CPIJ.I Color Plot Default Parameters for Each Title 98/04/01 TITLE (first 32 characters) G RO DB DSCL BLK0 L W ColorTab -------------------------------- - -- -- ---- ---- - - -------- ... mb GEOPOTENTIAL HEIGHT (m- A 0 4 50 23 A B ST12 1000 mb GEOPOTENTIAL HEIGHT (m) A 0 4 40 24 A B STEM ABSORBED SOLAR RADIATION at SURF A 0 4 30 -2 A B SRIS ABSORBED SOLAR RADIATION of PLAN A 0 4 40 -2 A B SRIS AERODYNAMIC POTENTIAL EVAPORATIO A 0 4 5 1 L B EVAP ATMOSPHERIC MASS (kg/m^2) A 0 4 500 -36 A W STEM BRIGHT BARE SOIL FRACTION over G A 0 4 .1 2 L B CLDC CHANGE in OCEAN SURFACE HEIGHT ( A 40 4 4 15 O B ST12 CHANGE in PRECIPITATION (mm/day) A 0 4 .4 23 A B BPRE CHANGE in SURFACE AIR TEMPERATUR A 0 4 1 19 A B DPRE CLOUD COVER (%) from Layers .... A 0 4 10 2 A B CLDC CLOUD TOP PRESSURE (mb) A 0 4 60 -19 A B ST13 CLOUD TOP PRESSURE (mb) times CL A 0 4 80 3 A B ST12 CLOUD TOP TEMPERATURE (C) A 0 4 5 23 A B ST12 CLOUD TOP TEMPERATURE (K) times A 0 4 25 3 A B ST12 CONVECTIVE PRECIPITATION (mm/day A 0 2 1 1 A B PREC CONVECTV MASS FLUX (10.......... A 0 4 8 1 O B PREC CONVERGED OCEAN HEAT TRANSPORT ( A 0 4 40 23 O B DPRE CONVERGED SEA ICE MASS (kg/day*m A 0 4 2 23 O B DPRE CONVERGED SEA ICE VELOCITY (1/da A 0 4 .04 23 O B DPRE CULTIVATION FRACTION over GROUND A 0 4 .1 2 L B CLDC DAILY MAXIMUM GROUND TEMPERATURE A 0 4 10 28 A B STEM DAILY MAXIMUM SURFACE AIR TEMPER A 0 4 10 28 A B STEM DAILY MINIMUM GROUND TEMPERATURE A 0 4 10 32 A B STEM DAILY MINIMUM SURFACE AIR TEMPER A 0 4 10 32 A B STEM DARK BARE SOIL FRACTION over GRO A 0 4 .1 2 L B CLDC DECIDUOUS FOREST FRACTION over G A 0 4 .1 2 L B CLDC DEEP CONVECTIVE FREQUENCY (%) A 0 4 4 1 A B EVAP DIURNAL GROUND TEMPERATURE VARIA A 0 4 2 1 A B EVAP DIURNAL SURFACE AIR TEMPERATURE A 0 4 2 1 A B EVAP EASTWARD HUMIDITY FLUX (vert su. U 0 4 4 13 A B SLPR EASTWARD SEA ICE MASS FLUX (10^6 A 0 4 20 23 O B DPRE EASTWARD VELOCITY (m/s) at .... A 0 4 8 11 A B ST12 ENERGY OUTFLOW by RIVERS (10.... A 0 4 50 1 L B PREC ENERGY from GLACIAL ICE COMPRESS A 0 4 20 5 L B EVAP ENERGY of PRECIPITATION (W/m^2) A 0 4 2 44 A W STEM EVAPORATION (mm/day) A 0 2 1 1 A B EVAP EVAPORATION over GLACIAL ICE (mm A 0 4 .1 1 L B EVAP EVAPORATION over GROUND (mm/day) A 0 4 1 1 L B EVAP EVAPORATION times FOWATR (mm/day A 0 4 1 1 O B EVAP EVAPORATION times FWICE (mm/day) A 0 4 .1 1 O B EVAP EVERGREEN FOREST FRACTION over G A 0 4 .1 2 L B CLDC FOCEAN: Surface fraction of open A 0 4 .1 3 A W ST12 FLAKE: Surface fraction of lake A 0 4 .04 1 A W PREC FGRND: Surface fraction of groun A 0 4 .1 3 A W ST12 FGICE: Surface fraction of glaci A 0 4 .1 1 A W PREC GLACIAL ICE OUTFLOW (10^12 kg/ye A 0 4 20 1 L B PREC GLACIAL ICE SNOW ACCUMULATION (k A 0 4 200 9 L B EVAP GLACIAL ICE TEMPERATURE of Layer A 0 4 5 43 L B ST12 GRASSLAND FRACTION over GROUND A 0 4 .1 2 L B CLDC GROUND TEMPERATURE (C) ........ A 0 2 4 28 A B STEM GROUND TEMPERATURE (K) ........ A 0 2 4 -114 A B STEM GROUND WETNESS over GROUND (%) A 0 4 30 1 L B PREC HGICE (m): Glacial ice thickness A 0 4 400 1 A W PREC HIGH LEVEL CLOUD COVER (%) A 0 4 10 2 A B CLDC HLAKE (m): Lake thickness over l A 0 4 12 1 A W PREC HOCEAN (m): Ocean thickness over A 0 4 500 1 A W PREC ICE BERG ENERGY MELTED (W/m^2) A 0 4 5 44 O W STEM ICE BERG MASS MELTED (kg/day*m^2 A 0 4 1 1 O B PREC ICE or SNOW COVER (%) A 0 4 10 2 A W ICEC Ice Blocking Factor for Sea Ice A 0 4 8 1 O B ICEB INCIDENT SOLAR RADIATION at SURF A 0 4 30 -2 A B SRIS INCIDENT SOLAR RADIATION of PLAN A 0 4 40 -4 A B STEM LOW LEVEL CLOUD COVER (%) A 0 4 10 2 A B CLDC MASS OUTFLOW by RIVERS (10^5 kg/ A 0 4 50 1 L B PREC MIDDLE LEVEL CLOUD COVER (%) A 0 4 10 2 A B CLDC MSU CHANNEL 2 BRIGHTNESS TEMPERA A 0 4 5 52 A B STEM MSU CHANNEL 2R BRIGHTNESS TEMPER A 0 4 5 36 A B STEM NET HEAT at SURFACE over GLACIAL A 0 4 5 11 L B ST12 NET HEAT at SURFACE over GROUND A 0 4 5 11 L B ST12 NET HEAT at SURFACE times FOWATR A 0 4 30 23 O B ST12 NET HEAT at SURFACE times FWICE A 0 4 10 19 O B ST12 NET HEATING at SURFACE (W/m..... A 0 4 60 26 A B HEAT NET RADIATION at SURFACE (W/m^2) A 0 4 4 13 A B SLPR NET THERMAL RADIATION at SURFACE A 0 4 10 -3 A B ST13 NORTHWARD VELOCITY (m/s) at .... A 0 4 2 23 A B ST12 NORMALIZED SULPHATE LOADING PATT A 0 4 1 1 A B PREC NORTHWARD HUMIDITY FLUX (vert .. A 0 4 4 13 A B SLPR NORTHWARD SEA ICE MASS FLUX (10^ A 0 4 10 23 O B DPRE OCEAN CONVECTIVE HEAT FLUX (W/m^ A 0 4 20 27 O B DPRE OCEAN DIFFUSIVE HEAT FLUX (W/m^2 A 0 4 20 27 O B DPRE OCEAN ICE COVER................. A 0 4 10 2 O B ICEC OCEAN LARGE SCALE HEAT FLUX (W/m A 0 4 100 23 O B DPRE OCEAN SURFACE HEIGHT (cm) A 0 4 25 29 O B ST13 OCEAN SURFACE SALINITY (per mil) A 0 2 2 1 O B SALT OCEAN SURFACE TEMPERATURE (C) A 0 4 3 5 O B ST13 OUTGOING THERMAL RADIATION of PL A 0 4 15 -35 A B ST13 PENMAN POTENTIAL EVAPORATION (mm A 0 4 4 1 L B EVAP PLANETARY ALBEDO (%) A 0 4 6 -3 A B ALBP PRECIPITATION (mm/day) A 0 2 1 1 A B PREC PRECIPITATION minus EVAPORATION A 0 4 1 23 O B DPRE RAINFOREST FRACTION over GROUND A 0 4 .1 2 L B CLDC SEA ICE ENERGY FORMED (W/m^2) A 0 4 10 44 O W STEM SEA ICE ENERGY MELTED (W/m^2) A 0 4 10 44 O W STEM SEA ICE MASS FORMED (kg/day*m^2) A 0 4 2 1 O B PREC SEA ICE MASS MELTED (kg/day*m^2) A 0 4 2 1 O B PREC SEA ICE MASS and SNOW (kg/m..... A 0 4 400 1 O B PREC SEA ICE MASS * FWICE (kg/m^2) A 0 4 300 1 O B EVAP SEA