Table of field codes used by the PP-package

            LBFC     TABLE OF PP-PACKAGE FIELD CODES
            ~~~~     ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

   Listed below are the main field codes used by the PP-package.
   There is no connection in the system between ranges of codes reserved
   below and UM submodels.  The same list is also used for the coding of
   the 'vertical co-ordinate type' in field headers and for indicators
   in the Unified Model.

    1 - 200         General meteorological variables. FULL.
  201 - 350         Atmospheric UM official list. FULL. This incorporate
                    with some alterations, local codes used by MET O 20.

  351 - 400 "Wave/" Operational wave model.
  401 - 450 "  MA/" Middle atmosphere, not tracer variables
  451 - 499 "MAtr/" Middle atmosphere tracer variables
  500 - 600 "MAUA/" Middle atmosphere UARS chemicals
  601 - 699 "OCtr/" Ocean model: tracer points
  700 - 799 "OCuv/" Ocean model: u,v,points
  800 - 849 " OCE/" Ocean model: other
                      831-832 are not on the tracer or velocity grids.
  850 - 890 "  OA/" Ocean model: assimilation
  891 - 999 " OCE/" Ocean model: other
 1000 - 1300        New atmospheric dynamics - Mawson, RR will advise, 2
 1301 - 1339        Further Atmospheric (Unified) Model codes. FULL.
 1340 - 1369        VAR
 1370 - 1379 "SO4"  SO4 aerosol items
 1380 - 1599        Further Atmospheric (UM) codes - FULL PAST 1500!
 1600 - 1629        Further general meteorological variables
 1630 - 1680        Mineral Dust variables reserved for S Woodward.
 1681 - 1699        Further general meteorological variables
 1700 - 1799        Tropospheric chemistry model: chem. species
 1800 - 1899        Tropospheric chemistry model: fluxes
 1900 - 1950        Further Atmospheric General Codes
 1951 - 1959        Sea Ice Codes (Initially started for A Mclaren)
 1960 - 1980        Further Wave codes (for Damian H-B)

   IMPORTANT
   ~~~~~~~~~
   New field codes can only be allocated by the PP-package manager -
   Bill Roseblade (CR Division) email william.roseblade@metoffice.com

   NOTES:
   ~~~~~~
(a)  Field codes 30 to 14 are used to indicate cloud AMOUNTS by coding
     zero for the vertical co-ordinate type.  When a vertical
     co-ordinate type in the range 135 to 138 is coded, these field
     codes represent the upper or lower boundaries of clouds or
     contrails.

(b)  Some of the original M20 fields were duplicates of existing fields
     and have been removed, others have been re-defined to conform to
     official PP standards.

(c)  Type I clear-sky quantities are those from those points
     and times when no clouds are in fact present.
     Type II are those that would be produced everywhere
     in the absence of clouds but with no other changes.
     These definitions were interchanged up to 10 Sept 1993.
     The wording was revised at this date.

