Difference between revisions of "Vn8.4 GA4.0 Release Candidate: RC6.0"

From UKCA
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===Base Atmosphere Model===
 
===Base Atmosphere Model===
   
The base atmosphere model used here is the GA4.0 configuration. More information on GA4.0 development can be found on [https://collab.metoffice.gov.uk/trac/GA/wiki/GADocumentation/GA4.0 Global Atmosphere 4.0/Global Land 4.0 documentation pages]. A [http://www.geosci-model-dev.net/7/361/2014/gmd-7-361-2014.html GMD paper documenting this model] is also available.
+
The base atmosphere model used here is the GA4.0 configuration. More information on GA4.0 development can be found on [http://collab.metoffice.gov.uk/trac/GA/wiki/GADocumentation/GA4.0 Global Atmosphere 4.0/Global Land 4.0 documentation pages]. A [http://www.geosci-model-dev.net/7/361/2014/gmd-7-361-2014.html GMD paper documenting this model] is also available.
   
 
The configuration is based on the Met Office job <code>anenj</code> (via MONSooN job <code>xhmaj</code>) which is derived from <code>amche</code> (the standard GA4.0 N96L85 interactive dust model) via
 
The configuration is based on the Met Office job <code>anenj</code> (via MONSooN job <code>xhmaj</code>) which is derived from <code>amche</code> (the standard GA4.0 N96L85 interactive dust model) via

Revision as of 08:57, 28 July 2014

This page documents the vn8.4 GA4.0 release candidate xkawa. This job has been run by Luke Abraham on MONSooN.

UKCA code

For this release the relevant and specific UKCA code changes (when compared to the trunk) have been merged into a package branch on PUMA

For the results presented here, revision number 16065 was used.

For details as to which branches and fixes were included, please see PUMA Trac ticket #632.

Functionality

Base Atmosphere Model

The base atmosphere model used here is the GA4.0 configuration. More information on GA4.0 development can be found on Global Atmosphere 4.0/Global Land 4.0 documentation pages. A GMD paper documenting this model is also available.

The configuration is based on the Met Office job anenj (via MONSooN job xhmaj) which is derived from amche (the standard GA4.0 N96L85 interactive dust model) via

amche (base GA4.0 job)
  akwxo (UKCA turned on)
   aneni
    anenj
     xhmaj
      xjcib (HOx recycling added)
       xjcie (some reaction rates updated)
        xjcih (O3 now interactive with radiation scheme)
         xjcim (made TS2000 - see Initial conditions and forcing)
          xjcin
           xkawa

For more information on these jobs and the UKCA release cycle, please see the the developing releases page.

Chemistry

This job uses the CheST chemistry scheme - an amalgamation of the Stratospheric Chemistry scheme and the Tropospheric Chemistry with Isoprene scheme.

Aerosols

This job uses an extension to the GLOMAP-mode aerosol scheme which extends it into the stratosphere, although it is also suitable for tropospheric work.

Pressure-level output for tracers and chemical diagnostics

All STASH items available in section 34 have an equivalent in section 35. Currently only O3 and the flux through the CH4+OH reaction have been set-up, but other fields can be output by copying these examples.

Note: the heavyside function s35i173 also need to put output so that these fields can be processed correctly to remove points which should contain missing data. In the lower levels of the model the pressures will be low (especially over high orography) and these points need to be masked off. Valid points are where this function is equal to 1.

RCP Scenario Code

The RCP scenario branch, committed to the trunk at vn8.6, has equivalent functionality available in this job (UKCA lower boundary conditions only - further changes are required to have these affect the GHGs).

To use this functionality a hand-edit is required - see e.g. /home/ukca/hand_edits/VN8.4/UKCA_RCP6.0.ed

Pre-compiled builds

This job makes use of pre-compiled builds, as can be seen in the FCM panel. This decreases the time required for the compilation step.

Note that the reconfiguration executable (qxreconf) has also been pre-compiled (this can be seen in the Compile and run options for the Atmosphere and Reconfiguration panel). This was required to allow the pre-compiled builds to work. If you want/need to change either the reconfiguration executable or the use of pre-compiled builds, you will need to change the settings in both the FCM and compilation options panels.

Initial conditions and forcing

  • xkawa was initialised from the final dump of xjcin (dated 2015-12-01), then re-dated using change_dump_date to 1999-12-01.
    • See /projects/ukca/inputs/initial/vn84GA4_UKCA.19991201_00.txt
  • SSTs and sea-ice use daily values from the Reynolds dataset, produced by meaning over the transient values from 1995-01-01 to 2005-01-01 using cdo ydaymean.
    • See /projects/ukca/inputs/ancil/surf/reynolds.qrclim.sst.avg2000.txt for SSTs.
    • See /projects/ukca/inputs/ancil/surf/reynolds.qrclim.seaice.avg2000.txt for the sea-ice.
  • Time-slice conditions for the year 2000 (actual date 2000-12-01), known as TS2000, were used using the RCP scenario conditions for GHGs and WMO2011 values for ODSs.
    • These are the forcings specified for the CCMI transient REF-C1/2 simulations.
  • AR5 emissions are used for the CheST chemistry, including MeOH.

Known Issues

Interactive Dry Deposition Scheme

Currently it is possible to request dry-deposition for a species in the ukca_chem_strattrop.F90 module (the first 1 in the last three columns of numbers) e.g.

!  30 DD:12,WD:12,
chch_t( 30,'HCl       ',  1,'TR        ','          ',  1,  1,  0),  & 

but if values for the required species have not been set in ukca_aerod.F90 and ukca_surfddr.F90 then no dry deposition will in fact be calculated. Please see UKCA Chemistry and Aerosol Tutorial 7 (Adding dry deposition of chemical species) for details as to how to add new values.

Because of this, you should see warning messages such as this in the .leave file:

? Warning Message:  Surface resistance values not set for HCl
? Warning Message:  Surface resistance values not set for HOCl
? Warning Message:  Surface resistance values not set for HBr
? Warning Message:  Surface resistance values not set for HOBr
? Warning Message:  Surface resistance values not set for DMSO
? Warning Message:  Surface resistance values not set for Monoterp
? Warning Message:  Surface resistance values not set for Sec_Org

Currently none of the above species (HCl, HOCl, HBr, HOBr, DMSO, Monoterp, or Sec_Org) are in fact dry deposited in this job configuration.

Low Stratospheric NOy

Xkawa HNO3.png

There is an issue with low stratospheric NOy in UKCA, as can be seen in the profiles of HNO3 above (calculated by meaning over the whole 10-year simulation.), and it is currently being investigated. For more information, see details from the NOy PEG.

Further Work Needed

Further work will need to be done to:

  • Link the GLOMAP-mode aerosol to the heterogeneous reactions, especially for the stratospheric chemistry.
  • Link the GLOMAP-mode aerosol to the Fast-JX interactive photolysis scheme.
  • Extend the RCP scenario code to atmos_physics1.F90 to all the values of CO2, CH4, N2O etc. seen by the radiation scheme to be updated in the same way as for the chemistry.
  • Tidy-up the AerChem chemistry extensions required for GLOMAP-mode, so that they match better those for the TropIsop/CheT scheme.
  • Link to the JULES land-surface scheme to allow for interactive isoprene and monoterpene emissions.

Results

MOOSE

All results from this run were saved to MOOSE, and can be found at moose:/crum/xkawa. As well as the standard pp-output, monthly, seasonal, and annual supermeans were created and are also available in the ama.pp directory.

