On this page we list the various diagnostic quantities that you can archive with GEOS-Chem. These diagnostic quantities are archived to binary punch" (aka bpch) format.
NOTE: We are phasing out binary punch format output, and will replace it with netCDF output. This will probably happen in GEOS-Chem v11-03.
Overview
Flag
|
Dimension
|
Quantity
|
Units
|
Category
|
where CATEGORY
is the 8-character name used by GAMAP to reference a particular diagnostic field. Information about how to set the different flags in the input.geos file can be found in Chapter 5. DIMENSION
is usually 2-D or 3-D, with I,J,L
for longitude, latitude and level indices. N
as a third or fourth dimension refers to the number of tracers that a diagnostic can carry.
You can specify which diagnostic quantities you want to archive by modifying the various menus of the input.geos
file, which is contained in your the GEOS-Chem run directory. The relevant menus of input.geos
are:
ND01: Rn-Pb-Be sources
ND01 #
|
Dims
|
Description
|
Units
|
Category
|
Simulations
|
netCDF equivalent
|
Notes
|
1 |
(I,J,L) |
222Rn emissions |
[kg/s] |
RN-SRCE |
Rn-Pb-Be |
EMIS_Rn_SOIL |
Archived via HEMCO
|
2 |
(I,J,L) |
210Pb emissions |
[kg/s] |
RN-SRCE |
Rn-Pb-Be |
PbfromRadDecay |
|
3 |
(I,J,L) |
7Be emissions |
[kg/s] |
RN-SRCE |
Rn-Pb-Be |
EMIS_Be_COSMIC |
Archived via HEMCO
|
ND02: Rn-Pb-Be decay
ND02 #
|
Dims
|
Description
|
Units
|
Category
|
Simulations
|
netCDF equivalent
|
Notes
|
1 |
(I,J,L) |
222Rn loss |
[kg/s] |
RN-DECAY |
Rn-Pb-Be |
RadDecay_Rn |
|
2 |
(I,J,L) |
210Pb loss |
[kg/s] |
RN-DECAY |
Rn-Pb-Be |
RadDecay_Pb |
|
3 |
(I,J,L) |
7Be loss |
[kg/s] |
RN-DECAY |
Rn-Pb-Be |
RadDecay_Be7 |
|
ND03: Mercury emissions and P/L
ND03
|
Dimension
|
MERCURY EMISSIONS, PRODUCTION, LOSS
|
Units
|
Category
|
1 |
(I,J) |
Anthropogenic Hg0 emission |
[kg] |
HG-SRCE
|
2 |
(I,J) |
Total mass of oceanic Hg0 |
[kg] |
HG-SRCE
|
3 |
(I,J) |
Oceanic emission of Hg0 |
[kg] |
HG-SRCE
|
4 |
(I,J) |
Land reemission of Hg0 |
[kg] |
HG-SRCE
|
5 |
(I,J) |
Land natural emission of Hg0 |
[kg] |
HG-SRCE
|
6 |
(I,J) |
Anthropogenic Hg2 emission |
[kg] |
HG-SRCE
|
7 |
(I,J) |
Total mass of oceanic Hg2 |
[kg] |
HG-SRCE
|
8 |
(I,J) |
Mass of Hg2 sunk in the ocean |
[kg] |
HG-SRCE
|
9 |
(I,J) |
Anthropogenic HgP emission |
[kg] |
HG-SRCE
|
10 |
(I,J) |
Total oceanic mercury |
[kg] |
HG-SRCE
|
11 |
(I,J) |
Total mass of oceanic HgP |
[kg] |
HG-SRCE
|
12 |
(I,J) |
Mass of organic carbon sunk in ocean |
[kg] |
HG-SRCE
|
13 |
(I,J) |
Emissions from biomass burning |
[kg] |
HG-SRCE
|
14 |
(I,J) |
Emissions from vegetation |
[kg] |
HG-SRCE
|
15 |
(I,J) |
Emissions from soils |
[kg] |
HG-SRCE
|
16 |
(I,J) |
Flux-up Hg0 volat from ocean |
[kg] |
HG-SRCE
|
17 |
(I,J) |
Flux-down Hg0 dry dep to ocean |
[kg] |
HG-SRCE
|
18 |
(I,J) |
Snow emission of Hg |
[kg] |
HG-SRCE
|
19 |
(I,J,L) |
Production of Hg2 from Hg0 |
[kg] |
PL-HG2-$
|
20 |
(I,J,L) |
Production of Hg2 from rxn w/ OH |
[kg] |
PL-HG2-$
|
21 |
(I,J,L) |
Production of Hg2 from rxn w/ O3 |
[kg] |
PL-HG2-$
|
22 |
(I,J,L) |
Loss of Hg2 from rxn w/ sea salt |
[kg] |
PL-HG2-$
|
23 |
(I,J,L) |
Loss rate of Hg2 from rxn w/ sea salt |
[s-1] |
PL-HG2-$
|
24 |
(I,J,L) |
Production of Hg2 from Br |
[kg] |
PL-HG2-$
|
25 |
(I,J,L) |
Br concentration |
[kg] |
PL-HG2-$
|
26 |
(I,J,L) |
BrO concentration |
[kg] |
PL-HG2-$
|
27 |
(I,J,L) |
Particulate bound mercury |
[pptv] |
PL-HG2-$
|
28 |
(I,J,L) |
Reactive gaseous mercury |
[pptv] |
PL-HG2-$
|
29 |
(I,J,L) |
Oceanic Hg0 |
[kg] |
OCEAN-HG
|
30 |
(I,J,L) |
Oceanic Hg2 |
[kg] |
OCEAN-HG
|
31 |
(I,J,L) |
Oceanic HgP |
[kg] |
OCEAN-HG
|
32 |
(I,J,L) |
Total Hg in snowpack |
[kg] |
SNOW-HG
|
33 |
|
+ Tagged tracers |
|
|
ND04: CO2 sources
ND04
|
Dimension
|
CO2 SOURCES
|
Units
|
Category
|
1 |
(I,J) |
CO2 fossil fuel emiss |
[atoms C/cm2/s] |
CO2-SRCE
|
2 |
(I,J) |
CO2 ocean emissions |
[atoms C/cm2/s] |
CO2-SRCE
|
3 |
(I,J) |
CO2 balanced biosphere |
[atoms C/cm2/s] |
CO2-SRCE
|
4 |
(I,J) |
CO2 biomass burning emiss |
[atoms C/cm2/s] |
CO2-SRCE
|
5 |
(I,J) |
CO2 biofuel emission |
[atoms C/cm2/s] |
CO2-SRCE
|
6 |
(I,J) |
CO2 net terrestrial exchange |
[atoms C/cm2/s] |
CO2-SRCE
|
7 |
(I,J) |
CO2 ship emissions |
[atoms C/cm2/s] |
CO2-SRCE
|
8 |
(I,J,L) |
CO2 aircraft emissions |
[atoms C/cm2/s] |
CO2-SRCE
|
9 |
(I,J,L) |
CO2 chemical source |
[atoms C/cm2/s] |
CO2-SRCE
|
10 |
(I,J) |
CO2 chemical source surface correction |
[atoms C/cm2/s] |
CO2-SRCE
|
ND05: P/L for sulfate aerosols
ND05 #
|
Dims
|
Description
|
Units
|
Category
|
Simulations
|
netCDF equivalent
|
Notes
|
1 |
(I,J,L) |
P(SO2) from DMS + OH |
[kg S] |
PL-SUL=$ |
aerosol |
ProdSO2fromDMSandOH |
|
2 |
(I,J,L) |
P(SO2) from DMS + NO3 |
[kg S] |
PL-SUL=$ |
aerosol |
ProdSO2fromDMSandNO3 |
|
3 |
(I,J,L) |
Total P(SO2) from DMS |
[kg S] |
PL-SUL=$ |
aerosol |
ProdSO2fromDMS |
|
4 |
(I,J,L) |
P(MSA) from DMS |
[kg S] |
PL-SUL=$ |
aerosol |
ProdMSAfromDMS |
|
5 |
(I,J,L) |
P(SO4) from the gas phase |
[kg S] |
PL-SUL=$ |
aerosol |
ProdSO4fromGasPhase |
|
6 |
(I,J,L) |
P(SO4) from aqueous oxidation of H2O2 in clouds |
[kg S] |
PL-SUL=$ |
aerosol fullchem |
ProdSO4fromH2O2inCloud |
|
7 |
(I,J,L) |
P(SO4) from aqueous oxidation of O3 in clouds |
[kg S] |
PL-SUL=$ |
aerosol fullchem |
ProdSO4fromO3inCloud |
|
8 |
(I,J,L) |
P(SO4) from O3 on sea salt aerosols |
[kg S] |
PL-SUL=$ |
aerosol fullchem |
ProdSO4fromO3inSeaSAlt |
|
9 |
(I,J,L) |
L(OH) by DMS |
[kg OH] |
PL-SUL=$ |
aerosol |
Removed in v11-02 |
NOTE: This diagnostic is zero everywhere, because a fixed OH field is read from disk for aerosol-only simulations.
