1 | ! $Id$ |
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2 | module regr_lat_time_climoz_m |
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3 | |
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4 | ! Author: Lionel GUEZ |
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5 | |
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6 | implicit none |
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7 | |
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8 | private |
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9 | public regr_lat_time_climoz |
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10 | |
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11 | contains |
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12 | |
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13 | subroutine regr_lat_time_climoz(read_climoz) |
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14 | |
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15 | ! "regr_lat_time_climoz" stands for "regrid latitude time |
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16 | ! climatology ozone". |
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17 | |
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18 | ! This procedure reads a climatology of ozone from a NetCDF file, |
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19 | ! regrids it in latitude and time, and writes the regridded field |
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20 | ! to a new NetCDF file. |
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21 | |
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22 | ! The input field depends on time, pressure level and latitude. |
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23 | |
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24 | ! If the input field has missing values, they must be signaled by |
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25 | ! the "missing_value" attribute. |
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26 | |
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27 | ! We assume that the input field is a step function of latitude |
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28 | ! and that the input latitude coordinate gives the centers of steps. |
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29 | ! Regridding in latitude is made by averaging, with a cosine of |
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30 | ! latitude factor. |
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31 | ! The target LMDZ latitude grid is the "scalar" grid: "rlatu". |
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32 | ! The values of "rlatu" are taken to be the centers of intervals. |
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33 | |
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34 | ! We assume that in the input file: |
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35 | |
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36 | ! -- Latitude is in degrees. |
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37 | |
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38 | ! -- Latitude and pressure are strictly monotonic (as all NetCDF |
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39 | ! coordinate variables should be). |
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40 | |
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41 | ! -- The time coordinate is in ascending order (even though we do |
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42 | ! not use its values). |
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43 | ! The input file may contain either values for 12 months or values |
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44 | ! for 14 months. |
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45 | ! If there are 14 months then we assume that we have (in that order): |
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46 | ! December, January, February, ..., November, December, January |
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47 | |
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48 | ! -- Missing values are contiguous, at the bottom of |
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49 | ! the vertical domain and at the latitudinal boundaries. |
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50 | |
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51 | ! If values are all missing at a given latitude and date, then we |
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52 | ! replace those missing values by values at the closest latitude, |
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53 | ! equatorward, with valid values. |
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54 | ! Then, at each latitude and each date, the missing values are replaced |
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55 | ! by the lowest valid value above missing values. |
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56 | |
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57 | ! Regridding in time is by linear interpolation. |
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58 | ! Monthly values are processed to get daily values, on the basis |
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59 | ! of a 360-day calendar. |
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60 | ! If there are 14 months, we use the first December value to |
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61 | ! interpolate values between January 1st and mid-January. |
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62 | ! We use the last January value to interpolate values between |
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63 | ! mid-December and end of December. |
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64 | ! If there are only 12 months in the input file then we assume |
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65 | ! periodicity for interpolation at the beginning and at the end of the |
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66 | ! year. |
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67 | |
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68 | use mod_grid_phy_lmdz, ONLY : nbp_lat |
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69 | use regr1_conserv_m, only: regr1_conserv |
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70 | use regr3_lint_m, only: regr3_lint |
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71 | use netcdf95, only: handle_err, nf95_close, nf95_get_att, nf95_gw_var, & |
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72 | nf95_inq_dimid, nf95_inq_varid, nf95_inquire_dimension, nf95_open, & |
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73 | nf95_put_var |
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74 | use netcdf, only: nf90_get_att, nf90_get_var, nf90_noerr, nf90_nowrite |
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75 | use assert_m, only: assert |
