Difference between revisions of "List of diagnostics for v11-01"
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|4 ||(I,J) ||DST4 (Dust aerosol, Reff = 4.5 microns) ||[kg] ||DUSTSRCE | |4 ||(I,J) ||DST4 (Dust aerosol, Reff = 4.5 microns) ||[kg] ||DUSTSRCE | ||
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== ND07: == | == ND07: == |
Revision as of 17:21, 10 November 2016
On this page we list the various diagnostic quantities that you can archive with GEOS-Chem.
Contents
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.
ND01: Rn-Pb-Be sources
ND01 | Dimension | RADON 222 - LEAD 210 - BERYLLIUM 7 SOURCE | Units | Category |
---|---|---|---|---|
1 | (I,J,L) | 222Rn emissions | [kg/s] | RN-SRCE |
2 | (I,J,L) | 210Pb emissions | [kg/s] | RN-SRCE |
3 | (I,J,L) | 7Be emissions | [kg/s] | RN-SRCE |
ND02: Rn-Pb-Be decay
ND02 | Dimension | RADON 222 - LEAD 210 - BERYLLIUM 7 DECAY | Units | Category |
---|---|---|---|---|
1 | (I,J,L) | 222Rn loss | [kg/s] | RN-DECAY |
2 | (I,J,L) | 210Pb loss | [kg/s] | RN-DECAY |
3 | (I,J,L) | 7Be loss | [kg/s] | RN-DECAY |
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 | Dimension | PROD/LOSS for SULFATE CHEMISTRY QUANTITIES | Units | Category |
---|---|---|---|---|
1 | (I,J,L) | P(SO2) from DMS + OH | [kg S] | PL-SUL-$ |
2 | (I,J,L) | P(SO2) from DMS + NO3 | [kg S] | PL-SUL-$ |
3 | (I,J,L) | Total P(SO2) | [kg S] | PL-SUL-$ |
4 | (I,J,L) | P(MSA) from DMS | [kg S] | PL-SUL-$ |
5 | (I,J,L) | P(SO4) gas phase | [kg S] | PL-SUL-$ |
6 | (I,J,L) | P(SO4) by cloud H2O2 | [kg S] | PL-SUL-$ |
7 | (I,J,L) | P(SO4) by cloud O3 | [kg S] | PL-SUL-$ |
8 | (I,J,L) | P(SO4) by seasalt O3 | [kg S] | PL-SUL-$ |
9 | (I,J,L) | L(OH) by DMS | [kg OH] | PL-SUL-$ |
10 | (I,J,L) | L(NO3) by DMS | [kg NO3] | PL-SUL-$ |
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:
||ND07 ||Dimension ||SOURCES OF BLACK CARBON & ORGANIC CARBON ||(initially developed for offline aerosol simulations) |- |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=$ |- |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=$ ||NOTE: Orange lines indicate output only available for simulations with the secondary organic aerosol (SOA) chemistry mechanism. ||ND08 ||Dimension ||SEA SALT EMISSIONS ||Units ||Category |- |1 ||(I,J) ||Accumulation mode seasalt ||[kg] ||SALTSRCE |- |2 ||(I,J) ||Coarse mode seasalt ||[kg] ||SALTSRCE ||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 ||ND10 ||Dimension ||FREE DIAGNOSTIC ||Units ||Category ||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 ||Dimension ||DISTRIBUTION OF SURFACE EMISSIONS IN THE BL ||Units ||Category |- |1 ||(I,J,L) ||Fraction of boundary layer occupied by level L ||[unitless] ||EMDIS-BL ||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 ||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 ||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 ||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 ||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 ||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 ||Dimension ||CH4 LOSS ||Units ||Category |- |1 ||(I,J,L) ||CH4 removal by OH ||[kg CH4] ||CH4-LOSS ||ND20 ||Dimension ||O3 PROD/LOSS ||Units ||Category |- |1 ||(I,J,L,2) ||Save O3 prod/loss rates to disk ||[molec/cm3/s] ||ND21 ||Dimension ||CLOUD OPTICAL DEPTHS AND CLOUD FRACTIONS ||Units ||Category |- |1 ||(I,J,L) ||OPTD: Cloud optical depth ||[unitless] ||OD-MAP-$ |- |2 ||(I,J,L) ||CLDTOT: 3-D total cloud fraction (GEOS-4) ||unitless] ||OD-MAP-$ |- |3 ||(I,J,L) ||CLRO: Random overlap cloud fraction ||[unitless] ||OD-MAP-$ |- |4 ||(I,J,L) ||OPD: Mineral dust optical depth for 1st wavelenth specified in Radiation Menu ||[unitless] ||OD-MAP-$ |- |5 ||(I,J,L) ||SD: Mineral dust surface area ||[cm2/cm3] ||OD-MAP-$ |- |6 ||(I,J,L) ||OPSO4: Sulfate optical depth for 1st wavelenth specified in Radiation Menu ||[unitless] ||OD-MAP-$ |- |7 ||(I,J,L) ||HGSO4: Hygroscopic growth of SO4 ||[unitless] ||OD-MAP-$ |- |8 ||(I,J,L) ||SSO4: Sulfate surface area ||[cm2/cm3] ||OD-MAP-$ |- |9 ||(I,J,L) ||OPBC: Black carbon optical depth for 1st wavelenth specified in Radiation Menu ||[unitless] ||OD-MAP-$ |- |10 ||(I,J,L) ||HGBC: Hygroscopic growth of BC ||[unitless] ||OD-MAP-$ |- |11 ||(I,J,L) ||SBC: Black carbon surface area ||[cm2/cm3] ||OD-MAP-$ |- |12 ||(I,J,L) ||OPOC: Organic carbon optical depth for 1st wavelenth specified in Radiation Menu ||[unitless] ||OD-MAP-$ |- |13 ||(I,J,L) ||HGOC: Hygroscopic growth of OC ||[unitless] ||OD-MAP-$ |- |14 ||(I,J,L) ||SOC: Organic carbon surface area ||[cm2/cm3] ||OD-MAP-$ |- |15 ||(I,J,L) ||OPSSa: Sea salt (accumulation mode) optical depth for 1st wavelenth specified in Radiation Menu ||[unitless] ||OD-MAP-$ |- |16 ||(I,J,L) ||HGSSa: Hygroscopic growth of SSa ||[unitless] ||OD-MAP-$ |- |17 ||(I,J,L) ||SSSa: Sea salt (accumulation mode) surface area ||[cm2/cm3] ||OD-MAP-$ |- |18 ||(I,J,L) ||OPSSc: Sea salt (coarse mode) optical depth for 1st wavelenth specified in Radiation Menu ||[unitless] ||OD-MAP-$ |- |19 ||(I,J,L) ||HGSSc: Hygroscopic growth of SSc ||[unitless] ||OD-MAP-$ |- |20 ||(I,J,L) ||SSSc: Sea salt (coarse mode) surface area ||[cm2/cm3] ||OD-MAP-$ |- |21 ||(I,J,L) ||OPD1: Dust bin 1 AOD for 1st wavelenth specified in Radiation Menu ||[unitless] ||OD-MAP-$ |- |22 ||(I,J,L) ||OPD2:Dust bin 2 AOD for 1st wavelenth specified in Radiation Menu ||[unitless] ||OD-MAP-$ |- |23 ||(I,J,L) ||OPD3: Dust bin 3 AOD for 1st wavelenth specified in Radiation Menu ||[unitless] ||OD-MAP-$ |- |24 ||(I,J,L) ||OPD4: Dust bin 4 AOD for 1st wavelenth specified in Radiation Menu ||[unitless] ||OD-MAP-$ |- |25 ||(I,J,L) ||OPD5: Dust bin 5 AOD for 1st wavelenth specified in Radiation Menu ||[unitless] ||OD-MAP-$ |- |26 ||(I,J,L) ||OPD6: Dust bin 6 AOD