DIAG480.TXT Quantities in Diagnostic Accumulating Arrays 2004/06/14 Contents of IDACC(N), number of accumulations of ------------------------------------------------ 1 Source terms (set by DTS) 2 Radiation source terms (set by NRAD) 3 Surface interaction source terms (set by NDIAGS) 4 Calls to DIAGA (set by NDIAGA) 5 Oceanic prognostic variables (set by NDIAGO) 6 Calls to AAEFIL (set by NFILXA) 7-10 11 Months 12 Days Contents of AJ(J,N) AJ=GRND, BJ=GICE, CJ=OLAK, DJ=LICE, EJ=OOCN, FJ=SICE ------------------- 1 Solar Rad Incident on Planet (W/m^2) RADIA 1/IDACC(1) 2 Solar Rad Absorbed by Planet (W/m^2) DIAGJ = AJ(3)+AJ(4)+AJ(6) 3 Solar Rad Absorbed by Rad Layers (W/m^2) RADIA 1/IDACC(1) 4 Solar Rad Absorbed by Atmosphere (W/m^2) RADIA 1/IDACC(1) 5 Solar Rad Incident on Surface (W/m^2) RADIA 1/IDACC(1) 6 Solar Rad Absorbed by Surface (W/m^2) SURFCE 1/IDACC(1)*DTS 7 Thermal Rad Absorbed by Planet (W/m^2) DIAGJ = AJ(8)+AJ(9)+AJ(11) 8 Thermal Rad Absorbed by Rad Layrs (W/m^2) RADIA 1/IDACC(1) 9 Thermal Rad Absorbed by Atmospher (W/m^2) RADIA 1/IDACC(1) 10 Thermal Rad Incident on Surface (W/m^2) RADIA 1/IDACC(1) 11 Thermal Rad Absorbed by Surface (W/m^2) SURFCE 1/IDACC(1)*DTS 12 Net Rad Absorbed by Planet (W/m^2) DIAGJ = AJ(2)+AJ(7) 13 Sensible Heat Flux (W/m^2) SURFCE 1/IDACC(1)*DTS 14 Latent Heat Flux (W/m^2) SURFCE 1/IDACC(1)*DTS 15 Conduc at sea ice-ocean interface (W/m^2) SEAICE 1/IDACC(1)*DTS 16 TG1 (C) SURFCE 1/IDACC(1)*NSURF 17 TG2 (C) GROUND,GRSNOW 1/IDACC(1) 18 TG3 (C) GROUND,GRSNOW 1/IDACC(1) 19 Evaporation (mm/day) GROUND,GRSNOW NDAY/IDACC(1) 20 Total precipitation (mm/day) LSCOND NDAY/IDACC(1) 21 Geopoten energy flux from precip (W/m^2) GRAV/IDACC(1)*DTS 22 Geopoten energy flux from evapor (W/m^2) GRAV/IDACC(1)*DTS 23 Surface air temperature (C) SURFCE 1/IDACC(1)*NSURF 24 Sum of precip energy fluxes (W/m^2) DIAGJ = AJ(39)+AJ(21)*GRAV 25 River flow energy (W/m^2) RIVERF 1/IDACC(1)*DTS 26 Specific humidity of layer 1 up (g/kg) SURFCE 1000/NSURF*IDACC(1) 27 Specific humidity of layer 1 down (g/kg) SURFCE I000/NSURF*IDACC(1) 28 Specific humidity of surface (g/kg) SURFCE 1000/NSURF*IDACC(1) 29 Saturated specific humidity of TG1 (g/kg) SURFCE 1000/NSURF*IDACC(1) 30 FWICE (1) 31 FSNOW (1) 1/IDACC(1) 32 TG4 (C) GROUND,GRSNOW 1/IDACC(1) 33 Precip runoff into lakes (kg/m^2) PREGGR 34 Surface runoff into lakes (kg/m^2) 35 Cross isobar angle (deg) SURFCE 180/Pi*NSURF*IDACC(1) 36 Push ice down (kg/m^2) PRECGI,MELTSI 37 Draw ice up (kg/m^2) GLAICE,OSOURC 38 Deep layers runoff into lakes (kg/m^2) 39 Energy of precipitation 40 Net surface heat fluxes DIAGJ = AJ(13)+AJ(14)+AJ22*GRAV 41 Precip energy runoff into lakes (W/m^2) PRECGR 1/DTS*IDACC(1) 42 Surface energy runoff into lakes (W/m^2) 1/DTS*IDACC(1) 43 Air temperature of layer 1 up (C) SURFCE 1/NSURF*IDACC(1) 44 Air temperature of layer 1 down (C) SURFCE 1/NSURF*IDACC(1) 45 Push ice energy down (W/m^2) PRECGI,MELTSI 1/DTS*IDACC(1) 46 Draw ice energy up (W/m^2) GLKICE,OSOURC 1/DTS*IDACC(1) 47 Deep energy runoff into lakes (W/m^2) 48 Surface wind speed (xn/s) SURFCE 1/NSURF*IDACC(1) 49 Ice above ground (kg/m^2) GROUND,GRSNOW 1/IDACC(1) 50 Water of layer 1 (kg/m^2) GROUND,GRSNOW 1/IDACC(1) 51 Water of layer 2 (kg/m^2) GROUND,GRSNOW 1/IDACC(1) 52 Water of layer 3 (kg/m^2) GROUND,GRSNOW 1/IDACC(1) 53 Mass of snow (kg/m^2) RHOW/IDACC(1) 54 River flow mass (mm/day) RIVERF NDAY/IDACC(1) 55 56 57 CldTopPress * CLDCOV RADIA 58 Cloud top pressure (mb) DIAGJ = AJ(57)/AJ(69) 59 CldTopTemp * CLDCOV RADIA 60 Cloud top temperature (K) DIAGJ = AJ(59)/AJ(69) 61 Large scale precipitation (kg/m^2) LSCOND 62 Moist convective precipitation (kg/m^2) DIAGJ = AJ(20)-AJ(61) 63 Q*M (kg/m^2) (vertical integral) DIAGJ 64 Specific volume of surface (m^3/kg) SURFCE 1/NSURF*IDACC(1) 65 Richardson number between ground and surf SURFCE 1/NSURF*IDACC(1) 66 Drag coefficient for momentum SURFCE 1/NSURF*IDACC(1) 67 Net Rad Absorbed by Rad Layers (W/m^2) DIAGJ = AJ(3)+AJ(8) 68 Vertically integrated optical depth RADIA 1/IDACC(2) 69 Total cloud cover (%) RADIA 100/IDACC(2) 70 Net Rad Absorbed by Atmosphere (W/m^2) DIAGJ = AJ(4)+AJ(9) 71 Net Rad Absorbed by Surface (W/m^2) DIAGJ = AJ(6)+AJ(11) 72 Solar Rad Abs by Planet in Visible (%) RADIA 100/AJ(80)*.53 73 Solar Rad Abs by Planet in Near-IR (%) RADIA 100/AJ(80)*.47 74 Solar Rad Abs by Atmospher in Visible (%) RADIA 100/AJ(80)*.53 75 Solar Rad Abs by Atmospher in Near-IR (%) RADIA 100/AJ(80)*.47 76 Solar Rad Inc by Surface in Visible (%) RADIA 100/AJ(80)*.53 77 Solar Rad Inc by Surface in Near-IR (%) RADIA 100/AJ(80)*.47 78 Solar Rad Abs by Surface in Visible (%) RADIA 100/AJ(76) 79 Solar Rad Abs by Surface in Near-IR (%) RADIA 100/AJ(77) 80 Solar radiation incident at top (W/m^2) RADIA 1/IDACC(2) Contents of AJL(J,L,N) ---------------------- 1 8*(U*U+V*V)*MW (J/m^2) DA 2 4*(UMW-U*Mwm) (kg/m*s) DA 3 4*(UMW+R*OMEGA*COSJ*MWI) (kg/m*s) DA 4 4*M2U4I*MVI/M2I (N) (V grid) DA 5 4*MVU41 (N) (V grid) DA 6 ((MUI/DYP)^2+(MVI/DXV)^2)/MI (kg/s^2) DA 7 (MUUI/DYP+MVVI/DXV) (kg/s^2) DA 8 M2WWI*MVI/M21 (W) (V grid) DA 9 MVWWI (W) (V grid) DA 10-12 13 SRHR (W/m^2) RADIA 14 TRHR (W/m^2) RADIA 15 Optical depth from moist convection RADIA 1/IDACC(2) 16 Optical depth from large scale condensat RADIA 1/IDACC(2) 17 PCLD*M (kg/m^2) RADIA 18 19 Moist convec upward Mass flux (kg/s*m^2) MSTCNV 20 