Changeset 9385
- Timestamp:
- 2018-03-08T12:36:19+01:00 (7 years ago)
- Location:
- branches/UKMO/dev_r5518_GO6_package/NEMOGCM
- Files:
-
- 8 edited
- 1 copied
Legend:
- Unmodified
- Added
- Removed
-
branches/UKMO/dev_r5518_GO6_package/NEMOGCM/CONFIG/SHARED/field_def_bgc.xml
r9257 r9385 75 75 76 76 <!-- MEDUSA : variables available with key_medusa --> 77 <field id="CHN" long_name="Chl-a concentration in non-diatom phytoplankton" unit="mg 78 <field id="CHN_E3T" long_name="CHN * E3T" unit="mg 79 <field id="CHN_INV" field_ref="CHN_E3T" unit="mgChl/m2" grid_ref="vert_sum" />80 <field id="SURF_CHN" field_ref="CHN" unit="mgChl/m3" grid_ref="grid_T_surface_extract" />81 <field id="CHD" long_name="Chl-a concentration in diatom phytoplankton" unit="mg 82 <field id="CHD_E3T" long_name="CHD * E3T" unit="mg 83 <field id="CHD_INV" field_ref="CHD_E3T" unit="mgChl/m2" grid_ref="vert_sum" />84 <field id="SURF_CHD" field_ref="CHD" unit="mgChl/m3" grid_ref="grid_T_surface_extract" />77 <field id="CHN" long_name="Chl-a concentration in non-diatom phytoplankton" unit="mg-Chl/m3" /> 78 <field id="CHN_E3T" long_name="CHN * E3T" unit="mg-Chl/m2" > CHN * e3t </field > 79 <field id="CHN_INV" field_ref="CHN_E3T" long_name="CHN Inventory" unit="mg-Chl/m2" grid_ref="vert_sum" /> 80 <field id="SURF_CHN" field_ref="CHN" long_name="CHN Surface concentration" unit="mg-Chl/m3" grid_ref="grid_T_surface_extract" /> 81 <field id="CHD" long_name="Chl-a concentration in diatom phytoplankton" unit="mg-Chl/m3" /> 82 <field id="CHD_E3T" long_name="CHD * E3T" unit="mg-Chl/m2" > CHD * e3t </field > 83 <field id="CHD_INV" field_ref="CHD_E3T" long_name="CHD Inventory" unit="mg-Chl/m2" grid_ref="vert_sum" /> 84 <field id="SURF_CHD" field_ref="CHD" long_name="CHD Surface concentration" unit="mg-Chl/m3" grid_ref="grid_T_surface_extract" /> 85 85 <field id="PHN" long_name="non-diatom phytoplankton" unit="mmol-N/m3" /> 86 86 <field id="PHN_E3T" long_name="PHN * E3T" unit="mmol-N/m2" > PHN * e3t </field > 87 <field id="PHN_INV" field_ref="PHN_E3T" unit="mmol-N/m2" grid_ref="vert_sum" /> 87 <field id="PHN_INV" field_ref="PHN_E3T" long_name="PHN Inventory" unit="mmol-N/m2" grid_ref="vert_sum" /> 88 <field id="SURF_PHN" field_ref="PHN" long_name="PHN Surface concentration" unit="mmol-N/m3" grid_ref="grid_T_surface_extract" /> 88 89 <field id="PHD" long_name="diatom phytoplankton" unit="mmol-N/m3" /> 89 90 <field id="PHD_E3T" long_name="PHD * E3T" unit="mmol-N/m2" > PHD * e3t </field > 90 <field id="PHD_INV" field_ref="PHD_E3T" unit="mmol-N/m2" grid_ref="vert_sum" /> 91 <field id="PHD_INV" field_ref="PHD_E3T" long_name="PHD Inventory" unit="mmol-N/m2" grid_ref="vert_sum" /> 92 <field id="SURF_PHD" field_ref="PHD" long_name="PHD Surface concentration" unit="mmol-N/m3" grid_ref="grid_T_surface_extract" /> 91 93 <field id="ZMI" long_name="micro zooplankton" unit="mmol-N/m3" /> 92 94 <field id="ZMI_E3T" long_name="ZMI * E3T" unit="mmol-N/m2" > ZMI * e3t </field > 93 <field id="ZMI_INV" field_ref="ZMI_E3T" unit="mmol-N/m2" grid_ref="vert_sum" /> 95 <field id="ZMI_INV" field_ref="ZMI_E3T" long_name="ZMI Inventory" unit="mmol-N/m2" grid_ref="vert_sum" /> 96 <field id="SURF_ZMI" field_ref="ZMI" long_name="ZMI Surface concentration" unit="mmol-N/m3" grid_ref="grid_T_surface_extract" /> 94 97 <field id="ZME" long_name="meso zooplankton" unit="mmol-N/m3" /> 95 98 <field id="ZME_E3T" long_name="ZME * E3T" unit="mmol-N/m2" > ZME * e3t </field > 96 <field id="ZME_INV" field_ref="ZME_E3T" unit="mmol-N/m2" grid_ref="vert_sum" /> 99 <field id="ZME_INV" field_ref="ZME_E3T" long_name="ZME Inventory" unit="mmol-N/m2" grid_ref="vert_sum" /> 100 <field id="SURF_ZME" field_ref="ZME" long_name="ZME Surface concentration" unit="mmol-N/m3" grid_ref="grid_T_surface_extract" /> 97 101 <field id="DIN" long_name="dissolved inorganic nitrogen" unit="mmol-N/m3" /> 98 102 <field id="DIN_E3T" long_name="DIN * E3T" unit="mmol-N/m2" > DIN * e3t </field > 99 <field id="DIN_INV" field_ref="DIN_E3T" unit="mmol-N/m2" grid_ref="vert_sum" /> 100 <field id="SIL" long_name="dissolved silicic acid" unit="mmolSi/m3" /> 101 <field id="SIL_E3T" long_name="SIL * E3T" unit="mmolSi/m2" > SIL * e3t </field > 102 <field id="SIL_INV" field_ref="SIL_E3T" unit="mmolSi/m2" grid_ref="vert_sum" /> 103 <field id="FER" long_name="dissolved iron" unit="mmolFe/m3" /> 104 <field id="FER_E3T" long_name="FER * E3T" unit="mmolFe/m2" > FER * e3t </field > 105 <field id="FER_INV" field_ref="FER_E3T" unit="mmolFe/m2" grid_ref="vert_sum" /> 103 <field id="DIN_INV" field_ref="DIN_E3T" long_name="DIN Inventory" unit="mmol-N/m2" grid_ref="vert_sum" /> 104 <field id="SURF_DIN" field_ref="DIN" long_name="DIN Surface concentration" unit="mmol-N/m3" grid_ref="grid_T_surface_extract" /> 105 <field id="SIL" long_name="dissolved silicic acid" unit="mmol-Si/m3" /> 106 <field id="SIL_E3T" long_name="SIL * E3T" unit="mmol-Si/m2" > SIL * e3t </field > 107 <field id="SIL_INV" field_ref="SIL_E3T" long_name="SIL Inventory" unit="mmol-Si/m2" grid_ref="vert_sum" /> 108 <field id="SURF_SIL" field_ref="SIL" long_name="SIL Surface concentration" unit="mmol-Si/m3" grid_ref="grid_T_surface_extract" /> 109 <field id="FER" long_name="dissolved iron" unit="mmol-Fe/m3" /> 110 <field id="FER_E3T" long_name="FER * E3T" unit="mmol-Fe/m2" > FER * e3t </field > 111 <field id="FER_INV" field_ref="FER_E3T" long_name="FER Inventory" unit="mmol-Fe/m2" grid_ref="vert_sum" /> 112 <field id="SURF_FER" field_ref="FER" long_name="FER Surface concentration" unit="mmol-Fe/m3" grid_ref="grid_T_surface_extract" /> 106 113 <field id="DET" long_name="detrital nitrogen" unit="mmol-N/m3" /> 107 114 <field id="DET_E3T" long_name="DET * E3T" unit="mmol-N/m2" > DET * e3t </field > 108 <field id="DET_INV" field_ref="DET_E3T" unit="mmol-N/m2" grid_ref="vert_sum" /> 109 <field id="PDS" long_name="biogenic silicon in diatom phytoplankton" unit="mmolSi/m3" /> 110 <field id="PDS_E3T" long_name="PDS * E3T" unit="mmolSi/m2" > PDS * e3t </field > 111 <field id="PDS_INV" field_ref="PDS_E3T" unit="mmolSi/m2" grid_ref="vert_sum" /> 115 <field id="DET_INV" field_ref="DET_E3T" long_name="DET Inventory" unit="mmol-N/m2" grid_ref="vert_sum" /> 116 <field id="SURF_DET" field_ref="DET" long_name="DET Surface concentration" unit="mmol-N/m3" grid_ref="grid_T_surface_extract" /> 117 <field id="PDS" long_name="biogenic silicon in diatom phytoplankton" unit="mmol-Si/m3" /> 118 <field id="PDS_E3T" long_name="PDS * E3T" unit="mmol-Si/m2" > PDS * e3t </field > 119 <field id="PDS_INV" field_ref="PDS_E3T" long_name="PDS Inventory" unit="mmol-Si/m2" grid_ref="vert_sum" /> 120 <field id="SURF_PDS" field_ref="PDS" long_name="PDS Surface concentration" unit="mmol-Si/m3" grid_ref="grid_T_surface_extract" /> 112 121 <field id="DTC" long_name="detrital carbon" unit="mmol-C/m3" /> 113 122 <field id="DTC_E3T" long_name="DTC * E3T" unit="mmol-C/m2" > DTC * e3t </field > 114 <field id="DTC_INV" field_ref="DTC_E3T" unit="mmol-C/m2" grid_ref="vert_sum" /> 123 <field id="DTC_INV" field_ref="DTC_E3T" long_name="DTC Inventory" unit="mmol-C/m2" grid_ref="vert_sum" /> 124 <field id="SURF_DTC" field_ref="DTC" long_name="DTC Surface concentration" unit="mmol-C/m3" grid_ref="grid_T_surface_extract" /> 115 125 <field id="DiC" long_name="dissolved inorganic carbon" unit="mmol-C/m3" /> 116 126 <field id="DiC_E3T" long_name="DiC * E3T" unit="mmol-C/m2" > DiC * e3t </field > 117 <field id="DiC_INV" field_ref="DiC_E3T" unit="mmol-C/m2" grid_ref="vert_sum" /> 127 <field id="DiC_INV" field_ref="DiC_E3T" long_name="DiC Inventory" unit="mmol-C/m2" grid_ref="vert_sum" /> 128 <field id="SURF_DiC" field_ref="DiC" long_name="DiC Surface concentration" unit="mmol-C/m3" grid_ref="grid_T_surface_extract" /> 118 129 <field id="ALK" long_name="alkalinity" unit="meq/m3" /> 119 130 <field id="ALK_E3T" long_name="ALK * E3T" unit="meq/m2" > ALK * e3t </field > 120 <field id="ALK_INV" field_ref="ALK_E3T" unit="meq/m2" grid_ref="vert_sum" /> 121 <field id="OXY" long_name="dissolved oxygen" unit="mmolO2/m3" /> 122 <field id="OXY_E3T" long_name="OXY * E3T" unit="mmolO2/m2" > OXY * e3t </field > 123 <field id="OXY_INV" field_ref="OXY_E3T" unit="mmolO2/m2" grid_ref="vert_sum" /> 131 <field id="ALK_INV" field_ref="ALK_E3T" long_name="ALK Inventory" unit="meq/m2" grid_ref="vert_sum" /> 132 <field id="SURF_ALK" field_ref="ALK" long_name="ALK Surface concentration" unit="meq/m3" grid_ref="grid_T_surface_extract" /> 133 <field id="OXY" long_name="dissolved oxygen" unit="mmol-O2/m3" /> 134 <field id="OXY_E3T" long_name="OXY * E3T" unit="mmol-O2/m2" > OXY * e3t </field > 135 <field id="OXY_INV" field_ref="OXY_E3T" long_name="OXY Inventory" unit="mmol-O2/m2" grid_ref="vert_sum" /> 136 <field id="SURF_OXY" field_ref="OXY" long_name="OXY Surface concentration" unit="mmol-O2/m3" grid_ref="grid_T_surface_extract" /> 124 137 125 138 <!-- Ideal traceurs : variables available with key_idtra --> 126 139 <field id="IDTRA" long_name="Ideal traceur concentration " unit="mmol/m3" /> 127 140 <field id="IDTRA_E3T" long_name="IDTRA * E3T" unit="mmol/m2" > IDTRA * e3t </field > 128 <field id="IDTRA_INV" field_ref="IDTRA_E3T" 141 <field id="IDTRA_INV" field_ref="IDTRA_E3T" long_name="Age Inventory" unit="mmol/m2" grid_ref="vert_sum" /> 129 142 130 143 <!-- PISCES with Kriest parametisation : variables available with key_kriest --> … … 141 154 <field id="CFC11" long_name="CFC-11 Concentration" unit="umol/m3" /> 142 155 <field id="CFC11_E3T" long_name="CFC11 * E3T" unit="umol/m2" > CFC11 * e3t </field > 143 <field id="CFC11_INV" field_ref="CFC11_E3T" 156 <field id="CFC11_INV" field_ref="CFC11_E3T" long_name="Age Inventory" unit="umol/m2" grid_ref="vert_sum" /> 144 157 <!-- CFC12 : variables available with key_cfc --> 145 158 <field id="CFC12" long_name="CFC-12 Concentration" unit="umol/m3" /> 146 159 <field id="CFC12_E3T" long_name="CFC12 * E3T" unit="umol/m2" > CFC12 * e3t </field > 147 <field id="CFC12_INV" field_ref="CFC12_E3T" 160 <field id="CFC12_INV" field_ref="CFC12_E3T" long_name="Age Inventory" unit="umol/m2" grid_ref="vert_sum" /> 148 161 <!-- SF6 : variables available with key_cfc --> 149 162 <field id="SF6" long_name="SF6 Concentration" unit="umol/m3" /> 150 163 <field id="SF6_E3T" long_name="SF6 * E3T" unit="umol/m2" > SF6 * e3t </field > 151 <field id="SF6_INV" field_ref="SF6_E3T" 164 <field id="SF6_INV" field_ref="SF6_E3T" long_name="Age Inventory" unit="umol/m2" grid_ref="vert_sum" /> 152 165 <!-- Bomb C14 : variables available with key_c14b --> 153 166 <field id="C14B" long_name="Bomb C14 Concentration" unit="1" /> 154 167 <field id="C14B_E3T" long_name="C14B * E3T" unit="m" > C14B * e3t </field > 155 <field id="C14B_INV" field_ref="C14B_E3T" 168 <field id="C14B_INV" field_ref="C14B_E3T" long_name="Age Inventory" unit="m" grid_ref="vert_sum" /> 156 169 <!-- AGE : variables available with key_age --> 157 <field id="Age" long_name="Sea Water Age Since Surface contact" standard_name="sea_water_age_since_surface_contact"unit="yr" />170 <field id="Age" long_name="Sea Water Age Since Surface contact" unit="yr" /> 158 171 <field id="Age_E3T" long_name="Age * E3T" unit="yr * m" > Age * e3t </field > 159 <field id="Age_INV" field_ref="Age_E3T" 172 <field id="Age_INV" field_ref="Age_E3T" long_name="Age Inventory" unit="yr * m" grid_ref="vert_sum" /> 160 173 </field_group> 161 174 … … 290 303 291 304 <!-- MEDUSA additional diagnostics on T grid --> 292 <field id= "INVTN" long_name="Column N inventory" unit="mmol N/m2" />293 <field id= "INVTSI" long_name="Column Si inventory" unit="mmol Si/m2" />294 <field id= "INVTFE" long_name="Column Fe inventory" unit="mmol Fe/m2" />295 <field id= "PRN" long_name="Non-diatom primary production" unit="mmol N/m2/d" />296 <field id= "MPN" long_name="Non-diatom non-grazing losses" unit="mmol N/m2/d" />297 <field id= "PRD" long_name="Diatom primary production" unit="mmol N/m2/d" />298 <field id= "MPD" long_name="Diatom non-grazing losses" unit="mmol N/m2/d" />299 <field id= "DSED" long_name="Gravitational sinking of Detritus" unit="mmol N/m2/d" />300 <field id= "OPAL" long_name="Diatom biogenic opal production" unit="mmol Si/m2/d" />301 <field id= "OPALDISS" long_name="Diatom biogenic opal dissolution" unit="mmol Si/m2/d" />302 <field id= "GMIPn" long_name="Microzoo grazing on non-diatoms" unit="mmol N/m2/d" />303 <field id= "GMID" long_name="Microzoo grazing on detritus" unit="mmol N/m2/d" />304 <field id= "MZMI" long_name="Microzoo non-grazing losses" unit="mmol N/m2/d" />305 <field id= "GMEPN" long_name="Mesozoo grazing on non-diatoms" unit="mmol N/m2/d" />306 <field id= "GMEPD" long_name="Mesozoo grazing on non-diatoms" unit="mmol N/m2/d" />307 <field id= "GMEZMI" long_name="Mesozoo grazing on microzoo" unit="mmol N/m2/d" />308 <field id= "GMED" long_name="Mesozoo grazing on detritus" unit="mmol N/m2/d" />309 <field id= "MZME" long_name="Mesozoo non-grazing losses" unit="mmol N/m2/d" />310 <field id= "DEXP" long_name="Detritus export" unit="mmol N/m2/d" />311 <field id= "DETN" long_name="Slow detritus creation" unit="mmol N/m2/d" />305 <field id= "INVTN" long_name="Column N inventory" unit="mmol-N/m2" /> 306 <field id= "INVTSI" long_name="Column Si inventory" unit="mmol-Si/m2" /> 307 <field id= "INVTFE" long_name="Column Fe inventory" unit="mmol-Fe/m2" /> 308 <field id= "PRN" long_name="Non-diatom primary production" unit="mmol-N/m2/d" /> 309 <field id= "MPN" long_name="Non-diatom non-grazing losses" unit="mmol-N/m2/d" /> 310 <field id= "PRD" long_name="Diatom primary production" unit="mmol-N/m2/d" /> 311 <field id= "MPD" long_name="Diatom non-grazing losses" unit="mmol-N/m2/d" /> 312 <field id= "DSED" long_name="Gravitational sinking of Detritus" unit="mmol-N/m2/d" /> 313 <field id= "OPAL" long_name="Diatom biogenic opal production" unit="mmol-Si/m2/d" /> 314 <field id= "OPALDISS" long_name="Diatom biogenic opal dissolution" unit="mmol-Si/m2/d" /> 315 <field id= "GMIPn" long_name="Microzoo grazing on non-diatoms" unit="mmol-N/m2/d" /> 316 <field id= "GMID" long_name="Microzoo grazing on detritus" unit="mmol-N/m2/d" /> 317 <field id= "MZMI" long_name="Microzoo non-grazing losses" unit="mmol-N/m2/d" /> 318 <field id= "GMEPN" long_name="Mesozoo grazing on non-diatoms" unit="mmol-N/m2/d" /> 319 <field id= "GMEPD" long_name="Mesozoo grazing on non-diatoms" unit="mmol-N/m2/d" /> 320 <field id= "GMEZMI" long_name="Mesozoo grazing on microzoo" unit="mmol-N/m2/d" /> 321 <field id= "GMED" long_name="Mesozoo grazing on detritus" unit="mmol-N/m2/d" /> 322 <field id= "MZME" long_name="Mesozoo non-grazing losses" unit="mmol-N/m2/d" /> 323 <field id= "DEXP" long_name="Detritus export" unit="mmol-N/m2/d" /> 324 <field id= "DETN" long_name="Slow detritus creation" unit="mmol-N/m2/d" /> 312 325 <field id= "MDET" long_name="Detritus non-grazing losses" unit="MmolN/m2/d" /> 313 <field id= "AEOLIAN" long_name="Aeolian deposition of iron" unit="mmol Fe/m2/d" />314 <field id= "BENTHIC" long_name="Benthic supply of iron" unit="mmol Fe/m2/d" />315 <field id= "SCAVENGE" long_name="Scavenged iron" unit="mmol Fe/m2/d" />326 <field id= "AEOLIAN" long_name="Aeolian deposition of iron" unit="mmol-Fe/m2/d" /> 327 <field id= "BENTHIC" long_name="Benthic supply of iron" unit="mmol-Fe/m2/d" /> 328 <field id= "SCAVENGE" long_name="Scavenged iron" unit="mmol-Fe/m2/d" /> 316 329 <field id= "PN_JLIM" long_name="Non-diatom light limitation" unit="-" /> 317 330 <field id= "PN_NLIM" long_name="Non-diatom N limitation" unit="-" /> … … 322 335 <field id= "PD_SILIM" long_name="Diatom Si limitation" unit="-" /> 323 336 <field id= "PDSILIM2" long_name="Diatom Si uptake limitation" unit="-" /> 324 <field id= "SDT__100" long_name="Slow detrital flux at 100 m" unit="mmol N/m2/d" />325 <field id= "SDT__200" long_name="Slow detrital flux at 200 m" unit="mmol N/m2/d" />326 <field id= "SDT__500" long_name="Slow detrital flux at 500 m" unit="mmol N/m2/d" />327 <field id= "SDT_1000" long_name="Slow detrital flux at 1000 m" unit="mmol N/m2/d" />328 <field id= "TOTREG_N" long_name="Full column regenerated N" unit="mmol N/m2/d" />329 <field id= "TOTRG_SI" long_name="Full column regenerated Si" unit="mmol Si/m2/d" />330 <field id= "REG__100" long_name="Regenerated N to 100 m" unit="mmol N/m2/d" />331 <field id= "REG__200" long_name="Regenerated N to 200 m" unit="mmol N/m2/d" />332 <field id= "REG__500" long_name="Regenerated N to 500 m" unit="mmol N/m2/d" />333 <field id= "REG_1000" long_name="Regenerated N to 1000 m" unit="mmol N/m2/d" />334 <field id= "FASTN" long_name="Fast-sinking flux N" unit="mmol N/m2/d" />335 <field id= "FASTSI" long_name="Fast-sinking flux Si" unit="mmol Si/m2/d" />336 <field id= "FASTFE" long_name="Fast-sinking flux Fe" unit="mmol Fe/m2/d" />337 <field id= "FASTC" long_name="Fast-sinking flux C" unit="mmol C/m2/d" />338 <field id= "FASTCA" long_name="Fast-sinking flux CaCO3" unit="mmol C/m2/d" />339 <field id= "FDT__100" long_name="Fast detrital N flux at 100 m" unit="mmol N/m2/d" />340 <field id= "FDT__200" long_name="Fast detrital N flux at 200 m" unit="mmol N/m2/d" />341 <field id= "FDT__500" long_name="Fast detrital N flux at 500 m" unit="mmol N/m2/d" />342 <field id= "FDT_1000" long_name="Fast detrital N flux at 1000 m" unit="mmol N/m2/d" />343 <field id= "RG__100F" long_name="Regenerated fast N to 100 m" unit="mmol N/m2/d" />344 <field id= "RG__200F" long_name="Regenerated fast N to 200 m" unit="mmol N/m2/d" />345 <field id= "RG__500F" long_name="Regenerated fast N to 500 m" unit="mmol N/m2/d" />346 <field id= "RG_1000F" long_name="Regenerated fast N to 1000 m" unit="mmol N/m2/d" />347 <field id= "FDS__100" long_name="Fast detrital Si flux at 100 m" unit="mmol Si/m2/d" />348 <field id= "FDS__200" long_name="Fast detrital Si flux at 200 m" unit="mmol Si/m2/d" />349 <field id= "FDS__500" long_name="Fast detrital Si flux at 500 m" unit="mmol Si/m2/d" />350 <field id= "FDS_1000" long_name="Fast detrital Si flux at 1000 m" unit="mmol Si/m2/d" />351 <field id= "RGS_100F" long_name="Regenerated fast Si to 100 m" unit="mmol Si/m2/d" />352 <field id= "RGS_200F" long_name="Regenerated fast Si to 200 m" unit="mmol Si/m2/d" />353 <field id= "RGS_500F" long_name="Regenerated fast Si to 500 m" unit="mmol Si/m2/d" />354 <field id= "RGS1000F" long_name="Regenerated fast Si to 1000 m" unit="mmol Si/m2/d" />355 <field id= "REMINN" long_name="Fast-sinking remin flux N" unit="mmol N/m2/d" />356 <field id= "REMINSI" long_name="Fast-sinking remin flux Si" unit="mmol Si/m2/d" />357 <field id= "REMINFE" long_name="Fast-sinking remin flux Fe" unit="mmol Fe/m2/d" />358 <field id= "REMINC" long_name="Fast-sinking remin flux C" unit="mmol C/m2/d" />359 <field id= "REMINCA" long_name="Fast-sinking remin flux CaCO3" unit="mmol C/m2/d" />360 <field id= "SEAFLRN" long_name="Seafloor flux of N" unit="mmol N/m2/d" />361 <field id= "SEAFLRSI" long_name="Seafloor flux of Si" unit="mmol Si/m2/d" />362 <field id= "SEAFLRFE" long_name="Seafloor flux of Fe" unit="mmol Fe/m2/d" />363 <field id= "SEAFLRC" long_name="Seafloor flux of C" unit="mmol C/m2/d" />364 <field id= "SEAFLRCA" long_name="Seafloor flux of CaCO3" unit="mmol C/m2/d" />337 <field id= "SDT__100" long_name="Slow detrital flux at 100 m" unit="mmol-N/m2/d" /> 338 <field id= "SDT__200" long_name="Slow detrital flux at 200 m" unit="mmol-N/m2/d" /> 339 <field id= "SDT__500" long_name="Slow detrital flux at 500 m" unit="mmol-N/m2/d" /> 340 <field id= "SDT_1000" long_name="Slow detrital flux at 1000 m" unit="mmol-N/m2/d" /> 341 <field id= "TOTREG_N" long_name="Full column regenerated N" unit="mmol-N/m2/d" /> 342 <field id= "TOTRG_SI" long_name="Full column regenerated Si" unit="mmol-Si/m2/d" /> 343 <field id= "REG__100" long_name="Regenerated N to 100 m" unit="mmol-N/m2/d" /> 344 <field id= "REG__200" long_name="Regenerated N to 200 m" unit="mmol-N/m2/d" /> 345 <field id= "REG__500" long_name="Regenerated N to 500 m" unit="mmol-N/m2/d" /> 346 <field id= "REG_1000" long_name="Regenerated N to 1000 m" unit="mmol-N/m2/d" /> 347 <field id= "FASTN" long_name="Fast-sinking flux N" unit="mmol-N/m2/d" /> 348 <field id= "FASTSI" long_name="Fast-sinking flux Si" unit="mmol-Si/m2/d" /> 349 <field id= "FASTFE" long_name="Fast-sinking flux Fe" unit="mmol-Fe/m2/d" /> 350 <field id= "FASTC" long_name="Fast-sinking flux C" unit="mmol-C/m2/d" /> 351 <field id= "FASTCA" long_name="Fast-sinking flux CaCO3" unit="mmol-C/m2/d" /> 352 <field id= "FDT__100" long_name="Fast detrital N flux at 100 m" unit="mmol-N/m2/d" /> 353 <field id= "FDT__200" long_name="Fast detrital N flux at 200 m" unit="mmol-N/m2/d" /> 354 <field id= "FDT__500" long_name="Fast detrital N flux at 500 m" unit="mmol-N/m2/d" /> 355 <field id= "FDT_1000" long_name="Fast detrital N flux at 1000 m" unit="mmol-N/m2/d" /> 356 <field id= "RG__100F" long_name="Regenerated fast N to 100 m" unit="mmol-N/m2/d" /> 357 <field id= "RG__200F" long_name="Regenerated fast N to 200 m" unit="mmol-N/m2/d" /> 358 <field id= "RG__500F" long_name="Regenerated fast N to 500 m" unit="mmol-N/m2/d" /> 359 <field id= "RG_1000F" long_name="Regenerated fast N to 1000 m" unit="mmol-N/m2/d" /> 360 <field id= "FDS__100" long_name="Fast detrital Si flux at 100 m" unit="mmol-Si/m2/d" /> 361 <field id= "FDS__200" long_name="Fast detrital Si flux at 200 m" unit="mmol-Si/m2/d" /> 362 <field id= "FDS__500" long_name="Fast detrital Si flux at 500 m" unit="mmol-Si/m2/d" /> 363 <field id= "FDS_1000" long_name="Fast detrital Si flux at 1000 m" unit="mmol-Si/m2/d" /> 364 <field id= "RGS_100F" long_name="Regenerated fast Si to 100 m" unit="mmol-Si/m2/d" /> 365 <field id= "RGS_200F" long_name="Regenerated fast Si to 200 m" unit="mmol-Si/m2/d" /> 366 <field id= "RGS_500F" long_name="Regenerated fast Si to 500 m" unit="mmol-Si/m2/d" /> 367 <field id= "RGS1000F" long_name="Regenerated fast Si to 1000 m" unit="mmol-Si/m2/d" /> 368 <field id= "REMINN" long_name="Fast-sinking remin flux N" unit="mmol-N/m2/d" /> 369 <field id= "REMINSI" long_name="Fast-sinking remin flux Si" unit="mmol-Si/m2/d" /> 370 <field id= "REMINFE" long_name="Fast-sinking remin flux Fe" unit="mmol-Fe/m2/d" /> 371 <field id= "REMINC" long_name="Fast-sinking remin flux C" unit="mmol-C/m2/d" /> 372 <field id= "REMINCA" long_name="Fast-sinking remin flux CaCO3" unit="mmol-C/m2/d" /> 373 <field id= "SEAFLRN" long_name="Seafloor flux of N" unit="mmol-N/m2/d" /> 374 <field id= "SEAFLRSI" long_name="Seafloor flux of Si" unit="mmol-Si/m2/d" /> 375 <field id= "SEAFLRFE" long_name="Seafloor flux of Fe" unit="mmol-Fe/m2/d" /> 376 <field id= "SEAFLRC" long_name="Seafloor flux of C" unit="mmol-C/m2/d" /> 377 <field id= "SEAFLRCA" long_name="Seafloor flux of CaCO3" unit="mmol-C/m2/d" /> 365 378 <field id= "MED_QSR" long_name="Sea surface radiation" unit="W/m2" /> 366 379 <field id= "MED_XPAR" long_name="Top level radiation" unit="W/m2" /> 367 <field id= "INTFLX_N" long_name="Integrated N cycle fluxes" unit="mmol N/m2/d" />368 <field id= "INTFLX_SI" long_name="Integrated Si cycle fluxes" unit="mmol Si/m2/d" />369 <field id= "INTFLX_FE" long_name="Integrated Fe cycle fluxes" unit="mmol Fe/m2/d" />370 <field id= "INT_PN" long_name="Vertically integrated Pn" unit="mmol N/m2" />371 <field id= "INT_PD" long_name="Vertically integrated Pd" unit="mmol N/m2" />372 <field id= "ML_PRN" long_name="Non-diatom mixed layer PP" unit="mmol N/m2/d" />373 <field id= "ML_PRD" long_name="Diatom mixed layer