1 | MODULE surf_sisvat_mod |
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2 | USE dimphy |
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3 | IMPLICIT NONE |
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4 | |
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5 | INTEGER, PARAMETER :: nsnowmx=35 |
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6 | INTEGER, PARAMETER :: nsismx=46 ! = nsnowmx + nsoilmx |
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7 | |
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8 | CONTAINS |
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9 | |
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10 | |
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11 | |
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12 | SUBROUTINE surf_sisvat(knon,rlon,rlat, ikl2i, itime, dtime, debut, lafin, & |
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13 | rmu0, swdown, lwdown, pexner, ps, p1lay, & |
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14 | precip_rain, precip_snow, precip_snow_adv, snow_adv, & |
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15 | bl_height, wind_velo, temp_air, dens_air, spechum, tsurf, & |
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16 | rugos, snow_cont_air, alb_soil, slope, cloudf, & |
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17 | radsol, qsol, tsoil, snow, snowhgt, qsnow, to_ice, sissnow, agesno, & |
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18 | AcoefH, AcoefQ, BcoefH, BcoefQ, cdragh, & |
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19 | runoff_lic, evap, fluxsens, fluxlat, dflux_s, dflux_l, & |
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20 | tsurf_new, alb1, alb2, alb3, & |
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21 | emis_new, z0_new, qsurf) |
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22 | |
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23 | ! +------------------------------------------------------------------------+ |
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24 | ! | | |
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25 | ! | SubRoutine surf_sisvat: Interface between LMDZ and landice scheme | |
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26 | ! | of the SISVAT (Soil/Ice Snow Vegetation Atmosphere Transfer Scheme)| |
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27 | ! | | |
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28 | ! | Author: Heinz Juergen Punge, LSCE June 2009 | |
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29 | ! | based on the MAR-SISVAT interface by Hubert Gallee | |
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30 | ! | | |
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31 | ! +------------------------------------------------------------------------+ |
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32 | ! | |
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33 | ! | In the current setup, SISVAT is used only to model the land ice | |
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34 | ! | part of the surface; hence it is called with the compressed variables| |
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35 | ! | from pbl_surface, and only by the surf_landice routine. | |
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36 | ! | | |
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37 | ! | In this interface it is assumed that the partitioning of the soil, | |
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38 | ! | and hence the number of grid points is constant during a simulation, | |
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39 | ! | hence eg. snow properties remain stored in the global SISVAT | |
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40 | ! | variables between the calls and don't need to be handed over as | |
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41 | ! | arguments. When the partitioning is supposed to change, make sure to | |
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42 | ! | update the variables. | |
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43 | ! | | |
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44 | ! | INPUT | |
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45 | ! | ^^^^^ VegMod: SISVAT is set up when .T. | |
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46 | ! | SnoMod: Snow Pack is set up when .T. | |
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47 | ! | reaLBC: Update Bound.Condit.when .T. | |
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48 | ! | | |
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49 | ! | INPUT (via MODULES VARxSV, VARySV, VARtSV) | |
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50 | ! | ^^^^^ xxxxSV: SISVAT/LMDZ interfacing variables | |
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51 | ! | | |
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52 | ! | Preprocessing Option: SISVAT PHYSICS | |
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53 | ! | ^^^^^^^^^^^^^^^^^^^^^ ^^^^^^^^^^^^^^ | |
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54 | ! | # #HY | |
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55 | ! | # #SN: Snow Model | |
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56 | ! | # #BS: Blowing Snow Parameterization | |
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57 | ! | | |
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58 | ! | # #DS: diffuse radiation differing from direct | |
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59 | ! | (variable RADsod must still be included) | |
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60 | ! | # #CP: SBL, Col de Porte | |
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61 | ! | # #cp Solar Radiation, Col de Porte | |
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62 | ! | # #AG: Snow Ageing, Col de Porte | |
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63 | ! | | |
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64 | ! | Preprocessing Option: SISVAT IO | |
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65 | ! | ^^^^^^^^^^^^^^^^^^^^^ ^^^^^^^^^ | |
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66 | ! | FILE | CONTENT | |
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67 | ! | ~~~~~~~~~~~~~~~~~~~~~+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ | |
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68 | ! | # ANI.yyyymmdd.LAB.nc | #NC: OUTPUT on NetCDF File (Stand Alone EXP.) | |
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69 | ! | # SISVAT_iii_jjj_n | #WV: OUTPUT on ASCII File (SISVAT Variables) | |
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70 | ! | # SISVATtroubles | #VF: OUTPUT on ASCII File (SISVAT Troubles) | |
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71 | ! | | | |
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72 | ! | # | #ES: OUTPUT/Verification: Energy Conservation | |
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73 | ! | # | #E2: OUTPUT/Verification: Energy Consrv.2e pt.| |
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74 | ! | | (no premature stop) | |
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75 | ! | # | #MW: OUTPUT/Verification: H2O Conservation | |
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76 | ! | # | #MS: OUTPUT/Verification: * Mass Conservation | |
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77 | ! | # | #MI: OUTPUT/Verification: SeaIce Conservation | |
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78 | ! | | | |
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79 | ! | # SISVAT__zSn.OUT | #as: OUTPUT/Verification: Snow Layers Agrega. | |
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80 | ! | # SISVAT__SnO.OUT | #aw: OUTPUT/Verification: Albedo Parameteriz. | |
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81 | ! | # SISVATe_qSn.OUT | #em: OUTPUT/Verification: Energy/Water Budget | |
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82 | ! | # SISVATu_qSn.OUT | #su: OUTPUT/Verification: Slush Parameteriz. | |
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83 | ! | # SISVATw_qSo.OUT | #mw: OUTPUT/Verif+Detail: H2O Conservation | |
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84 | ! | | | |
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85 | ! | # SISVAT__GSn.OUT | #VP: OUTPUT/Verification: Snow Properties | |
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86 | ! | # SISVAT__wEq.OUT | #EQ: OUTPUT/Verification: Snow/Ice Water Eqv. | |
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87 | ! | | | |
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88 | ! | # | #VR: VERIFICATION OUTPUT | |
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89 | ! | # | #WR: Additional OUTPUT | |
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90 | ! | | |
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91 | ! +------------------------------------------------------------------------+ |
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92 | |
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93 | USE VAR_SV |
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94 | USE VARdSV |
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95 | USE VARxSV |
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96 | USE VARySV |
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97 | USE VARtSV |
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98 | |
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99 | USE VARdCP |
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100 | USE VARphy, ra_earth=>ra |
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101 | USE YOMCST_SISVAT |
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102 | |
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103 | IMPLICIT NONE |
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104 | |
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105 | ! +--INTERFACE Variables |
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106 | ! + =================== |
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107 | |
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108 | include "dimsoil.h" |
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109 | |
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110 | |
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111 | ! +--Global Variables |
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112 | ! + ================ |
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113 | ! Input Variables for SISVAT |
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114 | INTEGER, INTENT(IN) :: knon |
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115 | INTEGER, INTENT(IN) :: itime |
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116 | REAL, INTENT(IN) :: dtime |
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117 | LOGICAL, INTENT(IN) :: debut ! true if first step |
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118 | LOGICAL, INTENT(IN) :: lafin ! true if last step |
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119 | |
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120 | INTEGER, DIMENSION(klon), INTENT(IN) :: ikl2i ! Index Decompression |