|
10 |
(I,J,L) |
L(NO3) by DMS |
[kg NO3] |
PL-SUL=$ |
aerosol |
Removed in v11-02 |
NOTE: This diagnostic is zero everywhere, because a fixed NO3 field is read from disk for aerosol-only simulations
|
11 |
(I,J,L) |
P(SO4) from oxidation on dust aerosols |
[kg S] |
PL-SUL=$ |
aciduptake |
ProdSO4fromOxidationOnDust |
|
12 |
(I,J,L) |
P(NIT) from HNO3 uptake on dust |
[kg N] |
PL-SUL=$ |
aciduptake |
ProdNITfromHNO3UptakeOnDust |
|
13 |
(I,J,L) |
P(SO4) from uptake of H2SO4(g) |
[kg N] |
PL-SUL=$ |
aciduptake |
ProdSO4fromUptakeOfH2SO4g |
|
14 |
(I,J,L) |
L(HNO3) on sea salt aerosols |
[kg N] |
PL-SUL=$ |
aerosol fullchem |
LossHNO3onSeaSalt |
|
15 |
(I,J,L) |
P(SO4) from aqueous oxidation with HOBr in clouds |
[kg S] |
PL-SUL=$ |
fullchem |
ProdSO4fromHOBrInCloud |
New in v11-02
|
16 |
(I,J,L) |
P(SO4) from by SRO3 |
[kg S] |
PL-SUL=$ |
aerosol fullchem |
ProdSO4fromSRO3 |
New in v11-02
|
17 |
(I,J,L) |
P(SO4) from SRHOBr |
[kg S] |
PL-SUL=$ |
fullchem |
ProdSO4fromSRHOBr |
New in v11-02
|
18 |
(I,J,L) |
P(SO4) by O3s |
[kg S] |
PL-SUL=$ |
aerosol fullchem |
ProdSO4fromO3s |
New in v11-02
|
19 |
(I,J,L) |
Cloud pH |
[kg S] |
PL-SUL=$ |
aerosol fullchem |
HPlus |
New in v11-02
|
ND06: Dust emissions
ND06
|
Dimension
|
DESERT DUST EMISSIONS
|
Units
|
Category
|
1 |
(I,J) |
DST1 (Dust aerosol, Reff = 0.7 microns) |
[kg] |
DUSTSRCE
|
2 |
(I,J) |
DST2 (Dust aerosol, Reff = 1.4 microns) |
[kg] |
DUSTSRCE
|
3 |
(I,J) |
DST3 (Dust aerosol, Reff = 2.4 microns) |
[kg] |
DUSTSRCE
|
4 |
(I,J) |
DST4 (Dust aerosol, Reff = 4.5 microns) |
[kg] |
DUSTSRCE
|
ND07: BC and OC sources
ND07
|
Dimension
|
SOURCES OF BLACK CARBON & ORGANIC CARBON
|
Units
|
Category
|
1 |
(I,J) |
BLACK CARBON from anthro sources |
[kg] |
BC-ANTH
|
2 |
(I,J) |
BLACK CARBON from biomass burning |
[kg] |
BC-BIOB
|
3 |
(I,J) |
BLACK CARBON from biofuels |
[kg] |
BC-BIOF
|
4 |
(I,J,L) |
Hydrophilic BC from Hydrophobic BC |
[kg] |
PL-BC=$
|
5 |
(I,J) |
ORGANIC CARBON from anthro sources |
[kg] |
OC-ANTH
|
6 |
(I,J) |
ORGANIC CARBON from biomass burning |
[kg] |
OC-BIOB
|
7 |
(I,J) |
ORGANIC CARBON from biofuels |
[kg] |
OC-BIOF
|
8 |
(I,J) |
ORGANIC CARBON from biogenic sources |
[kg] |
OC-BIOG
|
9 |
(I,J,L) |
Hydrophilic OC from Hydrophobic OC |
[kg] |
PL-OC=$
|
ND07 diagnostic quantities for SOA simulations
The ND07 diagnostic quantities below are only defined for mechanisms with secondary organic aerosols (Standard, SOA, SOA-SVPOA).
ND07
|
Dimension
|
SOURCES OF BLACK CARBON & ORGANIC CARBON
|
Units
|
Category
|
10 |
(I,J) |
ORGANIC CARBON : a-pinene, b-pinene, sabinene, carene source |
[kg] |
OC-MTPA
|
11 |
(I,J) |
ORGANIC CARBON : limonene source |
[kg] |
OC-LIMO
|
12 |
(I,J) |
ORGANIC CARBON : terpinene, terpinolene, myrcene, ocimene, other monoterpenes source |
[kg] |
OC-MTPO
|
13 |
(I,J) |
ORGANIC CARBON : sesquiterpene source |
[kg] |
OC-SESQ
|
15 |
(I,J,L) |
SOA produced from monoterpenes + sesquiterpenes |
[kg] |
PL-OC=$
|
16 |
(I,J,L) |
SOA produced from isoprene |
[kg] |
PL-OC=$
|
17 |
(I,J,L) |
SOA produced from light aromatics and IVOCs |
[kg] |
PL-OC=$
|
18 |
(I,J,L) |
SOA produced from primary SVOCs |
[kg] |
PL-OC=$
|
19 |
(I,J,L) |
SOA produced from POG + OH reaction |
[kg] |
PL-OC=$
|
20 |
(I,J,L) |
SOAG production from GLYX in aerosol |
[kg] |
SOAGM=$
|
21 |
(I,J,L) |
SOAM production from MGLY in aerosol |
[kg] |
SOAGM=$
|
22 |
(I,J,L) |
SOAG production from GLYX in cloud |
[kg] |
SOAGM=$
|
23 |
(I,J,L) |
SOAM production from MGLY in cloud |
[kg] |
SOAGM=$
|
ND08: Sea salt emissions
ND08
|
Dimension
|
SEA SALT EMISSIONS
|
Units
|
Category
|
1 |
(I,J) |
Accumulation mode seasalt |
[kg] |
SALTSRCE
|
2 |
(I,J) |
Coarse mode seasalt |
[kg] |
SALTSRCE
|
ND09: HCN and CH3CN sources and sinks
ND09
|
Dimension
|
HCN & CH3CN sources & sinks
|
Units
|
Category
|
1 |
(I,J,L,N) |
Loss of tagged tracer to OH |
[kg] |
HCN-PL-$
|
2 |
(I,J) |
HCN from biomass burning |
[molec/cm2/s] |
HCN-SRCE
|
3 |
(I,J) |
CH3CN from biomass burning |
[molec/cm2/s] |
HCN-SRCE
|
4 |
(I,J) |
HCN from domestic fossil fuel |
[molec/cm2/s] |
HCN-SRCE
|
5 |
(I,J) |
CH3CN from domestic fossil fuel |
[molec/cm2/s] |
HCN-SRCE
|
6 |
(I,J) |
HCN loss to ocean uptake |
[molec/cm2/s] |
HCN-SRCE
|
7 |
(I,J) |
CH3CN loss to ocean uptake |
[molec/cm2/s] |
HCN-SRCE
|
ND11: Acetone sources and sinks
ND11
|
Dimension
|
ACETONE SOURCES & SINKS
|
Units
|
Category
|
1 |
(I,J) |
Acetone source from MONOTERPENES |
[at C/cm2/s] |
ACETSRCE
|
2 |
(I,J) |
Acetone source from METHYL BUTENOL |
[at C/cm2/s] |
ACETSRCE
|
3 |
(I,J) |
Acetone source from DIRECT BIOGENIC EMISSION |
[at C/cm2/s] |
ACETSRCE
|
4 |
(I,J) |
Acetone source from OCEANS |
[at C/cm2/s] |
ACETSRCE
|
5 |
(I,J) |
Acetone sink from OCEANS |
[at C/cm2/s] |
ACETSRCE
|
ND12: PBL diagnostics
NOTE: It appears that the implementation of HEMCO has disabled this diagnostic.
ND12
|
Dimension
|
Distribution of emissions in the PBL
|
Units
|
Category
|
1 |
(I,J,L) |
Fraction of boundary layer occupied by level L |
[unitless] |
EMDIS-BL
|
ND13: Sulfur emissions
ND13
|
Dimension
|
TROPOSPHERIC SULFUR EMISSIONS
|
Units
|
Category
|
1 |
(I,J) |
Biogenic DMS |
[kg S] |
DMS-BIOG
|
2 |
(I,J,L) |
Aircraft SO2 (1 <= L <= ND13) |
[kg S] |
SO2-AC-$
|
3 |
(I,J,L) |
Anthropognic SO2 (1 <= L <= 2 ) |
[kg S] |
SO2-AN-$
|
4 |
(I,J) |
Biomass SO2 |
[kg S] |
SO2-BIOB
|
5 |
(I,J) |
Biofuel SO2 |
[kg S] |
SO2-BIOF
|
6 |
(I,J,L) |
Non-eruptive volcano SO2 (1 <= L <= ND13) |
[kg S] |
SO2-NV-$
|
7 |
(I,J,L) |
Eruptive volcano SO2 (1 <= L <= ND13) |
[kg S] |
SO2-EV-$
|
8 |
(I,J) |
Ship SO2 |
[kg S] |
SO2-SHIP
|
9 |
(I,J,L) |
Anthropogenic SO4 (1 <= L <= 2 ) |
[kg S] |
SO4-AN-$
|
10 |
(I,J) |
Biofuel SO4 |
[kg S] |
SO4-BIOF
|
11 |
(I,J) |
Natural NH3 |
[kg S] |
NH3-NATU
|
12 |
(I,J) |
Anthropogenic NH3 |
[kg] |
NH3-AN-$
|
13 |
(I,J) |
Biomass NH3 |
[kg] |
NH3-BIOB
|
14 |
(I,J) |
Biofuel NH3 |
[kg] |
NH3-BIOF
|
ND14: Convective mass flux
ND14
|
Dimension
|
UPWARD MASS FLUX DUE TO WET CONVECTION
|
Units
|
Category
|
1 |
(I,J,L,N) |
Mass change due to cloud convection |
[kg/s] |
CV-FLX-$
|
ND15: Boundary layer mixing mass flux
ND15
|
Dimension
|
UPWARD MASS FLUX FROM BOUNDARY-LAYER MIXING
|
Units
|
Category
|
1 |
(I,J,L,N) |
Mass change due to boundary-layer mixing |
[kg/s] |
TURBMC-$
|
ND16: Precipitation fractions
ND16
|
Dimension
|
AREAL FRACTION OF PRECIP
|
Units
|
Category
|
1 |
(I,J,L) |
Fraction of grid box having rainout + washout (large-scale precip) |
[unitless] |
WD-FRC-$
|
2 |
(I,J,L) |
Fraction of grid box having rainout + washout (convectvive precip) |
[unitless] |
WD-FRC-$
|
ND17: Rainout fraction
ND17
|
Dimension
|
RAINOUT FRACTION IN PRECIP
|
Units
|
Category
|
1 |
(I,J,L,N) |
Fraction of soluble tracer lost to rainout (large-scale precip) |
[unitless] |
WD-LSR-$
|
2 |
(I,J,L,N) |
Fraction of soluble tracer lost to rainout (convective precip) |
[unitless] |
WD-CVR-$
|
ND18: Washout fraction
ND18
|
Dimension
|
WASHOUT FRACTION IN PRECIP
|
Units
|
Category
|
1 |
(I,J,L,N) |
Fraction of soluble tracer lost to washout (large-scale precip) |
[unitless] |
WD-LSW-$
|
2 |
(I,J,L,N) |
Fraction of soluble tracer lost to washout (convective precip) |
[unitless] |
WD-CVW-$
|
ND19: CH4 loss
ND18
|
Dimension
|
CH4 LOSS
|
Units
|
Category
|
1 |
(I,J,L) |
CH4 removal by OH |
[kg CH4] |
CH4-LOSS
|
ND20: Save O3 P/L rates
ND20
|
Dimension
|
O3 PROD/LOSS
|
Units
|
Category
|
1 |
(I,J,L,1) |
O3 production rates |
[kg/m3/s] |
POR-L=$
|
2 |
(I,J,L,2) |
O3 loss rates |
[1/m3/s] |
POR-L=$
|
ND21: Cloud diagnostics
NOTE: Some of the netcdf diagnostic names include an asterisk. Also asterisked diagnostics contain WL1, WL2, or WL3 which are replaced with the 1st, 2nd, or 3rd AOD wavelengths respectively in the input.geos Radiation menu at run-time.