Moist convac downwd mass flux (kg/s*m^2) MSTCNV 21 Water vapor change by MC (kg/s*m^2) MSTCNV 22 Dry heating by moist convec (W/m^2) MSTCNV 23 Change of phase heating by MC (W/m^2) MSTCNV 24 Change of ang momentum by MC (J/m^2) MSTCNV 25 Water vapor change by CONDSE (kg/s*m^2) 26 Heating by CONDSE (W/M'2) 27 Change of ang momentum by CONDSE (J/m^2) 28 Water vapor change by DC (kg/s*m^2) SF,DC 29 Heating by dry convec (W/m^2) SF,DC 30 Change of ang momentum by DC (J/m^2) SF,DC Contents of AQJL(J,L,N) ----------------------- 1 TK (K) DA 1/IDACC(4) 2 3 SRHR (W/m^2) RADIA 1/IDACC(2) 4 TRHR (W/m^2) RADIA 1/IDACC(2) Contents of AIJ(I,J,N) ---------------------- 1 SIC Horizontal Sea Ice or lake ice Cover (%) LAKICE,SEAICE 2 SNCSI SNow Cover (%) over Sea Ice or lake ice LAKICE,SEAICE 3 SNCGI SNow Cover (%) over Glacial Ice GLAICE 4 SNCG SNow Cover (%) over Ground GRSNOW 5 6 CLDL Low level CLouD cover (%) RADIA 7 CLDM Middle level CLouD cover (%) RADIA 8 CLDH High level CLouD cover (%) RADIA 9 CLDOC Vertically integrated CLouD Optical Depth RADIA 10 11 EVAPOO EVAPoration minus dew (mm/day) over Open Ocean OSOURC 12 EVAPSI EVAPoration minus dew (mm/day) over Sea Ice LAKICE,SEAICE 13 EVAPGI EVAPoration minus dew (mm/day) over Glacial Ice GLAICE 14 EVAPGR EVAPoration (mm/day) over snow-free GRound SURFCE 15 EVAPGS EVAPoration (mm/day) over Snow-covered Ground SURFCE 16 EVAPR EVAPoration (mm/day) from Roots over ground SURFCE 17 WETGR Surface WETness (%) over snow-free GRound SURFCE 18 PREC PRECipitation (mm/day) LSCOND 19 PRECNV CoNVective PREcipitation (mm/day) LSCOND 20 21 MSI Sea Ice or lake ice Mass (kg/m²) LAKICE,SEAICE 22 MSNSI SNow Mass (kg/m²) over Sea Ice or lake ice LAKICE,SEAICE 23 MSNGI SNow Mass (kg/m²) over Glacial Ice GLAICE 24 MSNGS SNow Mass (kg/m²) over Snow-covered Ground GRSNOW 25 MISG Surface Ice (kg/m²) over Ground GROUND,GRSNOW 26 MWG Soil Water Mass (kg/m²) over Ground GROUND,GRSNOW 27 MIGI Glacial Ice Mass (kg/year*m²) sent to Ice reservoir PRECGI 28 29 MLAK Liquid LAKe and river Mass (kg/m²) LSOURC 30 MRVR RiVeR Mass (10^6 kg/s) leaving continental grid cell RIVERF 31 HSOO Surface Heat flux - HPRE (W/m²) over Open Ocean OSOURC 32 HSSI Surface Heat flux - HPRE (W/m²) over Sea Ice LAKICE,SEAICE 33 HSGI Surface Heat flux - HPRE (W/m²) over Glacial Ice GLAICE 34 HSGR Surface Heat flux - HPRE (W/m²) over free GRound SURFCE 35 HSGS Surface Heat flux - HPRE (W/m²) over Snow Ground SURFCE 36 HPRE PREcipitation Heat flux (W/m²) LSCOND 37 HIGI Glacial Ice energy (W/m²) sent to Inf. Ice reservoir PRECGI 38 HSEN SENsible Heat flux (W/m²) upward from surface SURFCE 39 HWV Water Vapor Heat flux (W/m²) upward from