for 1st wavelenth specified in Radiation Menu ||[unitless] ||OD-MAP-$ |- |27 ||(I,J,L) ||OPD7: Dust bin 7 AOD for 1st wavelenth specified in Radiation Menu ||[unitless] ||OD-MAP-$ |- |28 ||(I,J,L) ||OPSO4: Sulfate optical depth for 2nd wavelenth specified in Radiation Menu (optional) ||[unitless] ||OD-MAP-$ |- |29 ||(I,J,L) ||OPBC: Black carbon optical depth for 2nd wavelenth specified in Radiation Menu (optional) ||[unitless] ||OD-MAP-$ |- |30 ||(I,J,L) ||OPOC: Organic carbon optical depth for 2nd wavelenth specified in Radiation Menu (optional) ||[unitless] ||OD-MAP-$ |- |31 ||(I,J,L) ||OPSSa: Accum. sea salt optical depth for 2nd wavelenth specified in Radiation Menu (optional) ||[unitless] ||OD-MAP-$ |- |32 ||(I,J,L) ||OPSSc: Coarse sea salt optical depth for 2nd wavelenth specified in Radiation Menu (optional) ||[unitless] ||OD-MAP-$ |- |33 ||(I,J,L) ||OPD1:Dust bin 1 AOD for 2nd wavelenth specified in Radiation Menu (optional) ||[unitless] ||OD-MAP-$ |- |34 ||(I,J,L) ||OPD2:Dust bin 2 AOD for 2nd wavelenth specified in Radiation Menu (optional) ||[unitless] ||OD-MAP-$ |- |35 ||(I,J,L) ||OPD3: Dust bin 3 AOD for 2nd wavelenth specified in Radiation Menu (optional) ||[unitless] ||OD-MAP-$ |- |36 ||(I,J,L) ||OPD4: Dust bin 4 AOD for 2nd wavelenth specified in Radiation Menu (optional) ||[unitless] ||OD-MAP-$ |- |37 ||(I,J,L) ||OPD5: Dust bin 5 AOD for 2nd wavelenth specified in Radiation Menu (optional) ||[unitless] ||OD-MAP-$ |- |38 ||(I,J,L) ||OPD6: Dust bin 6 AOD for 2nd wavelenth specified in Radiation Menu (optional) ||[unitless] ||OD-MAP-$ |- |39 ||(I,J,L) ||OPD7: Dust bin 7 AOD for 2nd wavelenth specified in Radiation Menu (optional) ||[unitless] ||OD-MAP-$ |- |40 ||(I,J,L) ||OPSO4: Sulfate optical depth for 3rd wavelenth specified in Radiation Menu (optional) ||[unitless] ||OD-MAP-$ |- |41 ||(I,J,L) ||OPBC: Black carbon optical depth for 3rd wavelenth specified in Radiation Menu (optional) ||[unitless] ||OD-MAP-$ |- |42 ||(I,J,L) ||OPOC: Organic carbon optical depth for 3rd wavelenth specified in Radiation Menu (optional) ||[unitless] ||OD-MAP-$ |- |43 ||(I,J,L) ||OPSSa: Accum. sea salt optical depth for 3rd wavelenth specified in Radiation Menu (optional) ||[unitless] ||OD-MAP-$ |- |44 ||(I,J,L) ||OPSSc: Coarse sea salt optical depth for 3rd wavelenth specified in Radiation Menu (optional) ||[unitless] ||OD-MAP-$ |- |45 ||(I,J,L) ||OPD1:Dust bin 1 AOD for 3rd wavelenth specified in Radiation Menu (optional) ||[unitless] ||OD-MAP-$ |- |46 ||(I,J,L) ||OPD2:Dust bin 2 AOD for 3rd wavelenth specified in Radiation Menu (optional) ||[unitless] ||OD-MAP-$ |- |47 ||(I,J,L) ||OPD3: Dust bin 3 AOD for 3rd wavelenth specified in Radiation Menu (optional) ||[unitless] ||OD-MAP-$ |- |48 ||(I,J,L) ||OPD4: Dust bin 4 AOD for 3rd wavelenth specified in Radiation Menu (optional) ||[unitless] ||OD-MAP-$ |- |49 ||(I,J,L) ||OPD5: