1 | ! ================================================================================================================================= |
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2 | ! MODULE : control |
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3 | ! |
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4 | ! CONTACT : orchidee-help _at_ listes.ipsl.fr |
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5 | ! |
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6 | ! LICENCE : IPSL (2006) |
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7 | ! This software is governed by the CeCILL licence see ORCHIDEE/ORCHIDEE_CeCILL.LIC |
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8 | ! |
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9 | !>\BRIEF "control" module contains subroutines to initialize run time control parameters. |
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10 | !! |
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11 | !!\n DESCRIPTION: |
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12 | !! |
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13 | !! SVN : |
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14 | !! $HeadURL: |
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15 | !! $Date: |
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16 | !! $Revision: |
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17 | !! \n |
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18 | !_ ================================================================================================================================ |
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19 | |
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20 | MODULE control |
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21 | |
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22 | USE constantes_soil |
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23 | USE constantes_var |
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24 | USE pft_parameters |
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25 | USE vertical_soil |
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26 | |
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27 | IMPLICIT NONE |
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28 | |
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29 | CONTAINS |
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30 | !! ================================================================================================================================ |
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31 | !! SUBROUTINE : control_initialize |
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32 | !! |
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33 | !>\BRIEF This subroutine reads the configuration flags which control the behaviour of the model |
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34 | !! This subroutine was previsouly named intsurf_config and located in intersurf module. |
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35 | !! |
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36 | !! DESCRIPTION : None |
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37 | !! |
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38 | !! RECENT CHANGE(S): None |
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39 | !! |
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40 | !! MAIN OUTPUT VARIABLE(S): None |
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41 | !! |
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42 | !! REFERENCE(S) : None |
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43 | !! |
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44 | !! FLOWCHART : None |
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45 | !! \n |
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46 | !_ ================================================================================================================================ |
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47 | |
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48 | SUBROUTINE control_initialize |
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49 | |
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50 | IMPLICIT NONE |
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51 | |
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52 | INTEGER(i_std) :: jv !! Local index variable |
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53 | INTEGER(i_std) :: ier !! Error handeling |
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54 | LOGICAL :: hydrol_cwrr_test !! Temporary test variable |
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55 | LOGICAL :: ok_co2_test !! Temporary test variable |
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56 | LOGICAL :: ok_explicitsnow_test !! Temporary test variable |
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57 | ! Start reading options from parameter file |
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58 | |
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59 | !Config Key = SOILTYPE_CLASSIF |
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60 | !Config Desc = Type of classification used for the map of soil types |
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61 | !Config Def = zobler |
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62 | !Config If = !IMPOSE_VEG |
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63 | !Config Help = The classification used in the file that we use here |
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64 | !Config There are three classification supported: |
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65 | !Config Zobler (7 converted to 3) and USDA (12) |
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66 | !Config Units = [-] |
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67 | ! |
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68 | !-tdo- Suivant le type de classification utilisee pour le sol, on adapte nscm |
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69 | soil_classif = 'zobler' |
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70 | CALL getin_p('SOILTYPE_CLASSIF',soil_classif) |
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71 | SELECTCASE (soil_classif) |
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72 | CASE ('zobler','none') |
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73 | nscm = nscm_fao |
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74 | CASE ('usda') |
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75 | nscm = nscm_usda |
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76 | CASE DEFAULT |
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77 | WRITE(numout,*) "Unsupported soil type classification: soil_classif=",soil_classif |