ND21
|
Dimension
|
CLOUD OPTICAL DEPTHS AND CLOUD FRACTIONS
|
Units
|
Category
|
netCDF equivalent
|
Notes
|
1 |
(I,J,L) |
OPTD: Cloud optical depth |
[unitless] |
OD-MAP-$ |
Met_OptD |
Stored in State_Met%OPTD
|
2 |
(I,J,L) |
CLDTOT: 3-D total cloud fraction (GEOS-4) |
unitless] |
OD-MAP-$ |
Met_CldF |
Stored in State_Met%CLDF
|
4 |
(I,J,L) |
OPD: Mineral dust optical depth for 1st wavelength specified in Radiation Menu |
[unitless] |
OD-MAP-$ |
AODDust |
|
5 |
(I,J,L) |
SD: Mineral dust surface area |
[cm2/cm3] |
OD-MAP-$ |
AerSurfAreaDust |
|
6 |
(I,J,L) |
OPSO4: Sulfate optical depth for 1st wavelength specified in Radiation Menu |
[unitless] |
OD-MAP-$ |
AODHygWL1nm_SO4* |
?HYG? wildcard
|
7 |
(I,J,L) |
HGSO4: Hygroscopic growth of SO4 |
[unitless] |
OD-MAP-$ |
AerHygroscopicGrowth_SO4 |
?HYG? wildcard
|
8 |
(I,J,L) |
SSO4: Sulfate surface area |
[cm2/cm3] |
OD-MAP-$ |
AerSurfArea_SO4 |
May use the ?HYG? wildcard
|
9 |
(I,J,L) |
OPBC: Black carbon optical depth for 1st wavelength specified in Radiation Menu |
[unitless] |
OD-MAP-$ |
AODHygWL1nm_BCPI* |
?HYG? wildcard
|
10 |
(I,J,L) |
HGBC: Hygroscopic growth of BC |
[unitless] |
OD-MAP-$ |
AerHygroscopicGrowth_BCPI |
?HYG? wildcard
|
11 |
(I,J,L) |
SBC: Black carbon surface area |
[cm2/cm3] |
OD-MAP-$ |
AerSurfArea_BCPI |
May use the ?HYG? wildcard
|
12 |
(I,J,L) |
OPOC: Organic carbon optical depth for 1st wavelength specified in Radiation Menu |
[unitless] |
OD-MAP-$ |
AODHygWL1nm_OCPI* |
?HYG? wildcard
|
13 |
(I,J,L) |
HGOC: Hygroscopic growth of OC |
[unitless] |
OD-MAP-$ |
AerHygroscopicGrowth_OCPI |
?HYG? wildcard
|
14 |
(I,J,L) |
SOC: Organic carbon surface area |
[cm2/cm3] |
OD-MAP-$ |
AerSurfArea_OCPI |
May use the ?HYG? wildcard
|
15 |
(I,J,L) |
OPSSa: Sea salt (accumulation mode) optical depth for 1st wavelength specified in Radiation Menu |
[unitless] |
OD-MAP-$ |
AODHygWL1nm_SALA* |
?HYG? wildcard
|
16 |
(I,J,L) |
HGSSa: Hygroscopic growth of SSa |
[unitless] |
OD-MAP-$ |
AerHygroscopicGrowth_SALA |
?HYG? wildcard
|
17 |
(I,J,L) |
SSSa: Sea salt (accumulation mode) surface area |
[cm2/cm3] |
OD-MAP-$ |
AerSurfArea_SALA |
?HYG? wildcard
|
18 |
(I,J,L) |
OPSSc: Sea salt (coarse mode) optical depth for 1st wavelength specified in Radiation Menu |
[unitless] |
OD-MAP-$ |
AODHygWL1nm_SALC* |
?HYG? wildcard
|
19 |
(I,J,L) |
HGSSc: Hygroscopic growth of SSc |
[unitless] |
OD-MAP-$ |
AerHygroscopicGrowth_SALC |
?HYG? wildcard
|
20 |
(I,J,L) |
SSSc: Sea salt (coarse mode) surface area |
[cm2/cm3] |
OD-MAP-$ |
AerSurfArea_SALC |
?HYG? wildcard
|
21 |
(I,J,L) |
OPD1: Dust bin 1 AOD for 1st wavelength specified in Radiation Menu |
[unitless] |
OD-MAP-$ |
AODDustWL1nm_bin1* |
?DUSTBIN? wildcard
|
22 |
(I,J,L) |
OPD2: Dust bin 2 AOD for 1st wavelength specified in Radiation Menu |
[unitless] |
OD-MAP-$ |
AODDustWL1nm_bin2* |
?DUSTBIN? wildcard
|
23 |
(I,J,L) |
OPD3: Dust bin 3 AOD for 1st wavelength specified in Radiation Menu |
[unitless] |
OD-MAP-$ |
AODDustWL1nm_bin3* |
?DUSTBIN? wildcard
|
24 |
(I,J,L) |
OPD4: Dust bin 4 AOD for 1st wavelength specified in Radiation Menu |
[unitless] |
OD-MAP-$ |
AODDustWL1nm_bin4* |
?DUSTBIN? wildcard
|
25 |
(I,J,L) |
OPD5: Dust bin 5 AOD for 1st wavelength specified in Radiation Menu |
[unitless] |
OD-MAP-$ |
AODDustWL1nm_bin5* |
?DUSTBIN? wildcard
|
26 |
(I,J,L) |
OPD6: Dust bin 6 AOD for 1st wavelength specified in Radiation Menu |
[unitless] |
OD-MAP-$ |
AODDustWL1nm_bin6* |
?DUSTBIN? wildcard
|
27 |
(I,J,L) |
OPD7: Dust bin 7 AOD for 1st wavelength specified in Radiation Menu |
[unitless] |
OD-MAP-$ |
AODDustWL1nm_bin7* |
?DUSTBIN? wildcard
|
28 |
(I,J,L) |
OPSO4: Sulfate optical depth for 2nd wavelength specified in Radiation Menu (optional) |
[unitless] |
OD-MAP-$ |
AODHygWL2nm_SO4* |
?HYG? wildcard
|
29 |
(I,J,L) |
OPBC: Black carbon optical depth for 2nd wavelength specified in Radiation Menu (optional) |
[unitless] |
OD-MAP-$ |
AODHygWL2nm_BCPI* |
?HYG? wildcard
|
30 |
(I,J,L) |
OPOC: Organic carbon optical depth for 2nd wavelength specified in Radiation Menu (optional) |
[unitless] |
OD-MAP-$ |
AODHygWL2nm_OCPI* |
?HYG? wildcard
|
31 |
(I,J,L) |
OPSSa: Accum. sea salt optical depth for 2nd wavelength specified in Radiation Menu (optional) |
[unitless] |
OD-MAP-$ |
AODHygWL2nm_SALA* |
?HYG? wildcard
|
32 |
(I,J,L) |
OPSSc: Coarse sea salt optical depth for 2nd wavelength specified in Radiation Menu (optional) |
[unitless] |
OD-MAP-$ |
AODHygWL2nm_SALC* |
?HYG? wildcard
|
33 |
(I,J,L) |
OPD1:Dust bin 1 AOD for 2nd wavelength specified in Radiation Menu (optional) |
[unitless] |
OD-MAP-$ |
AODDustWL2nm_bin1* |
?DUSTBIN? wildcard
|
34 |
(I,J,L) |
OPD2: Dust bin 2 AOD for 2nd wavelength specified in Radiation Menu (optional) |
[unitless] |
OD-MAP-$ |
AODDustWL2nm_bin2* |
?DUSTBIN? wildcard
|
35 |
(I,J,L) |
OPD3: Dust bin 3 AOD for 2nd wavelength specified in Radiation Menu (optional) |
[unitless] |
OD-MAP-$ |
AODDustWL2nm_bin3* |
?DUSTBIN? wildcard
|
36 |
(I,J,L) |
OPD4: Dust bin 4 AOD for 2nd wavelength specified in Radiation Menu (optional) |
[unitless] |
OD-MAP-$ |
AODDustWL2nm_bin4* |
?DUSTBIN? wildcard
|
37 |
(I,J,L) |
OPD5: Dust bin 5 AOD for 2nd wavelength specified in Radiation Menu (optional) |
[unitless] |
OD-MAP-$ |
AODDustWL2nm_bin5* |
?DUSTBIN? wildcard
|
38 |
(I,J,L) |
OPD6: Dust bin 6 AOD for 2nd wavelength specified in Radiation Menu (optional) |
[unitless] |
OD-MAP-$ |
AODDustWL2nm_bin6* |
?DUSTBIN? wildcard
|
39 |
(I,J,L) |
OPD7: Dust bin 7 AOD for 2nd wavelength specified in Radiation Menu (optional) |
[unitless] |
OD-MAP-$ |
AODDustWL2nm_bin7* |
?DUSTBIN? wildcard
|
40 |
(I,J,L) |
OPSO4: Sulfate optical depth for 3rd wavelength specified in Radiation Menu (optional) |
[unitless] |
OD-MAP-$ |
AODHygWL3nm_SO4* |
?HYG? wildcard
|
41 |
(I,J,L) |
OPBC: Black carbon optical depth for 3rd wavelength specified in Radiation Menu (optional) |