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76 | use regular_lonlat_mod, only : boundslat_reg, south |
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77 | use nrtype, only: pi |
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78 | use slopes_m, only: slopes |
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79 | |
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80 | integer, intent(in):: read_climoz ! read ozone climatology |
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81 | ! Allowed values are 1 and 2 |
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82 | ! 1: read a single ozone climatology that will be used day and night |
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83 | ! 2: read two ozone climatologies, the average day and night |
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84 | ! climatology and the daylight climatology |
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85 | |
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86 | ! Variables local to the procedure: |
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87 | |
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88 | integer n_plev ! number of pressure levels in the input data |
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89 | integer n_lat ! number of latitudes in the input data |
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90 | integer n_month ! number of months in the input data |
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91 | |
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92 | real, pointer:: latitude(:) |
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93 | ! (of input data, converted to rad, sorted in strictly ascending order) |
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94 | |
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95 | real, allocatable:: sin_lat_in_edg(:) |
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96 | ! (sine of edges of latitude intervals for input data, in rad, in strictly |
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97 | ! ascending order) |
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98 | |
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99 | real, pointer:: plev(:) |
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100 | ! pressure levels of input data, sorted in strictly ascending |
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101 | ! order, converted to hPa |
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102 | |
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103 | logical desc_lat ! latitude in descending order in the input file |
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104 | logical desc_plev ! pressure levels in descending order in the input file |
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105 | |
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106 | real, allocatable:: o3_in(:, :, :, :) |
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107 | ! (n_lat, n_plev, n_month, read_climoz) |
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108 | ! ozone climatologies from the input file |
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109 | ! "o3_in(j, k, :, :)" is at latitude "latitude(j)" and pressure |
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110 | ! level "plev(k)". |
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111 | ! Third dimension is month index, first value may be December or January. |
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112 | ! "o3_in(:, :, :, 1)" is for the day- night average, "o3_in(:, :, :, 2)" |
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113 | ! is for daylight. |
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114 | |
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115 | real missing_value |
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116 | |
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117 | real, allocatable:: o3_regr_lat(:, :, :, :) |
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118 | ! (nbp_lat, n_plev, 0:13, read_climoz) |
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119 | ! mean of "o3_in" over a latitude interval of LMDZ |
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120 | ! First dimension is latitude interval. |
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121 | ! The latitude interval for "o3_regr_lat(j,:, :, :)" contains "rlatu(j)". |
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122 | ! If "j" is between 2 and "nbp_lat - 1" then the interval is: |
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123 | ! [rlatv(j), rlatv(j-1)] |
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124 | ! If "j" is 1 or "nbp_lat" then the interval is: |
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125 | ! [rlatv(1), pi / 2] |
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126 | ! or: |
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127 | ! [- pi / 2, rlatv(nbp_lat - 1)] |
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128 | ! respectively. |
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129 | ! "o3_regr_lat(:, k, :, :)" is for pressure level "plev(k)". |
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130 | ! Third dimension is month number, 1 for January. |
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131 | ! "o3_regr_lat(:, :, :, 1)" is average day and night, |
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132 | ! "o3_regr_lat(:, :, :, 2)" is for daylight. |
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133 | |
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134 | real, allocatable:: o3_out(:, :, :, :) |
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135 | ! (nbp_lat, n_plev, 360, read_climoz) |
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136 | ! regridded ozone climatology |
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137 | ! "o3_out(j, k, l, :)" is at latitude "rlatu(j)", pressure |
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138 | ! level "plev(k)" and date "January 1st 0h" + "tmidday(l)", in a |
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139 | ! 360-day calendar. |
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140 | ! "o3_out(:, :, :, 1)" is average day and night, |
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141 | ! "o3_out(:, :, :, 2)" is for daylight. |
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142 | |
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143 | integer j, k, l,m |
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144 | |
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145 | ! For NetCDF: |
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146 | integer ncid_in, ncid_out ! IDs for input and output files |
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147 | integer varid_plev, varid_time, varid, ncerr, dimid |
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148 | character(len=80) press_unit ! pressure unit |