ICE PRESSURE (mb) A 0 4 30 1 O B PREC SEA LEVEL PRESSURE (mb-1000) A 0 4 4 13 A B SLPR SEA LEVEL PRESSURE (mb) A 0 4 4 -991 A B SLPR SENSIBLE HEAT FLUX (W/m......... A 0 4 10 11 A B ST12 SHALLOW CONVECTIVE ............. A 0 4 8 1 A B EVAP SHRUB/GRASSLAND FRACTION over GR A 0 4 .1 2 L B CLDC SNOW ACCUMULATION over GLACIAL I A 0 4 300 19 L B DPRE SNOW COVER ..................... A 0 4 10 2 A B ICEC SNOW DEPTH (kg/m^2) A 0 4 50 1 A B EVAP SNOW FALL (kg/m................. A 0 4 4 13 A B SLPR SNOW and ICE COVERAGE (%) A 0 4 10 2 A B CLDC SOIL MOISTURE over GROUND (cm) A 0 4 30 1 L B EVAP STAN.DEV. of DAILY PRECIPITATION A 0 4 1 1 A B EVAP STAN.DEV. of DAILY SURFACE AIR T A 0 4 1 1 A B EVAP STAN.DEV. of DAILY SURFACE PRESS A 0 4 2 1 A B EVAP SURFACE AIR SPECIFIC HUMIDITY (g A 0 4 2 3 A B ST12 SURFACE AIR TEMPERATURE (C) A 0 2 4 28 A B STEM SURFACE AIR TEMPERATURE (K) A 0 2 4 -114 A B STEM SURFACE ALBEDO (%) ............. A 0 4 6 -3 A B EVAP SURFACE CROSS ISOBAR ANGLE, ALPH A 0 4 2 -5 A B ST12 SURFACE PRESSURE (mb-1013.25) A 0 4 50 44 A W STEM SURFACE RELATIVE HUMIDITY (%) A 0 4 10 4 A W STEM SURFACE RUNOFF over GLACIAL ICE A 0 4 1 1 L B PREC SURFACE RUNOFF over GROUND ..... A 0 4 .5 1 L B PREC SURFACE SPECIFIC HUMIDITY (1E-4) A 0 4 4 13 A B SLPR SURFACE WIND SPEED (m/s) A 0 4 1 1 A B ST13 TEMPERATURE (K) at .... mb A 0 4 10 -77 A B ST12 TEMPERATURE at 850 mb (C) A 0 4 4 13 A B SLPR TREE/GRASSLAND FRACTION over GRO A 0 4 .1 2 L B CLDC TOTAL CLOUD COVER (%) A 0 4 10 2 A B CLDC TOTAL NORTH TRANS of DRY STATIC A 0 4 4 13 A B SLPR TUNDRA FRACTION over GROUND A 0 4 .1 2 L B CLDC TURBULENT KINETIC ENERGY LOST at A 0 4 .5 1 A B EVAP U COMPONENT of SEA ICE MOMENTUM A 0 4 .02 23 O B DPRE U COMPONENT of SEA ICE VELOCITY A 0 4 .1 23 O B DPRE U COMPONENT of SURFACE AIR WIND A 0 4 2 17 A B ST13 U COMPONENT of SURFACE MOMENTUM A 0 4 .1 23 A B DPRE U WIND (m/s) of Layer 7 U 0 4 4 13 A B SLPR UNDERGROUND RUNOFF ............. A 0 4 .5 1 L B PREC V COMPONENT of SEA ICE MOMENTUM A 0 4 .02 23 O B DPRE V COMPONENT of SEA ICE VELOCITY A 0 4 .1 23 O B DPRE V COMPONENT of SURFACE AIR WIND A 0 4 2 23 A B DPRE V COMPONENT of SURFACE MOMENTUM A 0 4 .1 23 A B DPRE V WIND (M/S) of Layer 7 V 0 4 4 23 A B ST12 VARIANCE of DAILY PRECIPITATION A 0 4 10 1 A B PREC VARIANCE of DAILY SURFACE AIR TE A 0 4 200 3 A B ST12 VARIANCE of DAILY SURFACE PRESSU A 0 4 10000 1 A B PREC VERTICAL DIFFUSION COEFFNT. (cm. A 0 4 1 1 O B PREC VERTICAL MASS FLUX (10.......... A 0 4 1 23 O B DPRE VERTICALLY INTEGRATED OPTICAL DE A 0 4 4 1 A B EVAP ZATMO (m): Atmospheric topograph A 0 4 400 1 A W PREC ZSOLID (m): Solid ground topogra A 0 4 1000 23 A B DPRE