 ---------------------------------------------------------------

   0  Unspecified
   1  Height
   2  Depth
   3  Geopotential (= g*height)
   4  ICAO height
   5  Boundary layer height
   6  Non-dimensional soil model level
   7  Exner pressure
   8  Pressure
   9  Hybrid pressure
  10  Sigma (= p/surface p)
  11  T*u
  12  T*v
  13  T**2
  14  T*omega
  15  Height**2
  16  Temperature T
  17  Dew point temperature
  18  Dew point depression
  19  Potential temperature
  20  Maximum temperature
  21  Minimum temperature
  22  Wet bulb potential temperature
  23  Soil temperature (levels 2,3,4)
  24  d theta/dt
  25  Visibility
  26  Brunt-Vaisala Frequency "N"
  27  (Atmospheric) density
  28  d(p*)/dt .  p* = surface pressure
  29  Cloud fraction below a level in feet
  30  Total cloud       See note (a) in @FCODES
  31  High cloud        See note (a) in @FCODES
  32  Medium cloud      See note (a) in @FCODES
  33  Low cloud         See note (a) in @FCODES
  34  Convective cloud  See note (a) in @FCODES
  35  Contrail
  36  Fractional land amount
  37  Fractional sea-ice cover
  38  Atmospheric model land/sea mask   Land=1, Sea=0
  39  Coriolis parameter
  40  Omega  (= dp/dt)
  41  Wet bulb temperature
  42  Vertical velocity  (= dz/dt)
  43  Eta dot
  44  Time in seconds
  45  d(sigma)/dt
  46  u*q
  47  v*q
  48  'x' wind component (with respect to grid)
  49  'y' wind component (with respect to grid)
  50  Wind speed
  51  Thermal wind speed
  52  Vertical speed shear
  53  u*omega
  54  v*omega
  55  Wind direction
  56  Westerly component of wind  u
  57  Southerly component of wind v
  58  u**2
  59  v**2
  60  Product of wind components  u*v
  61  'x' component of wind stress
  62  'y' component of wind stress
  63  Kinetic energy
  64  Wind in 'DDDFFF' format
  65  Hybrid height
  66  Reserved for M.Mawson, RR will advise, 2000
  67  Reserved for M.Mawson, RR will advise, 2000
  68  u-acceleration from saturated stress
  69  v-acceleration from saturated stress
  70  u-acceleration from hydraulic jump
  71  v-acceleration from hydraulic jump
  72  Absolute vorticity
  73  Relative vorticity
  74  Divergence
  75  Height of base of lowest cloud in feet
  76  Height of top of lowest cloud in feet
  77  Total precipitation accumulation
  78  QCF - Frozen cloud water
  79  QCL - Liquid cloud water
  80  Stream function
  81  Velocity potential
  82  Ertel potential vorticity (Q)
  83  Thermal vorticity
  84  Quasi-geostrophic potential vorticity
  85  Montgomery stream function
  86  Geostrophic absolute vorticity
  87  dq/dt
  88  Relative humidity
  89  Precipitable water
  90  Total precipitation (= 94 + 102 + 103)
  91  Equivalent ice depth
  92  Actual ice depth
  93  Snow depth (water equivalent)
  94  Convective rain
  95  Specific humidity q
  96  Condensed water (per unit area)
  97  Total rainfall rate
  98  Convective rainfall rate
  99  Dynamic rainfall rate
 100  Local convective rainfall
 101  Mixing ratio
 102  Large scale rain
 103  Snow
 104  Total rain  (= 94 + 102)
 105  Evaporation
 106  Total soil moisture content (levels 1-4)
 107  Sublimation
 108  Snowfall rate mm/s
 109  Total runoff
 110  Snowmelt
 111  'Quick' runoff
 112  'Slow' runoff
 113  (Precipitation minus evaporation) rate (= 90 - 105)
 114  Evaporation rate
 115  Evaporation from soil surface
 116  Large scale snowfall
 117  Convective snowfall
 118  Large scale snowfall rate mm/s
 119  Convective snowfall rate mm/s
 120  Total large-scale precipitation (102+116)
 121  Total convective precipitation (94+117)
 122  Soil moisture in each (of 4) levels
 123  u-acceleration from trapped lee waves
 124  v-acceleration from trapped lee waves
 125  Vertical transmission coefficient
 126  Max C.A.T. level
 127  Sea bed level
 128  Mean sea level
 129  Surface
 130  Tropopause level
 131  Maximum wind level
 132  Freezing level
 133  Top of atmosphere
 134  -20 deg.C level
 135  Upper level (height)
 136  Lower level (height)
 137  Upper level (pressure)
 138  Lower level (pressure)
 139  Wet bulb freezing level height (asl) m
 140  Salinity
 141  Snowmelt heat flux
 142  Upper level (hybrid)
 143  Lower level (hybrid)
 144  Unified model test diagnostic for output no. 1
 145  Unified model test diagnostic for output no. 2
 146  Unified model test diagnostic for output no. 3
 147  Unified model test diagnostic for output no. 4
 148  'X' component of geostrophic wind
 149  'Y' component of geostrophic wind
 150  Standard deviation of orography
 151  Distance to the centre of the earth
 152  Orography XX gradient component
 153  Orography XY gradient component
 154  Orography YY gradient component
 155  Orographic roughness
 156  Total ozone climatology
 157  Ultra violet index climatology
 158  Total ozone field, Dobson units
 159  UVB (Ultra violet index - dimensionless)
 160  Drag coefficient CD
 161  Theta_e
 162  Sunshine hours
 163  Convective cloud liquid re * convective cloud amount
 164  Layer cloud liquid re * layer cloud amount
 165  Convective cloud amount in SWRAD (microphysics)
 166  Layer cloud amount in SWRAD (microphysics)
 167  Layer cloud condensed water path * amount
 168  Cloud emissivity * cloud fraction
 169  Cloud albedo * cloud fraction
 170  Transmissivity
 171  RHOKH (RHO* * CH * SURF_LAYER_WIND_SHEAR)
 172  RHOKM (RHO* * CD * SURF_LAYER_WIND_SHEAR)
 173  Probability of visibility less than 5 km
 174  Silhouette area of unresolved orography per unit horizontal area
 175  Peak to trough height of unresolved orography divided by 2 (metres
 176  Latitude  (north positive)
 177  Longitude  (east positive)
 178  Sensible heat flux
 179  Soil heat flux
 180  Latent heat flux
 181  Bulk Richardson number
 182  Wind mixing energy
 183  CH - bulk transfer coefficient of heat
 184  Moisture flux
 185  Mass flux
 186  Net short wave radiation flux
 187  Net long wave radiation flux
 188  Total surface heat flux (inc. sensible+latent)
 189  Thermal advection
 190  C.A.T. probability
 191  Snow probability
 192  Boundary mixing coeffs.
 193  Convective heating rate
 194  Convective moistening rate
 195  Vertical momentum flux - U
 196  Vertical momentum flux - V
 197  Snow melt heating flux
 198  Evaporation duct height (previously called just 'Duct height')
 199  Evap. duct intensity (max wavelength trapped) (p.c.j. 'Duct intens
 200  Downward solar
 201  Upward solar
 202  Net surface radiation flux (No sensible or latent)
 203  Total downward surface solar flux over sea-ice.
 204  Reserved for M.Mawson, RR will advise, 2000
 205  IR down
 206  IR up
 207  Clear-sky flux (type II) solar up
 208  Clear-sky flux (type II) solar down
 209  Sea-ice temperature
 210  Clear-sky (type II) IR up
 211  Clear-sky (type II) IR down
 212  Convective cloud base times amount
 213  Dilute convectively available potential energy. J/kg (or equiv. m2
 214  Clear-sky (type II) net shortwave flux
 215  Clear-sky (type II) net longwave flux
 216  Cloud top height (asl)  kft
 217  Convective cloud top times amount
 218  Convective cloud water
 219  Convective cloud condensed water path kg/m**2
 220  Cloud amount in a layer / at a level  (reworded 4/3/93)
 221  Total water condensed by convection
 222  Convective cloud base level-number
 223  Convective cloud top level-number
 224  Advecting u * layer thickness (pascals) = zonal mass-flux
 225  Advecting v * layer thickness (pascals) = meridional mass-flux
 226  Blocking index (Tibaldi & Molteni definition)
 227  'EMAX' from convection scheme
 228  Total net radiative heating
 229  Zonal mass-flux * temperature
 230  Meridional mass-flux * temperature
 231  Zonal mass-flux * specific humidity q
 232  Meridional mass-flux * specific humidity q
 233  Zonal mass-flux * liquid water temperature
 234  Meridional mass-flux * liquid water temperature
 235  Zonal mass-flux * total water
 236  Meridional mass-flux * total water
 237  Clear-sky (type I) solar up
 238  Clear-sky (type I) solar down
 239  Vapour pressure
 240  Clear-sky (type I) IR up
 241  Clear-sky (type I) IR down
 242  Probability of precipitation
 243  Clear-sky (type I) net shortwave flux
 244  Clear-sky (type I) net longwave flux
 245  Clear-sky(type I) radiative heating
 246  Clear-sky(type I) short-wave radiative heating
 247  Clear-sky(type I) long wave radiative heating
 248  'X' component of ageostrophic wind
 249  'Y' component of ageostrophic wind
 250  Clear-sky(type II) radiative heating
 251  Short-wave radiative heating
 252  Clear-sky(type II) ditto
 253  Long-wave radiative heating
 254  Clear-sky(type II) ditto
 255  Convective cloud liquid re * convective cloud weighting (full leve
 256  Convective cloud weighting for microphysics (full levels)
 257  RHO_CD_MODV1 = rhostar*cD*modv1
 258  RHO_KM = rho*Km (Km = turbulent mixing coefficient for momentum)
 259  Atmospheric energy correction    W/m**2  (from UM 3.3)
 260  Sea-ice topmelt w/m2
 261  Sea-ice botmelt w/m2
 262  Fractional time of change of ice cover.
 263  Zonal mass-flux * u
 264  Meridional mass-flux * u
 265  Zonal mass-flux * v
 266  Meridional mass-flux * v
 267  Zonal mass-flux * geopotential
 268  Meridional mass-flux * geopotential
 269  Zonal mass-flux * moist static energy
 270  Meridional mass-flux * moist static energy
 271  Canopy water content
 272  Canopy condensation
 273  Canopy evaporation
 274  Canopy water throughfall
 275  Canopy height (all vegetation)
 276  Air concentration of radioactivity Becquerels(Bq) m**-3
 277  Dosage of radioactivity Bq.seconds m**-3
 278  Dry deposition of radioactivity Bq m**-2
 279  Wet deposition of radioactivity Bq m**-2
 280  Leads;net solar radiation wm-2
 281  Leads;net infra-red flux  wm-2
 282  Leads;sensible heat flux  wm-2
 283  Leads;latent heat flux    wm-2
 284  Total deposition of radioactivity Bq m**-2
 285  Evap from sea * leads fraction.
 286  Total aerosol (micro g/kg)
 287  Total aerosol emissions (micro g/sq m/s)
 288  Visibility assimilation weights
 289  Visibility assimilation increment
 290  P* (surface pressure) weights
 291  Theta weights
 292  Wind weights
 293  Surface wind weights.......
 294  RH weights
 295  Precipitation rate assimilation weights
 296  Spare for A/C
 297  Spare for A/C
 298  Spare for A/C
 299  Specific layer cloud water content
 300  Spare for A/C
 301  Spare for A/C
 302  Spare for A/C
 303  P* (surface pressure) assimilation increments
 304  Theta assimilation increments
 305  u assimilation increments
 306  v assimilation increments
 307  Hydrostatic increments
 308  Probability of ground frost
 309  RH assimilation increments
 310  Precipitation rate assimilation increments
 311  Reserved for M.Mawson, RR will advise, 2000
 312  Reserved for M.Mawson, RR will advise, 2000
 313  Reserved for M.Mawson, RR will advise, 2000
 314  Reserved for M.Mawson, RR will advise, 2000
 315  Increment in q from a routine
 316  Increment in T from a routine
 317  Increment in theta from a routine
 318  Increment in u from a routine
 319  Increment in v from a routine
 320  Surface roughness (heat)
 321  Root depth
 322  Snow free albedo (all types of land)
 323  Surface resistance to evaporation
 324  Surface roughness (momentum)
 325  Surface capacity
 326  Vegetation fraction
 327  Veg. infilt. enhancement factor
 328  Deep snow albedo
 329  Wilting point
 330  Critical point
 331  Field capacity
 332  Saturation
 333  Saturated conductivity
 334  Eagleson's exponent
 335  Heat capacity
 336  Heat conductivity
 337  SOILB (Soil hydrology parameter "BS")
 338  Field capacity-root depth
 339  Surface infilt.-infilt. factor
 340  Thermal inertia-(lambda C ** 1/2)
 341  Veg. infilt. enhancement factor * Saturated conductivity (327*333)
 342  Saturated soil water suction (m)
 343  Lowest convective cloud amount
 344  Lowest convective cloud base (pa)
 345  Lowest convective cloud top (pa)
 346  Lowest convective cloud base (Kft)
 347  Lowest convective cloud top (Kft)
 348  'X' component of 'Q'
 349  'Y' component of 'Q'
 350  DIV(Q)
 ---------------------------------------------------------------
 351  Wave/ Spectral wave energy component
 352  Wave/