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149 | |
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150 | integer varid_in(read_climoz), varid_out(read_climoz) |
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151 | ! index 1 is for average ozone day and night, index 2 is for |
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152 | ! daylight ozone. |
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153 | |
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154 | real, parameter:: tmidmonth(0:13) = (/(-15. + 30. * l, l = 0, 13)/) |
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155 | ! (time to middle of month, in days since January 1st 0h, in a |
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156 | ! 360-day calendar) |
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157 | ! (We add values -15 and 375 so that, for example, day 3 of the year is |
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158 | ! interpolated between the December and the January value.) |
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159 | |
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160 | real, parameter:: tmidday(360) = (/(l + 0.5, l = 0, 359)/) |
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161 | ! (time to middle of day, in days since January 1st 0h, in a |
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162 | ! 360-day calendar) |
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163 | |
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164 | !--------------------------------- |
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165 | |
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166 | print *, "Call sequence information: regr_lat_time_climoz" |
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167 | call assert(read_climoz == 1 .or. read_climoz == 2, "regr_lat_time_climoz") |
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168 | |
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169 | call nf95_open("climoz.nc", nf90_nowrite, ncid_in) |
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170 | |
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171 | ! Get coordinates from the input file: |
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172 | |
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173 | call nf95_inq_varid(ncid_in, "latitude", varid) |
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174 | call nf95_gw_var(ncid_in, varid, latitude) |
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175 | ! Convert from degrees to rad, because we will take the sine of latitude: |
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176 | latitude = latitude / 180. * pi |
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177 | n_lat = size(latitude) |
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178 | ! We need to supply the latitudes to "regr1_conserv" in |
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179 | ! ascending order, so invert order if necessary: |
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180 | desc_lat = latitude(1) > latitude(n_lat) |
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181 | if (desc_lat) latitude = latitude(n_lat:1:-1) |
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182 | |
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183 | ! Compute edges of latitude intervals: |
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184 | allocate(sin_lat_in_edg(n_lat + 1)) |
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185 | sin_lat_in_edg(1) = - 1. |
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186 | forall (j = 2:n_lat) sin_lat_in_edg(j) = sin((latitude(j - 1) & |
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187 | + latitude(j)) / 2.) |
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188 | sin_lat_in_edg(n_lat + 1) = 1. |
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189 | deallocate(latitude) ! pointer |
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190 | |
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191 | call nf95_inq_varid(ncid_in, "plev", varid) |
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192 | call nf95_gw_var(ncid_in, varid, plev) |
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193 | n_plev = size(plev) |
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194 | ! We only need the pressure coordinate to copy it to the output file. |
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195 | ! The program "gcm" will assume that pressure levels are in |
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196 | ! ascending order in the regridded climatology so invert order if |
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197 | ! necessary: |
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198 | desc_plev = plev(1) > plev(n_plev) |
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199 | if (desc_plev) plev = plev(n_plev:1:-1) |
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200 | call nf95_get_att(ncid_in, varid, "units", press_unit) |
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201 | if (press_unit == "Pa") then |
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202 | ! Convert to hPa: |
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203 | plev = plev / 100. |
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204 | elseif (press_unit /= "hPa") then |
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205 | print *, "regr_lat_time_climoz: the only recognized units are Pa " & |
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206 | // "and hPa." |
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207 | stop 1 |
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208 | end if |
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209 | |
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210 | ! Create the output file and get the variable IDs: |
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211 | call prepare_out(ncid_in, n_plev, ncid_out, varid_out, varid_plev, & |
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212 | varid_time) |
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213 | |
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214 | ! Write remaining coordinate variables: |
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215 | call nf95_put_var(ncid_out, varid_plev, plev) |
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216 | call nf95_put_var(ncid_out, varid_time, tmidday) |
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217 | |
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218 | deallocate(plev) ! pointer |
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219 | |
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220 | ! Get the number of months: |
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221 | call nf95_inq_dimid(ncid_in, "time", dimid) |
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222 | call nf95_inquire_dimension(ncid_in, dimid, nclen=n_month) |
