1 | !>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> |
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2 | ! OPA MODEL general namelist for passive tracers |
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3 | ! ------------- |
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4 | !>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> |
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5 | ! |
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6 | !----------------------------------------------------------------------- |
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7 | ! nattrc |
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8 | !----------------------------------------------------------------------- |
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9 | ! |
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10 | ! NATTRC |
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11 | ! nwritetrc time step frequency for tracer outputs |
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12 | ! lrsttr boolean term for tracer model restart (true or false) |
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13 | ! nrsttr control of the time step for tracer model restart (0, 1 or 2) |
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14 | ! ctrcnm tracer name |
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15 | ! ctrcun tracer unit |
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16 | ! lutini logical to read initial value from file or not |
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17 | ! |
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18 | &nattrc |
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19 | nwritetrc = 360, |
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20 | lrsttr = .false. |
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21 | nrsttr = 0, |
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22 | ! ijulian = 010101, |
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23 | ctrcnm(1) = 'DET', |
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24 | ctrcnl(1) = 'Detritus', |
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25 | ctrcun(1) = 'mmole-N/m3', |
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26 | lutini(1) = .true., |
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27 | ctrcnm(2) = 'ZOO', |
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28 | ctrcnl(2) = 'Zooplankton concentration', |
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29 | ctrcun(2) = 'mmole-N/m3', |
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30 | lutini(2) = .true., |
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31 | ctrcnm(3) = 'PHY', |
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32 | ctrcnl(3) = 'Phytoplankton concentration', |
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33 | ctrcun(3) = 'mmole-N/m3', |
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34 | lutini(3) = .true., |
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35 | ctrcnm(4) = 'NO3', |
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36 | ctrcnl(4) = 'Nitrate concentration', |
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37 | ctrcun(4) = 'mmole-N/m3', |
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38 | lutini(4) = .true., |
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39 | ctrcnm(5) = 'NH4', |
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40 | ctrcnl(5) = 'Ammonium concentration', |
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41 | ctrcun(5) = 'mmole-N/m3', |
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42 | lutini(5) = .true., |
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43 | ctrcnm(6) = 'DOM', |
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44 | ctrcnl(6) = 'Dissolved organic matter', |
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45 | ctrcun(6) = 'mmole-N/m3', |
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46 | lutini(6) = .true., |
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47 | / |
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48 | !----------------------------------------------------------------------- |
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49 | ! natrtd dynamical tracers trends (#ifdef key_trc_diatrd) |
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50 | !----------------------------------------------------------------------- |
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51 | ! nwritetrd : time step frequency for dynamical trends outputs |
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52 | ! luttrd : logical to keep large diagnostics with trends or not |
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53 | ! one value per tracer |
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54 | &natrtd |
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55 | nwritetrd = 360, |
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56 | luttrd(1) = .false., |
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57 | luttrd(2) = .false., |
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58 | luttrd(3) = .false., |
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59 | luttrd(4) = .false., |
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60 | luttrd(5) = .false., |
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61 | luttrd(6) = .false., |
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62 | / |
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63 | !----------------------------------------------------------------------- |
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64 | ! natadd 2/3 D diagnostics (#ifdef key_trc_diaadd) |
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65 | !----------------------------------------------------------------------- |
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66 | ! nwriteadd : time step frequency for additional arrays outputs |
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67 | ! ctrc3d short title (max 8 characters) for 3d output arrays |
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68 | ! ctrc3l long title (max 80 characters) for 3d output arrays |
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69 | ! ctrc3u units |
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70 | ! ctrc2d short title (max 8 characters) for 2d output arrays |
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71 | ! ctrc2l long title (max 80 characters) for 2d output arrays |
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72 | ! ctrc2u units |
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73 | ! |
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74 | &natadd |
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75 | nwriteadd = 360, |
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76 | ctrc3d(1) = 'FNO3PHY', |
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77 | ctrc3l(1) = 'FNO3PHY', |
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78 | ctrc3u(1) = '-', |
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79 | ctrc3d(2) = 'FNH4PHY', |