Dust bin 5 AOD for 3rd wavelenth specified in Radiation Menu (optional) ||[unitless] ||OD-MAP-$ |- |50 ||(I,J,L) ||OPD6: Dust bin 6 AOD for 3rd wavelenth specified in Radiation Menu (optional) ||[unitless] ||OD-MAP-$ |- |51 ||(I,J,L) ||OPD7: Dust bin 7 AOD for 3rd wavelenth specified in Radiation Menu (optional) ||[unitless] ||OD-MAP-$ |- |52 ||(I,J,L) ||ODSLA: Stratospheric liquid aerosol optical depth (600 nm) (UCX simulation only) ||[unitless] ||OD-MAP-$ |- |53 ||(I,J,L) ||SASLA: Stratospheric liquid aerosol surface area (UCX simulation only) ||[cm2/cm3] ||OD-MAP-$ |- |54 ||(I,J,L) ||NDSLA: Stratospheric liquid aerosol number density (UCX simulation only) ||[num/cm3] ||OD-MAP-$ |- |55 ||(I,J,L) ||ODSPA: Polar stratospheric cloud type 1a/2 optical depth (600 nm) (UCX simulation only) ||[unitless] ||OD-MAP-$ |- |56 ||(I,J,L) ||SASPA: Polar stratospheric cloud type a1/2 surface area (UCX simulation only) ||[cm2/cm3] ||OD-MAP-$ |- |57 ||(I,J,L) ||NDSPA: Stratospheric particulate arosol number density (UCX simulation only) ||[num/cm3] ||OD-MAP-$ ||ND22 ||Dimension ||PHOTOLYSIS RATES (aka J-Values) ||Units ||Category |- |1 ||(I,J,L) ||J(NO2) ||[1/s] ||JV-MAP-$ |- |2 ||(I,J,L) ||J(HNO3) ||[1/s] ||JV-MAP-$ |- |3 ||(I,J,L) ||J(H2O2) ||[1/s] ||JV-MAP-$ |- |4 ||(I,J,L) ||J(CH2O) ||[1/s] ||JV-MAP-$ |- |5 ||(I,J,L) ||J(O3) ||[1/s] ||JV-MAP-$ |- |6 ||(I,J,L) ||OH source from O3 photolysis (standard fullchem simulation) or J(O3P) (UCX simulation) ||[1/s] ||JV-MAP-$ |- |7 ||(I,J,L) ||J(GLYX) ||[1/s] ||JV-MAP-$ |- |8 ||(I,J,L) ||J(MGLY) ||[1/s] ||JV-MAP-$ |- |9 ||(I,J,L) ||J(BrO) ||[1/s] ||JV-MAP-$ |- |10 ||(I,J,L) ||J(HOBr) ||[1/s] ||JV-MAP-$ |- |11 ||(I,J,L) ||J(BrNO2) ||[1/s] ||JV-MAP-$ |- |12 ||(I,J,L) ||J(BrNO3) ||[1/s] ||JV-MAP-$ |- |13 ||(I,J,L) ||J(CHBr3) ||[1/s] ||JV-MAP-$ |- |14 ||(I,J,L) ||J(Br2) ||[1/s] ||JV-MAP-$ |- |15 ||(I,J,L) ||J(O2) ||[1/s] ||JV-MAP-$ |- |16 ||(I,J,L) ||J(N2O) ||[1/s] ||JV-MAP-$ |- |17 ||(I,J,L) ||J(NO) ||[1/s] ||JV-MAP-$ |- |18 ||(I,J,L) ||J(NO3) ||[1/s] ||JV-MAP-$ |- |19 ||(I,J,L) ||J(CFC11) ||[1/s] ||JV-MAP-$ |- |20 ||(I,J,L) ||J(CFC12) ||[1/s] ||JV-MAP-$ |- |21 ||(I,J,L) ||J(CCl4) ||[1/s] ||JV-MAP-$ |- |22 ||(I,J,L) ||J(CH3Cl) ||[1/s] ||JV-MAP-$ |- |23 ||(I,J,L) ||J(ACET) ||[1/s] ||JV-MAP-$ ||NOTE: Green lines indicate output only available for simulations with the dicarbonyl chemistry mechanism. ||ND23 ||Dimension ||MASS-WEIGHTED OH CONCENTRATION ||Units ||Category ||Mean OH concentration diagnostic ||[105 molec/cm3] ||Dimension ||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-$ ||ND27 ||Dimension ||STRATOSPHERIC INFLUX (mostly obsolete now) ||Units ||Category |- |1 ||(I,J,3) ||NOx, Ox, HNO3 from the stratosphere: if NOx-Ox-HC simulation ||[kg/s] ||STRT-FL |- |2 ||(I,J,2) ||H2, HD from the stratosphere: if H2/HD simulation ||[kg/s] ||STRT-FL |- |3 ||(I,J) ||Ox from the stratosphere: all other