 353  Wave/ Energy increments after propagation
 354  Wave/ Energy increments after input source term
 355  Wave/ Energy increments after nonlinear transfer
 356  Wave/ Energy increments after dissipation
 357  Wave/ Energy increments after bottom friction
 358  Wave/ Energy increments after assimilation
 359  Wave/ Assimilation increments for wave height
 360  Wave/ Assimilation increments for windspeed

 364  Wave/ Wave induced surface stress x component
 365  Wave/ Wave induced surface stress y component

 366  Wave/ Induced stress
 367  Wave/ Dependent roughness length
 368  Wave/ Total induced current speed
 369  Wave/ Total induced current direction
 370  Wave/ Surge induced current speed
 371  Wave/ Surge induced current direction
 372  Wave/ Tide induced water level
 373  Wave/ Tide induced current speed
 374  Wave/ Tide induced current direction
 375  Wave/ Mean wave height error
 376  Wave/ Mean wave period error
 377  Wave/ Mean wave speed error
 378  Wave/ RMS wave height error
 379  Wave/ RMS wave period error
 380  Wave/ RMS wave speed error
 381
 382
 383
 384  Wave/ Water temperature
 385  Wave/ Height of wind-driven waves
 386  Wave/ Swell height
 387  Wave/ Combined wave and swell height
 388  Wave/ Windsea upcrossing period
 389  Wave/ Windsea principal direction
 390  Wave/ Swell upcrossing period
 391  Wave/ Swell principal direction
 392  Wave/ Total depth (wave+surge)
 393  Wave/ Total wave upcrossing period
 394  Wave/ Total wave principal direction
 395  Wave/ Grid point type (sea/land/coast)
 396  Wave/ Surge induced water level
 397  Wave/ Wave model land/sea indicator
 398
 399
 400
 ---------------------------------------------------------------
 401    MA/ d(ln p)/dt
 402    MA/ d(theta)/dp
 403    MA/ Log(Absolute ertel pot. vorticity)
 404    MA/ Sign of dq/dt
 405    MA/ d(theta)/dt
 406    MA/ Shortwave heating rates
 407    MA/ Longwave cooling rates
 408    MA/ Total radiative heating
 409    MA/ Friction term in circulation budget
 410    MA/ dp/d(theta)
 411    MA/ Geostrophic Ertel potential vorticity
 412    MA/ dq/dt advection term
 413    MA/ dq/dt source term
 414    MA/ Total dq/dt ie source + advection
 415    MA/ d(theta)/dt
 416    MA/ Absolute vorticity (interpolated)
 417    MA/ Absolute vorticity*total dq/dt
 418    MA/ dq/dt from Raleigh friction
 419
 420    EASTWARD FLUX - SPECTRAL PSEUDOMOM
 421    SOUTHWARD FLUX - SPECTRAL PSEUDOMOM
 422    WESTWARD FLUX - SPECTRAL PSEUDOMOM
 423    NORTHWARD FLUX - SPECTRAL PSEUDOMOM
 424    EASTWARD FORCE FROM SPECTRAL GW
 425    NORTHWARD FORCE FROM SPECTRAL GW
 
 449
 450
...............................................................
 451  MAtr/ Passive tracer
 452  MAtr/ Nitrous oxide tracer
 453  MAtr/ Ozone tracer
 454
...............................................................
     Middle atmosphere - Chemical species for UARS (Volume mixing ratios
 500
 501  MAUA/ Atmosphere tracer 1 (conventionally O3)
 502  MAUA/ Atmosphere tracer 2 (conventionally H2O)
 503  MAUA/ Atmosphere tracer 3 (conventionally CO)
 504  MAUA/ Atmosphere tracer 4 (conventionally CH4)
 505  MAUA/ Atmosphere tracer 5 (conventionally N2O)
 506  MAUA/ Atmosphere tracer 6 (conventionally NO)
 507  MAUA/ Atmosphere tracer 7 (conventionally NO2)
 508  MAUA/ Atmosphere tracer 8 (conventionally HNO3)
 509  MAUA/ Atmosphere tracer 9 (conventionally N2O5)
 510  MAUA/ Atmosphere tracer 10 (conventionally ClONO2)
 511  MAUA/ Atmosphere tracer 11 (conventionally ClO)
 512  MAUA/ Atmosphere tracer 12 (conventionally HCl)
 513  MAUA/ Atmosphere tracer 13 (conventionally CF2Cl2)
 514  MAUA/ Atmosphere tracer 14 (conventionally CFCl3)
 515  MAUA/ Atmosphere tracer 15 (conventionally HF)
 516  MAUA/ Atmosphere tracer 16
 517  MAUA/ Atmosphere tracer 17
 518  MAUA/ Atmosphere tracer 18
 519  MAUA/ Atmosphere tracer 19 (conventionally SO2)
 520  MAUA/ Atmosphere tracer 20 (conventionally DMS)
 521  MAUA/ Atmosphere tracer 21 (conventionally H2S)
 522  MAUA/ Atmosphere tracer 22 (conventionally WATER-SOLUBLE)
 523  MAUA/ Atmosphere tracer 23 (conventionally DUST-LIKE)
 524  MAUA/ Atmosphere tracer 24 (conventionally OCEANIC)
 525  MAUA/ Atmosphere tracer 25 (conventionally SOOT)
 526  MAUA/ Atmosphere tracer 26 (conventionally VOLCANIC ASH)
 527  MAUA/ Atmosphere tracer 27 (conventionally SULPHURIC ACID)
 528  MAUA/ Atmosphere tracer 28 (conventionally AMMONIUM SULPHATE)
 529  MAUA/ Atmosphere tracer 29 (conventionally MINERAL)

 568  MAUA/
 569  MAUA/ Sulphur Dioxide emissions.
 570  MAUA/ Dimethyl Sulphide emissions.
 571  MAUA/ Hydrogen Sulphide emissions.
 572  MAUA/ NH3 gas emissions kg/m2/s
 573  MAUA/ Soot emissions   kg/m2/s
 574  MAUA/ Surface emissions of biomass smoke
 580  MAUA/ Hydroxyl radical concentration molecules cm**-3
 581  MAUA/ Hydrogen Peroxide concentration