PP" unit="mmol N/m2/d" />380 <field id= "INTFLX_N" long_name="Integrated N cycle fluxes" unit="mmol-N/m2/d" /> 381 <field id= "INTFLX_SI" long_name="Integrated Si cycle fluxes" unit="mmol-Si/m2/d" /> 382 <field id= "INTFLX_FE" long_name="Integrated Fe cycle fluxes" unit="mmol-Fe/m2/d" /> 383 <field id= "INT_PN" long_name="Vertically integrated Pn" unit="mmol-N/m2" /> 384 <field id= "INT_PD" long_name="Vertically integrated Pd" unit="mmol-N/m2" /> 385 <field id= "ML_PRN" long_name="Non-diatom mixed layer PP" unit="mmol-N/m2/d" /> 386 <field id= "ML_PRD" long_name="Diatom mixed layer PP" unit="mmol-N/m2/d" /> 374 387 <field id= "OCAL_CCD" long_name="Calcite CCD depth" unit="m" /> 375 388 <field id= "OCAL_LVL" long_name="Calcite CCD level" unit="-" /> … … 384 397 <field id= "OCN_PH" long_name="Surface ocean pH" unit="-" /> 385 398 <field id= "OCN_PCO2" long_name="Surface ocean pCO2" unit="uatm" /> 386 <field id= "OCNH2CO3" long_name="Surface ocean H2CO3 conc" unit="mmol C/m3" />387 <field id= "OCN_HCO3" long_name="Surface ocean HCO3 conc" unit="mmol C/m3" />388 <field id= "OCN_CO3" long_name="Surface ocean CO3 conc" unit="mmol C/m3" />389 <field id= "CO2FLUX" long_name="Air-sea CO2 flux" unit="mmol C/m2/d" />399 <field id= "OCNH2CO3" long_name="Surface ocean H2CO3 conc" unit="mmol-C/m3" /> 400 <field id= "OCN_HCO3" long_name="Surface ocean HCO3 conc" unit="mmol-C/m3" /> 401 <field id= "OCN_CO3" long_name="Surface ocean CO3 conc" unit="mmol-C/m3" /> 402 <field id= "CO2FLUX" long_name="Air-sea CO2 flux" unit="mmol-C/m2/d" /> 390 403 <field id= "FGCO2" long_name="Surface Downward CO2 Flux" unit="kg-CO2/m2/s" /> 391 404 <field id= "OM_CAL" long_name="Omega calcite" unit="-" /> … … 395 408 <field id= "KW660" long_name="Piston velocity" unit="m/s" /> 396 409 <field id= "ATM_PP0" long_name="Atmospheric pressure" unit="atm" /> 397 <field id= "O2FLUX" long_name="Air-sea O2 flux" unit="mmol O2/m2/d" />398 <field id= "O2SAT" long_name="Surface ocean O2 saturation" unit="mmol O2/m3" />410 <field id= "O2FLUX" long_name="Air-sea O2 flux" unit="mmol-O2/m2/d" /> 411 <field id= "O2SAT" long_name="Surface ocean O2 saturation" unit="mmol-O2/m3" /> 399 412 <field id= "CAL_CCD" long_name="Calcite CCD depth" unit="m" /> 400 413 <field id= "ARG_CCD" long_name="Aragonite CCD depth" unit="m" /> 401 414 <field id= "SFR_OCAL" long_name="Seafloor omega calcite" unit="-" /> 402 415 <field id= "SFR_OARG" long_name="Seafloor omega aragonite" unit="-" /> 403 <field id= "N_PROD" long_name="Nitrogen production" unit="mmol N/m2/d" />404 <field id= "N_CONS" long_name="Nitrogen consumption" unit="mmol N/m2/d" />405 <field id= "C_PROD" long_name="Carbon production" unit="mmol C/m2/d" />406 <field id= "C_CONS" long_name="Carbon consumption" unit="mmol C/m2/d" />407 <field id= "O2_PROD" long_name="Oxygen production" unit="mmol O2/m2/d" />408 <field id= "O2_CONS" long_name="Oxygen consumption" unit="mmol O2/m2/d" />409 <field id= "O2_ANOX" long_name="Unrealised oxygen consumption" unit="mmol O2/m2/d" />416 <field id= "N_PROD" long_name="Nitrogen production" unit="mmol-N/m2/d" /> 417 <field id= "N_CONS" long_name="Nitrogen consumption" unit="mmol-N/m2/d" /> 418 <field id= "C_PROD" long_name="Carbon production" unit="mmol-C/m2/d" /> 419 <field id= "C_CONS" long_name="Carbon consumption" unit="mmol-C/m2/d" /> 420 <field id= "O2_PROD" long_name="Oxygen production" unit="mmol-O2/m2/d" /> 421 <field id= "O2_CONS" long_name="Oxygen consumption" unit="mmol-O2/m2/d" /> 422 <field id= "O2_ANOX" long_name="Unrealised oxygen consumption" unit="mmol-O2/m2/d" /> 410 423 <field id= "RR_0100" long_name="Rain ratio at 100m" unit="molC/molC" /> 411 424 <field id= "RR_0500" long_name="Rain ratio at 500m" unit="molC/molC" /> 412 425 <field id= "RR_1000" long_name="Rain ratio at 1000m" unit="molC/molC" /> 413 <field id= "IBEN_N" long_name="Benthic input nitrogen" unit="mmol N/m2/d" />414 <field id= "IBEN_FE" long_name="Benthic input iron" unit="mmol Fe/m2/d" />415 <field id= "IBEN_C" long_name="Benthic input carbon" unit="mmol C/m2/d" />416 <field id= "IBEN_SI" long_name="Benthic input silicon" unit="mmol Si/m2/d" />417 <field id= "IBEN_CA" long_name="Benthic input CaCO3" unit="mmol C/m2/d" />418 <field id= "OBEN_N" long_name="Benthic output nitrogen" unit="mmol N/m2/d" />419 <field id= "OBEN_FE" long_name="Benthic output iron" unit="mmol Fe/m2/d" />420 <field id= "OBEN_C" long_name="Benthic output carbon" unit="mmol C/m2/d" />421 <field id= "OBEN_SI" long_name="Benthic output silicon" unit="mmol Si/m2/d" />422 <field id= "OBEN_CA" long_name="Benthic output CaCO3" unit="mmol C/m2/d" />423 <field id= "BEN_N" long_name="Benthic nitrogen" unit="mmol N/m2" />424 <field id= "BEN_FE" long_name="Benthic iron" unit="mmol Fe/m2" />425 <field id= "BEN_C" long_name="Benthic carbon" unit="mmol C/m2" />426 <field id= "BEN_SI" long_name="Benthic silicon" unit="mmol Si/m2" />427 <field id= "BEN_CA" long_name="Benthic CaCO3" unit="mmol C/m2" />426 <field id= "IBEN_N" long_name="Benthic input nitrogen" unit="mmol-N/m2/d" /> 427 <field id= "IBEN_FE" long_name="Benthic input iron" unit="mmol-Fe/m2/d" /> 428 <field id= "IBEN_C" long_name="Benthic input carbon" unit="mmol-C/m2/d" /> 429 <field id= "IBEN_SI" long_name="Benthic input silicon" unit="mmol-Si/m2/d" /> 430 <field id= "IBEN_CA" long_name="Benthic input CaCO3" unit="mmol-C/m2/d" /> 431 <field id= "OBEN_N" long_name="Benthic output nitrogen" unit="mmol-N/m2/d" /> 432 <field id= "OBEN_FE" long_name="Benthic output iron" unit="mmol-Fe/m2/d" /> 433 <field id= "OBEN_C" long_name="Benthic output carbon" unit="mmol-C/m2/d" /> 434 <field id= "OBEN_SI" long_name="Benthic output silicon" unit="mmol-Si/m2/d" /> 435 <field id= "OBEN_CA" long_name="Benthic output CaCO3" unit="mmol-C/m2/d" /> 436 <field id= "BEN_N" long_name="Benthic nitrogen" unit="mmol-N/m2" /> 437 <field id= "BEN_FE" long_name="Benthic iron" unit="mmol-Fe/m2" /> 438 <field id= "BEN_C" long_name="Benthic carbon" unit="mmol-C/m2" /> 439 <field id= "BEN_SI" long_name="Benthic silicon" unit="mmol-Si/m2" /> 440 <field id= "BEN_CA" long_name="Benthic CaCO3" unit="mmol-C/m2" /> 428 441 <field id= "RUNOFF" long_name="River runoff" unit="m/d" /> 429 <field id= "RIV_N" long_name="Riverine input nitrogen" unit="mmol N/m2/d" />430 <field id= "RIV_SI" long_name="Riverine input silicon" unit="mmol Si/m2/d" />431 <field id= "RIV_C" long_name="Riverine input carbon" unit="mmol Si/m2/d" />442 <field id= "RIV_N" long_name="Riverine input nitrogen" unit="mmol-N/m2/d" /> 443 <field id= "RIV_SI" long_name="Riverine input silicon" unit="mmol-Si/m2/d" /> 444 <field id= "RIV_C" long_name="Riverine input carbon" unit="mmol-Si/m2/d" /> 432 445 <field id= "RIV_ALK" long_name="Riverine input alkalinity" unit="meq/m2/d" /> 433 <field id= "DETC" long_name="Slow detritus C creation" unit="mmol C/m2/d" />434 <field id= "SDC__100" long_name="Slow detrital C flux at 100 m" unit="mmol C/m2/d" />435 <field id= "SDC__200" long_name="Slow detrital C flux at 200 m" unit="mmol C/m2/d" />436 <field id= "SDC__500" long_name="Slow detrital C flux at 500 m" unit="mmol C/m2/d" />437 <field id= "SDC_1000" long_name="Slow detrital C flux at 1000 m" unit="mmol C/m2/d" />438 <field id= "INVTC" long_name="Column C inventory" unit="mmol C/m2" />446 <field id= "DETC" long_name="Slow detritus C creation" unit="mmol-C/m2/d" /> 447 <field id= "SDC__100" long_name="Slow detrital C flux at 100 m" unit="mmol-C/m2/d" /> 448 <field id= "SDC__200" long_name="Slow detrital C flux at 200 m" unit="mmol-C/m2/d" /> 449 <field id= "SDC__500" long_name="Slow detrital C flux at 500 m" unit="mmol-C/m2/d" /> 450 <field id= "SDC_1000" long_name="Slow detrital C flux at 1000 m" unit="mmol-C/m2/d" /> 451 <field id= "INVTC" long_name="Column C inventory" unit="mmol-C/m2" /> 439 452 <field id= "INVTALK" long_name="Column alkalinity inventory" unit="meq/m2" /> 440 <field id= "INVTO2" long_name="Column O2 inventory" unit="mmol O2/m2" />441 <field id= "LYSO_CA" long_name="Incorrect benthic output CaCO3" unit="mmol C/m2/d" />442 <field id= "COM_RESP" long_name="Community respiration" unit="mmol C/m2/d" />443 <field id= "PN_LLOSS" long_name="Non-diatom linear losses" unit="mmol N/m2/d" />444 <field id= "PD_LLOSS" long_name="Diatom linear losses" unit="mmol N/m2/d" />445 <field id= "ZI_LLOSS" long_name="Microzooplankton linear losses" unit="mmol N/m2/d" />446 <field id= "ZE_LLOSS" long_name="Mesozooplankton linear losses" unit="mmol N/m2/d" />447 <field id= "ZI_MES_N" long_name="Microzoo messy feeding loss to N" unit="mmol N/m2/d" />448 <field id= "ZI_MES_D" long_name="Microzoo messy feeding loss to D" unit="mmol N/m2/d" />449 <field id= "ZI_MES_C" long_name="Microzoo messy feeding loss to C" unit="mmol C/m2/d" />450 <field id= "ZI_MESDC" long_name="Microzoo messy feeding loss to Dc" unit="mmol C/m2/d" />451 <field id= "ZI_EXCR" long_name="Microzoo excretion" unit="mmol N/m2/d" />452 <field id= "ZI_RESP" long_name="Microzoo respiration" unit="mmol C/m2/d" />453 <field id= "ZI_GROW" long_name="Microzoo growth" unit="mmol N/m2/d" />454 <field id= "ZE_MES_N" long_name="Mesozoo messy feeding loss to N" unit="mmol N/m2/d" />455 <field id= "ZE_MES_D" long_name="Mesozoo messy feeding loss to D" unit="mmol N/m2/d" />456 <field id= "ZE_MES_C" long_name="Mesozoo messy feeding loss to C" unit="mmol C/m2/d" />457 <field id= "ZE_MESDC" long_name="Mesozoo messy feeding loss to Dc" unit="mmol C/m2/d" />458 <field id= "ZE_EXCR" long_name="Mesozoo excretion" unit="mmol N/m2/d" />459 <field id= "ZE_RESP" long_name="Mesozoo respiration" unit="mmol C/m2/d" />460 <field id= "ZE_GROW" long_name="Mesozoo growth" unit="mmol N/m2/d" />461 <field id= "MDETC" long_name="Detritus non-grazing losses, carbon" unit="mmol C/m2/d" />462 <field id= "GMIDC" long_name="Microzoo grazing on detritus, carbon" unit="mmol C/m2/d" />463 <field id= "GMEDC" long_name="Mesozoo grazing on detritus, carbon" unit="mmol C/m2/d" />464 <field id= "INT_ZMI" long_name="Vertically integrated Zmi" unit="mmol N/m2" />465 <field id= "INT_ZME" long_name="Vertically integrated Zme" unit="mmol N/m2" />466 <field id= "INT_DET" long_name="Vertically integrated Det" unit="mmol N/m2" />467 <field id= "INT_DTC" long_name="Vertically integrated Dtc" unit="mmol C/m2" />453 <field id= "INVTO2" long_name="Column O2 inventory" unit="mmol-O2/m2" /> 454 <field id= "LYSO_CA" long_name="Incorrect benthic output CaCO3" unit="mmol-C/m2/d" /> 455 <field id= "COM_RESP" long_name="Community respiration" unit="mmol-C/m2/d" /> 456 <field id= "PN_LLOSS" long_name="Non-diatom linear losses" unit="mmol-N/m2/d" /> 457 <field id= "PD_LLOSS" long_name="Diatom linear losses" unit="mmol-N/m2/d" /> 458 <field id= "ZI_LLOSS" long_name="Microzooplankton linear losses" unit="mmol-N/m2/d" /> 459 <field id= "ZE_LLOSS" long_name="Mesozooplankton linear losses" unit="mmol-N/m2/d" /> 460 <field id= "ZI_MES_N" long_name="Microzoo messy feeding loss to N" unit="mmol-N/m2/d" /> 461 <field id= "ZI_MES_D" long_name="Microzoo messy feeding loss to D" unit="mmol-N/m2/d" /> 462 <field id= "ZI_MES_C" long_name="Microzoo messy feeding loss to C" unit="mmol-C/m2/d" /> 463 <field id= "ZI_MESDC" long_name="Microzoo messy feeding loss to Dc" unit="mmol-C/m2/d" /> 464 <field id= "ZI_EXCR" long_name="Microzoo excretion" unit="mmol-N/m2/d" /> 465 <field id= "ZI_RESP" long_name="Microzoo respiration" unit="mmol-C/m2/d" /> 466 <field id= "ZI_GROW" long_name="Microzoo growth" unit="mmol-N/m2/d" /> 467 <field id= "ZE_MES_N" long_name="Mesozoo messy feeding loss to N" unit="mmol-N/m2/d" /> 468 <field id= "ZE_MES_D" long_name="Mesozoo messy feeding loss to D" unit="mmol-N/m2/d" /> 469 <field id= "ZE_MES_C" long_name="Mesozoo messy feeding loss to C" unit="mmol-C/m2/d" /> 470 <field id= "ZE_MESDC" long_name="Mesozoo messy feeding loss to Dc" unit="mmol-C/m2/d" /> 471 <field id= "ZE_EXCR" long_name="Mesozoo excretion" unit="mmol-N/m2/d" /> 472 <field id= "ZE_RESP" long_name="Mesozoo respiration" unit="mmol-C/m2/d" /> 473 <field id= "ZE_GROW" long_name="Mesozoo growth" unit="mmol-N/m2/d" /> 474 <field id= "MDETC" long_name="Detritus non-grazing losses, carbon" unit="mmol-C/m2/d" /> 475 <field id= "GMIDC" long_name="Microzoo grazing on detritus, carbon" unit="mmol-C/m2/d" /> 476 <field id= "GMEDC" long_name="Mesozoo grazing on detritus, carbon" unit="mmol-C/m2/d" /> 477 <field id= "INT_ZMI" long_name="Vertically integrated Zmi" unit="mmol-N/m2" /> 478 <field id= "INT_ZME" long_name="Vertically integrated Zme" unit="mmol-N/m2" /> 479 <field id= "INT_DET" long_name="Vertically integrated Det" unit="mmol-N/m2" /> 480 <field id= "INT_DTC" long_name="Vertically integrated Dtc" unit="mmol-C/m2" /> 468 481 <field id= "DMS_SURF" long_name="DMS Surface Concentration" unit="nmol/L" /> 469 482 <field id= "DMS_ANDR" long_name="DMS Surface Concentration, Anderson" unit="nmol/L" /> … … 472 485 <field id= "DMS_HALL" long_name="DMS Surface Concentration, Halloran" unit="nmol/L" /> 473 486 <field id= "DMS_ANDM" long_name="DMS Surface Concentration, Anderson modif" unit="nmol/L" /> 474 <field id= "CHL_MLD" long_name="MLD averaged Chlorophyll" unit="mg 487 <field id= "CHL_MLD" long_name="MLD averaged Chlorophyll" unit="mg-Chl/m3" /> 475 488 <field id= "CHL_CPL" long_name="Scaled Surf or MLD Chlorophyll to UM" unit="kg Chl/m3" /> 476 489 <field id= "ATM_XCO2" long_name="Atmospheric xCO2" unit="ppm" /> … … 486 499 487 500 <!-- AXY (08/11/16): add new 2D CMIP6 diagnostics --> 488 <field id= "epC100" long_name="Downward Flux of Particle Organic Carbon" unit="mmol C/m2/d" />489 <field id= "epCALC100" long_name="Downward Flux of Calcite" unit="mmol C/m2/d" />490 <field id= "epN100" long_name="Downward Flux of Particulate Nitrogen" unit="mmol N/m2/d" />491 <field id= "epSI100" long_name="Downward Flux of Particulate Silica" unit="mmol Si/m2/d" />492 <field id= "INTDISSIC" long_name="Dissolved Inorganic Carbon Content" unit="mmol C/m2" />493 <field id= "INTDISSIN" long_name="Dissolved Inorganic Nitrogen Content" unit="mmol N/m2" />494 <field id= "INTDISSISI" long_name="Dissolved Inorganic Silicon Content" unit="mmol Si/m2" />501 <field id= "epC100" long_name="Downward Flux of Particle Organic Carbon" unit="mmol-C/m2/d" /> 502 <field id= "epCALC100" long_name="Downward Flux of Calcite" unit="mmol-C/m2/d" /> 503 <field id= "epN100" long_name="Downward Flux of Particulate Nitrogen" unit="mmol-N/m2/d" /> 504 <field id= "epSI100" long_name="Downward Flux of Particulate Silica" unit="mmol-Si/m2/d" /> 505 <field id= "INTDISSIC" long_name="Dissolved Inorganic Carbon Content" unit="mmol-C/m2" /> 506 <field id= "INTDISSIN" long_name="Dissolved Inorganic Nitrogen Content" unit="mmol-N/m2" /> 507 <field id= "INTDISSISI" long_name="Dissolved Inorganic Silicon Content" unit="mmol-Si/m2" /> 495 508 <field id= "INTTALK" long_name="Dissolved Alkalinity Content" unit="meq/m2" /> 496 <field id= "O2min" long_name="Oxygen Minimum Concentration" unit="mmol O2/m3" />509 <field id= "O2min" long_name="Oxygen Minimum Concentration" unit="mmol-O2/m3" /> 497 510 <field id= "ZO2min" long_name="Depth of Oxygen Minimum Concentration" unit="m" /> 498 511 <field id= "FBDDTALK" long_name="Int. change of Alkalinity due to Biology" unit="meq/m2/d" /> 499 <field id= "FBDDTDIC" long_name="Int. change of DI Carbon due to Biology" unit="mmol C/m2/d" />500 <field id= "FBDDTDIFE" long_name="Int. change of DI Iron due to Biology" unit="mmol Fe/m2/d" />501 <field id= "FBDDTDIN" long_name="Int. change of DI Nitrogen due to Biology" unit="mmol N/m2/d" />502 <field id= "FBDDTDISI" long_name="Int. change of DI Silicon due to Biology" unit="mmol Si/m2/d" />512 <field id= "FBDDTDIC" long_name="Int. change of DI Carbon due to Biology" unit="mmol-C/m2/d" /> 513 <field id= "FBDDTDIFE" long_name="Int. change of DI Iron due to Biology" unit="mmol-Fe/m2/d" /> 514 <field id= "FBDDTDIN" long_name="Int. change of DI Nitrogen due to Biology" unit="mmol-N/m2/d" /> 515 <field id= "FBDDTDISI" long_name="Int. change of DI Silicon due to Biology" unit="mmol-Si/m2/d" /> 503 516 504 517 505 518 <!-- MEDUSA 3D diagnostics --> 506 <field id= "TPP3" long_name="Total primary production 3D" unit="mmol N/m3/d" grid_ref="grid_T_3D" />507 <field id= "DETFLUX3" long_name="Total detrital flux 3D" unit="mmol N/m3/d" grid_ref="grid_T_3D" />508 <field id= "REMIN3N" long_name="Total remin flux N 3D" unit="mmol N/m3/d" grid_ref="grid_T_3D" />519 <field id= "TPP3" long_name="Total primary production 3D" unit="mmol-N/m3/d" grid_ref="grid_T_3D" /> 520 <field id= "DETFLUX3" long_name="Total detrital flux 3D" unit="mmol-N/m3/d" grid_ref="grid_T_3D" /> 521 <field id= "REMIN3N" long_name="Total remin flux N 3D" unit="mmol-N/m3/d" grid_ref="grid_T_3D" /> 509 522 <field id= "PH3" long_name="Ocean pH 3D" unit="-" grid_ref="grid_T_3D" /> 510 523 <field id= "OM_CAL3" long_name="Omega calcite 3D" unit="-" grid_ref="grid_T_3D" /> 511 524 512 525 <!-- AXY (08/11/16): add new 3D CMIP6 diagnostics --> 513 <field id= "TPPD3" long_name="Diatom primary production 3D" unit="mmol N/m3/d" grid_ref="grid_T_3D" />526 <field id= "TPPD3" long_name="Diatom primary production 3D" unit="mmol-N/m3/d" grid_ref="grid_T_3D" /> 514 527 <field id= "BDDTALK3" long_name="Change of Alkalinity due to Biology" unit="meq/m3/d" grid_ref="grid_T_3D" /> 515 <field id= "BDDTDIC3" long_name="Change of DI Carbon due to Biology" unit="mmol C/m3/d" grid_ref="grid_T_3D" />516 <field id= "BDDTDIFE3" long_name="Change of DI Iron due to Biology" unit="mmol Fe/m3/d" grid_ref="grid_T_3D" />517 <field id= "BDDTDIN3" long_name="Change of DI Nitrogen due to Biology" unit="mmol N/m3/d" grid_ref="grid_T_3D" />518 <field id= "BDDTDISI3" long_name="Change of DI Silicon due to Biology" unit="mmol Si/m3/d" grid_ref="grid_T_3D" />519 <field id= "FD_NIT3" long_name="Fast sinking detrital nitrogen" unit="mmol N/m2/d" grid_ref="grid_T_3D" />520 <field id= "FD_SIL3" long_name="Fast sinking detrital silicon" unit="mmol Si/m2/d" grid_ref="grid_T_3D" />521 <field id= "FD_CAR3" long_name="Fast sinking detrital carbon" unit="mmol C/m2/d" grid_ref="grid_T_3D" />522 <field id= "FD_CAL3" long_name="Fast sinking detrital calcium carbonate" unit="mmol C/m2/d" grid_ref="grid_T_3D" />523 <field id= "CO33" long_name="Carbonate ion concentration" unit="mmol C/m3" grid_ref="grid_T_3D" />524 <field id= "CO3SATARAG3" long_name="Carbonate aragonite saturation conc" unit="mmol C/m3" grid_ref="grid_T_3D" />525 <field id= "CO3SATCALC3" long_name="Carbonate calcite saturation conc" unit="mmol C/m3" grid_ref="grid_T_3D" />526 <field id= "DCALC3" long_name="Calcite dissolution" unit="mmol C/m3/d" grid_ref="grid_T_3D" />527 <field id= "EXPC3" long_name="Downward Flux of Particulate Org Carbon" unit="mmol C/m3/d" grid_ref="grid_T_3D" />528 <field id= "EXPN3" long_name="Downward Flux of Particulate Org Nitrogen" unit="mmol N/m3/d" grid_ref="grid_T_3D" />529 <field id= "FEDISS3" long_name="Particle Source of Dissolved Iron" unit="mmol Fe/m3/d" grid_ref="grid_T_3D" />530 <field id= "FESCAV3" long_name="Nonbiogenic Iron Scavenging" unit="mmol Fe/m3/d" grid_ref="grid_T_3D" />531 <field id= "MIGRAZP3" long_name="Microzooplankton grazing on phytoplankton" unit="mmol C/m3/d" grid_ref="grid_T_3D" />532 <field id= "MIGRAZD3" long_name="Microzooplankton grazing on detritus" unit="mmol C/m3/d" grid_ref="grid_T_3D" />533 <field id= "MEGRAZP3" long_name="Mesozooplankton grazing on phytoplankton" unit="mmol C/m3/d" grid_ref="grid_T_3D" />534 <field id= "MEGRAZD3" long_name="Mesozooplankton grazing on detritus" unit="mmol C/m3/d" grid_ref="grid_T_3D" />535 <field id= "MEGRAZZ3" long_name="Mesozooplankton grazing on microzoop" unit="mmol C/m3/d" grid_ref="grid_T_3D" />536 <field id= "O2SAT3" long_name="Dissolved Oxygen Saturation Concentration" unit="mmol O2/m3" grid_ref="grid_T_3D" />537 <field id= "PBSI3" long_name="Biogenic Silica Production" unit="mmol Si/m3/d" grid_ref="grid_T_3D" />538 <field id= "PCAL3" long_name="Biogenic Calcite Production" unit="mmol C/m3/d" grid_ref="grid_T_3D" />539 <field id= "REMOC3" long_name="Remineralization of Organic Carbon" unit="mmol C/m3/d" grid_ref="grid_T_3D" />528 <field id= "BDDTDIC3" long_name="Change of DI Carbon due to Biology" unit="mmol-C/m3/d" grid_ref="grid_T_3D" /> 529 <field id= "BDDTDIFE3" long_name="Change of DI Iron due to Biology" unit="mmol-Fe/m3/d" grid_ref="grid_T_3D" /> 530 <field id= "BDDTDIN3" long_name="Change of DI Nitrogen due to Biology" unit="mmol-N/m3/d" grid_ref="grid_T_3D" /> 531 <field id= "BDDTDISI3" long_name="Change of DI Silicon due to Biology" unit="mmol-Si/m3/d" grid_ref="grid_T_3D" /> 532 <field id= "FD_NIT3" long_name="Fast sinking detrital nitrogen" unit="mmol-N/m2/d" grid_ref="grid_T_3D" /> 533 <field id= "FD_SIL3" long_name="Fast sinking detrital silicon" unit="mmol-Si/m2/d" grid_ref="grid_T_3D" /> 534 <field id= "FD_CAR3" long_name="Fast sinking detrital carbon" unit="mmol-C/m2/d" grid_ref="grid_T_3D" /> 535 <field id= "FD_CAL3" long_name="Fast sinking detrital calcium carbonate" unit="mmol-C/m2/d" grid_ref="grid_T_3D" /> 536 <field id= "CO33" long_name="Carbonate ion concentration" unit="mmol-C/m3" grid_ref="grid_T_3D" /> 537 <field id= "CO3SATARAG3" long_name="Carbonate aragonite saturation conc" unit="mmol-C/m3" grid_ref="grid_T_3D" /> 538 <field id= "CO3SATCALC3" long_name="Carbonate calcite saturation conc" unit="mmol-C/m3" grid_ref="grid_T_3D" /> 539 <field id= "DCALC3" long_name="Calcite dissolution" unit="mmol-C/m3/d" grid_ref="grid_T_3D" /> 540 <field id= "EXPC3" long_name="Downward Flux of Particulate Org Carbon" unit="mmol-C/m3/d" grid_ref="grid_T_3D" /> 541 <field id= "EXPN3" long_name="Downward Flux of Particulate Org Nitrogen" unit="mmol-N/m3/d" grid_ref="grid_T_3D" /> 542 <field id= "FEDISS3" long_name="Particle Source of Dissolved Iron" unit="mmol-Fe/m3/d" grid_ref="grid_T_3D" /> 543 <field id= "FESCAV3" long_name="Nonbiogenic Iron Scavenging" unit="mmol-Fe/m3/d" grid_ref="grid_T_3D" /> 544 <field id= "MIGRAZP3" long_name="Microzooplankton grazing on phytoplankton" unit="mmol-C/m3/d" grid_ref="grid_T_3D" /> 545 <field id= "MIGRAZD3" long_name="Microzooplankton grazing on detritus" unit="mmol-C/m3/d" grid_ref="grid_T_3D" /> 546 <field id= "MEGRAZP3" long_name="Mesozooplankton grazing on phytoplankton" unit="mmol-C/m3/d" grid_ref="grid_T_3D" /> 547 <field id= "MEGRAZD3" long_name="Mesozooplankton grazing on detritus" unit="mmol-C/m3/d" grid_ref="grid_T_3D" /> 548 <field id= "MEGRAZZ3" long_name="Mesozooplankton grazing on microzoop" unit="mmol-C/m3/d" grid_ref="grid_T_3D" /> 549 <field id= "O2SAT3" long_name="Dissolved Oxygen Saturation Concentration" unit="mmol-O2/m3" grid_ref="grid_T_3D" /> 550 <field id= "PBSI3" long_name="Biogenic Silica Production" unit="mmol-Si/m3/d" grid_ref="grid_T_3D" /> 551 <field id= "PCAL3" long_name="Biogenic Calcite Production" unit="mmol-C/m3/d" grid_ref="grid_T_3D" /> 552 <field id= "REMOC3" long_name="Remineralization of Organic Carbon" unit="mmol-C/m3/d" grid_ref="grid_T_3D" /> 540 553 <field id= "PNLIMJ3" long_name="Irradiance limitation of non-diatoms" unit="-" grid_ref="grid_T_3D" /> 541 554 <field id= "PNLIMN3" long_name="Nitrogen limitation of non-diatoms" unit="-" grid_ref="grid_T_3D" /> … … 552 565 <!-- MEDUSA : variables available with key_medusa --> 553 566 <!