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78 | WRITE(numout,*) "Choose between zobler, usda and none according to the map" |
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79 | CALL ipslerr_p(3,'control_initialize','Bad choice of soil_classif','Choose between zobler, usda and none','') |
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80 | ENDSELECT |
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81 | |
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82 | |
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83 | !Config Key = RIVER_ROUTING |
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84 | !Config Desc = Decides if we route the water or not |
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85 | !Config If = OK_SECHIBA |
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86 | !Config Def = y |
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87 | !Config Help = This flag allows the user to decide if the runoff |
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88 | !Config and drainage should be routed to the ocean |
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89 | !Config and to downstream grid boxes. |
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90 | !Config Units = [FLAG] |
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91 | ! |
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92 | river_routing = .TRUE. |
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93 | CALL getin_p('RIVER_ROUTING', river_routing) |
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94 | IF (printlev>=1) WRITE(numout,*) "RIVER routing is activated : ",river_routing |
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95 | |
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96 | ! Control for the option HYDROL_CWRR which is not longer existing in the model. |
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97 | ! Check here if in run.def HYDROL_CWRR=n. If that's the case then stop the model and ask the user to remove the flag from run.def |
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98 | hydrol_cwrr_test = .TRUE. |
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99 | CALL getin_p('HYDROL_CWRR', hydrol_cwrr_test) |
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100 | IF (.NOT. hydrol_cwrr_test) THEN |
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101 | CALL ipslerr_p(3,'control_initialize',& |
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102 | 'HYDROL_CWRR=n is set in run.def but this option does not exist any more in ORCHIDEE', & |
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103 | 'Choisnel hydrolology has been removed and CWRR is now the only hydrology module in ORCHIDEE',& |
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104 | 'Remove parameter HYDROL_CWRR from run.def') |
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105 | END IF |
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106 | |
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107 | !Config Key = DO_IRRIGATION |
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108 | !Config Desc = Should we compute an irrigation flux |
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109 | !Config If = RIVER_ROUTING |
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110 | !Config Def = n |
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111 | !Config Help = This parameters allows the user to ask the model |
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112 | !Config to compute an irigation flux. This performed for the |
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113 | !Config on very simple hypothesis. The idea is to have a good |
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114 | !Config map of irrigated areas and a simple function which estimates |
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115 | !Config the need to irrigate. |
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116 | !Config Units = [FLAG] |
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117 | ! |
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118 | do_irrigation = .FALSE. |
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119 | IF ( river_routing ) CALL getin_p('DO_IRRIGATION', do_irrigation) |
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120 | ! |
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121 | !Config Key = DO_FLOODPLAINS |
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122 | !Config Desc = Should we include floodplains |
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123 | !Config If = RIVER_ROUTING |
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124 | !Config Def = n |
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125 | !Config Help = This parameters allows the user to ask the model |
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126 | !Config to take into account the flood plains and return |
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127 | !Config the water into the soil moisture. It then can go |
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128 | !Config back to the atmopshere. This tried to simulate |
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129 | !Config internal deltas of rivers. |
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130 | !Config Units = [FLAG] |
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131 | ! |
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132 | do_floodplains = .FALSE. |
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133 | IF ( river_routing ) CALL getin_p('DO_FLOODPLAINS', do_floodplains) |
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134 | |
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135 | |
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136 | ! Control of option OK_EXPLICITSNOW which is not longer existing in the model. |
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137 | ! Check here if in run.def OK_EXPLICITSNOW=n. If that's the case then stop the model and ask the user to remove the flag from run.def. |
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138 | ok_explicitsnow_test = .TRUE. |
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139 | CALL getin_p('OK_EXPLICITSNOW', ok_explicitsnow_test) |
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140 | IF (.NOT. ok_explicitsnow_test) THEN |
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141 | CALL ipslerr_p(3,'control_initialize',& |
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142 | 'OK_EXPLICITSNOW=n is set in run.def but this option does not exist any more in ORCHIDEE', & |
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143 | 'Explicit snow scheme is now always used in ORCHIDEE.',& |