[unitless] |
OD-MAP-$ |
AODHygWL3nm_BCPI* |
?HYG? wildcard
|
42 |
(I,J,L) |
OPOC: Organic carbon optical depth for 3rd wavelength specified in Radiation Menu (optional) |
[unitless] |
OD-MAP-$ |
AODHygWL3nm_OCPI* |
?HYG? wildcard
|
43 |
(I,J,L) |
OPSSa: Accum. sea salt optical depth for 3rd wavelength specified in Radiation Menu (optional) |
[unitless] |
OD-MAP-$ |
AODHygWL3nm_SALA* |
?HYG? wildcard
|
44 |
(I,J,L) |
OPSSc: Coarse sea salt optical depth for 3rd wavelength specified in Radiation Menu (optional) |
[unitless] |
OD-MAP-$ |
AODHygWL3nm_SALC* |
?HYG? wildcard
|
45 |
(I,J,L) |
OPD1:Dust bin 1 AOD for 3rd wavelength specified in Radiation Menu (optional) |
[unitless] |
OD-MAP-$ |
AODDustWL3nm_bin1* |
?DUSTBIN? wildcard
|
46 |
(I,J,L) |
OPD2:Dust bin 2 AOD for 3rd wavelength specified in Radiation Menu (optional) |
[unitless] |
OD-MAP-$ |
AODDustWL3nm_bin2* |
?DUSTBIN? wildcard
|
47 |
(I,J,L) |
OPD3: Dust bin 3 AOD for 3rd wavelength specified in Radiation Menu (optional) |
[unitless] |
OD-MAP-$ |
AODDustWL3nm_bin3* |
?DUSTBIN? wildcard
|
48 |
(I,J,L) |
OPD4: Dust bin 4 AOD for 3rd wavelength specified in Radiation Menu (optional) |
[unitless] |
OD-MAP-$ |
AODDustWL3nm_bin4* |
?DUSTBIN? wildcard
|
49 |
(I,J,L) |
OPD5: Dust bin 5 AOD for 3rd wavelength specified in Radiation Menu (optional) |
[unitless] |
OD-MAP-$ |
AODDustWL3nm_bin5* |
?DUSTBIN? wildcard
|
50 |
(I,J,L) |
OPD6: Dust bin 6 AOD for 3rd wavelength specified in Radiation Menu (optional) |
[unitless] |
OD-MAP-$ |
AODDustWL3nm_bin6* |
?DUSTBIN? wildcard
|
51 |
(I,J,L) |
OPD7: Dust bin 7 AOD for 3rd wavelength specified in Radiation Menu (optional) |
[unitless] |
OD-MAP-$ |
AODDustWL3nm_bin7* |
?DUSTBIN? wildcard
|
52 |
(I,J,L) |
ODSLA: Stratospheric liquid aerosol optical depth (600 nm) (UCX simulation only) |
[unitless] |
OD-MAP-$ |
AODStratLiquidAerWL1nm* |
|
not in v11-01/02 bpch |
(I,J,L) |
Stratospheric liquid aerosol optical depth (UCX simulation only) |
[unitless] |
OD-MAP-$ |
AODStratLiquidAerWL2nm* |
|
not in v11-01/02 bpch |
(I,J,L) |
Stratospheric liquid aerosol optical depth (UCX simulation only) |
[unitless] |
OD-MAP-$ |
AODStratLiquidAerWL3nm* |
|
53 |
(I,J,L) |
SASLA: Stratospheric liquid aerosol surface area (UCX simulation only) |
[cm2/cm3] |
OD-MAP-$ |
AerSurfAreaStratLiquid |
|
54 |
(I,J,L) |
NDSLA: Stratospheric liquid aerosol number density (UCX simulation only) |
[num/cm3] |
OD-MAP-$ |
AerNumDensitryStratLiquid |
|
55 |
(I,J,L) |
ODSPA: Polar stratospheric cloud type 1a/2 optical depth (600 nm) (UCX simulation only) |
[unitless] |
OD-MAP-$ |
AODPolarStratCloudWL1nm* |
|
not in v11-01/02 bpch |
(I,J,L) |
Polar stratospheric cloud type 1a/2 optical depth (UCX simulation only) |
[unitless] |
OD-MAP-$ |
AODPolarStratCloudWL2nm* |
|
not in v11-01/02 bph |
(I,J,L) |
Polar stratospheric cloud type 1a/2 optical depth (UCX simulation only) |
[unitless] |
OD-MAP-$ |
AODPolarStratCloudWL3nm* |
|
56 |
(I,J,L) |
SASPA: Polar stratospheric cloud type 1a/2 surface area (UCX simulation only) |
[cm2/cm3] |
OD-MAP-$ |
AerSurfAreaPolarStratCloud |
|
57 |
(I,J,L) |
NDSPA: Stratospheric particulate aerosol number density (UCX simulation only) |
[num/cm3] |
OD-MAP-$ |
AerNumDensitryStratParticulate |
|
58 (new in v11-02) |
(I,J,L) |
ISOPAOD: SOA from aqueous isoprene optical depth |
[unitless] |
OD-MAP-$ |
AODSOAfromAqIsopreneWL1* |
|
not in v11-01/02 bpch |
(I,J,L) |
SOA from aqueous isoprene optical depth |
[unitless] |
OD-MAP-$ |
AODSOAfromAqIsopreneWL2* |
|
not in v11-01/02 bpch |
(I,J,L) |
SOA from aqueous isoprene optical depth |
[unitless] |
OD-MAP-$ |
AODSOAfromAqIsopreneWL3* |
|
59 (new in v11-02) |
(I,J,L) |
AQAVOL: Aqueous aerosol volume |
[cm3/cm3] |
OD-MAP-$ |
AerAqueousVolume |
|
ND22: Photolysis diagnostics
NOTE: Users must specify the GEOS-Chem index, not the ND22 index, for ND22 in the Diagnostic Menu of input.geos.
ND22
|
GC index
|
Dimension
|
PHOTOLYSIS RATES (aka J-Values)
|
Units
|
Category
|
1 |
66 |
(I,J,L) |
J(NO2) |
[1/s] |
JV-MAP-$
|
2 |
7 |
(I,J,L) |
J(HNO3) |
[1/s] |
JV-MAP-$
|
3 |
8 |
(I,J,L) |
J(H2O2) |
[1/s] |
JV-MAP-$
|
4 |
20 |
(I,J,L) |
J(CH2O) |
[1/s] |
JV-MAP-$
|
5 |
2 |
(I,J,L) |
J(O3) |
[1/s] |
JV-MAP-$
|
6 |
2 |
(I,J,L) |
J(O3P) (standard and UCX simulations) OR OH source from O3 photolysis (tropchem and SOA simulations) |
[1/s] |
JV-MAP-$
|
7 |
- |
(I,J,L) |
J(GLYX) (dicarbonyl simulation, in need of updating) |
[1/s] |
JV-MAP-$
|
8 |
- |
(I,J,L) |
J(MGLY) (dicarbonyl simulation, in need of updating) |
[1/s] |
JV-MAP-$
|
9 |
46 |
(I,J,L) |
J(BrO) |
[1/s] |
JV-MAP-$
|
10 |
47 |
(I,J,L) |
J(HOBr) |
[1/s] |
JV-MAP-$
|
11 |
49 |
(I,J,L) |
J(BrNO2) |
[1/s] |
JV-MAP-$
|
12 |
50 |
(I,J,L) |
J(BrNO3) |
[1/s] |
JV-MAP-$
|
13 |
51 |
(I,J,L) |
J(CHBr3) |
[1/s] |
JV-MAP-$
|
14 |
44 |
(I,J,L) |
J(Br2) |
[1/s] |
JV-MAP-$
|
15 |
-1 |
(I,J,L) |
J(O2) |
[1/s] |
JV-MAP-$
|
16 |
69 |
(I,J,L) |
J(N2O) |
[1/s] |
JV-MAP-$
|
17 |
1 |
(I,J,L) |
J(NO) |
[1/s] |
JV-MAP-$
|
18 |
67 |
(I,J,L) |
J(NO3) |
[1/s] |
JV-MAP-$
|
19 |
83 |
(I,J,L) |
J(CFC11) |
[1/s] |
JV-MAP-$
|
20 |
84 |
(I,J,L) |
J(CFC12) |
[1/s] |
JV-MAP-$
|
21 |
74 |
(I,J,L) |
J(CCl4) |
[1/s] |
JV-MAP-$
|
22 |
76 |
(I,J,L) |
J(CH3Cl) |
[1/s] |
JV-MAP-$
|
23 |
9 |
(I,J,L) |
J(ACET) |
[1/s] |
JV-MAP-$
|
24 |
11 |
(I,J,L) |
J(ALD2) |
[1/s] |
JV-MAP-$
|
25 |
13 |
(I,J,L) |
J(MVK) |
[1/s] |
JV-MAP-$
|
26 |
14 |
(I,J,L) |
J(MACR) |
[1/s] |
JV-MAP-$
|
27 |
59 |
(I,J,L) |
J(HAC) |
[1/s] |
JV-MAP-$
|
28 |
60 |
(I,J,L) |
J(GLYC) |
[1/s] |
JV-MAP-$
|
ND23: Mean OH
ND22
|
Dimension
|
MASS-WEIGHTED OH CONCENTRATION
|
Units
|
Category
|
|
|
Mean OH concentration diagnostic (printed to log file) |
[105 molec/cm3] |
|
ND24 - ND26: Mass transport flux
For more information about how these diagnostics are defined, please see our Mass Flux (ND24/25/26) wiki page.