 600  MAUA/ HO2 concentration
 ---------------------------------------------------------------
 601  OCtr/ Temperature.
 602  OCtr/ Salinity.
 603  OCtr/ T*
 604  OCtr/ Temperature at t-1.
 605  OCtr/ Salinity at t-1.
 606  OCtr/ No. deep convection points
 607  OCtr/ Fractional expansion of sea water (dimensionless)
 608  OCtr/ Sea surface elevation
 609  OCtr/ Density of sea water/kg m**-3
 610  OCtr/ Sea level rise/m
 611  OCtr/ Stream function.
 612  OCtr/ Stream function at t-1.
 613  OCtr/ Change of stream function across a time step.
 614  OCtr/ Change of stream function across previous timestep.
 615  OCtr/ (Formerly reciprocal of total depth at U/V points, use 715 1
 616  OCtr/ Number of vertical levels of ocean at T points.
 617  Octr/ rigid-lid pressure/Pa
 618  OCtr/ Change of vorticity across one timestep. Units s*-2 from Jun
 619  OCtr/ Vertical expansion/m of sea water.
 620  OCtr/ Convergence heat WM-2
 621  OCtr/ Equivalent ice depth.
 622  OCtr/ Snow depth.
 623  OCtr/ Snowfall.
 624  OCtr/ Sublimation.
 625  OCtr/ Net solar heat flux.
 626  OCtr/ Net surface heat flux ('HTN').
 627  OCtr/ Wind mixing energy.
 628  OCtr/ Diffusive heat flux.
 629  OCtr/ Precipitation minus evaporation ('PLE')
 630  OCtr/ Sum of net solar and net surface heating.
 631  OCtr/ River outflow
 632  OCtr/ Surface water flux * salinity / density  m s**-1
 633  OCtr/ 'x' component of sea-ice/ocean surface stress ('ISX')
 634  OCtr/ 'y' component of sea-ice/ocean surface stress ('ISY')
 635  OCtr/ Buoyancy/kg m**-2 s**-2
 636  OCtr/ Buoyancy flux/kg m**-1 s**-3
 637  OCtr/ In-situ temperature
 638  OCtr/ sigma-T/kg m**-3 ( (rho(insitu_T,S,0)-1000 )
 639  OCtr/ sigma-theta/kg m**-3 ( rho(theta,S,0)-1000 )
 640  OCtr/ Zonal heat advection.
 641  OCtr/ Meridional heat advection.
 642  OCtr/ Heating rate due to advection  K s**-1
 643  OCtr/ Heating rate due to diffusion  K s**-1
 644  OCtr/ Heating rate due to surface fluxes  K s**-1
 645  OCtr/ Heating rate due to mixing  K s**-1
 646  OCtr/ Heating rate due to filtering  K s**-1
 647  OCtr/ Heating rate  K s**-1
 648  OCtr/ Rate of change of salinity/s**-1 (UM can't control LBPROC)
 649  OCtr/ Climatological reference surface salinity
 650  OCtr/ Climatological reference SST (sea surface temperature).
 651  OCtr/ Anomalous heat flux from Haney term.
 652  OCtr/ Anomalous latent heat flux from Haney term
 653  OCtr/ Mixed layer depth,type 1.
 654  OCtr/ Mixed layer depth,type 2.
 655  OCtr/ Heat content /J
 656  OCtr/ Latent heat content /J
 657  OCtr/ Turbulent kinetic energy m**2 s**-2
 658  OCtr/ Thickness diff coeff (ocean) cm2/s
 659  OCtr/
 660  OCtr/ Vertical mean vorticity forcing: advection s*-2
 661  OCtr/ Vertical mean vorticity forcing: hor diffn s*-2
 662  OCtr/ Vertical mean vorticity forcing: vrt diffn s*-2
 663  OCtr/ Vertical mean vorticity forcing: coriolis s*-2
 664  OCtr/ Vertical mean vorticity forcing: pressure s*-2
 665  OCtr/ Vertical integral vorticity forcing: advection cm s*-2
 666  OCtr/ Vertical integral vorticity forcing: hor diffn cm s*-2
 667  OCtr/ Vertical integral vorticity forcing: vrt diffn cm s*-2
 668  OCtr/ Vertical integral vorticity forcing: coriolis cm s*-2
 669  OCtr/ Vertical integral vorticity forcing: bottom p cm s*-2
 670  OCtr/ Boundary profiles.
 671  OCtr/ Anomalous heat flux.
 672  OCtr/ Anomalous salt flux.
 673  OCtr/ Virtual air-sea flux of co2
 674  OCtr/ Virtual air-sea flux of alkalinity
 675  OCtr/ Climatological Ice depth
 676  OCtr/ Mass of ocean below rigid lid/kg m**-2
 677  OCtr/ Ocean bottom pressure/Pa
 678  OCtr/ Anomolous sea-ice heat flux W,M2
 679  OCtr/ Anomalous sea-ice P-E flux kg, M2, S
 680  OCtr/ W (vertical velocity).
 681  OCtr/ Topmelt.
 682  OCtr/ Botmelt.
 683  OCtr/ Fractional ice cover.
 684  OCtr/ Ocean-ice heat flux.
 685  OCtr/ Carry heat.
 686  OCtr/ Carry salt.
 687  OCtr/ Actual ice depth.
 688  OCtr/ Snow depth over ice (m).
 689  OCtr/ Sea-ice internal pressure (usually in N.m-2)
 690  OCtr/ Sea-ice strength     (usually in N.m-2)
 691
 692  OCtr/ Average snow depth.
 693  OCtr/ Average ice cover.
 694  OCtr/ Average O/I heat flux.
 695  OCtr/ KT Vertical tracer diffusion coeff
 696  OCtr/ RiT Richardson no tracer
 697  OCtr/ HT Max depth Large scheme tracer
 698  OCtr/ Downwards solar radiation over ice
 699  OCtr/ Depth/m of ocean at TS points
 .................................................................
 700  OCuv/ River run-off ocean entry point co-ordinates.
 701  OCuv/ Baroclinic component of zonal velocity
 702  OCuv/ Baroclinic component of meridional velocity
 703  OCuv/ Zonal velocity (total)
 704  OCuv/ Meridional velocity (total)
 711  OCuv/ Barotropic component of zonal velocity
 712  OCuv/ Barotropic component of meridional velocity
 713  OCuv/ Baroclinic x-acceleration cm s**-2
 714  OCuv/ Baroclinic y-acceleration cm s**-2
 715  OCuv/ Reciprocal of total depth
 716
 717  OCuv/ Number of vertical levels of ocean at U/V points.
 718  OCuv/ Vertical integral of zonal velocity/m2 s-1
 719  OCuv/ Vertical integral of meridional velocity/m2 s-1
 720
 721  OCuv/ Zonal component of windstress ('TAUX')
 722  OCuv/ Meridional component of windstress ('TAUY')
 728  OCuv/ 'x' component of sea-ice velocity
 729  OCuv/ 'y' component of sea-ice velocity
 730  OCuv/ Magnitude of sea-ice velocity
 731  OCuv/ Zonal component of sea-ice velocity
 732  OCuv/ Meridional component of sea-ice velocity
 733  OCuv/ Zonal component of ice-ocean stress/Pa
 734  OCuv/ Meridional component of ice-ocean stress/Pa
 735  OCuv/ Zonal component of Coriolis stress/Pa
 736  OCuv/ Meridional component of Coriolis stress/Pa
 737  OCuv/ Zonal component of internal ice stress /Pa
 738  OCuv/ Meridional component of internal ice stress /Pa
 739
 740  OCuv/ Zonal mean tracer transport diagnostics
 741  OCuv/ Baroclinic acceleration diag, meridional: Advection
 742  OCuv/ Baroclinic acceleration diag, meridional: Hor Diffusion
 743  OCuv/ Baroclinic acceleration diag, meridional: Vert Diffusion
 744  OCuv/ Baroclinic acceleration diag, meridional: Coriolis
 745  OCuv/ Baroclinic acceleration diag, meridional: Pressure
 746  OCuv/ Baroclinic acceleration diag, zonal: Advection
 747  OCuv/ Baroclinic acceleration diag, zonal: Hor Diffusion
 748  OCuv/ Baroclinic acceleration diag, zonal: Vert Diffusion
 749  OCuv/ Baroclinic acceleration diag, zonal: Coriolis
 750  OCuv/ Baroclinic acceleration diag, zonal: Pressure
 751  OCuv/ Meridional net pressure gradient
 752  OCuv/ Zonal net pressure gradient
 753  OCuv/ Meridional acceleration
 754  OCuv/ Zonal acceleration

