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2 | ! $Id: readaerosolstrato1_rrtm.F90 2526 2016-05-26 22:13:40Z oboucher $ |
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3 | ! |
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4 | |
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5 | SUBROUTINE readaerosolstrato1_rrtm(debut) |
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6 | |
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7 | USE netcdf95, ONLY: nf95_close, nf95_gw_var, nf95_inq_dimid, & |
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8 | nf95_inq_varid, nf95_open |
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9 | USE netcdf, ONLY: nf90_get_var, nf90_noerr, nf90_nowrite |
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10 | |
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11 | USE phys_cal_mod, ONLY : mth_cur |
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12 | USE lmdz_grid_phy, ONLY: nbp_lon, nbp_lat, klon_glo, grid2dTo1d_glo, grid_type, unstructured |
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13 | USE lmdz_phys_para |
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14 | USE phys_state_var_mod |
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15 | USE phys_local_var_mod |
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16 | USE aero_mod |
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17 | USE dimphy |
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18 | USE YOERAD, ONLY : NLW |
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19 | USE YOMCST |
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20 | USE lmdz_xios |
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21 | |
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22 | IMPLICIT NONE |
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23 | |
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24 | ! Variable input |
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25 | LOGICAL debut |
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26 | |
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27 | ! Variables locales |
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28 | INTEGER n_lat ! number of latitudes in the input data |
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29 | INTEGER n_lon ! number of longitudes in the input data |
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30 | INTEGER n_lev ! number of levels in the input data |
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31 | INTEGER n_month ! number of months in the input data |
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32 | REAL, ALLOCATABLE:: latitude(:) |
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33 | REAL, ALLOCATABLE:: longitude(:) |
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34 | REAL, ALLOCATABLE:: time(:) |
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35 | REAL, ALLOCATABLE:: lev(:) |
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36 | INTEGER k, band, wave, i |
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37 | INTEGER, SAVE :: mth_pre=1 |
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38 | !$OMP THREADPRIVATE(mth_pre) |
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39 | |
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40 | REAL, ALLOCATABLE, DIMENSION(:,:), SAVE :: tau_aer_strat |
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41 | !$OMP THREADPRIVATE(tau_aer_strat) |
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42 | |
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43 | ! Champs reconstitues |
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44 | REAL, ALLOCATABLE:: tauaerstrat(:, :, :, :) |
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45 | REAL, ALLOCATABLE:: tauaerstrat_mois(:, :, :) |
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46 | REAL, ALLOCATABLE:: tauaerstrat_mois_glo(:, :) |
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47 | REAL, ALLOCATABLE:: tauaerstrat_mpi(:, :) |
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48 | |
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49 | ! For NetCDF: |
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50 | INTEGER ncid_in ! IDs for input files |
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51 | INTEGER varid, ncerr |
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52 | |
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53 | ! Stratospheric aerosols optical properties |
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54 | ! alpha_sw_strat over the 6 bands is normalised by the 550 nm extinction coefficient |
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55 | REAL, DIMENSION(nbands_sw_rrtm) :: alpha_sw_strat, piz_sw_strat, cg_sw_strat |
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56 | DATA alpha_sw_strat/0.8545564, 0.8451642, 0.9821724, 0.8145110, 0.3073565, 7.7966176E-02/ |
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57 | DATA cg_sw_strat /0.6997170, 0.6810035, 0.7403592, 0.7562674, 0.6676504, 0.3478689/ |
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58 | DATA piz_sw_strat /0.9999998, 0.9999998, 1.000000000, 0.9999958, 0.9977155, 0.4510679/ |
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59 | |
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60 | !--diagnostics AOD in the SW |
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61 | ! alpha_sw_strat_wave is *not* normalised by the 550 nm extinction coefficient |
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62 | REAL, DIMENSION(nwave_sw) :: alpha_sw_strat_wave |
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63 | DATA alpha_sw_strat_wave/3.708007,4.125824,4.136584,3.887478,3.507738/ |
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64 | |
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65 | !--diagnostics AOD in the LW at 10 um (not normalised by the 550 nm ext coefficient |
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66 | REAL :: alpha_lw_strat_wave(nwave_lw) |