ND24
|
Dimension
|
EASTWARD MASS TRANSPORT FLUX
|
Units
|
Category
|
ND24 |
(I,J,L,N) |
East/west mass flux by transport |
[kg/s] |
EW-FLX-$
|
ND25 |
(I,J,L,N) |
North/south mass flux by transport |
[kg/s] |
NS-FLX-$
|
ND26 |
(I,J,L,N) |
Up/down mass flux by transport |
[kg/s] |
UP-FLX-$
|
ND28: Biomass burning emissions
ND28 #
|
Dims
|
Description
|
Units
|
Category
|
Simulations
|
netCDF equivalent
|
Notes
|
1 |
(I,J) |
NO biomass emissions |
[molec/cm2/s] |
BIOBSRCE |
|
|
|
4 |
(I,J) |
CO biomass emissions |
[molec/cm2/s] |
BIOBSRCE |
|
|
|
5 |
(I,J) |
ALK4 biomass emissions |
[atoms C/cm2/s] |
BIOBSRCE |
|
|
|
9 |
(I,J) |
ACET biomass emissions |
[atoms C/cm2/s] |
BIOBSRCE |
|
|
|
10 |
(I,J) |
MEK biomass emissions |
[atoms C/cm2/s] |
BIOBSRCE |
|
|
|
11 |
(I,J) |
ALD2 biomass emissions |
[atoms C/cm2/s] |
BIOBSRCE |
|
|
|
18 |
(I,J) |
PRPE (lumped >=C3 alkenes) biomass emissions |
[atoms C/cm2/s] |
BIOBSRCE |
|
|
|
19 |
(I,J) |
C3H8 biomass emissions |
[atoms C/cm2/s] |
BIOBSRCE |
|
|
|
20 |
(I,J) |
CH2O biomass emissions |
[molec/cm2/s] |
BIOBSRCE |
|
|
|
21 |
(I,J) |
C2H6 biomass emissions |
[atoms C/cm2/s] |
BIOBSRCE |
|
|
|
26 |
(I,J) |
SO2 biomass emissions |
[molec/cm2/s] |
BIOBSRCE |
|
|
|
30 |
(I,J) |
NH3 biomass emissions |
[molec/cm2/s] |
BIOBSRCE |
|
|
|
34 |
(I,J) |
BC (black carbon) biomass emissions |
[molec/cm2/s] |
BIOBSRCE |
|
|
|
35 |
(I,J) |
OC (organic carbon) biomass emissions |
[molec/cm2/s] |
BIOBSRCE |
|
|
|
69 |
(I,J) |
CH4 biomass emissions |
[molec/cm2/s] |
BIOBSRCE |
|
|
|
ND29: CO sources
ND29
|
Dimension
|
CO EMISSIONS
|
Units
|
Category
|
1 |
(I,J) |
CO from anthropogenic emissions |
[molec/cm2/s] |
CO--SRCE
|
2 |
(I,J) |
CO from biomass burning emissions |
[molec/cm2/s] |
CO--SRCE
|
3 |
(I,J) |
CO from biofuel burning emissions |
[molec/cm2/s] |
CO--SRCE
|
4 |
(I,J) |
CO produced from methanol (currently not defined) |
[molec/cm2/s] |
CO--SRCE
|
5 |
(I,J) |
CO produced from monoterpenes |
[molec/cm2/s] |
CO--SRCE
|
6 |
(I,J) |
CO from ship emissions |
[molec/cm2/s] |
CO--SRCE
|
For tagged CO simulations only:
|
7 |
(I,J) |
CO from anthropogenic + biofuel emissions over the US |
[molec/cm2/s] |
CO--SRCE
|
8 |
(I,J) |
CO from aircraft emissions over the US |
[molec/cm2/s] |
CO--SRCE
|
9 |
(I,J) |
CO from ship emissions over the US |
[molec/cm2/s] |
CO--SRCE
|
10 |
(I,J) |
CO from anthropogenic + biofuel emissions over Europe |
[molec/cm2/s] |
CO--SRCE
|
11 |
(I,J) |
CO from aircraft emissions over Europe |
[molec/cm2/s] |
CO--SRCE
|
12 |
(I,J) |
CO from ship emissions over Europe |
[molec/cm2/s] |
CO--SRCE
|
13 |
(I,J) |
CO from anthropogenic + biofuel emissions over SE Asia |
[molec/cm2/s] |
CO--SRCE
|
14 |
(I,J) |
CO from aircraft emissions over SE Asia |
[molec/cm2/s] |
CO--SRCE
|
15 |
(I,J) |
CO from ship emissions over SE Asia |
[molec/cm2/s] |
CO--SRCE
|
16 |
(I,J) |
CO from anthropogenic + biofuel emissions elsewhere |
[molec/cm2/s] |
CO--SRCE
|
17 |
(I,J) |
CO from aircraft emissions elsewhere |
[molec/cm2/s] |
CO--SRCE
|
18 |
(I,J) |
CO from ship emissions elsewhere |
[molec/cm2/s] |
CO--SRCE
|
19 |
(I,J) |
CO from biomass burning emissions over South America |
[molec/cm2/s] |
CO--SRCE
|
20 |
(I,J) |
CO from biomass burning emissions over Africa |
[molec/cm2/s] |
CO--SRCE
|
21 |
(I,J) |
CO from biomass burning emissions over SE Asia |
[molec/cm2/s] |
CO--SRCE
|
22 |
(I,J) |
CO from biomass burning emissions over Oceania |
[molec/cm2/s] |
CO--SRCE
|
23 |
(I,J) |
CO from biomass burning emissions over Europe |
[molec/cm2/s] |
CO--SRCE
|
24 |
(I,J) |
CO from biomass burning emissions elsewhere |
[molec/cm2/s] |
CO--SRCE
|
ND30: Land map
ND30
|
Dimension
|
LAND MAP
|
Units
|
Category
|
1 |
(I,J) |
GMAO land-water indices |
[unitless] |
LANDMAP
|
ND31: Pressure at model edges
ND31 #
|
Dims
|
Description
|
Units
|
Category
|
Simulations
|
netCDF equivalent
|
Notes
|
1 |
(I,J,L) |
Pressure at the bottom of level L (1 <= L <= ND31 ) |
[hPa] |
PEDGE-$ |
all |
Met_PEDGE |
|
ND32: NO emissions
ND32
|
Dimension
|
NO EMISSIONS
|
Units
|
Category
|
1 |
(I,J,L) |
NO aircraft emissions |
[molec/cm2/s] |
NO-AC-$
|
2 |
(I,J) |
NO anthropogenic emissions (includes ship) |
[molec/cm2/s] |
NO-AN-$
|
3 |
(I,J) |
NO biomass burning emissions |
[molec/cm2/s] |
NO-BIOB
|
4 |
(I,J) |
NO biofuel burning emissions |
[molec/cm2/s] |
NO-BIOF
|
5 |
(I,J) |
NO fertilizer emissions |
[molec/cm2/s] |
NO-FERT
|
6 |
(I,J,L) |
NO lightning emissions |
[molec/cm2/s] |
NO-LI-$
|
7 |
(I,J) |
NO soil emissions |
[molec/cm2/s] |
NO-SOIL
|
ND34: Biofuel emissions
NOTE: Many of the emissions inventories read into GEOS-Chem by the HEMCO emissions component lump biofuel emissions together with anthropogenic emissions. For such inventories, the contributions from biofuels will be included in the ND36 anthropogenic emissions diagnostic.
ND32
|
Dimension
|
BIOFUEL EMISSIONS
|
Units
|
Category
|
1 |
(I,J) |
NO biofuel emissions |
[molec/cm2/s] |
BIOFSRCE
|
4 |
(I,J) |
CO biofuel emissions |
[molec/cm2/s] |
BIOFSRCE
|
5 |
(I,J) |
ALK4 biofuel emissions |
[atoms C/cm2/s] |
BIOFSRCE
|
9 |
(I,J) |
ACET biofuel emissions |
[atoms C/cm2/s] |
BIOFSRCE
|
10 |
(I,J) |
MEK biofuel emissions |
[atoms C/cm2/s] |
BIOFSRCE
|
11 |
(I,J) |
ALD2 biofuel emissions |
[atoms C/cm2/s] |
BIOFSRCE
|
18 |
(I,J) |
PRPE (lumped >=C3 alkenes) biofuel emissions |
[atoms C/cm2/s] |
BIOFSRCE
|
19 |
(I,J) |
C3H8 biofuel emissions |
[atoms C/cm2/s] |
BIOFSRCE
|
20 |
(I,J) |
CH2O biofuel emissions |
[molec/cm2/s] |
BIOFSRCE
|
21 |
(I,J) |
C2H6 biofuel emissions |
[atoms C/cm2/s] |
BIOFSRCE
|
26 |
(I,J) |
SO2 biofuel emissions |
[molec/cm2/s] |
BIOFSRCE
|
30 |
(I,J) |
NH3 biofuel emissions |
[molec/cm2/s] |
BIOFSRCE
|
ND36: Anthropogenic emissions
ND36
|
Dimension
|
ANTHROPOGENIC EMISSIONS
|
Units
|
Category
|
1 |
(I,J) |
NO anthropogenic emissions |
[molec/cm2/s] |
ANTHSRCE
|
4 |
(I,J) |
CO anthropogenic emissions |
[molec/cm2/s] |
ANTHSRCE
|
5 |
(I,J) |
ALK4 anthropogenic emissions |
[atoms C/cm2/s] |
ANTHSRCE
|
9 |
(I,J) |
ACET anthropogenic emissions |
[atoms C/cm2/s] |
ANTHSRCE
|
10 |
(I,J) |
MEK anthropogenic emissions |
[atoms C/cm2/s] |
ANTHSRCE
|
11 |
(I,J) |
ALD2 anthropogenic emissions |
[atoms C/cm2/s] |
ANTHSRCE
|
18 |
(I,J) |
PRPE (lumped >=C3 alkenes) anthropogenic emissions |
[atoms C/cm2/s] |
ANTHSRCE
|
19 |
(I,J) |
C3H8 anthropogenic emissions |
[atoms C/cm2/s] |
ANTHSRCE
|
20 |
(I,J) |
CH2O anthropogenic emissions |
[molec/cm2/s] |
ANTHSRCE
|
21 |
(I,J) |
C2H6 anthropogenic emissions |
[atoms C/cm2/s] |
ANTHSRCE
|
69 |
(I,J) |
CH4 anthropogenic emissions |
[atoms C/cm2/s] |
ANTHSRCE
|
ND37: Fraction of species scavenged in updrafts
ND37
|
Dimension
|
UPDRAFT SCAVENGING FRACTION
|
Units
|
Category
|
1 |
(I,J,L,N) |
Fraction of tracer scavenged by in cloud updrafts in moist convection |
[unitless] |
MC-FRC-$
|
ND38: Loss of species by convection
ND38
|
Dims
|
Description
|
Units
|
Category
|
Simulations
|
netCDF equivalent
|
Notes
|
1 |
(I,J,L,N) |
Rainout loss of tracer in convective updrafts |
[kg/s] |
WETDCV-$ |
all |
WetLossConv_?WET? |
|
ND39: Loss of species by rainout and washout
ND39 #
|
Dims
|
Description
|
Units
|
Category
|
Simulations
|
netCDF equivalent
|
Notes
|
1 |
(I,J,L,N) |
Loss of species in large-scale precip |
[kg/s] |
WETDLS-$ |
all |
WetLossLS_?WET? |
|
ND40: Plane flight diagnostic
ND40
|
Dimension
|
PLANE FLIGHT DIAGNOSTIC
|
Units
|
Category
|
|
|
This diagnostic does not save to the bpch file, but rather is output to the specified plane.log file. See the Planeflight menu for more information. |
|
|
ND41: Afternoon PBL height
ND41
|
Dimension
|
AFTERNOON PBL HEIGHT
|
Units
|
Category
|
1 |
(I,J) |
Afternoon boundary layer heights (1200-1600 local time) |
[m] |
PBLDEPTH
|
ND42: SOA diagnostics
These output are only available for simulations using secondary organic aerosols (Standard, SOA, SOA-SVPOA).