Running the command moo ls -l moose:/crum/xkawa gives

C colin.johnson              45.65 GBP     421803130880 2014-07-20 18:27:13 GMT moose:/crum/xkawa/ada.file
C colin.johnson               3.09 GBP      28512510160 2014-07-24 15:56:40 GMT moose:/crum/xkawa/ama.pp
C colin.johnson              20.50 GBP     189410089848 2014-07-25 11:20:50 GMT moose:/crum/xkawa/apa.pp
C colin.johnson              24.85 GBP     229627024000 2014-07-25 11:22:33 GMT moose:/crum/xkawa/apb.pp
C colin.johnson              20.95 GBP     193541722824 2014-07-20 20:25:13 GMT moose:/crum/xkawa/apm.pp
C colin.johnson               6.93 GBP      63989055776 2014-07-20 18:31:17 GMT moose:/crum/xkawa/aps.pp
C colin.johnson               1.73 GBP      16005498776 2014-07-20 18:32:26 GMT moose:/crum/xkawa/apy.pp

Further information on how to use MOOSE can be found on the collaboration twiki.

Evaluation Suite Output

A set of standard results from a mean of the 10-year run, as well as from each of the 10 years can be found in the following documents.

These were generated from the UKCA Evaluation Suite available on the MONSooN post-processor.

Mean over the 10-year simulation

Results from individual years

Lightning NOx

The average annual Lightning NOx emitted is 4.03285 Tg(N)/year over the whole 10-year simulation.

The lightning NOx emitted in each of the individual years of the run is:

  • year 01 4.06726 Tg(N)/year
  • year 02 4.01840 Tg(N)/year
  • year 03 4.06754 Tg(N)/year
  • year 04 4.08320 Tg(N)/year
  • year 05 3.99700 Tg(N)/year
  • year 06 3.96347 Tg(N)/year
  • year 07 4.01116 Tg(N)/year
  • year 08 4.03512 Tg(N)/year
  • year 09 4.04277 Tg(N)/year
  • year 10 4.04452 Tg(N)/year

STASH Table

Below is a listing of all the STASH requests that were output by the model.

The output was sent to three different usage profiles, corresponding to:

  • UPA: These files contain daily output, and go to the *.pa*.pp files, held in the apa.pp directory on MOOSE.
  • UPB: These files contain monthly out from UKCA that could not fit in the climate meaning stream due to space limitations. These go to the *.pb*.pp files, held in the apb.pp directory on MOOSE.
  • UPMEAN: This is the climate meaning stream, and holds a large number of dynamical and UKCA related diagnostics. These go to the:
    • *.pm*.pp files for monthly means, held in the apm.pp directory on MOOSE.
    • *.ps*.pp files for seasonal means, held in the aps.pp directory on MOOSE.
    • *.py*.pp files for annual means, held in the apy.pp directory on MOOSE.
    • no decadal means were created during this run, but if they were, they would be *.px*.pp files, held in the apx.pp directory on MOOSE.