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67 | DATA alpha_lw_strat_wave/0.2746812/ |
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68 | |
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69 | REAL, DIMENSION(nbands_lw_rrtm) :: alpha_lw_abs_rrtm |
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70 | DATA alpha_lw_abs_rrtm/ 8.8340312E-02, 6.9856711E-02, 6.2652975E-02, 5.7188231E-02, & |
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71 | 6.3157059E-02, 5.5072524E-02, 5.0571125E-02, 0.1349073, & |
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72 | 0.1381676, 9.6506312E-02, 5.1312990E-02, 2.4256418E-02, & |
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73 | 2.7191756E-02, 3.3862915E-02, 1.6132960E-02, 1.4275438E-02/ ! calculated with Mie_SW_LW_RRTM_V2.4 (bimodal, corrected) |
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74 | ! for r_0=/0.13E-6, 0.41E-6/ m, sigma_g=/1.26, 1.30/ |
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75 | ! order: increasing wavelength! |
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76 | !-------------------------------------------------------- |
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77 | |
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78 | IF (.not.ALLOCATED(tau_aer_strat)) ALLOCATE(tau_aer_strat(klon,klev)) |
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79 | |
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80 | !--we only read monthly strat aerosol data |
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81 | IF (debut.OR.mth_cur.NE.mth_pre) THEN |
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82 | |
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83 | !--only root reads the data |
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84 | IF (is_mpi_root.AND.is_omp_root) THEN |
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85 | |
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86 | IF (nbands_sw_rrtm.NE.6) THEN |
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87 | PRINT *,'nbands_sw_rrtm doit etre egal a 6 dans readaerosolstrat_rrtm' |
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88 | STOP |
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89 | ENDIF |
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90 | |
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91 | CALL nf95_open("taustrat.nc", nf90_nowrite, ncid_in) |
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92 | |
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93 | CALL nf95_inq_varid(ncid_in, "LEV", varid) |
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94 | CALL nf95_gw_var(ncid_in, varid, lev) |
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95 | n_lev = size(lev) |
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96 | IF (n_lev.NE.klev) THEN |
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97 | PRINT *,'Le nombre de niveaux n est pas egal a klev' |
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98 | STOP |
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99 | ENDIF |
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100 | |
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101 | CALL nf95_inq_varid(ncid_in, "LAT", varid) |
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102 | CALL nf95_gw_var(ncid_in, varid, latitude) |
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103 | n_lat = size(latitude) |
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104 | PRINT *, 'LAT aerosol strato=', n_lat, latitude |
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105 | |
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106 | IF (grid_type/=unstructured) THEN |
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107 | IF (n_lat.NE.nbp_lat) THEN |
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108 | PRINT *,'Le nombre de lat n est pas egal a nbp_lat' |
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109 | STOP |
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110 | ENDIF |
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111 | ENDIF |
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112 | |
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113 | CALL nf95_inq_varid(ncid_in, "LON", varid) |
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114 | CALL nf95_gw_var(ncid_in, varid, longitude) |
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115 | n_lon = size(longitude) |
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116 | PRINT *, 'LON aerosol strato=', n_lon, longitude |
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117 | |
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118 | IF (grid_type/=unstructured) THEN |
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119 | IF (n_lon.NE.nbp_lon) THEN |
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120 | PRINT *,'Le nombre de lon n est pas egal a nbp_lon' |
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121 | STOP |
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122 | ENDIF |
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123 | ENDIF |
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124 | |
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125 | |
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126 | CALL nf95_inq_varid(ncid_in, "TIME", varid) |
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127 | CALL nf95_gw_var(ncid_in, varid, time) |
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128 | n_month = size(time) |
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129 | PRINT *, 'TIME aerosol strato=', n_month, time |
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130 | IF (n_month.NE.12) THEN |
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131 | PRINT *,'Le nombre de month n est pas egal a 12' |
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132 | STOP |
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133 | ENDIF |
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134 | |
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135 | ALLOCATE(tauaerstrat(n_lon, n_lat, n_lev, n_month)) |