ND42
|
Dimension
|
SOA CONCENTRATIONS
|
Units
|
Category
|
1 |
(I,J,L) |
TSOA: Aerosol products of terpene oxidation |
[ug/m3] |
IJ-SOA-$
|
2 |
(I,J,L) |
ISOA: Aerosol products of isoprene oxidation |
[ug/m3] |
IJ-SOA-$
|
3 |
(I,J,L) |
ASOA: Aerosol products of light aromatics + IVOC oxidation |
[ug/m3] |
IJ-SOA-$
|
4 |
(I,J,L) |
POA: Aerosols from SVOCs |
[ug/m3] |
IJ-SOA-$
|
5 |
(I,J,L |
OPOA: Aerosol products of POG oxidation |
[ug/m3] |
IJ-SOA-$
|
6 |
(I,J,L) |
Sum of all organic aerosol |
[ug/m3] |
IJ-SOA-$
|
7 |
(I,J,L) |
Sum of all organic carbon |
[ug/m3] |
IJ-SOA-$
|
8 |
(I,J,L) |
Sum of all biogenic organic aerosol |
[ug/m3] |
IJ-SOA-$
|
9 |
(I,J,L) |
BetaNO: NO branching ratio |
[ug C/m3] |
IJ-SOA-$
|
10 |
(I,J,L) |
POA: Aerosols from SVOCs |
[ug C/m3] |
IJ-SOA-$
|
11 |
(I,J,L) |
OPOA: Aerosol products of POG oxidation |
[ug/m3] |
IJ-SOA-$
|
12 |
(I,J,L) |
OC: Organic carbon (OCPI + OCPO) |
[ug C/m3] |
IJ-SOA-$
|
13 |
(I,J,L) |
BC: Black carbon (BCPI + BCPO) |
[ug C/m3] |
IJ-SOA-$
|
14 |
(I,J,L) |
SO4: Sulfate |
[ug/m3] |
IJ-SOA-$
|
15 |
(I,J,L) |
NH4: Ammonium |
[ug/m3] |
IJ-SOA-$
|
16 |
(I,J,L) |
NIT: Nitrate |
[ug/m3] |
IJ-SOA-$
|
17 |
(I,J,L) |
SAL: Sea salt aerosol (SALA + SALC) |
[ug/m3] |
IJ-SOA-$
|
18 |
(I,J,L) |
PM2.5: Particulate matter |
[ug/m3] |
IJ-SOA-$
|
19 |
(I,J,L) |
SOAG: SOA product of GLYX |
[ug/m3] |
IJ-SOA-$
|
20 |
(I,J,L) |
SOAG: SOA product of MGLY |
[ug/m3] |
IJ-SOA-$
|
ND43: Chemical production of OH and HO2
ND43 #
|
Dims
|
Description
|
Units
|
Category
|
Simulations
|
netCDF equivalent
|
Notes
|
1 |
(I,J,L) |
OH |
[molec/cm3] |
CHEM-L=$ |
fullchem CH4 |
OHconcAfterChem |
|
3 |
(I,J,L) |
HO2 |
[v/v] |
CHEM-L=$ |
fullchem |
HO2concAfterChem |
|
4 |
(I,J,L) |
O1D |
[molec/cm3] |
CHEM-L=$ |
fullchem (w/ UCX) |
O1DconcAfterChem |
|
5 |
(I,J,L) |
O3P |
[molec/cm3] |
CHEM-L=$ |
fullchem (w/ UCX) |
O3PconcAfterChem |
|
6 |
(I,J,L) |
LBRO2H |
[molec/cm3] |
CHEM-L=$ |
|
|
Obsolete; removed in v11-02
|
7 |
(I,J,L) |
LBRO2N |
[molec/cm3] |
CHEM-L=$ |
|
|
Obsolete; removed in v11-02
|
8 |
(I,J,L) |
LTRO2H |
[molec/cm3] |
CHEM-L=$ |
|
|
Obsolete; removed in v11-02
|
9 |
(I,J,L) |
LTRO2N |
[molec/cm3] |
CHEM-L=$ |
|
|
Obsolete; removed in v11-02
|
10 |
(I,J,L) |
LXRO2H |
[molec/cm3] |
CHEM-L=$ |
|
|
Obsolete; removed in v11-02
|
11 |
(I,J,L) |
LXRO2N |
[molec/cm3] |
CHEM-L=$ |
|
|
Obsolete; removed in v11-02
|
ND44: Dry deposition diagnostics
ND44
|
Dimension
|
DRYDEP ( M = NUMber DEP )
|
Units
|
Category
|
1 |
(I,J,M) |
Dry deposition fluxes (M = 1, NUMDEP) |
[molec/cm2/s] |
DRYD-FLX
|
2 |
(I,J,M) |
Dry deposition velocities (M = 1, NUMDEP) |
[cm/s] |
DRYD-VEL
|
ND45: Species concentrations
ND45 #
|
Dims
|
Description
|
Units
|
Category
|
Simulations
|
netCDF equivalent
|
Notes
|
1 |
(I,J,L,N) |
Species mixing ratio for Levels = 1, LD45, averaged between HR1_OTH and HR2_OTH (time range from input.geos) |
[v/v] |
IJ-AVG-$ |
all |
SpeciesConc_?ADV? SpeciesConc_?ALL? SpeciesConc_?DRY? etc. |
|
ND46: Biogenic emissions
ND46
|
Dimension
|
BIOGENIC EMISSIONS
|
Units
|
Category
|
1 |
(I,J) |
ISOP: Isoprene |
[atoms C/cm2/s] |
BIOGSRCE
|
2 |
(I,J) |
ACET: Acetone |
[atoms C/cm2/s] |
BIOGSRCE
|
3 |
(I,J) |
PRPE: Lumped >= C3 alkenes |
[atoms C/cm2/s] |
BIOGSRCE
|
4 |
(I,J) |
MONX: Total monoterpenes (APIN + BPIN + LIMO + SABI + MYRC + CARE + OCIM + OMON) |
[atoms C/cm2/s] |
BIOGSRCE
|
5 |
(I,J) |
MBOX: Methyl Butenol |
[atoms C/cm2/s] |
BIOGSRCE
|
6 |
(I,J) |
C2H4: Ethene |
[atoms C/cm2/s] |
BIOGSRCE
|
7 |
(I,J) |
APIN: a-Pinene |
[atoms C/cm2/s] |
BIOGSRCE
|
8 |
(I,J) |
BPIN: b-Pinene |
[atoms C/cm2/s] |
BIOGSRCE
|
9 |
(I,J) |
LIMO: Limonene |
[atoms C/cm2/s] |
BIOGSRCE
|
10 |
(I,J) |
SABI: Sabinene |
[atoms C/cm2/s] |
BIOGSRCE
|
11 |
(I,J) |
MYRC: Myrcene |
[atoms C/cm2/s] |
BIOGSRCE
|
12 |
(I,J) |
CARE: 3-Carene |
[atoms C/cm2/s] |
BIOGSRCE
|
13 |
(I,J) |
OCIM: Ocimene |
[atoms C/cm2/s] |
BIOGSRCE
|
14 |
(I,J) |
FAXX: Formic acid (currently not activated) |
[molec/cm2/s] |
BIOGSRCE
|
15 |
(I,J) |
AAXX: Acetic acid (currently not activated) |
[molec/cm2/s] |
BIOGSRCE
|
16 |
(I,J) |
ALD2: Acetaldehyde |
[atoms C/cm2/s] |
BIOGSRCE
|
17 |
(I,J) |
OMON: Other monoterpenes |
[atoms C/cm2/s] |
BIOGSRCE
|
18 |
(I,J) |
MOHX: Methanol (currently not activated) |
[molec/cm2/s] |
BIOGSRCE
|
19 |
(I,J) |
ETOH: Ethanol (currently not activated) |
[atoms C/cm2/s] |
BIOGSRCE
|
20 |
(I,J) |
FARN: Farnesene |
[atoms C/cm2/s] |
BIOGSRCE
|
21 |
(I,J) |
BCAR: b-Caryophyllene |
[atoms C/cm2/s] |
BIOGSRCE
|
22 |
(I,J) |
OSQT: Other sesquiterpenes |
[atoms C/cm2/s] |
BIOGSRCE
|
23 |
(I,J) |
CHBr3: Ocean bromoform emissions |
[kg/m2/s] |
BIOGSRCE
|
24 |
(I,J) |
CH2Br2: Ocean dibromomethane emissions |
[kg/m2/s] |
BIOGSRCE
|
25 |
(I,J) |
Br2: Sea-salt Br2 emissions |
[kg/m2/s] |
BIOGSRCE
|
26 |
(I,J) |
CH4: Methane |
[molec/c2/s] |
BIOGSRCE
|
ND47: 24h average concentrations
ND47
|
Dimension
|
24-h AVERAGE TRACER CONCENTRATION
|
Units
|
Category
|
1 |
(I,J,L,N) |
Daily (24-h) average tracer mixing ratio for Levels = L, LD47 |
[v/v] |
IJ-24H-$
|
ND48: Station timeseries
ND48
|
Dimension
|
TIMESERIES AT ND48_N_STA = NUMBER OF STATIONS
|
Units
|
Category
|
1-N |
(I,J,L) |
GEOS-Chem advected species number for GAMAP = 1, nAdvect |
[v/v] |
IJ-AVG-$
|
151 |
(I,J,L) |
OH concentration (Tracer # for GAMAP = 1) |
[molec/cm3] |
TIME-SER
|
152 |
(I,J,L) |
NOy concentration (Tracer # for GAMAP = 2) |
[v/v] |
TIME-SER
|
153 |
(I,J,L) |
Relative humidity (Tracer # for GAMAP = 3) |
[%] |
TIME-SER
|
154 |
(I,J,L) |
3-D Cloud fractions (Tracer # for GAMAP = 4) |
[unitless] |
TIME-SER
|
155 |
(I,J) |
Column optical depths (Tracer # for GAMAP = 5) |
[unitless] |
TIME-SER
|
156 |
(I,J) |
Cloud top heights (Tracer # for GAMAP = 6) |
[hPa] |
TIME-SER
|
157 |
(I,J,L) |
Air density (Tracer # for GAMAP = 7) |
[molec/cm3] |
TIME-SER
|
158 |
(I,J,L) |
Total sea salt tracer concentration (Tracer # for GAMAP = 8) |
[unitless] |
TIME-SER
|
159 |
(I,J) |
PBL heights (Tracer # for GAMAP = 1) |
[m] |
PBLDEPTH
|
160 |
(I,J) |
PBL heights (Tracer # for GAMAP = 2) |
[levels] |
PBLDEPTH
|
161 |
(I,J,L) |
Grid box height (Tracer # for GAMAP = 1) |
[m] |
BXHGHT-$
|
162 |
(I,J,L) |
Pressure at level edges (Tracer # for GAMAP = 1) |
[hPa] |
PEDGE-$
|
163 |
(I,J) |
Sea level pressure (Tracer # for GAMAP = 18) |
[hPa] |
DAO-FLDS
|
164 |
(I,J,L) |
Zonal wind (a.k.a. U-wind) (Tracer # for GAMAP = 1) |
[m/s] |
DAO-3D-$
|
165 |
(I,J,L) |
Meridional wind (a.k.a. V-wind) (Tracer # for GAMAP = 2) |
[m/s] |
DAO-3D-$
|
166 |
(I,J,L) |
Temperature (Tracer # for GAMAP = 3) |
[K] |
DAO-3D-$
|
167 |
(I,J,L) |
Sulfate aerosol optical depth (Tracer # for GAMAP = 6) |
[unitless] |
OD-MAP-$
|
168 |
(I,J,L) |
Black carbon aerosol optical depth (Tracer # for GAMAP = 9) |
[unitless] |
OD-MAP-$
|
169 |
(I,J,L) |
Organic carbon aerosol optical depth (Tracer # for GAMAP = 12) |
[unitless] |
OD-MAP-$
|
170 |
(I,J,L) |
Accumulation mode seasalt optical depth (Tracer # for GAMAP = 15) |
[unitless] |
OD-MAP-$
|
171 |
(I,J,L) |
Coarse mode seasalt optical depth (Tracer # for GAMAP = 18) |
[unitless] |
OD-MAP_$
|
172 |
(I,J,L) |
Total dust optical depth (Tracer # for GAMAP = 4) |
[unitless] |
OD-MAP-$
|
173-179 |
(I,J,L) |
Size resolved dust optical depth (Tracer # for GAMAP = 21-27) |
[unitless] |
OD-MAP-$
|
ND49: Instantaneous timeseries
ND47
|
Dimension
|
3-D INSTANTANEOUS TIMESERIES
|
Units
|
Category
|
|
(I,J,L) |
Archives the the same diagnostic quantities as ND48 (listed above), plus: |
|
|
180 |
(I,J) |
PARDF (diffuse PAR) (Tracer # for GAMAP = 20) |
[W/m2] |
DAO-FLDS
|
181 |
(I,J) |
PARDR (direct PAR) (Tracer # for GAMAP = 21) |
[W/m2] |
DAO-FLDS
|
182 |