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144 | 'Remove parameter OK_EXPLICITSNOW from run.def') |
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145 | END IF |
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146 | |
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147 | |
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148 | |
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149 | ! |
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150 | !Config Key = STOMATE_OK_STOMATE |
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151 | !Config Desc = Activate STOMATE? |
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152 | !Config If = OK_SECHIBA |
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153 | !Config Def = y |
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154 | !Config Help = set to TRUE if STOMATE is to be activated |
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155 | !Config Units = [FLAG] |
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156 | ! |
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157 | ok_stomate = .TRUE. |
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158 | CALL getin_p('STOMATE_OK_STOMATE',ok_stomate) |
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159 | IF (printlev>=1) WRITE(numout,*) 'STOMATE is activated: ',ok_stomate |
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160 | |
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161 | ! Control for the option STOMATE_OK_CO2 which is not longer existing in the model. |
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162 | ! Check here if in run.def STOMATE_OK_CO2=n. If that's the case then stop the model and ask the user to remove the flag from run.def |
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163 | ok_co2_test = .TRUE. |
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164 | CALL getin_p('STOMATE_OK_CO2', ok_co2_test) |
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165 | IF (.NOT. ok_co2_test) THEN |
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166 | CALL ipslerr_p(3,'control_initialize',& |
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167 | 'STOMATE_OK_CO2=n is set in run.def but this option does not exist any more in ORCHIDEE', & |
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168 | 'Calculation of beta coefficient using Jarvis formulation has been removed and Farquar formulation is now always used',& |
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169 | 'Remove parameter STOMATE_OK_CO2 from run.def') |
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170 | END IF |
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171 | |
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172 | |
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173 | ! |
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174 | !Config Key = DO_WOOD_HARVEST |
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175 | !Config Desc = Activate Wood Harvest ? |
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176 | !Config If = OK_STOMATE |
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177 | !Config Def = y |
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178 | !Config Help = set to TRUE if wood is harvested |
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179 | !Config Units = [FLAG] |
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180 | do_wood_harvest = .TRUE. |
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181 | CALL getin_p('DO_WOOD_HARVEST',do_wood_harvest) |
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182 | |
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183 | ! |
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184 | !Config Key = STOMATE_OK_DGVM |
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185 | !Config Desc = Activate DGVM? |
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186 | !Config If = OK_STOMATE |
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187 | !Config Def = n |
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188 | !Config Help = set to TRUE if DGVM is to be activated |
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189 | !Config Units = [FLAG] |
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190 | ! |
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191 | ok_dgvm = .FALSE. |
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192 | CALL getin_p('STOMATE_OK_DGVM',ok_dgvm) |
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193 | ! |
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194 | !Config Key = CHEMISTRY_BVOC |
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195 | !Config Desc = Activate calculations for BVOC |
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196 | !Config If = OK_SECHIBA |
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197 | !Config Def = n |
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198 | !Config Help = set to TRUE if biogenic emissions calculation is to be activated |
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199 | !Config Units = [FLAG] |
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200 | ! |
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201 | ok_bvoc = .FALSE. |
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202 | CALL getin_p('CHEMISTRY_BVOC', ok_bvoc) |
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203 | IF (printlev>=1) WRITE(numout,*) 'Biogenic emissions: ', ok_bvoc |
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204 | |
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205 | IF ( ok_bvoc ) THEN |
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206 | ok_leafage = .TRUE. |
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207 | ok_radcanopy = .TRUE. |
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208 | ok_multilayer = .TRUE. |
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209 | ok_pulse_NOx = .TRUE. |
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210 | ok_bbgfertil_NOx = .TRUE. |
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211 | ok_cropsfertil_NOx = .TRUE. |
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212 | ELSE |
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213 | ok_leafage = .FALSE. |
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214 | ok_radcanopy = .FALSE. |
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215 | ok_multilayer = .FALSE. |
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216 | ok_pulse_NOx = .FALSE. |
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217 | ok_bbgfertil_NOx = .FALSE. |
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218 | ok_cropsfertil_NOx = .FALSE. |
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219 | ENDIF |
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220 | ! |