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121 | REAL, DIMENSION(klon), INTENT(IN) :: rlon, rlat |
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122 | REAL, DIMENSION(klon), INTENT(IN) :: rmu0 ! cos sol. zenith angle |
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123 | REAL, DIMENSION(klon), INTENT(IN) :: swdown ! |
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124 | REAL, DIMENSION(klon), INTENT(IN) :: lwdown ! |
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125 | REAL, DIMENSION(klon), INTENT(IN) :: pexner ! Exner potential |
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126 | REAL, DIMENSION(klon), INTENT(IN) :: precip_rain, precip_snow |
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127 | REAL, DIMENSION(klon), INTENT(IN) :: precip_snow_adv, snow_adv |
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128 | !Snow Drift |
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129 | REAL, DIMENSION(klon), INTENT(IN) :: bl_height, wind_velo |
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130 | REAL, DIMENSION(klon), INTENT(IN) :: temp_air, spechum, ps,p1lay |
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131 | REAL, DIMENSION(klon), INTENT(IN) :: dens_air, tsurf |
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132 | REAL, DIMENSION(klon), INTENT(IN) :: rugos,snow_cont_air |
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133 | REAL, DIMENSION(klon), INTENT(IN) :: alb_soil, slope |
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134 | REAL, DIMENSION(klon), INTENT(IN) :: cloudf |
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135 | REAL, DIMENSION(klon), INTENT(IN) :: AcoefH, AcoefQ |
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136 | REAL, DIMENSION(klon), INTENT(IN) :: BcoefH, BcoefQ |
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137 | REAL, DIMENSION(klon), INTENT(IN) :: cdragh |
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138 | |
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139 | ! Variables exchanged between LMDZ and SISVAT |
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140 | REAL, DIMENSION(klon,nsoilmx), INTENT(OUT) :: tsoil ! Soil Temperature |
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141 | REAL, DIMENSION(klon), INTENT(OUT) :: qsol ! Soil Water Content |
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142 | REAL, DIMENSION(klon), INTENT(INOUT) :: snow ! Tot snow mass [kg/m2] |
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143 | REAL, DIMENSION(klon), INTENT(IN) :: radsol ! Surface absorbed rad. |
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144 | |
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145 | ! Output Variables from SISVAT |
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146 | REAL, DIMENSION(klon), INTENT(OUT) :: alb1 ! Albedo SW |
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147 | REAL, DIMENSION(klon), INTENT(OUT) :: alb2,alb3 ! Albedo LW |
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148 | REAL, DIMENSION(klon), INTENT(OUT) :: emis_new ! Surface Emissivity |
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149 | REAL, DIMENSION(klon), INTENT(OUT) :: z0_new ! Momentum Roughn Lgt |
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150 | REAL, DIMENSION(klon), INTENT(OUT) :: runoff_lic ! Runoff |
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151 | REAL, DIMENSION(klon), INTENT(OUT) :: dflux_s ! d/dT sens. ht flux |
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152 | REAL, DIMENSION(klon), INTENT(OUT) :: dflux_l ! d/dT latent ht flux |
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153 | REAL, DIMENSION(klon), INTENT(OUT) :: fluxsens ! Sensible ht flux |
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154 | REAL, DIMENSION(klon), INTENT(OUT) :: fluxlat ! Latent heat flux |
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155 | REAL, DIMENSION(klon), INTENT(OUT) :: evap ! Evaporation |
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156 | REAL, DIMENSION(klon), INTENT(OUT) :: agesno ! Snow age (top layer) |
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157 | REAL, DIMENSION(klon), INTENT(OUT) :: tsurf_new ! Surface Temperature |
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158 | REAL, DIMENSION(klon), INTENT(OUT) :: qsurf ! Surface Humidity |
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159 | REAL, DIMENSION(klon), INTENT(OUT) :: qsnow ! Total H2O snow[kg/m2] |
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160 | REAL, DIMENSION(klon), INTENT(OUT) :: snowhgt ! Snow height (m) |
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161 | REAL, DIMENSION(klon), INTENT(OUT) :: to_ice ! Snow passed to ice |
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162 | REAL, DIMENSION(klon), INTENT(OUT) :: sissnow ! Snow in model (kg/m2) |
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163 | |
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164 | ! +--OUTPUT for NetCDF File |
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165 | ! + ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
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166 | ! REAL, DIMENSION(klonv) :: SOsoKL ! Abs Solar Radiation |
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167 | ! REAL, DIMENSION(klonv) :: IRsoKL ! Abs IR Radiation |
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168 | ! REAL, DIMENSION(klonv) :: HSsoKL ! Abs Sensible Ht Flux |
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169 | ! REAL, DIMENSION(klonv) :: HLsoKL ! Abs Latent Heat Flux |
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170 | ! REAL, DIMENSION(klonv) :: HLs_KL ! Evaporation |
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171 | ! REAL, DIMENSION(klonv) :: HLv_KL ! Transpiration |
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172 | ! |
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173 | ! REAL, DIMENSION(klonv) :: SOsoNC ! Abs Solar Radiation |
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174 | ! REAL, DIMENSION(klonv) :: IRsoNC ! Abs IR Radiation |
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175 | ! REAL, DIMENSION(klonv) :: HSsoNC ! Abs Sensible Ht Flux |
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176 | ! REAL, DIMENSION(klonv) :: HLsoNC ! Abs Latent Heat Flux |
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177 | ! REAL, DIMENSION(klonv) :: HLs_NC ! Evaporation |
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178 | ! REAL, DIMENSION(klonv) :: HLv_NC ! Transpiration |
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179 | ! |
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180 | ! REAL, DIMENSION(klonv,nsoilmx) :: eta_NC ! nsoilmx=nsol+1 |
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181 | ! REAL, DIMENSION(klonv,nsoilmx) :: tsolNC ! |
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182 | ! REAL, DIMENSION(klonv) :: snowNC ! |
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183 | ! INTEGER, DIMENSION(klonv) :: isnoNC ! |
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184 | ! INTEGER, DIMENSION(klonv) :: ispiNC ! |
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185 | ! INTEGER, DIMENSION(klonv) :: iiceNC ! |
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186 | ! REAL, DIMENSION(klonv) :: swaNC ! |
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187 | ! REAL, DIMENSION(klonv) :: swsNC ! |
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188 | ! INTEGER, DIMENSION(klonv,nsno) :: istoNC ! |
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189 | ! REAL, DIMENSION(klonv,nsno) :: dzsnNC ! |
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190 | ! REAL, DIMENSION(klonv,nsno) :: rhosnNC ! |
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191 | ! REAL, DIMENSION(klonv,nsno) :: etasnNC ! |
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192 | ! REAL, DIMENSION(klonv,nsno) :: tsnNC ! |
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193 | ! REAL, DIMENSION(klonv,nsno) :: g1snNC ! |
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194 | ! REAL, DIMENSION(klonv,nsno) :: g2snNC ! |
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195 | ! REAL, DIMENSION(klonv,nsno) :: agsnNC ! |
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196 | ! REAL, DIMENSION(klonv) :: meltNC ! |
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197 | ! REAL, DIMENSION(klonv) :: refrNC ! |
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198 | ! REAL, DIMENSION(klonv) :: alb1NC ! |
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199 | ! REAL, DIMENSION(klonv) :: alb2NC ! |
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200 | ! REAL, DIMENSION(klonv) :: rnofNC ! |
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201 | |
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202 | ! + Optional Variables: |
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203 | ! +--V, dT(a-s) Time Moving Averages |
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204 | ! + ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
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205 | |
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206 | ! #AW real V__mem(klon,ntaver) ! ntaver defined in LMDZ_SL.inc |
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207 | ! #AW real VVmmem(klon) ! |
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208 | ! #AW common/SVeSBLmem/V__mem,VVmmem ! |
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209 | ! #AH real T__mem(klon,ntaver) ! |
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210 | ! #AH real dTmmem(klon) ! |
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211 | ! #AH common/STeSBLmem/T__mem,dTmmem ! |
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212 | ! +--u*, u*T*, u*s* Time Moving Averages |
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213 | ! + ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
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214 | ! #AM real u__mem(klon,ntaver) ! ntaver defined in LMDZ_SL.inc |
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215 | ! #AT real uT_mem(klon,ntaver) ! |
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216 | ! #AS real us_mem(klon,ntaver) ! |
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217 | ! #AM common/S_eSBLmem/u__mem ! |
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218 | ! #AT. ,uT_mem ! |
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219 | ! #AS. ,us_mem ! |
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220 | !! #AH REAL, DIMENSION(klonv,ntaver) :: T__mem ! |
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221 | !! #AH REAL, DIMENSION(klonv) :: dTmmem ! |
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222 | !! #AW REAL, DIMENSION(klonv,ntaver) :: V__mem ! |
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223 | !! #AM REAL, DIMENSION(klonv) :: u__mem ! |
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224 | !! #AT REAL, DIMENSION(klonv) :: uT_mem ! |
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225 | !! #AS REAL, DIMENSION(klonv) :: us_mem ! |
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226 | !! #AW REAL, DIMENSION(klonv) :: VVmmem ! |