(I,J) |
Daily LAI (leaf area index) (Tracer # for GAMAP = 9) |
[cm2/cm2] |
TIME-SER
|
183 |
(I,J) |
Temperature at 2m (i.e. proxy for surface air temperature) (Tracer # for GAMAP = 5) |
[K] |
DAO-FLDS
|
184 |
(I,J) |
Accumulated precipitation (Tracer # for GAMAP = 3) |
[mm/day] |
DAO-FLDS
|
ND50: 24h average timeseries
ND51 and ND51b: Satellite timeseries
ND52: Gamma HO2
ND52
|
Dimension
|
GAMMA HO2
|
Units
|
Category
|
1 |
(I,J,L) |
Uptake coefficient for HO2 by aerosols NOTE: This diagnostic is mostly obsolete. We now set this value in the Chemistry Menu of input.geos. |
[unitless] |
GAMMA
|
ND53: POPs diagnostics
ND52
|
Dimension
|
POPS EMISSIONS
|
Units
|
Category
|
1 |
(I,J) |
Total POPs emissions |
[kg] |
PG-SRCE
|
2 |
(I,J) |
POP OC emissions |
[kg] |
PG-SRCE
|
3 |
(I,J) |
POP BC emissions |
[kg] |
PG-SRCE
|
4 |
(I,J) |
Gas-phase POPs emissions |
[kg] |
PG-SRCE
|
5 |
(I,J) |
Secondary emissions from soil |
[kg] |
PG-SRCE
|
6 |
(I,J) |
Secondary emissions from lakes |
[kg] |
PG-SRCE
|
7 |
(I,J) |
Secondary emissions from leaves |
[kg] |
PG-SRCE
|
8 |
(I,J) |
Secondary positive soil flux |
[ng/m2/day] |
PG-SRCE
|
9 |
(I,J) |
Secondary negative soil flux |
[ng/m2/day] |
PG-SRCE
|
10 |
(I,J) |
Secondary positive lake flux |
[ng/m2/day] |
PG-SRCE
|
11 |
(I,J) |
Secondary negative lake flux |
[ng/m2/day] |
PG-SRCE
|
12 |
(I,J) |
Secondary positive leaf flux |
[ng/m2/day] |
PG-SRCE
|
13 |
(I,J) |
Secondary negative leaf flux |
[ng/m2/day] |
PG-SRCE
|
14 |
(I,J) |
Fugacity ratios soil/air |
[unitless] |
PG-SRCE
|
15 |
(I,J) |
Fugacity ratios lake/air |
[unitless] |
PG-SRCE
|
16 |
(I,J) |
Fugacity ratios leaf/air |
[unitless] |
PG-SRCE
|
17 |
(I,J,L) |
Gross POP OC lost to gas |
[kg] |
PG-PP
|
18 |
(I,J,L) |
Gross POP OC formed from gas |
[kg] |
PG-PP
|
19 |
(I,J,L) |
Gross POP BC lost to gas |
[kg] |
PG-PP
|
20 |
(I,J,L) |
Gross POP BC formed from gas |
[kg] |
PG-PP
|
21 |
(I,J,L) |
Production of oxidized POPG from reaction with OH |
[kg] |
PG-PP
|
22 |
(I,J,L) |
Production of oxidized POPOCPO from reaction with O3 |
[kg] |
PG-PP
|
23 |
(I,J,L) |
Production of oxidized POPOCPI from reaction with O3 |
[kg] |
PG-PP
|
24 |
(I,J,L) |
Production of oxidized POPBCPO from reaction with O3 |
[kg] |
PG-PP
|
25 |
(I,J,L) |
Production of oxidized POPBCPI from reaction with O3 |
[kg] |
PG-PP
|
26 |
(I,J,L) |
Production of oxidized POPOCPO from reaction with NO3 |
[kg] |
PG-PP
|
27 |
(I,J,L) |
Production of oxidized POPOCPI from reaction with NO3 |
[kg] |
PG-PP
|
28 |
(I,J,L) |
Production of oxidized POPBCPO from reaction with NO3 |
[kg] |
PG-PP
|
29 |
(I,J,L) |
Production of oxidized POPBCPI from reaction with NO3 |
[kg] |
PG-PP
|
ND54: Time in troposphere
ND52
|
Dimension
|
FRACTION OF TIME IN THE TROPOPSPHERE
|
Units
|
Category
|
1 |
(I,J,L) |
Computes the amount of time that a given grid box spends in the troposphere |
[1] |
TIME-TPS
|
ND55: Tropopause diagnostics
ND55 #
|
Dims
|
Description
|
Units
|
Category
|
Simulations
|
netCDF equivalent
|
Notes
|
1 |
(I,J) |
Level at which the dynamic tropopause occurs |
[unitless] |
TR-PAUSE |
all |
Met_TROPLEV |
|
2 |
(I,J) |
Height of the dynamic tropopause |
[km] |
TR-PAUSE |
all |
Met_TROPHT |
|
3 |
(I,J) |
Pressure of the dynamic tropopause |
[mb] |
TR-PAUSE |
all |
Met_TROPP |
|
ND56: Lightning diagnostics
ND56
|
Dimension
|
LIGHTNING FLASHES
|
Units
|
Category
|
1 |
(I,J) |
Total lightning flash rate |
[flashes/min/km2] |
LFLASH-$
|
2 |
(I,J) |
Intra-cloud flash rate |
[flashes/min/km2] |
LFLASH-$
|
3 |
(I,J) |
Cloud-ground flash rate |
[flashes/min/km2] |
LFLASH-$
|
4 |
(I,J) |
Lightning cloud top height |
[level] |
LFLASH-$
|
ND57: Potential temperature
ND57 #
|
Dims
|
Description
|
Units
|
Category
|
Simulations
|
netCDF equivalent
|
Notes
|
1 |
(I,J,L) |
Potential temperature |
[K] |
THETA-$ |
all |
Met_THETA |
|
ND58: CH4 emissions
ND58
|
Dimension
|
CH4 EMISSIONS
|
Units
|
Category
|
1 |
(I,J) |
CH4-TOT: Total emissions |
[kg] |
CH4-EMIS
|
2 |
(I,J) |
CH4-GAO: Gas & Oil emissions |
[kg] |
CH4-EMIS
|
3 |
(I,J) |
CH4-COL: Coal emisisons |
[kg] |
CH4-EMIS
|
4 |
(I,J) |
CH4-LIV: Livestock emissions |
[kg] |
CH4-EMIS
|
5 |
(I,J) |
CH4-WST: Waste emisisons |
[kg] |
CH4-EMIS
|
6 |
(I,J) |
CH4-BFL: Biofuel emissions |
[kg] |
CH4-EMIS
|
7 |
(I,J) |
CH4-RIC: Rice field emissions |
[kg] |
CH4-EMIS
|
8 |
(I,J) |
CH4-OTA: Other anthropogenic emissions |
[kg] |
CH4-EMIS
|
9 |
(I,J) |
CH4-BBN: Biomass burning emissions |
[kg] |
CH4-EMIS
|
10 |
(I,J) |
CH4-WTL: Wetland emissions |
[kg] |
CH4-EMIS
|
11 |
(I,J) |
CH4-SAB: Soil absorption |
[kg] |
CH4-EMIS
|
12 |
(I,J) |
CH4-OTN: Other natural emissions |
[kg] |
CH4-EMIS
|
ND59: TOMAS size-resolved aerosol emissions
ND59
|
Dimension
|
TOMAS SIZE-RESOLVED PRIMARY AEROSOL EMISSION
|
Units
|
Category
|
1 |
(I,J,L) |
Size-resolved primary aerosol number emission |
[No.] |
NK-EMISS
|
2 |
(I,J,L) |
Size-resolved primary aerosol sulfate mass emission |
[kg S] |
SF-EMIS
|
3 |
(I,J,L) |
Size-resolved primary aerosol sea-salt emission |
[kg] |
SS-EMIS
|
4 |
(I,J,L) |
Size-resolved primary Hydrophillic EC mass emission |
[kg] |
ECIL-SRC
|
5 |
(I,J,L) |
Size-resolved primary Hydrophobic EC mass emission |
[kg] |
ECOB-SRC
|
6 |
(I,J,L) |
Size-resolved primary Hydrophillic OC mass emission |
[kg] |
OCIL-SRC
|
7 |
(I,J,L) |
Size-resolved primary Hydropobic OC mass emission |
[kg] |
OCOB-SRC
|
8 |
(I,J,L) |
Size-resolved dust mass emission |
[kg] |
DUST-SRC
|
ND60
TOMAS simulations: Aerosol microphysics rate
ND60
|
Dimension
|
TOMAS AEROSOL MICROPHYSICS RATE
|
Units
|
Category
|
1 |
(I,J,L) |
Condensation rate |
[no.] or [kg] |
TMS-COND
|
2 |
(I,J,L) |
Coagulation rate |
[no.] or [kg] |
TMS-COAG
|
3 |
(I,J,L) |
Nucleation rate |
[no.] or [kg] |
TMS-NUCL
|
4 |
(I,J,L) |
Aqueous oxidation rate |
[no.] or [kg] |
TMS-AQOX
|
5 |
(I,J,L) |
Accumulated error fixed |
[no.] or [kg] |
AERO-FIX
|
6 |
(I,J,L) |
SOA condensation rate |
[no.] or [kg] |
TMS-SOA
|
Non-TOMAS simulations: Wetland fraction
ND59
|
Dimension
|
WETLAND FRACTION
|
Units
|
Category
|
1 |
(I,J) |
Wetland fraction |
unitless |
|
ND61: TOMAS 3-D rate
ND61
|
Dimension
|
TOMAS 3-D RATE
|
Units
|
Category
|
1 |
(I,J,L) |
Particle Dp >10 nm formation rate |
[cm-3s-1] |
TOMAS-3D
|
2 |
(I,J,L) |
Nucleation rate (cluster size) |
[cm-3s-1] |
TOMAS-3D
|
ND62: Instantaneous columns
ND61
|
Dimension
|
INSTANTANEOUS COLUMN MAPS
|
Units
|
Category
|
1 |
(I,J,N) |
I-J instantaneous integrated column density for tracers |
[molec/cm2] or [atoms C/cm2] |
INST-MAP
|
ND63: Ship emission diagnostics
ND63
|
Dimension
|
SHIP DIAGNOSTIC
|
Units
|
Category
|
1 |
(I,J) |
Fraction of NOx remaining |
unitless |
SHIP-$$$
|
2 |
(I,J) |
Integrated Ozone Production Efficiency (OPE) |
unitless |
SHIP-$$$
|
3 |
(I,J) |
Ship plume NOx remaining |
[molec/cm2/s] |
SHIP-$$$
|
4 |
(I,J) |
Ship plume Ox production |
[molec/cm2/s] |
SHIP-$$$
|
5 |
(I,J) |
Ship NOx emissions |
[molec/cm2/s] |
SHIP-$$$
|
ND64: Radiative flux
ND64
|
Dimension
|
RADIATIVE FLUXES
|
Units
|
Category
|
1 |
(I,J,L) |
Net UV flux in bin |
[W/m2] |
FJX-FLUX
|
2 |
(I,J,L) |
Direct UV flux in bin |
[W/m2] |
FJX-FLUX
|
3 |
(I,J,L) |
Diffuse UV flux in bin |
[W/m2] |
FJX-FLUX
|
ND65: Chemical production and loss diagnostics
ND65 #
|
Dims
|
Description
|
Units
|
Category
|
Simulations
|
netCDF equivalent
|
Notes
|
1 |
(I,J,L,N) |
Chemical family P/L rates. See the FlexChem wiki page for more information. |
[molec/cm3/s] |
PORL-L=$ |
fullchem tagCO tagO3 |
Prod_?PRD? Loss_?LOS? |
|
ND66: GMAO 3-D met fields
NOTE: Any field of the State_Met object can be saved out to netCDF diagnostic output files under the diagnostic name: Met_<fieldname>.