-- trd case: jptra_atf --> 554 <field id="ATF_CHN" long_name="Non-diatom Chl-a Asselin Filter Trend" unit="mg 555 <field id="ATF_CHN_E3T" long_name="ATF_CHN * E3T" unit="mg 556 <field id="ATF_CHN_INV" field_ref="ATF_CHN_E3T" long_name="ATF_CHN Inventory" unit="mg 557 <field id="ATF_CHD" long_name="Diatom Chl-a Asselin Filter Trend" unit="mg 558 <field id="ATF_CHD_E3T" long_name="ATF_CHD * E3T" unit="mg 559 <field id="ATF_CHD_INV" field_ref="ATF_CHD_E3T" long_name="ATF_CHD Inventory" unit="mg 567 <field id="ATF_CHN" long_name="Non-diatom Chl-a Asselin Filter Trend" unit="mg-Chl/m3/s" /> 568 <field id="ATF_CHN_E3T" long_name="ATF_CHN * E3T" unit="mg-Chl/m2/s" > ATF_CHN * e3t </field> 569 <field id="ATF_CHN_INV" field_ref="ATF_CHN_E3T" long_name="ATF_CHN Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 570 <field id="ATF_CHD" long_name="Diatom Chl-a Asselin Filter Trend" unit="mg-Chl/m3/s" /> 571 <field id="ATF_CHD_E3T" long_name="ATF_CHD * E3T" unit="mg-Chl/m2/s" > ATF_CHD * e3t </field> 572 <field id="ATF_CHD_INV" field_ref="ATF_CHD_E3T" long_name="ATF_CHD Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 560 573 <field id="ATF_PHN" long_name="non-diatom phytoplankton Asselin Filter Trend" unit="mmol-N/m3/s" /> 561 574 <field id="ATF_PHN_E3T" long_name="ATF_PHN * E3T" unit="mmol-N/m2/s" > ATF_PHN * e3t </field> … … 573 586 <field id="ATF_DIN_E3T" long_name="ATF_DIN * E3T" unit="mmol-N/m2/s" > ATF_DIN * e3t </field> 574 587 <field id="ATF_DIN_INV" field_ref="ATF_DIN_E3T" long_name="ATF_DIN Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 575 <field id="ATF_SIL" long_name="dissolved silicic acid Asselin Filter Trend" unit="mmol Si/m3/s" />576 <field id="ATF_SIL_E3T" long_name="ATF_SIL * E3T" unit="mmol Si/m2/s" > ATF_SIL * e3t </field>577 <field id="ATF_SIL_INV" field_ref="ATF_SIL_E3T" long_name="ATF_SIL Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />578 <field id="ATF_FER" long_name="dissolved iron Asselin Filter Trend" unit="mmol Fe/m3/s" />579 <field id="ATF_FER_E3T" long_name="ATF_FER * E3T" unit="mmol Fe/m2/s" > ATF_FER * e3t </field>580 <field id="ATF_FER_INV" field_ref="ATF_FER_E3T" long_name="ATF_FER Inventory" unit="mmol Fe/m2/s" grid_ref="vert_sum" />588 <field id="ATF_SIL" long_name="dissolved silicic acid Asselin Filter Trend" unit="mmol-Si/m3/s" /> 589 <field id="ATF_SIL_E3T" long_name="ATF_SIL * E3T" unit="mmol-Si/m2/s" > ATF_SIL * e3t </field> 590 <field id="ATF_SIL_INV" field_ref="ATF_SIL_E3T" long_name="ATF_SIL Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 591 <field id="ATF_FER" long_name="dissolved iron Asselin Filter Trend" unit="mmol-Fe/m3/s" /> 592 <field id="ATF_FER_E3T" long_name="ATF_FER * E3T" unit="mmol-Fe/m2/s" > ATF_FER * e3t </field> 593 <field id="ATF_FER_INV" field_ref="ATF_FER_E3T" long_name="ATF_FER Inventory" unit="mmol-Fe/m2/s" grid_ref="vert_sum" /> 581 594 <field id="ATF_DET" long_name="detrital nitrogen Asselin Filter Trend" unit="mmol-N/m3/s" /> 582 595 <field id="ATF_DET_E3T" long_name="ATF_DET * E3T" unit="mmol-N/m2/s" > ATF_DET * e3t </field> 583 596 <field id="ATF_DET_INV" field_ref="ATF_DET_E3T" long_name="ATF_DET Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 584 <field id="ATF_PDS" long_name="Diatoms biogenic silicon Asselin Filter Trend" unit="mmol Si/m3/s" />585 <field id="ATF_PDS_E3T" long_name="ATF_PDS * E3T" unit="mmol Si/m2/s" > ATF_PDS * e3t </field>586 <field id="ATF_PDS_INV" field_ref="ATF_PDS_E3T" long_name="ATF_PDS Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />597 <field id="ATF_PDS" long_name="Diatoms biogenic silicon Asselin Filter Trend" unit="mmol-Si/m3/s" /> 598 <field id="ATF_PDS_E3T" long_name="ATF_PDS * E3T" unit="mmol-Si/m2/s" > ATF_PDS * e3t </field> 599 <field id="ATF_PDS_INV" field_ref="ATF_PDS_E3T" long_name="ATF_PDS Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 587 600 <field id="ATF_DTC" long_name="detrital carbon Asselin Filter Trend" unit="mmol-C/m3/s" /> 588 601 <field id="ATF_DTC_E3T" long_name="ATF_DTC * E3T" unit="mmol-C/m2/s" > ATF_DTC * e3t </field> … … 594 607 <field id="ATF_ALK_E3T" long_name="ATF_ALK * E3T" unit="meq/m2/s" > ATF_ALK * e3t </field> 595 608 <field id="ATF_ALK_INV" field_ref="ATF_ALK_E3T" long_name="ATF_ALK Inventory" unit="meq/m2/s" grid_ref="vert_sum" /> 596 <field id="ATF_OXY" long_name="dissolved oxygen Asselin Filter Trend" unit="mmol O2/m3/s" />597 <field id="ATF_OXY_E3T" long_name="ATF_OXY * E3T" unit="mmol O2/m2/s" > ATF_OXY * e3t </field>598 <field id="ATF_OXY_INV" field_ref="ATF_OXY_E3T" long_name="ATF_OXY Inventory" unit="mmol O2/m2/s" grid_ref="vert_sum" />609 <field id="ATF_OXY" long_name="dissolved oxygen Asselin Filter Trend" unit="mmol-O2/m3/s" /> 610 <field id="ATF_OXY_E3T" long_name="ATF_OXY * E3T" unit="mmol-O2/m2/s" > ATF_OXY * e3t </field> 611 <field id="ATF_OXY_INV" field_ref="ATF_OXY_E3T" long_name="ATF_OXY Inventory" unit="mmol-O2/m2/s" grid_ref="vert_sum" /> 599 612 600 613 <!-- Ideal traceurs : variables available with key_idtra --> 601 614 <field id="ATF_IDTRA" long_name="Ideal traceur Asselin Filter Trend" unit="mmol/m3/s" /> 602 615 <field id="ATF_IDTRA_E3T" long_name="ATF_IDTRA * E3T" unit="mmol/m2/s" > ATF_IDTRA * e3t </field> 603 <field id="ATF_IDTRA_INV" field_ref="ATF_IDTRA_E3T" long_name="ATF_IDTRA Inventory" unit="mmol O2/m2/s" grid_ref="vert_sum" />616 <field id="ATF_IDTRA_INV" field_ref="ATF_IDTRA_E3T" long_name="ATF_IDTRA Inventory" unit="mmol-O2/m2/s" grid_ref="vert_sum" /> 604 617 605 618 <!-- CFC11 : variables available with key_cfc --> 606 619 <field id="ATF_CFC11" long_name="CFC11 Asselin Filter Trend" unit="umol/m3/s" /> 607 620 <field id="ATF_CFC11_E3T" long_name="ATF_CFC11 * E3T" unit="umol/m2/s" > ATF_CFC11 * e3t </field> 608 <field id="ATF_CFC11_INV" field_ref="ATF_CFC11_E3T" long_name="ATF_CFC11 Inventory" unit="mmol O2/m2/s" grid_ref="vert_sum" />621 <field id="ATF_CFC11_INV" field_ref="ATF_CFC11_E3T" long_name="ATF_CFC11 Inventory" unit="mmol-O2/m2/s" grid_ref="vert_sum" /> 609 622 610 623 <!-- CFC12 : variables available with key_cfc --> … … 624 637 625 638 <!-- AGE : variables available with key_age --> 626 <field id="ATF_Age" long_name="Sea Water Age Asselin Filter Trend" standard_name="sea_water_age_since_surface_contact"unit="yr/s" />627 <field id="ATF_Age_E3T" long_name="ATF_Age * E3T" unit="yr m/s" > ATF_Age * e3t </field>628 <field id="ATF_Age_INV" field_ref="ATF_Age_E3T" long_name="ATF_Age Inventory" unit="yr m/s" grid_ref="vert_sum" />639 <field id="ATF_Age" long_name="Sea Water Age Asselin Filter Trend" unit="yr/s" /> 640 <field id="ATF_Age_E3T" long_name="ATF_Age * E3T" unit="yr m/s" > ATF_Age * e3t </field> 641 <field id="ATF_Age_INV" field_ref="ATF_Age_E3T" long_name="ATF_Age Inventory" unit="yr m/s" grid_ref="vert_sum" /> 629 642 </field_group> 630 643 … … 633 646 <!-- MEDUSA : variables available with key_medusa --> 634 647 <!-- trd case: jptra_xad --> 635 <field id="XAD_CHN" long_name="Non-diatom Chl-a X-Advection Trend" unit="mg 636 <field id="XAD_CHN_E3T" long_name="XAD_CHN * E3T" unit="mg 637 <field id="XAD_CHN_INV" field_ref="XAD_CHN_E3T" long_name="XAD_CHN Inventory" unit="mg 638 <field id="XAD_CHD" long_name="Diatom Chl-a X-Advection Trend" unit="mg 639 <field id="XAD_CHD_E3T" long_name="XAD_CHD * E3T" unit="mg 640 <field id="XAD_CHD_INV" field_ref="XAD_CHD_E3T" long_name="XAD_CHD Inventory" unit="mg 648 <field id="XAD_CHN" long_name="Non-diatom Chl-a X-Advection Trend" unit="mg-Chl/m3/s" /> 649 <field id="XAD_CHN_E3T" long_name="XAD_CHN * E3T" unit="mg-Chl/m2/s" > XAD_CHN * e3t </field> 650 <field id="XAD_CHN_INV" field_ref="XAD_CHN_E3T" long_name="XAD_CHN Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 651 <field id="XAD_CHD" long_name="Diatom Chl-a X-Advection Trend" unit="mg-Chl/m3/s" /> 652 <field id="XAD_CHD_E3T" long_name="XAD_CHD * E3T" unit="mg-Chl/m2/s" > XAD_CHD * e3t </field> 653 <field id="XAD_CHD_INV" field_ref="XAD_CHD_E3T" long_name="XAD_CHD Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 641 654 <field id="XAD_PHN" long_name="non-diatom phytoplankton X-Advection Trend" unit="mmol-N/m3/s" /> 642 655 <field id="XAD_PHN_E3T" long_name="XAD_PHN * E3T" unit="mmol-N/m2/s" > XAD_PHN * e3t </field> … … 654 667 <field id="XAD_DIN_E3T" long_name="XAD_DIN * E3T" unit="mmol-N/m2/s" > XAD_DIN * e3t </field> 655 668 <field id="XAD_DIN_INV" field_ref="XAD_DIN_E3T" long_name="XAD_DIN Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 656 <field id="XAD_SIL" long_name="dissolved silicic acid X-Advection Trend" unit="mmol Si/m3/s" />657 <field id="XAD_SIL_E3T" long_name="XAD_SIL * E3T" unit="mmol Si/m2/s" > XAD_SIL * e3t </field>658 <field id="XAD_SIL_INV" field_ref="XAD_SIL_E3T" long_name="XAD_SIL Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />659 <field id="XAD_FER" long_name="dissolved iron X-Advection Trend" unit="mmol Fe/m3/s" />660 <field id="XAD_FER_E3T" long_name="XAD_FER * E3T" unit="mmol Fe/m2/s" > XAD_FER * e3t </field>661 <field id="XAD_FER_INV" field_ref="XAD_FER_E3T" long_name="XAD_FER Inventory" unit="mmol Fe/m2/s" grid_ref="vert_sum" />669 <field id="XAD_SIL" long_name="dissolved silicic acid X-Advection Trend" unit="mmol-Si/m3/s" /> 670 <field id="XAD_SIL_E3T" long_name="XAD_SIL * E3T" unit="mmol-Si/m2/s" > XAD_SIL * e3t </field> 671 <field id="XAD_SIL_INV" field_ref="XAD_SIL_E3T" long_name="XAD_SIL Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 672 <field id="XAD_FER" long_name="dissolved iron X-Advection Trend" unit="mmol-Fe/m3/s" /> 673 <field id="XAD_FER_E3T" long_name="XAD_FER * E3T" unit="mmol-Fe/m2/s" > XAD_FER * e3t </field> 674 <field id="XAD_FER_INV" field_ref="XAD_FER_E3T" long_name="XAD_FER Inventory" unit="mmol-Fe/m2/s" grid_ref="vert_sum" /> 662 675 <field id="XAD_DET" long_name="detrital nitrogen X-Advection Trend" unit="mmol-N/m3/s" /> 663 676 <field id="XAD_DET_E3T" long_name="XAD_DET * E3T" unit="mmol-N/m2/s" > XAD_DET * e3t </field> 664 677 <field id="XAD_DET_INV" field_ref="XAD_DET_E3T" long_name="XAD_DET Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 665 <field id="XAD_PDS" long_name="Diatoms biogenic silicon X-Advection Trend" unit="mmol Si/m3/s" />666 <field id="XAD_PDS_E3T" long_name="XAD_PDS * E3T" unit="mmol Si/m2/s" > XAD_PDS * e3t </field>667 <field id="XAD_PDS_INV" field_ref="XAD_PDS_E3T" long_name="XAD_PDS Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />678 <field id="XAD_PDS" long_name="Diatoms biogenic silicon X-Advection Trend" unit="mmol-Si/m3/s" /> 679 <field id="XAD_PDS_E3T" long_name="XAD_PDS * E3T" unit="mmol-Si/m2/s" > XAD_PDS * e3t </field> 680 <field id="XAD_PDS_INV" field_ref="XAD_PDS_E3T" long_name="XAD_PDS Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 668 681 <field id="XAD_DTC" long_name="detrital carbon X-Advection Trend" unit="mmol-C/m3/s" /> 669 682 <field id="XAD_DTC_E3T" long_name="XAD_DTC * E3T" unit="mmol-C/m2/s" > XAD_DTC * e3t </field> … … 675 688 <field id="XAD_ALK_E3T" long_name="XAD_ALK * E3T" unit="meq/m2/s" > XAD_ALK * e3t </field> 676 689 <field id="XAD_ALK_INV" field_ref="XAD_ALK_E3T" long_name="XAD_ALK Inventory" unit="meq/m2/s" grid_ref="vert_sum" /> 677 <field id="XAD_OXY" long_name="dissolved oxygen X-Advection Trend" unit="mmol O2/m3/s" />678 <field id="XAD_OXY_E3T" long_name="XAD_OXY * E3T" unit="mmol O2/m2/s" > XAD_OXY * e3t </field>679 <field id="XAD_OXY_INV" field_ref="XAD_OXY_E3T" long_name="XAD_OXY Inventory" unit="mmol O2/m2/s" grid_ref="vert_sum" />690 <field id="XAD_OXY" long_name="dissolved oxygen X-Advection Trend" unit="mmol-O2/m3/s" /> 691 <field id="XAD_OXY_E3T" long_name="XAD_OXY * E3T" unit="mmol-O2/m2/s" > XAD_OXY * e3t </field> 692 <field id="XAD_OXY_INV" field_ref="XAD_OXY_E3T" long_name="XAD_OXY Inventory" unit="mmol-O2/m2/s" grid_ref="vert_sum" /> 680 693 <!-- trd case: jptra_yad --> 681 <field id="YAD_CHN" long_name="Non-diatom Chl-a Y-Advection Trend" unit="mg 682 <field id="YAD_CHN_E3T" long_name="YAD_CHN * E3T" unit="mg 683 <field id="YAD_CHN_INV" field_ref="YAD_CHN_E3T" long_name="YAD_CHN Inventory" unit="mg 684 <field id="YAD_CHD" long_name="Diatom Chl-a Y-Advection Trend" unit="mg 685 <field id="YAD_CHD_E3T" long_name="YAD_CHD * E3T" unit="mg 686 <field id="YAD_CHD_INV" field_ref="YAD_CHD_E3T" long_name="YAD_CHD Inventory" unit="mg 694 <field id="YAD_CHN" long_name="Non-diatom Chl-a Y-Advection Trend" unit="mg-Chl/m3/s" /> 695 <field id="YAD_CHN_E3T" long_name="YAD_CHN * E3T" unit="mg-Chl/m2/s" > YAD_CHN * e3t </field> 696 <field id="YAD_CHN_INV" field_ref="YAD_CHN_E3T" long_name="YAD_CHN Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 697 <field id="YAD_CHD" long_name="Diatom Chl-a Y-Advection Trend" unit="mg-Chl/m3/s" /> 698 <field id="YAD_CHD_E3T" long_name="YAD_CHD * E3T" unit="mg-Chl/m2/s" > YAD_CHD * e3t </field> 699 <field id="YAD_CHD_INV" field_ref="YAD_CHD_E3T" long_name="YAD_CHD Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 687 700 <field id="YAD_PHN" long_name="non-diatom phytoplankton Y-Advection Trend" unit="mmol-N/m3/s" /> 688 701 <field id="YAD_PHN_E3T" long_name="YAD_PHN * E3T" unit="mmol-N/m2/s" > YAD_PHN * e3t </field> … … 700 713 <field id="YAD_DIN_E3T" long_name="YAD_DIN * E3T" unit="mmol-N/m2/s" > YAD_DIN * e3t </field> 701 714 <field id="YAD_DIN_INV" field_ref="YAD_DIN_E3T" long_name="YAD_DIN Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 702 <field id="YAD_SIL" long_name="dissolved silicic acid Y-Advection Trend" unit="mmol Si/m3/s" />703 <field id="YAD_SIL_E3T" long_name="YAD_SIL * E3T" unit="mmol Si/m2/s" > YAD_SIL * e3t </field>704 <field id="YAD_SIL_INV" field_ref="YAD_SIL_E3T" long_name="YAD_SIL Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />705 <field id="YAD_FER" long_name="dissolved iron Y-Advection Trend" unit="mmol Fe/m3/s" />706 <field id="YAD_FER_E3T" long_name="YAD_FER * E3T" unit="mmol Fe/m2/s" > YAD_FER * e3t </field>707 <field id="YAD_FER_INV" field_ref="YAD_FER_E3T" long_name="YAD_FER Inventory" unit="mmol Fe/m2/s" grid_ref="vert_sum" />715 <field id="YAD_SIL" long_name="dissolved silicic acid Y-Advection Trend" unit="mmol-Si/m3/s" /> 716 <field id="YAD_SIL_E3T" long_name="YAD_SIL * E3T" unit="mmol-Si/m2/s" > YAD_SIL * e3t </field> 717 <field id="YAD_SIL_INV" field_ref="YAD_SIL_E3T" long_name="YAD_SIL Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 718 <field id="YAD_FER" long_name="dissolved iron Y-Advection Trend" unit="mmol-Fe/m3/s" /> 719 <field id="YAD_FER_E3T" long_name="YAD_FER * E3T" unit="mmol-Fe/m2/s" > YAD_FER * e3t </field> 720 <field id="YAD_FER_INV" field_ref="YAD_FER_E3T" long_name="YAD_FER Inventory" unit="mmol-Fe/m2/s" grid_ref="vert_sum" /> 708 721 <field id="YAD_DET" long_name="detrital nitrogen Y-Advection Trend" unit="mmol-N/m3/s" /> 709 722 <field id="YAD_DET_E3T" long_name="YAD_DET * E3T" unit="mmol-N/m2/s" > YAD_DET * e3t </field> 710 723 <field id="YAD_DET_INV" field_ref="YAD_DET_E3T" long_name="YAD_DET Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 711 <field id="YAD_PDS" long_name="Diatoms biogenic silicon Y-Advection Trend" unit="mmol Si/m3/s" />712 <field id="YAD_PDS_E3T" long_name="YAD_PDS * E3T" unit="mmol Si/m2/s" > YAD_PDS * e3t </field>713 <field id="YAD_PDS_INV" field_ref="YAD_PDS_E3T" long_name="YAD_PDS Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />724 <field id="YAD_PDS" long_name="Diatoms biogenic silicon Y-Advection Trend" unit="mmol-Si/m3/s" /> 725 <field id="YAD_PDS_E3T" long_name="YAD_PDS * E3T" unit="mmol-Si/m2/s" > YAD_PDS * e3t </field> 726 <field id="YAD_PDS_INV" field_ref="YAD_PDS_E3T" long_name="YAD_PDS Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 714 727 <field id="YAD_DTC" long_name="detrital carbon Y-Advection Trend" unit="mmol-C/m3/s" /> 715 728 <field id="YAD_DTC_E3T" long_name="YAD_DTC * E3T" unit="mmol-C/m2/s" > YAD_DTC * e3t </field> … … 721 734 <field id="YAD_ALK_E3T" long_name="YAD_ALK * E3T" unit="meq/m2/s" > YAD_ALK * e3t </field> 722 735 <field id="YAD_ALK_INV" field_ref="YAD_ALK_E3T" long_name="YAD_ALK Inventory" unit="meq/m2/s" grid_ref="vert_sum" /> 723 <field id="YAD_OXY" long_name="dissolved oxygen Y-Advection Trend" unit="mmol O2/m3/s" />724 <field id="YAD_OXY_E3T" long_name="YAD_OXY * E3T" unit="mmol O2/m2/s" > YAD_OXY * e3t </field>725 <field id="YAD_OXY_INV" field_ref="YAD_OXY_E3T" long_name="YAD_OXY Inventory" unit="mmol O2/m2/s" grid_ref="vert_sum" />736 <field id="YAD_OXY" long_name="dissolved oxygen Y-Advection Trend" unit="mmol-O2/m3/s" /> 737 <field id="YAD_OXY_E3T" long_name="YAD_OXY * E3T" unit="mmol-O2/m2/s" > YAD_OXY * e3t </field> 738 <field id="YAD_OXY_INV" field_ref="YAD_OXY_E3T" long_name="YAD_OXY Inventory" unit="mmol-O2/m2/s" grid_ref="vert_sum" /> 726 739 <!-- trd case: jptra_zad --> 727 <field id="ZAD_CHN" long_name="Non-diatom Chl-a Z-Advection Trend" unit="mg 728 <field id="ZAD_CHN_E3T" long_name="ZAD_CHN * E3T" unit="mg 729 <field id="ZAD_CHN_INV" field_ref="ZAD_CHN_E3T" long_name="ZAD_CHN Inventory" unit="mg 730 <field id="ZAD_CHD" long_name="Diatom Chl-a Z-Advection Trend" unit="mg 731 <field id="ZAD_CHD_E3T" long_name="ZAD_CHD * E3T" unit="mg 732 <field id="ZAD_CHD_INV" field_ref="ZAD_CHD_E3T" long_name="ZAD_CHD Inventory" unit="mg 740 <field id="ZAD_CHN" long_name="Non-diatom Chl-a Z-Advection Trend" unit="mg-Chl/m3/s" /> 741 <field id="ZAD_CHN_E3T" long_name="ZAD_CHN * E3T" unit="mg-Chl/m2/s" > ZAD_CHN * e3t </field> 742 <field id="ZAD_CHN_INV" field_ref="ZAD_CHN_E3T" long_name="ZAD_CHN Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 743 <field id="ZAD_CHD" long_name="Diatom Chl-a Z-Advection Trend" unit="mg-Chl/m3/s" /> 744 <field id="ZAD_CHD_E3T" long_name="ZAD_CHD * E3T" unit="mg-Chl/m2/s" > ZAD_CHD * e3t </field> 745 <field id="ZAD_CHD_INV" field_ref="ZAD_CHD_E3T" long_name="ZAD_CHD Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 733 746 <field id="ZAD_PHN" long_name="non-diatom phytoplankton Z-Advection Trend" unit="mmol-N/m3/s" /> 734 747 <field id="ZAD_PHN_E3T" long_name="ZAD_PHN * E3T" unit="mmol-N/m2/s" > ZAD_PHN * e3t </field> … … 746 759 <field id="ZAD_DIN_E3T" long_name="ZAD_DIN * E3T" unit="mmol-N/m2/s" > ZAD_DIN * e3t </field> 747 760 <field id="ZAD_DIN_INV" field_ref="ZAD_DIN_E3T" long_name="ZAD_DIN Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 748 <field id="ZAD_SIL" long_name="dissolved silicic acid Z-Advection Trend" unit="mmol Si/m3/s" />749 <field id="ZAD_SIL_E3T" long_name="ZAD_SIL * E3T" unit="mmol Si/m2/s" > ZAD_SIL * e3t </field>750 <field id="ZAD_SIL_INV" field_ref="ZAD_SIL_E3T" long_name="ZAD_SIL Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />751 <field id="ZAD_FER" long_name="dissolved iron Z-Advection Trend" unit="mmol Fe/m3/s" />752 <field id="ZAD_FER_E3T" long_name="ZAD_FER * E3T" unit="mmol Fe/m2/s" > ZAD_FER * e3t </field>753 <field id="ZAD_FER_INV" field_ref="ZAD_FER_E3T" long_name="ZAD_FER Inventory" unit="mmol Fe/m2/s" grid_ref="vert_sum" />761 <field id="ZAD_SIL" long_name="dissolved silicic acid Z-Advection Trend" unit="mmol-Si/m3/s" /> 762 <field id="ZAD_SIL_E3T" long_name="ZAD_SIL * E3T" unit="mmol-Si/m2/s" > ZAD_SIL * e3t </field> 763 <field id="ZAD_SIL_INV" field_ref="ZAD_SIL_E3T" long_name="ZAD_SIL Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 764 <field id="ZAD_FER" long_name="dissolved iron Z-Advection Trend" unit="mmol-Fe/m3/s" /> 765 <field id="ZAD_FER_E3T" long_name="ZAD_FER * E3T" unit="mmol-Fe/m2/s" > ZAD_FER * e3t </field> 766 <field id="ZAD_FER_INV" field_ref="ZAD_FER_E3T" long_name="ZAD_FER Inventory" unit="mmol-Fe/m2/s" grid_ref="vert_sum" /> 754 767 <field id="ZAD_DET" long_name="detrital nitrogen Z-Advection Trend" unit="mmol-N/m3/s" /> 755 768 <field id="ZAD_DET_E3T" long_name="ZAD_DET * E3T" unit="mmol-N/m2/s" > ZAD_DET * e3t </field> 756 769 <field id="ZAD_DET_INV" field_ref="ZAD_DET_E3T" long_name="ZAD_DET Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 757 <field id="ZAD_PDS" long_name="Diatoms biogenic silicon Z-Advection Trend" unit="mmol Si/m3/s" />758 <field id="ZAD_PDS_E3T" long_name="ZAD_PDS * E3T" unit="mmol Si/m2/s" > ZAD_PDS * e3t </field>759 <field id="ZAD_PDS_INV" field_ref="ZAD_PDS_E3T" long_name="ZAD_PDS Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />770 <field id="ZAD_PDS" long_name="Diatoms biogenic silicon Z-Advection Trend" unit="mmol-Si/m3/s" /> 771 <field id="ZAD_PDS_E3T" long_name="ZAD_PDS * E3T" unit="mmol-Si/m2/s" > ZAD_PDS * e3t </field> 772 <field id="ZAD_PDS_INV" field_ref="ZAD_PDS_E3T" long_name="ZAD_PDS Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 760 773 <field id="ZAD_DTC" long_name="detrital carbon Z-Advection Trend" unit="mmol-C/m3/s" /> 761 774 <field id="ZAD_DTC_E3T" long_name="ZAD_DTC * E3T" unit="mmol-C/m2/s" > ZAD_DTC * e3t </field> … … 767 780 <field id="ZAD_ALK_E3T" long_name="ZAD_ALK * E3T" unit="meq/m2/s" > ZAD_ALK * e3t </field> 768 781 <field id="ZAD_ALK_INV" field_ref="ZAD_ALK_E3T" long_name="ZAD_ALK Inventory" unit="meq/m2/s" grid_ref="vert_sum" /> 769 <field id="ZAD_OXY" long_name="dissolved oxygen Z-Advection Trend" unit="mmol O2/m3/s" />770 <field id="ZAD_OXY_E3T" long_name="ZAD_OXY * E3T" unit="mmol O2/m2/s" > ZAD_OXY * e3t </field>771 <field id="ZAD_OXY_INV" field_ref="ZAD_OXY_E3T" long_name="ZAD_OXY Inventory" unit="mmol O2/m2/s" grid_ref="vert_sum" />782 <field id="ZAD_OXY" long_name="dissolved oxygen Z-Advection Trend" unit="mmol-O2/m3/s" /> 783 <field id="ZAD_OXY_E3T" long_name="ZAD_OXY * E3T" unit="mmol-O2/m2/s" > ZAD_OXY * e3t </field> 784 <field id="ZAD_OXY_INV" field_ref="ZAD_OXY_E3T" long_name="ZAD_OXY Inventory" unit="mmol-O2/m2/s" grid_ref="vert_sum" /> 772 785 <!