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227 | |
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228 | |
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229 | ! +--Internal Variables |
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230 | ! + =================== |
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231 | |
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232 | CHARACTER(len=20) :: fichnom, fn_outfor ! Name for output file |
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233 | INTEGER :: i, ig, ikl, isl, isn, nt |
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234 | INTEGER :: gp_outfor, un_outfor |
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235 | |
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236 | REAL, PARAMETER :: f1=0.5 |
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237 | REAL, PARAMETER :: sn_upp=5000.,sn_low=500. |
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238 | REAL, PARAMETER :: sn_add=400.,sn_div=2. |
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239 | ! snow mass upper,lower limit, |
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240 | ! added mass/division lowest layer |
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241 | REAL, PARAMETER :: c1_zuo=12.960e+4, c2_zuo=2.160e+6 |
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242 | REAL, PARAMETER :: c3_zuo=1.400e+2, czemin=1.e-3 |
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243 | ! Parameters for drainage |
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244 | ! c1_zuo/ 2.796e+4/,c2_zuo/2.160e+6/,c3_zuo/1.400e+2/ ! Tuning |
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245 | ! +... Run Off Parameters |
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246 | ! + 86400*1.5 day ...*25 days (Modif. ETH Camp: 86400*0.3day) |
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247 | ! + (Zuo and Oerlemans 1996, J.Glacio. 42, 305--317) |
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248 | |
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249 | REAL, DIMENSION(klon) :: eps0SL ! surface Emissivity |
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250 | REAL :: zsigma, Ua_min, Us_min |
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251 | REAL :: lambda ! Par. soil discret. |
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252 | REAL, DIMENSION(nsoilmx), SAVE :: dz1,dz2 ! Soil layer thicknesses |
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253 | !$OMP THREADPRIVATE(dz1) |
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254 | LOGICAL, SAVE :: firstcall=.TRUE.,SnoMod, ok_outfor=.FALSE.!$OMP THREADPRIVATE(firstcall) |
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255 | |
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256 | |
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257 | |
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258 | ! + Optional: |
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259 | !c #BW INTEGER :: noUNIT |
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260 | !c #BW REAL :: BlowST,SnowSB |
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261 | |
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262 | |
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263 | ! +--Internal Variables |
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264 | ! + ================== |
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265 | |
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266 | INTEGER :: ivg,iso |
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267 | |
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268 | !======================================================================== |
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269 | |
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270 | SnoMod=.true. |
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271 | zsigma=1000. |
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272 | dt__SV=dtime |
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273 | IF (ok_outfor) THEN |
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274 | un_outfor=51 ! unit number for point output |
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275 | gp_outfor=79! 633 !79 ! grid point number for point output |
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276 | fn_outfor='outfor_SV.dat' |
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277 | END IF |
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278 | |
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279 | ! write(*,*)'Start of simulation? ',debut !hj |
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280 | IF (debut) THEN |
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281 | firstcall=.TRUE. |
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282 | INI_SV=.false. |
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283 | ELSE |
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284 | firstcall=.false. |
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285 | INI_SV=.true. |
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286 | END IF |
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287 | |
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288 | ! ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
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289 | |
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290 | |
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291 | ! ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
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292 | ! + INITIALISATION: BEGIN +++ |
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293 | ! + ------------------------- |
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294 | ! + |
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295 | ! + Compute soil discretization (as for LMDZ) |
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296 | ! + ----------------------------------------- |
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297 | IF (firstcall) THEN |
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298 | |
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299 | ! +--Array size |
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300 | klonv=klon |
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301 | knonv=knon |
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302 | write(*,*)'klon',klon,'klonv',klonv,'knon',knon |
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303 | |
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304 | |
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305 | CALL INIT_VARtSV |
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306 | CALL INIT_VARxSV |
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307 | CALL INIT_VARySV |
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308 | |
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309 | eps0SL(:)=0. |
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310 | ! +--Soil layer thickness |
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311 | ! + ----------------------- |
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312 | ! write(*,'(/a)') 'Start SISVAT init: soil discretization ', nsoilmx |
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313 | CALL get_soil_levels(dz1,dz2,lambda) |
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314 | lambSV=lambda |
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315 | dz1_SV(1:knon,1:) = 0. |
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316 | dz2_SV(1:knon,1:) = 0. |
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317 | |
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318 | DO isl = -nsol,0 |
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319 | dz_dSV(isl) = 0.5e-3*dz2(1-isl) ! Soil layer thickness |
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320 | DO ikl=1,knon |
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321 | dz1_SV(ikl,isl) = dz1(1-isl) !1.e-3* |
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322 | dz2_SV(ikl,isl) = dz2(1-isl) !1.e-3* |
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323 | END DO |
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324 | ! IF (knon > 0) THEN |
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325 | ! write(*,*)'level:',dz_dSV(isl),dz1_SV(1,isl),dz2_SV(1,isl) |
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326 | ! END IF |
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327 | END DO |
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328 | |
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329 | DO ikl=1,knon |
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330 | eps0SL(ikl )= 1. |
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331 | alb0SV(ikl) = alb_soil(ikl) ! Soil Albedo |
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332 | |
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333 | ! + Soil Upward IR Flux, Water Fluxes, roughness length |
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334 | IRs_SV(ikl) = & |
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335 | -eps0SL(ikl)* rsigma*temp_air(ikl) & ! Upward IR Flux |
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336 | *temp_air(ikl)*temp_air(ikl)*temp_air(ikl) |
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337 | TvegSV(ikl) = temp_air(ikl) |
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338 | ! + Soil |
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339 | DO isl = -nsol,0 |
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340 | TsisSV(ikl,isl) = temp_air(ikl) !tsoil(ikl,1-isl) Soil Temperature |
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341 | eta_SV(ikl,isl) = 0.0001 !etasoil(ikl,1-isl)Soil Water[m3/m3] |
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342 | ro__SV(ikl,isl) = 50. !rosoil(ikl,1-isl) soil water volumic mass |
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343 | END DO |
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344 | END DO |
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345 | |
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346 | ! +--Surface Fall Line Slope |
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347 | ! + ----------------------- |
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348 | IF (SnoMod) THEN |
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349 | DO ikl=1,knon |
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350 | slopSV(ikl) = slope(ikl) |
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351 | SWf_SV(ikl) = & ! Normalized Decay of the |
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352 | exp(-dt__SV & ! Surficial Water Content |
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353 | /(c1_zuo & !(Zuo and Oerlemans 1996, |
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354 | +c2_zuo*exp(-c3_zuo*abs(slopSV(ikl))))) ! J.Glacio. 42, 305--317) |
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355 | END DO |
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356 | END IF |
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357 | |