simulations ||[kg/s] ||STRT-FL ||ND28 ||Dimension ||BIOMASS BURNING EMISSIONS ||Units ||Category |- |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 ||Dimension ||TROPOSPHERIC CO EMISSIONS ||Units ||Category |- |1 ||(I,J) ||Anthropogenic CO ||[molec/cm2/s] ||CO--SRCE |- |2 ||(I,J) ||Biomass Burning CO ||[molec/cm2/s] ||CO--SRCE |- |3 ||(I,J) ||Biofuel Burning CO ||[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 ||ND30 ||Dimension ||LAND MAP DIAGNOSTIC ||Units ||Category |- |1 ||(I,J) ||GMAO land-water indices ||[unitless] ||LANDMAP ||ND31 ||Dimension ||SURFACE PRESSURE DIAGNOSTIC ||Units ||Category |- |1 ||(I,J,L) ||Pressure at the bottom of level L (1 <= L <= ND31 ) ||[hPa] ||PEDGE-$ ||ND32 ||Dimension ||TROPOSPHERIC NOx EMISSIONS ||Units ||Category |- |1 ||(I,J,L) ||Aircraft NO ||[molec/cm2/s] ||NO-AC-$ |- |2 ||(I,J) ||Anthropogenic NO ||[molec/cm2/s] ||NO-AN-$ |- |3 ||(I,J) ||Biomass Burning NO ||[molec/cm2/s] ||NO-BIOB |- |4 ||(I,J) ||Biofuel Burning NO ||[molec/cm2/s] ||NO-BIOF |- |5 ||(I,J) ||Fertilizer NO ||[molec/cm2/s] ||NO-FERT |- |6 ||(I,J,L) ||Lightning NO ||[molec/cm2/s] ||NO-LI-$ |- |7 ||(I,J) ||Soil NO ||[molec/cm2/s] ||NO-SOIL ||ND33 ||Dimension ||COLUMN TRACER ||Units ||Category |- |1 ||(I,J,N) ||Atmospheric column sum of tracer ||[kg] ||COLUMN-T ||ND34 ||Dimension ||BIOFUEL BURNING 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 ||ND35 ||Dimension ||TRACER CONCENTRATION AT 500 mb ||Units ||Category |- |1 ||(I,J,N) ||Tracers at 500 mb ( L = 9 ) ( N: selected tracers ) NOTE: This diagnostic is mostly obsolete. ||[v/v] |- |500-AVRG ||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 ||ND36 ||Dimension ||CH3I EMISSIONS (for simulation type 2) ||Units ||Category |- |1 ||(I,J) ||CH3Ioc : Methyl Iodide (oceanic source) ||[ng/m2/s] ||CH3ISRCE |- |2 ||(I,J) ||CH3Ibb : Methyl Iodide (biomass burning) ||[ng/m2/s] ||CH3ISRCE |- |3 ||(I,J) ||CH3Iwb : Methyl Iodide (wood burning) ||[ng/m2/s] ||CH3ISRCE |- |4 ||(I,J) ||CH3Irc : Methyl Iodide (rice paddies) ||[ng/m2/s] ||CH3ISRCE |- |5 ||(I,J) ||CH3Iwl : Methyl Iodide (wetlands) ||[ng/m2/s] ||CH3ISRCE ||ND37 ||Dimension ||UDRAFT SCAVENGING FRACTION ||Units ||Category |- |1 ||(I,J,L,N) ||Fraction of tracer scavenged by in cloud updrafts in moist convection ||[unitless] ||MC-FRC-$ ||ND38 ||Dimension ||LOSS OF TRACER IN MOIST CONVECTION ||Units ||Category |- |1 ||(I,J,L,N) ||Rainout loss of tracer in convective updrafts ||[kg/s] ||WETDCV-$ ||ND39 ||Dimension ||LOSS OF TRACER IN AEROSOL WET DEPOSITION ||Units ||Category |- |1 ||(I,J,L,N) ||Rainout loss of tracer in large-scale precip ||[kg/s] ||WETDLS-$ ||ND40 ||Dimension ||PLANE FLIGHT DIAGNOSTIC ||Units ||Category ||Turn on plane flight diagnostic (DO_PF = T). This diagnostic does not save to the bpch file, but rather is output to the specified plane.log file. ||ND41 ||Dimension ||AFTERNOON PBL HEIGHT ||Units ||Category |- |1 ||(I,J) ||Afternoon boundary layer heights (1200-1600 local time) ||[m] ||PBLDEPTH ||ND42 ||Dimension ||SOA CONCENTRATIONS ||Units ||Category |- |1 ||(I,J,L) ||Aerosol products of terpene oxidation ||[ug/m3] ||IJ-SOA-$ |- |2 ||(I,J,L) ||Aerosol products of isoprene oxidation ||[ug/m3] ||IJ-SOA-$ |- |3 ||(I,J,L) ||Aerosol products of light aromatics + IVOC oxidation ||[ug/m3] ||IJ-SOA-$ |- |4 ||(I,J,L) ||Aerosols from SVOCs ||[ug/m3] ||IJ-SOA-$ |- |5 ||(I,J,L ||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) ||NO branching ratio ||[ug C/m3] ||IJ-SOA-$ |- |10 ||(I,J,L) ||Aerosols from SVOCs ||[ug C/m3] ||IJ-SOA-$ |- |11 ||(I,J,L) ||Aerosol products of POG oxidation ||[ug/m3] ||IJ-SOA-$ |- |12 ||(I,J,L) ||Organic carbon (OCPI + OCPO) ||[ug C/m3] ||IJ-SOA-$ |- |13 ||(I,J,L) ||Black carbon (BCPI + BCPO) ||[ug C/m3] ||IJ-SOA-$ |- |14 ||(I,J,L) ||SO4 ||[ug/m3] ||IJ-SOA-$ |- |15 ||(I,J,L) ||NH4 ||[ug/m3] ||IJ-SOA-$ |- |16 ||(I,J,L) ||NIT ||[ug/m3] ||IJ-SOA-$ |- |17 ||(I,J,L) ||SAL ||[ug/m3] ||IJ-SOA-$ |- |19 ||(I,J,L) ||SOAG (from GLYX) ||[ug/m3] ||IJ-SOA-$ |- |20 ||(I,J,L) ||SOAM (from MGLY) ||[ug/m3] ||IJ-SOA-$ ||NOTES: ||These output are only available for simulations using the SOA chemistry mechanism. ||Green lines indicate output only available for simulations using the dicarbonyls chemistry mechanism. ||ND43 ||Dimension ||CHEMICAL PRODUCTION OF VARIOUS SPECIES ||Units ||Category |- |1 ||(I,J,L) ||OH ||[molec/cm3] ||CHEM-L=$ |- |2 ||(I,J,L) ||HO2 ||[v/v] ||CHEM-L=$ ||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 ||Dimension ||TRACER CONCENTRATIONS ||Units ||Category |- |1 ||(I,J,L,N) ||Tracer mixing ratio for Levels = 1, LD45, averaged between HR1_OTH and HR2_OTH (time range from input.geos) ||[v/v] ||IJ-AVG-$ ||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 ||[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) ||[atoms C/cm2/s] ||BIOGSRCE |- |15 ||(I,J) ||AAXX: Acetic acid (currently not activated) ||[atoms C/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) ||[atoms C/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 ||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 ||Dimension ||TIMESERIES AT NL = NUMBER OF LOCATIONS ||Units ||Category |- |1-N ||(I,J,L) ||GEOS-Chem transported tracers ||(Tracer # for GAMAP = 1 .. N_TRACERS) ||[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 seasalt 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 ||Dimension |- |3-D INSTANTANEOUS TRACER TIMESERIES ||Units ||Category ||Same tracers as ND48 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 ||Dimension |- |3-D 24-h AVERAGE TRACER TIMESERIES ||Units ||Category ||(I,J,L) ||Archives the same diagnostic quantities as ND49 (listed above) ||ND51 ||Dimension |- |3-D SATELLITE TRACER TIMESERIES ||Units ||Category ||(I,J,L,N) ||Archives the same diagnostic quantities as