1 | SUBROUTINE SRTM_TAUMOL18 & |
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2 | & ( KIDIA , KFDIA , KLEV,& |
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3 | & P_FAC00 , P_FAC01 , P_FAC10 , P_FAC11,& |
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4 | & K_JP , K_JT , K_JT1 , P_ONEMINUS,& |
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5 | & P_COLH2O , P_COLCH4 , P_COLMOL,& |
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6 | & K_LAYTROP , P_SELFFAC, P_SELFFRAC, K_INDSELF , P_FORFAC, P_FORFRAC, K_INDFOR,& |
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7 | & P_SFLUXZEN, P_TAUG , P_TAUR , PRMU0 & |
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8 | & ) |
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9 | |
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10 | ! Written by Eli J. Mlawer, Atmospheric & Environmental Research. |
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11 | |
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12 | ! BAND 18: 4000-4650 cm-1 (low - H2O,CH4; high - CH4) |
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13 | |
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14 | ! Modifications |
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15 | ! M.Hamrud 01-Oct-2003 CY28 Cleaning |
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16 | |
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17 | ! JJMorcrette 2003-02-24 adapted to ECMWF environment |
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18 | ! D.Salmond 31-Oct-2007 Vector version in the style of RRTM from Meteo France & NEC |
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19 | ! JJMorcrette 20110610 Flexible configuration for number of g-points |
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20 | |
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21 | USE PARKIND1 , ONLY : JPIM, JPRB |
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22 | USE YOMHOOK , ONLY : LHOOK, DR_HOOK, JPHOOK |
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23 | USE PARSRTM , ONLY : JPG |
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24 | USE YOESRTM , ONLY : NG18 |
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25 | USE YOESRTA18, ONLY : ABSA, ABSB, FORREFC, SELFREFC, SFLUXREFC, RAYL, LAYREFFR, STRRAT |
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26 | USE YOESRTWN , ONLY : NSPA, NSPB |
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27 | |
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28 | IMPLICIT NONE |
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29 | |
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30 | !-- Output |
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31 | INTEGER(KIND=JPIM),INTENT(IN) :: KIDIA, KFDIA |
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32 | INTEGER(KIND=JPIM),INTENT(IN) :: KLEV |
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33 | REAL(KIND=JPRB) ,INTENT(IN) :: P_FAC00(KIDIA:KFDIA,KLEV) |
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34 | REAL(KIND=JPRB) ,INTENT(IN) :: P_FAC01(KIDIA:KFDIA,KLEV) |
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35 | REAL(KIND=JPRB) ,INTENT(IN) :: P_FAC10(KIDIA:KFDIA,KLEV) |
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36 | REAL(KIND=JPRB) ,INTENT(IN) :: P_FAC11(KIDIA:KFDIA,KLEV) |
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37 | INTEGER(KIND=JPIM),INTENT(IN) :: K_JP(KIDIA:KFDIA,KLEV) |
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38 | INTEGER(KIND=JPIM),INTENT(IN) :: K_JT(KIDIA:KFDIA,KLEV) |
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39 | INTEGER(KIND=JPIM),INTENT(IN) :: K_JT1(KIDIA:KFDIA,KLEV) |
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40 | REAL(KIND=JPRB) ,INTENT(IN) :: P_ONEMINUS(KIDIA:KFDIA) |
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41 | REAL(KIND=JPRB) ,INTENT(IN) :: P_COLH2O(KIDIA:KFDIA,KLEV) |
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42 | REAL(KIND=JPRB) ,INTENT(IN) :: P_COLCH4(KIDIA:KFDIA,KLEV) |
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43 | REAL(KIND=JPRB) ,INTENT(IN) :: P_COLMOL(KIDIA:KFDIA,KLEV) |
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44 | INTEGER(KIND=JPIM),INTENT(IN) :: K_LAYTROP(KIDIA:KFDIA) |
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45 | REAL(KIND=JPRB) ,INTENT(IN) :: P_SELFFAC(KIDIA:KFDIA,KLEV) |
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46 | REAL(KIND=JPRB) ,INTENT(IN) :: P_SELFFRAC(KIDIA:KFDIA,KLEV) |
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47 | INTEGER(KIND=JPIM),INTENT(IN) :: K_INDSELF(KIDIA:KFDIA,KLEV) |
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48 | REAL(KIND=JPRB) ,INTENT(IN) :: P_FORFAC(KIDIA:KFDIA,KLEV) |
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49 | REAL(KIND=JPRB) ,INTENT(IN) :: P_FORFRAC(KIDIA:KFDIA,KLEV) |
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50 | INTEGER(KIND=JPIM),INTENT(IN) :: K_INDFOR(KIDIA:KFDIA,KLEV) |
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51 | |
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52 | REAL(KIND=JPRB) ,INTENT(OUT) :: P_SFLUXZEN(KIDIA:KFDIA,JPG) |
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53 | REAL(KIND=JPRB) ,INTENT(OUT) :: P_TAUG(KIDIA:KFDIA,KLEV,JPG) |
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54 | REAL(KIND=JPRB) ,INTENT(OUT) :: P_TAUR(KIDIA:KFDIA,KLEV,JPG) |
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55 | REAL(KIND=JPRB) ,INTENT(IN) :: PRMU0(KIDIA:KFDIA) |
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56 | !- from INTFAC |