Section Item Name Time Profile Domain Profile Usage Profile
0 4 THETA AFTER TIMESTEP TDMPMN DALLTH UPMEAN
0 10 SPECIFIC HUMIDITY AFTER TIMESTEP TDMPMN DALLTH UPMEAN
0 12 QCF AFTER TIMESTEP TDMPMN DALLTH UPMEAN
0 23 SNOW AMOUNT OVER LAND AFT TSTP KG/M TDMPMN DIAG UPMEAN
0 24 SURFACE TEMPERATURE AFTER TIMESTEP TDAYM DIAG UPA
0 24 SURFACE TEMPERATURE AFTER TIMESTEP TDMPMN DIAG UPMEAN
0 25 BOUNDARY LAYER DEPTH AFTER TIMESTEP TDMPMN DIAG UPMEAN
0 28 SURFACE ZONAL CURRENT AFTER TIMESTE TDMPMN DIAG UPMEAN
0 29 SURFACE MERID CURRENT AFTER TIMESTE TDMPMN DIAG UPMEAN
0 31 FRAC OF SEA ICE IN SEA AFTER TSTEP TDMPMN DIAG UPMEAN
0 32 SEA ICE DEPTH (MEAN OVER ICE) TDMPMN DIAG UPMEAN
0 58 SULPHUR DIOXIDE EMISSIONS TDMPMN DIAG UPMEAN
0 59 DIMETHYL SULPHIDE EMISSIONS (ANCIL) TDMPMN DIAG UPMEAN
0 101 SO2 MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
0 102 DIMETHYL SULPHIDE MIX RAT AFTER TS TDMPMN DALLTH UPMEAN
0 103 SO4 AITKEN MODE AEROSOL AFTER TSTEP TDMPMN DALLTH UPMEAN
0 104 SO4 ACCUM. MODE AEROSOL AFTER TSTEP TDMPMN DALLTH UPMEAN
0 105 SO4 DISSOLVED AEROSOL AFTER TSTEP TDMPMN DALLTH UPMEAN
0 121 3D NATURAL SO2 EMISSIONS KG/M2/S TDMPMN DALLTH UPMEAN
0 126 HIGH LEVEL SO2 EMISSIONS KG/M2/S TDMPMN DIAG UPMEAN
0 132 DMS CONCENTRATION IN SEAWATER TDMPMN DIAG UPMEAN
0 211 CCA WITH ANVIL AFTER TIMESTEP TDMPMN DALLTH UPMEAN
0 254 QCL AFTER TIMESTEP TDMPMN DALLTH UPMEAN
0 266 BULK CLOUD FRACTION IN EACH LAYER TDMPMN DALLTH UPMEAN
0 301 NOx surf emissions TDMPUKC3 DIAG UPMEAN
0 302 CH4 surf emissions TDMPUKC3 DIAG UPMEAN
0 303 CO surf emissions TDMPUKC3 DIAG UPMEAN
0 309 C5H8 surf emissions TDMPUKC3 DIAG UPMEAN
0 310 BC fossil fuel surf emissions TDMPUKC3 DIAG UPMEAN
0 311 BC biofuel surf emissions TDMPUKC3 DIAG UPMEAN
0 312 OC fossil fuel surf emissions TDMPUKC3 DIAG UPMEAN
0 313 OC biofuel surf emissions TDMPUKC3 DIAG UPMEAN
0 314 Monoterpene surf emissions TDMPUKC3 DIAG UPMEAN
0 322 BC BIOMASS 3D EMISSION TDMPUKC3 DALLTH UPMEAN
0 323 OC BIOMASS 3D EMISSION TDMPUKC3 DALLTH UPMEAN
0 340 NOX AIRCRAFT EMS IN KG/S/GRIDCELL TDMPUKC3 DALLTH UPMEAN
0 407 PRESSURE AT RHO LEVELS AFTER TS TDMPMN DALLRH UPMEAN
0 408 PRESSURE AT THETA LEVELS AFTER TS TDMPMN DALLTH UPMEAN
0 409 SURFACE PRESSURE AFTER TIMESTEP TDMPMN DIAG UPMEAN
0 507 OPEN SEA SURFACE TEMP AFTER TIMESTE TDMPMN DIAG UPMEAN
0 509 SEA ICE ALBEDO AFTER TS TDMPMN DIAG UPMEAN
1 201 NET DOWN SURFACE SW FLUX: SW TS ONL TDMPMN DIAG UPMEAN
1 203 NET DN SW RAD FLUX:OPEN SEA:SEA MEA TDMPMN DIAG UPMEAN
1 207 INCOMING SW RAD FLUX (TOA): ALL TSS TDMPMN DIAG UPMEAN
1 208 OUTGOING SW RAD FLUX (TOA) TDMPMN DIAG UPMEAN
1 209 CLEAR-SKY (II) UPWARD SW FLUX (TOA) TDMPMN DIAG UPMEAN
1 210 CLEAR-SKY (II) DOWN SURFACE SW FLUX TDMPMN DIAG UPMEAN
1 211 CLEAR-SKY (II) UP SURFACE SW FLUX TDMPMN DIAG UPMEAN
1 221 LAYER CLD LIQ RE * LAYER CLD WEIGHT TDMPMN DALLTHCL UPMEAN
1 223 LAYER CLOUD WEIGHT FOR MICROPHYSICS TDMPMN DALLTHCL UPMEAN
1 225 CONV CLOUD LIQ RE * CONV CLD WEIGHT TDMPMN DALLTHCL UPMEAN
1 226 CONV CLOUD WEIGHT FOR MICROPHYSICS TDMPMN DALLTHCL UPMEAN
1 235 TOTAL DOWNWARD SURFACE SW FLUX TDMPMN DIAG UPMEAN
1 241 DROPLET NUMBER CONC * LYR CLOUD WGT TDMPMN DALLTHCL UPMEAN
1 242 LAYER CLOUD LWC * LAYER CLOUD WEIGH TDMPMN DALLTHCL UPMEAN
1 280 COLUMN-INTEGRATED Nd * SAMP. WEIGHT TDMPMN DIAG UPMEAN
1 281 SAMP. WEIGHT FOR COL. INT. Nd TDMPMN DIAG UPMEAN
1 282 2-D CLOUD-TOP CDNC x WEIGHT (cm-3) TDMPMN DIAG UPMEAN
1 283 WEIGHT FOR 2-D CLOUD-TOP CDNC TDMPMN DIAG UPMEAN
2 201 NET DOWN SURFACE LW RAD FLUX TDMPMN DIAG UPMEAN
2 203 NET DN LW RAD FLUX:OPEN SEA:SEA MEA TDMPMN DIAG UPMEAN
2 204 TOTAL CLOUD AMOUNT IN LW RADIATION TDMPMN DIAG UPMEAN
2 205 OUTGOING LW RAD FLUX (TOA) TDMPMN DIAG UPMEAN
2 206 CLEAR-SKY (II) UPWARD LW FLUX (TOA) TDMPMN DIAG UPMEAN
2 207 DOWNWARD LW RAD FLUX: SURFACE TDMPMN DIAG UPMEAN
2 208 CLEAR-SKY (II) DOWN SURFACE LW FLUX TDMPMN DIAG UPMEAN
2 251 AITKEN MODE (SOLUBLE) STRATO AOD TDAYM DIAGAOT UPA
2 251 AITKEN MODE (SOLUBLE) STRATO AOD TDMPMN DIAGAOT UPMEAN
2 252 ACCUM MODE (SOLUBLE) STRATO AOD TDAYM DIAGAOT UPA
2 252 ACCUM MODE (SOLUBLE) STRATO AOD TDMPMN DIAGAOT UPMEAN
2 253 COARSE MODE (SOLUBLE) STRATO AOD TDAYM DIAGAOT UPA
2 253 COARSE MODE (SOLUBLE) STRATO AOD TDMPMN DIAGAOT UPMEAN
2 254 AITKEN MODE (INSOL) STRATO AOD TDAYM DIAGAOT UPA
2 254 AITKEN MODE (INSOL) STRATO AOD TDMPMN DIAGAOT UPMEAN
2 255 ACCUM MODE (INSOL) STRATO AOD TDAYM DIAGAOT UPA
2 255 ACCUM MODE (INSOL) STRATO AOD TDMPMN DIAGAOT UPMEAN
2 256 COARSE MODE (INSOL) STRATO AOD TDAYM DIAGAOT UPA
2 256 COARSE MODE (INSOL) STRATO AOD TDMPMN DIAGAOT UPMEAN
2 284 SULPHATE OPTICAL DEPTH IN RADIATION TDMPMN DIAGAOT UPMEAN
2 285 MINERAL DUST OPTICAL DEPTH IN RADN. TDMPMN DIAGAOT UPMEAN
2 298 TOTAL OPTICAL DEPTH IN RADIATION TDMPMN DIAGAOT UPMEAN
2 300 AITKEN MODE (SOLUBLE) OPTICAL DEPTH TDAYM DIAGAOT UPA
2 300 AITKEN MODE (SOLUBLE) OPTICAL DEPTH TDMPMN DIAGAOT UPMEAN
2 301 ACCUM MODE (SOLUBLE) OPTICAL DEPTH TDAYM DIAGAOT UPA
2 301 ACCUM MODE (SOLUBLE) OPTICAL DEPTH TDMPMN DIAGAOT UPMEAN
2 302 COARSE MODE (SOLUBLE) OPTICAL DEPTH TDAYM DIAGAOT UPA
2 302 COARSE MODE (SOLUBLE) OPTICAL DEPTH TDMPMN DIAGAOT UPMEAN