-- trd case: jptra_totad --> 773 <field id="TAD_CHN" long_name="Non-diatom Chl-a Total Advection Trend" unit="mg 774 <field id="TAD_CHN_E3T" long_name="TAD_CHN * E3T" unit="mg 775 <field id="TAD_CHN_INV" field_ref="TAD_CHN_E3T" long_name="TAD_CHN Inventory" unit="mg 776 <field id="TAD_CHD" long_name="Diatom Chl-a Total Advection Trend" unit="mg 777 <field id="TAD_CHD_E3T" long_name="TAD_CHD * E3T" unit="mg 778 <field id="TAD_CHD_INV" field_ref="TAD_CHD_E3T" long_name="TAD_CHD Inventory" unit="mg 786 <field id="TAD_CHN" long_name="Non-diatom Chl-a Total Advection Trend" unit="mg-Chl/m3/s" /> 787 <field id="TAD_CHN_E3T" long_name="TAD_CHN * E3T" unit="mg-Chl/m2/s" > TAD_CHN * e3t </field> 788 <field id="TAD_CHN_INV" field_ref="TAD_CHN_E3T" long_name="TAD_CHN Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 789 <field id="TAD_CHD" long_name="Diatom Chl-a Total Advection Trend" unit="mg-Chl/m3/s" /> 790 <field id="TAD_CHD_E3T" long_name="TAD_CHD * E3T" unit="mg-Chl/m2/s" > TAD_CHD * e3t </field> 791 <field id="TAD_CHD_INV" field_ref="TAD_CHD_E3T" long_name="TAD_CHD Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 779 792 <field id="TAD_PHN" long_name="non-diatom phytoplankton Total Advection Trend" unit="mmol-N/m3/s" /> 780 793 <field id="TAD_PHN_E3T" long_name="TAD_PHN * E3T" unit="mmol-N/m2/s" > TAD_PHN * e3t </field> … … 792 805 <field id="TAD_DIN_E3T" long_name="TAD_DIN * E3T" unit="mmol-N/m2/s" > TAD_DIN * e3t </field> 793 806 <field id="TAD_DIN_INV" field_ref="TAD_DIN_E3T" long_name="TAD_DIN Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 794 <field id="TAD_SIL" long_name="dissolved silicic acid Total Advection Trend" unit="mmol Si/m3/s" />795 <field id="TAD_SIL_E3T" long_name="TAD_SIL * E3T" unit="mmol Si/m2/s" > TAD_SIL * e3t </field>796 <field id="TAD_SIL_INV" field_ref="TAD_SIL_E3T" long_name="TAD_SIL Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />797 <field id="TAD_FER" long_name="dissolved iron Total Advection Trend" unit="mmol Fe/m3/s" />798 <field id="TAD_FER_E3T" long_name="TAD_FER * E3T" unit="mmol Fe/m2/s" > TAD_FER * e3t </field>799 <field id="TAD_FER_INV" field_ref="TAD_FER_E3T" long_name="TAD_FER Inventory" unit="mmol Fe/m2/s" grid_ref="vert_sum" />807 <field id="TAD_SIL" long_name="dissolved silicic acid Total Advection Trend" unit="mmol-Si/m3/s" /> 808 <field id="TAD_SIL_E3T" long_name="TAD_SIL * E3T" unit="mmol-Si/m2/s" > TAD_SIL * e3t </field> 809 <field id="TAD_SIL_INV" field_ref="TAD_SIL_E3T" long_name="TAD_SIL Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 810 <field id="TAD_FER" long_name="dissolved iron Total Advection Trend" unit="mmol-Fe/m3/s" /> 811 <field id="TAD_FER_E3T" long_name="TAD_FER * E3T" unit="mmol-Fe/m2/s" > TAD_FER * e3t </field> 812 <field id="TAD_FER_INV" field_ref="TAD_FER_E3T" long_name="TAD_FER Inventory" unit="mmol-Fe/m2/s" grid_ref="vert_sum" /> 800 813 <field id="TAD_DET" long_name="detrital nitrogen Total Advection Trend" unit="mmol-N/m3/s" /> 801 814 <field id="TAD_DET_E3T" long_name="TAD_DET * E3T" unit="mmol-N/m2/s" > TAD_DET * e3t </field> 802 815 <field id="TAD_DET_INV" field_ref="TAD_DET_E3T" long_name="TAD_DET Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 803 <field id="TAD_PDS" long_name="Diatoms biogenic silicon Total Advection Trend" unit="mmol Si/m3/s" />804 <field id="TAD_PDS_E3T" long_name="TAD_PDS * E3T" unit="mmol Si/m2/s" > TAD_PDS * e3t </field>805 <field id="TAD_PDS_INV" field_ref="TAD_PDS_E3T" long_name="TAD_PDS Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />816 <field id="TAD_PDS" long_name="Diatoms biogenic silicon Total Advection Trend" unit="mmol-Si/m3/s" /> 817 <field id="TAD_PDS_E3T" long_name="TAD_PDS * E3T" unit="mmol-Si/m2/s" > TAD_PDS * e3t </field> 818 <field id="TAD_PDS_INV" field_ref="TAD_PDS_E3T" long_name="TAD_PDS Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 806 819 <field id="TAD_DTC" long_name="detrital carbon Total Advection Trend" unit="mmol-C/m3/s" /> 807 820 <field id="TAD_DTC_E3T" long_name="TAD_DTC * E3T" unit="mmol-C/m2/s" > TAD_DTC * e3t </field> … … 813 826 <field id="TAD_ALK_E3T" long_name="TAD_ALK * E3T" unit="meq/m2/s" > TAD_ALK * e3t </field> 814 827 <field id="TAD_ALK_INV" field_ref="TAD_ALK_E3T" long_name="TAD_ALK Inventory" unit="meq/m2/s" grid_ref="vert_sum" /> 815 <field id="TAD_OXY" long_name="dissolved oxygen Total Advection Trend" unit="mmol O2/m3/s" />816 <field id="TAD_OXY_E3T" long_name="TAD_OXY * E3T" unit="mmol O2/m2/s" > TAD_OXY * e3t </field>817 <field id="TAD_OXY_INV" field_ref="TAD_OXY_E3T" long_name="TAD_OXY Inventory" unit="mmol O2/m2/s" grid_ref="vert_sum" />828 <field id="TAD_OXY" long_name="dissolved oxygen Total Advection Trend" unit="mmol-O2/m3/s" /> 829 <field id="TAD_OXY_E3T" long_name="TAD_OXY * E3T" unit="mmol-O2/m2/s" > TAD_OXY * e3t </field> 830 <field id="TAD_OXY_INV" field_ref="TAD_OXY_E3T" long_name="TAD_OXY Inventory" unit="mmol-O2/m2/s" grid_ref="vert_sum" /> 818 831 <!-- trd case: jptra_ldf --> 819 <field id="LDF_CHN" long_name="Non-diatom Chl-a Lateral Mixing Trend" unit="mg 820 <field id="LDF_CHN_E3T" long_name="LDF_CHN * E3T" unit="mg 821 <field id="LDF_CHN_INV" field_ref="LDF_CHN_E3T" long_name="LDF_CHN Inventory" unit="mg 822 <field id="LDF_CHD" long_name="Diatom Chl-a Lateral Mixing Trend" unit="mg 823 <field id="LDF_CHD_E3T" long_name="LDF_CHD * E3T" unit="mg 824 <field id="LDF_CHD_INV" field_ref="LDF_CHD_E3T" long_name="LDF_CHD Inventory" unit="mg 832 <field id="LDF_CHN" long_name="Non-diatom Chl-a Lateral Mixing Trend" unit="mg-Chl/m3/s" /> 833 <field id="LDF_CHN_E3T" long_name="LDF_CHN * E3T" unit="mg-Chl/m2/s" > LDF_CHN * e3t </field> 834 <field id="LDF_CHN_INV" field_ref="LDF_CHN_E3T" long_name="LDF_CHN Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 835 <field id="LDF_CHD" long_name="Diatom Chl-a Lateral Mixing Trend" unit="mg-Chl/m3/s" /> 836 <field id="LDF_CHD_E3T" long_name="LDF_CHD * E3T" unit="mg-Chl/m2/s" > LDF_CHD * e3t </field> 837 <field id="LDF_CHD_INV" field_ref="LDF_CHD_E3T" long_name="LDF_CHD Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 825 838 <field id="LDF_PHN" long_name="non-diatom phytoplankton Lateral Mixing Trend" unit="mmol-N/m3/s" /> 826 839 <field id="LDF_PHN_E3T" long_name="LDF_PHN * E3T" unit="mmol-N/m2/s" > LDF_PHN * e3t </field> … … 838 851 <field id="LDF_DIN_E3T" long_name="LDF_DIN * E3T" unit="mmol-N/m2/s" > LDF_DIN * e3t </field> 839 852 <field id="LDF_DIN_INV" field_ref="LDF_DIN_E3T" long_name="LDF_DIN Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 840 <field id="LDF_SIL" long_name="dissolved silicic acid Lateral Mixing Trend" unit="mmol Si/m3/s" />841 <field id="LDF_SIL_E3T" long_name="LDF_SIL * E3T" unit="mmol Si/m2/s" > LDF_SIL * e3t </field>842 <field id="LDF_SIL_INV" field_ref="LDF_SIL_E3T" long_name="LDF_SIL Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />843 <field id="LDF_FER" long_name="dissolved iron Lateral Mixing Trend" unit="mmol Fe/m3/s" />844 <field id="LDF_FER_E3T" long_name="LDF_FER * E3T" unit="mmol Fe/m2/s" > LDF_FER * e3t </field>845 <field id="LDF_FER_INV" field_ref="LDF_FER_E3T" long_name="LDF_FER Inventory" unit="mmol Fe/m2/s" grid_ref="vert_sum" />853 <field id="LDF_SIL" long_name="dissolved silicic acid Lateral Mixing Trend" unit="mmol-Si/m3/s" /> 854 <field id="LDF_SIL_E3T" long_name="LDF_SIL * E3T" unit="mmol-Si/m2/s" > LDF_SIL * e3t </field> 855 <field id="LDF_SIL_INV" field_ref="LDF_SIL_E3T" long_name="LDF_SIL Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 856 <field id="LDF_FER" long_name="dissolved iron Lateral Mixing Trend" unit="mmol-Fe/m3/s" /> 857 <field id="LDF_FER_E3T" long_name="LDF_FER * E3T" unit="mmol-Fe/m2/s" > LDF_FER * e3t </field> 858 <field id="LDF_FER_INV" field_ref="LDF_FER_E3T" long_name="LDF_FER Inventory" unit="mmol-Fe/m2/s" grid_ref="vert_sum" /> 846 859 <field id="LDF_DET" long_name="detrital nitrogen Lateral Mixing Trend" unit="mmol-N/m3/s" /> 847 860 <field id="LDF_DET_E3T" long_name="LDF_DET * E3T" unit="mmol-N/m2/s" > LDF_DET * e3t </field> 848 861 <field id="LDF_DET_INV" field_ref="LDF_DET_E3T" long_name="LDF_DET Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 849 <field id="LDF_PDS" long_name="Diatoms biogenic silicon Lateral Mixing Trend" unit="mmol Si/m3/s" />850 <field id="LDF_PDS_E3T" long_name="LDF_PDS * E3T" unit="mmol Si/m2/s" > LDF_PDS * e3t </field>851 <field id="LDF_PDS_INV" field_ref="LDF_PDS_E3T" long_name="LDF_PDS Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />862 <field id="LDF_PDS" long_name="Diatoms biogenic silicon Lateral Mixing Trend" unit="mmol-Si/m3/s" /> 863 <field id="LDF_PDS_E3T" long_name="LDF_PDS * E3T" unit="mmol-Si/m2/s" > LDF_PDS * e3t </field> 864 <field id="LDF_PDS_INV" field_ref="LDF_PDS_E3T" long_name="LDF_PDS Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 852 865 <field id="LDF_DTC" long_name="detrital carbon Lateral Mixing Trend" unit="mmol-C/m3/s" /> 853 866 <field id="LDF_DTC_E3T" long_name="LDF_DTC * E3T" unit="mmol-C/m2/s" > LDF_DTC * e3t </field> … … 859 872 <field id="LDF_ALK_E3T" long_name="LDF_ALK * E3T" unit="meq/m2/s" > LDF_ALK * e3t </field> 860 873 <field id="LDF_ALK_INV" field_ref="LDF_ALK_E3T" long_name="LDF_ALK Inventory" unit="meq/m2/s" grid_ref="vert_sum" /> 861 <field id="LDF_OXY" long_name="dissolved oxygen Lateral Mixing Trend" unit="mmol O2/m3/s" />862 <field id="LDF_OXY_E3T" long_name="LDF_OXY * E3T" unit="mmol O2/m2/s" > LDF_OXY * e3t </field>863 <field id="LDF_OXY_INV" field_ref="LDF_OXY_E3T" long_name="LDF_OXY Inventory" unit="mmol O2/m2/s" grid_ref="vert_sum" />874 <field id="LDF_OXY" long_name="dissolved oxygen Lateral Mixing Trend" unit="mmol-O2/m3/s" /> 875 <field id="LDF_OXY_E3T" long_name="LDF_OXY * E3T" unit="mmol-O2/m2/s" > LDF_OXY * e3t </field> 876 <field id="LDF_OXY_INV" field_ref="LDF_OXY_E3T" long_name="LDF_OXY Inventory" unit="mmol-O2/m2/s" grid_ref="vert_sum" /> 864 877 <!-- trd case: jptra_bbl --> 865 <field id="BBL_CHN" long_name="Non-diatom Chl-a Bottom Boundary Trend" unit="mg 866 <field id="BBL_CHN_E3T" long_name="BBL_CHN * E3T" unit="mg 867 <field id="BBL_CHN_INV" field_ref="BBL_CHN_E3T" long_name="BBL_CHN Inventory" unit="mg 868 <field id="BBL_CHD" long_name="Diatom Chl-a Bottom Boundary Trend" unit="mg 869 <field id="BBL_CHD_E3T" long_name="BBL_CHD * E3T" unit="mg 870 <field id="BBL_CHD_INV" field_ref="BBL_CHD_E3T" long_name="BBL_CHD Inventory" unit="mg 878 <field id="BBL_CHN" long_name="Non-diatom Chl-a Bottom Boundary Trend" unit="mg-Chl/m3/s" /> 879 <field id="BBL_CHN_E3T" long_name="BBL_CHN * E3T" unit="mg-Chl/m2/s" > BBL_CHN * e3t </field> 880 <field id="BBL_CHN_INV" field_ref="BBL_CHN_E3T" long_name="BBL_CHN Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 881 <field id="BBL_CHD" long_name="Diatom Chl-a Bottom Boundary Trend" unit="mg-Chl/m3/s" /> 882 <field id="BBL_CHD_E3T" long_name="BBL_CHD * E3T" unit="mg-Chl/m2/s" > BBL_CHD * e3t </field> 883 <field id="BBL_CHD_INV" field_ref="BBL_CHD_E3T" long_name="BBL_CHD Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 871 884 <field id="BBL_PHN" long_name="non-diatom phytoplankton Bottom Boundary Trend" unit="mmol-N/m3/s" /> 872 885 <field id="BBL_PHN_E3T" long_name="BBL_PHN * E3T" unit="mmol-N/m2/s" > BBL_PHN * e3t </field> … … 884 897 <field id="BBL_DIN_E3T" long_name="BBL_DIN * E3T" unit="mmol-N/m2/s" > BBL_DIN * e3t </field> 885 898 <field id="BBL_DIN_INV" field_ref="BBL_DIN_E3T" long_name="BBL_DIN Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 886 <field id="BBL_SIL" long_name="dissolved silicic acid Bottom Boundary Trend" unit="mmol Si/m3/s" />887 <field id="BBL_SIL_E3T" long_name="BBL_SIL * E3T" unit="mmol Si/m2/s" > BBL_SIL * e3t </field>888 <field id="BBL_SIL_INV" field_ref="BBL_SIL_E3T" long_name="BBL_SIL Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />889 <field id="BBL_FER" long_name="dissolved iron Bottom Boundary Trend" unit="mmol Fe/m3/s" />890 <field id="BBL_FER_E3T" long_name="BBL_FER * E3T" unit="mmol Fe/m2/s" > BBL_FER * e3t </field>891 <field id="BBL_FER_INV" field_ref="BBL_FER_E3T" long_name="BBL_FER Inventory" unit="mmol Fe/m2/s" grid_ref="vert_sum" />899 <field id="BBL_SIL" long_name="dissolved silicic acid Bottom Boundary Trend" unit="mmol-Si/m3/s" /> 900 <field id="BBL_SIL_E3T" long_name="BBL_SIL * E3T" unit="mmol-Si/m2/s" > BBL_SIL * e3t </field> 901 <field id="BBL_SIL_INV" field_ref="BBL_SIL_E3T" long_name="BBL_SIL Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 902 <field id="BBL_FER" long_name="dissolved iron Bottom Boundary Trend" unit="mmol-Fe/m3/s" /> 903 <field id="BBL_FER_E3T" long_name="BBL_FER * E3T" unit="mmol-Fe/m2/s" > BBL_FER * e3t </field> 904 <field id="BBL_FER_INV" field_ref="BBL_FER_E3T" long_name="BBL_FER Inventory" unit="mmol-Fe/m2/s" grid_ref="vert_sum" /> 892 905 <field id="BBL_DET" long_name="detrital nitrogen Bottom Boundary Trend" unit="mmol-N/m3/s" /> 893 906 <field id="BBL_DET_E3T" long_name="BBL_DET * E3T" unit="mmol-N/m2/s" > BBL_DET * e3t </field> 894 907 <field id="BBL_DET_INV" field_ref="BBL_DET_E3T" long_name="BBL_DET Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 895 <field id="BBL_PDS" long_name="Diatoms biogenic silicon Bottom Boundary Trend" unit="mmol Si/m3/s" />896 <field id="BBL_PDS_E3T" long_name="BBL_PDS * E3T" unit="mmol Si/m2/s" > BBL_PDS * e3t </field>897 <field id="BBL_PDS_INV" field_ref="BBL_PDS_E3T" long_name="BBL_PDS Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />908 <field id="BBL_PDS" long_name="Diatoms biogenic silicon Bottom Boundary Trend" unit="mmol-Si/m3/s" /> 909 <field id="BBL_PDS_E3T" long_name="BBL_PDS * E3T" unit="mmol-Si/m2/s" > BBL_PDS * e3t </field> 910 <field id="BBL_PDS_INV" field_ref="BBL_PDS_E3T" long_name="BBL_PDS Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 898 911 <field id="BBL_DTC" long_name="detrital carbon Bottom Boundary Trend" unit="mmol-C/m3/s" /> 899 912 <field id="BBL_DTC_E3T" long_name="BBL_DTC * E3T" unit="mmol-C/m2/s" > BBL_DTC * e3t </field> … … 905 918 <field id="BBL_ALK_E3T" long_name="BBL_ALK * E3T" unit="meq/m2/s" > BBL_ALK * e3t </field> 906 919 <field id="BBL_ALK_INV" field_ref="BBL_ALK_E3T" long_name="BBL_ALK Inventory" unit="meq/m2/s" grid_ref="vert_sum" /> 907 <field id="BBL_OXY" long_name="dissolved oxygen Bottom Boundary Trend" unit="mmol O2/m3/s" />908 <field id="BBL_OXY_E3T" long_name="BBL_OXY * E3T" unit="mmol O2/m2/s" > BBL_OXY * e3t </field>909 <field id="BBL_OXY_INV" field_ref="BBL_OXY_E3T" long_name="BBL_OXY Inventory" unit="mmol O2/m2/s" grid_ref="vert_sum" />920 <field id="BBL_OXY" long_name="dissolved oxygen Bottom Boundary Trend" unit="mmol-O2/m3/s" /> 921 <field id="BBL_OXY_E3T" long_name="BBL_OXY * E3T" unit="mmol-O2/m2/s" > BBL_OXY * e3t </field> 922 <field id="BBL_OXY_INV" field_ref="BBL_OXY_E3T" long_name="BBL_OXY Inventory" unit="mmol-O2/m2/s" grid_ref="vert_sum" /> 910 923 <!-- trd case: jptra_nsr --> 911 <field id="FOR_CHN" long_name="Non-diatom Chl-a Surface Boundary Trend" unit="mg 912 <field id="FOR_CHN_E3T" long_name="FOR_CHN * E3T" unit="mg 913 <field id="FOR_CHN_INV" field_ref="FOR_CHN_E3T" long_name="FOR_CHN Inventory" unit="mg 914 <field id="FOR_CHD" long_name="Diatom Chl-a Surface Boundary Trend" unit="mg 915 <field id="FOR_CHD_E3T" long_name="FOR_CHD * E3T" unit="mg 916 <field id="FOR_CHD_INV" field_ref="FOR_CHD_E3T" long_name="FOR_CHD Inventory" unit="mg 924 <field id="FOR_CHN" long_name="Non-diatom Chl-a Surface Boundary Trend" unit="mg-Chl/m3/s" /> 925 <field id="FOR_CHN_E3T" long_name="FOR_CHN * E3T" unit="mg-Chl/m2/s" > FOR_CHN * e3t </field> 926 <field id="FOR_CHN_INV" field_ref="FOR_CHN_E3T" long_name="FOR_CHN Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 927 <field id="FOR_CHD" long_name="Diatom Chl-a Surface Boundary Trend" unit="mg-Chl/m3/s" /> 928 <field id="FOR_CHD_E3T" long_name="FOR_CHD * E3T" unit="mg-Chl/m2/s" > FOR_CHD * e3t </field> 929 <field id="FOR_CHD_INV" field_ref="FOR_CHD_E3T" long_name="FOR_CHD Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 917 930 <field id="FOR_PHN" long_name="non-diatom phytoplankton Surface Boundary Trend" unit="mmol-N/m3/s" /> 918 931 <field id="FOR_PHN_E3T" long_name="FOR_PHN * E3T" unit="mmol-N/m2/s" > FOR_PHN * e3t </field> … … 930 943 <field id="FOR_DIN_E3T" long_name="FOR_DIN * E3T" unit="mmol-N/m2/s" > FOR_DIN * e3t </field> 931 944 <field id="FOR_DIN_INV" field_ref="FOR_DIN_E3T" long_name="FOR_DIN Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 932 <field id="FOR_SIL" long_name="dissolved silicic acid Surface Boundary Trend" unit="mmol Si/m3/s" />933 <field id="FOR_SIL_E3T" long_name="FOR_SIL * E3T" unit="mmol Si/m2/s" > FOR_SIL * e3t </field>934 <field id="FOR_SIL_INV" field_ref="FOR_SIL_E3T" long_name="FOR_SIL Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />935 <field id="FOR_FER" long_name="dissolved iron Surface Boundary Trend" unit="mmol Fe/m3/s" />936 <field id="FOR_FER_E3T" long_name="FOR_FER * E3T" unit="mmol Fe/m2/s" > FOR_FER * e3t </field>937 <field id="FOR_FER_INV" field_ref="FOR_FER_E3T" long_name="FOR_FER Inventory" unit="mmol Fe/m2/s" grid_ref="vert_sum" />945 <field id="FOR_SIL" long_name="dissolved silicic acid Surface Boundary Trend" unit="mmol-Si/m3/s" /> 946 <field id="FOR_SIL_E3T" long_name="FOR_SIL * E3T" unit="mmol-Si/m2/s" > FOR_SIL * e3t </field> 947 <field id="FOR_SIL_INV" field_ref="FOR_SIL_E3T" long_name="FOR_SIL Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 948 <field id="FOR_FER" long_name="dissolved iron Surface Boundary Trend" unit="mmol-Fe/m3/s" /> 949 <field id="FOR_FER_E3T" long_name="FOR_FER * E3T" unit="mmol-Fe/m2/s" > FOR_FER * e3t </field> 950 <field id="FOR_FER_INV" field_ref="FOR_FER_E3T" long_name="FOR_FER Inventory" unit="mmol-Fe/m2/s" grid_ref="vert_sum" /> 938 951 <field id="FOR_DET" long_name="detrital nitrogen Surface Boundary Trend" unit="mmol-N/m3/s" /> 939 952 <field id="FOR_DET_E3T" long_name="FOR_DET * E3T" unit="mmol-N/m2/s" > FOR_DET * e3t </field> 940 953 <field id="FOR_DET_INV" field_ref="FOR_DET_E3T" long_name="FOR_DET Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 941 <field id="FOR_PDS" long_name="Diatoms biogenic silicon Surface Boundary Trend" unit="mmol Si/m3/s" />942 <field id="FOR_PDS_E3T" long_name="FOR_PDS * E3T" unit="mmol Si/m2/s" > FOR_PDS * e3t </field>943 <field id="FOR_PDS_INV" field_ref="FOR_PDS_E3T" long_name="FOR_PDS Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />954 <field id="FOR_PDS" long_name="Diatoms biogenic silicon Surface Boundary Trend" unit="mmol-Si/m3/s" /> 955 <field id="FOR_PDS_E3T" long_name="FOR_PDS * E3T" unit="mmol-Si/m2/s" > FOR_PDS * e3t </field> 956 <field id="FOR_PDS_INV" field_ref="FOR_PDS_E3T" long_name="FOR_PDS Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 944 957 <field id="FOR_DTC" long_name="detrital carbon Surface Boundary Trend" unit="mmol-C/m3/s" /> 945 958 <field id="FOR_DTC_E3T" long_name="FOR_DTC * E3T" unit="mmol-C/m2/s" > FOR_DTC * e3t </field> … … 951 964 <field id="FOR_ALK_E3T" long_name="FOR_ALK * E3T" unit="meq/m2/s" > FOR_ALK * e3t </field> 952 965 <field id="FOR_ALK_INV" field_ref="FOR_ALK_E3T" long_name="FOR_ALK Inventory" unit="meq/m2/s" grid_ref="vert_sum" /> 953 <field id="FOR_OXY" long_name="dissolved oxygen Surface Boundary Trend" unit="mmol O2/m3/s" />954 <field id="FOR_OXY_E3T" long_name="FOR_OXY * E3T" unit="mmol O2/m2/s" > FOR_OXY * e3t </field>955 <field id="FOR_OXY_INV" field_ref="FOR_OXY_E3T" long_name="FOR_OXY Inventory" unit="mmol O2/m2/s" grid_ref="vert_sum" />966 <field id="FOR_OXY" long_name="dissolved oxygen Surface Boundary Trend" unit="mmol-O2/m3/s" /> 967 <field id="FOR_OXY_E3T" long_name="FOR_OXY * E3T" unit="mmol-O2/m2/s" > FOR_OXY * e3t </field> 968 <field id="FOR_OXY_INV" field_ref="FOR_OXY_E3T" long_name="FOR_OXY Inventory" unit="mmol-O2/m2/s" grid_ref="vert_sum" /> 956 969 <!-- trd case: jptra_zdf --> 957 <field id="ZDF_CHN" long_name="Non-diatom Chl-a Vertical Mixing Trend" unit="mg 958 <field id="ZDF_CHN_E3T" long_name="ZDF_CHN * E3T" unit="mg 959 <field id="ZDF_CHN_INV" field_ref="ZDF_CHN_E3T" long_name="ZDF_CHN Inventory" unit="mg 960 <field id="ZDF_CHD" long_name="Diatom Chl-a Vertical Mixing Trend" unit="mg 961 <field id="ZDF_CHD_E3T" long_name="ZDF_CHD * E3T" unit="mg 962 <field id="ZDF_CHD_INV" field_ref="ZDF_CHD_E3T" long_name="ZDF_CHD Inventory" unit="mg 970 <field id="ZDF_CHN" long_name="Non-diatom Chl-a Vertical Mixing Trend" unit="mg-Chl/m3/s" /> 971 <field id="ZDF_CHN_E3T" long_name="ZDF_CHN * E3T" unit="mg-Chl/m2/s" > ZDF_CHN * e3t </field> 972 <field id="ZDF_CHN_INV" field_ref="ZDF_CHN_E3T" long_name="ZDF_CHN Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 973 <field id="ZDF_CHD" long_name="Diatom Chl-a Vertical Mixing Trend" unit="mg-Chl/m3/s" /> 974 <field id="ZDF_CHD_E3T" long_name="ZDF_CHD * E3T" unit="mg-Chl/m2/s" > ZDF_CHD * e3t </field> 975 <field id="ZDF_CHD_INV" field_ref="ZDF_CHD_E3T" long_name="ZDF_CHD Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 963 976 <field id="ZDF_PHN" long_name="non-diatom phytoplankton Vertical Mixing Trend" unit="mmol-N/m3/s" /> 964 977 <field id="ZDF_PHN_E3T" long_name="ZDF_PHN * E3T" unit="mmol-N/m2/s" > ZDF_PHN * e3t </field> … … 976 989 <field id="ZDF_DIN_E3T" long_name="ZDF_DIN * E3T" unit="mmol-N/m2/s" > ZDF_DIN * e3t </field> 977 990 <field id="ZDF_DIN_INV" field_ref="ZDF_DIN_E3T" long_name="ZDF_DIN Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 978 <field id="ZDF_SIL" long_name="dissolved silicic acid Vertical Mixing Trend" unit="mmol Si/m3/s" />979 <field id="ZDF_SIL_E3T" long_name="ZDF_SIL * E3T" unit="mmol Si/m2/s" > ZDF_SIL * e3t </field>980 <field id="ZDF_SIL_INV" field_ref="ZDF_SIL_E3T" long_name="ZDF_SIL Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />981 <field id="ZDF_FER" long_name="dissolved iron Vertical Mixing Trend" unit="mmol Fe/m3/s" />982 <field id="ZDF_FER_E3T" long_name="ZDF_FER * E3T" unit="mmol Fe/m2/s" > ZDF_FER * e3t </field>983 <field id="ZDF_FER_INV" field_ref="ZDF_FER_E3T" long_name="ZDF_FER Inventory" unit="mmol Fe/m2/s" grid_ref="vert_sum" />991 <field id="ZDF_SIL" long_name="dissolved silicic acid Vertical Mixing Trend" unit="mmol-Si/m3/s" /> 992 <field id="ZDF_SIL_E3T" long_name="ZDF_SIL * E3T" unit="mmol-Si/m2/s" > ZDF_SIL * e3t </field> 993 <field id="ZDF_SIL_INV" field_ref="ZDF_SIL_E3T" long_name="ZDF_SIL Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 994 <field id="ZDF_FER" long_name="dissolved iron Vertical Mixing Trend" unit="mmol-Fe/m3/s" /> 995 <field id="ZDF_FER_E3T" long_name="ZDF_FER * E3T" unit="mmol-Fe/m2/s" > ZDF_FER * e3t </field> 996 <field id="ZDF_FER_INV" field_ref="ZDF_FER_E3T" long_name="ZDF_FER Inventory" unit="mmol-Fe/m2/s" grid_ref="vert_sum" /> 984 997 <field id="ZDF_DET" long_name="detrital nitrogen Vertical Mixing Trend" unit="mmol-N/m3/s" /> 985 998 <field id="ZDF_DET_E3T" long_name="ZDF_DET * E3T" unit="mmol-N/m2/s" > ZDF_DET * e3t </field> 986 999 <field id="ZDF_DET_INV" field_ref="ZDF_DET_E3T" long_name="ZDF_DET Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 987 <field id="ZDF_PDS" long_name="Diatoms biogenic silicon Vertical Mixing Trend" unit="mmol Si/m3/s" />988 <field id="ZDF_PDS_E3T" long_name="ZDF_PDS * E3T" unit="mmol Si/m2/s" > ZDF_PDS * e3t </field>989 <field id="ZDF_PDS_INV" field_ref="ZDF_PDS_E3T" long_name="ZDF_PDS Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />1000 <field id="ZDF_PDS" long_name="Diatoms biogenic silicon Vertical Mixing Trend" unit="mmol-Si/m3/s" /> 1001 <field id="ZDF_PDS_E3T" long_name="ZDF_PDS * E3T" unit="mmol-Si/m2/s" > ZDF_PDS * e3t </field> 1002 <field id="ZDF_PDS_INV" field_ref="ZDF_PDS_E3T" long_name="ZDF_PDS Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 990 1003 <field id="ZDF_DTC" long_name="detrital carbon Vertical Mixing Trend" unit="mmol-C/m3/s" /> 991 1004 <field id="ZDF_DTC_E3T" long_name="ZDF_DTC * E3T" unit="mmol-C/m2/s" > ZDF_DTC * e3t </field> … … 997 1010 <field id="ZDF_ALK_E3T" long_name="ZDF_ALK * E3T" unit="meq/m2/s" > ZDF_ALK * e3t </field> 998 1011 <field id="ZDF_ALK_INV" field_ref="ZDF_ALK_E3T" long_name="ZDF_ALK Inventory" unit="meq/m2/s" grid_ref="vert_sum" /> 999 <field id="ZDF_OXY" long_name="dissolved oxygen Vertical Mixing Trend" unit="mmol O2/m3/s" />1000 <field id="ZDF_OXY_E3T" long_name="ZDF_OXY * E3T" unit="mmol O2/m2/s" > ZDF_OXY * e3t </field>1001 <field id="ZDF_OXY_INV" field_ref="ZDF_OXY_E3T" long_name="ZDF_OXY Inventory" unit="mmol O2/m2/s" grid_ref="vert_sum" />1012 <field id="ZDF_OXY" long_name="dissolved oxygen Vertical Mixing Trend" unit="mmol-O2/m3/s" /> 1013 <field id="ZDF_OXY_E3T" long_name="ZDF_OXY * E3T" unit="mmol-O2/m2/s" > ZDF_OXY * e3t </field> 1014 <field id="ZDF_OXY_INV" field_ref="ZDF_OXY_E3T" long_name="ZDF_OXY Inventory" unit="mmol-O2/m2/s" grid_ref="vert_sum" /> 1002 1015 <!