ND66 #
|
Dims
|
Description
|
Units
|
Category
|
Simulations
|
netCDF equivalent
|
Notes
|
1 |
(I,J,L) |
UWND : U-winds |
[m/s] |
DAO-3D-$ |
all |
Met_U |
|
2 |
(I,J,L) |
VWND : V-winds |
[m/s] |
DAO-3D-$ |
all |
Met_V |
|
3 |
(I,J,L) |
TMPU : Temperature |
[K] |
DAO-3D-$ |
all |
Met_T |
|
4 |
(I,J,L) |
SPHU : Specific humidity |
[g H20/kg air] |
DAO-3D-$ |
all |
Met_SPHU |
|
5 |
(I,J,L) |
CMFMC: Convective Mass Flux |
[kg/m2/s] |
DAO-3D-$ |
all |
Met_CMFMC |
NOTE: Met_CMFMC must be placed into a netCDF collection defined on level edges
|
6 |
(I,J,L) |
DTRAIN : Detrainment Flux |
[kg/m2/s] |
DAO-3D-$ |
all |
Met_DTRAIN |
|
ND67: GMAO 2-D met fields
NOTE: Any field of the State_Met object can be saved out to netCDF diagnostic output files under the diagnostic name: Met_<fieldname>.
ND67 #
|
Dims
|
Description
|
Units
|
Category
|
Simulations
|
netCDF equivalent
|
Notes
|
1 |
(I,J) |
HFLUX: sensible heat flux from surface |
[W/m2] |
DAO-FLDS |
all |
Met_HFLUX |
|
2 |
(I,J) |
RADSWG: solar radiation at the ground |
[W/m2] |
DAO-FLDS |
all |
Met_RADSWG |
|
3 |
(I,J) |
PRECTOT: total precipitation at the ground |
[mm/day] |
DAO-FLDS |
all |
Met_PRECTOT |
|
4 |
(I,J) |
PRECCON: total convective precipitation at the ground |
[mm/day] |
DAO-FLDS |
all |
Met_PRECCON |
|
5 |
(I,J) |
TS: surface air temperature For GEOS-4, GEOS-5, and MERRA, this is really the air temperature at 2 m altitude above the surface. |
[K] |
DAO-FLDS |
all |
Met_TS |
|
6 |
(I,J) |
RADSWT: solar radiation at the top of the atmosphere |
[W/m2] |
DAO-FLDS |
all |
Met_RADSWT |
|
7 |
(I,J) |
USTAR: friction velocity |
[m/s] |
DAO-FLDS |
all |
Met_USTAR |
|
8 |
(I,J) |
Z0: surface roughness height |
[m] |
DAO-FLDS |
all |
Met_Z0 |
|
9 |
(I,J) |
PBL (aka PBLM): planetary boundary layer depth |
[m] |
DAO-FLDS |
all |
Met_PBL |
|
10 |
(I,J) |
CLDFRC: column cloud fraction |
[0 - 1] |
DAO-FLDS |
all |
Met_CLDFRC |
|
11 |
(I,J) |
U10M: U-winds at 10 meters altitude |
[m/s] |
DAO-FLDS |
all |
Met_U10M |
|
12 |
(I,J) |
V10M: V-winds at 10 meters altitude |
[m/s] |
DAO-FLDS |
all |
Met_V10M |
|
13 |
(I,J) |
PS-PBL: Boundary Layer Top Pressure |
[hPa] |
DAO-FLDS |
all |
None |
|
14 |
(I,J) |
ALBD: Surface Albedo |
[unitless] |
DAO-FLDS |
all |
Met_ALBD |
|
15 |
(I,J) |
PHIS: Geopotential Heights |
[m] |
DAO-FLDS |
all |
Met_PHIS |
|
16 |
(I,J) |
CLTOP : Cloud Top Height |
[levels] |
DAO-FLDS |
all |
Met_CLDTOPS |
|
17 |
(I,J) |
TROPP: Tropopause pressure |
[hPa] |
DAO-FLDS |
all |
Met_TROPP |
|
18 |
(I,J) |
SLP: Sea Level pressure (read directly from the met fields) |
[hPa] |
DAO-FLDS |
all |
Met_SLP |
|
19 |
(I,J) |
TSKIN : Ground / Sea Surface Temp |
[K] |
DAO-FLDS |
all |
Met_TSKIN |
|
20 |
(I,J) |
PARDF : Photosynthetically active diffuse radiation |
[W/m2] |
DAO-FLDS |
all |
Met_PARDF |
|
21 |
(I,J) |
PARDR : Photosynthetically active direct radiation |
[W/m2] |
DAO-FLDS |
all |
Met_PARDR |
|
22 |
(I,J) |
GWETTOP: Top soil wetness |
[unitless] |
DAO-FLDS |
all |
Met_GWETTOP |
|
23 |
(I,J) |
EFLUX: Latent heat flux |
[W/m2] |
DAO-FLDS |
all |
Met_EFLUX |
|
ND68: Air mass and related quantities
NOTE: Any field of the State_Met object can be saved out to netCDF diagnostic output files under the diagnostic name: Met_<fieldname>.
ND68 #
|
Dims
|
Description
|
Units
|
Category
|
Simulations
|
netCDF equivalent
|
Notes
|
1 |
(I,J,L) |
BXHEIGHT: Grid box heights |
[m] |
BXHGHT-$ |
all |
Met_BXHEIGHT |
|
2 |
(I,J,L) |
AD: Air mass in grid box |
[kg] |
BXHGHT-$ |
all |
Met_AD |
|
3 |
(I,J,L) |
AVGW : Mixing ratio of water vapor |
[v/v] |
BXHGHT-$ |
all |
Met_AVGW |
|
4 |
(I,J,L) |
AIRNUMDEN: Air number density |
[molec air/cm3] |
BXHGHT-$ |
all |
Met_AIRNUMDEN |
|
5 |
(I,J,L) |
T: Temperature |
[K] |
BXHGHT-$ |
all |
Met_T |
|
6 |
(I,J,L) |
PMID: Pressure at average pressure level |
[hPa] |
BXHGHT-$ |
all |
Met_PMID |
|
7 |
(I,J,L) |
PEDGE: Presure at grid box lower edge |
[hPa] |
BXHGHT-$ |
all |
Met_PEDGE |
|
8 |
(I,J,L) |
RH: Relative humidity |
[%] |
BXHGHT-$ |
all |
Met_RH |
|
ND69: Surface areas
ND0 #
|
Dims
|
Description
|
Units
|
Category
|
Simulations
|
netCDF equivalent
|
Notes
|
1 |
(I,J) |
DXYP: grid box surface areas |
[m2] |
DXYP |
all |
|
Surface area in m2 is written to each netCDF diagnostic file created by HEMCO or History; no need to request it explicitly
|
ND70: Print debug output
ND0 #
|
Dims
|
Description
|
Units
|
Category
|
Simulations
|
netCDF equivalent
|
Notes
|
|
|
Turn on debug output statements (Input_Opt%LPRT = T) |
|
|
all |
none |
Prints debug output to stdout (which is redirected into the GEOS-Chem log file)
|
ND71: Hourly maximum mixing ratio
ND71 #
|
Dims
|
Description
|
Units
|
Category
|
Simulations
|
netCDF equivalent
|
Notes
|
1 |
(I,J,N) |
Hourly maximum tracer mixing ratio at the surface |
[v/v] |
IJ-MAX-$ |
all |
None |
Will not be converted to netCDF in v11-02
|
ND72: RRTMG diagnostics
ND72
|
Dimension
|
RRTMG diagnostics
|
Units
|
Category
|
1 |
(I,J,N) |
All-sky TOA short-wave radiation |
W/m2 |
RADMAP-$
|
2 |
(I,J,N) |
All-sky surface short-wave radiation |
W/m2 |
RADMAP-$
|
3 |
(I,J,N) |
All-sky TOA long-wave radiation |
W/m2 |
RADMAP-$
|
4 |
(I,J,N) |
All-sky surface long-wave radiation |
W/m2 |
RADMAP-$
|
5 |
(I,J,N) |
Clear-sky TOA short-wave radiation |
W/m2 |
RADMAP-$
|
6 |
(I,J,N) |
Clear-sky surface short-wave radiation |
W/m2 |
RADMAP-$
|
7 |
(I,J,N) |
Clear-sky TOA long-wave radiation |
W/m2 |
RADMAP-$
|
8 |
(I,J,N) |
Clear-sky surface long-wave radiation |
W/m2 |
RADMAP-$
|