2 303 AITKEN MODE (INSOL) OPTICAL DEPTH TDAYM DIAGAOT UPA
2 303 AITKEN MODE (INSOL) OPTICAL DEPTH TDMPMN DIAGAOT UPMEAN
2 304 ACCUM MODE (INSOL) OPTICAL DEPTH TDAYM DIAGAOT UPA
2 304 ACCUM MODE (INSOL) OPTICAL DEPTH TDMPMN DIAGAOT UPMEAN
2 305 COARSE MODE (INSOL) OPTICAL DEPTH TDAYM DIAGAOT UPA
2 305 COARSE MODE (INSOL) OPTICAL DEPTH TDMPMN DIAGAOT UPMEAN
2 422 DUST OPTICAL DEPTH FROM PROGNOSTIC TDMPMN DIAGAOT UPMEAN
3 217 SURFACE SENSIBLE HEAT FLUX W/M TDMPMN DIAG UPMEAN
3 223 SURFACE TOTAL MOISTURE FLUX KG/M2/ TDMPMN DIAG UPMEAN
3 224 WIND MIX EN'GY FL TO SEA:SEA MN W/M TDMPMN DIAG UPMEAN
3 225 10 METRE WIND U-COMP B GRID TDMPMN DIAG UPMEAN
3 226 10 METRE WIND V-COMP B GRID TDMPMN DIAG UPMEAN
3 232 EVAP FROM OPEN SEA: SEA MEAN KG/M2/ TDMPMN DIAG UPMEAN
3 234 SURFACE LATENT HEAT FLUX W/M TDMPMN DIAG UPMEAN
3 237 SPECIFIC HUMIDITY AT 1.5M TDMPMN DIAG UPMEAN
3 245 RELATIVE HUMIDITY AT 1.5M TDMPMN DIAG UPMEAN
3 261 GROSS PRIMARY PRODUCTIVITY KG C/M2/ TDMPMN DIAG UPMEAN
3 262 NET PRIMARY PRODUCTIVITY KG C/M2/S TDMPMN DIAG UPMEAN
3 263 PLANT RESPIRATION KG/M2/S TDMPMN DIAG UPMEAN
3 291 NET PRIMARY PRODUCTIVITY ON PFTS TDMPMN DPFTS UPMEAN
3 293 SOIL RESPIRATION KG C/M2/ TDMPMN DIAG UPMEAN
3 304 TURBULENT MIXING HT AFTER B.LAYER m TDMPMN DIAG UPMEAN
3 305 STABLE BL INDICATOR TDMPMN DIAG UPMEAN
3 307 WELL_MIXED BL INDICATOR TDMPMN DIAG UPMEAN
3 310 CUMULUS-CAPPED BL INDICATOR TDMPMN DIAG UPMEAN
3 332 TOA OUTGOING LW RAD AFTER B.LAYER TDMPMN DIAG UPMEAN
3 392 X-COMP OF MEAN SEA SURF STRESS N/M2 TDMPMN DIAG UPMEAN
3 394 Y-COMP OF MEAN SEA SURF STRESS N/M2 TDMPMN DIAG UPMEAN
4 203 LARGE SCALE RAINFALL RATE KG/M2/ TDMPMN DIAG UPMEAN
4 204 LARGE SCALE SNOWFALL RATE KG/M2/ TDMPMN DIAG UPMEAN
4 216 SO2 SCAVENGED BY LS PPN KG/M2/S TDMPMN DIAG UPMEAN
4 219 SO4 DIS SCAVNGD BY LS PPN KG/M2/S TDMPMN DIAG UPMEAN
5 205 CONVECTIVE RAINFALL RATE KG/M2/ TDMPMN DIAG UPMEAN
5 206 CONVECTIVE SNOWFALL RATE KG/M2/ TDMPMN DIAG UPMEAN
5 214 TOTAL RAINFALL RATE: LS+CONV KG/M2/ TDMPMN DIAG UPMEAN
5 215 TOTAL SNOWFALL RATE: LS+CONV KG/M2/ TDMPMN DIAG UPMEAN
5 216 TOTAL PRECIPITATION RATE KG/M2/ TDMPMN DIAG UPMEAN
5 231 CAPE TIMESCALE (DEEP) TDMPMN DIAG UPMEAN
5 238 SO2 SCAVENGED BY CONV PPN KG/M2/SEC TDMPMN DIAG UPMEAN
5 239 SO4 AIT SCAVNGD BY CONV PPN KG/M2/S TDMPMN DIAG UPMEAN
5 240 SO4 ACC SCAVNGD BY CONV PPN KG/M2/S TDMPMN DIAG UPMEAN
5 241 SO4 DIS SCAVNGD BY CONV PPN KG/M2/S TDMPMN DIAG UPMEAN
5 269 DEEP CONVECTION INDICATOR TDMPMN DIAG UPMEAN
5 270 SHALLOW CONVECTION INDICATOR TDMPMN DIAG UPMEAN
5 272 MID LEVEL CONVECTION INDICATOR TDMPMN DIAG UPMEAN
5 277 DEEP CONV PRECIP RATE KG/M2/ TDMPMN DIAG UPMEAN
5 278 SHALLOW CONV PRECIP RATE KG/M2/ TDMPMN DIAG UPMEAN
5 279 MID LEVEL CONV PRECIP RATE KG/M2/ TDMPMN DIAG UPMEAN
5 320 MASS FLUX DEEP CONVECTION TDMPMN D52TH UPMEAN
5 322 MASS FLUX SHALLOW CONVECTION TDMPMN D52TH UPMEAN
5 323 MASS FLUX MID-LEVEL CONVECTION TDMPMN D52TH UPMEAN
6 201 X COMPONENT OF GRAVITY WAVE STRESS TDMPMN DALLTH UPMEAN
8 23 SNOW MASS AFTER HYDROLOGY KG/M TDMPMN DIAG UPMEAN
8 208 SOIL MOISTURE CONTENT TDMPMN DIAG UPMEAN
8 223 SOIL MOISTURE CONTENT IN A LAYER TDMPMN DSOIL UPMEAN
8 225 DEEP SOIL TEMP. AFTER HYDROLOGY DEG TDMPMN DSOIL UPMEAN
8 234 SURFACE RUNOFF RATE KG/M2/ TDMPMN DIAG UPMEAN
8 235 SUB-SURFACE RUNOFF RATE KG/M2/ TDMPMN DIAG UPMEAN
16 4 TEMPERATURE ON THETA LEVELS TDMPMN DALLTH UPMEAN
16 222 PRESSURE AT MEAN SEA LEVEL TDMPMN DIAG UPMEAN
30 112 WBIG Set to 1 if w GT 1.0m/s TDMPMN DALLTH UPMEAN
30 114 WBIG Set to 1 if w GT 0.1m/s TDMPMN DALLTH UPMEAN
30 201 U COMPNT OF WIND ON P LEV/UV GRID TDAYM DP36CCM UPA
30 201 U COMPNT OF WIND ON P LEV/UV GRID TDMPMN DP36CCM UPMEAN
30 202 V COMPNT OF WIND ON P LEV/UV GRID TDAYM DP36CCM UPA
30 202 V COMPNT OF WIND ON P LEV/UV GRID TDMPMN DP36CCM UPMEAN
30 203 W COMPNT OF WIND ON P LEV/UV GRID TDAYM DP36CCM UPA
30 203 W COMPNT OF WIND ON P LEV/UV GRID TDMPMN DP17 UPMEAN
30 203 W COMPNT OF WIND ON P LEV/UV GRID TDMPMN DP36CCM UPMEAN
30 204 TEMPERATURE ON P LEV/UV GRID TDAYM DP36CCM UPA
30 204 TEMPERATURE ON P LEV/UV GRID TDMPMN DP36CCM UPMEAN
30 205 SPECIFIC HUMIDITY ON P LEV/UV GRID TDAYM DP36CCM UPA
30 205 SPECIFIC HUMIDITY ON P LEV/UV GRID TDMPMN DP36CCM UPMEAN
30 206 RELATIVE HUMIDITY ON P LEV/UV GRID TDAYM DP36CCM UPA
30 206 RELATIVE HUMIDITY ON P LEV/UV GRID TDMPMN DP36CCM UPMEAN
30 207 GEOPOTENTIAL HEIGHT ON P LEV/UV GRI TDAYM DP36CCM UPA
30 207 GEOPOTENTIAL HEIGHT ON P LEV/UV GRI TDMPMN DP36CCM UPMEAN
30 208 OMEGA ON P LEV/UV GRID TDAYM DP36CCM UPA
30 208 OMEGA ON P LEV/UV GRID TDMPMN DP17 UPMEAN
30 208 OMEGA ON P LEV/UV GRID TDMPMN DP36CCM UPMEAN
30 301 HEAVYSIDE FN ON P LEV/UV GRID TDAYM DP36CCM UPA
30 301 HEAVYSIDE FN ON P LEV/UV GRID TDMPMN DP36CCM UPMEAN
30 310 RESIDUAL MN MERID. CIRC. VSTARBAR TDAYM DP36CCM UPA
30 310 RESIDUAL MN MERID. CIRC. VSTARBAR TDMPMN DP36CCM UPMEAN
30 311 RESIDUAL MN MERID. CIRC. WSTARBAR TDAYM DP36CCM UPA
30 311 RESIDUAL MN MERID. CIRC. WSTARBAR TDMPMN DP36CCM UPMEAN
30 312 ELIASSEN-PALM FLUX (MERID. COMPNT) TDAYM DP36CCM UPA
30 312 ELIASSEN-PALM FLUX (MERID. COMPNT) TDMPMN DP36CCM UPMEAN
30 313 ELIASSEN-PALM FLUX (VERT. COMPNT) TDAYM DP36CCM UPA