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57 | !- from INTIND |
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58 | !- from PRECISE |
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59 | !- from PROFDATA |
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60 | !- from SELF |
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61 | INTEGER(KIND=JPIM) :: IG, IND0, IND1, INDS, INDF, JS, I_LAY, I_LAYSOLFR(KIDIA:KFDIA), I_NLAYERS, IPLON |
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62 | |
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63 | INTEGER(KIND=JPIM) :: I_LAY_NEXT |
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64 | |
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65 | REAL(KIND=JPRB) :: Z_FAC000, Z_FAC001, Z_FAC010, Z_FAC011, Z_FAC100, Z_FAC101,& |
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66 | & Z_FAC110, Z_FAC111, Z_FS, Z_SPECCOMB, Z_SPECMULT, Z_SPECPARM, & |
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67 | & Z_TAURAY |
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68 | REAL(KIND=JPHOOK) :: ZHOOK_HANDLE |
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69 | |
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70 | IF (LHOOK) CALL DR_HOOK('SRTM_TAUMOL18',0,ZHOOK_HANDLE) |
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71 | I_NLAYERS = KLEV |
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72 | |
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73 | ! Compute the optical depth by interpolating in ln(pressure), |
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74 | ! temperature, and appropriate species. Below LAYTROP, the water |
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75 | ! vapor self-continuum is interpolated (in temperature) separately. |
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76 | |
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77 | I_LAYSOLFR(KIDIA:KFDIA) = K_LAYTROP(KIDIA:KFDIA) |
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78 | |
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79 | DO I_LAY = 1, I_NLAYERS |
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80 | I_LAY_NEXT = MIN(I_NLAYERS, I_LAY+1) |
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81 | DO IPLON = KIDIA, KFDIA |
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82 | IF (PRMU0(IPLON) > 0.0_JPRB) THEN |
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83 | IF (I_LAY <= K_LAYTROP(IPLON)) THEN |
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84 | IF (K_JP(IPLON,I_LAY) < LAYREFFR .AND. K_JP(IPLON,I_LAY_NEXT) >= LAYREFFR) & |
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85 | & I_LAYSOLFR(IPLON) = MIN(I_LAY+1,K_LAYTROP(IPLON)) |
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86 | Z_SPECCOMB = P_COLH2O(IPLON,I_LAY) + STRRAT*P_COLCH4(IPLON,I_LAY) |
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87 | Z_SPECPARM = P_COLH2O(IPLON,I_LAY)/Z_SPECCOMB |
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88 | IF (Z_SPECPARM >= P_ONEMINUS(IPLON)) Z_SPECPARM = P_ONEMINUS(IPLON) |
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89 | Z_SPECMULT = 8.*(Z_SPECPARM) |
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90 | JS = 1 + INT(Z_SPECMULT) |
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91 | Z_FS = MOD(Z_SPECMULT, 1.0_JPRB ) |
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92 | ! Z_FAC000 = (1. - Z_FS) * P_FAC00(I_LAY) |
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93 | ! Z_FAC010 = (1. - Z_FS) * P_FAC10(I_LAY) |
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94 | ! Z_FAC100 = Z_FS * P_FAC00(I_LAY) |
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95 | ! Z_FAC110 = Z_FS * P_FAC10(I_LAY) |
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96 | ! Z_FAC001 = (1. - Z_FS) * P_FAC01(I_LAY) |
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97 | ! Z_FAC011 = (1. - Z_FS) * P_FAC11(I_LAY) |
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98 | ! Z_FAC101 = Z_FS * P_FAC01(I_LAY) |
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99 | ! Z_FAC111 = Z_FS * P_FAC11(I_LAY) |
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100 | IND0 = ((K_JP(IPLON,I_LAY)-1)*5+(K_JT(IPLON,I_LAY)-1))*NSPA(18) + JS |
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101 | IND1 = (K_JP(IPLON,I_LAY)*5+(K_JT1(IPLON,I_LAY)-1))*NSPA(18) + JS |
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102 | INDS = K_INDSELF(IPLON,I_LAY) |
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103 | INDF = K_INDFOR(IPLON,I_LAY) |
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104 | Z_TAURAY = P_COLMOL(IPLON,I_LAY) * RAYL |
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105 | |
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106 | ! DO IG = 1, NG(18) |
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107 | !CDIR UNROLL=NG18 |
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108 | DO IG = 1, NG18 |
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109 | P_TAUG(IPLON,I_LAY,IG) = Z_SPECCOMB * & |
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110 | ! & (Z_FAC000 * ABSA(IND0,IG) + & |
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111 | ! & Z_FAC100 * ABSA(IND0+1,IG) + & |
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112 | ! & Z_FAC010 * ABSA(IND0+9,IG) + & |
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113 | ! & Z_FAC110 * ABSA(IND0+10,IG) + & |
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114 | ! & Z_FAC001 * ABSA(IND1,IG) + & |