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221 | !Config Key = CHEMISTRY_LEAFAGE |
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222 | !Config Desc = Activate LEAFAGE? |
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223 | !Config If = CHEMISTRY_BVOC |
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224 | !Config Def = n |
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225 | !Config Help = set to TRUE if biogenic emissions calculation takes leaf age into account |
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226 | !Config Units = [FLAG] |
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227 | ! |
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228 | CALL getin_p('CHEMISTRY_LEAFAGE', ok_leafage) |
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229 | IF (printlev>=1) WRITE(numout,*) 'Leaf Age: ', ok_leafage |
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230 | ! |
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231 | !Config Key = CANOPY_EXTINCTION |
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232 | !Config Desc = Use canopy radiative transfer model? |
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233 | !Config If = CHEMISTRY_BVOC |
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234 | !Config Def = n |
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235 | !Config Help = set to TRUE if canopy radiative transfer model is used for biogenic emissions |
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236 | !Config Units = [FLAG] |
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237 | ! |
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238 | CALL getin_p('CANOPY_EXTINCTION', ok_radcanopy) |
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239 | IF (printlev>=1) WRITE(numout,*) 'Canopy radiative transfer model: ', ok_radcanopy |
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240 | ! |
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241 | !Config Key = CANOPY_MULTILAYER |
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242 | !Config Desc = Use canopy radiative transfer model with multi-layers |
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243 | !Config If = CANOPY_EXTINCTION |
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244 | !Config Def = n |
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245 | !Config Help = set to TRUE if canopy radiative transfer model is with multiple layers |
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246 | !Config Units = [FLAG] |
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247 | ! |
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248 | CALL getin_p('CANOPY_MULTILAYER', ok_multilayer) |
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249 | IF (printlev>=1) WRITE(numout,*) 'Multi-layer Canopy model: ', ok_multilayer |
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250 | ! |
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251 | !Config Key = NOx_RAIN_PULSE |
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252 | !Config Desc = Calculate NOx emissions with pulse? |
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253 | !Config If = CHEMISTRY_BVOC |
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254 | !Config Def = n |
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255 | !Config Help = set to TRUE if NOx rain pulse is taken into account |
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256 | !Config Units = [FLAG] |
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257 | ! |
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258 | CALL getin_p('NOx_RAIN_PULSE', ok_pulse_NOx) |
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259 | IF (printlev>=1) WRITE(numout,*) 'Rain NOx pulsing: ', ok_pulse_NOx |
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260 | ! |
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261 | !Config Key = NOx_BBG_FERTIL |
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262 | !Config Desc = Calculate NOx emissions with bbg fertilizing effect? |
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263 | !Config If = CHEMISTRY_BVOC |
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264 | !Config Def = n |
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265 | !Config Help = set to TRUE if NOx emissions are calculated with bbg effect |
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266 | !Config Fertil effect of bbg on NOx soil emissions |
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267 | !Config Units = [FLAG] |
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268 | ! |
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269 | CALL getin_p('NOx_BBG_FERTIL', ok_bbgfertil_NOx) |
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270 | IF (printlev>=1) WRITE(numout,*) 'NOx bbg fertil effect: ', ok_bbgfertil_NOx |
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271 | ! |
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272 | !Config Key = NOx_FERTILIZERS_USE |
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273 | !Config Desc = Calculate NOx emissions with fertilizers use? |
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274 | !Config If = CHEMISTRY_BVOC |
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275 | !Config Def = n |
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276 | !Config Help = set to TRUE if NOx emissions are calculated with fertilizers use |
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277 | !Config Fertilizers use effect on NOx soil emissions |
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278 | !Config Units = [FLAG] |
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279 | ! |
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280 | CALL getin_p('NOx_FERTILIZERS_USE', ok_cropsfertil_NOx) |
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281 | IF (printlev>=1) WRITE(numout,*) 'NOx Fertilizers use: ', ok_cropsfertil_NOx |
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282 | !Config Key = Is CO2 impact on BVOC accounted for using Possell 2005 ? |
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283 | !Config Desc = In this case we use Possell 2005 parameterisation |
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284 | !Config Desc = to take into account the impact of CO2 on biogenic emissions for |
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285 | !Config Desc = isoprene |
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286 | !Config Def = n |
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287 | !Config Help = set to TRUE if Possell parameterisation has to be considered for the CO2 impact |
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288 | ! |
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289 | ok_co2bvoc_poss = .FALSE. |