30 313 ELIASSEN-PALM FLUX (VERT. COMPNT) TDMPMN DP36CCM UPMEAN
30 314 DIVERGENCE OF ELIASSEN-PALM FLUX TDAYM DP36CCM UPA
30 314 DIVERGENCE OF ELIASSEN-PALM FLUX TDMPMN DP36CCM UPMEAN
30 315 MERIDIONAL HEAT FLUX TDAYM DP36CCM UPA
30 315 MERIDIONAL HEAT FLUX TDMPMN DP36CCM UPMEAN
30 316 MERIDIONAL MOMENTUM FLUX TDAYM DP36CCM UPA
30 316 MERIDIONAL MOMENTUM FLUX TDMPMN DP36CCM UPMEAN
30 403 TOTAL COLUMN DRY MASS RHO GRID TDMPMN DIAG UPMEAN
30 404 TOTAL COLUMN WET MASS RHO GRID TDMPMN DIAG UPMEAN
30 405 TOTAL COLUMN QCL RHO GRID TDMPMN DIAG UPMEAN
30 406 TOTAL COLUMN QCF RHO GRID TDMPMN DIAG UPMEAN
30 419 ENERGY CORR P GRID IN COLUMN W/M2 TDMPMN DIAG UPMEAN
30 451 Pressure at Tropopause Level TDMPMN DIAG UPMEAN
30 452 Temperature at Tropopause Level TDMPMN DIAG UPMEAN
30 453 Height at Tropopause Level TDMPMN DIAG UPMEAN
34 1 O3 MASS MIXING RATIO AFTER TIMESTEP TDAYM DALLTH UPA
34 1 O3 MASS MIXING RATIO AFTER TIMESTEP TDMPMN DALLTH UPMEAN
34 2 NO MASS MIXING RATIO AFTER TIMESTEP TDMPMN DALLTH UPMEAN
34 3 NO3 MASS MIXING RATIO AFTER TIMESTE TDMPMN DALLTH UPMEAN
34 5 N2O5 MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 6 HO2NO2 MASS MIXING RATIO AFTER TSTE TDMPMN DALLTH UPMEAN
34 7 HONO2 MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 8 H2O2 MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 9 CH4 MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 10 CO MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 11 HCHO MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 12 MeOOH MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 13 HONO MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 14 C2H6 MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 15 EtOOH MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 16 MeCHO MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 17 PAN MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 18 C3H8 MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 19 n-PrOOH MASS MIXING RATIO AFTER TS TDMPMN DALLTH UPMEAN
34 20 i-PrOOH MASS MIXING RATIO AFTER TS TDMPMN DALLTH UPMEAN
34 21 EtCHO MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 22 Me2CO MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 23 MeCOCH2OOH MASS MIXING RATIO AFT TS TDMPMN DALLTH UPMEAN
34 24 PPAN MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 25 MeONO2 MASS MIXING RATIO AFTER TSTE TDMPMN DALLTH UPMEAN
34 27 C5H8 MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 28 ISOOH MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 29 ISON MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 30 MACR MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 31 MACROOH MASS MIXING RATIO AFTER TS TDMPMN DALLTH UPMEAN
34 32 MPAN MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 33 HACET MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 34 MGLY MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 35 NALD MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 36 HCOOH MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 37 MeCO3H MASS MIXING RATIO AFTER TSTE TDMPMN DALLTH UPMEAN
34 38 MeCO2H MASS MIXING RATIO AFTER TSTE TDMPMN DALLTH UPMEAN
34 40 ISO2 MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 41 Cl MASS MIXING RATIO AFTER TIMESTEP TDMPMN DALLTH UPMEAN
34 42 ClO MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 43 Cl2O2 MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 44 OClO MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 45 Br MASS MIXING RATIO AFTER TIMESTEP TDMPMN DALLTH UPMEAN
34 47 BrCl MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 48 BrONO2 MASS MIXING RATIO AFTER TSTE TDMPMN DALLTH UPMEAN
34 49 N2O MASS MIXING RATIO AFTER TIMESTE TDMPMN DALLTH UPMEAN
34 51 HOCl MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 52 HBr MASS MIXING RATIO AFTER TIMESTE TDMPMN DALLTH UPMEAN
34 53 HOBr MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 54 ClONO2 MASS MIXING RATIO AFTER TSTE TDMPMN DALLTH UPMEAN
34 55 CFCl3 MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 56 CF2Cl2 MASS MIXING RATIO AFTER TSTE TDMPMN DALLTH UPMEAN
34 57 MeBr MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 58 N MASS MIXING RATIO AFTER TIMESTEP TDMPMN DALLTH UPMEAN
34 59 O3P MASS MIXING RATIO AFTER TIMESTE TDMPMN DALLTH UPMEAN
34 60 MACRO2 MASS MIXING RATIO AFTER TSTE TDMPMN DALLTH UPMEAN
34 70 H2 MASS MIXING RATIO AFTER TIMESTEP TDMPMN DALLTH UPMEAN
34 71 DMS MASS MIXING RATIO AFTER TIMESTE TDMPMN DALLTH UPMEAN
34 72 SO2 MASS MIXING RATIO AFTER TIMESTE TDMPMN DALLTH UPMEAN
34 73 H2SO4 MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 74 MSA MASS MIXING RATIO AFTER TIMESTE TDMPMN DALLTH UPMEAN
34 75 DMSO MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 76 NH3 MASS MIXING RATIO AFTER TIMESTE TDMPMN DALLTH UPMEAN
34 77 CS2 MASS MIXING RATIO AFTER TIMESTE TDMPMN DALLTH UPMEAN
34 78 COS MASS MIXING RATIO AFTER TIMESTE TDMPMN DALLTH UPMEAN
34 79 H2S MASS MIXING RATIO AFTER TIMESTE TDMPMN DALLTH UPMEAN
34 80 H MASS MIXING RATIO AFTER TIMESTEP TDMPMN DALLTH UPMEAN
34 81 OH MASS MIXING RATIO AFTER TIMESTEP TDMPMN DALLTH UPMEAN