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223 | |
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224 | allocate(o3_in(n_lat, n_plev, n_month, read_climoz)) |
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225 | |
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226 | call nf95_inq_varid(ncid_in, "tro3", varid_in(1)) |
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227 | ncerr = nf90_get_var(ncid_in, varid_in(1), o3_in(:, :, :, 1)) |
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228 | call handle_err("regr_lat_time_climoz nf90_get_var tro3", ncerr, ncid_in) |
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229 | |
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230 | if (read_climoz == 2) then |
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231 | call nf95_inq_varid(ncid_in, "tro3_daylight", varid_in(2)) |
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232 | ncerr = nf90_get_var(ncid_in, varid_in(2), o3_in(:, :, :, 2)) |
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233 | call handle_err("regr_lat_time_climoz nf90_get_var tro3_daylight", & |
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234 | ncerr, ncid_in, varid_in(2)) |
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235 | end if |
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236 | |
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237 | if (desc_lat) o3_in = o3_in(n_lat:1:-1, :, :, :) |
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238 | if (desc_plev) o3_in = o3_in(:, n_plev:1:-1, :, :) |
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239 | |
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240 | do m = 1, read_climoz |
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241 | ncerr = nf90_get_att(ncid_in, varid_in(m), "missing_value", & |
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242 | missing_value) |
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243 | if (ncerr == nf90_noerr) then |
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244 | do l = 1, n_month |
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245 | ! Take care of latitudes where values are all missing: |
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246 | |
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247 | ! Next to the south pole: |
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248 | j = 1 |
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249 | do while (o3_in(j, 1, l, m) == missing_value) |
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250 | j = j + 1 |
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251 | end do |
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252 | if (j > 1) o3_in(:j-1, :, l, m) = & |
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253 | spread(o3_in(j, :, l, m), dim=1, ncopies=j-1) |
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254 | |
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255 | ! Next to the north pole: |
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256 | j = n_lat |
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257 | do while (o3_in(j, 1, l, m) == missing_value) |
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258 | j = j - 1 |
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259 | end do |
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260 | if (j < n_lat) o3_in(j+1:, :, l, m) = & |
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261 | spread(o3_in(j, :, l, m), dim=1, ncopies=n_lat-j) |
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262 | |
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263 | ! Take care of missing values at high pressure: |
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264 | do j = 1, n_lat |
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265 | ! Find missing values, starting from top of atmosphere |
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266 | ! and going down. |
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267 | ! We have already taken care of latitudes full of |
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268 | ! missing values so the highest level has a valid value. |
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269 | k = 2 |
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270 | do while (o3_in(j, k, l, m) /= missing_value .and. k < n_plev) |
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271 | k = k + 1 |
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272 | end do |
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273 | ! Replace missing values with the valid value at the |
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274 | ! lowest level above missing values: |
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275 | if (o3_in(j, k, l, m) == missing_value) & |
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276 | o3_in(j, k:n_plev, l, m) = o3_in(j, k-1, l, m) |
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277 | end do |
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278 | end do |
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279 | else |
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280 | print *, "regr_lat_time_climoz: field ", m, & |
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281 | ", no missing value attribute" |
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282 | end if |
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283 | end do |
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284 | |
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285 | call nf95_close(ncid_in) |
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286 | |
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287 | allocate(o3_regr_lat(nbp_lat, n_plev, 0:13, read_climoz)) |
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288 | allocate(o3_out(nbp_lat, n_plev, 360, read_climoz)) |
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289 | |
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290 | ! Regrid in latitude: |
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291 | ! We average with respect to sine of latitude, which is |
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292 | ! equivalent to weighting by cosine of latitude: |
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293 | if (n_month == 12) then |
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294 | print *, & |
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295 | "Found 12 months in ozone climatologies, assuming periodicity..." |
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296 | call regr1_conserv(o3_in, xs = sin_lat_in_edg, & |
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297 | xt = (/- 1., sin(boundslat_reg(nbp_lat - 1:1:- 1, south)), 1./), & |
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298 | vt = o3_regr_lat(nbp_lat:1:- 1, :, 1:12, :), & |
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299 | slope = slopes(o3_in, sin_lat_in_edg)) |