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115 | ! & Z_FAC101 * ABSA(IND1+1,IG) + & |
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116 | ! & Z_FAC011 * ABSA(IND1+9,IG) + & |
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117 | ! & Z_FAC111 * ABSA(IND1+10,IG)) + & |
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118 | & (& |
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119 | & (1. - Z_FS) * ( ABSA(IND0,IG) * P_FAC00(IPLON,I_LAY) + & |
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120 | & ABSA(IND0+9,IG) * P_FAC10(IPLON,I_LAY) + & |
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121 | & ABSA(IND1,IG) * P_FAC01(IPLON,I_LAY) + & |
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122 | & ABSA(IND1+9,IG) * P_FAC11(IPLON,I_LAY) ) + & |
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123 | & Z_FS * ( ABSA(IND0+1,IG) * P_FAC00(IPLON,I_LAY) + & |
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124 | & ABSA(IND0+10,IG) * P_FAC10(IPLON,I_LAY) + & |
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125 | & ABSA(IND1+1,IG) * P_FAC01(IPLON,I_LAY) + & |
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126 | & ABSA(IND1+10,IG) * P_FAC11(IPLON,I_LAY) ) & |
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127 | & ) + & |
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128 | & P_COLH2O(IPLON,I_LAY) * & |
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129 | & (P_SELFFAC(IPLON,I_LAY) * (SELFREFC(INDS,IG) + & |
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130 | & P_SELFFRAC(IPLON,I_LAY) * & |
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131 | & (SELFREFC(INDS+1,IG) - SELFREFC(INDS,IG))) + & |
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132 | & P_FORFAC(IPLON,I_LAY) * (FORREFC(INDF,IG) + & |
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133 | & P_FORFRAC(IPLON,I_LAY) * & |
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134 | & (FORREFC(INDF+1,IG) - FORREFC(INDF,IG)))) |
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135 | ! & + TAURAY |
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136 | ! SSA(LAY,IG) = TAURAY/TAUG(LAY,IG) |
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137 | IF (I_LAY == I_LAYSOLFR(IPLON)) P_SFLUXZEN(IPLON,IG) = SFLUXREFC(IG,JS) & |
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138 | & + Z_FS * (SFLUXREFC(IG,JS+1) - SFLUXREFC(IG,JS)) |
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139 | P_TAUR(IPLON,I_LAY,IG) = Z_TAURAY |
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140 | ENDDO |
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141 | ENDIF |
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142 | ENDIF |
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143 | ENDDO |
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144 | ENDDO |
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145 | |
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146 | DO I_LAY = 1, I_NLAYERS |
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147 | DO IPLON = KIDIA, KFDIA |
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148 | IF (PRMU0(IPLON) > 0.0_JPRB) THEN |
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149 | IF (I_LAY >= K_LAYTROP(IPLON)+1) THEN |
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150 | IND0 = ((K_JP(IPLON,I_LAY)-13)*5+(K_JT(IPLON,I_LAY)-1))*NSPB(18) + 1 |
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151 | IND1 = ((K_JP(IPLON,I_LAY)-12)*5+(K_JT1(IPLON,I_LAY)-1))*NSPB(18) + 1 |
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152 | Z_TAURAY = P_COLMOL(IPLON,I_LAY) * RAYL |
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153 | |
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154 | ! DO IG = 1, NG(18) |
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155 | !CDIR UNROLL=NG18 |
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156 | DO IG = 1, NG18 |
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157 | P_TAUG(IPLON,I_LAY,IG) = P_COLCH4(IPLON,I_LAY) * & |
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158 | & (P_FAC00(IPLON,I_LAY) * ABSB(IND0,IG) + & |
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159 | & P_FAC10(IPLON,I_LAY) * ABSB(IND0+1,IG) + & |
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160 | & P_FAC01(IPLON,I_LAY) * ABSB(IND1,IG) + & |
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161 | & P_FAC11(IPLON,I_LAY) * ABSB(IND1+1,IG)) |
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162 | ! & + TAURAY |
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163 | ! SSA(LAY,IG) = TAURAY/TAUG(LAY,IG) |
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164 | P_TAUR(IPLON,I_LAY,IG) = Z_TAURAY |
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165 | ENDDO |
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166 | ENDIF |
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167 | ENDIF |
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168 | ENDDO |
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169 | ENDDO |
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170 | |
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171 | !----------------------------------------------------------------------- |
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172 | IF (LHOOK) CALL DR_HOOK('SRTM_TAUMOL18',1,ZHOOK_HANDLE) |
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173 | |
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174 | END SUBROUTINE SRTM_TAUMOL18 |
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