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358 | ! +--SBL Characteristics history, not stored at restart. |
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359 | DO ikl=1,knon |
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360 | DO nt=1,ntaver ! #AW |
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361 | V__mem(ikl,nt)=wind_velo(ikl) ! #AH |
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362 | T__mem(ikl,nt)=temp_air(ikl)-tsurf(ikl) |
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363 | END DO |
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364 | END DO |
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365 | |
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366 | |
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367 | ! + SISVAT_ini (as for use with MAR, but not computing soil layers) |
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368 | ! + ------------------------------------------------------------- |
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369 | ! write(*,'(/a)') 'Start SISVAT initialization: SISVAT_ini' |
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370 | CALL SISVAT_ini(knon) |
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371 | |
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372 | ! open output file |
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373 | IF (ok_outfor) THEN |
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374 | open(unit=un_outfor,status='new',file=fn_outfor) |
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375 | rewind un_outfor |
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376 | ikl=gp_outfor ! index sur la grille land ice |
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377 | ig=611 ! index sur la grille globale |
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378 | write(un_outfor,501) fn_outfor, ikl, rlon(ig),rlat(ig) |
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379 | 501 format(/,a18,/,'Grid point ',i4,' Long',f9.4,' Lat ',f9.4 & |
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380 | & ,/,'++++++++++++++++++++++++++++++++++++++++++++++', & |
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381 | & '++++++++++++++++++++++++++++++++++++++++++++++', & |
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382 | & '++++++++++++++++++++++++++++++++++++++++++++++', & |
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383 | & /,' SWdown + IRdown + Wind + Temp. + Humid. ', & |
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384 | & '+ Press +Precip_l+Precip_s+ Tsrf + Clouds +' & |
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385 | & '+ Zenith + BLhgt + Densair+ Exner +' & |
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386 | & ,/,' sol_SV + IRd_SV + VV__SV + TaT_SV + QaT_SV ', & |
---|
387 | & '+ ps__SV + drr_SV + dsn_SV + Tsf_SV + cld_SV +' & |
---|
388 | & '+ coszSV + za__SV + rhT_SV + ExnrSV+' & |
---|
389 | & ,/,' W/m2 + W/m2 + m/s + K + kg/kg ', & |
---|
390 | & '+ Pa + kg/m2/s+ kg/m2/s+ K + /1 +' & |
---|
391 | & '+ - + m + kg/m3 + +' & |
---|
392 | & ,/,'++++++++++++++++++++++++++++++++++++++++++++++', & |
---|
393 | & '++++++++++++++++++++++++++++++++++++++++++++++', & |
---|
394 | & '++++++++++++++++++++++++++++++++++++++++++++++') |
---|
395 | END IF |
---|
396 | |
---|
397 | ! +--Read restart file |
---|
398 | ! + ================================================= |
---|
399 | |
---|
400 | ! Martin |
---|
401 | PRINT*, 'On debranche sisvatetat0' |
---|
402 | ! Martin |
---|
403 | |
---|
404 | ! CALL sisvatetat0("startsis.nc",ikl2i) |
---|
405 | |
---|
406 | |
---|
407 | END IF ! firstcall |
---|
408 | ! + |
---|
409 | ! + +++ INITIALISATION: END +++ |
---|
410 | ! ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
---|
411 | |
---|
412 | |
---|
413 | |
---|
414 | ! ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
---|
415 | ! + READ FORCINGS |
---|
416 | ! + ------------------------ |
---|
417 | ! + Update Forcings for SISVAT given by the LMDZ model. |
---|
418 | ! + |
---|
419 | DO ikl=1,knon |
---|
420 | |
---|
421 | ! +--Atmospheric Forcing (INPUT) |
---|
422 | ! + ^^^^^^^^^^^^^^^^^^^ ^^^^^ |
---|
423 | zSBLSV = 1000. ! [m] |
---|
424 | za__SV(ikl) = bl_height(ikl) ! Height boundary layer [m] |
---|
425 | Ua_min = epsi ! |
---|
426 | ! #VM Ua_min = 0.2 * sqrt(za__SV(ikl) ) ! |
---|
427 | Ua_min = 0.2 * sqrt(za__SV(ikl) ) ! |
---|
428 | VV__SV(ikl) = max(Ua_min, wind_velo(ikl)) ! Wind velocity [m/s] |
---|
429 | Us_min = 0.01 |
---|
430 | us__SV(ikl) = max(Us_min, us__SV(ikl) ) |
---|
431 | TaT_SV(ikl) = temp_air(ikl) ! BL top Temperature [K] |
---|
432 | ExnrSV(ikl) = pexner(ikl) ! Exner potential |
---|
433 | rhT_SV(ikl) = dens_air(ikl) ! Air density |
---|
434 | QaT_SV(ikl) = spechum(ikl) ! Specific humidity |
---|
435 | ! #VX dQa_SV(ikl) = 0. !hj dtDiff/zsigma(mz) ! Water Vapor Flux |
---|
436 | ps__SV(ikl) = ps(ikl) ! surface pressure [Pa] |
---|
437 | p1l_SV(ikl) = p1lay(ikl) ! lowest atm. layer press[Pa] |
---|
438 | |
---|
439 | ! +--Energy Fluxes (INPUT) |
---|
440 | ! + ^^^^^^^^^^^^^ ^^^^^ |
---|
441 | coszSV(ikl) = max(czemin,rmu0(ikl)) ! cos(zenith.Dist.) |
---|
442 | sol_SV(ikl) = swdown(ikl) ! downward Solar |
---|
443 | IRd_SV(ikl) = lwdown(ikl) ! downward IR |
---|
444 | rsolSV(ikl) = radsol(ikl) ! surface absorbed rad. |
---|
445 | !hj 110511 |
---|
446 | !hj 121011 IRs_SV(ikl) = min(IRs_SV(ikl),-epsi) ! check upward IR |
---|
447 | !hj |
---|
448 | ! +--Water Fluxes (INPUT) |
---|
449 | ! + ^^^^^^^^^^^^^ ^^^^^ |
---|
450 | drr_SV(ikl) = precip_rain(ikl) ! Rain fall rate [kg/m2/s] |
---|
451 | dsn_SV(ikl) = precip_snow(ikl) ! Snow fall rate [kg/m2/s] |
---|
452 | !c #BS dbsnow = -SLussl(i,j,n) ! Erosion |
---|
453 | !c #BS. *dtPhys *rhT_SV(ikl) /ro_Wat |
---|
454 | !c #BS dsnbSV(ikl) = snow_adv(ikl) ! min(max(zero,dbsnow) |
---|
455 | !c #BS. / max(epsi,d_snow),unun) |
---|
456 | !c #BS dbs_SV(ikl) = snow_cont_air(ikl) |
---|
457 | !c #BS blowSN(i,j,n) ! [kg/m2] |
---|
458 | |
---|
459 | ! +--Soil/Canopy (INPUT) |
---|
460 | ! + ^^^^^^^^^^^ ^^^^^ |
---|
461 | alb0SV(ikl) = alb_soil(ikl) ! Soil background Albedo |
---|
462 | AcoHSV(ikl) = AcoefH(ikl) |
---|
463 | BcoHSV(ikl) = BcoefH(ikl) |
---|
464 | AcoQSV(ikl) = AcoefQ(ikl) |
---|
465 | BcoQSV(ikl) = BcoefQ(ikl) |
---|
466 | cdH_SV(ikl) = cdragh(ikl) |
---|
467 | Tsf_SV(ikl) = tsurf(ikl) !hj 12 03 2010 |
---|
468 | |
---|
469 | ! +--Energy Fluxes (INPUT/OUTPUT) |
---|
470 | ! + ^^^^^^^^^^^^^ ^^^^^^^^^^^^ |
---|
471 | IF (.not.firstcall) THEN |
---|
472 | ! active hj 110411 |
---|
473 | cld_SV(ikl) = cloudf(ikl) ! Cloudiness |
---|
474 | END IF |
---|
475 | |
---|
476 | ! +--Time Averages of wind and surface-atmosphere temperature difference |
---|
477 | ! +--for turbulence calculations ! #AA |
---|
478 | ! Update stored arrays |
---|
479 | DO nt=1,ntaver-1 ! #AW |
---|
480 | V__mem(ikl,nt ) = V__mem(ikl,nt+1) ! #AH |
---|
481 | T__mem(ikl,nt ) = T__mem(ikl,nt+1) ! #AA |
---|
482 | ENDDO ! #AW |
---|
483 | V__mem(ikl,ntaver)=wind_velo(ikl) ! #AH |
---|
484 | T__mem(ikl,ntaver)=temp_air(ikl)-tsurf(ikl) ! #AW |
---|
485 | ! Calculate averages |
---|
486 | VVmmem(ikl) = 0.0 ! #AH |
---|
487 | dTmmem(ikl) = 0.0 ! #AA |
---|
488 | DO nt=1,ntaver ! #AW |
---|
489 | VVmmem(ikl) = VVmmem(ikl)+V__mem(ikl,nt) ! #AH |
---|
490 | dTmmem(ikl) = dTmmem(ikl)+T__mem(ikl,nt) ! #AA |
---|
491 | ENDDO ! #AW |
---|
492 | VVmmem(ikl) = VVmmem(ikl)/ntaver ! #AH |
---|
493 | dTmmem(ikl) = dTmmem(ikl)/ntaver |
---|
494 | END DO |
---|
495 | |
---|
496 | ! |
---|
497 | ! + +++ READ FORCINGS: END +++ |
---|
498 | ! ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
---|
499 | |
---|
500 | ! ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
---|
501 | ! + OUTPUT FORCING |
---|
502 | ! |
---|
503 | IF (ok_outfor) THEN |
---|
504 | ikl=gp_outfor |
---|
505 | write(un_outfor,5000) sol_SV(ikl), IRd_SV(ikl), VV__SV(ikl), & |
---|
506 | & TaT_SV(ikl), QaT_SV(ikl), ps__SV(ikl), & |
---|
507 | & drr_SV(ikl), dsn_SV(ikl), Tsf_SV(ikl), & |
---|
508 | & cld_SV(ikl), coszSV(ikl), za__SV(ikl), & |
---|
509 | & rhT_SV(ikl), ExnrSV(ikl) |
---|
510 | |
---|
511 | 5000 format(f8.3,' ',f8.3,' ',f8.4,' ',f8.4,' ',f10.8,' ',f8.1,' ', & |
---|
512 | & f8.6,' ',f8.6,' ',f8.4,' ',f8.6,' ',f8.6,' ',f8.3,' ', & |
---|
513 | & f8.4,' ',f8.6) |
---|
514 | |
---|
515 | ENDIF |
---|
516 | ! |
---|
517 | ! + OUTPUT FORCINGS: END +++ |
---|
518 | ! ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
---|
519 | |
---|
520 | |
---|
521 | |
---|
522 | ! ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
---|
523 | ! +--SISVAT EXECUTION |
---|
524 | ! + ---------------- |
---|
525 | ! + |
---|
526 | ! write(*,*) ' Start SISVAT execution!' |
---|
527 | |
---|
528 | call SISVAT(SnoMod,.false.,1) |
---|
529 | ! BloMod,jjtime) |
---|
530 | |
---|
531 | ! ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
---|
532 | ! + RETURN RESULTS |
---|
533 | ! + -------------- |
---|
534 | ! + Return (compressed) SISVAT variables to LMDZ |
---|
535 | ! + |
---|
536 | DO ikl=1,knon ! use only 1:knon (actual ice sheet..) |
---|
537 | runoff_lic(ikl) = RnofSV(ikl)*dtime ! RunOFF: intensity* time step |
---|
538 | dflux_s(ikl) = dSdTSV(ikl) ! Sens.H.Flux T-Der. |
---|
539 | dflux_l(ikl) = dLdTSV(ikl) ! Latn.H.Flux T-Der. |
---|
540 | fluxsens(ikl) = HSs_sv(ikl) ! HS |
---|
541 | fluxlat(ikl) = HLs_sv(ikl) ! HL |
---|
542 | evap(ikl) = HLs_sv(ikl)/RLVTT ! Evaporation RLVTT=LhvH2O |
---|
543 | z0_new(ikl) = Z0h_SV(ikl) ! Moment.Roughn.L. |
---|
544 | |
---|
545 | |
---|
546 | snow(ikl) = 0. |
---|
547 | snowhgt(ikl) = 0. |
---|
548 | qsnow(ikl) = 0. |
---|
549 | qsol(ikl) = 0. |
---|
550 | ! ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
---|
551 | ! + Check snow thickness, add if too thin, substract if too thick |
---|
552 | |
---|
553 | sissnow(ikl) = 0. !() |
---|
554 | DO isn = 1,isnoSV(ikl) |
---|
555 | sissnow(ikl) = sissnow(ikl)+dzsnSV(ikl,isn)* ro__SV(ikl,isn) |
---|
556 | END DO |
---|
557 | |
---|
558 | IF (sissnow(ikl) .LE. sn_low) THEN !add snow |
---|
559 | IF (isnoSV(ikl).GE.1) THEN |
---|
560 | dzsnSV(ikl,1) = dzsnSV(ikl,1) + sn_add/max(ro__SV(ikl,1),epsi) |
---|
561 | toicSV(ikl) = toicSV(ikl) - sn_add |
---|
562 | ELSE |
---|
563 | write(*,*) 'Attention, bare ice... point ',ikl |
---|
564 | isnoSV(ikl) = 1 |
---|
565 | istoSV(ikl,1) = 100 |
---|
566 | !ym istoSV(ikl) = 100 |
---|
567 | ro__SV(ikl,1) = 400. |
---|
568 | dzsnSV(ikl,1) = sn_add/max(ro__SV(ikl,1),epsi) ! 1. |
---|
569 | eta_SV(ikl,1) = epsi |
---|
570 | TsisSV(ikl,1) = min(TsisSV(ikl,0),TfSnow-0.2) |
---|
571 | G1snSV(ikl,1) = 99. |
---|
572 | G2snSV(ikl,1) = 0.3 |
---|
573 | agsnSV(ikl,1) = 10. |
---|
574 | toicSV(ikl) = toicSV(ikl) - sn_add |
---|
575 | END IF |
---|
576 | END IF |
---|
577 | |
---|
578 | IF (sissnow(ikl) .ge. sn_upp) THEN !thinnen snow layer below |
---|
579 | dzsnSV(ikl,1) = dzsnSV(ikl,1)/sn_div |
---|
580 | toicSV(ikl) = toicSV(ikl)+dzsnSV(ikl,1)*ro__SV(ikl,1)/sn_div |
---|
581 | END IF |
---|
582 | |
---|
583 | sissnow(ikl) = 0. !() |
---|
584 | DO isn = 1,isnoSV(ikl) |
---|
585 | sissnow(ikl) = sissnow(ikl)+dzsnSV(ikl,isn)* ro__SV(ikl,isn) |
---|
586 | ! +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
---|
587 | snowhgt(ikl) = snowhgt(ikl)+dzsnSV(ikl,isn) |
---|
588 | qsnow(ikl) = qsnow(ikl)+1e03*eta_SV(ikl,isn)*dzsnSV(ikl,isn) |
---|
589 | END DO |