34 82 HO2 MASS MIXING RATIO AFTER TIMESTE TDMPMN DALLTH UPMEAN
34 83 MeOO MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 84 EtOO MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 85 MeCO3 MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 86 n-PrOO MASS MIXING RATIO AFTER TSTE TDMPMN DALLTH UPMEAN
34 87 i-PrOO MASS MIXING RATIO AFTER TSTE TDMPMN DALLTH UPMEAN
34 88 EtCO3 MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 89 MeCOCH2OO MASS MIXING RATIO AFTER T TDMPMN DALLTH UPMEAN
34 90 MeOH MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 91 MONOTERPENE MASS MIXING RATIO AFT T TDMPMN DALLTH UPMEAN
34 92 SEC_ORG MASS MIXING RATIO AFTER TS TDMPMN DALLTH UPMEAN
34 94 SO3 MASS MIXING RATIO AFTER TIMESTE TDMPMN DALLTH UPMEAN
34 98 LUMPED N (as NO2) MMR AFTER TIMESTE TDMPMN DALLTH UPMEAN
34 99 LUMPED Br (as BrO) MMR AFTER TSTEP TDMPMN DALLTH UPMEAN
34 100 LUMPED Cl (as HCl) MMR AFTER TSTEP TDMPMN DALLTH UPMEAN
34 101 NUCLEATION MODE (SOLUBLE) NUMBER TDMPMN DALLTH UPMEAN
34 102 NUCLEATION MODE (SOLUBLE) H2SO4 MMR TDMPMN DALLTH UPMEAN
34 103 AITKEN MODE (SOLUBLE) NUMBER TDMPMN DALLTH UPMEAN
34 104 AITKEN MODE (SOLUBLE) H2SO4 MMR TDMPMN DALLTH UPMEAN
34 105 AITKEN MODE (SOLUBLE) BC MMR TDMPMN DALLTH UPMEAN
34 106 AITKEN MODE (SOLUBLE) OC MMR TDMPMN DALLTH UPMEAN
34 107 ACCUMULATION MODE (SOLUBLE) NUMBER TDMPMN DALLTH UPMEAN
34 108 ACCUMULATION MODE (SOL) H2SO4 MMR TDMPMN DALLTH UPMEAN
34 109 ACCUMULATION MODE (SOL) BC MMR TDMPMN DALLTH UPMEAN
34 110 ACCUMULATION MODE (SOL) OC MMR TDMPMN DALLTH UPMEAN
34 111 ACCUMULATION MODE (SOL) SEA SALT MM TDMPMN DALLTH UPMEAN
34 113 COARSE MODE (SOLUBLE) NUMBER TDMPMN DALLTH UPMEAN
34 114 COARSE MODE (SOLUBLE) H2SO4 MMR TDMPMN DALLTH UPMEAN
34 115 COARSE MODE (SOLUBLE) BC MMR TDMPMN DALLTH UPMEAN
34 116 COARSE MODE (SOLUBLE) OC MMR TDMPMN DALLTH UPMEAN
34 117 COARSE MODE (SOLUBLE) SEA SALT MMR TDMPMN DALLTH UPMEAN
34 119 AITKEN MODE (INSOLUBLE) NUMBER TDMPMN DALLTH UPMEAN
34 120 AITKEN MODE (INSOLUBLE) BC MMR TDMPMN DALLTH UPMEAN
34 121 AITKEN MODE (INSOLUBLE) OC MMR TDMPMN DALLTH UPMEAN
34 126 NUCLEATION MODE (SOLUBLE) OC MMR TDMPMN DALLTH UPMEAN
34 127 AITKEN MODE (SOLUBLE) SEA SALT MMR TDMPMN DALLTH UPMEAN
34 149 PASSIVE O3 MASS MIXING RATIO TDMPMN DALLTH UPMEAN
34 151 O(1D) MASS MIXING RATIO TDMPMN DALLTH UPMEAN
34 152 O(3P) MASS MIXING RATIO TDMPMN DALLTH UPMEAN
34 154 BrO MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 155 HCl MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 156 Cly MASS MIXING RATIO AFTER TSTEP TDMPMN DALLTH UPMEAN
34 157 AEROSOL SURFACE AREA TDMPMN DALLTH UPMEAN
34 158 NAT PSC MASS MIXING RATIO AFTER TS TDMPMN DALLTH UPMEAN
34 159 OZONE COLUMN TDAYM D1TH UPA
34 159 OZONE COLUMN TDMPMN DALLTH UPMEAN
34 160 Heterogenous Rate for N2O5 TDMPMN DALLTH UPMEAN
34 161 Heterogenous Rates for HO2+HO2 TDMPMN DALLTH UPMEAN
34 162 TOTAL CLOUD DROPLET NO. CONC. (m^-3 TDMPMN DALLTH UPMEAN
34 163 <CLOUD DROPLET NO CONC^(-1/3)> (m) TDMPMN DALLTH UPMEAN
34 342 RXN FLUX: NO3+C5H8->ISON TMMNUKCA DALLTH UPB
34 343 RXN FLUX: NO+ISO2->ISON TMMNUKCA DALLTH UPB
34 344 RXN FLUX: H2O2 PRODUCTION TMMNUKCA DALLTH UPB
34 345 RXN FLUX: ROOH PRODUCTION TMMNUKCA DALLTH UPB
34 346 RXN FLUX: HONO2 PRODUCTION (HNO3) TMMNUKCA DALLTH UPB
34 352 TENDENCY: O3 (TROP ONLY) TMMNUKCA DALLTH UPB
34 353 TROPOSPHERIC O3 TMNMEAN DALLTH UPB
34 354 TENDENCY: O3 (WHOLE ATMOS) TMMNUKCA DALLTH UPB
34 363 AIR MASS DIAGNOSTIC (WHOLE ATMOS) TDMPMN DALLTH UPMEAN
34 363 AIR MASS DIAGNOSTIC (WHOLE ATMOS) TMNMEAN DALLTH UPB
34 371 CO BUDGET: CO LOSS VIA OH+CO TMMNUKCA DALLTH UPB
34 372 CO BUDGET: CO PROD VIA HCHO+OH/NO3 TMMNUKCA DALLTH UPB
34 373 CO BUDGET: CO PROD VIA MGLY+OH/NO3 TMMNUKCA DALLTH UPB
34 374 CO BUDGET: CO MISC PROD&O3+MACR/ISO TMMNUKCA DALLTH UPB
34 375 CO BUDGET: CO PROD VIA HCHO PHOT RA TMMNUKCA DALLTH UPB
34 376 CO BUDGET: CO PROD VIA HCHO PHOT MO TMMNUKCA DALLTH UPB
34 377 CO BUDGET: CO PROD VIA MGLY PHOTOL TMMNUKCA DALLTH UPB
34 378 CO BUDGET: CO PROD VIA MISC PHOTOL TMMNUKCA DALLTH UPB
34 379 CO BUDGET: CO DRY DEPOSITION (3D) TMMNUKCA DALLTH UPB
34 381 LIGHTNING NOx EMISSIONS 3D TDMPMN DALLTH UPMEAN
34 382 LIGHTNING DIAGNOSTIC: TOT FLASHES 2 TDMPMN DIAG UPMEAN
34 383 LIGHTNING DIAG: CLD TO GRND FLSH 2D TDMPMN DIAG UPMEAN
34 384 LIGHTNING DIAG: CLD TO CLD FLSH 2D TDMPMN DIAG UPMEAN
34 385 LIGHTNING DIAG: TOTAL N PRODUCED 2D TDMPMN DIAG UPMEAN
34 391 STRATOSPHERIC OH PRODUCTION TMMNUKCA DALLTH UPB
34 392 STRATOSPHERIC OH LOSS TMMNUKCA DALLTH UPB
34 401 STRAT O3 PROD: O2+PHOTON->O(3P)+O(3 TMMNUKCA DALLTH UPB
34 402 STRAT O3 PROD: O2+PHOTON->O(3P)+O(1 TMMNUKCA DALLTH UPB
34 403 STRAT O3 PROD: HO2 + NO TMMNUKCA DALLTH UPB
34 404 STRAT O3 PROD: MeOO + NO TMMNUKCA DALLTH UPB
34 411 STRAT O3 LOSS: Cl2O2 + PHOTON TMMNUKCA DALLTH UPB
34 412 STRAT O3 LOSS: BrO + ClO TMMNUKCA DALLTH UPB
34 413 STRAT O3 LOSS: HO2 + O3 TMMNUKCA DALLTH UPB
34 414 STRAT O3 LOSS: ClO + HO2 TMMNUKCA DALLTH UPB
34 415 STRAT O3 LOSS: BrO + HO2 TMMNUKCA DALLTH UPB
34 416 STRAT O3 LOSS: O(3P) + ClO TMMNUKCA DALLTH UPB
34 417 STRAT O3 LOSS: O(3P) + NO2 TMMNUKCA DALLTH UPB
