)=MAX(tau_allaer(i,k,mrfspecies,inu),1e-5) piz_allaer(i,k,mrfspecies,inu)=(tau_ae(i,k,id_ASSO4M_phy,inu)*piz_ae(i,k,id_ASSO4M_phy,inu)+ & tau_ae(i,k,id_CSSO4M_phy,inu)*piz_ae(i,k,id_CSSO4M_phy,inu)+ & tau_ae(i,k,id_ASBCM_phy,inu)*piz_ae(i,k,id_ASBCM_phy,inu)+ & tau_ae(i,k,id_AIBCM_phy,inu)*piz_ae(i,k,id_AIBCM_phy,inu)+ & tau_ae(i,k,id_ASPOMM_phy,inu)*piz_ae(i,k,id_ASPOMM_phy,inu)+ & tau_ae(i,k,id_AIPOMM_phy,inu)*piz_ae(i,k,id_AIPOMM_phy,inu)+ & tau_ae(i,k,id_ASSSM_phy,inu)*piz_ae(i,k,id_ASSSM_phy,inu)+ & tau_ae(i,k,id_CSSSM_phy,inu)*piz_ae(i,k,id_CSSSM_phy,inu)+ & tau_ae(i,k,id_SSSSM_phy,inu)*piz_ae(i,k,id_SSSSM_phy,inu)+ & tau_ae(i,k,id_CIDUSTM_phy,inu)*piz_ae(i,k,id_CIDUSTM_phy,inu)) & /tau_allaer(i,k,mrfspecies,inu) piz_allaer(i,k,mrfspecies,inu)=MAX(piz_allaer(i,k,mrfspecies,inu),0.1) cg_allaer(i,k,mrfspecies,inu)=(tau_ae(i,k,id_ASSO4M_phy,inu)* & piz_ae(i,k,id_ASSO4M_phy,inu)*cg_ae(i,k,id_ASSO4M_phy,inu)+ & tau_ae(i,k,id_CSSO4M_phy,inu)*piz_ae(i,k,id_CSSO4M_phy,inu)* & cg_ae(i,k,id_CSSO4M_phy,inu)+ & tau_ae(i,k,id_ASBCM_phy,inu)*piz_ae(i,k,id_ASBCM_phy,inu)* & cg_ae(i,k,id_ASBCM_phy,inu)+ & tau_ae(i,k,id_AIBCM_phy,inu)*piz_ae(i,k,id_AIBCM_phy,inu)* & cg_ae(i,k,id_AIBCM_phy,inu)+ & tau_ae(i,k,id_ASPOMM_phy,inu)*piz_ae(i,k,id_ASPOMM_phy,inu)* & cg_ae(i,k,id_ASPOMM_phy,inu)+ & tau_ae(i,k,id_AIPOMM_phy,inu)*piz_ae(i,k,id_AIPOMM_phy,inu)* & cg_ae(i,k,id_AIPOMM_phy,inu)+ & tau_ae(i,k,id_ASSSM_phy,inu)*piz_ae(i,k,id_ASSSM_phy,inu)* & cg_ae(i,k,id_ASSSM_phy,inu)+ & tau_ae(i,k,id_CSSSM_phy,inu)*piz_ae(i,k,id_CSSSM_phy,inu)* & cg_ae(i,k,id_CSSSM_phy,inu)+ & tau_ae(i,k,id_SSSSM_phy,inu)*piz_ae(i,k,id_SSSSM_phy,inu)* & cg_ae(i,k,id_SSSSM_phy,inu)+ & tau_ae(i,k,id_CIDUSTM_phy,inu)*piz_ae(i,k,id_CIDUSTM_phy,inu)* & cg_ae(i,k,id_CIDUSTM_phy,inu))/ & (tau_allaer(i,k,mrfspecies,inu)*piz_allaer(i,k,mrfspecies,inu)) ENDDO ENDDO ELSEIF (mrfspecies .EQ. 3) THEN ! = natural aerosol NAT DO k=1, KLEV DO i=1, KLON tau_allaer(i,k,mrfspecies,inu)=tau_ae_pi(i,k,id_ASSO4M_phy,inu)+ & tau_ae_pi(i,k,id_CSSO4M_phy,inu)+ & tau_ae_pi(i,k,id_ASBCM_phy,inu)+ & tau_ae_pi(i,k,id_AIBCM_phy,inu)+ & tau_ae_pi(i,k,id_ASPOMM_phy,inu)+ & tau_ae_pi(i,k,id_AIPOMM_phy,inu)+ & tau_ae_pi(i,k,id_ASSSM_phy,inu)+ & tau_ae_pi(i,k,id_CSSSM_phy,inu)+ & tau_ae_pi(i,k,id_SSSSM_phy,inu)+ & tau_ae_pi(i,k,id_CIDUSTM_phy,inu) tau_allaer(i,k,mrfspecies,inu)=MAX(tau_allaer(i,k,mrfspecies,inu),1e-5) piz_allaer(i,k,mrfspecies,inu)=(tau_ae_pi(i,k,id_ASSO4M_phy,inu)*piz_ae(i,k,id_ASSO4M_phy,inu)+ & tau_ae_pi(i,k,id_CSSO4M_phy,inu)*piz_ae(i,k,id_CSSO4M_phy,inu)+ & tau_ae_pi(i,k,id_ASBCM_phy,inu)*piz_ae(i,k,id_ASBCM_phy,inu)+ & tau_ae_pi(i,k,id_AIBCM_phy,inu)*piz_ae(i,k,id_AIBCM_phy,inu)+ & tau_ae_pi(i,k,id_ASPOMM_phy,inu)*piz_ae(i,k,id_ASPOMM_phy,inu)+ & tau_ae_pi(i,k,id_AIPOMM_phy,inu)*piz_ae(i,k,id_AIPOMM_phy,inu)+ & tau_ae_pi(i,k,id_ASSSM_phy,inu)*piz_ae(i,k,id_ASSSM_phy,inu)+ & tau_ae_pi(i,k,id_CSSSM_phy,inu)*piz_ae(i,k,id_CSSSM_phy,inu)+ & tau_ae_pi(i,k,id_SSSSM_phy,inu)*piz_ae(i,k,id_SSSSM_phy,inu)+ & tau_ae_pi(i,k,id_CIDUSTM_phy,inu)*piz_ae(i,k,id_CIDUSTM_phy,inu)) & /tau_allaer(i,k,mrfspecies,inu) piz_allaer(i,k,mrfspecies,inu)=MAX(piz_allaer(i,k,mrfspecies,inu),0.1) cg_allaer(i,k,mrfspecies,inu)=(& tau_ae_pi(i,k,id_ASSO4M_phy,inu)*piz_ae(i,k,id_ASSO4M_phy,inu)*cg_ae(i,k,id_ASSO4M_phy,inu)+ & tau_ae_pi(i,k,id_CSSO4M_phy,inu)*piz_ae(i,k,id_CSSO4M_phy,inu)*cg_ae(i,k,id_CSSO4M_phy,inu)+ & tau_ae_pi(i,k,id_ASBCM_phy,inu)*piz_ae(i,k,id_ASBCM_phy,inu)*cg_ae(i,k,id_ASBCM_phy,inu)+ & tau_ae_pi(i,k,id_AIBCM_phy,inu)*piz_ae(i,k,id_AIBCM_phy,inu)*cg_ae(i,k,id_AIBCM_phy,inu)+ & tau_ae_pi(i,k,id_ASPOMM_phy,inu)*piz_ae(i,k,id_ASPOMM_phy,inu)*cg_ae(i,k,id_ASPOMM_phy,inu)+ & tau_ae_pi(i,k,id_AIPOMM_phy,inu)*piz_ae(i,k,id_AIPOMM_phy,inu)*cg_ae(i,k,id_AIPOMM_phy,inu)+ & tau_ae_pi(i,k,id_ASSSM_phy,inu)*piz_ae(i,k,id_ASSSM_phy,inu)*cg_ae(i,k,id_ASSSM_phy,inu)+ & tau_ae_pi(i,k,id_CSSSM_phy,inu)*piz_ae(i,k,id_CSSSM_phy,inu)*cg_ae(i,k,id_CSSSM_phy,inu)+ & tau_ae_pi(i,k,id_SSSSM_phy,inu)*piz_ae(i,k,id_SSSSM_phy,inu)*cg_ae(i,k,id_SSSSM_phy,inu)+ & tau_ae_pi(i,k,id_CIDUSTM_phy,inu)*piz_ae(i,k,id_CIDUSTM_phy,inu)*& cg_ae(i,k,id_CIDUSTM_phy,inu))/ & (tau_allaer(i,k,mrfspecies,inu)*piz_allaer(i,k,mrfspecies,inu)) ENDDO