---|
590 | snow(ikl) = sissnow(ikl)+toicSV(ikl) |
---|
591 | to_ice(ikl) = toicSV(ikl) |
---|
592 | ! +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
---|
593 | |
---|
594 | |
---|
595 | DO isl = -nsol,0 |
---|
596 | tsoil(ikl,1-isl) = TsisSV(ikl,isl) ! Soil Temperature |
---|
597 | qsol(ikl) = qsol(ikl) & |
---|
598 | +eta_SV(ikl,isl) * dz_dSV(isl) |
---|
599 | END DO |
---|
600 | agesno(ikl) = agsnSV(ikl,isnoSV(ikl)) ! [day] |
---|
601 | |
---|
602 | alb1(ikl) = alb1sv(ikl) ! Albedo VIS |
---|
603 | alb2(ikl) = ((So1dSV-f1)*alb1sv(ikl) & |
---|
604 | & +So2dSV*alb2sv(ikl)+So3dSV*alb3sv(ikl))/f1 |
---|
605 | ! Albedo NIR |
---|
606 | alb3(ikl) = alb3sv(ikl) ! Albedo FIR |
---|
607 | tsurf_new(ikl) = TsfnSV(ikl) |
---|
608 | !hj220711 Tsrfsv(ikl) ! Surf.Temperature |
---|
609 | ! TsisSV(ikl,0) *(1-min(1,isnoSV(ikl))) & |
---|
610 | ! +TsisSV(ikl,max(1,isnoSV(ikl))) * min(1,isnoSV(ikl)) |
---|
611 | ! tsurf_new(ikl) = max(Ts_Min,tsurf_new(ikl) ) |
---|
612 | ! tsurf_new(ikl) = min(Ts_Max,tsurf_new(ikl) ) |
---|
613 | qsurf(ikl) = QaT_SV(ikl) |
---|
614 | emis_new(ikl) = eps0SL(ikl) |
---|
615 | |
---|
616 | !!!hjp 230611 sorties |
---|
617 | !! qsnow(ikl)=TsisSV(ikl,isnoSV(ikl)) |
---|
618 | !! sissnow(ikl)=TsisSV(ikl,isnoSV(ikl)-1) |
---|
619 | !! snowhgt(ikl)=TsisSV(ikl,isnoSV(ikl)-2) |
---|
620 | !! qsol(ikl)=dzsnSV(ikl,isnoSV(ikl)-1) |
---|
621 | !! agesno(ikl)=dzsnSV(ikl,isnoSV(ikl)) |
---|
622 | |
---|
623 | |
---|
624 | END DO |
---|
625 | |
---|
626 | |
---|
627 | ! + ----------------------------- |
---|
628 | ! + END --- RETURN RESULTS |
---|
629 | ! ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
---|
630 | |
---|
631 | |
---|
632 | ! ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
---|
633 | ! + Uncompress SISVAT output variables & store |
---|
634 | ! + ----------------------------- |
---|
635 | ! + |
---|
636 | ! DO ikl = 1,knon |
---|
637 | ! i = ikl2i(ikl) ! Compression index |
---|
638 | ! IF (i.GE.0) THEN |
---|
639 | ! SOsoNC(i) = SOsoKL(ikl) ! Absorb.Sol.Rad. |
---|
640 | ! IRsoNC(i) = IRsoKL(ikl) ! Absorb.IR Rad. |
---|
641 | ! HSsoNC(i) = HSsoKL(ikl) ! HS |
---|
642 | ! HLsoNC(i) = HLsoKL(ikl) ! HL |
---|
643 | ! HLs_NC(i) = HLs_KL(ikl) ! Evaporation |
---|
644 | ! HLv_NC(i) = HLv_KL(ikl) ! Transpiration |
---|
645 | ! |
---|
646 | ! DO isl = -nsol,0 |
---|
647 | ! eta_NC(i,1-isl) = eta_SV(ikl,isl) ! Soil Humidity |
---|
648 | ! tsolNC(i,1-isl) = TsisSV(ikl,isl) ! Soil Temperature |
---|
649 | ! END DO |
---|
650 | ! snowNC(i) = snow(ikl) ! Snow mass |
---|
651 | ! isnoNC(i) = isnoSV(ikl) ! Nb Snow/Ice Lay. |
---|
652 | ! ispiNC(i) = ispiSV(ikl) ! Nb Supr.Ice Lay. |
---|
653 | ! iiceNC(i) = iiceSV(ikl) ! Nb Ice Lay. |
---|
654 | ! swaNC(i) = rusnSV(ikl) ! Surficial Water |
---|
655 | ! swsNC(i) = SWS_SV(ikl) ! Surficial Wat.St. |
---|
656 | ! DO isn = 1,nsno |
---|
657 | ! istoNC(i,isn) = istoSV(ikl,isn) ! [-] |
---|
658 | ! dzsnNC(i,isn) = dzsnSV(ikl,isn) ! [m] |
---|
659 | ! rhosnNC(i,isn) = ro__SV(ikl,isn) ! [kg/m3] |
---|
660 | ! etasnNC(i,isn) = eta_SV(ikl,isn) ! [m3/m3] |
---|
661 | ! tsnNC(i,isn) = TsisSV(ikl,isn) ! [K] |
---|
662 | ! g1snNC(i,isn) = G1snSV(ikl,isn) ! [-] [-] |
---|
663 | ! g2snNC(i,isn) = G2snSV(ikl,isn) ! [-] [0.0001 m] |
---|
664 | ! agsnNC(i,isn) = agsnSV(ikl,isn) ! [day] |
---|
665 | ! END DO |
---|
666 | !!?c #IB depsubNC(i) = wes_SV(ikl) ! Depo. / Subli. |
---|
667 | ! meltNC(i) = wem_SV(ikl) ! Melting |
---|
668 | ! refrNC(i) = wer_SV(ikl) ! Refreezing |
---|
669 | ! alb1NC(i) = alb1sv(ikl) ! Albedo SW |
---|
670 | ! alb2NC(i) = (alb1sv(ikl)+3*alb2sv(ikl)+alb3sv(ikl))/5 |
---|
671 | ! Albedo LW |
---|
672 | ! rnofNC(i) = RnofSV(ikl) ! Run OFF Intensity |
---|
673 | ! |
---|
674 | !!? SL_z0(i) = Z0m_SV(ikl) ! Moment.Roughn.L. |
---|
675 | !!? SL_r0(i,j,n) = Z0h_SV(ikl) ! Heat Roughn.L. |
---|
676 | !!! zWE_NC(i) = zWE_SV(ikl) ! Current *Thick. |
---|
677 | !!! zWEcNC(i) = zWEcSV(ikl) ! Non-Erod.*Thick. |
---|
678 | !!! hSalNC(i) = hSalSV(ikl) ! Salt.Layer Height |
---|
679 | !!! hsenSL(i) = -SLuts(i,j) * rhAir *cp ! Sensible Heat Flux |
---|
680 | !!! hlatSL(i) = -SLuqs(i,j) * rhAir *Lv_H2O ! Latent Heat Flux |
---|
681 | ! END IF |
---|
682 | ! END DO |
---|
683 | |
---|
684 | !hj + Put storage to Output file here! |
---|
685 | IF (lafin) THEN |
---|
686 | |
---|
687 | fichnom = "restartsis.nc" |
---|
688 | CALL sisvatredem("restartsis.nc",ikl2i,rlon,rlat) |
---|
689 | IF (ok_outfor) THEN |
---|
690 | close(unit=un_outfor) |
---|
691 | END IF |
---|
692 | END IF |
---|
693 | ! + ----------------------------- |
---|
694 | ! + END --- RETURN RESULTS |
---|
695 | ! +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
---|
696 | |
---|
697 | END SUBROUTINE surf_sisvat |
---|
698 | |
---|
699 | |
---|
700 | |
---|
701 | |
---|
702 | |
---|
703 | |
---|
704 | |
---|
705 | SUBROUTINE get_soil_levels(dz1, dz2, lambda) |
---|
706 | ! ====================================================================== |
---|
707 | ! Routine to compute the vertical discretization of the soil in analogy |
---|
708 | ! to LMDZ. In LMDZ it is done in soil.F, which is not used in the case |
---|
709 | ! of SISVAT, therefore it's needed here. |
---|
710 | ! |
---|
711 | USE mod_phys_lmdz_mpi_data, ONLY : is_mpi_root |
---|
712 | USE mod_phys_lmdz_para |
---|
713 | |
---|
714 | INCLUDE "dimsoil.h" |
---|
715 | |
---|
716 | REAL, DIMENSION(nsoilmx), INTENT(OUT) :: dz2, dz1 |
---|
717 | REAL, INTENT(OUT) :: lambda |
---|
718 | |
---|
719 | |
---|
720 | !----------------------------------------------------------------------- |
---|
721 | ! Depthts: |
---|
722 | ! -------- |
---|
723 | REAL fz,rk,fz1,rk1,rk2 |
---|
724 | REAL min_period, dalph_soil |
---|
725 | INTEGER ierr,jk |
---|
726 | |
---|
727 | fz(rk)=fz1*(dalph_soil**rk-1.)/(dalph_soil-1.) |
---|
728 | |
---|
729 | ! write(*,*)'Start soil level computation' |
---|
730 | !----------------------------------------------------------------------- |
---|
731 | ! Calculation of some constants |
---|
732 | ! NB! These constants do not depend on the sub-surfaces |
---|
733 | !----------------------------------------------------------------------- |
---|
734 | !----------------------------------------------------------------------- |
---|
735 | ! ground levels |
---|
736 | ! grnd=z/l where l is the skin depth of the diurnal cycle: |
---|
737 | !----------------------------------------------------------------------- |
---|
738 | |
---|
739 | min_period=1800. ! en secondes |
---|
740 | dalph_soil=2. ! rapport entre les epaisseurs de 2 couches succ. |
---|
741 | ! !$OMP MASTER |
---|
742 | ! IF (is_mpi_root) THEN |
---|
743 | ! OPEN(99,file='soil.def',status='old',form='formatted',iostat=ierr) |
---|
744 | ! IF (ierr == 0) THEN ! Read file only if it exists |
---|
745 | ! READ(99,*) min_period |
---|
746 | ! READ(99,*) dalph_soil |
---|
747 | ! PRINT*,'Discretization for the soil model' |
---|
748 | ! PRINT*,'First level e-folding depth',min_period, & |
---|
749 | ! ' dalph',dalph_soil |
---|
750 | ! CLOSE(99) |
---|
751 | ! END IF |
---|
752 | ! ENDIF |
---|
753 | ! !$OMP END MASTER |
---|
754 | ! CALL bcast(min_period) |
---|
755 | ! CALL bcast(dalph_soil) |
---|
756 | |
---|
757 | ! la premiere couche represente un dixieme de cycle diurne |
---|
758 | fz1=SQRT(min_period/3.14) |
---|
759 | |
---|
760 | DO jk=1,nsoilmx |
---|
761 | rk1=jk |
---|
762 | rk2=jk-1 |
---|
763 | dz2(jk)=fz(rk1)-fz(rk2) |
---|
764 | ENDDO |
---|
765 | DO jk=1,nsoilmx-1 |
---|
766 | rk1=jk+.5 |
---|
767 | rk2=jk-.5 |
---|
768 | dz1(jk)=1./(fz(rk1)-fz(rk2)) |
---|
769 | ENDDO |
---|
770 | lambda=fz(.5)*dz1(1) |
---|
771 | PRINT*,'full layers, intermediate layers (seconds)' |
---|
772 | DO jk=1,nsoilmx |
---|
773 | rk=jk |
---|
774 | rk1=jk+.5 |
---|
775 | rk2=jk-.5 |
---|
776 | PRINT *,'fz=', & |
---|
777 | fz(rk1)*fz(rk2)*3.14,fz(rk)*fz(rk)*3.14 |
---|
778 | ENDDO |
---|
779 | |
---|
780 | END SUBROUTINE get_soil_levels |
---|
781 | |
---|
782 | SUBROUTINE SISVAT_ini(knon) |
---|
783 | |
---|
784 | !C +------------------------------------------------------------------------+ |
---|
785 | !C | MAR SISVAT_ini Jd 11-10-2007 MAR | |
---|
786 | !C | SubRoutine SISVAT_ini generates non time dependant SISVAT parameters | |
---|
787 | !C +------------------------------------------------------------------------+ |
---|
788 | !C | PARAMETERS: klonv: Total Number of columns = | |
---|
789 | !C | ^^^^^^^^^^ = Total Number of continental grid boxes | |
---|
790 | !C | X Number of Mosaic Cell per grid box | |
---|
791 | !C | | |
---|
792 | !C | INPUT: dt__SV : Time Step [s] | |
---|
793 | !C | ^^^^^ dz_dSV : Layer Thickness [m] | |
---|
794 | !C | | |
---|
795 | !C | OUTPUT: RF__SV : Root Fraction in Layer isl [-] | |
---|
796 | !C | ^^^^^^ rocsSV : Soil Contrib. to (ro c)_s exclud.Water [J/kg/K] | |
---|
797 | !C | etamSV : Soil Minimum Humidity [m3/m3] | |
---|
798 | !C | (based on a prescribed Soil Relative Humidity) | |
---|
799 | !C | s1__SV : Factor of eta**( b+2) in Hydraul.Diffusiv. | |
---|
800 | !C | s2__SV : Factor of eta**( b+2) in Hydraul.Conduct. | |
---|
801 | !C | aKdtSV : KHyd: Piecewise Linear Profile: a * dt [m] | |
---|
802 | !C | bKdtSV : KHyd: Piecewise Linear Profile: b * dt [m/s] | |
---|
803 | !C | dzsnSV(0): Soil first Layer Thickness [m] | |
---|
804 | !C | dzmiSV : Distance between two contiguous levels [m] | |
---|
805 | !C | dz78SV : 7/8 (Layer Thickness) [m] | |
---|
806 | !C | dz34SV : 3/4 (Layer Thickness) [m] | |
---|
807 | !C | dz_8SV : 1/8 (Layer Thickness) [m] | |
---|
808 | !C | dzAvSV : 1/8 dz_(i-1) + 3/4 dz_(i) + 1/8 dz_(i+1) [m] | |
---|
809 | !C | dtz_SV : dt/dz [s/m] | |
---|
810 | !C | OcndSV : Swab Ocean / Soil Ratio [-] | |
---|
811 | !C | Implic : Implicit Parameter (0.5: Crank-Nicholson) | |
---|
812 | !C | Explic : Explicit Parameter = 1.0 - Implic | |
---|
813 | !C | | |
---|
814 | !C | # OPTIONS: #ER: Richards Equation is not smoothed | |
---|
815 | !C | # ^^^^^^^ #kd: De Ridder Discretization | |
---|
816 | !C | # #SH: Hapex-Sahel Values ! |
---|
817 | !C | | |
---|
818 | !C +------------------------------------------------------------------------+ |
---|
819 | ! |
---|
820 | ! |
---|
821 | |
---|
822 | !C +--Global Variables |
---|
823 | !C + ================ |
---|
824 | |
---|
825 | USE VARphy, ra_earth=>ra |
---|
826 | USE VAR_SV |
---|
827 | USE VARdSV |
---|
828 | USE VAR0SV |
---|
829 | USE VARxSV |
---|
830 | USE VARtSV |
---|
831 | USE VARxSV |
---|
832 | USE VARySV |
---|
833 | IMPLICIT NONE |
---|
834 | |
---|
835 | |
---|
836 | |
---|
837 | !C +--Arguments |
---|
838 | !C + ================== |
---|
839 | INTEGER,INTENT(IN) :: knon |
---|
840 | |
---|
841 | !C +--Internal Variables |
---|
842 | !C + ================== |
---|
843 | |
---|
844 | INTEGER :: ivt ,ist ,ivg ,ikl ,isl ,isn ,ikh |
---|
845 | INTEGER :: misl_2,nisl_2 |
---|
846 | REAL :: zDepth |
---|
847 | REAL :: d__eta,eta__1,eta__2,Khyd_1,Khyd_2 |
---|
848 | REAL,PARAMETER :: RHsMin= 0.001 ! Min.Soil Relative Humidity |
---|
849 | REAL :: PsiMax ! Max.Soil Water Potential |
---|
850 | REAL :: a_Khyd,b_Khyd ! Piecewis.Water Conductivity |
---|
851 | |
---|
852 | |
---|
853 | !c #WR REAL :: Khyd_x,Khyd_y |
---|
854 | |
---|
855 | |
---|
856 | |
---|
857 | !C +--Non Time Dependant SISVAT parameters |
---|
858 | !C + ==================================== |
---|
