GEOS-5 Chemistry Transport Model User’s Guide · 2015-11-07 · GEOS-5 Chemistry Transport Model...
Transcript of GEOS-5 Chemistry Transport Model User’s Guide · 2015-11-07 · GEOS-5 Chemistry Transport Model...
Global Modeling and Assimilation Office
GMAO Office Note No. 8 (Version 1.0)
GEOS-5 Chemistry Transport Model User’s Guide
Release Date: 09/04/2015
Global Modeling and Assimilation OfficeEarth Sciences DivisionNASA Goddard Space Flight CenterGreenbelt, Maryland 20771
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https://ntrs.nasa.gov/search.jsp?R=20150020830 2020-02-11T16:04:42+00:00Z
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GEOS-5 Chemistry Transport ModelUser’s Guide
Document maintained by Jules Kouatchou (NASA/GSFC)
This document should be cited as:
Kouatchou, J., A. Molod, J. E. Nielsen, B. Auer, W. Putman and T. Clune, GEOS-5 ChemistryTransport Model User’s Guide. GMAO Office Note No. 8 (Version 1.0), 26 pp, available fromhttp://gmao.gsfc.nasa.gov/pubs/office_notes.
Approved by:
Steven Pawson DateChief, Global Modeling and Assimilation OfficeCode 610.1, NASA GSFC
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REVISION HISTORY
Version Revision Date Extent of Changes1.0 09/04/2015 Baseline
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Abstract:The Goddard Earth Observing System version 5 (GEOS-5) General Circulation Model (GCM)makes use of the Earth System Modeling Framework (ESMF) to enable model configurations withmany functions. One of the options of the GEOS-5 GCM is the GEOS-5 Chemistry Transport Model(GEOS-5 CTM), which is an offline simulation of chemistry and constituent transport driven by aspecified meteorology and other model output fields. This document describes the basic componentsof the GEOS-5 CTM, and is a user’s guide on to how to obtain and run simulations on the NCCSDiscover platform. In addition, we provide information on how to change the model configurationinput files to meet users’ needs.
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Contents
1 Background . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 Obtaining the Code . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 Compiling the code . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24 Running the Code . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25 Changing Default Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
5.1 CTM_GridComp.rc File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35.2 Duration of Experiment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45.3 ExtData Component . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45.4 Ouputting Variables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Bibliography . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5Appendix A: Meteorological Fields for GMI . . . . . . . . . . . . . . . . . . . . . . . . . . 8Appendix B: Using the GEOS-5 CTM CC for Producing Diagnostics . . . . . . . . . . . . 8Appendix C: Export State Variables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
3.1 pCHEM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 103.2 GMI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 103.3 GOCART . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
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1 Background
The GEOS-5 Chemistry Transport Model (CTM) integrates one configurable CTM with options forrunning any chemistry module currently available within the GEOS-5 GCM code base. It uses theGEOS-5 Earth System Modeling Framework (ESMF) infrastructure (MAPL, the "History" com-ponent and the "ExtData" component) and the GEOS-5 advection component (AdvCore) to drivethe GEOS-5 Chemistry component (that includes options for the Global Modeling Initiative (GMI)[Logan et al., 2003], the Global Ozone Chemistry Aerosol Radiation and Transport (GOCART)[Chin et al., 2000], GEOS-Chem [Bey et al., 2001], etc.). Detailed information about the GEOS-5CTM is available in [Kouatchou et al., 2015].The main components of GEOS-5 CTM are:
AdvCore : the transport componet which source code is part of the GEOS-5 directory FVdycore-Cubed_GridComp/.
Chemistry : the GEOS-5 Chemistry component which contains all the options for chemistry mod-els available in GEOS-5 GCM, such as GOCART, GMI, GEOS-Chem, etc. The entire GEOS-5GEOSchem_GridComp/ defines this component.
Diffusion : component where various diffusion methods are implemented.
Convection : component where various convection methods are implemented.
GEOS-5 CTM Cinderella : a component which primary role is to provide services to the othercomponents. For instance, it will compute the courant numbers and mass fluxes (using thewinds and pressure) for AdvCore.
They are shown in Figure 1.
Figure 1: Flow diagram of the main components of GEOS-5 CTM.