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136 | ALLOCATE(tauaerstrat_mois(n_lon, n_lat, n_lev)) |
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137 | ALLOCATE(tauaerstrat_mois_glo(klon_glo, n_lev)) |
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138 | |
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139 | !--reading stratospheric AOD at 550 nm |
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140 | CALL nf95_inq_varid(ncid_in, "TAUSTRAT", varid) |
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141 | ncerr = nf90_get_var(ncid_in, varid, tauaerstrat) |
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142 | PRINT *,'code erreur readaerosolstrato=', ncerr, varid |
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143 | |
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144 | CALL nf95_close(ncid_in) |
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145 | |
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146 | !---select the correct month |
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147 | IF (mth_cur.LT.1.OR.mth_cur.GT.12) THEN |
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148 | PRINT *,'probleme avec le mois dans readaerosolstrat =', mth_cur |
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149 | ENDIF |
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150 | tauaerstrat_mois(:,:,:) = tauaerstrat(:,:,:,mth_cur) |
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151 | |
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152 | !---reduce to a klon_glo grid |
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153 | CALL grid2dTo1d_glo(tauaerstrat_mois,tauaerstrat_mois_glo) |
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154 | |
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155 | ELSE |
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156 | ALLOCATE(tauaerstrat_mois(0,0,0)) |
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157 | ENDIF !--is_mpi_root and is_omp_root |
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158 | |
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159 | !$OMP BARRIER |
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160 | |
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161 | !--keep memory of previous month |
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162 | mth_pre=mth_cur |
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163 | |
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164 | !--scatter on all proc |
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165 | |
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166 | IF (grid_type==unstructured) THEN |
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167 | IF (is_omp_master) THEN |
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168 | ALLOCATE(tauaerstrat_mpi(klon_mpi,klev)) |
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169 | CALL xios_send_field("taustrat_in",tauaerstrat_mois) |
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170 | CALL xios_recv_field("taustrat_out",tauaerstrat_mpi) |
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171 | ELSE |
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172 | ALLOCATE(tauaerstrat_mpi(0,0)) |
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173 | ENDIF |
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174 | CALL scatter_omp(tauaerstrat_mpi,tau_aer_strat) |
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175 | ELSE |
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176 | CALL scatter(tauaerstrat_mois_glo,tau_aer_strat) |
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177 | ENDIF |
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178 | |
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179 | IF (is_mpi_root.AND.is_omp_root) THEN |
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180 | |
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181 | DEALLOCATE(tauaerstrat) |
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182 | DEALLOCATE(tauaerstrat_mois) |
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183 | DEALLOCATE(tauaerstrat_mois_glo) |
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184 | |
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185 | ENDIF !--is_mpi_root and is_omp_root |
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186 | |
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187 | !$OMP BARRIER |
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188 | |
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189 | ENDIF !--debut ou nouveau mois |
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190 | |
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191 | !--total vertical aod at the 5 SW wavelengths |
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192 | DO wave=1, nwave_sw |
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193 | DO k=1, klev |
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194 | tausum_aero(:,wave,id_STRAT_phy)=tausum_aero(:,wave,id_STRAT_phy)+ & |
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195 | tau_aer_strat(:,k)*alpha_sw_strat_wave(wave)/alpha_sw_strat_wave(2) |
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196 | ENDDO |
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197 | ENDDO |
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198 | |
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199 | !--weighted average for cg, piz and tau, adding strat aerosols on top of tropospheric ones |
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200 | DO band=1, nbands_sw_rrtm |
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201 | !--anthropogenic aerosols bands 1 to nbands_sw_rrtm |
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202 | cg_aero_sw_rrtm(:,:,2,band) = ( cg_aero_sw_rrtm(:,:,2,band)*piz_aero_sw_rrtm(:,:,2,band)*tau_aero_sw_rrtm(:,:,2,band) + & |
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203 | cg_sw_strat(band)*piz_sw_strat(band)*alpha_sw_strat(band)*tau_aer_strat(:,:) ) / & |