859 | |
---|
860 | !C +--Soil Discretization |
---|
861 | !C + ------------------- |
---|
862 | |
---|
863 | !C +--Numerical Scheme Parameters |
---|
864 | !C + ^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
---|
865 | Implic = 0.75 ! 0.5 <==> Crank-Nicholson |
---|
866 | Explic = 1.00 - Implic ! |
---|
867 | |
---|
868 | !C +--Soil/Snow Layers Indices |
---|
869 | !C + ^^^^^^^^^^^^^^^^^^^^^^^^ |
---|
870 | DO isl=-nsol,0 |
---|
871 | islpSV(isl) = isl+1 |
---|
872 | islpSV(isl) = min( islpSV(isl),0) |
---|
873 | islmSV(isl) = isl-1 |
---|
874 | islmSV(isl) = max(-nsol,islmSV(isl)) |
---|
875 | END DO |
---|
876 | |
---|
877 | DO isn=1,nsno |
---|
878 | isnpSV(isn) = isn+1 |
---|
879 | isnpSV(isn) = min( isnpSV(isn),nsno) |
---|
880 | END DO |
---|
881 | |
---|
882 | !C +--Soil Layers Thicknesses |
---|
883 | !C + ^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
---|
884 | ! Not used here as LMDZ method is applied, see SUBROUTINE get_soil_levels! |
---|
885 | !c #kd IF (nsol.gt.4) THEN |
---|
886 | !c #kd DO isl=-5,-nsol,-1 |
---|
887 | !c #kd dz_dSV(isl)= 1. |
---|
888 | !c #kd END DO |
---|
889 | !c #kd END IF |
---|
890 | ! |
---|
891 | ! IF (nsol.ne.4) THEN |
---|
892 | ! DO isl= 0,-nsol,-1 |
---|
893 | ! misl_2 = -mod(isl,2) |
---|
894 | ! nisl_2 = -isl/2 |
---|
895 | ! dz_dSV(isl)=(((1-misl_2) * 0.001 |
---|
896 | ! . + misl_2 * 0.003) * 10**(nisl_2)) * 4. |
---|
897 | !C +... dz_dSV(0) = Hapex-Sahel Calibration: 4 mm |
---|
898 | ! |
---|
899 | !c +SH dz_dSV(isl)=(((1-misl_2) * 0.001 |
---|
900 | !c +SH. + misl_2 * 0.003) * 10**(nisl_2)) * 1. |
---|
901 | ! |
---|
902 | !c #05 dz_dSV(isl)=(((1-misl_2) * 0.001 |
---|
903 | !c #05. + misl_2 * 0.008) * 10**(nisl_2)) * 0.5 |
---|
904 | ! END DO |
---|
905 | ! dz_dSV(0) = 0.001 |
---|
906 | ! dz_dSV(-1) = dz_dSV(-1) - dz_dSV(0) + 0.004 |
---|
907 | ! END IF |
---|
908 | |
---|
909 | zz_dSV = 0. |
---|
910 | DO isl=-nsol,0 |
---|
911 | dzmiSV(isl) = 0.500*(dz_dSV(isl) +dz_dSV(islmSV(isl))) |
---|
912 | dziiSV(isl) = 0.500* dz_dSV(isl) /dzmiSV(isl) |
---|
913 | dzi_SV(isl) = 0.500* dz_dSV(islmSV(isl))/dzmiSV(isl) |
---|
914 | dtz_SV(isl) = dt__SV /dz_dSV(isl) |
---|
915 | dz78SV(isl) = 0.875* dz_dSV(isl) |
---|
916 | dz34SV(isl) = 0.750* dz_dSV(isl) |
---|
917 | dz_8SV(isl) = 0.125* dz_dSV(isl) |
---|
918 | dzAvSV(isl) = 0.125* dz_dSV(islmSV(isl)) & |
---|
919 | & + 0.750* dz_dSV(isl) & |
---|
920 | & + 0.125* dz_dSV(islpSV(isl)) |
---|
921 | !c #ER dz78SV(isl) = dz_dSV(isl) |
---|
922 | !c #ER dz34SV(isl) = dz_dSV(isl) |
---|
923 | !c #ER dz_8SV(isl) = 0. |
---|
924 | !c #ER dzAvSV(isl) = dz_dSV(isl) |
---|
925 | zz_dSV = zz_dSV+dz_dSV(isl) |
---|
926 | END DO |
---|
927 | DO ikl=1,knon !v |
---|
928 | dzsnSV(ikl,0) = dz_dSV(0) |
---|
929 | END DO |
---|
930 | |
---|
931 | !C +--Conversion to a 50 m Swab Ocean Discretization |
---|
932 | !C + ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ |
---|
933 | OcndSV = 0. |
---|
934 | DO isl=-nsol,0 |
---|
935 | OcndSV = OcndSV +dz_dSV(isl) |
---|
936 | END DO |
---|
937 | OcndSV = 50. /OcndSV |
---|
938 | |
---|
939 | |
---|
940 | !C +--Secondary Vegetation Parameters |
---|
941 | !C + ------------------------------- |
---|
942 | ! |
---|
943 | !C +--Minimum Stomatal Resistance (Hapex Sahel Data) |
---|
944 | !C + (Taylor et al. 1997, J.Hydrol 188-189, p.1047) |
---|
945 | !C + ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
---|
946 | !c #SH DO ivg=1,3 ! |
---|
947 | !c #SH StodSV(ivg) = 210. ! Millet |
---|
948 | !c #SH END DO ! |
---|
949 | !c #SH StodSV( 4) = 120. ! Sparse Tiger Bush |
---|
950 | !c #SH DO ivg=5,6 ! |
---|
951 | !c #SH StodSV(ivg) = 80. ! Dense Tiger Bush |
---|
952 | !c #SH END DO ! |
---|
953 | !c #SH StodSV( 7) = 80. ! Low Trees (Fallow) |
---|
954 | !c #SH StodSV( 10) = 80. ! |
---|
955 | ! |
---|
956 | !C +--Minimum Stomatal Resistance (Tropical Forest) |
---|
957 | !C + ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
---|
958 | !c #SH StodSV( 8) = 60. ! Medium Trees |
---|
959 | !c #SH StodSV( 11) = 60. ! |
---|
960 | !c #SH StodSV( 9) = 40. ! High Trees |
---|
961 | !c #SH StodSV( 12) = 40. ! |
---|
962 | |
---|
963 | !C +--Root Fraction |
---|
964 | !C + ^^^^^^^^^^^^^ |
---|
965 | !C + * GENERAL REFERENCE |
---|
966 | !C + Jackson et al., 1996: A global analysis of root distributions for |
---|
967 | !C + terrestrial biomes. In Oecologia, 108, 389-411. |
---|
968 | |
---|
969 | !C + * ROOT PROFILE |
---|
970 | !C + The cumulative root fraction Y is given by |
---|
971 | !C + Y = 1 - beta**d with d the depth (in cm), |
---|
972 | !C + beta a coefficient (vegetation dependent). |
---|
973 | |
---|
974 | !C + * BETA VALUES (for 11 world biomes) |
---|
975 | !C + 1 boreal forest 0.943 |
---|
976 | !C + 2 crops 0.961 |
---|
977 | !C + 3 desert 0.975 |
---|
978 | !C + 4 sclerophyllous shrubs 0.964 |
---|
979 | !C + 5 temperate coniferous forest 0.976 |
---|
980 | !C + 6 temperate deciduous forest 0.966 |
---|
981 | !C + 7 temperate grassland 0.943 |
---|
982 | !C + 8 tropical deciduous forest 0.961 |
---|
983 | !C + 9 tropical evergreen forest 0.962 |
---|
984 | !C + 10 tropical grassland savanna 0.972 |
---|
985 | !C + 11 tundra 0.914 |
---|
986 | ! |
---|
987 | !C + * ADVISED BETA VALUES FOR MAR |
---|
988 | !C + (see 'block data SISVAT_dat', variable rbtdSV) |
---|
989 | !C + |
---|
990 | !C + SVAT veg. type default West Africa |
---|
991 | !C + 0 barren soil 0.000 0.000 |
---|
992 | !C + 1 crops low 0.961 (2) 0.961 (2) |
---|
993 | !C + 2 crops medium 0.961 (2) 0.961 (2) |
---|
994 | !C + 3 crops high 0.961 (2) 0.961 (2) |
---|
995 | !C + 4 grass low 0.943 (7) 0.943 (7) |
---|
996 | !C + 5 grass medium 0.943 (7) 0.964 (4) |
---|
997 | !C + 6 grass high 0.943 (7) 0.972 (10) |
---|
998 | !C + 7 broadleaf low 0.966 (6) 0.968 (4,10) |
---|
999 | !C + 8 broadleaf medium 0.966 (6) 0.962 (8,9) |
---|
1000 | !C + 9 broadleaf high 0.966 (6) 0.962 (8,9) |
---|
1001 | !C + 10 needleleaf low 0.976 (5) 0.971 (5,6) |
---|
1002 | !C + 11 needleleaf medium 0.976 (5) 0.976 (5) |
---|
1003 | !C + 12 needleleaf high 0.976 (5) 0.976 (5) |
---|
1004 | |
---|
1005 | !C + Numbers between brackets refer to Jackson's biomes. For more details |
---|
1006 | !C + about some choices, see the correspondance between the IGBP and SVAT |
---|
1007 | !C + vegetation classes (i.e. in NESTOR). |
---|
1008 | |
---|
1009 | !C + * WARNING |
---|
1010 | !C + Most of the roots are located in the first 2 m of soil. The root |
---|
1011 | !C + fraction per layer depends on the definition of the soil layer |
---|
1012 | !C + thickness. It will get wrong if a thick layer is defined around 2 m |
---|
1013 | !C + deep. |
---|
1014 | |
---|
1015 | write(*,'(/a)') 'ROOT PROFILES (Jackson, 1996) :' |
---|
1016 | |
---|
1017 | DO ivt = 0, nvgt |
---|
1018 | zDepth = 0. |
---|
1019 | DO isl = 0, -nsol, -1 |
---|
1020 | IF (ivt .ne. 0) THEN |
---|
1021 | RF__SV(ivt,isl) = rbtdSV(ivt)**zDepth * & |
---|
1022 | & (1. - rbtdSV(ivt)**(dz_dSV(isl)*100) ) |
---|
1023 | zDepth = zDepth + dz_dSV(isl)*100 !in cm |
---|
1024 | ELSE |
---|
1025 | RF__SV(ivt,isl) = 0. |
---|
1026 | END IF |
---|
1027 | END DO |
---|
1028 | write(*,'(a,i2,a,i3,a,99f10.5:)') & |
---|
1029 | & ' RF__SV(', ivt, ',', -nsol, ':0) =', RF__SV(ivt,:) |
---|
1030 | END DO |
---|
1031 | ! write(6, format( & |
---|
1032 | ! & ' NOTE: If root fraction is not close to 0 around 2 m deep,', & |
---|
1033 | ! &/,' Then you should redefine the soil layer thicknesses.', & |
---|
1034 | ! &/,' See the code for more details.')) |
---|
1035 | |
---|
1036 | |
---|
1037 | !C +--Secondary Soil Parameters |
---|
1038 | !C + ------------------------------- |
---|
1039 | |
---|
1040 | DO ist=0,nsot |
---|
1041 | rocsSV(ist)=(1.0-etadSV(ist))*1.2E+6 ! Soil Contrib. to (ro c)_s |
---|
1042 | s1__SV(ist)= bCHdSV(ist) & ! Factor of (eta)**(b+2) |
---|
1043 | & *psidSV(ist) *Ks_dSV(ist) & ! in DR97, Eqn.(3.36) |
---|
1044 | & /(etadSV(ist)**( bCHdSV(ist)+3.)) ! |
---|
1045 | s2__SV(ist)= Ks_dSV(ist) & ! Factor of (eta)**(2b+3) |
---|
1046 | & /(etadSV(ist)**(2.*bCHdSV(ist)+3.)) ! in DR97, Eqn.(3.35) |
---|
1047 | |
---|
1048 | !C +--Soil Minimum Humidity (from a prescribed minimum relative Humidity) |
---|
1049 | !C + ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
---|
1050 | Psimax = -(log(RHsMin))/7.2E-5 ! DR97, Eqn 3.15 Inversion |
---|
1051 | etamSV(ist) = etadSV(ist) & |
---|
1052 | & *(PsiMax/psidSV(ist))**(-min(10.,1./bCHdSV(ist))) |
---|
1053 | END DO |
---|
1054 | etamSV(12) = 0. |
---|
1055 | |
---|
1056 | !C +--Piecewise Hydraulic Conductivity Profiles |
---|
1057 | !C + ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
---|
1058 | DO ist=0,nsot |
---|
1059 | !c #WR write(6, format(' Type | etaSat | No | eta__1 | eta__2 |', & |
---|
1060 | !c #WR& ' Khyd_1 | Khyd_x | Khyd_2 | Khyd_y |' & |
---|
1061 | !c #WR& /,' -----+-----------+----+-----------+-----------+', & |
---|
1062 | !c #WR& '-----------+-----------+-----------+-----------+')) |
---|
1063 | |
---|
1064 | d__eta = etadSV(ist)/nkhy |
---|
1065 | eta__1 = 0. |
---|
1066 | eta__2 = d__eta |
---|
1067 | DO ikh=0,nkhy |
---|
1068 | Khyd_1 = s2__SV(ist) & ! DR97, Eqn.(3.35) |
---|
1069 | & *(eta__1 **(2. *bCHdSV(ist)+3.)) ! |
---|
1070 | Khyd_2 = s2__SV(ist) &! |
---|
1071 | & *(eta__2 **(2. *bCHdSV(ist)+3.)) ! |
---|
1072 | |
---|
1073 | a_Khyd = (Khyd_2-Khyd_1)/d__eta ! |
---|
1074 | b_Khyd = Khyd_1-a_Khyd *eta__1 ! |
---|
1075 | !c #WR Khyd_x = a_Khyd*eta__1 +b_Khyd ! |
---|
1076 | !c #WR Khyd_y = a_Khyd*eta__2 +b_Khyd ! |
---|
1077 | aKdtSV(ist,ikh) = a_Khyd * dt__SV ! |
---|
1078 | bKdtSV(ist,ikh) = b_Khyd * dt__SV ! |
---|
1079 | !c #WR write(6,format(i5,' |',e10.2,' |',i3,' |', 6(e10.2,' |')) & |
---|
1080 | !c #WR& ist,etadSV(ist),ikh,eta__1, & |
---|
1081 | !c #WR& eta__2,Khyd_1,Khyd_x,Khyd_2,Khyd_y |
---|
1082 | |
---|
1083 | eta__1 = eta__1 + d__eta |
---|
1084 | eta__2 = eta__2 + d__eta |
---|
1085 | END DO |
---|
1086 | END DO |
---|
1087 | |
---|
1088 | |
---|
1089 | !c |
---|
1090 | ! ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
---|
1091 | ! + INITIALISATION: ARRAYS on grid +++ |
---|
1092 | ! + ----------------------------------- |
---|
1093 | ! + |
---|
1094 | DO ikl=1,knon |
---|
1095 | |
---|
1096 | ! + Water Fluxes, roughness length |
---|
1097 | us__SV(ikl) = 0.25 ! Frict. Velocity |
---|
1098 | ! (approx ETH-Camp Lefebre etal CD 2005 |
---|
1099 | uts_SV(ikl) = 1. ! u*T* arbitrary |
---|
1100 | uqs_SV(ikl) = 0.25 ! turb_vel(ikl,3) ! u*q* " |
---|
1101 | uss_SV(ikl) = 0.25 ! turb_vel(ikl,4) ! u*s* " |
---|
1102 | !!c #AE usthSV(ikl) = 0. |
---|
1103 | Z0h_SV(ikl) = 0. ! rlength(ikl,9) |
---|
1104 | Z0m_SV(ikl) = 0. ! Moment.Roughn.L. |
---|
1105 | Z0h_SV(ikl) = 0. ! Heat Roughn.L. |
---|
1106 | !!c #OR Z0roSV(ikl) = 0. ! Orogr. Roughn.L. |
---|
1107 | LMO_SV(ikl) = 0. |
---|
1108 | VVs_SV(ikl) = 0. |
---|
1109 | RRs_SV(ikl) = 0. |
---|
1110 | DDs_SV(ikl) = 0. |
---|
1111 | |
---|
1112 | ! + Snow |
---|
1113 | isnoSV(ikl) = 0 ! # snow layers |
---|
1114 | BufsSV(ikl) = 0. |
---|
1115 | zzsnsv(ikl,:) = 0. ! Snow pack thickness |
---|
1116 | qsnoSV(ikl) = 0. ! BL snow content |
---|
1117 | zWEcSV(ikl) = 0. |
---|
1118 | dbs_SV(ikl) = 0. |
---|
1119 | dsnbSV(ikl) = 0. |
---|
1120 | esnbSV(ikl) = 0. |
---|
1121 | BrosSV(ikl) = 0. |
---|
1122 | BG1sSV(ikl) = 0. |
---|
1123 | BG2sSV(ikl) = 0. |