-- trd case: jptra_zdfp --> 1003 <field id="ZDP_CHN" long_name="Non-diatom Chl-a Kz Diffusive Trend" unit="mg 1004 <field id="ZDP_CHN_E3T" long_name="ZDP_CHN * E3T" unit="mg 1005 <field id="ZDP_CHN_INV" field_ref="ZDP_CHN_E3T" long_name="ZDP_CHN Inventory" unit="mg 1006 <field id="ZDP_CHD" long_name="Diatom Chl-a Kz Diffusive Trend" unit="mg 1007 <field id="ZDP_CHD_E3T" long_name="ZDP_CHD * E3T" unit="mg 1008 <field id="ZDP_CHD_INV" field_ref="ZDP_CHD_E3T" long_name="ZDP_CHD Inventory" unit="mg 1016 <field id="ZDP_CHN" long_name="Non-diatom Chl-a Kz Diffusive Trend" unit="mg-Chl/m3/s" /> 1017 <field id="ZDP_CHN_E3T" long_name="ZDP_CHN * E3T" unit="mg-Chl/m2/s" > ZDP_CHN * e3t </field> 1018 <field id="ZDP_CHN_INV" field_ref="ZDP_CHN_E3T" long_name="ZDP_CHN Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 1019 <field id="ZDP_CHD" long_name="Diatom Chl-a Kz Diffusive Trend" unit="mg-Chl/m3/s" /> 1020 <field id="ZDP_CHD_E3T" long_name="ZDP_CHD * E3T" unit="mg-Chl/m2/s" > ZDP_CHD * e3t </field> 1021 <field id="ZDP_CHD_INV" field_ref="ZDP_CHD_E3T" long_name="ZDP_CHD Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 1009 1022 <field id="ZDP_PHN" long_name="non-diatom phytoplankton Kz Diffusive Trend" unit="mmol-N/m3/s" /> 1010 1023 <field id="ZDP_PHN_E3T" long_name="ZDP_PHN * E3T" unit="mmol-N/m2/s" > ZDP_PHN * e3t </field> … … 1022 1035 <field id="ZDP_DIN_E3T" long_name="ZDP_DIN * E3T" unit="mmol-N/m2/s" > ZDP_DIN * e3t </field> 1023 1036 <field id="ZDP_DIN_INV" field_ref="ZDP_DIN_E3T" long_name="ZDP_DIN Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 1024 <field id="ZDP_SIL" long_name="dissolved silicic acid Kz Diffusive Trend" unit="mmol Si/m3/s" />1025 <field id="ZDP_SIL_E3T" long_name="ZDP_SIL * E3T" unit="mmol Si/m2/s" > ZDP_SIL * e3t </field>1026 <field id="ZDP_SIL_INV" field_ref="ZDP_SIL_E3T" long_name="ZDP_SIL Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />1027 <field id="ZDP_FER" long_name="dissolved iron Kz Diffusive Trend" unit="mmol Fe/m3/s" />1028 <field id="ZDP_FER_E3T" long_name="ZDP_FER * E3T" unit="mmol Fe/m2/s" > ZDP_FER * e3t </field>1029 <field id="ZDP_FER_INV" field_ref="ZDP_FER_E3T" long_name="ZDP_FER Inventory" unit="mmol Fe/m2/s" grid_ref="vert_sum" />1037 <field id="ZDP_SIL" long_name="dissolved silicic acid Kz Diffusive Trend" unit="mmol-Si/m3/s" /> 1038 <field id="ZDP_SIL_E3T" long_name="ZDP_SIL * E3T" unit="mmol-Si/m2/s" > ZDP_SIL * e3t </field> 1039 <field id="ZDP_SIL_INV" field_ref="ZDP_SIL_E3T" long_name="ZDP_SIL Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 1040 <field id="ZDP_FER" long_name="dissolved iron Kz Diffusive Trend" unit="mmol-Fe/m3/s" /> 1041 <field id="ZDP_FER_E3T" long_name="ZDP_FER * E3T" unit="mmol-Fe/m2/s" > ZDP_FER * e3t </field> 1042 <field id="ZDP_FER_INV" field_ref="ZDP_FER_E3T" long_name="ZDP_FER Inventory" unit="mmol-Fe/m2/s" grid_ref="vert_sum" /> 1030 1043 <field id="ZDP_DET" long_name="detrital nitrogen Kz Diffusive Trend" unit="mmol-N/m3/s" /> 1031 1044 <field id="ZDP_DET_E3T" long_name="ZDP_DET * E3T" unit="mmol-N/m2/s" > ZDP_DET * e3t </field> 1032 1045 <field id="ZDP_DET_INV" field_ref="ZDP_DET_E3T" long_name="ZDP_DET Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 1033 <field id="ZDP_PDS" long_name="Diatoms biogenic silicon Kz Diffusive Trend" unit="mmol Si/m3/s" />1034 <field id="ZDP_PDS_E3T" long_name="ZDP_PDS * E3T" unit="mmol Si/m2/s" > ZDP_PDS * e3t </field>1035 <field id="ZDP_PDS_INV" field_ref="ZDP_PDS_E3T" long_name="ZDP_PDS Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />1046 <field id="ZDP_PDS" long_name="Diatoms biogenic silicon Kz Diffusive Trend" unit="mmol-Si/m3/s" /> 1047 <field id="ZDP_PDS_E3T" long_name="ZDP_PDS * E3T" unit="mmol-Si/m2/s" > ZDP_PDS * e3t </field> 1048 <field id="ZDP_PDS_INV" field_ref="ZDP_PDS_E3T" long_name="ZDP_PDS Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 1036 1049 <field id="ZDP_DTC" long_name="detrital carbon Kz Diffusive Trend" unit="mmol-C/m3/s" /> 1037 1050 <field id="ZDP_DTC_E3T" long_name="ZDP_DTC * E3T" unit="mmol-C/m2/s" > ZDP_DTC * e3t </field> … … 1043 1056 <field id="ZDP_ALK_E3T" long_name="ZDP_ALK * E3T" unit="meq/m2/s" > ZDP_ALK * e3t </field> 1044 1057 <field id="ZDP_ALK_INV" field_ref="ZDP_ALK_E3T" long_name="ZDP_ALK Inventory" unit="meq/m2/s" grid_ref="vert_sum" /> 1045 <field id="ZDP_OXY" long_name="dissolved oxygen Kz Diffusive Trend" unit="mmol O2/m3/s" />1046 <field id="ZDP_OXY_E3T" long_name="ZDP_OXY * E3T" unit="mmol O2/m2/s" > ZDP_OXY * e3t </field>1047 <field id="ZDP_OXY_INV" field_ref="ZDP_OXY_E3T" long_name="ZDP_OXY Inventory" unit="mmol O2/m2/s" grid_ref="vert_sum" />1058 <field id="ZDP_OXY" long_name="dissolved oxygen Kz Diffusive Trend" unit="mmol-O2/m3/s" /> 1059 <field id="ZDP_OXY_E3T" long_name="ZDP_OXY * E3T" unit="mmol-O2/m2/s" > ZDP_OXY * e3t </field> 1060 <field id="ZDP_OXY_INV" field_ref="ZDP_OXY_E3T" long_name="ZDP_OXY Inventory" unit="mmol-O2/m2/s" grid_ref="vert_sum" /> 1048 1061 <!-- trd case: jptra_dmp --> 1049 <field id="DMP_CHN" long_name="Non-diatom Chl-a Damping Trend" unit="mg 1050 <field id="DMP_CHN_E3T" long_name="DMP_CHN * E3T" unit="mg 1051 <field id="DMP_CHN_INV" field_ref="DMP_CHN_E3T" long_name="DMP_CHN Inventory" unit="mg 1052 <field id="DMP_CHD" long_name="Diatom Chl-a Damping Trend" unit="mg 1053 <field id="DMP_CHD_E3T" long_name="DMP_CHD * E3T" unit="mg 1054 <field id="DMP_CHD_INV" field_ref="DMP_CHD_E3T" long_name="DMP_CHD Inventory" unit="mg 1062 <field id="DMP_CHN" long_name="Non-diatom Chl-a Damping Trend" unit="mg-Chl/m3/s" /> 1063 <field id="DMP_CHN_E3T" long_name="DMP_CHN * E3T" unit="mg-Chl/m2/s" > DMP_CHN * e3t </field> 1064 <field id="DMP_CHN_INV" field_ref="DMP_CHN_E3T" long_name="DMP_CHN Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 1065 <field id="DMP_CHD" long_name="Diatom Chl-a Damping Trend" unit="mg-Chl/m3/s" /> 1066 <field id="DMP_CHD_E3T" long_name="DMP_CHD * E3T" unit="mg-Chl/m2/s" > DMP_CHD * e3t </field> 1067 <field id="DMP_CHD_INV" field_ref="DMP_CHD_E3T" long_name="DMP_CHD Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 1055 1068 <field id="DMP_PHN" long_name="non-diatom phytoplankton Damping Trend" unit="mmol-N/m3/s" /> 1056 1069 <field id="DMP_PHN_E3T" long_name="DMP_PHN * E3T" unit="mmol-N/m2/s" > DMP_PHN * e3t </field> … … 1068 1081 <field id="DMP_DIN_E3T" long_name="DMP_DIN * E3T" unit="mmol-N/m2/s" > DMP_DIN * e3t </field> 1069 1082 <field id="DMP_DIN_INV" field_ref="DMP_DIN_E3T" long_name="DMP_DIN Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 1070 <field id="DMP_SIL" long_name="dissolved silicic acid Damping Trend" unit="mmol Si/m3/s" />1071 <field id="DMP_SIL_E3T" long_name="DMP_SIL * E3T" unit="mmol Si/m2/s" > DMP_SIL * e3t </field>1072 <field id="DMP_SIL_INV" field_ref="DMP_SIL_E3T" long_name="DMP_SIL Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />1073 <field id="DMP_FER" long_name="dissolved iron Damping Trend" unit="mmol Fe/m3/s" />1074 <field id="DMP_FER_E3T" long_name="DMP_FER * E3T" unit="mmol Fe/m2/s" > DMP_FER * e3t </field>1075 <field id="DMP_FER_INV" field_ref="DMP_FER_E3T" long_name="DMP_FER Inventory" unit="mmol Fe/m2/s" grid_ref="vert_sum" />1083 <field id="DMP_SIL" long_name="dissolved silicic acid Damping Trend" unit="mmol-Si/m3/s" /> 1084 <field id="DMP_SIL_E3T" long_name="DMP_SIL * E3T" unit="mmol-Si/m2/s" > DMP_SIL * e3t </field> 1085 <field id="DMP_SIL_INV" field_ref="DMP_SIL_E3T" long_name="DMP_SIL Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 1086 <field id="DMP_FER" long_name="dissolved iron Damping Trend" unit="mmol-Fe/m3/s" /> 1087 <field id="DMP_FER_E3T" long_name="DMP_FER * E3T" unit="mmol-Fe/m2/s" > DMP_FER * e3t </field> 1088 <field id="DMP_FER_INV" field_ref="DMP_FER_E3T" long_name="DMP_FER Inventory" unit="mmol-Fe/m2/s" grid_ref="vert_sum" /> 1076 1089 <field id="DMP_DET" long_name="detrital nitrogen Damping Trend" unit="mmol-N/m3/s" /> 1077 1090 <field id="DMP_DET_E3T" long_name="DMP_DET * E3T" unit="mmol-N/m2/s" > DMP_DET * e3t </field> 1078 1091 <field id="DMP_DET_INV" field_ref="DMP_DET_E3T" long_name="DMP_DET Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 1079 <field id="DMP_PDS" long_name="Diatoms biogenic silicon Damping Trend" unit="mmol Si/m3/s" />1080 <field id="DMP_PDS_E3T" long_name="DMP_PDS * E3T" unit="mmol Si/m2/s" > DMP_PDS * e3t </field>1081 <field id="DMP_PDS_INV" field_ref="DMP_PDS_E3T" long_name="DMP_PDS Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />1092 <field id="DMP_PDS" long_name="Diatoms biogenic silicon Damping Trend" unit="mmol-Si/m3/s" /> 1093 <field id="DMP_PDS_E3T" long_name="DMP_PDS * E3T" unit="mmol-Si/m2/s" > DMP_PDS * e3t </field> 1094 <field id="DMP_PDS_INV" field_ref="DMP_PDS_E3T" long_name="DMP_PDS Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 1082 1095 <field id="DMP_DTC" long_name="detrital carbon Damping Trend" unit="mmol-C/m3/s" /> 1083 1096 <field id="DMP_DTC_E3T" long_name="DMP_DTC * E3T" unit="mmol-C/m2/s" > DMP_DTC * e3t </field> … … 1089 1102 <field id="DMP_ALK_E3T" long_name="DMP_ALK * E3T" unit="meq/m2/s" > DMP_ALK * e3t </field> 1090 1103 <field id="DMP_ALK_INV" field_ref="DMP_ALK_E3T" long_name="DMP_ALK Inventory" unit="meq/m2/s" grid_ref="vert_sum" /> 1091 <field id="DMP_OXY" long_name="dissolved oxygen Damping Trend" unit="mmol O2/m3/s" />1092 <field id="DMP_OXY_E3T" long_name="DMP_OXY * E3T" unit="mmol O2/m2/s" > DMP_OXY * e3t </field>1093 <field id="DMP_OXY_INV" field_ref="DMP_OXY_E3T" long_name="DMP_OXY Inventory" unit="mmol O2/m2/s" grid_ref="vert_sum" />1104 <field id="DMP_OXY" long_name="dissolved oxygen Damping Trend" unit="mmol-O2/m3/s" /> 1105 <field id="DMP_OXY_E3T" long_name="DMP_OXY * E3T" unit="mmol-O2/m2/s" > DMP_OXY * e3t </field> 1106 <field id="DMP_OXY_INV" field_ref="DMP_OXY_E3T" long_name="DMP_OXY Inventory" unit="mmol-O2/m2/s" grid_ref="vert_sum" /> 1094 1107 <!-- trd case: jptra_sms --> 1095 <field id="SMS_CHN" long_name="Non-diatom Chl-a Sources Minus Sinks Trend" unit="mg 1096 <field id="SMS_CHN_E3T" long_name="SMS_CHN * E3T" unit="mg 1097 <field id="SMS_CHN_INV" field_ref="SMS_CHN_E3T" long_name="SMS_CHN Inventory" unit="mg 1098 <field id="SMS_CHD" long_name="Diatom Chl-a Sources Minus Sinks Trend" unit="mg 1099 <field id="SMS_CHD_E3T" long_name="SMS_CHD * E3T" unit="mg 1100 <field id="SMS_CHD_INV" field_ref="SMS_CHD_E3T" long_name="SMS_CHD Inventory" unit="mg 1108 <field id="SMS_CHN" long_name="Non-diatom Chl-a Sources Minus Sinks Trend" unit="mg-Chl/m3/s" /> 1109 <field id="SMS_CHN_E3T" long_name="SMS_CHN * E3T" unit="mg-Chl/m2/s" > SMS_CHN * e3t </field> 1110 <field id="SMS_CHN_INV" field_ref="SMS_CHN_E3T" long_name="SMS_CHN Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 1111 <field id="SMS_CHD" long_name="Diatom Chl-a Sources Minus Sinks Trend" unit="mg-Chl/m3/s" /> 1112 <field id="SMS_CHD_E3T" long_name="SMS_CHD * E3T" unit="mg-Chl/m2/s" > SMS_CHD * e3t </field> 1113 <field id="SMS_CHD_INV" field_ref="SMS_CHD_E3T" long_name="SMS_CHD Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 1101 1114 <field id="SMS_PHN" long_name="non-diatom phytoplankton Sources Minus Sinks Trend" unit="mmol-N/m3/s" /> 1102 1115 <field id="SMS_PHN_E3T" long_name="SMS_PHN * E3T" unit="mmol-N/m2/s" > SMS_PHN * e3t </field> … … 1114 1127 <field id="SMS_DIN_E3T" long_name="SMS_DIN * E3T" unit="mmol-N/m2/s" > SMS_DIN * e3t </field> 1115 1128 <field id="SMS_DIN_INV" field_ref="SMS_DIN_E3T" long_name="SMS_DIN Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 1116 <field id="SMS_SIL" long_name="dissolved silicic acid Sources Minus Sinks Trend" unit="mmol Si/m3/s" />1117 <field id="SMS_SIL_E3T" long_name="SMS_SIL * E3T" unit="mmol Si/m2/s" > SMS_SIL * e3t </field>1118 <field id="SMS_SIL_INV" field_ref="SMS_SIL_E3T" long_name="SMS_SIL Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />1119 <field id="SMS_FER" long_name="dissolved iron Sources Minus Sinks Trend" unit="mmol Fe/m3/s" />1120 <field id="SMS_FER_E3T" long_name="SMS_FER * E3T" unit="mmol Fe/m2/s" > SMS_FER * e3t </field>1121 <field id="SMS_FER_INV" field_ref="SMS_FER_E3T" long_name="SMS_FER Inventory" unit="mmol Fe/m2/s" grid_ref="vert_sum" />1129 <field id="SMS_SIL" long_name="dissolved silicic acid Sources Minus Sinks Trend" unit="mmol-Si/m3/s" /> 1130 <field id="SMS_SIL_E3T" long_name="SMS_SIL * E3T" unit="mmol-Si/m2/s" > SMS_SIL * e3t </field> 1131 <field id="SMS_SIL_INV" field_ref="SMS_SIL_E3T" long_name="SMS_SIL Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 1132 <field id="SMS_FER" long_name="dissolved iron Sources Minus Sinks Trend" unit="mmol-Fe/m3/s" /> 1133 <field id="SMS_FER_E3T" long_name="SMS_FER * E3T" unit="mmol-Fe/m2/s" > SMS_FER * e3t </field> 1134 <field id="SMS_FER_INV" field_ref="SMS_FER_E3T" long_name="SMS_FER Inventory" unit="mmol-Fe/m2/s" grid_ref="vert_sum" /> 1122 1135 <field id="SMS_DET" long_name="detrital nitrogen Sources Minus Sinks Trend" unit="mmol-N/m3/s" /> 1123 1136 <field id="SMS_DET_E3T" long_name="SMS_DET * E3T" unit="mmol-N/m2/s" > SMS_DET * e3t </field> 1124 1137 <field id="SMS_DET_INV" field_ref="SMS_DET_E3T" long_name="SMS_DET Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 1125 <field id="SMS_PDS" long_name="Diatoms biogenic silicon Sources Minus Sinks Trend" unit="mmol Si/m3/s" />1126 <field id="SMS_PDS_E3T" long_name="SMS_PDS * E3T" unit="mmol Si/m2/s" > SMS_PDS * e3t </field>1127 <field id="SMS_PDS_INV" field_ref="SMS_PDS_E3T" long_name="SMS_PDS Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />1138 <field id="SMS_PDS" long_name="Diatoms biogenic silicon Sources Minus Sinks Trend" unit="mmol-Si/m3/s" /> 1139 <field id="SMS_PDS_E3T" long_name="SMS_PDS * E3T" unit="mmol-Si/m2/s" > SMS_PDS * e3t </field> 1140 <field id="SMS_PDS_INV" field_ref="SMS_PDS_E3T" long_name="SMS_PDS Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 1128 1141 <field id="SMS_DTC" long_name="detrital carbon Sources Minus Sinks Trend" unit="mmol-C/m3/s" /> 1129 1142 <field id="SMS_DTC_E3T" long_name="SMS_DTC * E3T" unit="mmol-C/m2/s" > SMS_DTC * e3t </field> … … 1135 1148 <field id="SMS_ALK_E3T" long_name="SMS_ALK * E3T" unit="meq/m2/s" > SMS_ALK * e3t </field> 1136 1149 <field id="SMS_ALK_INV" field_ref="SMS_ALK_E3T" long_name="SMS_ALK Inventory" unit="meq/m2/s" grid_ref="vert_sum" /> 1137 <field id="SMS_OXY" long_name="dissolved oxygen Sources Minus Sinks Trend" unit="mmol O2/m3/s" />1138 <field id="SMS_OXY_E3T" long_name="SMS_OXY * E3T" unit="mmol O2/m2/s" > SMS_OXY * e3t </field>1139 <field id="SMS_OXY_INV" field_ref="SMS_OXY_E3T" long_name="SMS_OXY Inventory" unit="mmol O2/m2/s" grid_ref="vert_sum" />1150 <field id="SMS_OXY" long_name="dissolved oxygen Sources Minus Sinks Trend" unit="mmol-O2/m3/s" /> 1151 <field id="SMS_OXY_E3T" long_name="SMS_OXY * E3T" unit="mmol-O2/m2/s" > SMS_OXY * e3t </field> 1152 <field id="SMS_OXY_INV" field_ref="SMS_OXY_E3T" long_name="SMS_OXY Inventory" unit="mmol-O2/m2/s" grid_ref="vert_sum" /> 1140 1153 <!-- trd case: jptra_radb --> 1141 <field id="RDB_CHN" long_name="Non-diatom Chl-a-b negative values correction trend" unit="mg 1142 <field id="RDB_CHN_E3T" long_name="RDB_CHN * E3T" unit="mg 1143 <field id="RDB_CHN_INV" field_ref="RDB_CHN_E3T" long_name="RDB_CHN Inventory" unit="mg 1144 <field id="RDB_CHD" long_name="Diatom Chl-a-b negative values correction trend" unit="mg 1145 <field id="RDB_CHD_E3T" long_name="RDB_CHD * E3T" unit="mg 1146 <field id="RDB_CHD_INV" field_ref="RDB_CHD_E3T" long_name="RDB_CHD Inventory" unit="mg 1154 <field id="RDB_CHN" long_name="Non-diatom Chl-a-b negative values correction trend" unit="mg-Chl/m3/s" /> 1155 <field id="RDB_CHN_E3T" long_name="RDB_CHN * E3T" unit="mg-Chl/m2/s" > RDB_CHN * e3t </field> 1156 <field id="RDB_CHN_INV" field_ref="RDB_CHN_E3T" long_name="RDB_CHN Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 1157 <field id="RDB_CHD" long_name="Diatom Chl-a-b negative values correction trend" unit="mg-Chl/m3/s" /> 1158 <field id="RDB_CHD_E3T" long_name="RDB_CHD * E3T" unit="mg-Chl/m2/s" > RDB_CHD * e3t </field> 1159 <field id="RDB_CHD_INV" field_ref="RDB_CHD_E3T" long_name="RDB_CHD Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 1147 1160 <field id="RDB_PHN" long_name="non-diatom phytoplankton-b negative values correction trend" unit="mmol-N/m3/s" /> 1148 1161 <field id="RDB_PHN_E3T" long_name="RDB_PHN * E3T" unit="mmol-N/m2/s" > RDB_PHN * e3t </field> … … 1160 1173 <field id="RDB_DIN_E3T" long_name="RDB_DIN * E3T" unit="mmol-N/m2/s" > RDB_DIN * e3t </field> 1161 1174 <field id="RDB_DIN_INV" field_ref="RDB_DIN_E3T" long_name="RDB_DIN Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 1162 <field id="RDB_SIL" long_name="dissolved silicic acid-b negative values correction trend" unit="mmol Si/m3/s" />1163 <field id="RDB_SIL_E3T" long_name="RDB_SIL * E3T" unit="mmol Si/m2/s" > RDB_SIL * e3t </field>1164 <field id="RDB_SIL_INV" field_ref="RDB_SIL_E3T" long_name="RDB_SIL Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />1165 <field id="RDB_FER" long_name="dissolved iron-b negative values correction trend" unit="mmol Fe/m3/s" />1166 <field id="RDB_FER_E3T" long_name="RDB_FER * E3T" unit="mmol Fe/m2/s" > RDB_FER * e3t </field>1167 <field id="RDB_FER_INV" field_ref="RDB_FER_E3T" long_name="RDB_FER Inventory" unit="mmol Fe/m2/s" grid_ref="vert_sum" />1175 <field id="RDB_SIL" long_name="dissolved silicic acid-b negative values correction trend" unit="mmol-Si/m3/s" /> 1176 <field id="RDB_SIL_E3T" long_name="RDB_SIL * E3T" unit="mmol-Si/m2/s" > RDB_SIL * e3t </field> 1177 <field id="RDB_SIL_INV" field_ref="RDB_SIL_E3T" long_name="RDB_SIL Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 1178 <field id="RDB_FER" long_name="dissolved iron-b negative values correction trend" unit="mmol-Fe/m3/s" /> 1179 <field id="RDB_FER_E3T" long_name="RDB_FER * E3T" unit="mmol-Fe/m2/s" > RDB_FER * e3t </field> 1180 <field id="RDB_FER_INV" field_ref="RDB_FER_E3T" long_name="RDB_FER Inventory" unit="mmol-Fe/m2/s" grid_ref="vert_sum" /> 1168 1181 <field id="RDB_DET" long_name="detrital nitrogen-b negative values correction trend" unit="mmol-N/m3/s" /> 1169 1182 <field id="RDB_DET_E3T" long_name="RDB_DET * E3T" unit="mmol-N/m2/s" > RDB_DET * e3t </field> 1170 1183 <field id="RDB_DET_INV" field_ref="RDB_DET_E3T" long_name="RDB_DET Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 1171 <field id="RDB_PDS" long_name="Diatoms biogenic silicon-b negative values correction trend" unit="mmol Si/m3/s" />1172 <field id="RDB_PDS_E3T" long_name="RDB_PDS * E3T" unit="mmol Si/m2/s" > RDB_PDS * e3t </field>1173 <field id="RDB_PDS_INV" field_ref="RDB_PDS_E3T" long_name="RDB_PDS Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />1184 <field id="RDB_PDS" long_name="Diatoms biogenic silicon-b negative values correction trend" unit="mmol-Si/m3/s" /> 1185 <field id="RDB_PDS_E3T" long_name="RDB_PDS * E3T" unit="mmol-Si/m2/s" > RDB_PDS * e3t </field> 1186 <field id="RDB_PDS_INV" field_ref="RDB_PDS_E3T" long_name="RDB_PDS Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 1174 1187 <field id="RDB_DTC" long_name="detrital carbon-b negative values correction trend" unit="mmol-C/m3/s" /> 1175 1188 <field id="RDB_DTC_E3T" long_name="RDB_DTC * E3T" unit="mmol-C/m2/s" > RDB_DTC * e3t </field> … … 1181 1194 <field id="RDB_ALK_E3T" long_name="RDB_ALK * E3T" unit="meq/m2/s" > RDB_ALK * e3t </field> 1182 1195 <field id="RDB_ALK_INV" field_ref="RDB_ALK_E3T" long_name="RDB_ALK Inventory" unit="meq/m2/s" grid_ref="vert_sum" /> 1183 <field id="RDB_OXY" long_name="dissolved oxygen-b negative values correction trend" unit="mmol O2/m3/s" />1184 <field id="RDB_OXY_E3T" long_name="RDB_OXY * E3T" unit="mmol O2/m2/s" > RDB_OXY * e3t </field>1185 <field id="RDB_OXY_INV" field_ref="RDB_OXY_E3T" long_name="RDB_OXY Inventory" unit="mmol O2/m2/s" grid_ref="vert_sum" />1196 <field id="RDB_OXY" long_name="dissolved oxygen-b negative values correction trend" unit="mmol-O2/m3/s" /> 1197 <field id="RDB_OXY_E3T" long_name="RDB_OXY * E3T" unit="mmol-O2/m2/s" > RDB_OXY * e3t </field> 1198 <field id="RDB_OXY_INV" field_ref="RDB_OXY_E3T" long_name="RDB_OXY Inventory" unit="mmol-O2/m2/s" grid_ref="vert_sum" /> 1186 1199 <!-- trd case: jptra_radn --> 1187 <field id="RDN_CHN" long_name="Non-diatom Chl-a-n negative values correction trend" unit="mg 1188 <field id="RDN_CHN_E3T" long_name="RDN_CHN * E3T" unit="mg 1189 <field id="RDN_CHN_INV" field_ref="RDN_CHN_E3T" long_name="RDN_CHN Inventory" unit="mg 1190 <field id="RDN_CHD" long_name="Diatom Chl-a-n negative values correction trend" unit="mg 1191 <field id="RDN_CHD_E3T" long_name="RDN_CHD * E3T" unit="mg 1192 <field id="RDN_CHD_INV" field_ref="RDN_CHD_E3T" long_name="RDN_CHD Inventory" unit="mg 1200 <field id="RDN_CHN" long_name="Non-diatom Chl-a-n negative values correction trend" unit="mg-Chl/m3/s" /> 1201 <field id="RDN_CHN_E3T" long_name="RDN_CHN * E3T" unit="mg-Chl/m2/s" > RDN_CHN * e3t </field> 1202 <field id="RDN_CHN_INV" field_ref="RDN_CHN_E3T" long_name="RDN_CHN Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 1203 <field id="RDN_CHD" long_name="Diatom Chl-a-n negative values correction trend" unit="mg-Chl/m3/s" /> 1204 <field id="RDN_CHD_E3T" long_name="RDN_CHD * E3T" unit="mg-Chl/m2/s" > RDN_CHD * e3t </field> 1205 <field id="RDN_CHD_INV" field_ref="RDN_CHD_E3T" long_name="RDN_CHD Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 1193 1206 <field id="RDN_PHN" long_name="non-diatom phytoplankton-n negative values correction trend" unit="mmol-N/m3/s" /> 1194 1207 <field id="RDN_PHN_E3T" long_name="RDN_PHN * E3T" unit="mmol-N/m2/s" > RDN_PHN * e3t </field> … … 1206 1219 <field id="RDN_DIN_E3T" long_name="RDN_DIN * E3T" unit="mmol-N/m2/s" > RDN_DIN * e3t </field> 1207 1220 <field id="RDN_DIN_INV" field_ref="RDN_DIN_E3T" long_name="RDN_DIN Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 1208 <field id="RDN_SIL" long_name="dissolved silicic acid-n negative values correction trend" unit="mmol Si/m3/s" />1209 <field id="RDN_SIL_E3T" long_name="RDN_SIL * E3T" unit="mmol Si/m2/s" > RDN_SIL * e3t </field>1210 <field id="RDN_SIL_INV" field_ref="RDN_SIL_E3T" long_name="RDN_SIL Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />1211 <field id="RDN_FER" long_name="dissolved iron-n negative values correction trend" unit="mmol Fe/m3/s" />1212 <field id="RDN_FER_E3T" long_name="RDN_FER * E3T" unit="mmol Fe/m2/s" > RDN_FER * e3t </field>1213 <field id="RDN_FER_INV" field_ref="RDN_FER_E3T" long_name="RDN_FER Inventory" unit="mmol Fe/m2/s" grid_ref="vert_sum" />1221 <field id="RDN_SIL" long_name="dissolved silicic acid-n negative values correction trend" unit="mmol-Si/m3/s" /> 1222 <field id="RDN_SIL_E3T" long_name="RDN_SIL * E3T" unit="mmol-Si/m2/s" > RDN_SIL * e3t </field> 1223 <field id="RDN_SIL_INV" field_ref="RDN_SIL_E3T" long_name="RDN_SIL Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 1224 <field id="RDN_FER" long_name="dissolved iron-n negative values correction trend" unit="mmol-Fe/m3/s" /> 1225 <field id="RDN_FER_E3T" long_name="RDN_FER * E3T" unit="mmol-Fe/m2/s" > RDN_FER * e3t </field> 1226 <field id="RDN_FER_INV" field_ref="RDN_FER_E3T" long_name="RDN_FER Inventory" unit="mmol-Fe/m2/s" grid_ref="vert_sum" /> 1214 1227 <field id="RDN_DET" long_name="detrital nitrogen-n negative values correction trend" unit="mmol-N/m3/s" /> 1215 1228 <field id="RDN_DET_E3T" long_name="RDN_DET * E3T" unit="mmol-N/m2/s" > RDN_DET * e3t </field> 1216 1229 <field id="RDN_DET_INV" field_ref="RDN_DET_E3T" long_name="RDN_DET Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 1217 <field id="RDN_PDS" long_name="Diatoms biogenic silicon-n negative values correction trend" unit="mmol Si/m3/s" />1218 <field id="RDN_PDS_E3T" long_name="RDN_PDS * E3T" unit="mmol Si/m2/s" > RDN_PDS * e3t </field>1219 <field id="RDN_PDS_INV" field_ref="RDN_PDS_E3T" long_name="RDN_PDS Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />1230 <field id="RDN_PDS" long_name="Diatoms biogenic silicon-n negative values correction trend" unit="mmol-Si/m3/s" /> 1231 <field id="RDN_PDS_E3T" long_name="RDN_PDS * E3T" unit="mmol-Si/m2/s" > RDN_PDS * e3t </field> 1232 <field id="RDN_PDS_INV" field_ref="RDN_PDS_E3T" long_name="RDN_PDS Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 1220 1233 <field id="RDN_DTC" long_name="detrital carbon-n negative values correction trend" unit="mmol-C/m3/s" /> 1221 1234 <field id="RDN_DTC_E3T" long_name="RDN_DTC * E3T" unit="mmol-C/m2/s" > RDN_DTC * e3t </field> … … 1227 1240 <field id="RDN_ALK_E3T" long_name="RDN_ALK * E3T" unit="meq/m2/s" > RDN_ALK * e3t </field> 1228 1241 <field id="RDN_ALK_INV" field_ref="RDN_ALK_E3T" long_name="RDN_ALK Inventory" unit="meq/m2/s" grid_ref="vert_sum" /> 1229 <field id="RDN_OXY" long_name="dissolved oxygen-n negative values correction trend" unit="mmol O2/m3/s" />1230 <field id="RDN_OXY_E3T" long_name="RDN_OXY * E3T" unit="mmol O2/m2/s" > RDN_OXY * e3t </field>1231 <field id="RDN_OXY_INV" field_ref="RDN_OXY_E3T" long_name="RDN_OXY Inventory" unit="mmol O2/m2/s" grid_ref="vert_sum" />1242 <field id="RDN_OXY" long_name="dissolved oxygen-n negative values correction trend" unit="mmol-O2/m3/s" /> 1243 <field id="RDN_OXY_E3T" long_name="RDN_OXY * E3T" unit="mmol-O2/m2/s" > RDN_OXY * e3t </field> 1244 <field id="RDN_OXY_INV" field_ref="RDN_OXY_E3T" long_name="RDN_OXY Inventory" unit="mmol-O2/m2/s" grid_ref="vert_sum" /> 1232 1245 <!