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80 | ctrc3l(2) = 'FNH4PHY', |
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81 | ctrc3u(2) = '-', |
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82 | ctrc3d(3) = 'FNH4NO3', |
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83 | ctrc3l(3) = 'FNH4NO3', |
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84 | ctrc3u(3) = '-', |
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85 | ctrc2d(1) = 'TNO3PHY' |
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86 | ctrc2l(1) = 'TNO3PHY' |
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87 | ctrc2u(1) = '-' |
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88 | ctrc2d(2) = 'TNH4PHY' |
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89 | ctrc2l(2) = 'TNH4PHY' |
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90 | ctrc2u(2) = '-' |
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91 | ctrc2d(3) = 'TPHYDOM' |
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92 | ctrc2l(3) = 'TPHYDOM' |
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93 | ctrc2u(3) = '-' |
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94 | ctrc2d(4) = 'TPHYNH4' |
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95 | ctrc2l(4) = 'TPHYNH4' |
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96 | ctrc2u(4) = '-' |
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97 | ctrc2d(5) = 'TPHYZOO' |
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98 | ctrc2l(5) = 'TPHYZOO' |
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99 | ctrc2u(5) = '-' |
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100 | ctrc2d(6) = 'TPHYDET' |
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101 | ctrc2l(6) = 'TPHYDET' |
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102 | ctrc2u(6) = '-' |
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103 | ctrc2d(7) = 'TDETZOO' |
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104 | ctrc2l(7) = 'TDETZOO' |
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105 | ctrc2u(7) = '-' |
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106 | ctrc2d(8) = 'TDETSED' |
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107 | ctrc2l(8) = 'TDETSED' |
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108 | ctrc2u(8) = '-' |
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109 | ctrc2d(9) = 'TZOODET' |
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110 | ctrc2l(9) = 'TZOODET' |
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111 | ctrc2u(9) = '-' |
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112 | ctrc2d(10) = 'TZOOBOD' |
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113 | ctrc2l(10) = 'TZOOBOD' |
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114 | ctrc2u(10) = '-' |
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115 | ctrc2d(11) = 'TZOONH4' |
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116 | ctrc2l(11) = 'TZOONH4' |
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117 | ctrc2u(11) = '-' |
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118 | ctrc2d(12) = 'TZOODOM' |
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119 | ctrc2l(12) = 'TZOODOM' |
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120 | ctrc2u(12) = '-' |
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121 | ctrc2d(13) = 'TNH4NO3' |
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122 | ctrc2l(13) = 'TNH4NO3' |
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123 | ctrc2u(13) = '-' |
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124 | ctrc2d(14) = 'TDOMNH4' |
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125 | ctrc2l(14) = 'TDOMNH4' |
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126 | ctrc2u(14) = '-' |
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127 | ctrc2d(15) = 'TDETNH4' |
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128 | ctrc2l(15) = 'TDETNH4' |
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129 | ctrc2u(15) = '-' |
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130 | ctrc2d(16) = 'TPHYTOT' |
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131 | ctrc2l(16) = 'TPHYTOT' |
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132 | ctrc2u(16) = '-' |
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133 | ctrc2d(17) = 'TZOOTOT' |
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134 | ctrc2l(17) = 'TZOOTOT' |
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135 | ctrc2u(17) = '-' |
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136 | ctrc2d(18) = 'TDETDOM' |
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137 | ctrc2l(18) = 'TDETDOM' |
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138 | ctrc2u(18) = '-' |
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139 | ctrc2d(19) = 'SEDPOC' |
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140 | ctrc2l(19) = 'SEDPOC' |
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141 | ctrc2u(19) = '-' |
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142 | / |
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143 | !----------------------------------------------------------------------- |
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144 | ! natnum numerical schemes |
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145 | !----------------------------------------------------------------------- |
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146 | ! ndttrc time step frequency for passive tracers |
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147 | ! lhdf logical if true computes horizontal diffusion |
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148 | ! rsc tuning coefficient for Smolar. |
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149 | ! rtrn truncation value for Smolar. |
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150 | ! ncor number of corrective phases for Smolar. |
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151 | ! crosster logical if true computes Smolar crossterms |
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152 | &natnum |
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153 | ndttrc = 1, |
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154 | rsc = 1., |
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155 | rtrn = 1.e-15, |
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156 | ncortrc = 0, |
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157 | crosster =.false., |
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158 | / |
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159 | !----------------------------------------------------------------------- |
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160 | ! namtrcadv advection scheme for tracer (option not control by CPP keys) |
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161 | !----------------------------------------------------------------------- |
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162 | ! ln_trcadv_cen2 2nd order centered scheme (default F) |
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163 | ! ln_trcadv_tvd TVD scheme (default F) |