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300 | ! (invert order of indices in "o3_regr_lat" because "rlatu" is |
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301 | ! in descending order) |
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302 | |
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303 | ! Duplicate January and December values, in preparation of time |
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304 | ! interpolation: |
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305 | o3_regr_lat(:, :, 0, :) = o3_regr_lat(:, :, 12, :) |
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306 | o3_regr_lat(:, :, 13, :) = o3_regr_lat(:, :, 1, :) |
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307 | else |
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308 | print *, "Using 14 months in ozone climatologies..." |
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309 | call regr1_conserv(o3_in, xs = sin_lat_in_edg, & |
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310 | xt = (/- 1., sin(boundslat_reg(nbp_lat - 1:1:- 1, south)), 1./), & |
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311 | vt = o3_regr_lat(nbp_lat:1:- 1, :, :, :), & |
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312 | slope = slopes(o3_in, sin_lat_in_edg)) |
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313 | ! (invert order of indices in "o3_regr_lat" because "rlatu" is |
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314 | ! in descending order) |
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315 | end if |
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316 | |
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317 | ! Regrid in time by linear interpolation: |
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318 | o3_out = regr3_lint(o3_regr_lat, tmidmonth, tmidday) |
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319 | |
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320 | ! Write to file: |
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321 | do m = 1, read_climoz |
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322 | call nf95_put_var(ncid_out, varid_out(m), o3_out(nbp_lat:1:-1, :, :, m)) |
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323 | ! (The order of "rlatu" is inverted in the output file) |
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324 | end do |
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325 | |
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326 | call nf95_close(ncid_out) |
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327 | |
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328 | end subroutine regr_lat_time_climoz |
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329 | |
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330 | !******************************************** |
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331 | |
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332 | subroutine prepare_out(ncid_in, n_plev, ncid_out, varid_out, varid_plev, & |
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333 | varid_time) |
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334 | |
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335 | ! This subroutine creates the NetCDF output file, defines |
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336 | ! dimensions and variables, and writes one of the coordinate variables. |
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337 | |
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338 | use mod_grid_phy_lmdz, ONLY : nbp_lat |
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339 | use netcdf95, only: nf95_create, nf95_def_dim, nf95_def_var, & |
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340 | nf95_put_att, nf95_enddef, nf95_copy_att, nf95_put_var |
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341 | use netcdf, only: nf90_clobber, nf90_float, nf90_global |
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342 | use nrtype, only: pi |
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343 | use regular_lonlat_mod, only : lat_reg |
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344 | |
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345 | integer, intent(in):: ncid_in, n_plev |
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346 | integer, intent(out):: ncid_out, varid_plev, varid_time |
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347 | |
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348 | integer, intent(out):: varid_out(:) ! dim(1 or 2) |
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349 | ! "varid_out(1)" is for average ozone day and night, |
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350 | ! "varid_out(2)" is for daylight ozone. |
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351 | |
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352 | ! Variables local to the procedure: |
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353 | |
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354 | integer ncerr |
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355 | integer dimid_rlatu, dimid_plev, dimid_time |
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356 | integer varid_rlatu |
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357 | |
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358 | !--------------------------- |
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359 | |
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360 | print *, "Call sequence information: prepare_out" |
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361 | |
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362 | call nf95_create("climoz_LMDZ.nc", nf90_clobber, ncid_out) |
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363 | |
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364 | ! Dimensions: |
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365 | call nf95_def_dim(ncid_out, "time", 360, dimid_time) |
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366 | call nf95_def_dim(ncid_out, "plev", n_plev, dimid_plev) |
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367 | call nf95_def_dim(ncid_out, "rlatu", nbp_lat, dimid_rlatu) |
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368 | |
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369 | ! Define coordinate variables: |
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370 | |
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371 | call nf95_def_var(ncid_out, "time", nf90_float, dimid_time, varid_time) |
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372 | call nf95_put_att(ncid_out, varid_time, "units", "days since 2000-1-1") |
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373 | call nf95_put_att(ncid_out, varid_time, "calendar", "360_day") |
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374 | call nf95_put_att(ncid_out, varid_time, "standard_name", "time") |