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290 | CALL getin_p('CO2_FOR_BVOC_POSSELL', ok_co2bvoc_poss) |
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291 | IF (printlev>=1) WRITE(numout,*) 'CO2 impact on BVOC - Possell parameterisation: ', ok_co2bvoc_poss |
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292 | ! |
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293 | !Config Key = Is CO2 impact on BVOC accounted for using Wilkinson 2009 ? |
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294 | !Config Desc = In this case we use Wilkinson 2009 parameterisation |
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295 | !Config Desc = to take into account the impact of CO2 on biogenic emissions for |
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296 | !Config Desc = isoprene |
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297 | !Config Def = n |
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298 | !Config Help = set to TRUE if Wilkinson parameterisation has to be considered for the CO2 impact |
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299 | ! |
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300 | ok_co2bvoc_wilk = .FALSE. |
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301 | CALL getin_p('CO2_FOR_BVOC_WILKINSON', ok_co2bvoc_wilk) |
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302 | IF (printlev>=1) WRITE(numout,*) 'CO2 impact on BVOC - Wilkinson parameterisation: ', ok_co2bvoc_wilk |
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303 | |
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304 | ! |
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305 | ! control initialisation with sechiba |
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306 | ! |
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307 | ok_sechiba = .TRUE. |
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308 | ! |
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309 | ! |
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310 | ! Ensure consistency |
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311 | ! |
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312 | IF ( ok_dgvm ) ok_stomate = .TRUE. |
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313 | IF ( ok_multilayer .AND. .NOT.(ok_radcanopy) ) THEN |
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314 | ok_radcanopy = .TRUE. |
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315 | IF (printlev>=1) WRITE(numout,*) 'You want to use the multilayer model without activating the flag CANOPY_EXTINCTION' |
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316 | IF (printlev>=1) WRITE(numout,*) 'We set CANOPY_EXTINCTION to TRUE to ensure consistency' |
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317 | ENDIF |
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318 | |
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319 | |
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320 | |
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321 | ! |
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322 | ! Here we need the same initialisation as above |
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323 | ! |
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324 | ok_pheno = .TRUE. |
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325 | |
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326 | ! |
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327 | ! Configuration : number of PFTs and parameters |
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328 | ! |
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329 | |
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330 | ! 1. Number of PFTs defined by the user |
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331 | |
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332 | !Config Key = NVM |
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333 | !Config Desc = number of PFTs |
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334 | !Config If = OK_SECHIBA or OK_STOMATE |
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335 | !Config Def = 13 |
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336 | !Config Help = The number of vegetation types define by the user |
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337 | !Config Units = [-] |
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338 | ! |
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339 | CALL getin_p('NVM',nvm) |
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340 | IF (printlev>=1) WRITE(numout,*) 'The number of pfts used by the model is : ', nvm |
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341 | |
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342 | ! 2. Should we read the parameters in the run.def file ? |
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343 | |
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344 | !Config Key = IMPOSE_PARAM |
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345 | !Config Desc = Do you impose the values of the parameters? |
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346 | !Config if = OK_SECHIBA or OK_STOMATE |
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347 | !Config Def = y |
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348 | !Config Help = This flag can deactivate the reading of some parameters. |
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349 | ! Useful if you want to use the standard values without commenting the run.def |
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350 | !Config Units = [FLAG] |
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351 | ! |
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352 | CALL getin_p('IMPOSE_PARAM',impose_param) |
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353 | |
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354 | |
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355 | !! Initialize vertical discretization |
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356 | !! Case CWRR : All initialization is done in the vertical module |
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357 | !! Calculate ngrnd and nslm |
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358 | CALL vertical_soil_init |
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359 | |
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360 | ! 3. Allocate and intialize the pft parameters |
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361 | |
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362 | CALL pft_parameters_main() |
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363 | |
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364 | ! 4. Activation sub-models of ORCHIDEE |
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365 | |