surface SURFCE 40 HRVR RiVeR Heat (10^6 kg/s) leaving continental grid cell RIVERF 41 RSPI Solar Radiation Incident on Planet (W/m²) RADIA 42 RSAA Solar Radiation Absorbed by Atmosphere (W/m²) RADIA 43 RSSI Solar Radiation Incident on Surface (W/m²) RADIA 44 RSSA Solar Radiation Absorbed by Surface (W/m²) SURFCE 45 46 RTAE Thermal Radiation Emitted by Atmosphere (W/m²) RADIA 47 RTSD Thermal Radiation Downward onto Surface (W/m²) RADIA 48 RTSE Net Thermal Radiation Emitted by Surface (W/m²) SURFCE 49 50 51 TGOO Open Ocean or lake Temperature (°C) of upper surface SURFCE 52 TGSI Ground Temperature (°C) over Sea Ice or lake ice SURFCE 53 TGGI Ground Temperature (°C) over Glacial Ice SURFCE 54 TGGR Ground Temperature (°C) over snow-free GRound SURFCE 55 TGGS Ground Temperature (°C) over Snow-covered Ground SURFCE 56 TAS Surface Air Temperature (°C) SURFCE 57 TGMIN Daily MINimum Ground Temperature (°C) DAILY 58 TGMAX Daily MAXimum Ground Temperature (°C) DAILY 59 TSMIN Daily MINimum near Surface air Temperature (°C) DAILY 60 TSMAX Daily MAXimum near Surface air Temperature (°C) DAILY 61 TGR1 Temperature (°C) of GRound layer 1 SEAICE,GRSNOW,GROUND 62 TGR1 Temperature (°C) of GRound layer 2 SEAICE,GRSNOW,GROUND 63 TGR1 Temperature (°C) of GRound layer 3 SEAICE,GRSNOW,GROUND 64 TGR1 Temperature (°C) of GRound layer 4 SEAICE,GRSNOW,GROUND 65 66 67 TCLDB Temperature (°C) at CLouD Bottom RADIA 68 TCLDT Temperature (°C) at CLouD Top RADIA 69 TLAK Mean Temperature (°C) of liquid LAKe LSOURC 70 71 PS Surface Pressure (mb) MAIN 72 PCLDB Pressure (mb) at CLouD Bottom RADIA 73 PCLDT Pressure (mb) at CLouD Top RADIA 74 PSI Internal Sea Ice Pressure (mb) ADVSI 75 ZOS Ocean Surface height (mm) MAIN 76 ZOBL Ocean Boundary Layer depth (m) OCONV 77 QAS Surface Air specific humidiity (g/kg) SURFCE 78 RUNS Surface RUNoff (mm/day) over ground GRSNOW,GROUND,PRECGR 79 RUNU Underground RUNoff (mm/day) over ground GRSNOW,GROUND 80 RUNI Surface RUNoff (mm/day) over glacial ice GLAICE,PRECGI 81 UAS Easterly Surface Air wind (m/s) SURFCE 82 USMA Easterly Atmospheric Momentum Stress (N/m²) SURFCE 83 UMSI Easterly Sea Ice Mass flux (10^6 kg/s, U grid) ADVSI 84 UESI Easterly Sea Ice Heat flux (10^12 W, U grid) ADVSI 85 USMSI Easterly Sea ice Momentum Stress (N/m², U grid) DYNSI 86 VAS Northerly Surface Air wind (m/s) SURFCE 87 VSMA Northerly Atmospheric Momentum Stress (N/m²) SURFCE 88 VMSI Northerly Sea Ice Mass flux (10^6 kg/s, V grid) ADVSI 89 VESI Northerly Sea Ice Heat flux (10^12 W, V grid) ADVSI 90 VSMSI Northerly Sea ice Momentum Stress (N/m², V grid) DYNSI 91 WS Surface air speed (m/s) SURFCE 92 EKT Turbulent Kinetic Energy lost at surface (W/m²) SURFCE 93 94 95 96 Contents of AIJL(I,J,L,N) ------------------------- 1 Air mass (kg/m²) MAIN 1/IDACC(4) 2 Eastward mass flux (kg/s) AFLUX 2/IDACC(1)*NDYNA 3 Northward mass flux (kg/s) AFLUX 2/IDACC(1)*NDYNA 4 Upward vertical mass flux (kg/s) AFLUX 2/IDACC(1)*NDYNA 5 Mean potential enthalpy (J) MAIN 1/IDACC4*P0^RKAP 6 Eastward potential enthalpy flux (W) AADVTX 1/ID1*P0^RKAP*DTS 7 Northward potential enthalpy flux (W) AADVTY 1/ID1*P0^RKAP*DTS 8 Upward vertical potential enthalpy flux AADVTZ 1/ID1*P0^RKAP*DTS 9 Mean water vapor mass (kg) MAIN 1/IDACC(4) 10 Eastward water vapor flux (kg/s) AADVTX 1/IDACC(1)*DTS 11 Northward water vapor flux (kg/s) AADVTY 1/IDACC(1)*DTS 12 Upward vertical water vapor flux (kg/s) AADVTZ 1/IDACC(1)*DTS Contents of OIJL(I,J,L,N) ------------------------- 1 Ocean mass (kg/m²) 1/IDACC(5) 2 Eastward mass flux (kg/s) 2/IDACC(1)*NDYNO 3 Northward mass flux (kg/s) 2/IDACC(1)*NDYNO 4 Downward vertical mass flux (kg/s) 2/IDACC(1)*NDYNO 5 Mean potential enthalpy (J) 1/IDACC(5) 6 Eastward heat flux (J/s) 1/IDACC(1)*DTS 7 Northward heat flux (J/s) 1/IDACC(1)*DTS 8 Downward vertical heat flux (J/s) 1/IDACC(1)*DTS 9 Mean salt (kg) 1/IDACC(5) 10 Eastward salt flux (kg/s) 1/IDACC(1)*DTS 11 Northward salt flux (kg/s) 1/IDACC(1)*DTS 12 Downward vertical salt flux (kg/s) 1/IDACC(1)*DTS 13 Downward convective mass flux (kg/8) 1/IDACC(1)*DTS 14 Vert. diffusion coef. (kg²/s*m^4) 1/IDACC(1)*4 15-18 Contents of OLNST(L,NST,N) -------------------------- 1 Strait mass flux (kg/s) STADV 1/IDACC(1)*DTS 2 Strait heat flux (J/s) STADV 1/IDACC(1)*DTS*2 3 Strait salt flux (kg/s) STADV 1/IDACC(1)*DTS*2 4 Downward convective mass flux (kg/s) 1/IDACC(1)*DTS 5 Vert. diffusion coef. (kg²/s*m^4) 1/IDACC(1)*2 6 Sea ice mass flux (10^6 kg/s) E-6/IDACC(1)*DTS*2 Contents of ADAILY(IH,N,IJ) --------------------------- 1 Solar rad incident on planet (W/m²) RADIA 1/IDACC(12) 2 Solar rad incident on surface(W/m²) RADIA 1/IDACC(12) 3 Absorbed solar radiation surface (W/m²) RADIA 1/IDACC(12) 4 Net thermal radiation surface (W/m²) RADIA 1/IDACC(12) 5 Latent heat flux at surface (W/m²) DIAGD = ELHE*ADAILY(30)/DTS 6 Sensible heat flux at surface (W/m²) DIAGD = ADAILY(8-4-5) 7 Precipitation heat flux (W/m²) LSCOND 8 Net heat at surface (W/m²) 9 Heat flux at bottom of layer 1 (W/m²) 10 Optical thickness of layer 4 (* 100) RADIA 11 Optical thickness of layer 3 (* 100) RADIA 12 Optical thickness of layer 2 (* 100) RADIA 13 Optical thickness of layer 1 (* 100) RADIA 14 Total Cloud Cover (* 1000) RADIA 15 Eastward surface velocity (.1 m/s) LSCOND 16 Northward surface velocity (.1 m/s) LSCOND 17 Surface wind speed (.1 m/s) LSCOND 18 