DIAG070.GCM Quantities in Diagnostic Accumulating Arrays 2000/03/26 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 radiation incident at top (W/m^2) RD 1/IDACC(2) 2 Solar radiation absorbed at top (W/m^2) = AJ4 /IA2 + AJ6/IA1*DTS 3 Solar rad absorbed below MSTRAT (W/m^2) = AT56/IA2 + AJ6/IA1*DTS 4 Solar rad absorbed by atmospher (W/m^2) RD 1/IDACC(2) 5 Solar rad incident on ground (W/m^2) RD 1/IDACC(2) 6 Solar rad absorbed by ground (W/m^2) SF 1/IDACC(1)*DTS 7 Net thermal flux at top (W/m^2) = AJ70/IA2 + AJ9/IA1*DTS 8 Net thermal flux at MSTRAT (W/m^2) = AJ71/IA2 + AJ9/lAl*DTS 9 Net thermal flux at surface (W/m^2) SF 1/IDACC(1)*DTS 10 Net radiation absorbed at top (W/m'2) = AJ(2) + AJ(7) 11 Net rad absorbed below MSTRAT (W/m^2) = AJ(3) + AJ(8) 12 Net rad absorbed at surface (W/m^2) = AJ(6) + AJ(9) 13 Sensible Heat Flux (W/m^2) SF 1/IDACC(1)*DTS 14 Latent Heat Flux (W/m^2) SF 1/IDACC(1)*DTS 15 Conduc at sea ice-ocean interface (W/m^2) LI 1/IDACC(1)*DTS 16 TO3 (C) 1/IDACC(1) 17 TG2 (C) 1/IDACC(1) 18 TGI (C) 1/IDACC(1) 19 Evaporation (mm/day) GD NDAY/IDACC(1) 20 Total precipitation (mm/day) PR 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) SF 1/IDACC(3) 24 Sum of precip energy fluxes (W/m^2) = AJ(39) + AJ(21)*GRAV 25 River flow energy (W/m^2) RV 1/IDACC(1)*DTS 26 Specific humidity of layer 1 up (g/kg) SF 1000/NSURF*IDACC(1) 27 Specific humidity of layer 1 down (g/kg) SF I000/NSURF*IDACC(1) 28 Specific humidity of surface (g/kg) SF 1000/NSURF*IDACC(1) 29 Saturated specific humidity of TG1 (g/kg) SF 1000/NSURF*IDACC(1) 30 FWICE (1) GD 31 FSNOW (1) 1/IDACC(1) 32 Net radia absorbed by atmosphere (W/m^2) 33 Precip runoff into lakes (kg/m^2) 34 Surface runoff into lakes (kg/m^2) 35 Cross isobar angle (deg) SF 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 AJ13 + AJ14 + AJ22*GRAV 41 Precip energy runoff into lakes (W/m^2) GP 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) SF 1/NSURF*IDACC(1) 44 Air temperature of layer 1 down (C) SF 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) SF 1/NSURF*IDACC(1) 49 Water on canopy (kg/m^2) RHOW/IDACC(1) 50 Water of layer 1 (kg/m^2) RHOW/IDACC(1) 51 Water of layer 2 (kg/m^2) RHOW/IDACC(1) 52 TG4 (C) 1/IDACC(1) 53 Mass of snow (kg/m^2) RHOW/IDACC(1) 54 River flow mass (mm/day) RV NDAY/IDACC(1) 55 LW window brightness temperature (C) RD 1/IDACC(2) 56 Solar rad abs from ZO to MSTRAT (W/m^2) RD 1/IDACC(2) 57 CldTopPress * CLDCOV RD 58 Cloud top pressure (mb) = AJ(57)/AJ(69) 59 CldTopTemp * CLDCOV RD 60 Cloud top temperature (K) = AJ(59)/AJ(69) 61 Large scale precipitation (kg/m^2) CN 62 Moist convective precipitation (kg/m^2) = AJ(20) - AJ(61) 63 Q*M (kg/m^2) (vertical integral) DJ 64 Specific volume of surface (m^3/kg) SF 1/NSURF*IDACC(1) 65 Richardson number between ground and surf SF 1/NSURF*IDACC(1) 66 Drag coefficient for momentum SF 1/NSURF*IDACC(1) 67 Thermal rad incident on ground (W/m^2) RD 68 Vertically integrated optical depth RD 