 795  OCuv/ KM Vertical momentum diffusion coeff
 796  OCuv/ RiM Richardson no momentum
 797  OCuv/ HM Max depth Large scheme momentum

 799
 ..............................................................
 800
 801   OCE/ ocean extra tracer 1 (conventionally TCO2 )
 802   OCE/ ocean extra tracer 2 (conventionally alkalinity)
 803   OCE/ ocean extra tracer 3 (conventionally nutrient)
 804   OCE/ ocean extra tracer 4 (conventionally phytoplankton conc.)
 805   OCE/ ocean extra tracer 5 (conventionally zooplankton)
 806   OCE/ ocean extra tracer 6 (conventionally detritus)
 807   OCE/ ocean extra tracer 7 (conventionally tritium)
 808   OCE/ ocean extra tracer 8 (conventionally 3H+3He total mass)
 809   OCE/ ocean extra tracer 9 (conventionally CFC11)
 810   OCE/ ocean extra tracer 10 (conventionally CFC12)
 811   OCE/ ocean extra tracer 11 (conventionally CFC13)
 812   OCE/ ocean extra tracer 12 (conventionally carbon 14)
 813   OCE/ ocean extra tracer 13
 814   OCE/ ocean extra tracer 14
 815   OCE/ ocean extra tracer 15
 816   OCE/ ocean extra tracer 16
 817   OCE/ ocean extra tracer 17
 818   OCE/ ocean extra tracer 18
 819   OCE/
 820   OCE/ Sonic layer depth (m)
 821   OCE/ Sonic layer trap at 10Hz (0/1)
 822   OCE/ Sonic layer trap at 50Hz (0/1)
 823   OCE/ Sonic layer trap at 1kHz (0/1)
 824   OCE/ Sonic layer trap at 10kHz (0/1)
 825   OCE/ Sound channel strength at 10Hz (1-3)
 826   OCE/ Sound channel strength at 50Hz (1-3)
 827   OCE/ Sound channel strength at 1kHz (1-3)
 828   OCE/ Sound channel strength at 10kHz (1-3)
 829   OCE/ Range to the 1st CZ (km)
 830   OCE/ Strength of 1st CZ (0-100)
 831   OCE/ Gent and McWilliams scheme eddy u velocity (ocean)
 832   OCE/ Gent and McWilliams scheme eddy v velocity (N face) (ocean)
 833   OCE/ Gent and McWilliams scheme eddy w velocity (top face) (ocean
 834   OCE/ d theta/dt from Gent and McWilliams scheme K/S
 835   OCE/ Speed of sound in water m/s
 836   OCE/ Depth of sound speed minimum (sound channel) m
 837   OCE/ Depth of max neg ssp grad (m)
 838   OCE/ CO2 atmosphere level 1 conc ppmv
 839
 840   OCE/ Total temperature advection, zonal.
 841   OCE/ Total temperature diffusion, zonal.
 ..............................................................
 850    OA/ Surface height analysis weights
 851    OA/ Mixed layer depth analysis weights
 852    OA/ Surface temperature analysis weights
 853    OA/ Potential temperature analysis weights
 854    OA/ Salinity analysis weights
 855    OA/ Velocity components analysis weights
 856
 857
 858
 859
 860    OA/ Surface height analysis increments
 861    OA/ Mixed layer depth analysis increments
 862    OA/ Surface temperature analysis increments
 863    OA/ Potential temperature analysis increments
 864    OA/ Salinity analysis increments
 865    OA/ Zonal velocity analysis increments
 866
 867
 868
 869
 870    OA/ Meridional velocity analysis increments
 871    OA/ Meridional velocity increments after surface height analysis
 872    OA/ Meridional velocity increments after thermal analysis
 873    OA/ Meridional velocity increments after saline analysis
 874
 875
 876    OA/ Zonal velocity increments after surface height analysis
 877    OA/ Zonal velocity increments after thermal analysis
 878    OA/ Zonal velocity increments after saline analysis
 879
 880    OA/ Pressure increments after surface height analysis
 881    OA/ Pressure increments after thermal analysis
 882    OA/ Pressure increments after saline analysis
 883
 884
 885    OA/ Potential temperature increments after surface height analys
 886
 887
 888    OA/ Saline increments after surface height analysis
 889
 890
 ..............................................................
 891   OCE/ PRIMARY PRODUCTION (GC/M2/DAY)
 892   OCE/ ZOOPLTN PRODUCTION (GC/M2/DAY)
 893   OCE/ PHYTO SPECIFIC GROWTH RATE (1/DAY)
 894   OCE/ PHYTO SPECIFIC GRAZING RATE (1/DAY)
 895   OCE/ PHYTO SPECIFIC MORTALITY (1/DAY)
 896   OCE/ NITRATE GAIN-EXCRETION (MMOL-N/M2/D)
 897   OCE/ NITRATE LOSS - GROWTH (MMOL-N/M2/D)
 898   OCE/ NITRATE GAIN-PHY MORT (MMOL-N/M2/D)
 899   OCE/ NITRATE GAIN-ZOO MORT (MMOL-N/M2/D)
 900   OCE/ NITRATE GAIN-PHY RESP (MMOL-N/M2/D)
 901   OCE/ NITRATE GAIN-REMIN    (MMOL-N/M2/D)
 902   OCE/ NUTRIENT LIMITATION
 903   OCE/ LIGHT LIMITATION
 904   OCE/ TEMPERATURE LIMITATION
 905   OCE/ DETRITUS FLUX  (MMOL-N/M2/D)
 906   OCE/ VERTICAL NITRATE FLUX  (MMOL-N/M2/D)
 907   OCE/ HORIZ NITRATE ADVECT RATE(MMOL/M3/D)
 908   OCE/ VERT NITRATE ADVECTN RATE(MMOL/M3/D)
 909   OCE/ HORIZ NITRATE DIFFUSION  (MMOL/M3/D)
 910   OCE/ VERT NITRATE DIFFUSION   (MMOL/M3/D)
 911   OCE/ NITRATE MIXING DUE TO MLM(MMOL/M3/D)
 912   OCE/ NITRATE CONVECTION       (MMOL/M3/D)
 913   OCE/ NITRATE CHANGE - BIOLOGY (MMOL/M3/D)
 914   OCE/ NITRATE CHANGE-RESETTING (MMOL/M3/D)
 915   OCE/ HORIZ PHYTO ADVECT RATE(MMOL-N/M3/D)
 916   OCE/ HORIZ ZOO   ADVECT RATE(MMOL-N/M3/D)
 917   OCE/ HORIZ DETRI ADVECT RATE(MMOL-N/M3/D)
 918   OCE/ Rate of change of sea-ice concentration /s-1
 919   OCE/ Rate of change of sea-ice depth /m s-1
 910   OCE/ Rate of change of snowdepth on sea-ice /m s-1