---|
1124 | SWS_SV(ikl) = 0. |
---|
1125 | RnofSV(ikl) = 0. ! RunOFF Intensity |
---|
1126 | toicSV(ikl) = 0. !hj preli |
---|
1127 | ! + Clouds !hj1602 |
---|
1128 | cld_SV(ikl) = 0. |
---|
1129 | |
---|
1130 | ! + Vegetation |
---|
1131 | LSmask(ikl) = 1 ! Land/Sea Mask |
---|
1132 | isotSV(ikl) = 12 ! Soil Type |
---|
1133 | iWaFSV(ikl) = 1 ! Soil Drainage |
---|
1134 | Rootsv(ikl,:) = 0. |
---|
1135 | ivgtSV(ikl) = 0 ! Vegetation Type |
---|
1136 | LAI0SV(ikl) = 0 ! LAI |
---|
1137 | glf0SV(ikl) = 0 ! Green Leaf Frac. |
---|
1138 | ! TVegSV(ikl) = 0. |
---|
1139 | SnCaSV(ikl) = 0. |
---|
1140 | rrCaSV(ikl) = 0. |
---|
1141 | pSivSV(ikl) = 0. |
---|
1142 | |
---|
1143 | ! + z0(Sastrugi) |
---|
1144 | ! #SZ Z0SaSL(ikl) = 0. |
---|
1145 | ! #ZM DO nt=1,ntavSL |
---|
1146 | ! #ZM SLn_z0(ikl,nt) = 0.5e-6 |
---|
1147 | ! #ZM SLn_b0(ikl,nt) = 0.5e-6 |
---|
1148 | ! #ZM SLn_r0(ikl,nt) = 0.5e-6 |
---|
1149 | ! #ZM END DO |
---|
1150 | |
---|
1151 | |
---|
1152 | ! +--z0(Orography Roughness) |
---|
1153 | ! #OR SL_z0 (ikl) = min(SL_z0 (ikl),zsigma/3.) |
---|
1154 | ! #OR SLzoro(ikl) = min(SLzoro(ikl),zsigma/3.) |
---|
1155 | |
---|
1156 | ! +--SBL Characteristics |
---|
1157 | ! #AA DO nt= 1,ntaver |
---|
1158 | ! #AW V_0aSL(ikl,nt) = ssvSL(ikl) |
---|
1159 | ! #AH dT0aSL(ikl,nt) = temp_air(ikl)-tsurf(ikl) |
---|
1160 | ! #AA END DO |
---|
1161 | |
---|
1162 | |
---|
1163 | END DO |
---|
1164 | |
---|
1165 | |
---|
1166 | |
---|
1167 | return |
---|
1168 | |
---|
1169 | END SUBROUTINE SISVAT_ini |
---|
1170 | |
---|
1171 | |
---|
1172 | |
---|
1173 | |
---|
1174 | |
---|
1175 | |
---|
1176 | |
---|
1177 | !*************************************************************************** |
---|
1178 | |
---|
1179 | SUBROUTINE sisvatetat0 (fichnom,ikl2i) |
---|
1180 | |
---|
1181 | USE dimphy |
---|
1182 | USE mod_grid_phy_lmdz |
---|
1183 | USE mod_phys_lmdz_para |
---|
1184 | |
---|
1185 | USE iostart |
---|
1186 | USE VAR_SV |
---|
1187 | USE VARdSV |
---|
1188 | USE VARxSV |
---|
1189 | USE VARtSV |
---|
1190 | USE indice_sol_mod |
---|
1191 | |
---|
1192 | IMPLICIT none |
---|
1193 | !====================================================================== |
---|
1194 | ! Auteur(s) HJ PUNGE (LSCE) date: 07/2009 |
---|
1195 | ! Objet: Ecriture de l'etat de redemarrage pour SISVAT |
---|
1196 | !====================================================================== |
---|
1197 | include "netcdf.inc" |
---|
1198 | ! include "indicesol.h" |
---|
1199 | |
---|
1200 | include "dimsoil.h" |
---|
1201 | include "clesphys.h" |
---|
1202 | include "thermcell.h" |
---|
1203 | include "compbl.h" |
---|
1204 | |
---|
1205 | !====================================================================== |
---|
1206 | CHARACTER(LEN=*) :: fichnom |
---|
1207 | |
---|
1208 | |
---|
1209 | INTEGER, DIMENSION(klon), INTENT(IN) :: ikl2i |
---|
1210 | REAL, DIMENSION(klon) :: rlon |
---|
1211 | REAL, DIMENSION(klon) :: rlat |
---|
1212 | |
---|
1213 | ! les variables globales ecrites dans le fichier restart |
---|
1214 | REAL, DIMENSION(klon) :: isno |
---|
1215 | REAL, DIMENSION(klon) :: ispi |
---|
1216 | REAL, DIMENSION(klon) :: iice |
---|
1217 | REAL, DIMENSION(klon) :: rusn |
---|
1218 | REAL, DIMENSION(klon, nsno) :: isto |
---|
1219 | |
---|
1220 | REAL, DIMENSION(klon, nsismx) :: Tsis |
---|
1221 | REAL, DIMENSION(klon, nsismx) :: eta |
---|
1222 | REAL, DIMENSION(klon, nsismx) :: ro |
---|
1223 | |
---|
1224 | REAL, DIMENSION(klon, nsno) :: dzsn |
---|
1225 | REAL, DIMENSION(klon, nsno) :: G1sn |
---|
1226 | REAL, DIMENSION(klon, nsno) :: G2sn |
---|
1227 | REAL, DIMENSION(klon, nsno) :: agsn |
---|
1228 | |
---|
1229 | REAL, DIMENSION(klon) :: toic |
---|
1230 | |
---|
1231 | ! REAL, DIMENSION(klon) :: IRs |
---|
1232 | ! REAL, DIMENSION(klon) :: LMO |
---|
1233 | ! REAL, DIMENSION(klon) :: Bufs |
---|
1234 | ! REAL, DIMENSION(klon, 9) :: rlength |
---|
1235 | ! REAL, DIMENSION(klon, 5) :: turb_vel |
---|
1236 | |
---|
1237 | INTEGER :: isl, ikl, i, isn , errT, erreta, errro, errdz, snopts |
---|
1238 | CHARACTER (len=2) :: str2 |
---|
1239 | LOGICAL :: found |
---|
1240 | |
---|
1241 | errT=0 |
---|
1242 | errro=0 |
---|
1243 | erreta=0 |
---|
1244 | errdz=0 |
---|
1245 | snopts=0 |
---|
1246 | ! Ouvrir le fichier contenant l'etat initial: |
---|
1247 | |
---|
1248 | CALL open_startphy(fichnom) |
---|
1249 | |
---|
1250 | ! Lecture des latitudes, longitudes (coordonnees): |
---|
1251 | |
---|
1252 | CALL get_field("latitude",rlat,found) |
---|
1253 | CALL get_field("longitude",rlon,found) |
---|
1254 | |
---|
1255 | CALL get_field("n_snows", isno,found) |
---|
1256 | IF (.NOT. found) THEN |
---|
1257 | PRINT*, 'phyetat0: Le champ <n_snows> est absent' |
---|
1258 | PRINT *, 'fichier startsisvat non compatible avec sisvatetat0' |
---|
1259 | ENDIF |
---|
1260 | |
---|
1261 | CALL get_field("n_ice_top",ispi,found) |
---|
1262 | CALL get_field("n_ice",iice,found) |
---|
1263 | CALL get_field("surf_water",rusn,found) |
---|
1264 | ! IF (.NOT. found) THEN |
---|
1265 | ! PRINT*, 'phyetat0: Le champ <surf_water> est absent' |
---|
1266 | ! rusn(:)=0. |
---|
1267 | ! ENDIF |
---|
1268 | |
---|
1269 | |
---|
1270 | CALL get_field("to_ice",toic,found) |
---|
1271 | IF (.NOT. found) THEN |
---|
1272 | PRINT*, 'phyetat0: Le champ <to_ice> est absent' |
---|
1273 | toic(:)=0. |
---|
1274 | ENDIF |
---|
1275 | |
---|
1276 | |
---|
1277 | ! CALL get_field("IR_soil",IRs,found) |
---|
1278 | ! CALL get_field("LMO",LMO,found) |
---|
1279 | ! CALL get_field("snow_buffer",Bufs,found) |
---|
1280 | ! DO i = 1, 5 |
---|
1281 | ! WRITE(str2,'(i2.2)') i |
---|
1282 | ! CALL get_field("turb_veloc"//str2, & |
---|
1283 | ! turb_vel(:,i),found) |
---|
1284 | ! ENDDO |
---|
1285 | ! DO i = 1, 9 |
---|
1286 | ! WRITE(str2,'(i2.2)') i |
---|
1287 | ! CALL get_field("rough_length"//str2, & |
---|
1288 | ! rlength(:,i),found) |
---|
1289 | ! ENDDO |
---|
1290 | DO isn = 1,nsno |
---|
1291 | IF (isn.LE.99) THEN |
---|
1292 | WRITE(str2,'(i2.2)') isn |
---|
1293 | CALL get_field("AGESNOW"//str2, & |
---|
1294 | agsn(:,isn),found) |
---|
1295 | ELSE |
---|
1296 | PRINT*, "Trop de couches" |
---|
1297 | CALL abort |
---|
1298 | ENDIF |
---|
1299 | ENDDO |
---|
1300 | DO isn = 1,nsno |
---|
1301 | IF (isn.LE.99) THEN |
---|
1302 | WRITE(str2,'(i2.2)') isn |
---|
1303 | CALL get_field("DZSNOW"//str2, & |
---|
1304 | dzsn(:,isn),found) |
---|
1305 | ELSE |
---|
1306 | PRINT*, "Trop de couches" |
---|
1307 | CALL abort |
---|
1308 | ENDIF |
---|
1309 | ENDDO |
---|
1310 | DO isn = 1,nsno |
---|
1311 | IF (isn.LE.99) THEN |
---|
1312 | WRITE(str2,'(i2.2)') isn |
---|
1313 | CALL get_field("G2SNOW"//str2, & |
---|
1314 | G2sn(:,isn),found) |
---|
1315 | ELSE |
---|
1316 | PRINT*, "Trop de couches" |
---|
1317 | CALL abort |
---|
1318 | ENDIF |
---|
1319 | ENDDO |
---|
1320 | DO isn = 1,nsno |
---|
1321 | IF (isn.LE.99) THEN |
---|
1322 | WRITE(str2,'(i2.2)') isn |
---|
1323 | CALL get_field("G1SNOW"//str2, & |
---|
1324 | G1sn(:,isn),found) |
---|
1325 | ELSE |
---|
1326 | PRINT*, "Trop de couches" |
---|
1327 | CALL abort |
---|
1328 | ENDIF |
---|
1329 | ENDDO |
---|
1330 | DO isn = 1,nsismx |
---|
1331 | IF (isn.LE.99) THEN |
---|
1332 | WRITE(str2,'(i2.2)') isn |
---|
1333 | CALL get_field("ETA"//str2, & |
---|
1334 | eta(:,isn),found) |
---|
1335 | ELSE |
---|
1336 | PRINT*, "Trop de couches" |
---|
1337 | CALL abort |
---|
1338 | ENDIF |
---|
1339 | ENDDO |
---|
1340 | DO isn = 1,nsismx |
---|
1341 | IF (isn.LE.99) THEN |
---|
1342 | WRITE(str2,'(i2.2)') isn |
---|
1343 | CALL get_field("RO"//str2, & |
---|
1344 | ro(:,isn),found) |
---|
1345 | ELSE |
---|
1346 | PRINT*, "Trop de couches" |
---|
1347 | CALL abort |
---|
1348 | ENDIF |
---|
1349 | ENDDO |
---|
1350 | DO isn = 1,nsismx |
---|
1351 | IF (isn.LE.99) THEN |
---|
1352 | WRITE(str2,'(i2.2)') isn |
---|
1353 | CALL get_field("TSS"//str2, & |
---|
1354 | Tsis(:,isn),found) |
---|
1355 | ELSE |
---|
1356 | PRINT*, "Trop de couches" |
---|
1357 | CALL abort |
---|
1358 | ENDIF |
---|
1359 | ENDDO |
---|
1360 | DO isn = 1,nsno |
---|
1361 | IF (isn.LE.99) THEN |
---|
1362 | WRITE(str2,'(i2.2)') isn |
---|
1363 | CALL get_field("HISTORY"//str2, & |
---|
1364 | isto(:,isn),found) |
---|
1365 | ELSE |
---|
1366 | PRINT*, "Trop de couches" |
---|
1367 | CALL abort |
---|
1368 | ENDIF |
---|
1369 | ENDDO |
---|
1370 | write(*,*)'Read ',fichnom,' finished!!' |
---|
1371 | |
---|
1372 | !********************************************************************************* |
---|
1373 | ! Compress restart file variables for SISVAT |
---|
1374 | |
---|
1375 | |
---|
1376 | isnoSV(:) = 0 |
---|
1377 | ispiSV(:) = 0 |
---|
1378 | iiceSV(:) = 0 |
---|
1379 | |
---|
1380 | eta_SV(:,1:nsno) = 0. |
---|
1381 | TsisSV(:,1:nsno) = 0. |
---|
1382 | istoSV(:,:) = 0 |
---|
1383 | ro__SV(:,1:nsno) = 0. |
---|
1384 | G1snSV(:,:) = 0. |
---|
1385 | G2snSV(:,:) = 0. |
---|
1386 | dzsnSV(:,1:nsno) = 0. |
---|
1387 | agsnSV(:,:) = 0. |
---|
1388 | rusnSV(:) = 0. |
---|
1389 | toicSV(:) = 0. |
---|
1390 | |
---|
1391 | DO ikl = 1,klon |
---|
1392 | i = ikl2i(ikl) |
---|
1393 | IF (i > 0) THEN |
---|
1394 | isnoSV(ikl) = INT(isno(i)) ! Nb Snow/Ice Lay. |
---|
1395 | ispiSV(ikl) = INT(ispi(i)) ! Nb Supr.Ice Lay. |
---|
1396 | iiceSV(ikl) = INT(iice(i)) ! Nb Ice Lay. |
---|
1397 | |
---|
1398 | !! IRs_SV(ikl) = IRs(i) |
---|
1399 | ! LMO_SV(ikl) = LMO(i) !? |
---|
1400 | ! us__SV(ikl) = turb_vel(i,1) |
---|
1401 | ! uts_SV(ikl) = turb_vel(i,2) |
---|
1402 | ! uqs_SV(ikl) = turb_vel(i,3) |
---|
1403 | ! uss_SV(ikl) = turb_vel(i,4) |
---|
1404 | ! usthSV(ikl) = turb_vel(i,5) |
---|
1405 | ! Z0m_SV(ikl) = rlength(i,1) ! Moment.Roughn.L. |
---|
1406 | ! Z0mmSV(ikl) = rlength(i,2) ! Moment.Roughn.L. |
---|
1407 | ! Z0mnSV(ikl) = rlength(i,3) ! Moment.Roughn.L. |
---|
1408 | ! Z0SaSV(ikl) = rlength(i,4) ! Moment.Roughn.L. |
---|
1409 | ! Z0e_SV(ikl) = rlength(i,5) ! Moment.Roughn.L. |
---|
1410 | ! Z0emSV(ikl) = rlength(i,6) ! Moment.Roughn.L. |
---|
1411 | ! Z0enSV(ikl) = rlength(i,7) ! Moment.Roughn.L. |
---|
1412 | ! Z0roSV(ikl) = rlength(i,8) ! Moment.Roughn.L. |
---|
1413 | !! Z0h_SV(ikl) = rlength(i,9) ! Moment.Roughn.L. |
---|
1414 | |
---|
1415 | DO isl = -nsol,0 |
---|
1416 | ro__SV(ikl,isl) = ro(i,nsno+1-isl) ! |
---|
1417 | eta_SV(ikl,isl) = eta(i,nsno+1-isl) ! Soil Humidity |
---|
1418 | !hjp 15/10/2010 |
---|
1419 | IF (eta_SV(ikl,isl) <= 1.e-6) THEN !hj check |
---|
1420 | eta_SV(ikl,isl) = 1.e-6 |
---|
1421 | ENDIF |
---|
1422 | TsisSV(ikl,isl) = Tsis(i,nsno+1-isl) ! Soil Temperature |
---|
1423 | IF (TsisSV(ikl,isl) <= 1.) THEN !hj check |
---|
1424 | ! errT=errT+1 |
---|
1425 | TsisSV(ikl,isl) = 273.15 |
---|
1426 | ENDIF |
---|
1427 | |
---|
1428 | END DO |
---|
1429 | write(*,*)'Copy histo', ikl |
---|
1430 | |
---|
1431 | |
---|
1432 | istoSV(ikl,0) = 0 ! Snow History |
---|
1433 | |
---|
1434 | G1snSV(ikl,0) = 0.5 ! [-] |
---|
1435 | G2snSV(ikl,0) = 3. ! [-] [0.0001 m] |
---|
1436 | dzsnSV(ikl,0) = dz_dSV(0) ! [m] |
---|
1437 | agsnSV(ikl,0) = 0. ! [day] |
---|
1438 | |
---|
1439 | DO isn = 1,isnoSV(ikl) !nsno |
---|
1440 | snopts=snopts+1 |
---|
1441 | IF (isto(i,isn) > 10.) THEN !hj check |
---|
1442 | write(*,*)'Irregular isto',ikl,i,isn,isto(i,isn) |
---|
1443 | isto(i,isn) = 1. |
---|
1444 | ENDIF |
---|
1445 | |
---|
1446 | istoSV(ikl,isn) = INT(isto(i,isn)) ! Snow History |