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204 | MAX( piz_aero_sw_rrtm(:,:,2,band)*tau_aero_sw_rrtm(:,:,2,band) + & |
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205 | piz_sw_strat(band)*alpha_sw_strat(band)*tau_aer_strat(:,:), 1.e-15 ) |
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206 | piz_aero_sw_rrtm(:,:,2,band) = ( piz_aero_sw_rrtm(:,:,2,band)*tau_aero_sw_rrtm(:,:,2,band) + & |
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207 | piz_sw_strat(band)*alpha_sw_strat(band)*tau_aer_strat(:,:) ) / & |
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208 | MAX( tau_aero_sw_rrtm(:,:,2,band) + alpha_sw_strat(band)*tau_aer_strat(:,:), 1.e-15 ) |
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209 | tau_aero_sw_rrtm(:,:,2,band) = tau_aero_sw_rrtm(:,:,2,band) + alpha_sw_strat(band)*tau_aer_strat(:,:) |
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210 | !--natural aerosols bands 1 to nbands_sw_rrtm |
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211 | cg_aero_sw_rrtm(:,:,1,band) = ( cg_aero_sw_rrtm(:,:,1,band)*piz_aero_sw_rrtm(:,:,1,band)*tau_aero_sw_rrtm(:,:,1,band) + & |
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212 | cg_sw_strat(band)*piz_sw_strat(band)*alpha_sw_strat(band)*tau_aer_strat(:,:) ) / & |
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213 | MAX( piz_aero_sw_rrtm(:,:,1,band)*tau_aero_sw_rrtm(:,:,1,band) + & |
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214 | piz_sw_strat(band)*alpha_sw_strat(band)*tau_aer_strat(:,:), 1.e-15 ) |
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215 | piz_aero_sw_rrtm(:,:,1,band) = ( piz_aero_sw_rrtm(:,:,1,band)*tau_aero_sw_rrtm(:,:,1,band) + & |
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216 | piz_sw_strat(band)*alpha_sw_strat(band)*tau_aer_strat(:,:) ) / & |
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217 | MAX( tau_aero_sw_rrtm(:,:,1,band) + alpha_sw_strat(band)*tau_aer_strat(:,:),1.e-15 ) |
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218 | tau_aero_sw_rrtm(:,:,1,band) = tau_aero_sw_rrtm(:,:,1,band) + alpha_sw_strat(band)*tau_aer_strat(:,:) |
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219 | !--no stratospheric aerosol in index 1 for these tests |
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220 | ! cg_aero_sw_rrtm(:,:,1,band) = cg_aero_sw_rrtm(:,:,1,band) |
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221 | ! piz_aero_sw_rrtm(:,:,1,band) = piz_aero_sw_rrtm(:,:,1,band) |
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222 | ! tau_aero_sw_rrtm(:,:,1,band) = tau_aero_sw_rrtm(:,:,1,band) |
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223 | ENDDO |
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224 | |
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225 | !--stratospheric AOD in LW |
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226 | IF (nbands_lw_rrtm .NE. NLW) then |
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227 | print*, 'different values for NLW (=',NLW,') and nbands_lw_rrtm (=', nbands_lw_rrtm, ')' |
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228 | STOP |
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229 | ENDIF |
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230 | |
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231 | !--total vertical aod at the 1 LW wavelength |
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232 | DO wave=1, nwave_lw |
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233 | DO k=1, klev |
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234 | tausum_aero(:,nwave_sw+wave,id_STRAT_phy)=tausum_aero(:,nwave_sw+wave,id_STRAT_phy)+ & |
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235 | tau_aer_strat(:,k)*alpha_lw_strat_wave(wave)/alpha_sw_strat_wave(2) |
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236 | ENDDO |
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237 | ENDDO |
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238 | |
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239 | DO band=1, nbands_lw_rrtm |
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240 | tau_aero_lw_rrtm(:,:,2,band) = tau_aero_lw_rrtm(:,:,2,band) + alpha_lw_abs_rrtm(band)*tau_aer_strat(:,:) |
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241 | tau_aero_lw_rrtm(:,:,1,band) = tau_aero_lw_rrtm(:,:,1,band) + alpha_lw_abs_rrtm(band)*tau_aer_strat(:,:) |
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242 | !--no stratospheric aerosols in index 1 for these tests |
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243 | ! tau_aero_lw_rrtm(:,:,1,band) = tau_aero_lw_rrtm(:,:,1,band) |
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244 | ENDDO |
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245 | |
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246 | !--default SSA value if there is no aerosol |
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247 | !--to avoid 0 values that seems to cause some problem to RRTM |
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248 | WHERE (tau_aero_sw_rrtm.LT.1.e-14) |
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249 | piz_aero_sw_rrtm = 1.0 |
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250 | ENDWHERE |
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251 | |
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252 | !--in principle this should not be necessary |
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253 | !--as these variables have min values already but just in case |
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254 | !--put 1e-15 min value to both SW and LW AOD |
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255 | tau_aero_sw_rrtm = MAX(tau_aero_sw_rrtm,1.e-15) |
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256 | tau_aero_lw_rrtm = MAX(tau_aero_lw_rrtm,1.e-15) |
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257 | |
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258 | END SUBROUTINE readaerosolstrato1_rrtm |
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