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375 | |
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376 | call nf95_def_var(ncid_out, "plev", nf90_float, dimid_plev, varid_plev) |
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377 | call nf95_put_att(ncid_out, varid_plev, "units", "millibar") |
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378 | call nf95_put_att(ncid_out, varid_plev, "standard_name", "air_pressure") |
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379 | call nf95_put_att(ncid_out, varid_plev, "long_name", "air pressure") |
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380 | |
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381 | call nf95_def_var(ncid_out, "rlatu", nf90_float, dimid_rlatu, varid_rlatu) |
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382 | call nf95_put_att(ncid_out, varid_rlatu, "units", "degrees_north") |
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383 | call nf95_put_att(ncid_out, varid_rlatu, "standard_name", "latitude") |
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384 | |
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385 | ! Define the primary variables: |
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386 | |
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387 | call nf95_def_var(ncid_out, "tro3", nf90_float, & |
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388 | (/dimid_rlatu, dimid_plev, dimid_time/), varid_out(1)) |
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389 | call nf95_put_att(ncid_out, varid_out(1), "long_name", & |
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390 | "ozone mole fraction") |
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391 | call nf95_put_att(ncid_out, varid_out(1), "standard_name", & |
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392 | "mole_fraction_of_ozone_in_air") |
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393 | |
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394 | if (size(varid_out) == 2) then |
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395 | call nf95_def_var(ncid_out, "tro3_daylight", nf90_float, & |
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396 | (/dimid_rlatu, dimid_plev, dimid_time/), varid_out(2)) |
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397 | call nf95_put_att(ncid_out, varid_out(2), "long_name", & |
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398 | "ozone mole fraction in daylight") |
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399 | end if |
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400 | |
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401 | ! Global attributes: |
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402 | |
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403 | ! The following commands, copying attributes, may fail. |
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404 | ! That is OK. |
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405 | ! It should just mean that the attribute is not defined in the input file. |
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406 | |
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407 | call nf95_copy_att(ncid_in, nf90_global, "Conventions", ncid_out, & |
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408 | nf90_global, ncerr) |
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409 | call handle_err_copy_att("Conventions") |
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410 | |
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411 | call nf95_copy_att(ncid_in, nf90_global, "title", ncid_out, nf90_global, & |
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412 | ncerr) |
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413 | call handle_err_copy_att("title") |
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414 | |
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415 | call nf95_copy_att(ncid_in, nf90_global, "institution", ncid_out, & |
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416 | nf90_global, ncerr) |
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417 | call handle_err_copy_att("institution") |
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418 | |
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419 | call nf95_copy_att(ncid_in, nf90_global, "source", ncid_out, nf90_global, & |
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420 | ncerr) |
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421 | call handle_err_copy_att("source") |
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422 | |
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423 | call nf95_put_att(ncid_out, nf90_global, "comment", "Regridded for LMDZ") |
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424 | |
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425 | call nf95_enddef(ncid_out) |
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426 | |
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427 | ! Write one of the coordinate variables: |
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428 | call nf95_put_var(ncid_out, varid_rlatu, lat_reg(nbp_lat:1:-1) / pi * 180.) |
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429 | ! (convert from rad to degrees and sort in ascending order) |
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430 | |
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431 | contains |
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432 | |
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433 | subroutine handle_err_copy_att(att_name) |
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434 | |
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435 | use netcdf, only: nf90_noerr, nf90_strerror |
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436 | |
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437 | character(len=*), intent(in):: att_name |
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438 | |
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439 | !---------------------------------------- |
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440 | |
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441 | if (ncerr /= nf90_noerr) then |
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442 | print *, "regr_lat_time_climoz_m prepare_out nf95_copy_att " & |
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443 | // att_name // " -- " // trim(nf90_strerror(ncerr)) |
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444 | end if |
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445 | |
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446 | end subroutine handle_err_copy_att |
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447 | |
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448 | end subroutine prepare_out |
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449 | |
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450 | end module regr_lat_time_climoz_m |
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