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164 | ! ln_trcadv_muscl MUSCL scheme (default F) |
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165 | ! ln_trcadv_muscl2 MUSCL2 scheme (default F) |
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166 | ! ln_trcadv_smolar SMOLAR scheme (default T) |
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167 | &namtrcadv |
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168 | ln_trcadv_cen2 = .false. |
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169 | ln_trcadv_tvd = .true. |
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170 | ln_trcadv_muscl = .false. |
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171 | ln_trcadv_muscl2 = .false. |
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172 | ln_trcadv_smolar = .false. |
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173 | / |
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174 | !----------------------------------------------------------------------- |
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175 | ! namtrcldf lateral diffusion scheme for tracer (option not control by CPP keys) |
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176 | !----------------------------------------------------------------------- |
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177 | ! Type of the operator : |
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178 | ! ln_trcldf_lap laplacian operator (default T) |
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179 | ! ln_trcldf_bilap bilaplacian operator (default F) |
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180 | ! Direction of action : |
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181 | ! ln_trcldf_level iso-level (default F) |
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182 | ! ln_trcldf_hor horizontal (geopotential) (default F)^** |
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183 | ! ln_trcldf_iso iso-neutral (default T)^* |
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184 | ! ^* require key_ldfslp to compute the direction of the lateral diffusion |
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185 | ! ^** require key_ldfslp in s-coordinate |
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186 | ! ahtrb0 background eddy diffusivity for isopycnal diffusion (m2/s) |
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187 | ! trcrat ratio betweeen passive and active tracer diffusion coeff |
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188 | ! ahtrc0 horizontal eddy diffus. for passive tracer |
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189 | ! aeivtr0 eddy induced veloc. coef. for passive tracer |
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190 | &namtrcldf |
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191 | ln_trcldf_diff = .true. |
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192 | ln_trcldf_lap = .true. |
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193 | ln_trcldf_bilap = .false. |
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194 | ln_trcldf_level = .false. |
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195 | ln_trcldf_hor = .false. |
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196 | ln_trcldf_iso = .true. |
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197 | ahtrb0 = 0. |
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198 | trcrat = 1. |
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199 | ahtrc0 = 300. |
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200 | aeivtr0 = 1000. |
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201 | / |
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202 | !----------------------------------------------------------------------- |
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203 | ! namtrczdf vertical physics |
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204 | !----------------------------------------------------------------------- |
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205 | ! ln_zdfexp vertical physics: (=T) time splitting (T) (Default=F) |
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206 | ! (=F) euler backward (F) |
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207 | ! n_zdfexp number of sub-timestep for time splitting scheme |
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208 | &namtrczdf |
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209 | ln_trczdf_exp = .false. |
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210 | n_trczdf_exp = 3 |
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211 | / |
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212 | !----------------------------------------------------------------------- |
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213 | ! namtrcdmp tracer newtonian damping ('key_trcdmp') |
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214 | !----------------------------------------------------------------------- |
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215 | ! ndmptr type of damping in temperature and salinity |
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216 | ! (='latitude', damping poleward of 'ndmp' degrees and function |
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217 | ! of the distance-to-coast. Red and Med Seas as ndmp=-1) |
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218 | ! (=-1 damping only in Med and Red Seas) |
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219 | ! ndmpftr =1 create a damping.coeff NetCDF file (the 3D damping array) |
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220 | ! nmldmptr type of damping in the mixed layer |
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221 | ! (=0 damping throughout the water column) |
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222 | ! (=1 no damping in the mixed layer defined by avt >5cm2/s ) |
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223 | ! (=2 no damping in the mixed layer defined rho<rho(surf)+.01 ) |
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224 | ! sdmptr surface time scale for internal damping (days) |
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225 | ! bdmptr bottom time scale for internal damping (days) |
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226 | ! hdmptr depth of transition between sdmp and bdmp (meters) |
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227 | &namtrcdmp |
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228 | ndmptr = 20 |
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229 | ndmpftr = 0 |
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230 | nmldmptr = 0 |
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231 | sdmptr = 50. |
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232 | bdmptr = 360. |
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233 | hdmptr = 800. |
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234 | / |
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235 | |
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