 940   OCE/ Total temperature advection, meridional.
 941   OCE/ Total temperature diffusion, meridional.
 942   OCE/ Mmeridional overturning streamfunction/Sv
 ..............................................................
 1000}
 to  } Reserved for M.Mawson, RR will advise, 2000
 1300}
 ..............................................................
 1301  BL flux of atmospheric tracer  1 (conventionally O3)
 1302  BL flux of atmospheric tracer  2 (conventionally H2O)
 1303  BL flux of atmospheric tracer  3 (conventionally CO)
 1304  BL flux of atmospheric tracer  4 (conventionally CH4)
 1305  BL flux of atmospheric tracer  5 (conventionally N2O)
 1306  BL flux of atmospheric tracer  6 (conventionally NO)
 1307  BL flux of atmospheric tracer  7 (conventionally NO2)
 1308  BL flux of atmospheric tracer  8 (conventionally HNO3)
 1309  BL flux of atmospheric tracer  9 (conventionally N2O5)
 1310  BL flux of atmospheric tracer 10 (conventionally ClONO2)
 1311  BL flux of atmospheric tracer 11 (conventionally ClO)
 1312  BL flux of atmospheric tracer 12 (conventionally HCl)
 1313  BL flux of atmospheric tracer 13 (conventionally CF2Cl2)
 1314  BL flux of atmospheric tracer 14 (conventionally CFCl3)
 1315  BL flux of atmospheric tracer 15 (conventionally HF)
 1316  BL flux of atmospheric tracer 16
 1317  BL flux of atmospheric tracer 17
 1318  BL flux of atmospheric tracer 18
 1319  BL flux of atmospheric tracer 19 (conventionally SO2)
 1320  BL flux of atmospheric tracer 20 (conventionally DMS)
 1321  BL flux of atmospheric tracer 20 (conventionally DMS)
 1322  BL flux of atmospheric tracer 21 (conventionally H2S)
 1323  BL flux of atmospheric tracer 22 (conventionally WATER-SOLUBLE)
 1324  BL flux of atmospheric tracer 23 (conventionally DUST-LIKE)
 1325  BL flux of atmospheric tracer 24 (conventionally OCEANIC)
 1326  BL flux of atmospheric tracer 25 (conventionally SOOT)
 1327  BL flux of atmospheric tracer 26 (conventionally VOLCANIC ASH)
 1328  BL flux of atmospheric tracer 27 (conventionally SULPHURIC ACID)
 1329  BL flux of atmospheric tracer 28 (conventionally AMMONIUM SULPHAT
 1330  BL flux of atmospheric tracer 29 (conventionally MINERAL)
 1331  BL flux of atmospheric total aerosol
 1332  Ice Possible (0- -20 Celcius, RH =>70%) 1.0=possible;0.0 not
 1333  Liquid water in any region averaged during all-sky conditions
 1334  q*w  (specific humidity * vertical velocity)
 1335  Fraction of time pressure level is above model surface
 1336  U * geopotential height
 1337  V * geopotential height
 1338  Virtual temperature
 1339  Saturation mixing ratio