34 418 STRAT O3 LOSS: O(3P) + HO2 TMMNUKCA DALLTH UPB
34 419 STRAT O3 LOSS: O3 + H TMMNUKCA DALLTH UPB
34 420 STRAT O3 LOSS: O(3P) + O3 TMMNUKCA DALLTH UPB
34 421 STRAT O3 LOSS: NO3 + PHOTON TMMNUKCA DALLTH UPB
34 422 STRAT O3 LOSS: O(1D) + H2O TMMNUKCA DALLTH UPB
34 423 STRAT O3 LOSS: HO2 + NO3 TMMNUKCA DALLTH UPB
34 424 STRAT O3 LOSS: OH + NO3 TMMNUKCA DALLTH UPB
34 425 STRAT O3 LOSS: NO3 + HCHO TMMNUKCA DALLTH UPB
34 431 STRAT MISC: O3 DRY DEPOSITION (3D) TMMNUKCA DALLTH UPB
34 432 STRAT MISC: NOy DRY DEPOSITION (3D) TMMNUKCA DALLTH UPB
34 433 STRAT MISC: NOy WET DEPOSITION (3D) TMMNUKCA DALLTH UPB
34 447 Monoterp + OH => Sec_org TMMNUKCA DALLTH UPB
34 448 Monoterp + O3 => Sec_org TMMNUKCA DALLTH UPB
34 449 Monoterp + NO3 => Sec_org TMMNUKCA DALLTH UPB
34 451 SO2 + H2O2 => NULL0 TMMNUKCA DALLTH UPB
34 452 SO2 + O3 => NULL1 TMMNUKCA DALLTH UPB
34 453 SO2 + O3 => NULL2 TMMNUKCA DALLTH UPB
34 454 SO2 DRY DEPOSITION (3D) TMMNUKCA DALLTH UPB
34 455 SO2 WET DEPOSITION (3D) TMMNUKCA DALLTH UPB
34 460 CS2+O(3P)->COS+SO2+CO BIMOL TMMNUKCA DALLTH UPB
34 461 CS2+OH->COS+SO2 BIMOL TMMNUKCA DALLTH UPB
34 462 DMS+OH->SO2 BIMOL TMMNUKCA DALLTH UPB
34 463 DMS+OH->MSA+SO2 BIMOL TMMNUKCA DALLTH UPB
34 464 DMS+NO3->SO2 BIMOL TMMNUKCA DALLTH UPB
34 465 DMS+O(3P)->SO2 BIMOL TMMNUKCA DALLTH UPB
34 466 H2S+O(3P)->OH+SO2 BIMOL TMMNUKCA DALLTH UPB
34 467 H2S+OH->SO2+H20 BIMOL TMMNUKCA DALLTH UPB
34 468 COS+O(3P)->CO+SO2 BIMOL TMMNUKCA DALLTH UPB
34 469 COS+OH->COS+SO2 BIMOL TMMNUKCA DALLTH UPB
34 470 SO2+O3->SO3 BIMOL TMMNUKCA DALLTH UPB
34 471 SO3+H2O->H2SO4+H2O BIMOL TMMNUKCA DALLTH UPB
34 472 CS2->COS+SO2 PHOTOL TMMNUKCA DALLTH UPB
34 473 COS->CO+SO2 PHOTOL TMMNUKCA DALLTH UPB
34 474 H2SO4->SO3+OH PHOTOL TMMNUKCA DALLTH UPB
34 475 SO3->SO2+O(3P) PHOTOL TMMNUKCA DALLTH UPB
34 476 SO2+OH->SO3+HO2 TMMNUKCA DALLTH UPB
34 477 DMSO DRY DEP TMMNUKCA DALLTH UPB
34 478 NH3 DRY DEP TMMNUKCA DALLTH UPB
34 479 Monoterp DRY DEP TMMNUKCA DALLTH UPB
34 480 SEC_ORG DRY DEP TMMNUKCA DALLTH UPB
34 481 O3 WET DEP TMMNUKCA DALLTH UPB
34 482 DMSO WET DEP TMMNUKCA DALLTH UPB
34 483 NH3 WET DEP TMMNUKCA DALLTH UPB
34 484 SEC_ORG WET DEP TMMNUKCA DALLTH UPB
35 1 O3 MASS MIX RATIO ON PRESS LEVELS TDAYM DP36CCM UPA
35 1 O3 MASS MIX RATIO ON PRESS LEVELS TDMPMN DP36CCM UPMEAN
35 173 HEAVYSIDE FUNC FOR P LEVEL DIAGS TDAYM DP36CCM UPA
35 173 HEAVYSIDE FUNC FOR P LEVEL DIAGS TDMPMN DP36CCM UPMEAN
35 341 FLUX: OH+CH4 REACTION ON PLEVS TDAYM DP36CCM UPA
35 341 FLUX: OH+CH4 REACTION ON PLEVS TDMPMN DP36CCM UPMEAN
38 201 PRIMARY SO4 TO AITKEN (SOL) TMMNUKCA DALLTH UPB
38 202 PRIMARY SO4 TO ACCUMULATION (SOL) TMMNUKCA DALLTH UPB
38 203 PRIMARY SO4 TO COARSE (SOL) TMMNUKCA DALLTH UPB
38 204 PRIMARY SEA-SALT TO ACCUMULTN (SOL) TMMNUKCA DALLTH UPB
38 205 PRIMARY SEA-SALT TO COARSE (SOL) TMMNUKCA DALLTH UPB
38 207 PRIMARY BLACK CARBON TO AITKEN (INS TMMNUKCA DALLTH UPB
38 209 PRIMARY ORG. CARBON TO AITKEN (INS TMMNUKCA DALLTH UPB
38 214 DRY DEPOSITION SO4 NUCLEATION (SOL) TMMNUKCA DALLTH UPB
38 215 DRY DEPOSITION SO4 AITKEN (SOL) TMMNUKCA DALLTH UPB
38 216 DRY DEPOSITION SO4 ACCUMULTN (SOL) TMMNUKCA DALLTH UPB
38 217 DRY DEPOSITION SO4 COARSE (SOL) TMMNUKCA DALLTH UPB
38 218 DRY DEPOSITION SEA-SALT ACC (SOL) TMMNUKCA DALLTH UPB
38 219 DRY DEPOSITION SEA-SALT COARSE (SOL TMMNUKCA DALLTH UPB
38 220 DRY DEPOSITION BLK CARB AITKEN (SOL TMMNUKCA DALLTH UPB
38 221 DRY DEPOSITION BLK CARB ACCUM. (SOL TMMNUKCA DALLTH UPB
38 222 DRY DEPOSITION BLK CARB COARSE (SOL TMMNUKCA DALLTH UPB
38 223 DRY DEPOSITION BLK CARB AITKEN (INS TMMNUKCA DALLTH UPB
38 224 DRY DEPOSITION ORG CARB NUCLN. (SOL TMMNUKCA DALLTH UPB
38 225 DRY DEPOSITION ORG CARB AITKEN (SOL TMMNUKCA DALLTH UPB
38 226 DRY DEPOSITION ORG CARB ACCUM. (SOL TMMNUKCA DALLTH UPB
38 227 DRY DEPOSITION ORG CARB COARSE (SOL TMMNUKCA DALLTH UPB
38 228 DRY DEPOSITION ORG CARB AITKEN (INS TMMNUKCA DALLTH UPB
38 239 NUC SCAVENGING SO4 ACCUMULTN (SOL) TMMNUKCA DALLTH UPB
38 240 NUC SCAVENGING SO4 COARSE (SOL) TMMNUKCA DALLTH UPB
38 241 NUC SCAVENGING SEA-SALT ACCUM. (SOL TMMNUKCA DALLTH UPB
38 242 NUC SCAVENGING SEA-SALT COARSE (SOL TMMNUKCA DALLTH UPB
38 243 NUC SCAVENGING BLK CARB AITKEN (SOL TMMNUKCA DALLTH UPB
38 244 NUC SCAVENGING BLK CARB ACCUM. (SOL TMMNUKCA DALLTH UPB
38 245 NUC SCAVENGING BLK CARB COARSE (SOL TMMNUKCA DALLTH UPB
38 246 NUC SCAVENGING BLK CARB AITKEN (INS TMMNUKCA DALLTH UPB
38 247 NUC SCAVENGING ORG CARB NUCLN. (SOL TMMNUKCA DALLTH UPB
38 248 NUC SCAVENGING ORG CARB AITKEN (SOL TMMNUKCA DALLTH UPB
38 249 NUC SCAVENGING ORG CARB ACCUM. (SOL TMMNUKCA DALLTH UPB
38 250 NUC SCAVENGING ORG CARB COARSE (SOL TMMNUKCA DALLTH UPB
38 251 NUC SCAVENGING ORG CARB AITKEN (INS TMMNUKCA DALLTH UPB
38 261 IMP SCAVENGING SO4 NUCLN. (SOL) TMMNUKCA DALLTH UPB
38 262 IMP SCAVENGING SO4 AITKEN (SOL) TMMNUKCA DALLTH UPB
38 263 IMP SCAVENGING SO4 ACCUMULTN (SOL) TMMNUKCA DALLTH UPB
38 264 IMP SCAVENGING SO4 COARSE (SOL) TMMNUKCA DALLTH UPB
38 265 IMP SCAVENGING SEA-SALT ACCUM. (SOL TMMNUKCA DALLTH UPB
38 266 IMP SCAVENGING SEA-SALT COARSE (SOL TMMNUKCA DALLTH UPB
38 267 IMP SCAVENGING BLK CARB AITKEN (SOL TMMNUKCA DALLTH UPB