1/IDACC(2) 69 Total cloud cover (%) RD 100/IDACC(2) 70 TRNFLB(LMA+4) - TRNFLB(1) (W/m^2) RD 1/IDACC(2) 71 TRNFLB(LMA+l) - TRNFLB(1) (W/m^2) RD 1/IDACC(2) 72 Planetary albedo in visual (%) RD 100/AJ(1) 73 Planetary albedo in near IR RD 100/AJ(1) 74 Surface albedo in visual (%) RD 100/Ai(1) 75 Surface albedo in near IR (%) RD 100/AJ(1) 76 Atmospheric albodo in visual RD 100/Ai(1) 77 Atmospheric albodo in near IR RD 100/AJ(1) 78 Atmospheric absorption in visual RD 100/AJ(1) 79 Atmospheric absorption in near IR RD 100/AJ(1) 80 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) RD 14 TRHR (W/m^2) RD 15 Optical depth from moist convection RD 1/IDACC(2) 16 Optical depth from large scale condensat RD 1/IDACC(2) 17 PCLD*M (kg/m^2) RD 18 19 Moist convec upward Mass flux (kg/s*m^2) MC 20 Moist convac downwd mass flux (kg/s*m^2) MC 21 Water vapor change by MC (kg/s*m^2) MC 22 Dry heating by moist convec (W/m^2) MC 23 Change of phase heating by MC (W/m^2) MC 24 Change of ang momentum by MC (J/m^2) MC 25 Water vapor change by CONDSE (kg/s*m^2) CN 26 Heating by CONDSE (W/M'2) CN 27 Change of ang momentum by CONDSE (J/m^2) CN 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) RD 1/IDACC(2) 4 TRHR (W/m^2) RD 1/IDACC(2) Contents of AIJ(I,J,N) ---------------------- 1 Ocean ice cover (%) 100/IDACC(1) 2 Snow cover (%) 100/IDACC(1) 3 Snow mass (kg/m^2) 1/IDACC(1) 4 Sensible heat flux (W/m^2) SF -1/DTS*IDACC(1) 5 Precipitation (mm/day) PR NDAY/IDACC(1) 6 Evaporation (mm/day) SF NDAY/IDACC(1) 7 Ground wetness (%) over ground 100/NSURF*IDACC(1) 8 Compact - melt of glacial ice (kg/s*m^2) 1/DTS*IDACC(1) 9 Energy of glacial ice compacting (W/m^2) PG 1/DTS*IDACC(1) 10 Daily minimum surface air temperature (C) DL 1/IDACC(12) 11 Daily maximum surface air temperature (C) DL 1/IDACC(12) 12 Daily minimum ground temperature (C) DL 1/IDACC(12) 13 Daily maximum ground temperature (C) DL 1/IDACC(12) 14 Surface pressure (mb-1013.25) .01/IDACC(1) 15 Convective precipitation (mm/day) PR NDAY/IDACC(1) 16 Sea ice mass (kg/m^2) SI 1/AIJ(1) 17 Soil moisture (cm) over ground SF 100/IDACC(1) 18 Vertically integrated optical depth RD 1/IDACC(2) 19 Total cloud cover (%) RD 100/IDACC(2) 20 Energy outflow by rivers (10110 W) RV E-10/DTS*IDACC(1) 21 Outgoing thermal radiation of planet (W/m^2) -1/IDACC(2) 22 Net thermal radiation at surface (W/m^2) SF -1/DTS*IIDACC(1) 23 Net heat into surface (W/m^2) SF 1/DTS*IDACC(1) 24 Absorbed solar radiation of planet (W/m^2) 1/IDACC(2) 25 Incident solar radiation of planet (W/m^2) 1/IDACC(2) 26 Absorbed solar radiation at surface (W/m^2) 1/IDACC(2) 27 incident solar radiation at surface (W/m^2) 1/IDACC(2) 28 Ground tempearature (C) of layer 1 SF 1/IDACC(3) 29 Ocean surface height (m) MA 1/IDACC(1)*GRAV 30 Eastward sea ice mass flux (10^6 kg/s) AS E-6/IDACC(1)*DTS 31 Northward sea ice mass flux (10^6 kg/a) AS E-6/IDACC(1)*DTS 32 Aerodynamic potential evapora (mm/day) SF NDAY/IDACC(1) 33 Penman potential evaporation (mm/day) SF NDAY/IDACC(1) 34 Mass outflow by rivers (IDA5 kg/6) RV E-5/IDACC(1)*DTS 35 Surface air temperature (C) SF 1/IDACC(3) 36 Eastward surface air wind (m/s) SF 1/IDACC(3) 37 Northward surface air wind (m/s) SF 1/IDACC(3) 38 Sea ice pressure (mb) ID E-2/IDACC(1) 39 Cloud top pressure (mb) * cloud cover RD E-2/AIJ(19) 40 Cloud top temperature (K) * cloud coverCA RD 1/AIJ(19) 41 Low level cloud cover (%) RD 100/IE)ACC(2) 42 Middle level cloud cover (%) RD 100/IIDACC(2) ' 43 High level cloud cover (%) RID 100/IDACC(2) 44 Surface runoff over ground (=/day) SF NDAY/IDACC(1) 45 Underground runoff over ground (mm/day) SF NDAY/IDACC(1) 46 Surface runoff over glacial ice (mm/day) SF NDAY/IDACC(1) 47 Cross isobar angle (degrees) SF 360/TWOPI*IDACC(3) 48 Eastward surface momentum stress (N/m^2) SF NSURF/IDACC(3)*DTS 49 Northward surface Momentum Stress (N/m^2) SF NSURF/IDACC(3)*DTS 50 Surface air specific humidiity (g/kg) SF 1/IDACC(3) 51 Surface air speed (m/s) SF 1/IDACC(3) 52 Precipitation heat flux (W/m^2) PR 1/DTS*IDACC(1) 53 Evaporation over open water (mm/day) OS NDAY/(IDACCI-AIJ1) 54 Evaporation over water ice (mm/day) SI NDAY/AIJ(1) 55 Evaporation over glacial ice (mm/day) GI NDAY/IDACC(1) 56 Evaporation over ground (mm/day) GR NDAY/IDACC(1) 57 Energy flux into open water (W/m^2) OS 1/DTS*(IDACC1-AIJ1) 58 Energy flux into water ice (W/m^2) SI 1/DTS*AIJ(1) 59 Energy flux into glacial ice (W/m^2) GI 1/DTS*IDACC(1) 60 Energy flux into ground (W/m^2) GR 1/DTS*IDACC(1) 61 Sea ice mass formed (kg/day*m^2) OS NI)AY/IDACC(1) 62 Sea ice energy formed (W/m^2) OS 1/DTS*IDACC(1) 63 Sea ice mass melted (kg/day*m^2) MS NDAY/IDACC(1) 64 Sea ice energy melted (W/m^2) MS 1/DTS*IDACC(1) 65 Ice berg mass melted (kg/day*m^2) MB NDAY/IDACC(1) 66 Ice berg energy melted (W/m^2) MB 1/DTS*IDACC(1) 67 Eastward sea ice velocity (m/s) Di 1/AIJ(16) 68 Northward sea ice velocity (m/s) Di 1/AIJ(16) 69 Eastward sea ice momentum stress (N/m^2) DI 1/DTS*AIJ(1) 70 Northward sea Ice momentum stress (N/m^2) DI 1/DTS*AIJ(1) 71 Shallow convective frequency (%) MC 100/IDACC(1)*4 72 Deep convective frequency (%) MC 100/IDACC(1)*4 73 Variance of daily precipitation (mm/day)^2 1/IDACC(12) 74 Variance of daily surface air temp (C)^2 75 Variance of daily surface pressure (mb)^2 76 Turbulent kinetic energy lost at surf (W/m^2) NSURF/IDACC(3)*DTS Contents of AIJL(I,J,L,N) ------------------------- 1 Air mass (kg/m^2) AD 1/IDACC(4) 2 Eastward mass flux (kg/s) AD 2/IDACC(1)*NDYNA 3 Northward mass flux (kg/s) AD 2/IDACC(1)*NDYNA 4 Upward vertical mass flux (kg/s) AD 2/IDACC(1)*NDYNA 5 Mean potential enthalpy (J) AD 1/ID(4)*P0^RKAP 6 Eastward potential enthalpy flux (W) AD 1/ID(1)*P0^RKAP*DTS 7 Northward potential enthalpy flux (W) AD 1/ID(1)*P0^RKAP*DTS 8 Upward vertical potential enthalpy flux (W) 1/ID(1)*P0^RKAP*DTS 9 Mean water vapor mass (kg) AD 1/IDACC(4) 10 Eastward water vapor flux (kg/s) AD 1/IDACC(1)*DTS 11 Northward water vapor flux (kg/s) AD 1/IDACC(1)*DTS 12 Upward vertical water vapor flux (kg/s) AD 1/IDACC(1)*DTS Contents of OIJL(I,J,L,N) ------------------------- 1 Ocean mass (kg/m^2) 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. (kg^2/s*m^4) 1/IDACC(1)*4 15-18 Contents of OLNST(L,NST,N) -------------------------- 1 Strait mass flux (kg/s) ST 1/IDACC(1)*DTS 2 Strait heat flux (J/s) ST 1/IDACC(1)*DTS*2 3 Strait salt flux (kg/s) ST 1/IDACC(1)*DTS*2 4 Downward convective mass flux (kg/s) ST 1/IDACC(1)*DTS 5 Vert. diffusion coef. (kg^2/s*m^4) ST 1/IDACC(1)*2 6 Sea ice mass flux (10^6 kg/s) ST E-6/IDACC(1)*DTS*2 Contents of ADAILY(IH,N,IJ) --------------------------- 1 Incident sun light (W/m^2) 2 Planetary albedo (%) RD 3 Ground albedo (%) RD 4 Absorbed radiation of atmosphere (W/m^2) RD 5 Precipitation heat flux (W/m^2) CN 6 Surface pressure (mb) SF 7 Potential temperature of layer 5 (.1 C) SF 8 Potential temperature of layer 4 (.1 C) SF 9 Potential temperature of layer 3 (.1 C) SF 10 Potential temperature of layer 2 (.1 C) SF 11 Potential temperature of layer 1 (.1 C) SF 12 Surface air temperature (.1 C) SF 13 Ground temperature (.1 C) SF 14 Specific humidity of layer 5 (* 10^4) SF 15 Specific humidity of layer 4 (* 10^4) SF 16 Specific humidity of layer 3 (* 10^4) SF 17 Specific humidity of layer 2 (* 10^4) SF 18 Specific humidity of layer 1 (* 10^4) SF 19 Specific humidity of surface (* 10^4) SF 20 Saturated spec hum of ground (* 10^4) SF 21 Optical thickness of layer 6 (* 100) RN 22 Optical thickness of layer 5 (* 100) RN 23 Optical thickness of layer 4 (* 100) RN 24 Optical thickness of layer 3 (* 100) RN 25 Optical thickness of layer 2 (* 100) RN 26 Optical thickness of layer 1 (* 100) RN 27 Cloud cover (%) RN 28 Solar rad absorbed by ground (W/m^2) SF 29 Thermal rad absorbed by ground (W/m^2) SF 30 Sensible heat absorbed by ground (W/m^2) SF 31 Latent energy absorbed by ground (W/m^2) SF 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 TJL(J,L,N) ---------------------- 1 Krypton-85 concentration at 7.5W 1/IDACC(1)*DXYP 2 Krypton-85 concentration at 27.5W 1/IDACC(1)*DXYP 3 14CO2 tracer mass [I] 1/IDACC(1) 4 CFC-11 tracer mass [I] 1/IDACC(1) Contents of TT(H,D,N) --------------------- 1 Radon-222 concentration at Chester 1 2 Radon-222 concentration at Cincinatti 1 3 Radon-222 concentration at Washington 1 4 Radon-222 concentration at Socorro 1 5 Radon-222 concentration at Livermore 1 6 Radon-222 concentration at Crozet 1 7 Radon-222 concentration at Kerguelen 1 8 Radon-222 concentration at Amsterdam 1 9 CFC-11 concentration at Tasmania 1 10 CFC-11 concentration at Samoa 1 11 CFC-11 concentration at Barbados 1 12 CFC-11 concentration at Oregon East 1 13 CFC-11 concentration at Oregon West 1 14 CFC-11 concentration at Ireland East 1 15 CFC-11 concentration at Ireland West 1 Contents of CONSRV(J,N) ----------------------- Atmosphere K values ---------- -------- 1 Instantan AM (10^9 J*s/m^2) 1 Angular Momentum 2 Change