ND49 (listed above), averaged between two local times. ||ND51b ||Dimension |- |3-D SATELLITE TRACER TIMESERIES ||Units ||Category ||(I,J,L,N) ||Archives the same diagnostic quantities as ND51 (listed above), along a second satellite path. ||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 ||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,L) ||Gross POP OC lost to gas ||[kg] ||PG-PP |- |6 ||(I,J,L) ||Gross POP OC formed from gas ||[kg] ||PG-PP |- |7 ||(I,J,L) ||Gross POP BC lost to gas ||[kg] ||PG-PP |- |8 ||(I,J,L) ||Gross POP BC formed from gas ||[kg] ||PG-PP |- |9 ||(I,J,L) ||Production of oxidized POPG from reaction with OH ||[kg] ||PG-PP |- |10 ||(I,J,L) ||Production of oxidized POPOC from reaction with O3 ||[kg] ||PG-PP |- |11 ||(I,J,L) ||Production of oxidized POPBC from reaction with O3 ||[kg] ||PG-PP ||ND54 ||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 ||[unitless] ||TIME-TPS ||ND55 ||Dimension ||DYNAMIC TROPOPAUSE DIAGNOSTICS ||Units ||Category |- |1 ||(I,J) ||Level at which the dynamic tropopause occurs ||[unitless] ||TR-PAUSE |- |2 ||(I,J) ||Height of the dynamic tropopause ||[km] ||TR-PAUSE |- |3 ||(I,J) ||Pressure of the dynamic tropopause ||[mb] ||TR-PAUSE ||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-$ ||ND57 ||Dimension ||POTENTIAL TEMPERATURE DIAGNOSTIC ||Units ||Category |- |1 ||(I,J,L) ||Potential temperature ||[K] ||THETA-$ ||ND58 ||Dimension ||CH4 emissions ||Units ||CH4-EMIS |- |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 ||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 ||Dimension ||WETLAND FRACTION (non-TOMAS simulation) ||Units ||Category |- |1 ||(I,J) ||Wetland fraction ||unitless ||WET-FRAC ||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 ||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 ||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 ||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 ||Dimension ||Radiative flux ||Units ||Category |- |1 ||(I,J,L) ||Net UV flux in bin ||[W/m2] ||FJX-FLUX |- |1 ||(I,J,L) ||Direct UV flux in bin ||[W/m2] ||FJX-FLUX |- |1 ||(I,J,L) ||Diffuse UV flux in bin ||[W/m2] ||FJX-FLUX ||ND65 ||Dimension ||PRODUCTION/LOSS OF SPECIFIED CHEMICAL FAMILIES ||Units ||Category |- |1 ||(I,J,L,N) ||Chemical family P/L rates. Users can define which species/ families to output in input.geos. ||[molec/cm3/s] ||PORL-L=$ ||ND66 ||Dimension ||GMAO (formerly DAO) 3-D met fields ||Units ||Category |- |1 ||(I,J,L) ||UWND : U-winds ||[m/s] ||DAO-3D-$ |- |2 ||(I,J,L) ||VWND : V-winds ||[m/s] ||DAO-3D-$ |- |3 ||(I,J,L) ||TMPU : Temperature ||[K] ||DAO-3D-$ |- |4 ||(I,J,L) ||SPHU : Specific humidity ||[g H20/kg air] ||DAO-3D-$ |- |5 ||(I,J,L) ||CLDMAS : Convective Mass Flux ||[kg/m2/s] ||DAO-3D-$ |- |6 ||(I,J,L) ||DTRAIN : Detrainment Flux ||[kg/m2/s] ||DAO-3D-$ ||ND67 ||(I,J) ||GMAO (formerly DAO) 2-D met fields ||Units ||Category |- |1 ||(I,J) ||HFLUX: sensible heat flux from surface ||[W/m2] ||DAO-FLDS |- |2 ||(I,J) ||RADSWG: solar radiation at the ground ||For GEOS-5, this is the net radiation @ ground (SWGNET) ||For MERRA, this is the incident radiation @ ground (SWGDN) ||[W/m2] ||DAO-FLDS |- |3 ||(I,J) ||PREACC: total precipitation at the ground ||For GEOS-5 and MERRA, this field is named PRECTOT ||[mm/day] ||DAO-FLDS |- |4 ||(I,J) ||PRECON: total convective precipitation at the ground ||For GEOS-5 and MERRA, this field is named PRECCON ||[mm/day] ||DAO-FLDS |- |5 ||(I,J) ||TS: surface air temperature ||NOTE: For GEOS-4, GEOS-5, and MERRA, this is really the air temperature at 2 m altitude above the surface. ||[K] ||DAO-FLDS |- |6 ||(I,J) ||RADSWT: solar radiation at the top of the atmosphere ||[W/m2] ||DAO-FLDS |- |7 ||(I,J) ||USTAR: friction velocity ||[m/s] ||DAO-FLDS |- |8 ||(I,J) ||Z0: surface roughness height ||[m] ||DAO-FLDS |- |9 ||(I,J) ||PBL (aka PBLM): planetary boundary layer depth ||[hPa] ||DAO-FLDS |- |10 ||(I,J) ||CLDFRC: column cloud fraction ||[0 - 1] ||DAO-FLDS |- |11 ||(I,J) ||U10M: U-winds at 10 meters altitude ||[m/s] ||DAO-FLDS |- |12 ||(I,J) ||V10M: V-winds at 10 meters altitude ||[m/s] ||DAO-FLDS |- |13 ||(I,J) ||PS-PBL: Boundary Layer Top Pressure ||[hPa] ||DAO-FLDS |- |14 ||(I,J) ||ALBD: Surface Albedo ||[unitless] ||DAO-FLDS |- |15 ||(I,J) ||PHIS: Geopotential Heights ||[m] ||DAO-FLDS |- |16 ||(I,J) ||CLTOP : Cloud Top Height ||[levels] ||DAO-FLDS |- |17 ||(I,J) ||TROPP: Tropopause pressure (read directly from the met fields, without any further processing). For more information see our dynamic tropopause wiki page. ||[hPa] ||DAO-FLDS |- |18 ||(I,J) ||SLP: Sea Level pressure (read directly from the met fields) ||[hPa] ||DAO-FLDS |- |19 ||(I,J) ||TSKIN : Ground / Sea Surface Temp ||[K] ||DAO-FLDS |- |20 ||(I,J) ||PARDF : Photosynthetically active diffuse radiation ||[W/m2] ||DAO-FLDS |- |21 ||(I,J) ||PARDR : Photosynthetically active direct radiation ||[W/m2] ||DAO-FLDS |- |22 ||(I,J) ||GWETTOP: Top soil wetness ||[unitless] ||DAO-FLDS ||ND68 ||Dimension ||GRID BOX QUANTITIES ||Units ||Category |- |1 ||(I,J,L) ||BXHEIGHT: Grid box heights ||[m] ||BXHGHT-$ |- |2 ||(I,J,L) ||AD: Air mass in grid box ||[kg] ||BXHGHT-$ |- |3 ||(I,J,L) ||AVGW : Mixing ratio of water vapor ||[v/v] ||BXHGHT-$ |- |4 ||(I,J,L) ||N_AIR: Air number density ||[molec air/m3] ||BXHGHT-$ ||ND69 ||Dimension ||GRID BOX SURFACE AREAS ||Units ||Category |- |1 ||(I,J) ||DXYP: grid box surface areas ||[m2] ||DXYP ||ND70 ||Dimension ||DEBUG OUTPUT ||Units ||Category ||Turn on debug output statements (LPRT = T) ||ND71 ||Dimension ||HOURLY MAX MIXING RATIO ||Units ||Category |- |1 ||(I,J,N) ||Hourly maximum tracer mixing ratio at the surface ||[v/v] ||IJ-MAX-$ ||ND72 ||Dimension ||RADIATION OUTPUT ||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-$