ENDDO ELSEIF (mrfspecies .EQ. 4) THEN ! = BC DO k=1, KLEV DO i=1, KLON tau_allaer(i,k,mrfspecies,inu)=tau_ae(i,k,id_ASBCM_phy,inu)+tau_ae(i,k,id_AIBCM_phy,inu) tau_allaer(i,k,mrfspecies,inu)=MAX(tau_allaer(i,k,mrfspecies,inu),1e-5) piz_allaer(i,k,mrfspecies,inu)=(tau_ae(i,k,id_ASBCM_phy,inu)*piz_ae(i,k,id_ASBCM_phy,inu) & +tau_ae(i,k,id_AIBCM_phy,inu)*piz_ae(i,k,id_AIBCM_phy,inu))/ & tau_allaer(i,k,mrfspecies,inu) piz_allaer(i,k,mrfspecies,inu)=MAX(piz_allaer(i,k,mrfspecies,inu),0.1) cg_allaer(i,k,mrfspecies,inu)=(tau_ae(i,k,id_ASBCM_phy,inu)*piz_ae(i,k,id_ASBCM_phy,inu) *cg_ae(i,k,id_ASBCM_phy,inu)& +tau_ae(i,k,id_AIBCM_phy,inu)*piz_ae(i,k,id_AIBCM_phy,inu)*cg_ae(i,k,id_AIBCM_phy,inu))/ & (tau_allaer(i,k,mrfspecies,inu)*piz_allaer(i,k,mrfspecies,inu)) ENDDO ENDDO ELSEIF (mrfspecies .EQ. 5) THEN ! = SO4 DO k=1, KLEV DO i=1, KLON tau_allaer(i,k,mrfspecies,inu)=tau_ae(i,k,id_ASSO4M_phy,inu)+tau_ae(i,k,id_CSSO4M_phy,inu) tau_allaer(i,k,mrfspecies,inu)=MAX(tau_allaer(i,k,mrfspecies,inu),1e-5) piz_allaer(i,k,mrfspecies,inu)=(tau_ae(i,k,id_CSSO4M_phy,inu)*piz_ae(i,k,id_CSSO4M_phy,inu) & +tau_ae(i,k,id_ASSO4M_phy,inu)*piz_ae(i,k,id_ASSO4M_phy,inu))/ & tau_allaer(i,k,mrfspecies,inu) piz_allaer(i,k,mrfspecies,inu)=MAX(piz_allaer(i,k,mrfspecies,inu),0.1) cg_allaer(i,k,mrfspecies,inu)=(tau_ae(i,k,id_CSSO4M_phy,inu)* & piz_ae(i,k,id_CSSO4M_phy,inu) *cg_ae(i,k,id_CSSO4M_phy,inu)& +tau_ae(i,k,id_ASSO4M_phy,inu)*piz_ae(i,k,id_ASSO4M_phy,inu)* & cg_ae(i,k,id_ASSO4M_phy,inu))/ & (tau_allaer(i,k,mrfspecies,inu)*piz_allaer(i,k,mrfspecies,inu)) ENDDO ENDDO ELSEIF (mrfspecies .EQ. 6) THEN ! = POM DO k=1, KLEV DO i=1, KLON tau_allaer(i,k,mrfspecies,inu)=tau_ae(i,k,id_ASPOMM_phy,inu)+tau_ae(i,k,id_AIPOMM_phy,inu) tau_allaer(i,k,mrfspecies,inu)=MAX(tau_allaer(i,k,mrfspecies,inu),1e-5) piz_allaer(i,k,mrfspecies,inu)=(tau_ae(i,k,id_ASPOMM_phy,inu)*piz_ae(i,k,id_ASPOMM_phy,inu) & +tau_ae(i,k,id_AIPOMM_phy,inu)*piz_ae(i,k,id_AIPOMM_phy,inu))/ & tau_allaer(i,k,mrfspecies,inu) piz_allaer(i,k,mrfspecies,inu)=MAX(piz_allaer(i,k,mrfspecies,inu),0.1) cg_allaer(i,k,mrfspecies,inu)=(tau_ae(i,k,id_ASPOMM_phy,inu)*piz_ae(i,k,id_ASPOMM_phy,inu)*cg_ae(i,k,id_ASPOMM_phy,inu)& +tau_ae(i,k,id_AIPOMM_phy,inu)*piz_ae(i,k,id_AIPOMM_phy,inu)*cg_ae(i,k,id_AIPOMM_phy,inu))/ & (tau_allaer(i,k,mrfspecies,inu)*piz_allaer(i,k,mrfspecies,inu)) ENDDO ENDDO ELSEIF (mrfspecies .EQ. 7) THEN ! = DUST DO k=1, KLEV DO i=1, KLON tau_allaer(i,k,mrfspecies,inu)=tau_ae(i,k,id_CIDUSTM_phy,inu) tau_allaer(i,k,mrfspecies,inu)=MAX(tau_allaer(i,k,mrfspecies,inu),1e-5) piz_allaer(i,k,mrfspecies,inu)=piz_ae(i,k,id_CIDUSTM_phy,inu) cg_allaer(i,k,mrfspecies,inu)=cg_ae(i,k,id_CIDUSTM_phy,inu) ENDDO ENDDO ELSEIF (mrfspecies .EQ. 8) THEN ! = SS DO k=1, KLEV DO i=1, KLON tau_allaer(i,k,mrfspecies,inu)=tau_ae(i,k,id_ASSSM_phy,inu)+tau_ae(i,k,id_CSSSM_phy,inu)+tau_ae(i,k,id_SSSSM_phy,inu) tau_allaer(i,k,mrfspecies,inu)=MAX(tau_allaer(i,k,mrfspecies,inu),1e-5) piz_allaer(i,k,mrfspecies,inu)=(tau_ae(i,k,id_ASSSM_phy,inu)*piz_ae(i,k,id_ASSSM_phy,inu) & +tau_ae(i,k,id_CSSSM_phy,inu)*piz_ae(i,k,id_CSSSM_phy,inu) & +tau_ae(i,k,id_SSSSM_phy,inu)*piz_ae(i,k,id_SSSSM_phy,inu))/ & tau_allaer(i,k,mrfspecies,inu) piz_allaer(i,k,mrfspecies,inu)=MAX(piz_allaer(i,k,mrfspecies,inu),0.1) cg_allaer(i,k,mrfspecies,inu)=(tau_ae(i,k,id_ASSSM_phy,inu)*piz_ae(i,k,id_ASSSM_phy,inu) *cg_ae(i,k,id_ASSSM_phy,inu)& +tau_ae(i,k,id_CSSSM_phy,inu)*piz_ae(i,k,id_CSSSM_phy,inu)*cg_ae(i,k,id_CSSSM_phy,inu) & +tau_ae(i,k,id_SSSSM_phy,inu)*piz_ae(i,k,id_SSSSM_phy,inu)*cg_ae(i,k,id_SSSSM_phy,inu))/ & (tau_allaer(i,k,mrfspecies,inu)*piz_allaer(i,k,mrfspecies,inu)) ENDDO ENDDO ELSEIF (mrfspecies .EQ. 9) THEN ! = NO3 DO k=1, KLEV DO i=1, KLON tau_allaer(i,k,mrfspecies,inu)=0. ! preliminary piz_allaer(i,k,mrfspecies,inu)=0. cg_allaer(i,k,mrfspecies,inu)=0. ENDDO ENDDO ELSE DO k=1, KLEV DO i=1, KLON tau_allaer(i,k,mrfspecies,inu)=0. piz_allaer(i,k,mrfspecies,inu)=0. cg_allaer(i,k,mrfspecies,inu)=0. ENDDO ENDDO ENDIF ENDDO ENDDO inu=1 ! visible waveband mrfspecies=2 ! total aerosol AER DO i=1, KLON absvisaer(i)=SUM((1-piz_allaer(i,:,mrfspecies,inu))*tau_allaer(i,:,mrfspecies,inu)) ENDDO DEALLOCATE(aerosol_name) END SUBROUTINE AEROPT_2BANDS