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366 | CALL activate_sub_models() |
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367 | |
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368 | ! 5. Vegetation configuration |
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369 | |
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370 | CALL veget_config |
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371 | |
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372 | ! 6. Read the parameters in the run.def file according the flags |
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373 | |
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374 | IF (impose_param ) THEN |
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375 | CALL config_pft_parameters |
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376 | ENDIF |
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377 | |
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378 | IF ( ok_sechiba ) THEN |
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379 | IF (impose_param ) THEN |
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380 | IF (printlev>=2) WRITE(numout,*)'In control_initialize: call config_sechiba_parameters and config_sechiba_pft_parameters' |
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381 | CALL config_sechiba_parameters |
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382 | CALL config_sechiba_pft_parameters() |
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383 | ENDIF |
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384 | ENDIF |
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385 | |
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386 | |
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387 | !! Initialize variables in constantes_soil |
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388 | CALL config_soil_parameters() |
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389 | |
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390 | |
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391 | !! Coherence check for depth of thermosoil for long term simulation where soil thermal inertia matters |
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392 | !! ok_freeze_thermix is defined in config_soil_parameters |
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393 | IF (ok_freeze_thermix .AND. zmaxt < 11) THEN |
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394 | WRITE(numout,*) 'ERROR : Incoherence between ok_freeze_thermix activated and soil depth too small. ' |
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395 | WRITE(numout,*) 'Here a soil depth of ', zmaxt, 'm is used for the soil thermodynamics' |
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396 | WRITE(numout,*) 'Set DEPTH_MAX_T=11 or higher in run.def parameter file or deactivate soil freezing' |
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397 | CALL ipslerr_p(3,'control_initialize','Too shallow soil chosen for the thermodynamic for soil freezing', & |
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398 | 'Adapt run.def with at least DEPTH_MAX=11','') |
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399 | END IF |
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400 | |
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401 | ! Define diaglev as the depth of the bottom of each layer |
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402 | ! diaglev defines the vertical axes for the variables transmitted from sechiba |
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403 | ! to stomate (stempdiag, shumdiag). |
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404 | ALLOCATE(diaglev(nslm), stat=ier) |
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405 | IF (ier /= 0) CALL ipslerr_p(3,'control_initialize','Pb in allocation of diaglev','','') |
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406 | |
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407 | ! Get diaglev from module vertical for CWRR |
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408 | ! We take the top nslm (number of layer in CWRR) layer of the thermodynamics |
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409 | ! for the diagnostics. The layers in the hydrology and the thermodynamics are |
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410 | ! placed a the same depth (the top nslm layers) but the upper boundary condition |
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411 | ! is simpler in the thermodynamics. |
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412 | diaglev=zlt(1:nslm) |
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413 | IF (printlev>=2) WRITE(numout,*) 'In control_initialize, diaglev = ',diaglev |
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414 | |
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415 | IF ( impose_param ) THEN |
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416 | IF (printlev>=2) WRITE(numout,*)'In control_initialize: call config_co2_parameters' |
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417 | CALL config_co2_parameters |
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418 | ENDIF |
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419 | |
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420 | IF ( ok_stomate ) THEN |
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421 | IF ( impose_param ) THEN |
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422 | IF (printlev>=2) WRITE(numout,*)'In control_initialize: call config_stomate_parameters and config_stomate_pft_parameters' |
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423 | CALL config_stomate_parameters |
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424 | CALL config_stomate_pft_parameters |
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425 | ENDIF |
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426 | ENDIF |
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427 | |
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428 | IF ( ok_dgvm ) THEN |
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429 | IF ( impose_param ) THEN |
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430 | IF (printlev>=2) WRITE(numout,*)'In control_initialize: call config_dgvm_parameters' |
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431 | CALL config_dgvm_parameters |
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432 | ENDIF |
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433 | ENDIF |
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434 | END SUBROUTINE control_initialize |
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435 | |
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436 | END MODULE control |
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