Surface pressure (mb) LSCOND 19 Potential temperature of layer 4 (.1 C) SURFCE 20 Potential temperature of layer 3 (.1 C) SURFCE 21 Potential temperature of layer 2 (.1 C) SURFCE 22 Potential temperature of layer 1 (.1 C) SURFCE 23 Surface air temperature (.1 C) SURFCE 24 Snow temperature (.1 C) * Snow cover 25 Ground temperature of layer 1 (.1 C) 26 Ground temperature of layer 2 (.1 C) 27 Ground temperature of layer 3 (.1 C) 28 Ground temperature of layer 4 (.1 C) 29 Precipitation (.001 kg/day*m²) LSCOND 30 Evaporation (.001 kg/day*m²) 31 Transpiration from layer 2 32 Transpiration from layer 3 33 Surface source runoff 34 Underground source runoff 35 Specific humidity of layer 4 (.0001) LSCOND 36 Specific humidity of layer 3 (.0001) LSCOND 37 Specific humidity of layer 2 (.0001) LSCOND 38 Specific humidity of layer 1 (.0001) LSCOND 39 Specific humidity of surface (.0001) LSCOND 40 Snow cover (* 1000) 41 Snow mass (kg/m²) 42 Ice mass (kg/m²) 43 Ground water of layer 1 (kg/m²) 44 Ground water of layer 2 (kg/m²) 45 Ground water of layer 3 (kg/m²) 46 Ground water of layer 4 (kg/m²) 47 Ground ice of layer 1 (kg/m²) 48 Ground ice of layer 2 (kg/m²) 49 Ground ice of layer 3 (kg/m²) 50 Ground ice of layer 4 (kg/m²) Contents of TIJ(I,J,N) ---------------------- 1 Radon-222 concentration of layer 1 1/IDACC(1)*DXYP 2 Radon-222 concentration of layer 7 1/IDACC(1)*DXYP 3 CFC-11 concentration of layer 1 1/IDACC(1)*DXYP Contents of TIL(I,L,N) ---------------------- 1 Equatorial transport of Radon-222 1/IDACC(1)*DTS 2 Equatorial transport of Krypton-85 1/IDACC(1)*DTS 3 Equatorial transport of I4CO2 1/IDACC(1)*DTS 4 Equatorial transport of CFC-11 1/IDACC(1)*DTS 5 Radon-222 concentration at 2S 1/IDACC(1)*DXYP 6 Radon-222 concentration at 34N 1/IDACC(1)*DXYP 7 Radon-222 concentration at 46N 1/IDACC(1)*DXYP 8 I4CO2 concentration at 42S 1/IDACC(1)*DXYP 9 14CO2 concentration at 10N 1/IDACC(1)*DXYP 10 14CO2 concentration at 3ON 1/IDACC(1)*DXYP 11 14CO2 concentration at 7ON 1/IDACC(1)*DXYP Contents of CONSRV(J,N) ----------------------- Atmosphere K values ---------- -------- 1 Instantan AM (10^9 J*s/m²) 1 Angular Momentum 2 Change of AM by Advec + Coriolis Atmospheric Dynamics 3 Change of AM by Pressure Grad Force Atmospheric Dynamics 4 Change of AM by DYNAMICS 2 5 Change of AM by BINOMIAL FILTER 3 6 Change of AM by CONVEC + SURFCE 4-6 7 Change of AM by STRATOS DRAG 7 8 Change of AM by DAILY unused 9 Sum AM changes (10² J/m²) 10 Instantan KE (10^3 J/m²) 1 Kinetic Energy 11 Change of KE by Advec + Coriolis Atmospheric Dynamics 12 Change of KE by PRESSURE GRAD Atmospheric Dynamics 13 Change of KE by DYNAMICS 2 14 Change of KE by BINOMIAL FILTER 