-- trd case: jptra_iso --> 1233 <field id="ISO_CHN" long_name="Non-diatom Chl-a Isopycnal Mixing Trend" unit="mg 1234 <field id="ISO_CHN_E3T" long_name="ISO_CHN * E3T" unit="mg 1235 <field id="ISO_CHN_INV" field_ref="ISO_CHN_E3T" long_name="ISO_CHN Inventory" unit="mg 1236 <field id="ISO_CHD" long_name="Diatom Chl-a Isopycnal Mixing Trend" unit="mg 1237 <field id="ISO_CHD_E3T" long_name="ISO_CHD * E3T" unit="mg 1238 <field id="ISO_CHD_INV" field_ref="ISO_CHD_E3T" long_name="ISO_CHD Inventory" unit="mg 1246 <field id="ISO_CHN" long_name="Non-diatom Chl-a Isopycnal Mixing Trend" unit="mg-Chl/m3/s" > LDF_CHN + ZDF_CHN - ZDP_CHN </field> 1247 <field id="ISO_CHN_E3T" long_name="ISO_CHN * E3T" unit="mg-Chl/m2/s" > ISO_CHN * e3t </field> 1248 <field id="ISO_CHN_INV" field_ref="ISO_CHN_E3T" long_name="ISO_CHN Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 1249 <field id="ISO_CHD" long_name="Diatom Chl-a Isopycnal Mixing Trend" unit="mg-Chl/m3/s" > LDF_CHD + ZDF_CHD - ZDP_CHD </field> 1250 <field id="ISO_CHD_E3T" long_name="ISO_CHD * E3T" unit="mg-Chl/m2/s" > ISO_CHD * e3t </field> 1251 <field id="ISO_CHD_INV" field_ref="ISO_CHD_E3T" long_name="ISO_CHD Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 1239 1252 <field id="ISO_PHN" long_name="non-diatom phytoplankton Isopycnal Mixing Trend" unit="mmol-N/m3/s" > LDF_PHN + ZDF_PHN - ZDP_PHN </field> 1240 1253 <field id="ISO_PHN_E3T" long_name="ISO_PHN * E3T" unit="mmol-N/m2/s" > ISO_PHN * e3t </field> … … 1252 1265 <field id="ISO_DIN_E3T" long_name="ISO_DIN * E3T" unit="mmol-N/m2/s" > ISO_DIN * e3t </field> 1253 1266 <field id="ISO_DIN_INV" field_ref="ISO_DIN_E3T" long_name="ISO_DIN Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 1254 <field id="ISO_SIL" long_name="dissolved silicic acid Isopycnal Mixing Trend" unit="mmol Si/m3/s" > LDF_SIL + ZDF_SIL - ZDP_SIL </field>1255 <field id="ISO_SIL_E3T" long_name="ISO_SIL * E3T" unit="mmol Si/m2/s" > ISO_SIL * e3t </field>1256 <field id="ISO_SIL_INV" field_ref="ISO_SIL_E3T" long_name="ISO_SIL Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />1257 <field id="ISO_FER" long_name="dissolved iron Isopycnal Mixing Trend" unit="mmol Fe/m3/s" > LDF_FER + ZDF_FER - ZDP_FER </field>1258 <field id="ISO_FER_E3T" long_name="ISO_FER * E3T" unit="mmol Fe/m2/s" > ISO_FER * e3t </field>1259 <field id="ISO_FER_INV" field_ref="ISO_FER_E3T" long_name="ISO_FER Inventory" unit="mmol Fe/m2/s" grid_ref="vert_sum" />1267 <field id="ISO_SIL" long_name="dissolved silicic acid Isopycnal Mixing Trend" unit="mmol-Si/m3/s" > LDF_SIL + ZDF_SIL - ZDP_SIL </field> 1268 <field id="ISO_SIL_E3T" long_name="ISO_SIL * E3T" unit="mmol-Si/m2/s" > ISO_SIL * e3t </field> 1269 <field id="ISO_SIL_INV" field_ref="ISO_SIL_E3T" long_name="ISO_SIL Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 1270 <field id="ISO_FER" long_name="dissolved iron Isopycnal Mixing Trend" unit="mmol-Fe/m3/s" > LDF_FER + ZDF_FER - ZDP_FER </field> 1271 <field id="ISO_FER_E3T" long_name="ISO_FER * E3T" unit="mmol-Fe/m2/s" > ISO_FER * e3t </field> 1272 <field id="ISO_FER_INV" field_ref="ISO_FER_E3T" long_name="ISO_FER Inventory" unit="mmol-Fe/m2/s" grid_ref="vert_sum" /> 1260 1273 <field id="ISO_DET" long_name="detrital nitrogen Isopycnal Mixing Trend" unit="mmol-N/m3/s" > LDF_DET + ZDF_DET - ZDP_DET </field> 1261 1274 <field id="ISO_DET_E3T" long_name="ISO_DET * E3T" unit="mmol-N/m2/s" > ISO_DET * e3t </field> 1262 1275 <field id="ISO_DET_INV" field_ref="ISO_DET_E3T" long_name="ISO_DET Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 1263 <field id="ISO_PDS" long_name="Diatoms biogenic silicon Isopycnal Mixing Trend" unit="mmol Si/m3/s" > LDF_PDS + ZDF_PDS - ZDP_PDS </field>1264 <field id="ISO_PDS_E3T" long_name="ISO_PDS * E3T" unit="mmol Si/m2/s" > ISO_PDS * e3t </field>1265 <field id="ISO_PDS_INV" field_ref="ISO_PDS_E3T" long_name="ISO_PDS Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />1276 <field id="ISO_PDS" long_name="Diatoms biogenic silicon Isopycnal Mixing Trend" unit="mmol-Si/m3/s" > LDF_PDS + ZDF_PDS - ZDP_PDS </field> 1277 <field id="ISO_PDS_E3T" long_name="ISO_PDS * E3T" unit="mmol-Si/m2/s" > ISO_PDS * e3t </field> 1278 <field id="ISO_PDS_INV" field_ref="ISO_PDS_E3T" long_name="ISO_PDS Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 1266 1279 <field id="ISO_DTC" long_name="detrital carbon Isopycnal Mixing Trend" unit="mmol-C/m3/s" > LDF_DTC + ZDF_DTC - ZDP_DTC </field> 1267 1280 <field id="ISO_DTC_E3T" long_name="ISO_DTC * E3T" unit="mmol-C/m2/s" > ISO_DTC * e3t </field> … … 1273 1286 <field id="ISO_ALK_E3T" long_name="ISO_ALK * E3T" unit="meq/m2/s" > ISO_ALK * e3t </field> 1274 1287 <field id="ISO_ALK_INV" field_ref="ISO_ALK_E3T" long_name="ISO_ALK Inventory" unit="meq/m2/s" grid_ref="vert_sum" /> 1275 <field id="ISO_OXY" long_name="dissolved oxygen Isopycnal Mixing Trend" unit="mmol O2/m3/s" > LDF_OXY + ZDF_OXY - ZDP_OXY </field>1276 <field id="ISO_OXY_E3T" long_name="ISO_OXY * E3T" unit="mmol O2/m2/s" > ISO_OXY * e3t </field>1277 <field id="ISO_OXY_INV" field_ref="ISO_OXY_E3T" long_name="ISO_OXY Inventory" unit="mmol O2/m2/s" grid_ref="vert_sum" />1288 <field id="ISO_OXY" long_name="dissolved oxygen Isopycnal Mixing Trend" unit="mmol-O2/m3/s" > LDF_OXY + ZDF_OXY - ZDP_OXY </field> 1289 <field id="ISO_OXY_E3T" long_name="ISO_OXY * E3T" unit="mmol-O2/m2/s" > ISO_OXY * e3t </field> 1290 <field id="ISO_OXY_INV" field_ref="ISO_OXY_E3T" long_name="ISO_OXY Inventory" unit="mmol-O2/m2/s" grid_ref="vert_sum" /> 1278 1291 1279 1292 <!-- Ideal traceurs : variables available with key_idtra --> … … 1326 1339 <field id="XAD_CFC11_INV" field_ref="XAD_CFC11_E3T" long_name="XAD_CFC11 Inventory" unit="umol/m2/s" grid_ref="vert_sum" /> 1327 1340 <field id="YAD_CFC11" long_name="CFC11 Y-Advection Trend" unit="umol/m3/s" /> 1328 <field id="YAD_CFC11_E3T" long_name="YAD_CFC11 * E3T" unit="umol/m2/s" > YAD_CFC11 * e3t </field>1341 <field id="YAD_CFC11_E3T" long_name="YAD_CFC11 * E3T" unit="umol/m2/s" > YAD_CFC11 * e3t </field> 1329 1342 <field id="YAD_CFC11_INV" field_ref="YAD_CFC11_E3T" long_name="YAD_CFC11 Inventory" unit="umol/m2/s" grid_ref="vert_sum" /> 1330 1343 <field id="ZAD_CFC11" long_name="CFC11 Z-Advection Trend" unit="umol/m3/s" /> … … 1545 1558 <field_group id="ptrd_T" grid_ref="grid_T_3D"> <!-- key_trdtrc || key_trdmlx_trc --> 1546 1559 <!-- trd case: jptra_tot --> 1547 <field id="TOT_CHN" long_name="Non-diatom Chl-a Total Trend" unit="mg 1548 <field id="TOT_CHN_E3T" long_name="TOT_CHN * E3T" unit="mg 1549 <field id="TOT_CHN_INV" field_ref="TOT_CHN_E3T" long_name="TOT_CHN Inventory" unit="mg 1550 <field id="TOT_CHD" long_name="Diatom Chl-a Total Trend" unit="mg 1551 <field id="TOT_CHD_E3T" long_name="TOT_CHD * E3T" unit="mg 1552 <field id="TOT_CHD_INV" field_ref="TOT_CHD_E3T" long_name="TOT_CHD Inventory" unit="mg 1560 <field id="TOT_CHN" long_name="Non-diatom Chl-a Total Trend" unit="mg-Chl/m3/s" /> 1561 <field id="TOT_CHN_E3T" long_name="TOT_CHN * E3T" unit="mg-Chl/m2/s" > TOT_CHN * e3t </field> 1562 <field id="TOT_CHN_INV" field_ref="TOT_CHN_E3T" long_name="TOT_CHN Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 1563 <field id="TOT_CHD" long_name="Diatom Chl-a Total Trend" unit="mg-Chl/m3/s" /> 1564 <field id="TOT_CHD_E3T" long_name="TOT_CHD * E3T" unit="mg-Chl/m2/s" > TOT_CHD * e3t </field> 1565 <field id="TOT_CHD_INV" field_ref="TOT_CHD_E3T" long_name="TOT_CHD Inventory" unit="mg-Chl/m2/s" grid_ref="vert_sum" /> 1553 1566 <field id="TOT_PHN" long_name="non-diatom phytoplankton Total Trend" unit="mmol-N/m3/s" /> 1554 1567 <field id="TOT_PHN_E3T" long_name="TOT_PHN * E3T" unit="mmol-N/m2/s" > TOT_PHN * e3t </field> … … 1566 1579 <field id="TOT_DIN_E3T" long_name="TOT_DIN * E3T" unit="mmol-N/m2/s" > TOT_DIN * e3t </field> 1567 1580 <field id="TOT_DIN_INV" field_ref="TOT_DIN_E3T" long_name="TOT_DIN Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 1568 <field id="TOT_SIL" long_name="dissolved silicic acid Total Trend" unit="mmol Si/m3/s" />1569 <field id="TOT_SIL_E3T" long_name="TOT_SIL * E3T" unit="mmol Si/m2/s" > TOT_SIL * e3t </field>1570 <field id="TOT_SIL_INV" field_ref="TOT_SIL_E3T" long_name="TOT_SIL Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />1571 <field id="TOT_FER" long_name="dissolved iron Total Trend" unit="mmol Fe/m3/s" />1572 <field id="TOT_FER_E3T" long_name="TOT_FER * E3T" unit="mmol Fe/m2/s" > TOT_FER * e3t </field>1573 <field id="TOT_FER_INV" field_ref="TOT_FER_E3T" long_name="TOT_FER Inventory" unit="mmol Fe/m2/s" grid_ref="vert_sum" />1581 <field id="TOT_SIL" long_name="dissolved silicic acid Total Trend" unit="mmol-Si/m3/s" /> 1582 <field id="TOT_SIL_E3T" long_name="TOT_SIL * E3T" unit="mmol-Si/m2/s" > TOT_SIL * e3t </field> 1583 <field id="TOT_SIL_INV" field_ref="TOT_SIL_E3T" long_name="TOT_SIL Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 1584 <field id="TOT_FER" long_name="dissolved iron Total Trend" unit="mmol-Fe/m3/s" /> 1585 <field id="TOT_FER_E3T" long_name="TOT_FER * E3T" unit="mmol-Fe/m2/s" > TOT_FER * e3t </field> 1586 <field id="TOT_FER_INV" field_ref="TOT_FER_E3T" long_name="TOT_FER Inventory" unit="mmol-Fe/m2/s" grid_ref="vert_sum" /> 1574 1587 <field id="TOT_DET" long_name="detrital nitrogen Total Trend" unit="mmol-N/m3/s" /> 1575 1588 <field id="TOT_DET_E3T" long_name="TOT_DET * E3T" unit="mmol-N/m2/s" > TOT_DET * e3t </field> 1576 1589 <field id="TOT_DET_INV" field_ref="TOT_DET_E3T" long_name="TOT_DET Inventory" unit="mmol-N/m2/s" grid_ref="vert_sum" /> 1577 <field id="TOT_PDS" long_name="Diatoms biogenic silicon Total Trend" unit="mmol Si/m3/s" />1578 <field id="TOT_PDS_E3T" long_name="TOT_PDS * E3T" unit="mmol Si/m2/s" > TOT_PDS * e3t </field>1579 <field id="TOT_PDS_INV" field_ref="TOT_PDS_E3T" long_name="TOT_PDS Inventory" unit="mmol Si/m2/s" grid_ref="vert_sum" />1590 <field id="TOT_PDS" long_name="Diatoms biogenic silicon Total Trend" unit="mmol-Si/m3/s" /> 1591 <field id="TOT_PDS_E3T" long_name="TOT_PDS * E3T" unit="mmol-Si/m2/s" > TOT_PDS * e3t </field> 1592 <field id="TOT_PDS_INV" field_ref="TOT_PDS_E3T" long_name="TOT_PDS Inventory" unit="mmol-Si/m2/s" grid_ref="vert_sum" /> 1580 1593 <field id="TOT_DTC" long_name="detrital carbon Total Trend" unit="mmol-C/m3/s" /> 1581 1594 <field id="TOT_DTC_E3T" long_name="TOT_DTC * E3T" unit="mmol-C/m2/s" > TOT_DTC * e3t </field> … … 1587 1600 <field id="TOT_ALK_E3T" long_name="TOT_ALK * E3T" unit="meq/m2/s" > TOT_ALK * e3t </field> 1588 1601 <field id="TOT_ALK_INV" field_ref="TOT_ALK_E3T" long_name="TOT_ALK Inventory" unit="meq/m2/s" grid_ref="vert_sum" /> 1589 <field id="TOT_OXY" long_name="dissolved oxygen Total Trend" unit="mmol O2/m3/s" />1590 <field id="TOT_OXY_E3T" long_name="TOT_OXY * E3T" unit="mmol O2/m2/s" > TOT_OXY * e3t </field>1591 <field id="TOT_OXY_INV" field_ref="TOT_OXY_E3T" long_name="TOT_OXY Inventory" unit="mmol O2/m2/s" grid_ref="vert_sum" />1602 <field id="TOT_OXY" long_name="dissolved oxygen Total Trend" unit="mmol-O2/m3/s" /> 1603 <field id="TOT_OXY_E3T" long_name="TOT_OXY * E3T" unit="mmol-O2/m2/s" > TOT_OXY * e3t </field> 1604 <field id="TOT_OXY_INV" field_ref="TOT_OXY_E3T" long_name="TOT_OXY Inventory" unit="mmol-O2/m2/s" grid_ref="vert_sum" /> 1592 1605 <!-- trd : VERIF TRENDS --> 1593 1606 <!-- <field id="TOT_DIN_CHECK" long_name="DIN - indirect calculation TOTAL trend" unit="mmol-N/m3/s" > TAD_DIN_E3T + BBL_DIN_E3T + ISO_DIN_E3T + ZDP_DIN_E3T + ATF_DIN_E3T + SMS_DIN_E3T </field> --> … … 1596 1609 <field id="TOT_IDTRA" long_name="Ideal traceur Total Trend " unit="mmol/m3/s" /> 1597 1610 <field id="TOT_IDTRA_E3T" long_name="TOT_IDTRA * E3T" unit="mmol/m2/s" > TOT_IDTRA * e3t </field> 1598 <field id="TOT_IDTRA_INV" field_ref="TOT_IDTRA_E3T" long_name="TOT_IDTRA Inventory" unit="mmol/m2/s" grid_ref="vert_sum" />1611 <field id="TOT_IDTRA_INV" field_ref="TOT_IDTRA_E3T" long_name="TOT_IDTRA Inventory" unit="mmol/m2/s" grid_ref="vert_sum" /> 1599 1612 1600 1613 <!-- CFC11 : variables available with key_cfc --> … … 1617 1630 1618 1631 <!-- AGE : variables available with key_age --> 1619 <field id="TOT_Age" long_name="Sea Water Age Total Trend" standard_name="sea_water_age_since_surface_contact"unit="yr/s" />1632 <field id="TOT_Age" long_name="Sea Water Age Total Trend" unit="yr/s" /> 1620 1633 <field id="TOT_Age_E3T" long_name="TOT_Age * E3T" unit="yr m/s" > TOT_Age * e3t </field> 1621 1634 <field id="TOT_Age_INV" field_ref="TOT_Age_E3T" long_name="TOT_Age Inventory" unit="yr m/s" grid_ref="vert_sum" /> … … 1646 1659 <field field_ref="CHN" name="CHN" /> 1647 1660 <field field_ref="CHN_E3T" name="CHN_E3T" /> 1648 <field field_ref="SURF_CHN" name="SURF_CHN" />1649 1661 <field field_ref="CHD" name="CHD" /> 1650 1662 <field field_ref="CHD_E3T" name="CHD_E3T" /> 1651 <field field_ref="SURF_CHD" name="SURF_CHD" />1652 1663 <field field_ref="PHN" name="PHN" /> 1653 1664 <field field_ref="PHN_E3T" name="PHN_E3T" /> … … 1676 1687 <field field_ref="OXY" name="OXY" /> 1677 1688 <field field_ref="OXY_E3T" name="OXY_E3T" /> 1678 </field_group> 1679 1689 </field_group> 1690 1691 <field_group id="groupMEDUSA_surf" > 1692 <field field_ref="SURF_CHN" name="SURF_CHN" /> 1693 <field field_ref="SURF_CHD" name="SURF_CHD" /> 1694 <field field_ref="SURF_PHN" name="SURF_PHN" /> 1695 <field field_ref="SURF_PHD" name="SURF_PHD" /> 1696 <field field_ref="SURF_ZMI" name="SURF_ZMI" /> 1697 <field field_ref="SURF_ZME" name="SURF_ZME" /> 1698 <field field_ref="SURF_DIN" name="SURF_DIN" /> 1699 <field field_ref="SURF_SIL" name="SURF_SIL" /> 1700 <field field_ref="SURF_FER" name="SURF_FER" /> 1701 <field field_ref="SURF_DET" name="SURF_DET" /> 1702 <field field_ref="SURF_PDS" name="SURF_PDS" /> 1703 <field field_ref="SURF_DTC" name="SURF_DTC" /> 1704 <field field_ref="SURF_DiC" name="SURF_DiC" /> 1705 <field field_ref="SURF_ALK" name="SURF_ALK" /> 1706 <field field_ref="SURF_OXY" name="SURF_OXY" /> 1707 </field_group> 1680 1708 1681 1709 <field_group id="groupMEDUSA_INV" > … … 1730 1758 1731 1759 1732 <field_group id="trendMEDUSA " >1760 <field_group id="trendMEDUSA_long" > 1733 1761 <!-- trd case: jptra_xad --> 1734 1762 <field field_ref="XAD_CHN" name="XAD_CHN" /> … … 1781 1809 <!-- trd case: jptra_totad --> 1782 1810 <field field_ref="TAD_CHN" name="TAD_CHN" /> 1783 <field field_ref="TAD_CHN_INV" name="TAD_CHN_INV" />1784 1811 <field field_ref="TAD_CHD" name="TAD_CHD" /> 1785 <field field_ref="TAD_CHD_INV" name="TAD_CHD_INV" />1786 1812 <field field_ref="TAD_PHN" name="TAD_PHN" /> 1787 <field field_ref="TAD_PHN_INV" name="TAD_PHN_INV" />1788 1813 <field field_ref="TAD_PHD" name="TAD_PHD" /> 1789 <field field_ref="TAD_PHD_INV" name="TAD_PHD_INV" />1790 1814 <field field_ref="TAD_ZMI" name="TAD_ZMI" /> 1791 <field field_ref="TAD_ZMI_INV" name="TAD_ZMI_INV" />1792 1815 <field field_ref="TAD_ZME" name="TAD_ZME" /> 1793 <field field_ref="TAD_ZME_INV" name="TAD_ZME_INV" />1794 1816 <field field_ref="TAD_DIN" name="TAD_DIN" /> 1795 <field field_ref="TAD_DIN_INV" name="TAD_DIN_INV" />1796 1817 <field field_ref="TAD_SIL" name="TAD_SIL" /> 1797 <field field_ref="TAD_SIL_INV" name="TAD_SIL_INV" />1798 1818 <field field_ref="TAD_FER" name="TAD_FER" /> 1799 <field field_ref="TAD_FER_INV" name="TAD_FER_INV" />1800 1819 <field field_ref="TAD_DET" name="TAD_DET" /> 1801 <field field_ref="TAD_DET_INV" name="TAD_DET_INV" />1802 1820 <field field_ref="TAD_PDS" name="TAD_PDS" /> 1803 <field field_ref="TAD_PDS_INV" name="TAD_PDS_INV" />1804 1821 <field field_ref="TAD_DTC" name="TAD_DTC" /> 1805 <field field_ref="TAD_DTC_INV" name="TAD_DTC_INV" />1806 1822 <field field_ref="TAD_DiC" name="TAD_DiC" /> 1807 <field field_ref="TAD_DiC_INV" name="TAD_DiC_INV" />1808 1823 <field field_ref="TAD_ALK" name="TAD_ALK" /> 1809 <field field_ref="TAD_ALK_INV" name="TAD_ALK_INV" />1810 1824 <field field_ref="TAD_OXY" name="TAD_OXY" /> 1811 <field field_ref="TAD_OXY_INV" name="TAD_OXY_INV" />1812 1825 <!-- trd case: jptra_ldf --> 1813 1826 <field field_ref="LDF_CHN" name="LDF_CHN" /> … … 1909 1922 <!-- trd case: jptra_sms --> 1910 1923 <field field_ref="SMS_CHN" name="SMS_CHN" /> 1911 <field field_ref="SMS_CHN_INV" name="SMS_CHN_INV" />1912 1924 <field field_ref="SMS_CHD" name="SMS_CHD" /> 1913 <field field_ref="SMS_CHD_INV" name="SMS_CHD_INV" />1914 1925 <field field_ref="SMS_PHN" name="SMS_PHN" /> 1915 <field field_ref="SMS_PHN_INV" name="SMS_PHN_INV" />1916 1926 <field field_ref="SMS_PHD" name="SMS_PHD" /> 1917 <field field_ref="SMS_PHD_INV" name="SMS_PHD_INV" />1918 1927 <field field_ref="SMS_ZMI" name="SMS_ZMI" /> 1919 <field field_ref="SMS_ZMI_INV" name="SMS_ZMI_INV" />1920 1928 <field field_ref="SMS_ZME" name="SMS_ZME" /> 1921 <field field_ref="SMS_ZME_INV" name="SMS_ZME_INV" />1922 1929 <field field_ref="SMS_DIN" name="SMS_DIN" /> 1923 <field field_ref="SMS_DIN_INV" name="SMS_DIN_INV" />1924 1930 <field field_ref="SMS_SIL" name="SMS_SIL" /> 1925 <field field_ref="SMS_SIL_INV" name="SMS_SIL_INV" />1926 1931 <field field_ref="SMS_FER" name="SMS_FER" /> 1927 <field field_ref="SMS_FER_INV" name="SMS_FER_INV" />1928 1932 <field field_ref="SMS_DET" name="SMS_DET" /> 1929 <field field_ref="SMS_DET_INV" name="SMS_DET_INV" />1930 1933 <field field_ref="SMS_PDS" name="SMS_PDS" /> 1931 <field field_ref="SMS_PDS_INV" name="SMS_PDS_INV" />1932 1934 <field field_ref="SMS_DTC" name="SMS_DTC" /> 1933 <field field_ref="SMS_DTC_INV" name="SMS_DTC_INV" />1934 1935 <field field_ref="SMS_DiC" name="SMS_DiC" /> 1935 <field field_ref="SMS_DiC_INV" name="SMS_DiC_INV" />1936 1936 <field field_ref="SMS_ALK" name="SMS_ALK" /> 1937 <field field_ref="SMS_ALK_INV" name="SMS_ALK_INV" />1938 1937 <field field_ref="SMS_OXY" name="SMS_OXY" /> 1939 <field field_ref="SMS_OXY_INV" name="SMS_OXY_INV" />1940 1938 <!-- trd case: jptra_atf --> 1941 1939 <field field_ref="ATF_CHN" name="ATF_CHN" /> … … 1956 1954 <!-- trd case: jptra_tot --> 1957 1955 <field field_ref="TOT_CHN" name="TOT_CHN" /> 1958 <field field_ref="TOT_CHN_INV" name="TOT_CHN_INV" />1959 1956 <field field_ref="TOT_CHD" name="TOT_CHD" /> 1960 <field field_ref="TOT_CHD_INV" name="TOT_CHD_INV" />1961 1957 <field field_ref="TOT_PHN" name="TOT_PHN" /> 1962 <field field_ref="TOT_PHN_INV" name="TOT_PHN_INV" />1963 1958 <field field_ref="TOT_PHD" name="TOT_PHD" /> 1964 <field field_ref="TOT_PHD_INV" name="TOT_PHD_INV" />1965 1959 <field field_ref="TOT_ZMI" name="TOT_ZMI" /> 1966 <field field_ref="TOT_ZMI_INV" name="TOT_ZMI_INV" />1967 1960 <field field_ref="TOT_ZME" name="TOT_ZME" /> 1968 <field field_ref="TOT_ZME_INV" name="TOT_ZME_INV" />1969 1961 <field field_ref="TOT_DIN" name="TOT_DIN" /> 1970 <field field_ref="TOT_DIN_INV" name="TOT_DIN_INV" />1971 1962 <field field_ref="TOT_SIL" name="TOT_SIL" /> 1972 <field field_ref="TOT_SIL_INV" name="TOT_SIL_INV" />1973 1963 <field field_ref="TOT_FER" name="TOT_FER" /> 1974 <field field_ref="TOT_FER_INV" name="TOT_FER_INV" />1975 1964 <field field_ref="TOT_DET" name="TOT_DET" /> 1976 <field field_ref="TOT_DET_INV" name="TOT_DET_INV" />1977 1965 <field field_ref="TOT_PDS" name="TOT_PDS" /> 1978 <field field_ref="TOT_PDS_INV" name="TOT_PDS_INV" />1979 1966 <field field_ref="TOT_DTC" name="TOT_DTC" /> 1980 <field field_ref="TOT_DTC_INV" name="TOT_DTC_INV" />1981 1967 <field field_ref="TOT_DiC" name="TOT_DiC" /> 1982 <field field_ref="TOT_DiC_INV" name="TOT_DiC_INV" />1983 1968 <field field_ref="TOT_ALK" name="TOT_ALK" /> 1984 <field field_ref="TOT_ALK_INV" name="TOT_ALK_INV" />1985 1969 <field field_ref="TOT_OXY" name="TOT_OXY" /> 1986 <field field_ref="TOT_OXY_INV" name="TOT_OXY_INV" />1987 1970 <!-- trd case: jptra_iso --> 1988 1971 <field field_ref="ISO_CHN" name="ISO_CHN" /> … … 2003 1986 </field_group> 2004 1987 2005 <field_group id="trendCFC11 " >1988 <field_group id="trendCFC11_long" > 2006 1989 <!-- cfc11 --> 2007 <field field_ref="TOT_CFC11" name="TOT_CFC11" standard_name="CFC-11_Concentration" /> 2008 <field field_ref="TOT_CFC11_INV" name="TOT_CFC11_INV" standard_name="CFC-11_Concentration" /> 2009 <field field_ref="XAD_CFC11" name="XAD_CFC11" standard_name="CFC-11_Concentration" /> 2010 <field field_ref="YAD_CFC11" name="YAD_CFC11" standard_name="CFC-11_Concentration" /> 2011 <field field_ref="ZAD_CFC11" name="ZAD_CFC11" standard_name="CFC-11_Concentration" /> 2012 <field field_ref="TAD_CFC11" name="TAD_CFC11" standard_name="CFC-11_Concentration" /> 2013 <field field_ref="TAD_CFC11_INV" name="TAD_CFC11_INV" standard_name="CFC-11_Concentration" /> 2014 <field field_ref="LDF_CFC11" name="LDF_CFC11" standard_name="CFC-11_Concentration" /> 2015 <field field_ref="BBL_CFC11" name="BBL_CFC11" standard_name="CFC-11_Concentration" /> 2016 <field field_ref="FOR_CFC11" name="FOR_CFC11" standard_name="CFC-11_Concentration" /> 2017 <field field_ref="ZDF_CFC11" name="ZDF_CFC11" standard_name="CFC-11_Concentration" /> 2018 <field field_ref="ZDP_CFC11" name="ZDP_CFC11" standard_name="CFC-11_Concentration" /> 2019 <!-- <field field_ref="DMP_CFC11" name="DMP_CFC11" standard_name="CFC-11_Concentration" /> --> 2020 <field field_ref="SMS_CFC11" name="SMS_CFC11" standard_name="CFC-11_Concentration" /> 2021 <field field_ref="SMS_CFC11_INV" name="SMS_CFC11_INV" standard_name="CFC-11_Concentration" /> 2022 <field field_ref="ATF_CFC11" name="ATF_CFC11" standard_name="CFC-11_Concentration" /> 2023 <field field_ref="ISO_CFC11" name="ISO_CFC11" standard_name="CFC-11_Concentration" /> 1990 <field field_ref="TOT_CFC11" name="TOT_CFC11" /> 1991 <field field_ref="XAD_CFC11" name="XAD_CFC11" /> 1992 <field field_ref="YAD_CFC11" name="YAD_CFC11" /> 1993 <field field_ref="ZAD_CFC11" name="ZAD_CFC11" /> 1994 <field field_ref="TAD_CFC11" name="TAD_CFC11" /> 1995 <field field_ref="LDF_CFC11" name="LDF_CFC11" /> 1996 <field field_ref="BBL_CFC11" name="BBL_CFC11" /> 1997 <field field_ref="FOR_CFC11" name="FOR_CFC11" /> 1998 <field field_ref="ZDF_CFC11" name="ZDF_CFC11" /> 1999 <field field_ref="ZDP_CFC11" name="ZDP_CFC11" /> 2000 <!-- <field field_ref="DMP_CFC11" name="DMP_CFC11" /> --> 2001 <field field_ref="SMS_CFC11" name="SMS_CFC11" /> 2002 <field field_ref="ATF_CFC11" name="ATF_CFC11" /> 2003 <field field_ref="ISO_CFC11" name="ISO_CFC11" /> 2024 2004 </field_group> 2025 2005 2026 <field_group id="trendCFC12 " >2006 <field_group id="trendCFC12_long" > 2027 2007 <!