38 268 IMP SCAVENGING BLK CARB ACCUM. (SOL TMMNUKCA DALLTH UPB
38 269 IMP SCAVENGING BLK CARB COARSE (SOL TMMNUKCA DALLTH UPB
38 270 IMP SCAVENGING BLK CARB AITKEN (INS TMMNUKCA DALLTH UPB
38 271 IMP SCAVENGING ORG CARB NUCLN. (SOL TMMNUKCA DALLTH UPB
38 272 IMP SCAVENGING ORG CARB AITKEN (SOL TMMNUKCA DALLTH UPB
38 273 IMP SCAVENGING ORG CARB ACCUM. (SOL TMMNUKCA DALLTH UPB
38 274 IMP SCAVENGING ORG CARB COARSE (SOL TMMNUKCA DALLTH UPB
38 275 IMP SCAVENGING ORG CARB AITKEN (INS TMMNUKCA DALLTH UPB
38 285 INCLOUD SO4 (H2O2) TO ACCUMLTN (SOL TMMNUKCA DALLTH UPB
38 286 INCLOUD SO4 (H2O2) TO COARSE (SOL) TMMNUKCA DALLTH UPB
38 288 INCLOUD SO4 (O3) TO ACCUMULTN (SOL) TMMNUKCA DALLTH UPB
38 289 INCLOUD SO4 (O3) TO COARSE (SOL) TMMNUKCA DALLTH UPB
38 290 CLOUDPROC SU AITSOL --> ACCSOL TMMNUKCA DALLTH UPB
38 291 CLOUDPROC BC AITSOL --> ACCSOL TMMNUKCA DALLTH UPB
38 292 CLOUDPROC OC AITSOL --> ACCSOL TMMNUKCA DALLTH UPB
38 294 CONDENSATION SO4 TO NUCLEATION (SOL TMMNUKCA DALLTH UPB
38 295 CONDENSATION SO4 TO AITKEN (SOL) TMMNUKCA DALLTH UPB
38 296 CONDENSATION SO4 TO ACCUMULTN (SOL) TMMNUKCA DALLTH UPB
38 297 CONDENSATION SO4 TO COARSE (SOL) TMMNUKCA DALLTH UPB
38 298 CONDENSATION SO4 TO AITKEN (INSOL) TMMNUKCA DALLTH UPB
38 301 CONDENSATION OC1 TO NUCLEATION (SOL TMMNUKCA DALLTH UPB
38 302 CONDENSATION OC1 TO AITKEN (SOL) TMMNUKCA DALLTH UPB
38 303 CONDENSATION OC1 TO ACCUMULTN (SOL) TMMNUKCA DALLTH UPB
38 304 CONDENSATION OC1 TO COARSE (SOL) TMMNUKCA DALLTH UPB
38 305 CONDENSATION OC1 TO AITKEN (INSOL) TMMNUKCA DALLTH UPB
38 319 NUCLEATION OF SO4 (TO NUC-SOL) TMMNUKCA DALLTH UPB
38 320 COAG SO4 NUCLTN-SOL TO AITKEN-SOL TMMNUKCA DALLTH UPB
38 321 COAG SO4 NUCLTN-SOL TO ACCUMULN-SOL TMMNUKCA DALLTH UPB
38 322 COAG SO4 NUCLTN-SOL TO COARSE-SOL TMMNUKCA DALLTH UPB
38 323 COAG SO4 NUCLTN-SOL TO AITKEN-INSOL TMMNUKCA DALLTH UPB
38 326 COAG OC1 NUCLTN-SOL TO AITKEN-SOL TMMNUKCA DALLTH UPB
38 327 COAG OC1 NUCLTN-SOL TO ACCUMULN-SOL TMMNUKCA DALLTH UPB
38 328 COAG OC1 NUCLTN-SOL TO COARSE-SOL TMMNUKCA DALLTH UPB
38 329 COAG OC1 NUCLTN-SOL TO AITKEN-INSOL TMMNUKCA DALLTH UPB
38 338 COAG SO4 AITKEN-SOL TO ACCUMULN-SOL TMMNUKCA DALLTH UPB
38 339 COAG SO4 AITKEN-SOL TO COARSE-SOL TMMNUKCA DALLTH UPB
38 342 COAG BC AITKEN-SOL TO ACCUMULN-SOL TMMNUKCA DALLTH UPB
38 343 COAG BC AITKEN-SOL TO COARSE-SOL TMMNUKCA DALLTH UPB
38 346 COAG OC1 AITKEN-SOL TO ACCUMULN-SOL TMMNUKCA DALLTH UPB
38 347 COAG OC1 AITKEN-SOL TO COARSE-SOL TMMNUKCA DALLTH UPB
38 354 COAG SO4 ACCUMULN-SOL TO COARSE-SOL TMMNUKCA DALLTH UPB
38 356 COAG BC ACCUMULN-SOL TO COARSE-SOL TMMNUKCA DALLTH UPB
38 358 COAG OC1 ACCUMULN-SOL TO COARSE-SOL TMMNUKCA DALLTH UPB
38 360 COAG SEA-SALT ACC-SOL TO COARSE-SOL TMMNUKCA DALLTH UPB
38 366 COAG BC AITKEN-INS TO ACCUMULN-SOL TMMNUKCA DALLTH UPB
38 367 COAG OC1 AITKEN-INS TO ACCUMULN-SOL TMMNUKCA DALLTH UPB
38 368 COAG BC AITKEN-INS TO COARSE-SOL TMMNUKCA DALLTH UPB
38 371 AGEING SO4 AITKEN-INS TO AITKEN-SOL TMMNUKCA DALLTH UPB
38 372 AGEING BC AITKEN-INS TO AITKEN-SOL TMMNUKCA DALLTH UPB
38 373 AGEING OC1 AITKEN-INS TO AITKEN-SOL TMMNUKCA DALLTH UPB
38 375 MERGE SO4 NUCLTN-SOL TO AITKEN-SOL TMMNUKCA DALLTH UPB
38 376 MERGE OC1 NUCLTN-SOL TO AITKEN-SOL TMMNUKCA DALLTH UPB
38 378 MERGE SO4 AITKEN-SOL TO ACCUMULN-SO TMMNUKCA DALLTH UPB
38 379 MERGE BC AITKEN-SOL TO ACCUMULN-SO TMMNUKCA DALLTH UPB
38 380 MERGE OC1 AITKEN-SOL TO ACCUMULN-SO TMMNUKCA DALLTH UPB
38 382 MERGE SO4 ACCUMULN-SOL TO COARSE-SO TMMNUKCA DALLTH UPB
38 383 MERGE SEA_SALT ACC-SOL TO COARSE-SO TMMNUKCA DALLTH UPB
38 384 MERGE BC ACCUMULN-SOL TO COARSE-SO TMMNUKCA DALLTH UPB
38 385 MERGE OC1 ACCUMULN-SOL TO COARSE-SO TMMNUKCA DALLTH UPB
38 401 DRY PARTICLE DIAMETER NUCLEATION-SO TMMNUKCA DALLTH UPB
38 402 DRY PARTICLE DIAMETER AITKEN-SOL TMMNUKCA DALLTH UPB
38 403 DRY PARTICLE DIAMETER ACCUMULATN-SO TMMNUKCA DALLTH UPB
38 404 DRY PARTICLE DIAMETER COARSE-SOL TMMNUKCA DALLTH UPB
38 405 DRY PARTICLE DIAMETER AITKEN-INS TMMNUKCA DALLTH UPB
38 408 WET PARTICLE DIAMETER NUCLEATION-SO TMMNUKCA DALLTH UPB
38 409 WET PARTICLE DIAMETER AITKEN-SOL TMMNUKCA DALLTH UPB
38 410 WET PARTICLE DIAMETER ACCUMULATN-SO TMMNUKCA DALLTH UPB
38 411 WET PARTICLE DIAMETER COARSE-SOL TMMNUKCA DALLTH UPB
38 412 WATER CONTENT FOR NUCLEATION-SOLUBL TMMNUKCA DALLTH UPB
38 413 WATER CONTENT FOR AITKEN -SOLUBL TMMNUKCA DALLTH UPB
38 414 WATER CONTENT FOR ACCUMULTN.-SOLUBL TMMNUKCA DALLTH UPB
38 415 WATER CONTENT FOR COARSE -SOLUBL TMMNUKCA DALLTH UPB
38 437 CN NUMBER CONCENTRATION TMMNUKCA DALLTH UPB
38 438 CCN NO. CONCENTRN. (ACC+COR) TMMNUKCA DALLTH UPB
38 439 CCN NO. CONCENTRN. (ACC+COR+AIT>25r TMMNUKCA DALLTH UPB
38 440 CCN NO. CONCENTRN. (ACC+COR+AIT>35r TMMNUKCA DALLTH UPB
38 441 CD NUMBER CONCENTRATION TMMNUKCA DALLTH UPB
38 469 ACTIVE CLOUD DROP NO CONC (NUC-SOL) TMMNUKCA DALLTH UPB
38 470 ACTIVE CLOUD DROP NO CONC (AIT-SOL) TMMNUKCA DALLTH UPB
38 471 ACTIVE CLOUD DROP NO CONC (ACC-SOL) TMMNUKCA DALLTH UPB
38 472 ACTIVE CLOUD DROP NO CONC (COR-SOL) TMMNUKCA DALLTH UPB
38 476 CLOUD LIQUID FRACTION TMMNUKCA DALLTH UPB
38 477 TOTAL CDNC * CLOUD LIQ FRACTION TMMNUKCA DALLTH UPB