3 15 Change of KE by MOIST COWIEC 4 16 Change of KE by SURF + DRY CONV 6 17 Change of KE by STRATOS DRAG 7 18 Change of KE by DAILY unused 19 Sum KE changes (10^-3 W/m²) 20 Instantan MASS (kg/m²) 1 Air mass 21 Change of MASS by DYNAMICS 2 22 Change of MASS by CONDENSATION 4 23 Change of MASS by SURF EVAPORA 6 24 Change of MASS by DAILY 12 25 Sum changes (I0^-8 kg/s*m²) 26 Instantan TPE (10^5 J/m²) 1 Total Potential Energy 27 Change of TPE by DYNAMICS 2 28 Change of TPE by CONDENSATION 4 29 Change of TPE by RADIATION 5 30 Change of TRE by SURFACE INTER 6 31 Sum TPE changes (10^-2 W/m²) 32 Instantan PE (10^5 J/m²) 1 Potential Enthalpy 33 Change of PE by DYNAMICS 2 34 Change of PE by CONDENSATION 4 35 Change of PE by RADIATION 5 36 Change of PE by SURFACE INTER 6 37 Sum PE changes (10^-2 W/m²) 38 Instantan VAPOR (10^-3 kg/m²) 1 Water Vapor Mass 39 Change of VAPOR by DYNAMICS 2 40 Change of VAPOR by CONDENSATION 4 41 Change of VAPOR by SURF EVAPORA 6 42 Sum changes (10^-9 kg/s*m²) Ground ------ 43 Instantan MASS (10^-2 kg/m²) 1 Water Mass 44 Change of MASS by PRECIPITATION 4 45 Change of MASS by SURF EVAPORA 6 46 Sum changes (10^-6 kg/s*m²) 47 Instantan ENRG (10^5 J/m²) 1 Energy 48 Change of ENRG by PRECIPITATION 4 49 Change of ENRG by SURF FLUXES 6 50 Sum ENRG change (10^-2 W/m²) Glacial Ice ----------- 51 Instantan MASS (10^-2 kg/m²) 1 Glacial Ice Mass 52 Change of MASS by PRECIPITATION 4 53 Change of MASS by SURF EVAPORA 6 54 Sum changes (10^-8 kg/s*m²) 55 Instantan ENRG (10^5 J/m²) 1 Glacial Ice Energy 56 Change of ENRG by PRECIPITATION 4 57 Change of ENRG by SURF FLUXES 6 58 Sum ENRG change (10^-2 W/m²) Lakes ----- 59 Instantan MASS (10^-2 kg/m²) 1 Water Mass 60 Change of MASS by PRECIPITATION 4 61 Change of MASS by SURF LFVAPORA 6 62 Change of MASS by RIVER FLOW 9 63 Change of MASS by OCLIM 12 64 Sum changes (10^-8 kg/s*m²) 65 Instantan ENRG (10^5 J/m²) 1 Energy 66 Change of ENRG by PRECIPITATION 4 67 Change of ENRG by SURF FLUXES 6 68 Change of PE by RIVER FLOW 9 69 Change of ENRG by OCLIM 12 70 Sum ENRG change (10^-2 W/m²) K When diagnostic conservation subroutines are being called - ---------------------------------------------------------- 1 to initialize conserved quantities 2 after ADynam 3 after AABFIL 4 after MSTCNV, LSCOND, PRECGR, PRECGI, PRECLI, PRECOL 5 after RADIA, OSTRES 6 after SURFCE, GRSNOW, GROUND, GLAICE, LAKICE, LSOURC, DRYCNV 7 after ASDRAG, 8 9 after RIVERF 10 11 12 after DAILY, OCLIM Ocean ----- 71 Instantan AM (10^10 J*s/m²) 1 Angular Momentum 72 Change of AM by DYNAM + STRAITS 2 73 Change of AM by BINOMIAL FILTER 3 74 Change of AM by WATER EXCHANGE 9-4-5,6,11 75 Change of Am by OSTRES 