-- cfc12 --> 2028 <field field_ref="TOT_CFC12" name="TOT_CFC12" standard_name="CFC-12_Concentration" /> 2029 <field field_ref="TOT_CFC12_INV" name="TOT_CFC12_INV" standard_name="CFC-12_Concentration" /> 2030 <field field_ref="XAD_CFC12" name="XAD_CFC12" standard_name="CFC-12_Concentration" /> 2031 <field field_ref="YAD_CFC12" name="YAD_CFC12" standard_name="CFC-12_Concentration" /> 2032 <field field_ref="ZAD_CFC12" name="ZAD_CFC12" standard_name="CFC-12_Concentration" /> 2033 <field field_ref="TAD_CFC12" name="TAD_CFC12" standard_name="CFC-12_Concentration" /> 2034 <field field_ref="TAD_CFC12_INV" name="TAD_CFC12_INV" standard_name="CFC-12_Concentration" /> 2035 <field field_ref="LDF_CFC12" name="LDF_CFC12" standard_name="CFC-12_Concentration" /> 2036 <field field_ref="BBL_CFC12" name="BBL_CFC12" standard_name="CFC-12_Concentration" /> 2037 <field field_ref="FOR_CFC12" name="FOR_CFC12" standard_name="CFC-12_Concentration" /> 2038 <field field_ref="ZDF_CFC12" name="ZDF_CFC12" standard_name="CFC-12_Concentration" /> 2039 <field field_ref="ZDP_CFC12" name="ZDP_CFC12" standard_name="CFC-12_Concentration" /> 2040 <!-- <field field_ref="DMP_CFC12" name="DMP_CFC12" standard_name="CFC-12_Concentration" /> --> 2041 <field field_ref="SMS_CFC12" name="SMS_CFC12" standard_name="CFC-12_Concentration" /> 2042 <field field_ref="SMS_CFC12_INV" name="SMS_CFC12_INV" standard_name="CFC-12_Concentration" /> 2043 <field field_ref="ATF_CFC12" name="ATF_CFC12" standard_name="CFC-12_Concentration" /> 2044 <field field_ref="ISO_CFC12" name="ISO_CFC12" standard_name="CFC-12_Concentration" /> 2008 <field field_ref="TOT_CFC12" name="TOT_CFC12" /> 2009 <field field_ref="XAD_CFC12" name="XAD_CFC12" /> 2010 <field field_ref="YAD_CFC12" name="YAD_CFC12" /> 2011 <field field_ref="ZAD_CFC12" name="ZAD_CFC12" /> 2012 <field field_ref="TAD_CFC12" name="TAD_CFC12" /> 2013 <field field_ref="LDF_CFC12" name="LDF_CFC12" /> 2014 <field field_ref="BBL_CFC12" name="BBL_CFC12" /> 2015 <field field_ref="FOR_CFC12" name="FOR_CFC12" /> 2016 <field field_ref="ZDF_CFC12" name="ZDF_CFC12" /> 2017 <field field_ref="ZDP_CFC12" name="ZDP_CFC12" /> 2018 <!-- <field field_ref="DMP_CFC12" name="DMP_CFC12" /> --> 2019 <field field_ref="SMS_CFC12" name="SMS_CFC12" /> 2020 <field field_ref="ATF_CFC12" name="ATF_CFC12" /> 2021 <field field_ref="ISO_CFC12" name="ISO_CFC12" /> 2045 2022 </field_group> 2046 2023 2047 <field_group id="trendSF6 " >2024 <field_group id="trendSF6_long" > 2048 2025 <!-- sf6 --> 2049 <field field_ref="TOT_SF6" name="TOT_SF6" standard_name="SF6_Concentration" /> 2050 <field field_ref="TOT_SF6_INV" name="TOT_SF6_INV" standard_name="SF6_Concentration" /> 2051 <field field_ref="XAD_SF6" name="XAD_SF6" standard_name="SF6_Concentration" /> 2052 <field field_ref="YAD_SF6" name="YAD_SF6" standard_name="SF6_Concentration" /> 2053 <field field_ref="ZAD_SF6" name="ZAD_SF6" standard_name="SF6_Concentration" /> 2054 <field field_ref="TAD_SF6" name="TAD_SF6" standard_name="SF6_Concentration" /> 2055 <field field_ref="TAD_SF6_INV" name="TAD_SF6_INV" standard_name="SF6_Concentration" /> 2056 <field field_ref="LDF_SF6" name="LDF_SF6" standard_name="SF6_Concentration" /> 2057 <field field_ref="BBL_SF6" name="BBL_SF6" standard_name="SF6_Concentration" /> 2058 <field field_ref="FOR_SF6" name="FOR_SF6" standard_name="SF6_Concentration" /> 2059 <field field_ref="ZDF_SF6" name="ZDF_SF6" standard_name="SF6_Concentration" /> 2060 <field field_ref="ZDP_SF6" name="ZDP_SF6" standard_name="SF6_Concentration" /> 2061 <!-- <field field_ref="DMP_SF6" name="DMP_SF6" standard_name="SF6_Concentration" /> --> 2062 <field field_ref="SMS_SF6" name="SMS_SF6" standard_name="SF6_Concentration" /> 2063 <field field_ref="SMS_SF6_INV" name="SMS_SF6_INV" standard_name="SF6_Concentration" /> 2064 <field field_ref="ATF_SF6" name="ATF_SF6" standard_name="SF6_Concentration" /> 2065 <field field_ref="ISO_SF6" name="ISO_SF6" standard_name="SF6_Concentration" /> 2026 <field field_ref="TOT_SF6" name="TOT_SF6" /> 2027 <field field_ref="XAD_SF6" name="XAD_SF6" /> 2028 <field field_ref="YAD_SF6" name="YAD_SF6" /> 2029 <field field_ref="ZAD_SF6" name="ZAD_SF6" /> 2030 <field field_ref="TAD_SF6" name="TAD_SF6" /> 2031 <field field_ref="LDF_SF6" name="LDF_SF6" /> 2032 <field field_ref="BBL_SF6" name="BBL_SF6" /> 2033 <field field_ref="FOR_SF6" name="FOR_SF6" /> 2034 <field field_ref="ZDF_SF6" name="ZDF_SF6" /> 2035 <field field_ref="ZDP_SF6" name="ZDP_SF6" /> 2036 <!-- <field field_ref="DMP_SF6" name="DMP_SF6" /> --> 2037 <field field_ref="SMS_SF6" name="SMS_SF6" /> 2038 <field field_ref="ATF_SF6" name="ATF_SF6" /> 2039 <field field_ref="ISO_SF6" name="ISO_SF6" /> 2066 2040 </field_group> 2067 2041 2068 <field_group id="trendAGE " >2042 <field_group id="trendAGE_long" > 2069 2043 <!-- age --> 2070 <field field_ref="TOT_Age" name="TOT_Age" standard_name="sea_water_age_since_surface_contact" /> 2071 <field field_ref="TOT_Age_INV" name="TOT_Age_INV" standard_name="sea_water_age_since_surface_contact" /> 2072 <field field_ref="XAD_Age" name="XAD_Age" standard_name="sea_water_age_since_surface_contact" /> 2073 <field field_ref="YAD_Age" name="YAD_Age" standard_name="sea_water_age_since_surface_contact" /> 2074 <field field_ref="ZAD_Age" name="ZAD_Age" standard_name="sea_water_age_since_surface_contact" /> 2075 <field field_ref="TAD_Age" name="TAD_Age" standard_name="sea_water_age_since_surface_contact" /> 2076 <field field_ref="TAD_Age_INV" name="TAD_Age_INV" standard_name="sea_water_age_since_surface_contact" /> 2077 <field field_ref="LDF_Age" name="LDF_Age" standard_name="sea_water_age_since_surface_contact" /> 2078 <field field_ref="BBL_Age" name="BBL_Age" standard_name="sea_water_age_since_surface_contact" /> 2079 <field field_ref="FOR_Age" name="FOR_Age" standard_name="sea_water_age_since_surface_contact" /> 2080 <field field_ref="ZDF_Age" name="ZDF_Age" standard_name="sea_water_age_since_surface_contact" /> 2081 <field field_ref="ZDP_Age" name="ZDP_Age" standard_name="sea_water_age_since_surface_contact" /> 2082 <!-- <field field_ref="DMP_Age" name="DMP_Age" standard_name="sea_water_age_since_surface_contact" /> --> 2083 <field field_ref="SMS_Age" name="SMS_Age" standard_name="sea_water_age_since_surface_contact" /> 2084 <field field_ref="SMS_Age_INV" name="SMS_Age_INV" standard_name="sea_water_age_since_surface_contact" /> 2085 <field field_ref="ATF_Age" name="ATF_Age" standard_name="sea_water_age_since_surface_contact" /> 2086 <field field_ref="ISO_Age" name="ISO_Age" standard_name="sea_water_age_since_surface_contact" /> 2044 <field field_ref="TOT_Age" name="TOT_Age" /> 2045 <field field_ref="XAD_Age" name="XAD_Age" /> 2046 <field field_ref="YAD_Age" name="YAD_Age" /> 2047 <field field_ref="ZAD_Age" name="ZAD_Age" /> 2048 <field field_ref="TAD_Age" name="TAD_Age" /> 2049 <field field_ref="LDF_Age" name="LDF_Age" /> 2050 <field field_ref="BBL_Age" name="BBL_Age" /> 2051 <field field_ref="FOR_Age" name="FOR_Age" /> 2052 <field field_ref="ZDF_Age" name="ZDF_Age" /> 2053 <field field_ref="ZDP_Age" name="ZDP_Age" /> 2054 <!-- <field field_ref="DMP_Age" name="DMP_Age" /> --> 2055 <field field_ref="SMS_Age" name="SMS_Age" /> 2056 <field field_ref="ATF_Age" name="ATF_Age" /> 2057 <field field_ref="ISO_Age" name="ISO_Age" /> 2087 2058 </field_group> 2088 2059 2089 <field_group id="trendIDTRA " >2060 <field_group id="trendIDTRA_long" > 2090 2061 <!-- Ideal tracer --> 2091 <field field_ref="TOT_IDTRA" name="TOT_IDTRA" standard_name="IDTRA_Concentration" /> 2092 <field field_ref="TOT_IDTRA_INV" name="TOT_IDTRA_INV" standard_name="IDTRA_Concentration" /> 2093 <field field_ref="XAD_IDTRA" name="XAD_IDTRA" standard_name="IDTRA_Concentration" /> 2094 <field field_ref="YAD_IDTRA" name="YAD_IDTRA" standard_name="IDTRA_Concentration" /> 2095 <field field_ref="ZAD_IDTRA" name="ZAD_IDTRA" standard_name="IDTRA_Concentration" /> 2096 <field field_ref="TAD_IDTRA" name="TAD_IDTRA" standard_name="IDTRA_Concentration" /> 2097 <field field_ref="TAD_IDTRA_INV" name="TAD_IDTRA_INV" standard_name="IDTRA_Concentration" /> 2098 <field field_ref="LDF_IDTRA" name="LDF_IDTRA" standard_name="IDTRA_Concentration" /> 2099 <field field_ref="BBL_IDTRA" name="BBL_IDTRA" standard_name="IDTRA_Concentration" /> 2100 <field field_ref="FOR_IDTRA" name="FOR_IDTRA" standard_name="IDTRA_Concentration" /> 2101 <field field_ref="ZDF_IDTRA" name="ZDF_IDTRA" standard_name="IDTRA_Concentration" /> 2102 <field field_ref="ZDP_IDTRA" name="ZDP_IDTRA" standard_name="IDTRA_Concentration" /> 2103 <!-- <field field_ref="DMP_IDTRA" name="DMP_IDTRA" standard_name="IDTRA_Concentration" /> --> 2104 <field field_ref="SMS_IDTRA" name="SMS_IDTRA" standard_name="IDTRA_Concentration" /> 2105 <field field_ref="SMS_IDTRA_INV" name="SMS_IDTRA_INV" standard_name="IDTRA_Concentration" /> 2106 <field field_ref="ATF_IDTRA" name="ATF_IDTRA" standard_name="IDTRA_Concentration" /> 2107 <field field_ref="ISO_IDTRA" name="ISO_IDTRA" standard_name="IDTRA_Concentration" /> 2062 <field field_ref="TOT_IDTRA" name="TOT_IDTRA" /> 2063 <field field_ref="XAD_IDTRA" name="XAD_IDTRA" /> 2064 <field field_ref="YAD_IDTRA" name="YAD_IDTRA" /> 2065 <field field_ref="ZAD_IDTRA" name="ZAD_IDTRA" /> 2066 <field field_ref="TAD_IDTRA" name="TAD_IDTRA" /> 2067 <field field_ref="LDF_IDTRA" name="LDF_IDTRA" /> 2068 <field field_ref="BBL_IDTRA" name="BBL_IDTRA" /> 2069 <field field_ref="FOR_IDTRA" name="FOR_IDTRA" /> 2070 <field field_ref="ZDF_IDTRA" name="ZDF_IDTRA" /> 2071 <field field_ref="ZDP_IDTRA" name="ZDP_IDTRA" /> 2072 <!-- <field field_ref="DMP_IDTRA" name="DMP_IDTRA" /> --> 2073 <field field_ref="SMS_IDTRA" name="SMS_IDTRA" /> 2074 <field field_ref="ATF_IDTRA" name="ATF_IDTRA" /> 2075 <field field_ref="ISO_IDTRA" name="ISO_IDTRA" /> 2108 2076 </field_group> 2109 2077 2110 <field_group id="trendC14B " >2078 <field_group id="trendC14B_long" > 2111 2079 <!-- c14 bomb --> 2112 <field field_ref="TOT_C14B" name="TOT_C14B" standard_name="C14b_Concentration" /> 2113 <field field_ref="TOT_C14B_INV" name="TOT_C14B_INV" standard_name="C14b_Concentration" /> 2114 <field field_ref="XAD_C14B" name="XAD_C14B" standard_name="C14b_Concentration" /> 2115 <field field_ref="YAD_C14B" name="YAD_C14B" standard_name="C14b_Concentration" /> 2116 <field field_ref="ZAD_C14B" name="ZAD_C14B" standard_name="C14b_Concentration" /> 2117 <field field_ref="TAD_C14B" name="TAD_C14B" standard_name="C14b_Concentration" /> 2118 <field field_ref="TAD_C14B_INV" name="TAD_C14B_INV" standard_name="C14b_Concentration" /> 2119 <field field_ref="LDF_C14B" name="LDF_C14B" standard_name="C14b_Concentration" /> 2120 <field field_ref="BBL_C14B" name="BBL_C14B" standard_name="C14b_Concentration" /> 2121 <field field_ref="FOR_C14B" name="FOR_C14B" standard_name="C14b_Concentration" /> 2122 <field field_ref="ZDF_C14B" name="ZDF_C14B" standard_name="C14b_Concentration" /> 2123 <field field_ref="ZDP_C14B" name="ZDP_C14B" standard_name="C14b_Concentration" /> 2124 <!-- <field field_ref="DMP_C14B" name="DMP_C14B" standard_name="C14b_Concentration" /> --> 2125 <field field_ref="SMS_C14B" name="SMS_C14B" standard_name="C14b_Concentration" /> 2126 <field field_ref="SMS_C14B_INV" name="SMS_C14B_INV" standard_name="C14b_Concentration" /> 2127 <field field_ref="ATF_C14B" name="ATF_C14B" standard_name="C14b_Concentration" /> 2128 <field field_ref="ISO_C14B" name="ISO_C14B" standard_name="C14b_Concentration" /> 2080 <field field_ref="TOT_C14B" name="TOT_C14B" /> 2081 <field field_ref="XAD_C14B" name="XAD_C14B" /> 2082 <field field_ref="YAD_C14B" name="YAD_C14B" /> 2083 <field field_ref="ZAD_C14B" name="ZAD_C14B" /> 2084 <field field_ref="TAD_C14B" name="TAD_C14B" /> 2085 <field field_ref="LDF_C14B" name="LDF_C14B" /> 2086 <field field_ref="BBL_C14B" name="BBL_C14B" /> 2087 <field field_ref="FOR_C14B" name="FOR_C14B" /> 2088 <field field_ref="ZDF_C14B" name="ZDF_C14B" /> 2089 <field field_ref="ZDP_C14B" name="ZDP_C14B" /> 2090 <!-- <field field_ref="DMP_C14B" name="DMP_C14B" /> --> 2091 <field field_ref="SMS_C14B" name="SMS_C14B" /> 2092 <field field_ref="ATF_C14B" name="ATF_C14B" /> 2093 <field field_ref="ISO_C14B" name="ISO_C14B" /> 2129 2094 </field_group> 2130 2095 … … 2161 2126 2162 2127 2163 <field_group id="trendCFC11_ short" >2128 <field_group id="trendCFC11_cmip6" > 2164 2129 <!-- cfc11 --> 2165 <field field_ref="TOT_CFC11_E3T" name="TOT_CFC11_E3T" standard_name="CFC-11_Concentration" /> 2166 <field field_ref="TOT_CFC11_INV" name="TOT_CFC11_INV" standard_name="CFC-11_Concentration" /> 2167 <field field_ref="SMS_CFC11_E3T" name="SMS_CFC11_E3T" standard_name="CFC-11_Concentration" /> 2168 <field field_ref="SMS_CFC11_INV" name="SMS_CFC11_INV" standard_name="CFC-11_Concentration" /> 2130 <field field_ref="TOT_CFC11_E3T" name="TOT_CFC11_E3T" /> 2131 <field field_ref="SMS_CFC11_E3T" name="SMS_CFC11_E3T" /> 2169 2132 </field_group> 2170 2133 2171 <field_group id="trendCFC12_ short" >2134 <field_group id="trendCFC12_cmip6" > 2172 2135 <!-- cfc12 --> 2173 <field field_ref="TOT_CFC12_E3T" name="TOT_CFC12_E3T" standard_name="CFC-12_Concentration" /> 2174 <field field_ref="TOT_CFC12_INV" name="TOT_CFC12_INV" standard_name="CFC-12_Concentration" /> 2175 <field field_ref="SMS_CFC12_E3T" name="SMS_CFC12_E3T" standard_name="CFC-12_Concentration" /> 2176 <field field_ref="SMS_CFC12_INV" name="SMS_CFC12_INV" standard_name="CFC-12_Concentration" /> 2136 <field field_ref="TOT_CFC12_E3T" name="TOT_CFC12_E3T" /> 2137 <field field_ref="SMS_CFC12_E3T" name="SMS_CFC12_E3T" /> 2177 2138 </field_group> 2178 2139 2179 <field_group id="trendSF6_ short" >2140 <field_group id="trendSF6_cmip6" > 2180 2141 <!-- sf6 --> 2181 <field field_ref="TOT_SF6_E3T" name="TOT_SF6_E3T" standard_name="SF6_Concentration" /> 2182 <field field_ref="TOT_SF6_INV" name="TOT_SF6_INV" standard_name="SF6_Concentration" /> 2183 <field field_ref="SMS_SF6_E3T" name="SMS_SF6_E3T" standard_name="SF6_Concentration" /> 2184 <field field_ref="SMS_SF6_INV" name="SMS_SF6_INV" standard_name="SF6_Concentration" /> 2142 <field field_ref="TOT_SF6_E3T" name="TOT_SF6_E3T" /> 2143 <field field_ref="SMS_SF6_E3T" name="SMS_SF6_E3T" /> 2185 2144 </field_group> 2186 2145 2187 <field_group id="trendAGE_ short" >2146 <field_group id="trendAGE_cmip6" > 2188 2147 <!-- age --> 2189 <field field_ref="TOT_Age_E3T" name="TOT_Age_E3T" standard_name="sea_water_age_since_surface_contact" /> 2190 <field field_ref="TOT_Age_INV" name="TOT_Age_INV" standard_name="sea_water_age_since_surface_contact" /> 2191 <field field_ref="SMS_Age_E3T" name="SMS_Age_E3T" standard_name="sea_water_age_since_surface_contact" /> 2192 <field field_ref="SMS_Age_INV" name="SMS_Age_INV" standard_name="sea_water_age_since_surface_contact" /> 2148 <field field_ref="TOT_Age_E3T" name="TOT_Age_E3T" /> 2149 <field field_ref="SMS_Age_E3T" name="SMS_Age_E3T" /> 2193 2150 </field_group> 2194 2151 2195 <field_group id="trendIDTRA_ short" >2152 <field_group id="trendIDTRA_cmip6" > 2196 2153 <!-- Ideal tracer --> 2197 <field field_ref="TOT_IDTRA_E3T" name="TOT_IDTRA_E3T" standard_name="IDTRA_Concentration" /> 2198 <field field_ref="TOT_IDTRA_INV" name="TOT_IDTRA_INV" standard_name="IDTRA_Concentration" /> 2199 <field field_ref="SMS_IDTRA_E3T" name="SMS_IDTRA_E3T" standard_name="IDTRA_Concentration" /> 2200 <field field_ref="SMS_IDTRA_INV" name="SMS_IDTRA_INV" standard_name="IDTRA_Concentration" /> 2154 <field field_ref="TOT_IDTRA_E3T" name="TOT_IDTRA_E3T" /> 2155 <field field_ref="SMS_IDTRA_E3T" name="SMS_IDTRA_E3T" /> 2201 2156 </field_group> 2202 2157 2203 <field_group id="trendC14B_ short" >2158 <field_group id="trendC14B_cmip6" > 2204 2159 <!-- c14 bomb --> 2205 <field field_ref="TOT_C14B_E3T" name="TOT_C14B_E3T" standard_name="C14b_Concentration" /> 2206 <field field_ref="TOT_C14B_INV" name="TOT_C14B_INV" standard_name="C14b_Concentration" /> 2207 <field field_ref="SMS_C14B_E3T" name="SMS_C14B_E3T" standard_name="C14b_Concentration" /> 2208 <field field_ref="SMS_C14B_INV" name="SMS_C14B_INV" standard_name="C14b_Concentration" /> 2160 <field field_ref="TOT_C14B_E3T" name="TOT_C14B_E3T" /> 2161 <field field_ref="SMS_C14B_E3T" name="SMS_C14B_E3T" /> 2162 </field_group> 2163 2164 <field_group id="trendCFC11_cmip6_inv" > 2165 <!-- cfc11 --> 2166 <field field_ref="TOT_CFC11_INV" name="TOT_CFC11_INV" /> 2167 <field field_ref="SMS_CFC11_INV" name="SMS_CFC11_INV" /> 2168 </field_group> 2169 2170 <field_group id="trendCFC12_cmip6_inv" > 2171 <!-- cfc12 --> 2172 <field field_ref="TOT_CFC12_INV" name="TOT_CFC12_INV" /> 2173 <field field_ref="SMS_CFC12_INV" name="SMS_CFC12_INV" /> 2174 </field_group> 2175 2176 <field_group id="trendSF6_cmip6_inv" > 2177 <!-- sf6 --> 2178 <field field_ref="TOT_SF6_INV" name="TOT_SF6_INV" /> 2179 <field field_ref="SMS_SF6_INV" name="SMS_SF6_INV" /> 2180 </field_group> 2181 2182 <field_group id="trendAGE_cmip6_inv" > 2183 <!-- age --> 2184 <field field_ref="TOT_Age_INV" name="TOT_Age_INV" /> 2185 <field field_ref="SMS_Age_INV" name="SMS_Age_INV" /> 2186 </field_group> 2187 2188 <field_group id="trendIDTRA_cmip6_inv" > 2189 <!-- Ideal tracer --> 2190 <field field_ref="TOT_IDTRA_INV" name="TOT_IDTRA_INV" /> 2191 <field field_ref="SMS_IDTRA_INV" name="SMS_IDTRA_INV" /> 2192 </field_group> 2193 2194 <field_group id="trendC14B_cmip6_inv" > 2195 <!-- c14 bomb --> 2196 <field field_ref="TOT_C14B_INV" name="TOT_C14B_INV" /> 2197 <field field_ref="SMS_C14B_INV" name="SMS_C14B_INV" /> 2209 2198 </field_group> 2210 2199 … … 2421 2410 </field_group> 2422 2411 2412 <field_group id="groupMEDUSA_cmip6_duplicates" > 2413 <field field_ref= "FBDDTALK" name="FBDDTALK" /> 2414 <field field_ref= "FBDDTDIC" name="FBDDTDIC" /> 2415 <field field_ref= "FBDDTDIFE" name="FBDDTDIFE" /> 2416 <field field_ref= "FBDDTDIN" name="FBDDTDIN" /> 2417 <field field_ref= "FBDDTDISI" name="FBDDTDISI" /> 2418 <field field_ref= "BDDTALK3" name="BDDTALK3" /> 2419 <field field_ref= "BDDTDIC3" name="BDDTDIC3" /> 2420 <field field_ref= "BDDTDIFE3" name="BDDTDIFE3" /> 2421 <field field_ref= "BDDTDIN3" name="BDDTDIN3" /> 2422 <field field_ref= "BDDTDISI3" name="BDDTDISI3" /> 2423 </field_group> 2424 2423 2425 <field_group id="groupMEDUSA_cmip6" > 2424 2426 <field field_ref= "epC100" name="epC100" /> … … 2432 2434 <field field_ref= "O2min" name="O2min" /> 2433 2435 <field field_ref= "ZO2min" name="ZO2min" /> 2434 <field field_ref= "FBDDTALK" name="FBDDTALK" />2435 <field field_ref= "FBDDTDIC" name="FBDDTDIC" />2436 <field field_ref= "FBDDTDIFE" name="FBDDTDIFE" />2437 <field field_ref= "FBDDTDIN" name="FBDDTDIN" />2438 <field field_ref= "FBDDTDISI" name="FBDDTDISI" />2439 2436 <field field_ref= "TPPD3" name="TPPD3" /> 2440 <field field_ref= "BDDTALK3" name="BDDTALK3" />2441 <field field_ref= "BDDTDIC3" name="BDDTDIC3" />2442 <field field_ref= "BDDTDIFE3" name="BDDTDIFE3" />2443 <field field_ref= "BDDTDIN3" name="BDDTDIN3" />2444 <field field_ref= "BDDTDISI3" name="BDDTDISI3" />2445 2437 <field field_ref= "FD_NIT3" name="FD_NIT3" /> 2446 2438 <field field_ref= "FD_SIL3" name="FD_SIL3" /> -
branches/UKMO/dev_r5518_GO6_package/NEMOGCM/NEMO/TOP_SRC/CFC/trcini_cfc.F90
r8280 r9385 44 44 !! ** Method : - Read the namcfc namelist and check the parameter values 45 45 !!---------------------------------------------------------------------- 46 INTEGER :: ji, jj, jn, jl, jm, js, io, i err46 INTEGER :: ji, jj, jn, jl, jm, js, io, iostatus, ierr 47 47 INTEGER :: iskip = 7 ! number of 1st descriptor lines 48 48 REAL(wp) :: zyy, zyd … … 57 57 58 58 CALL ctl_opn( inum, clname, 'OLD', 'FORMATTED', 'SEQUENTIAL', -1, numout, .FALSE. ) 59 REWIND(inum)60 59 61 60 ! compute the number of year in the file 62 61 ! file starts in 1931 do jn represent the year in the century 62 iostatus = 0 63 63 jn = 31 64 DO 65 READ(inum,'(1x)', END=100)64 DO WHILE ( iostatus == 0 ) 65 READ(inum,'(1x)', IOSTAT=iostatus, END=100) 66 66 jn = jn + 1 67 END DO 67 ENDDO 68 IF( iostatus .NE. 0 ) THEN 69 !! Error while reading CFC input file 70 CALL ctl_stop('trc_ini_cfc: & 71 & Error on the 1st reading of cfc1112sf6.atm') 72 RETURN 73 ENDIF 68 74 100 jpyear = jn - 1 - iskip 69 75 IF ( lwp) WRITE(numout,*) ' ', jpyear ,' years read' … … 72 78 ALLOCATE( p_cfc(jpyear,jphem,3), STAT=ierr ) 73 79 IF( ierr > 0 ) THEN 74 CALL ctl_stop( 'trc_ini_cfc: unable to allocate p_cfc array' ) ; RETURN 80 CALL ctl_stop( 'trc_ini_cfc: unable to allocate p_cfc array' ) 81 RETURN 75 82 ENDIF 76 83 IF( trc_sms_cfc_alloc() /= 0 ) CALL ctl_stop( 'STOP', 'trc_ini_cfc: unable to allocate CFC arrays' ) … … 101 108 ! file starts in 1931 do jn represent the year in the century.jhh 102 109 ! Read file till the end 103 jn = 31104 DO110 DO jn = 31, jpyear 111 !!READ(inum, '(F6.1,6F7.2)', IOSTAT=io) zyy, p_cfc(jn,1,1), p_cfc(jn,1,2), & 105 112 READ(inum,*, IOSTAT=io) zyy, p_cfc(jn,1,1), p_cfc(jn,1,2), & 106 113 & p_cfc(jn,1,3), p_cfc(jn,2,1), & 107 114 & p_cfc(jn,2,2), p_cfc(jn,2,3) 108 IF( io < 0 ) exit 109 jn = jn + 1 115 IF( io .NE.0 ) THEN 116 !! Error while reading CFC input file 117 CALL ctl_stop('trc_ini_cfc: & 118 & Error on the 2nd reading of cfc1112sf6.atm') 119 RETURN 120 ENDIF 110 121 END DO 111 122 -
branches/UKMO/dev_r5518_GO6_package/NEMOGCM/NEMO/TOP_SRC/MEDUSA/air_sea.F90
r9257 r9385 67 67 # endif 68 68 USE in_out_manager, ONLY: lwp, numout 69 USE oce, ONLY: PCO2a_in_cpl70 69 USE par_kind, ONLY: wp 71 70 USE par_oce, ONLY: jpi, jpim1, jpj, jpjm1 72 USE sbc_oce, ONLY: fr_i, lk_oasis,qsr, wndm71 USE sbc_oce, ONLY: fr_i, qsr, wndm 73 72 USE sms_medusa, ONLY: jdms, jdms_input, jdms_model, & 74 73 jriver_alk, jriver_c, & … … 152 151 !! OPEN wet point IF..THEN loop 153 152 IF (tmask(ji,jj,1) == 1) then 154 IF (lk_oasis) THEN155 !! use 2D atm xCO2 from atm coupling156 f_xco2a(ji,jj) = PCO2a_in_cpl(ji,jj)157 !!!158 !!! Jpalm test on atm xCO2159 IF ( (f_xco2a(ji,jj) > 1500.0 ).OR.(f_xco2a(ji,jj) < 100.0 ) ) THEN160 IF(lwp) THEN161 WRITE(numout,*) ' atm xCO2 = ',f_xco2a(ji,jj), &162 ' -- ji =', mig(ji),' jj = ', mjg(jj)163 ENDIF164 CALL ctl_stop( 'MEDUSA - Air-Sea :', 'unrealistic atm xCO2 ' )165 ENDIF166 ENDIF167 153 !! 168 154 !! AXY (23/06/15): as part of an effort to update the … … 261 247 !! must be associated to air-sea flux or air xCO2... 262 248 !! Check MOCSY outputs 263 IF ( (f_pco2w(ji,jj) > 1.E4 ).OR.(f_pco2w(ji,jj) < 0.0 ) .OR. & 264 (f_fco2w(ji,jj) > 1.E4 ).OR.(f_fco2w(ji,jj) < 0.0 ) .OR. & 265 (f_fco2atm(ji,jj) > 1.E4 ).OR.(f_fco2atm(ji,jj) < 0.0 ) .OR. & 266 (f_co2flux(ji,jj) > 1.E-2 ).OR.(f_co2flux(ji,jj) < -1.E-2 ) .OR. & 267 (f_dpco2(ji,jj) > 1.E4 ).OR.(f_dpco2(ji,jj) < -1.E4 ) ) THEN 268 IF(lwp) THEN 269 WRITE(numout,*) ' surface T = ',ztmp(ji,jj) 270 WRITE(numout,*) ' surface S = ',zsal(ji,jj) 271 WRITE(numout,*) ' surface ALK = ',zalk(ji,jj) 272 WRITE(numout,*) ' surface DIC = ',zdic(ji,jj) 273 WRITE(numout,*) ' KW660 = ',f_kw660(ji,jj) 274 WRITE(numout,*) ' atm xCO2 = ',f_xco2a(ji,jj) 275 WRITE(numout,*) ' surface pco2w = ',f_pco2w(ji,jj) 276 WRITE(numout,*) ' surface fco2w = ',f_fco2w(ji,jj) 277 WRITE(numout,*) ' surface fco2a = ',f_fco2atm(ji,jj) 278 WRITE(numout,*) ' surface co2flx = ',f_co2flux(ji,jj) 279 WRITE(numout,*) ' surface dpco2 = ',f_dpco2(ji,jj) 280 WRITE(numout,*) ' MOCSY output: ji =', mig(ji),' jj = ', mjg(jj), & 281 ' kt = ', kt 282 WRITE(numout,*) 'MEDUSA - Air-Sea OUTPUT: unrealistic surface Carb. Chemistry' 283 ENDIF 284 CALL ctl_stop( 'MEDUSA - Air-Sea OUTPUT: ', & 285 'unrealistic surface Carb. Chemistry -- OUTPUTS' ) 286 ENDIF 249 !!=================== 250 !! Jpalm -- 19-02-2018 -- remove the cap - only check MOCSY inputs 251 !! because of specific area in arabic sea where strangely 252 !! with core 2 forcing, ALK is lower than DIC and result in 253 !! Enormous dpco2 - even if all carb chem caract are OK. 254 !! and this check stops the model. 255 !! --Input checks are already more than enough to stop the 256 !! model if carb chem goes crazy. 257 !! we remove the mocsy output checks 258 !!=================== 259 !!IF ( (f_pco2w(ji,jj) > 1.E4 ).OR.(f_pco2w(ji,jj) < 0.0 ) .OR. & 260 !! (f_fco2w(ji,jj) > 1.E4 ).OR.(f_fco2w(ji,jj) < 0.0 ) .OR. & 261 !! (f_fco2atm(ji,jj) > 1.E4 ).OR.(f_fco2atm(ji,jj) < 0.0 ) .OR. & 262 !! (f_co2flux(ji,jj) > 1.E-1 ).OR.(f_co2flux(ji,jj) < -1.E-1 ) .OR. & 263 !! (f_dpco2(ji,jj) > 1.E4 ).OR.(f_dpco2(ji,jj) < -1.E4 ) ) THEN 264 !! IF(lwp) THEN 265 !! WRITE(numout,*) ' surface T = ',ztmp(ji,jj) 266 !! WRITE(numout,*) ' surface S = ',zsal(ji,jj) 267 !! WRITE(numout,*) ' surface ALK = ',zalk(ji,jj) 268 !! WRITE(numout,*) ' surface DIC = ',zdic(ji,jj) 269 !! WRITE(numout,*) ' KW660 = ',f_kw660(ji,jj) 270 !! WRITE(numout,*) ' atm xCO2 = ',f_xco2a(ji,jj) 271 !! WRITE(numout,*) ' surface pco2w = ',f_pco2w(ji,jj) 272 !! WRITE(numout,*) ' surface fco2w = ',f_fco2w(ji,jj) 273 !! WRITE(numout,*) ' surface fco2a = ',f_fco2atm(ji,jj) 274 !! WRITE(numout,*) ' surface co2flx = ',f_co2flux(ji,jj) 275 !! WRITE(numout,*) ' surface dpco2 = ',f_dpco2(ji,jj) 276 !! WRITE(numout,*) ' MOCSY output: ji =', mig(ji),' jj = ', mjg(jj), & 277 !! ' kt = ', kt 278 !! WRITE(numout,*) 'MEDUSA - Air-Sea OUTPUT: unrealistic surface Carb. Chemistry' 279 !! ENDIF 280 !! CALL ctl_stop( 'MEDUSA - Air-Sea OUTPUT: ', & 281 !! 'unrealistic surface Carb. Chemistry -- OUTPUTS' ) 282 !!ENDIF 287 283 ENDIF 288 284 ENDDO -