---|
1447 | ro__SV(ikl,isn) = ro(i,isn) ! [kg/m3] |
---|
1448 | eta_SV(ikl,isn) = eta(i,isn) ! [m3/m3] |
---|
1449 | TsisSV(ikl,isn) = Tsis(i,isn) ! [K] |
---|
1450 | |
---|
1451 | IF (TsisSV(ikl,isn) <= 1.) THEN !hj check |
---|
1452 | errT=errT+1 |
---|
1453 | TsisSV(ikl,isn) = TsisSV(ikl,0) |
---|
1454 | ENDIF |
---|
1455 | IF (TsisSV(ikl,isn) <= 1.) THEN !hj check |
---|
1456 | TsisSV(ikl,isn) = 263.15 |
---|
1457 | ENDIF |
---|
1458 | IF (eta_SV(ikl,isn) < 1.e-9) THEN !hj check |
---|
1459 | eta_SV(ikl,isn) = 1.e-6 |
---|
1460 | erreta=erreta+1 |
---|
1461 | ENDIF |
---|
1462 | IF (ro__SV(ikl,isn) <= 10.) THEN !hj check |
---|
1463 | ro__SV(ikl,isn) = 11. |
---|
1464 | errro=errro+1 |
---|
1465 | ENDIF |
---|
1466 | write(*,*)ikl,i,isn,Tsis(i,isn),G1sn(i,isn) |
---|
1467 | G1snSV(ikl,isn) = G1sn(i,isn) ! [-] [-] |
---|
1468 | G2snSV(ikl,isn) = G2sn(i,isn) ! [-] [0.0001 m] |
---|
1469 | dzsnSV(ikl,isn) = dzsn(i,isn) ! [m] |
---|
1470 | ! IF (dzsnSV(ikl,isn) < 5.e-6) THEN !hj check |
---|
1471 | ! dzsnSV(ikl,isn) = 0.000005 |
---|
1472 | ! errdz=errdz+1 |
---|
1473 | ! ENDIF |
---|
1474 | agsnSV(ikl,isn) = agsn(i,isn) ! [day] |
---|
1475 | END DO |
---|
1476 | rusnSV(ikl) = rusn(i) ! Surficial Water |
---|
1477 | toicSV(ikl) = toic(i) ! bilan snow to ice |
---|
1478 | !! BufsSV(ikl) = Bufs(i) |
---|
1479 | END IF |
---|
1480 | END DO |
---|
1481 | ! write(*,*)snopts,'snow pts',errT,' T errors,',errro,'ro,' |
---|
1482 | ! write(*,*)' ',erreta,'eta,',errdz,'dz' |
---|
1483 | END SUBROUTINE sisvatetat0 |
---|
1484 | |
---|
1485 | |
---|
1486 | |
---|
1487 | |
---|
1488 | SUBROUTINE sisvatredem (fichnom,ikl2i,rlon,rlat) |
---|
1489 | !====================================================================== |
---|
1490 | ! Auteur(s) HJ PUNGE (LSCE) date: 07/2009 |
---|
1491 | ! Objet: Ecriture de l'etat de redemarrage pour SISVAT |
---|
1492 | !====================================================================== |
---|
1493 | USE mod_grid_phy_lmdz |
---|
1494 | USE mod_phys_lmdz_para |
---|
1495 | USE iostart |
---|
1496 | USE VAR_SV |
---|
1497 | USE VARxSV |
---|
1498 | USE VARySV !hj tmp 12 03 2010 |
---|
1499 | USE VARtSV |
---|
1500 | USE indice_sol_mod |
---|
1501 | |
---|
1502 | IMPLICIT none |
---|
1503 | |
---|
1504 | include "netcdf.inc" |
---|
1505 | ! include "indicesol.h" |
---|
1506 | include "dimsoil.h" |
---|
1507 | include "clesphys.h" |
---|
1508 | include "thermcell.h" |
---|
1509 | include "compbl.h" |
---|
1510 | |
---|
1511 | !====================================================================== |
---|
1512 | |
---|
1513 | CHARACTER(LEN=*) :: fichnom |
---|
1514 | INTEGER, DIMENSION(klon), INTENT(IN) :: ikl2i |
---|
1515 | REAL, DIMENSION(klon), INTENT(IN) :: rlon |
---|
1516 | REAL, DIMENSION(klon), INTENT(IN) :: rlat |
---|
1517 | |
---|
1518 | ! les variables globales ecrites dans le fichier restart |
---|
1519 | REAL, DIMENSION(klon) :: isno |
---|
1520 | REAL, DIMENSION(klon) :: ispi |
---|
1521 | REAL, DIMENSION(klon) :: iice |
---|
1522 | REAL, DIMENSION(klon, nsnowmx) :: isto |
---|
1523 | |
---|
1524 | REAL, DIMENSION(klon, nsismx) :: Tsis |
---|
1525 | REAL, DIMENSION(klon, nsismx) :: eta |
---|
1526 | REAL, DIMENSION(klon, nsnowmx) :: dzsn |
---|
1527 | REAL, DIMENSION(klon, nsismx) :: ro |
---|
1528 | REAL, DIMENSION(klon, nsnowmx) :: G1sn |
---|
1529 | REAL, DIMENSION(klon, nsnowmx) :: G2sn |
---|
1530 | REAL, DIMENSION(klon, nsnowmx) :: agsn |
---|
1531 | REAL, DIMENSION(klon) :: IRs |
---|
1532 | REAL, DIMENSION(klon) :: LMO |
---|
1533 | REAL, DIMENSION(klon) :: rusn |
---|
1534 | REAL, DIMENSION(klon) :: toic |
---|
1535 | REAL, DIMENSION(klon) :: Bufs |
---|
1536 | REAL, DIMENSION(klon) :: alb1,alb2,alb3 |
---|
1537 | REAL, DIMENSION(klon, 9) :: rlength |
---|
1538 | REAL, DIMENSION(klon, 5) :: turb_vel |
---|
1539 | |
---|
1540 | INTEGER isl, ikl, i, isn |
---|
1541 | CHARACTER (len=2) :: str2 |
---|
1542 | INTEGER :: pass |
---|
1543 | |
---|
1544 | isno(:) = 0 |
---|
1545 | ispi(:) = 0 |
---|
1546 | iice(:) = 0 |
---|
1547 | IRs(:) = 0. |
---|
1548 | LMO(:) = 0. |
---|
1549 | turb_vel(:,:) = 0. |
---|
1550 | rlength(:,:) = 0. |
---|
1551 | eta(:,:) = 0. |
---|
1552 | Tsis(:,:) = 0. |
---|
1553 | isto(:,:) = 0 |
---|
1554 | ro(:,:) = 0. |
---|
1555 | G1sn(:,:) = 0. |
---|
1556 | G2sn(:,:) = 0. |
---|
1557 | dzsn(:,:) = 0. |
---|
1558 | agsn(:,:) = 0. |
---|
1559 | rusn(:) = 0. |
---|
1560 | toic(:) = 0. |
---|
1561 | Bufs(:) = 0. |
---|
1562 | alb1(:) = 0. |
---|
1563 | alb2(:) = 0. |
---|
1564 | alb3(:) = 0. |
---|
1565 | |
---|
1566 | !*************************************************************************** |
---|
1567 | ! Uncompress SISVAT output variables for storage |
---|
1568 | |
---|
1569 | DO ikl = 1,klon |
---|
1570 | i = ikl2i(ikl) |
---|
1571 | IF (i > 0) THEN |
---|
1572 | isno(i) = 1.*isnoSV(ikl) ! Nb Snow/Ice Lay. |
---|
1573 | ispi(i) = 1.*ispiSV(ikl) ! Nb Supr.Ice Lay. |
---|
1574 | iice(i) = 1.*iiceSV(ikl) ! Nb Ice Lay. |
---|
1575 | |
---|
1576 | ! IRs(i) = IRs_SV(ikl) |
---|
1577 | ! LMO(i) = LMO_SV(ikl) |
---|
1578 | ! turb_vel(i,1) = us__SV(ikl) |
---|
1579 | ! turb_vel(i,2) = uts_SV(ikl) |
---|
1580 | ! turb_vel(i,3) = uqs_SV(ikl) |
---|
1581 | ! turb_vel(i,4) = uss_SV(ikl) |
---|
1582 | ! turb_vel(i,5) = usthSV(ikl) |
---|
1583 | ! rlength(i,1) = Z0m_SV(ikl) ! Moment.Roughn.L. |
---|
1584 | ! rlength(i,2) = Z0mmSV(ikl) ! |
---|
1585 | ! rlength(i,3) = Z0mnSV(ikl) ! |
---|
1586 | ! rlength(i,4) = Z0SaSV(ikl) ! |
---|
1587 | ! rlength(i,5) = Z0e_SV(ikl) ! |
---|
1588 | ! rlength(i,6) = Z0emSV(ikl) ! |
---|
1589 | ! rlength(i,7) = Z0enSV(ikl) ! |
---|
1590 | ! rlength(i,8) = Z0roSV(ikl) ! |
---|
1591 | ! rlength(i,9) = Z0h_SV(ikl) ! |
---|
1592 | |
---|
1593 | DO isl = -nsol,0 ! |
---|
1594 | eta(i,nsno+1-isl) = eta_SV(ikl,isl) ! Soil Humidity |
---|
1595 | Tsis(i,nsno+1-isl) = TsisSV(ikl,isl) ! Soil Temperature |
---|
1596 | ro(i,nsno+1-isl) = ro__SV(ikl,isl) ! [kg/m3] |
---|
1597 | END DO |
---|
1598 | |
---|
1599 | |
---|
1600 | DO isn = 1,nsno |
---|
1601 | isto(i,isn) = 1.*istoSV(ikl,isn) ! Snow History |
---|
1602 | ro(i,isn) = ro__SV(ikl,isn) ! [kg/m3] |
---|
1603 | eta(i,isn) = eta_SV(ikl,isn) ! [m3/m3] |
---|
1604 | Tsis(i,isn) = TsisSV(ikl,isn) ! [K] |
---|
1605 | G1sn(i,isn) = G1snSV(ikl,isn) ! [-] [-] |
---|
1606 | G2sn(i,isn) = G2snSV(ikl,isn) ! [-] [0.0001 m] |
---|
1607 | dzsn(i,isn) = dzsnSV(ikl,isn) ! [m] |
---|
1608 | agsn(i,isn) = agsnSV(ikl,isn) ! [day] |
---|
1609 | END DO |
---|
1610 | rusn(i) = rusnSV(ikl) ! Surficial Water |
---|
1611 | toic(i) = toicSV(ikl) ! Surficial Water |
---|
1612 | alb1(i) = alb1sv(ikl) |
---|
1613 | alb2(i) = alb2sv(ikl) |
---|
1614 | alb3(i) = alb3sv(ikl) |
---|
1615 | ! Bufs(i) = BufsSV(ikl) |
---|
1616 | END IF |
---|
1617 | END DO |
---|
1618 | |
---|
1619 | CALL open_restartphy(fichnom) |
---|
1620 | DO pass = 1, 2 |
---|
1621 | CALL put_field(pass,"longitude", & |
---|
1622 | "Longitudes de la grille physique",rlon) |
---|
1623 | CALL put_field(pass,"latitude","Latitudes de la grille physique",rlat) |
---|
1624 | |
---|
1625 | CALL put_field(pass,"n_snows", "number of snow/ice layers",isno) |
---|
1626 | CALL put_field(pass,"n_ice_top", "number of top ice layers",ispi) |
---|
1627 | CALL put_field(pass,"n_ice", "number of ice layers",iice) |
---|
1628 | CALL put_field(pass,"IR_soil", "Soil IR flux",IRs) |
---|
1629 | CALL put_field(pass,"LMO", "Monin-Obukhov Scale",LMO) |
---|
1630 | CALL put_field(pass,"surf_water", "Surficial water",rusn) |
---|
1631 | CALL put_field(pass,"snow_buffer", "Snow buffer layer",Bufs) |
---|
1632 | CALL put_field(pass,"alb_1", "albedo sw",alb1) |
---|
1633 | CALL put_field(pass,"alb_2", "albedo nIR",alb2) |
---|
1634 | CALL put_field(pass,"alb_3", "albedo fIR",alb3) |
---|
1635 | CALL put_field(pass,"to_ice", "Snow passed to ice",toic) |
---|
1636 | |
---|
1637 | ! DO i = 1, 5 |
---|
1638 | ! WRITE(str2,'(i2.2)') i |
---|
1639 | ! CALL put_field(pass,"turb_veloc"//str2, & |
---|
1640 | ! "various turbulent velocities"//str2, & |
---|
1641 | ! turb_vel(:,i)) |
---|
1642 | ! ENDDO |
---|
1643 | ! DO i = 1, 9 |
---|
1644 | ! WRITE(str2,'(i2.2)') i |
---|
1645 | ! CALL put_field(pass,"rough_length"//str2, & |
---|
1646 | ! "various roughness lengths"//str2, & |
---|
1647 | ! rlength(:,i)) |
---|
1648 | ! ENDDO |
---|
1649 | DO isn = 1,nsno |
---|
1650 | IF (isn.LE.99) THEN |
---|
1651 | WRITE(str2,'(i2.2)') isn |
---|
1652 | CALL put_field(pass,"AGESNOW"//str2, & |
---|
1653 | "Age de la neige layer No."//str2, & |
---|
1654 | agsn(:,isn)) |
---|
1655 | ELSE |
---|
1656 | PRINT*, "Trop de couches" |
---|
1657 | CALL abort |
---|
1658 | ENDIF |
---|
1659 | ENDDO |
---|
1660 | DO isn = 1,nsno |
---|
1661 | IF (isn.LE.99) THEN |
---|
1662 | WRITE(str2,'(i2.2)') isn |
---|
1663 | CALL put_field(pass,"DZSNOW"//str2, & |
---|
1664 | "Snow/ice thickness layer No."//str2, & |
---|
1665 | dzsn(:,isn)) |
---|
1666 | ELSE |
---|
1667 | PRINT*, "Trop de couches" |
---|
1668 | CALL abort |
---|
1669 | ENDIF |
---|
1670 | ENDDO |
---|
1671 | DO isn = 1,nsno |
---|
1672 | IF (isn.LE.99) THEN |
---|
1673 | WRITE(str2,'(i2.2)') isn |
---|
1674 | CALL put_field(pass,"G2SNOW"//str2, & |
---|
1675 | "Snow Property 2, layer No."//str2, & |
---|
1676 | G2sn(:,isn)) |
---|
1677 | ELSE |
---|
1678 | PRINT*, "Trop de couches" |
---|
1679 | CALL abort |
---|
1680 | ENDIF |
---|
1681 | ENDDO |
---|
1682 | DO isn = 1,nsno |
---|
1683 | IF (isn.LE.99) THEN |
---|
1684 | WRITE(str2,'(i2.2)') isn |
---|
1685 | CALL put_field(pass,"G1SNOW"//str2, & |
---|
1686 | "Snow Property 1, layer No."//str2, & |
---|
1687 | G1sn(:,isn)) |
---|
1688 | ELSE |
---|
1689 | PRINT*, "Trop de couches" |
---|
1690 | CALL abort |
---|
1691 | ENDIF |
---|
1692 | ENDDO |
---|
1693 | DO isn = 1,nsismx |
---|
1694 | IF (isn.LE.99) THEN |
---|
1695 | WRITE(str2,'(i2.2)') isn |
---|
1696 | CALL put_field(pass,"ETA"//str2, & |
---|
1697 | "Soil/snow water content layer No."//str2, & |
---|
1698 | eta(:,isn)) |
---|
1699 | ELSE |
---|
1700 | PRINT*, "Trop de couches" |
---|
1701 | CALL abort |
---|
1702 | ENDIF |
---|
1703 | ENDDO |
---|
1704 | DO isn = 1,nsismx !nsno |
---|
1705 | IF (isn.LE.99) THEN |
---|
1706 | WRITE(str2,'(i2.2)') isn |
---|
1707 | CALL put_field(pass,"RO"//str2, & |
---|
1708 | "Snow density layer No."//str2, & |
---|
1709 | ro(:,isn)) |
---|
1710 | ELSE |
---|
1711 | PRINT*, "Trop de couches" |
---|
1712 | CALL abort |
---|
1713 | ENDIF |
---|
1714 | ENDDO |
---|
1715 | DO isn = 1,nsismx |
---|
1716 | IF (isn.LE.99) THEN |
---|
1717 | WRITE(str2,'(i2.2)') isn |
---|
1718 | CALL put_field(pass,"TSS"//str2, & |
---|
1719 | "Soil/snow temperature layer No."//str2, & |
---|
1720 | Tsis(:,isn)) |
---|
1721 | ELSE |
---|
1722 | PRINT*, "Trop de couches" |
---|
1723 | CALL abort |
---|
1724 | ENDIF |
---|
1725 | ENDDO |
---|
1726 | DO isn = 1,nsno |
---|
1727 | IF (isn.LE.99) THEN |
---|
1728 | WRITE(str2,'(i2.2)') isn |
---|
1729 | CALL put_field(pass,"HISTORY"//str2, & |
---|
1730 | "Snow history layer No."//str2, & |
---|
1731 | isto(:,isn)) |
---|
1732 | ELSE |
---|
1733 | PRINT*, "Trop de couches" |
---|
1734 | CALL abort |
---|
1735 | ENDIF |
---|
1736 | ENDDO |
---|
1737 | ENDDO |
---|
1738 | |
---|
1739 | END SUBROUTINE sisvatredem |
---|
1740 | |
---|
1741 | END MODULE surf_sisvat_mod |
---|