of AM by ADVEC + CORIOL Atmospheric Dynamics 3 Change of AM by PRESSURE GRAD 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 (10^2 J/m^2) 10 Instantan KE (10^3 J/m^2) 1 Kinetic Energy 11 Change of KE by AI)VEC + CORXOL 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/m^2) 20 Instantan MASS (kg/m^2) 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*m^2) 26 Instantan TPE (10^5 J/m^2) 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/m^2) 32 Instantan PE (10^5 J/m^2) 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/m^2) 38 Instantan VAPOR (10^-3 kg/m^2) 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*m^2) Ground ------ 43 Instantan MASS (10^-2 kg/m^2) 1 Water Mass 44 Change of MASS by PRECIPITATION unused 45 Change of MASS by SURF EVAPORA 6 46 Sum changes (10^-6 kg/s*m^2) 47 Instantan ENRG (10^5 J/m^2) 1 Energy 48 Change of ENRG by PRECIPITATION unused 49 Change of ENRG by SURF FLUXES 6 50 Sum ENRG change (10^-2 W/m^2) Glacial Ice ----------- 51 Instantan MASS (10^-2 kg/m^2) 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*m^2) 55 Instantan ENRG (10^5 J/m^2) 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/m^2) Lakes ----- 59 Instantan MASS (10^-2 kg/m^2) 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*m^2) 65 Instantan ENRG (10^5 J/m^2) 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/m^2) K When diagnostic conservation subroutines are being called - ---------------------------------------------------------- 1 to initialize conserved quantities 4 after MSTCNV, CONDSE, PRECGI, PRECOL, PRECLI 5 after RADIA 6 after SURFCE, GLAICE, OLAKE, LAKICE, DRYCNV 7 after ASDRAG 9 after RIVERF 2 after ADynam 3 after AABFIL 12 after DAILY, OCLIM Ocean ----- 71 Instantan AM (10^10 J*s/m^2) 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 (10^2 J/m^2) 79 Instantan KE (J/m^2) 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/m^2) 87 Instantan MASS (10^2 kg/m^2) 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*m^2) 95 Instantan PE (10^6 J/m^2) 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/m^2) 104 Instantan SALT (10^1 kg/m^2) 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*m^2) Sea Ice ------- 109 Instantan MASS (10^-2 kg/m^2) 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*m^2) 117 Instantan ENRG (10^5 J/m^2) 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/m^2) Ice Bergs --------- 125 Instantan MASS (10^-4 kg/s*m^2) 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*m^2) 131 Instantan ENRG (10^3 J/m^2) 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/m^2) K When diagnostic conservation subroutines are being called: - ---------------------------------------------------------- 1 Initialize conserved quantities 9 after RIVERF, CALVEI 4 after PRECOO, PRECSI 5 after SEAICE 7 after OSTRES 6 after OSOURC, CREAIB 8 after OCONV 10 after OBDRAG, OCOAST 2 after ODynam, ADVSI, MOVEIB, STADV, STADVI 3 after OABFIL 11 after MELTSI, MELTIB