branches/UKMO/dev_r5518_GO6_package/NEMOGCM/NEMO/TOP_SRC/MEDUSA/carb_chem.F90
r8441 r9385 103 103 !! OPEN wet point IF..THEN loop 104 104 IF (tmask(ji,jj,jk).eq.1) THEN 105 IF (lk_oasis) THEN106 !! use 2D atm xCO2 from atm coupling107 f_xco2a(ji,jj) = PCO2a_in_cpl(ji,jj)108 ENDIF109 105 !! Do carbonate chemistry 110 106 !! -
branches/UKMO/dev_r5518_GO6_package/NEMOGCM/NEMO/TOP_SRC/MEDUSA/sms_medusa.F90
r9258 r9385 283 283 #if defined key_roam 284 284 !!---------------------------------------------------------------------- 285 !! Atmospheric pCO2 data (1859 to 2100 inclusive) 286 !!---------------------------------------------------------------------- 287 !! 288 REAL(wp), DIMENSION(242) :: hist_pco2 !: pCO2 289 290 # if defined key_rcp26 291 !! UKMO, run AJKKH + KAAEC, RCP 2.6, pCO2 time evolution 292 DATA hist_pco2 / 286.0230, 286.1730, 286.3230, 286.4480, 286.5730, & 293 & 286.7230, 286.8480, 286.9480, 287.0480, 287.1730, & 294 & 287.3230, 287.4730, 287.6480, 287.8480, 288.0730, & 295 & 288.3480, 288.6480, 288.9730, 289.3470, 289.7470, & 296 & 290.1730, 290.6470, 291.1470, 291.6220, 292.0720, & 297 & 292.5220, 292.9220, 293.2470, 293.5220, 293.7470, & 298 & 293.9470, 294.1220, 294.2720, 294.4220, 294.5470, & 299 & 294.6470, 294.7470, 294.8470, 294.9710, 295.1710, & 300 & 295.4460, 295.7470, 296.0720, 296.4210, 296.7710, & 301 & 297.1460, 297.5710, 298.0210, 298.4460, 298.8460, & 302 & 299.2460, 299.6450, 300.0210, 300.3710, 300.7200, & 303 & 301.0450, 301.3460, 301.6710, 302.0200, 302.3450, & 304 & 302.6450, 302.9700, 303.3450, 303.7200, 304.0700, & 305 & 304.4700, 304.9200, 305.3440, 305.7700, 306.2450, & 306 & 306.7190, 307.1700, 307.6440, 308.1190, 308.5440, & 307 & 308.9440, 309.3440, 309.6940, 309.9440, 310.1190, & 308 & 310.2440, 310.3190, 310.3190, 310.2440, 310.1440, & 309 & 310.0690, 310.0440, 310.0690, 310.1440, 310.2690, & 310 & 310.4440, 310.6940, 311.0430, 311.4440, 311.8690, & 311 & 312.3680, 312.9430, 313.5430, 314.1680, 314.7900, & 312 & 315.4430, 316.2150, 317.0170, 317.7370, 318.3400, & 313 & 318.8680, 319.5900, 320.5890, 321.5470, 322.5770, & 314 & 323.8440, 324.9260, 325.7960, 327.0810, 328.6180, & 315 & 329.6830, 330.5250, 331.6880, 333.2120, 334.7870, & 316 & 336.4640, 338.2990, 339.6660, 340.7310, 342.1360, & 317 & 343.7200, 345.2200, 346.7350, 348.5820, 350.6740, & 318 & 352.4230, 353.7910, 354.9530, 355.8210, 356.7130, & 319 & 358.0630, 359.7720, 361.3970, 363.0900, 365.2560, & 320 & 367.2810, 368.7980, 370.4000, 372.4550, 374.6920, & 321 & 376.7440, 378.7440, 380.7580, 382.7080, 384.7300, & 322 & 386.9310, 389.2150, 391.4910, 393.7710, 396.0460, & 323 & 398.3240, 400.6080, 402.8950, 405.1780, 407.4550, & 324 & 409.7260, 411.9930, 414.2500, 416.4410, 418.5280, & 325 & 420.5250, 422.4390, 424.2720, 426.0200, 427.6750, & 326 & 429.2360, 430.7050, 432.0850, 433.3580, 434.5140, & 327 & 435.5740, 436.5490, 437.4420, 438.2550, 438.9810, & 328 & 439.6110, 440.1430, 440.5770, 440.9450, 441.2660, & 329 & 441.5410, 441.7840, 442.0050, 442.2040, 442.3780, & 330 & 442.5210, 442.6200, 442.6720, 442.6810, 442.6540, & 331 & 442.5830, 442.4670, 442.3270, 442.1680, 441.9960, & 332 & 441.8060, 441.5930, 441.3440, 441.0540, 440.7230, & 333 & 440.3510, 439.9300, 439.4650, 438.9730, 438.4630, & 334 & 437.9400, 437.4020, 436.8400, 436.2640, 435.6850, & 335 & 435.1030, 434.5160, 433.9170, 433.3060, 432.7010, & 336 & 432.1110, 431.5380, 430.9810, 430.4320, 429.8860, & 337 & 429.3370, 428.7810, 428.2220, 427.6490, 427.0660, & 338 & 426.4890, 425.9270, 425.3840, 424.8610, 424.3540, & 339 & 423.8540, 423.3540, 422.8530, 422.3510, 421.8410, & 340 & 421.3250, 420.8190 / 341 # else 342 !! UKMO, run AJKKH + KAAEF, RCP 8.5, pCO2 time evolution 343 DATA hist_pco2 / 286.0230, 286.1730, 286.3230, 286.4480, 286.5730, & 344 & 286.7230, 286.8480, 286.9480, 287.0480, 287.1730, & 345 & 287.3230, 287.4730, 287.6480, 287.8480, 288.0730, & 346 & 288.3480, 288.6480, 288.9730, 289.3470, 289.7470, & 347 & 290.1730, 290.6470, 291.1470, 291.6220, 292.0720, & 348 & 292.5220, 292.9220, 293.2470, 293.5220, 293.7470, & 349 & 293.9470, 294.1220, 294.2720, 294.4220, 294.5470, & 350 & 294.6470, 294.7470, 294.8470, 294.9710, 295.1710, & 351 & 295.4460, 295.7470, 296.0720, 296.4210, 296.7710, & 352 & 297.1460, 297.5710, 298.0210, 298.4460, 298.8460, & 353 & 299.2460, 299.6450, 300.0210, 300.3710, 300.7200, & 354 & 301.0450, 301.3460, 301.6710, 302.0200, 302.3450, & 355 & 302.6450, 302.9700, 303.3450, 303.7200, 304.0700, & 356 & 304.4700, 304.9200, 305.3440, 305.7700, 306.2450, & 357 & 306.7190, 307.1700, 307.6440, 308.1190, 308.5440, & 358 & 308.9440, 309.3440, 309.6940, 309.9440, 310.1190, & 359 & 310.2440, 310.3190, 310.3190, 310.2440, 310.1440, & 360 & 310.0690, 310.0440, 310.0690, 310.1440, 310.2690, & 361 & 310.4440, 310.6940, 311.0430, 311.4440, 311.8690, & 362 & 312.3680, 312.9430, 313.5430, 314.1680, 314.7900, & 363 & 315.4430, 316.2150, 317.0170, 317.7370, 318.3400, & 364 & 318.8680, 319.5900, 320.5890, 321.5470, 322.5770, & 365 & 323.8440, 324.9260, 325.7960, 327.0810, 328.6180, & 366 & 329.6830, 330.5250, 331.6880, 333.2120, 334.7870, & 367 & 336.4640, 338.2990, 339.6660, 340.7310, 342.1360, & 368 & 343.7200, 345.2200, 346.7350, 348.5820, 350.6740, & 369 & 352.4230, 353.7910, 354.9530, 355.8210, 356.7130, & 370 & 358.0630, 359.7720, 361.3970, 363.0900, 365.2560, & 371 & 367.2810, 368.7980, 370.4000, 372.4550, 374.6920, & 372 & 376.7440, 378.7440, 380.7580, 382.7080, 384.7300, & 373 & 386.9420, 389.2540, 391.5670, 393.9370, 396.3920, & 374 & 398.9320, 401.5550, 404.2550, 407.0220, 409.8530, & 375 & 412.7470, 415.7050, 418.7210, 421.7880, 424.9180, & 376 & 428.1200, 431.3970, 434.7470, 438.1650, 441.6410, & 377 & 445.1700, 448.7530, 452.3920, 456.0950, 459.8810, & 378 & 463.7680, 467.7660, 471.8750, 476.0960, 480.4210, & 379 & 484.8390, 489.3470, 493.9430, 498.6400, 503.4380, & 380 & 508.3410, 513.3630, 518.5160, 523.8050, 529.2290, & 381 & 534.7780, 540.4450, 546.2230, 552.1120, 558.1110, & 382 & 564.2110, 570.4130, 576.7390, 583.1990, 589.7980, & 383 & 596.5390, 603.4110, 610.4060, 617.4940, 624.6500, & 384 & 631.8800, 639.1750, 646.5360, 653.9800, 661.5230, & 385 & 669.1840, 676.9570, 684.8290, 692.7790, 700.7690, & 386 & 708.8050, 716.8870, 725.0020, 733.1770, 741.3900, & 387 & 749.6700, 758.0480, 766.5050, 775.0350, 783.6110, & 388 & 792.2200, 800.8740, 809.5680, 818.2760, 827.0090, & 389 & 835.8020, 844.6550, 853.5730, 862.5690, 871.6190, & 390 & 880.7020, 889.8240, 898.9590, 908.1270, 917.3080, & 391 & 926.4960, 935.7040 / 392 # endif 285 !! JPALM -- change hist_pco2 init 286 !!---------------------------------------------------------------------- 287 !! 288 REAL(wp), ALLOCATABLE, SAVE, DIMENSION(:) :: hist_pco2 !: pCO2 289 INTEGER :: co2_rec 290 REAL(wp) :: co2_yinit, co2_yend !: First and Last year read in the xCO2.atm file 291 #endif 292 293 !!---------------------------------------------------------------------- 294 !! JPALM -- PI CO2 key 295 !!---------------------------------------------------------------------- 296 !! 297 #if defined key_axy_pi_co2 298 LOGICAL , PUBLIC :: lk_pi_co2 = .TRUE. !: PI xCO2 used 299 #else 300 LOGICAL , PUBLIC :: lk_pi_co2 = .FALSE. !: PI xCO2 unused 393 301 #endif 394 302 -
branches/UKMO/dev_r5518_GO6_package/NEMOGCM/NEMO/TOP_SRC/MEDUSA/trcbio_medusa.F90
r9257 r9385 81 81 gdept_0, gdept_n, & 82 82 gdepw_0, gdepw_n, & 83 nday_year, nsec_day, nyear, & 83 nday_year, nsec_day, & 84 nyear, nyear_len, ndastp, & 85 nsec_month, & 84 86 rdt, tmask, mig, mjg, nimpp, & 85 87 njmpp … … 92 94 mpp_min, mpp_minloc, & 93 95 ctl_stop, ctl_warn, lk_mpp 94 USE oce, ONLY: tsb, tsn 96 USE oce, ONLY: tsb, tsn, PCO2a_in_cpl 95 97 USE par_kind, ONLY: wp 96 98 USE par_medusa, ONLY: jpalk, jpchd, jpchn, jpdet, & … … 102 104 !! JPALM (27-06-2016): add lk_oasis for CO2 and DMS coupling with atm 103 105 USE sbc_oce, ONLY: lk_oasis 104 USE sms_medusa, ONLY: hist_pco2 106 USE sms_medusa, ONLY: hist_pco2, co2_yinit, co2_yend, & 107 lk_pi_co2 105 108 USE trc, ONLY: ln_rsttr, nittrc000, trn 106 109 USE bio_medusa_init_mod, ONLY: bio_medusa_init … … 114 117 USE bio_medusa_diag_slice_mod, ONLY: bio_medusa_diag_slice 115 118 USE bio_medusa_fin_mod, ONLY: bio_medusa_fin 119 USE trcstat, ONLY: trc_rst_dia_stat 116 120 117 121 IMPLICIT NONE … … 181 185 !! 182 186 !! temporary variables 183 REAL(wp) :: fq0,fq1,fq2,fq3,fq4 187 REAL(wp) :: fq3,fq4 188 REAL(wp) :: this_y, this_d, this_s, fyear 184 189 !! 185 190 !! T and S check temporary variable … … 293 298 !!------------------------------------------------------------------ 294 299 !! 295 !! what's atmospheric pCO2 doing? (data start in 1859) 296 iyr1 = nyear - 1859 + 1 297 iyr2 = iyr1 + 1 298 if (iyr1 .le. 1) then 299 !! before 1860 300 f_xco2a(:,:) = hist_pco2(1) 301 elseif (iyr2 .ge. 242) then 302 !! after 2099 303 f_xco2a(:,:) = hist_pco2(242) 304 else 305 !! just right 306 fq0 = hist_pco2(iyr1) 307 fq1 = hist_pco2(iyr2) 308 fq2 = real(nsec_day) / (60.0 * 60.0 * 24.0) 309 !! AXY (14/06/12): tweaked to make more sense (and be correct) 310 # if defined key_bs_axy_yrlen 311 !! bugfix: for 360d year with HadGEM2-ES forcing 312 fq3 = (real(nday_year) - 1.0 + fq2) / 360.0 313 # else 314 !! original use of 365 days (not accounting for leap year or 315 !! 360d year) 316 fq3 = (real(nday_year) - 1.0 + fq2) / 365.0 317 # endif 318 fq4 = (fq0 * (1.0 - fq3)) + (fq1 * fq3) 319 f_xco2a(:,:) = fq4 320 endif 321 # if defined key_axy_pi_co2 322 !! OCMIP pre-industrial pCO2 323 !! f_xco2a(:,:) = 284.725 !! CMIP5 pre-industrial pCO2 324 f_xco2a = 284.317 !! CMIP6 pre-industrial pCO2 325 # endif 326 !! IF(lwp) WRITE(numout,*) ' MEDUSA nyear =', nyear 327 !! IF(lwp) WRITE(numout,*) ' MEDUSA nsec_day =', real(nsec_day) 328 !! IF(lwp) WRITE(numout,*) ' MEDUSA nday_year =', real(nday_year) 329 !! AXY (29/01/14): remove surplus diagnostics 330 !! IF(lwp) WRITE(numout,*) ' MEDUSA fq0 =', fq0 331 !! IF(lwp) WRITE(numout,*) ' MEDUSA fq1 =', fq1 332 !! IF(lwp) WRITE(numout,*) ' MEDUSA fq2 =', fq2 333 !! IF(lwp) WRITE(numout,*) ' MEDUSA fq3 =', fq3 334 IF(lwp) WRITE(numout,*) ' MEDUSA atm pCO2 =', f_xco2a(1,1) 300 IF (lk_oasis) THEN 301 !! xCO2 from coupled 302 IF ( ( kt == nittrc000 ) .AND. lwp ) & 303 WRITE(numout,*) '** MEDUSA Atm xCO2 given by the UM **' 304 f_xco2a(:,:) = PCO2a_in_cpl(:,:) 305 !! Check the xCO2 from the UM is OK 306 !! piece of code moved from air-sea.F90 307 !!--- 308 DO jj = 2,jpjm1 309 DO ji = 2,jpim1 310 !! OPEN wet point IF..THEN loop 311 IF (tmask(ji,jj,1) == 1) then 312 !!! Jpalm test on atm xCO2 313 IF ( (f_xco2a(ji,jj) .GT. 10000.0 ).OR. & 314 (f_xco2a(ji,jj) .LE. 0.0 ) ) THEN 315 IF(lwp) THEN 316 WRITE(numout,*) ' atm xCO2 = ',f_xco2a(ji,jj), & 317 ' -- ji =', mig(ji),' jj = ', mjg(jj) 318 ENDIF 319 CALL ctl_stop( 'MEDUSA - trc_bio :', & 320 'unrealistic coupled atm xCO2 ' ) 321 ENDIF 322 ENDIF 323 ENDDO 324 ENDDO 325 !!--- 326 ELSEIF (lk_pi_co2) THEN 327 !! OCMIP pre-industrial xCO2 328 IF ( ( kt == nittrc000 ) .AND. lwp ) & 329 WRITE(numout,*) '** MEDUSA Atm xCO2 fixed to pre-industrial value **' 330 !! f_xco2a(:,:) = 284.725 !! CMIP5 pre-industrial pCO2 331 f_xco2a(:,:) = 284.317 !! CMIP6 pre-industrial pCO2 332 ELSE 333 !! xCO2 from file 334 !! AXY - JPALM new interpolation scheme usinf nyear_len 335 this_y = real(nyear) 336 this_d = real(nday_year) 337 this_s = real(nsec_day) 338 !! 339 fyear = this_y + ((this_d - 1) + (this_s / (60. * 60. * 24.))) / real(nyear_len(1)) 340 !! 341 IF ( ( kt == nittrc000 ) .AND. lwp ) THEN 342 WRITE(numout,*) '** MEDUSA Atm xCO2 from file **' 343 WRITE(numout,*) ' MEDUSA year =', this_y 344 WRITE(numout,*) ' Year length =', real(nyear_len(1)) 345 WRITE(numout,*) ' MEDUSA nday_year =', this_d 346 WRITE(numout,*) ' MEDUSA nsec_day =', this_s 347 ENDIF 348 !! 349 !! different case test 350 IF (fyear .LE. co2_yinit) THEN 351 !! before first record -- pre-industrial value 352 f_xco2a(:,:) = hist_pco2(1) 353 ELSEIF (fyear .GE. co2_yend) THEN 354 !! after last record - continue to use the last value 355 f_xco2a(:,:) = hist_pco2(int(co2_yend - co2_yinit + 1.) ) 356 ELSE 357 !! just right 358 iyr1 = int(fyear - co2_yinit) + 1 359 iyr2 = iyr1 + 1 360 fq3 = fyear - real(iyr1) - co2_yinit + 1. 361 fq4 = ((1 - fq3) * hist_pco2(iyr1)) + (fq3 * hist_pco2(iyr2)) 362 f_xco2a(:,:) = fq4 363 !! 364 IF ( ( kt == nittrc000 ) .AND. lwp ) THEN 365 WRITE(numout,*) ' MEDUSA year1 =', iyr1 366 WRITE(numout,*) ' MEDUSA year2 =', iyr2 367 WRITE(numout,*) ' xCO2 year1 =', hist_pco2(iyr1) 368 WRITE(numout,*) ' xCO2 year2 =', hist_pco2(iyr2) 369 WRITE(numout,*) ' Year2 weight =', fq3 370 ENDIF 371 ENDIF 372 ENDIF 373 374 !! Writing xCO2 in output on start and on the 1st tsp of each month 375 IF ( (kt == nittrc000 .AND. .NOT.ln_rsttr) .OR. & 376 ( nsec_month .LE. INT(rdt) ) ) THEN 377 IF ( lwp ) WRITE(numout,*) ' *** Atm xCO2 *** -- kt:', kt, & 378 '; current date:', ndastp 379 call trc_rst_dia_stat(f_xco2a(:,:), 'atm xCO2') 380 ENDIF 335 381 # endif 336 382 … … 358 404 !! x * 30d + 1*rdt(i.e: mod = rdt) 359 405 !! ++ need to pass carb-chem output var through restarts 360 If ( (kt == nittrc000 .AND. .NOT.ln_rsttr) .OR. & 361 ((86400*mod(nn_date0,100) + mod(kt*rdt,2592000.)) == rdt) ) THEN 406 !!If ( (kt == nitt8rc000 .AND. .NOT.ln_rsttr) .OR. & 407 !! ( (mod(kt*rdt,2592000.)) == rdt) THEN 408 !!============================= 409 !! (Jpalm -- updated for restartability issues) 410 !! We want this to be start of month or if starting afresh from 411 !! climatology - marc 20/6/17 412 !!If ( (kt == nittrc000 .AND. .NOT.ln_rsttr) .OR. & 413 !! ((86400*mod(nn_date0,100) + mod(kt*rdt,2592000.)) == rdt) ) THEN 414 !!============================= 415 !! Jpalm -- 15-02-2018 -- need to change 3D carb-chem call freq again. 416 !! previous call did not work, probably the (86400*mod(nn_date0,100) part 417 !! should not be in... 418 !! now use the NEMO calendar tool : nsec_month to be sure to call 419 !! at the beginning of a new month . 420 IF ( (kt == nittrc000 .AND. .NOT.ln_rsttr) .OR. & 421 ( nsec_month .LE. INT(rdt) ) ) THEN 422 IF ( lwp ) WRITE(numout,*) & 423 ' *** 3D carb chem call *** -- kt:', kt, & 424 '; current date:', ndastp 362 425 !!--------------------------------------------------------------- 363 426 !! Calculate the carbonate chemistry for the whole ocean on the first … … 502 565 !! Exceptionnal value did exist 503 566 !! 504 Call trc_bio_check(kt )567 Call trc_bio_check(kt, jk) 505 568 506 569 !!================================================================ … … 810 873 END SUBROUTINE trc_bio_exceptionnal_fix 811 874 812 SUBROUTINE trc_bio_check(kt )875 SUBROUTINE trc_bio_check(kt, jk) 813 876 !!----------------------------------- 814 877 !! JPALM -- 14-12-2017 -- Still dealing with this micro-boil/carb failure … … 824 887 INTEGER :: ii,ij ! temporary scalars 825 888 INTEGER, DIMENSION(2) :: ilocs ! 826 INTEGER, INTENT( in ) :: kt 889 INTEGER, INTENT( in ) :: kt, jk 827 890 !! 828 891 !!========================== … … 852 915 IF(lwp) THEN 853 916 WRITE(numout,*) 'trc_bio:tracer anomaly: ***** WARNING *****' 854 WRITE(numout,*) 'trc_bio:tracer anomaly: sea surface DIC> 4000 '855 WRITE(numout,9600) kt, zmax, ii, ij 917 WRITE(numout,*) 'trc_bio:tracer anomaly: DIC concentration > 4000 ' 918 WRITE(numout,9600) kt, zmax, ii, ij, jk 856 919 WRITE(numout,*) 'trc_bio:tracer anomaly: ***** END OF WARNING *****' 857 920 ENDIF … … 869 932 IF(lwp) THEN 870 933 WRITE(numout,*) 'trc_bio:tracer anomaly: ***** WARNING *****' 871 WRITE(numout,*) 'trc_bio:tracer anomaly: sea surface DIC<= 0 '872 WRITE(numout,9700) kt, zmin, ii, ij 934 WRITE(numout,*) 'trc_bio:tracer anomaly: DIC concentration <= 0 ' 935 WRITE(numout,9700) kt, zmin, ii, ij, jk 873 936 WRITE(numout,*) 'trc_bio:tracer anomaly: ***** END OF WARNING *****' 874 937 ENDIF … … 901 964 IF(lwp) THEN 902 965 WRITE(numout,*) 'trc_bio:tracer anomaly: ***** WARNING *****' 903 WRITE(numout,*) 'trc_bio:tracer anomaly: sea surface Alkalinity> 4000 '904 WRITE(numout,9800) kt, zmax, ii, ij 966 WRITE(numout,*) 'trc_bio:tracer anomaly: ALK concentration > 4000 ' 967 WRITE(numout,9800) kt, zmax, ii, ij, jk 905 968 WRITE(numout,*) 'trc_bio:tracer anomaly: ***** END OF WARNING *****' 906 969 ENDIF … … 918 981 IF(lwp) THEN 919 982 WRITE(numout,*) 'trc_bio:tracer anomaly: ***** WARNING *****' 920 WRITE(numout,*) 'trc_bio:tracer anomaly: sea surface Alkalinity<= 0 '921 WRITE(numout,9900) kt, zmin, ii, ij 983 WRITE(numout,*) 'trc_bio:tracer anomaly: ALK concentration <= 0 ' 984 WRITE(numout,9900) kt, zmin, ii, ij, jk 922 985 WRITE(numout,*) 'trc_bio:tracer anomaly: ***** END OF WARNING *****' 923 986 ENDIF … … 925 988 926 989 927 9600 FORMAT ('trc_bio:tracer anomaly: kt=',i6,' max DIC: ',f16.10,', i j : ',2i5)928 9700 FORMAT ('trc_bio:tracer anomaly: kt=',i6,' min DIC: ',f16.10,', i j : ',2i5)929 9800 FORMAT ('trc_bio:tracer anomaly: kt=',i6,' max ALK: ',f16.10,', i j : ',2i5)930 9900 FORMAT ('trc_bio:tracer anomaly: kt=',i6,' min ALK: ',f16.10,', i j : ',2i5)990 9600 FORMAT ('trc_bio:tracer anomaly: kt=',i6,' max DIC: ',f16.10,', i j k: ',3i5) 991 9700 FORMAT ('trc_bio:tracer anomaly: kt=',i6,' min DIC: ',f16.10,', i j k: ',3i5) 992 9800 FORMAT ('trc_bio:tracer anomaly: kt=',i6,' max ALK: ',f16.10,', i j k: ',3i5) 993 9900 FORMAT ('trc_bio:tracer anomaly: kt=',i6,' min ALK: ',f16.10,', i j k: ',3i5) 931 994 932 995 END SUBROUTINE trc_bio_check -
branches/UKMO/dev_r5518_GO6_package/NEMOGCM/NEMO/TOP_SRC/MEDUSA/trcini_medusa.F90
r9114 r9385 324 324 IF(lwp) WRITE(numout,*) ' ~~~~~~~~~~~~~~' 325 325 IF(lwp) CALL flush(numout) 326 !! 327 !!---------------------------------------------------------------------- 328 !! JPALM (23-01-2017): new way to initialize CO2-atm for cmip6 329 !! initially done in trcsms_medusa 330 !!---------------------------------------------------------------------- 331 !! 332 IF( ( .NOT.lk_oasis ) .AND. ( .NOT.lk_pi_co2 ) ) THEN 333 IF(lwp) WRITE(numout,*) ' trc_ini_medusa: initialisating atm CO2 record' 334 CALL trc_ini_medusa_co2atm 335 ENDIF 326 336 327 337 END SUBROUTINE trc_ini_medusa … … 480 490 END SUBROUTINE trc_ini_medusa_river 481 491 492 SUBROUTINE trc_ini_medusa_co2atm 493 !!---------------------------------------------------------------------- 494 !! *** trc_ini_medusa_co2atm *** 495 !! 496 !! ** Purpose : initialization atmospheric co2 record 497 !! 498 !! ** Method : - Read the xco2 file 499 !!---------------------------------------------------------------------- 500 INTEGER :: jn, jm, io, ierr, inum, iostatus 501 INTEGER, PARAMETER :: iskip = 4 ! number of 1st descriptor lines 502 REAL(wp), ALLOCATABLE, SAVE, DIMENSION(:) :: zyy !: xCO2 record years 503 CHARACTER (len=10), PARAMETER :: clname = 'xco2.atm' !! atm CO2 record file 504 !!---------------------------------------------------------------------- 505 506 IF(lwp) WRITE(numout,*) 507 IF(lwp) WRITE(numout,*) ' trc_ini_medusa_co2atm: initialisation of atm CO2 historical record' 508 IF(lwp) WRITE(numout,*) ' ~~~~~~~~~~~' 509 510 511 IF(lwp) WRITE(numout,*) 'read of formatted file xco2.atm' 512 513 CALL ctl_opn( inum, clname, 'OLD', 'FORMATTED', 'SEQUENTIAL', -1, numout, .FALSE. ) 514 !!! 515 ! -Compute the number of year in the file 516 ! -File starts in co2_yinit, jn represents the record number in the file. 517 ! -Remove the file head (iskip lines) to jn 518 ! -The year is jn + yinit - 1 519 !! Determine the number of lines in xCO2 input file 520 iostatus = 0 521 jn = 1 522 DO WHILE ( iostatus == 0 ) 523 READ(inum,'(1x)', IOSTAT=iostatus, END=100) 524 jn = jn + 1 525 ENDDO 526 IF( iostatus .NE. 0 ) THEN 527 !! Error while reading xCO2 input file 528 CALL ctl_stop('trc_ini_medusa_co2atm: & 529 & Error on the 1st reading of xco2.atm') 530 RETURN 531 ENDIF 532 100 co2_rec = jn - 1 - iskip 533 IF ( lwp) WRITE(numout,*) ' ', co2_rec ,' years read in the file' 534 ! ! Allocate CO2 hist arrays 535 ierr = 0 536 ALLOCATE( hist_pco2(co2_rec),zyy(co2_rec), STAT=ierr ) 537 IF( ierr > 0 ) THEN 538 CALL ctl_stop( 'trc_ini_medusa_co2atm: unable to allocate array' ) 539 RETURN 540 ENDIF 541 542 REWIND(inum) 543 544 DO jm = 1, iskip ! Skip over 1st six descriptor lines 545 READ(inum,'(1x)') 546 END DO 547 ! file starts in 1931 do jn represent the year in the century.jhh 548 ! Read file till the end 549 ! allocate start and end year of the file 550 DO jn = 1, co2_rec 551 READ(inum,'(F6.1,F12.7)', IOSTAT=io) zyy(jn), hist_pco2(jn) 552 IF( io .NE. 0 ) THEN 553 !! Error while reading xCO2 input file 554 CALL ctl_stop('trc_ini_medusa_co2atm: & 555 & Error on the 2nd reading of xco2.atm') 556 RETURN 557 ENDIF 558 559 IF(jn==1) co2_yinit = zyy(jn) 560 END DO 561 co2_yend = co2_yinit + real(co2_rec) - 1. 562 563 IF(lwp) THEN ! Control print 564 WRITE(numout,*) 565 WRITE(numout,*) 'CO2 hist start year: ', co2_yinit 566 WRITE(numout,*) 'CO2 hist end year: ', co2_yend 567 WRITE(numout,*) ' Year xCO2 atm ' 568 DO jn = 1, co2_rec 569 WRITE(numout, '(F6.1,F12.7)') zyy(jn), hist_pco2(jn) 570 END DO 571 ENDIF 572 573 END SUBROUTINE trc_ini_medusa_co2atm 574 575 482 576 #else 483 577 !!---------------------------------------------------------------------- -
branches/UKMO/dev_r5518_GO6_package/NEMOGCM/NEMO/TOP_SRC/trcrst.F90
r9262 r9385 378 378 !! 379 379 IF(lwp) WRITE(numout,*) ' CFC averaged properties absent - setting to zero ...' 380 qint_cfc(:,:,j n) = 0.0 !! CHN380 qint_cfc(:,:,jl) = 0.0 !! CHN 381 381 ENDIF 382 382 !!
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