 .............................................................
 1340   Reserved for VAR project : B.Ingleby.
 .
 1369   Reserved for VAR project : B.Ingleby.
 .............................................................
 1370  SO4 aerosol: Aitken mode. Units: mass mixing ratio (kg/kg)
 1371  SO4 aerosol: accumulation mode. Units: mass mixing ratio (kg/kg)
 1372  SO4 aerosol: dissolved mode. Units: mass mixing ratio (kg/kg)
 1373  SO4 aerosol: DMS mass mixing ratio
 1374  SO4 aerosol: SO2 mass mixing ratio
 1375  SO4 Methyl Sulphonic Acid mass mixing ratio kg/kg
 1376  SO4 aerosol: column mass loading (kg/m2)
 1377  SO4 aerosol: SW radiative forcing (W/m2)
 1379  NH3 gas mass mass mix ratio kg/kg
 .............................................................
 1380  Van-Genuchten "B" parameter
 1381  Clapp-Hornberger "B" exponent
 1382  Leaf area index of vegetated fraction
 1383  Canopy height of vegetated fraction
 1384  Canopy conductance
 1385  Unfrozen soil moisture fraction
 1386  Frozen soil moisture fraction
 1387  Transpiration
 1388  Gross Primary Productivity
 1389  Net Primary Productivity
 1390  Plant Respiration
 1391  Fractional covering of functional types
 1392  LAI of veg functional types
 1393  Canopy height of vegetation functional types
 1394  Disturbed fraction of vegetation
 1395  Soil albedo
 1396  Snow soot
 1397  Soil carbon content
 1398  Accumulated net primary productivity on tiles (kg C/m2/sec)
 1399  Mountain torque per unit area
 1400  Surface dry deposition flux of SO2 kg/m2/s
 1401  Surface dry deposition flux of SO4 Aitken mode kg/m2/s
 1402  Surface dry deposition flux of SO4 ACCUMULATION mode kg/m2/s
 1403  Surface dry deposition flux of SO4 DISSOLVED mode kg/m2/s
 1404  RESIST_B for SO2 (Note: 1400-1416 are Sulphur Cycle BL diagnostic
 1405  RESIST_B for SO2 Aitken mode
 1406  RESIST_B for SO2 ACCUMULATION  mode
 1407  RESIST_B for SO2 DISSOLVED mode kg/m2/s
 1408  RESIST_S for SO2
 1409  RESIST_S for SO2 Aitken mode
 1410  RESIST_S for SO2 ACCUMULATION mode
 1411  RESIST_S for SO2 DISSOLVED  mode
 1412  Dry deposition velocity for SO2
 1413  Dry deposition velocity for SO4 Aitken mode
 1414  Dry deposition velocity for SO4 ACCUMULATION mode
 1415  Dry deposition velocity for SO4 DISSOLVED mode
 1416  Aerodynamic resistance 1/CDSTD after TSTEP
 1417  SO2 scavenged by convective precipitation kg(S)/m2/tstep
 1418  SO4 Aitken scavenged by convective precipitation kg(S)/m2/tstep
 1419  SO4 accumulation scavenged by convective precipitation kg(S)/m2/t
 1420  SO4 dissolved scavenged by convective precipitation kg(S)/m2/tste
 1421  SO2 scavenged by large scale precipitation kg(S)/m2/tstep
 1422  SO4 Aitken scavenged by large scale precipitation kg(S)/m2/tstep
 1423  SO4 accumulation scavenged by large scale precipitation kg(S)/m2/
 1424  SO4 dissolved scavenged by large scale precipitation kg(S)/m2/tst
 1425  Layer liquid cloud amount in layers
 1426  Layer frozen cloud amount in layers
 1427  Layer cloud frequency in each layer
 1428  Net energy change this period J/m**2
 1429  Thickness (alternative code for other packages eg without BRLEV s
 1430  Thickness tendency (as above)
 1431  du/dp
 1432  dv/dp
 1433  dtheta/dp
 1434  dtheta_e/dp
 1435  Moist PV
 1436  Magnitude Geostrophic Deformation
 1437  EW cpt, Geostrophic deformation axis
 1438  NS cpt, Geostrophic deformation axis
 1439  Magnitude Grad(ThetaW)
 1440  EW cpt Grad(ThetaW)
 1441  NS cpt Grad(ThetaW)
 1442  Geostrophic Deformation wrt ThetaW
 1443  Geostrophic Relative Vorticity
 1444  Magnitude Grad(Theta)
 1445  EW cpt Grad(Theta)
 1446  NS cpt Grad(Theta)
 1447  Omega eqn. inversion with diabatic forcing
 1448  Omega eqn. inversion with divQ & diabatic forcing
 1449  Omega eqn. inversion with divQ only
 1450  Omega eqn. inversion with divQ 800-600mb
 1451  Omega eqn. inversion with divQ 600-100mb
 1452  Omega eqn. inversion with divQ 1000-800mb
 1453  DelSqd(ThetaW)
 1454  Local value of magnitude of grad(ThetaW)
 1455  Theta Frontal Speed - advection of magnitude (theta_w)
 1456  Advection of theta_w
 1457  Geostrophic advection of theta_w
 1458  DelSqd(Theta)
 1459  Local value of magnitude of grad(Theta)
 1460  Theta Frontal Speed - advection of magnitude (theta)
 1461  Advection of theta
 1462  Geostrophic advection of theta
 1463  Ambient noise
 1464  Droplet number conc * cloud amount
 1465  Layer cloud lwc * cloud amount
 1466  SO4 ccn mass conc * cond samp weight
 1467  Conditional sampling weight
 1468  2-D effective radius * 2-D re weight
 1469  Weight for 2-D effective radius
 1470  Advection of mixing ratio
 1471  Advection of dew point temperature
 1472  Advection of relative humidity
 1473  Advection of relative vorticity
 1474  Advection of absolute vorticity
 1475  'X' Component of Isallobaric Wind (corrected from u July 1998)
 1476  'Y' Component of Isallobaric Wind (corrected from v July 1998)
 1477  Scalar Divergence
 1478  Showalter index (an instability index)
 1479  Total total index (an instability index)
 1480  Sweat index (an instability index)
 1481  Lifted index (an instability index)
 1482  Cape (convective available potential energy)
 1483  k index (an instability index)
 1484  Saturation vapour pressure
 1485  Modified refractivity index, M (M units)
 1486  Vertical gradient of modified refractivity, dM/dz (M/km)
 1487  Minimum of dM/dz with height (M/km)
 1488  Maximum of dM/dz with height (M/km)
 1489  Radar duct intensity (max wavelength trapped) (cm)
 1490  Refractivity index, N (N units)
 1491  Fresh soot mass mix ratio kg/kg
 1492  Aged soot mass mix ratio kg/kg
 1493  Soot in cloud mix ratio kg/kg
 1494  SO4 Aitken surface settlement flux kg/m2/s
 1495  SO4 Accumulation surface settlement flux kg/m2/s
 1496  MSA (methyl sulphonic acid) mass mixing ratio after tstep kg/kg
 1497  NH3 (ammonia) depletion after tstep kg/kg
 1498  Ship noise (from passing ships)
 1499  Leaf turnover rate of plant functional types (/360days)
 1500  Accumulated leaf turnover rate on PFTs (1/sec)
 1501  Accumulated phenological leaf turnover rate on PFTs (sec-1)
 1502  Accumulated wood respiration on PFTs (kg C/m2/sec)
 1503  Accumulated soil respiration (kg C/m2/sec)
 1504  Canopy & surface water content on tiles (kg/m2)
 1505  Canopy & surface capacity on tiles (kg/m2)
 1506  Infiltration enhancement factor on tiles
 1507  Snow grain size (microns)
 1508  Snow temperature (K)
 1509  Radiative surface temperature (K)
 1510  Surface temperature on tiles (K)
 1511  Roughness length on tiles (m)
 1512  Vegetation carbon on Plant Functional Types (PFTs) (kg C / m2)
 1513  Gridbox mean vegetation carbon  (kg C / m2)
 1514  Phenological leaf turnover rate on PFTs (1/sec)
 1515  Litter carbon on Plant Functional Types (PFTs) (kg C / m2 / year)
 1516  Gridbox mean litter carbon (kg C / m2 / year)
 1517  Canopy evaporation on tiles (kg / m2 /sec)
 1518  Evapotranspiration from the soil (kg / m2 /sec)
 1519  Gross primary productivity on plant functional types (kg C/m2/sec
 1520  Sensible heat flux on tiles (W/m2)
 1521  Net primary productivity on plant functional types (kg C/m2/sec)
 1522  Plant respiration on plant functional types (kg C/m2/sec)
 1523  Soil respiration (kg C/m2/sec)
 1524  Bulk Richardson number on tiles
 1525  Fractional snow cover
 1526  Rate of evaporation from soil surface  kg/m2/s
 1527  Rate of evaporation from canopy  kg/m2/s
 1528  Rate of sublimation from surface (gridbox mean) kg/m2/s
 1529  Rate of transpiration  kg/m2/s
 1530  Rate of snow melt on land kg/m2/s
 1531  Rate of canopy throughfall kg/m2/s
 1532  Rate of surface runoff kg/m2/s
 1533  Rate of sub-surface runoff kg/m2/s
 1534  Turbulent mixing ht after Boundary Layer m
 1535  Stable BL indicator
 1536  Stratocumulus over stable BL indicator
 1537  Well_mixed BL indicator
 1538  Decoupled SC not over CU indicator
 1539  Decoupled SC over CU indicator
 1540  Cumulus-capped BL indicator
 1541  NH3 Surface dry deposition flux kg/m2/s
 1542  Fresh soot surface dry deposition flux kg/m2/s
 1543  Aged soot surface dry deposition flux kg/m2/s
 1544  Soot in cloud occult deposition flux kg/m2/s
 1545  NH3 scavenged by large scale precipitation kg/m2/s
 1546  Soot scavenged by large scale precipitation kg/m2/s
 1547  SO2 scavenged by large scale precipitation kg/m2/s
 1548  SO4 Aitken scavenged by large scale precipitation kg/m2/s
 1549  SO4 accumulation scavenged by large scale precipitation kg/m2/s
 1550  SO4 dissolved scavenged by large scale precipitation kg/m2/s
 1551  NH3 scavenged by convective precipitation kg/m2/s
 1552  Soot scavenged by convective precipitation kg/m2/s
 1553  SO2 scavenged by convective precipitation kg/m2/s
 1554  SO4 Aitken scavenged by convective precipitation kg/m2/s
 1555  SO4 accumulation scavenged by convective precipitation kg/m2/s
 1556  SO4 dissolved scavenged by convective precipitation kg/m2/s
 1557  Potential evaporation amount kg/m2/tstep
 1558  Potential evaporation rate kg/m2/s
 1559  Soil moisture availability factor
 1560  CO2 ocean flux kg/m**2/s
 1561  CO2 surface emissions kg/m**2/s
 1562  CO2 land surface flux kg/m**2/s
 1563  CO2 total flux to atmosphere kg/m**2/s
 1564  Precipitation rate codes for symbol plotting
 1565  Present Weather codes (ww-code)
 1566  T before dynamics
 1567  T after dynamics
 1568  q before dynamics
 1569  q after dynamics
 1570  x component of E vector = (v'**2 - u'**2)
 1571  y component of E vector = -u'v'
 1572  z component of E vector - proportional to v'T'
 1573  Supercooled liquid water content
 1574  Supercooled rain
 1575  Rain fraction
 1576  Cloud composite
 1577  Accumulated precipitation for 6 hours (for fieldsfiles, 1998)
 1578  Modified maximum gravity wave stress magnitude. Units N/m**2
 1579  U in the GWD surface layer
 1580  V in the GWD surface layer
 1581  N in the GWD surface layer
 1582  GWD surface Froude number
 1583  GWD Blocked Layer Depth
 1584  Percent of hydro GWD that is linear
 1585  Percent of time with Hydr. Jumps
 1586  Percent of time with Lee Waves
 1587  Percent of time with blocked flow
 1588  x component of GW saturation stress
 1589  y component of GW saturation stress
 1590  x component of GW jump stress
 1591  y component of GW jump stress
 1592  x component of GW wake stress
 1593  y component of GW wake stress
 1594  x component of GW lee stress
 1595  y component of GW lee stress
 1596  u-accel from GWD blocked flow
 1597  v-accel from GWD blocked flow
 1598  Shallow convection indicator
 1599  Cumulus over orography indicator
 ..............................................................
 1600  Net surface water flux/kg m**-2 s**-1
 1601  Pressure tendency (for Thailand, 1997, system has no LBPROC)
 1602  'X' Component of Thermal Wind (corrected from u July 1998)
 1603  'Y' Component of Thermal Wind (corrected from v July 1998)
 1604  Saturated specific humidity
 1605  Isallobaric direction ( true )
 1606  Isallobaric wind speed
 1607  Geostrophic wind direction ( true )
 1608  Geostrophic wind speed
 1609  Thermal wind direction ( true )
 1610  ISCCP C2 high thin cloud amount
 1611  ISCCP C2 high medium cloud amount
 1612  ISCCP C2 high thick cloud amount
 1613  ISCCP C2 mid-level thin cloud amount
 1614  ISCCP C2 mid-level thick cloud amount
 1615  ISCCP C2 low thin cloud amount
 1616  ISCCP C2 low thick cloud amount
 1617  Sea Surface Temperature (SST) minus Dew point (for forecasting se
 1618  500-850 Potential Instability Index (measure of thunder risk)
 1619  Boyden Index
 1620  Height of 2 deg C isotherm in feet (Navy requirement)
 1621  Casswell maximum vertical velocity (for NMC)
 1622  Casswell height of maximum vertical velocity (for NMC)
 1623  Pseudo WV image from Horace - estimated radiance received
 1624  Pseudo IR image from Horace - estimated radiance received
 1625  Frequency unit type: 1=Hz (eg for noise fields)
 1626  Areal fraction of intensive grassland
 1627  Areal fraction of extensive grassland
 1628  SHEAR-DOMINATED UNSTABLE BL INDICATOR
 1629

