Member: @FCODES Table of field codes used by the PP-package Copy on $UMDOC/ppcodes.txt on (NWP) HP system ( http://www-nwp/~frhm/pp_package/codedoc/docpo/@FCODES.txt.txt ) 12:22 28/09/00 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 incorporated, 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, 2000 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 - 1699 Further general meteorological variables 1700 - 1799 Tropospheric chemistry model: chem. species 1800 - 1899 Tropospheric chemistry model: fluxes IMPORTANT ~~~~~~~~~ New field codes can only be allocated by the PP-package manager - Mike Hatton (NWP Division) EM mjhatton@meto.gov.uk 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 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 Reserved for M.Mawson, RR will advise, 2000 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 intensity') 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/s2) 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 levels) 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/ 365 366 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/ Height of sea swells 387 Wave/ Combined wave and swell height 388 Wave/ Period of wind-driven waves 389 Wave/ Direction from which waves come 390 Wave/ Period of sea swells 391 Wave/ Direction from which swells come 392 Wave/ Total depth (wave+surge) 393 Wave/ Period of significant waves 394 Wave/ Dirn. from which sig. waves come 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 419 420 449 450 ............................................................... 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 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 1/1/92) 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 June 1996. 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/ 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 analysis 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 SULPHATE) 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 diagnostics.) 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/tstep 1420 SO4 dissolved scavenged by convective precipitation kg(S)/m2/tstep 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/tstep 1424 SO4 dissolved scavenged by large scale precipitation kg(S)/m2/tstep 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 spec.) 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 7 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 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 1599 .............................................................. 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 sea fog) 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 1629 1680 1681 1682 Cape inhibition 1683 1684 1685 1686 1687 1688 1689 1690 C.A.T. probability derived from fieldsfiles, not model 1691 1692 1693 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 .............................................................. Glossary:- Glossary: RHOSTAR surface density of air Glossary: CD = transfer coefficient for 172 ...............................................................