7 76 Change of AM by CONVEC + MIXING 8 77 Change of AM by BOTTOM+SIDE DRAG 10 78 Sum AM changes (10² J/m²) 79 Instantan KE (J/m²) 1 Kinetic Energy 80 Change of KE by DYNAM + STRAITS 2 81 Change of KE by BINOMIAL FILTER 3 82 Change of KE by WATER EXCHANGE 9-4-5,6,11 83 Change of KE by OSTRES 7 84 Chnage of KE by CONVEC + MIXING 8 85 Change of KE by BOTTOM+SIDE DRAG 10 86 Sum KE changes (10^-6 W/m²) 87 Instantan MASS (10² kg/m²) 1 Mass 88 Change of MASS by DYNAM + STRAITS 2 89 Change of MASS by PRECIPITATION 4 90 Change of MASS by SEAICE RUNOFF 5 91 Change of MASS by SURF FLUXES 6 92 Change of MASS by RIVER FLOW 9 93 Change of MASS by ICE MELT 11 94 Sum changes (10^-8 kg/s*m²) 95 Instantan PE (10^6 J/m²) 1 Potential Enthalpy 96 Change of PE by DYNAM + STRAITS 2 97 Change of PE by PRECIPITATION 4 98 Change of PE by SKAICE RUNOFF 5 99 Change of PE by SURF FLUXES 6 100 Change of PE by CONVEC + MIXING 7 101 Change of PE by RIVER FLOW 9 102 Change of PE by ICE MELT 11 103 Sum PE changes (10^-2 W/m²) 104 Instantan SALT (10^1 kg/m²) 1 Salt 105 Change of SALT by DYNAM + STRAITS 2 106 Change of SALT by OSOURC 6 107 Change of SALT by SEA ICE MELT 11 108 Sum changes (10^-8 kg/s*m²) Sea Ice ------- 109 Instantan MASS (10^-2 kg/m²) 1 Sea Ice Mass 110 Change of MASS by ADVEC + STRAITS 2 111 Change of MASS by PRECIPITATION 4 112 Change of MASS by SMAICE MELT 5 113 Change of MASS by OSOURC FREEZE 6 114 Change of MASS by CALVING 9 115 Change of MASS by SEA ICE MELT 11 116 Sum changes (10^-8 kg/s*m²) 117 Instantan ENRG (10^5 J/m²) 1 Sea Ice Energy 118 change of ENRG by ADVEC + STRAITS 2 119 Change of ENRG by PRECIPITATION 4 120 Change of EURG by SEAICE MELT 5 121 Change of ENRG by osourc FREEZE 6 122 change of ENRG by CALVING 9 123 Change of ENRG by SEA ICE MELT 11 124 Sum ENRG change (10^-2 W/m²) Ice Bergs --------- 125 Instantan MASS (10^-4 kg/s*m²) 1 Ice Berg Mass 126 Change of MASS by TRANSPORT 2 127 Change of MASS by CREATION 6 128 Change of MASS by CALVING 9 129 Change of MASS by MELTING 11 130 Sum Mass change (10^-8 kg/s*m²) 131 Instantan ENRG (10^3 J/m²) 1 Ice Berg Energy 132 Change of ENRG by TRANSPORT 2 133 Change of ENRG by CREATION 6 134 Change of ENRG by CALVING 9 135 Change of ENRG by MELTING 11 136 Sum ENRG change (10^-2 W/m²) K When diagnostic conservation subroutines are being called: - ---------------------------------------------------------- 1 Initialize conserved quantities 2 after ODynam, ADVSI, MOVEIB, STADV, STADVI 3 after OABFIL 4 after PRECOO, PRECSI 5 after OSTRES 6 after SEAICE, OOCEAN 7 after OSOURC, CREAIB 8 after OCONV, STCONV 9 after RIVERF, CALVEI 10 after OBDRAG, OCOAST, STDRAG 11 after MELTSI, MELTIB