 1630-1680 Reserved Mineral Dust numbers for S Woodward
  
 1630  Soil clay fraction (ancil)
 1631  Soil silt fraction (ancil)
 1632  Soil sand fraction (ancil)
 1633  Soil mass fraction, dust divisions 1->6
 1634  Mineral dust mixing ratio divisions 1->6
 1635  Dust emission flux (kg m-2 s-1), divisions 1->6
 1636  Threshold friction vel. dust divisions 1->6
 1637  Dry threshold friction vel. dust divisions 1->6
 1638  Friction velocity for dust
 1639  Dust dry dep flux from 1st lev, divisions 1->6
 1640  Dust dry dep flux from 2nd lev, divisions 1->6 
 1641  Dust wet dep flux from LSP, divisions 1->6
 1642  Dust wet dep flux from CONV, divisions 1->6

 1681  Rain water [kg/kg]
 1682  Cape inhibition
 1683  Mass mixing ratio fresh smoke
 1684  Mass mixing ratio aged smoke
 1685  Mass mixing ratio cloud smoke
 1686  Dry deposition fresh smoke
 1687  Dry deposition aged smoke
 1688  Occult deposition cloud smoke
 1689  Frozen cloud water (pristine crystals) [kg/kg]
 1690  C.A.T. probability derived from fieldsfiles, not model
 1691  LS rainout of biomass smoke
 1692  LS washout of biomass smoke
 1693  Convective scavenging of smoke
 1694
 1695
 1696
 1697
 1698
 1699
 ..............................................................
 1700
 1701  OD
 1702  OP           "STOCHEM" TROP. CHEMISTRY MODEL:
 1703  OH       A fuller list of descriptions is expected from
 1704  NO     cejohnson@meto.gov.uk
 1705  NO2      12/8/99
 1706  NO3
 1707  N2O5
 1708  CO
 1709  CH4
 1710  HCHO
 1711  O3
 1712  H2
 1713  HNO3
 1714  H2O2
 1715  CH3O2
 1716  HO2
 1717  C2H6
 1718  C2H5O2
 1719  CH3CHO
 1720  CH3COO2
 1721  PAN
 1722  CH3OOH
 1723  NC4H10
 1724  SC4H9O2
 1725  CH3COE
 1726  C2H4
 1727  C3H6
 1728  C3H8
 1729  C3H7O2
 1730  C3H7OOH
 1731  C2H5OOH
 1732  C4H9OOH
 1733  CH3OH
 1734  ACETONE
 1735  ACETO2
 1736  CH3COX
 1737  CH2O2C
 1738  MGLYOX
 1739  CH3CHX
 1740  C5H8
 1741  RO2IP1
 1742  MVK
 1743  RO2IP2
 1744  ISOPOOH
 1745  MVKOOH
 1746  RNC2H4
 1747  RNC3H6
 1748  RNC5H8
 1749  NAER
 1750  HO2NO2
 1751  H2O
 1752  EXTRA
 1753
 1754
 1755
 1756
 1757
 1758
 1759
 1760
 1761
 1762
 1763
 1764
 1765
 1766
 1767
 1768
 1769
 1770
 1771
 1772
 1773
 1774
 1775
 1776
 1777
 1778
 1779
 1780
 1781
 1782
 1783
 1784
 1785
 1786
 1787
 1788
 1789
 1790
 1791
 1792
 1793
 1794
 1795
 1796
 1797
 1798
 1799
 ..............................................................
 1800
 1801
 1802
 1803
 1804
 1805
 1806
 1807
 1808
 1809
 1810
 1811
 1812
 1813
 1814
 1815
 1816
 1817
 1818
 1819
 1820
 1821
 1822
 1823
 1824
 1825
 1826
 1827
 1828
 1829
 1830
 1831
 1832
 1833
 1834
 1835
 1836
 1837
 1838
 1839
 1840
 1841
 1842
 1843
 1844
 1845
 1846
 1847
 1848
 1849
 1850
 1851
 1852
 1853
 1854
 1855
 1856
 1857
 1858
 1859
 1860
 1861
 1862
 1863
 1864
 1865
 1866
 1867
 1868
 1869
 1870
 1871
 1872
 1873
 1874
 1875
 1876
 1877
 1878
 1879
 1880
 1881
 1882
 1883
 1884
 1885
 1886
 1887
 1888
 1889
 1890
 1891
 1892
 1893
 1894
 1895
 1896
 1897
 1898
 1899
 1900  Magnitude of wind stress
 1901  River outflow (Kg/m2/s)
 1902  River water storage (Kg)
 1903  Total gridbox river inflow (Kg/s)
 1904  Total gridbox river outflow (Kg/s)
 1905 - 1920 Reserved River Routing for Cyndy Bunton. W Roseblade 
 1921  Graupel (kg/kg)
 1922 - 1929 General Atmos Codes
 1930  Ozone Tropopause Level
 1931  Ozone Tropopause Height
 1932  Thermal Tropopause Level
 1933  Thermal Tropopause Height 
 1934 - 1950 General Atmos Codes
 1951  Topmelt for individual ice categories (W m-2) 
 1952  Botmelt for individual ice categories  (W m-2) 
 1953  Fractional ice cover for individual ice categories 
 1954  Grid box mean ice depth for individual ice categories (m) 
 1955  Local snow depth over ice for individual ice categories (m) 
 1956  Rate of change of sea-ice concentration for individual ice categories (s-1) 
 1957  Rate of change of sea-ice depth for individual ice categories (m s-1) 
 1958  Rate of change of snowdepth on sea-ice for individual ice categories (m s-1) 
 1959  Grid box mean snowdepth for individual ice categories (m) 

 1960  Wave/ Swell peak period
 1961  Wave/ Wavetrain wave height
 1962  Wave/ Wavetrain upcrossing period
 1963  Wave/ Wavetrain mean direction
 1964  Wave/ Mean energy at a given frequency
 1965  Wave/ Mean direction at a given frequency
 1966  Wave/ Total mean direction
 1967  Wave/ Total mean period
 1968  Wave/ Windsea mean directon
 1969  Wave/ Windsea mean period
 1970  Wave/ Swell mean direction
 1971  Wave/ Swell mean period
 1972  Wave/ Energy in each frequency (1d spectrum)
 1973  Wave/ Principal direction of 1d spectrum
 1974  Wave/ Mean direction of 1d spectrum
 1975  Wave/ 2d energy spectrum
 1976 - 1980 reserved for any further Wave 


 ..............................................................
  Glossary:-
  Glossary: RHOSTAR  surface density of air
  Glossary: CD = transfer coefficient for 172
...............................................................