2 Obtaining the Code
It is assumed that we have access to the GEOS-5 CVS repository and that we have the settings:
setenv CVS_RSH sshsetenv CVSROOT :ext:[email protected]:/cvsroot/esma
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where userID is our NCCS username.The latest version of GEOS-5 CTM (as of August 2015) is under the tag name:
Heracles-3_1_CTM
To obtain the code, use the cvs command:
cvs co -r Heracles-3_1_CTM GEOSctm
We will then get the directory GEOSctm/. The basic directory structure of the code is:
src/src/Config/src/GMAO_Shared/src/Applications/src/Applications/GEOSctm_Appsrc/GEOSctm_GridComp/src/GEOSctm_GridComp/CTMconvection_GridComp/src/GEOSctm_GridComp/CTMdiffusion_GridComp/src/GEOSctm_GridComp/CTMpTracers_GridComp/src/GEOSctm_GridComp/FVdycoreCubed_GridComp/src/GEOSctm_GridComp/GEOSchem_GridComp/
The GEOS-5 CTM Cinderella component (used to derived variables) is included in the file:
src/GEOSctm_GridComp/GEOS_ctmEnvGridComp.F90
3 Compiling the code
To compile the code, go to the directory:
GEOSctm/src/
and issue the command (that does a parallel compilation):
./parallel_build.csh
(we should be ready to provide our sponsor code account). The executable, GEOSctm.x, will be inthe directory:
GEOSctm/Linux/bin
4 Running the Code
In order to run GEOS-5 CTM, a "setup" script is available with a suite of default configurations.Go to the directory GEOSctm/src/Applications/GEOSctm_App/ and run the script:
./ctm_setup
We will answer a series of questions to determine the model configuration (horizontal resolution, typeof Chemistry, driving dataset, etc.) we are interested in. Table 1 shows the possible configurationoptions.The script will automatically generate configuration files and run scripts. In our experiment direc-tory, it will create:
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Chemistry Passive Tracer, pChem, GOCART, GMI, GOCART_Data
Driving Dataset MERRA, FP, FP-IT, MERRA2
Horizontal Resolution (deg) 2, 1, 1/2, 1/4, 1/8, 1/16
Table 1: Configuration options of GEOS-5 CTM.
CAP.rc: file containing information on start date & time,end date & time of job segment, duration of jobsegment, stop date & time of entire experiment.
HISTORY.rc: file for selecting the type of diagnostics to be producedctm_run.j: SLURM script for submitting the jobRC/ contains all the resource files needed to drive the modelCTM_GridComp.rc: file for turning on/off Convection, Diffusion
and for selecting the type of meteorologicaldriving (MERRA or MERRA2)
GEOSCTM.rc: file for setting model parametersMAPL_ExtData.rc file needed by ExtData to read external data files
Before submitting, create the file:
cap_restart: ASCII file containing (single line) starting thedate (YYYYMMDD) and time (HHMMSS) of the job segmentin the format: YYYYMMDD HHMMSS
and then issue the command:
qsub ctm_run.j
At run time, the following directories will be created:
holding/: location where output files are moved to after asuccessful run.
restart/: location of restart files generated by the modelscratch/: temporary directory used to keep necessary files
while the code is running
Remark 1 If we choose to use MERRA2 driving datasets (default option), the ctm_setup scriptwill generate the file MERRA2_ExtData.rc.tmpl instead of MAPL_ExtData.rc. At run time,the SLURM script ctm_run.j manipulates MERRA2_ExtData.rc.tmpl to create a file similar toMAPL_ExtData.rc.
5 Changing Default Configuration
5.1 CTM_GridComp.rc File
The CTM_GridComp.rc file is used to set options for Convection, Diffusion and the type meteoro-logical data.
Meteorological Data
We need to set the variable metType that has two options: MERRA2 (default, can also be used forFP-IT data) and MERRA (for MERRA data).
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Convection
By default, Convection is activated for GMI and not for other configurations. In case we want toexercise Convection for non-GMI experiments, we need to set:
do_ctmConvection: TconvecType: 1 # convective transport only
Diffusion
By default, Duffusion is activated all configurations but Passive Tracer. In case we want to exerciseDiffusion, we need to set:
do_ctmDiffusion: T
5.2 Duration of Experiment
In the process of generating the configuration scripts, the following files were created:
• CAP.rc: contains begin/end date and time of entire job, stop date, duration (in days) of eachjob segment.
• ctm_run.j : SLURM script
• cap_restart : contains two numbers pointing to the starting date YYYYMMDD and startinghour HHMMSS of the job.
Assume that we want to carry out a 12-month experiment with January 1, 2005 as starting date.We want to run one month at the time. The file cap_restart will have
20050101 000000
and the file CAP.rc will have the settings:
BEG_DATE: 20000101 000000END_DATE: 20060101 000000JOB_SGMT: 00000031 000000
Note that the stop date END_DATE is January 1, 2006. We will need to submit the PBS script:
qsub ctm_run.j
When the first job segment is completed (for January 2005), the script will resubmit itself. The filecap_restart will automatically be updated to contain
20050201 000000
5.3 ExtData Component
GEOS-5 contains the Gridded Component ExtData that has the ability to read from external filesvariables needed by the model. ExtData
• Relies on a resource file that lists the variables to be read in. Each variable is represented withthe following information: short name, dimension, unit, path to netCDF/hdf file containingthe variable, variable name in the file, reading frequency, etc.
• Can perform unit conversion. It has basic scaling and offset calculations.
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• Does time interpolation.
• Does regridding.
• Is called at every time step before all the other run methods (Physics, Dynamics).
• Is the last ESMF gridded component the entire code will rely on to look for the availabilityof a given variable (requested by another ESMF gridded component). If the variable cannotbe provided, the code will abort.
Create/Edit the file MAPL_ExtData.rc:This resource file (to be located in the running directory) is read by the ExtData component andshould contain information on the variables to be extracted from the files.PrimaryExports::# ---------|--------------|-----|-----|------|----------------------|--------|-------|---------------------------------# Export | | | V | |_______ Refresh ______|____ Factors ___|________ External File __________# Name | Units | Dim | Loc | Clim | Time Template | Offset | Scale | Variable | Template# ---------|--------------|-----|-----|------|----------------------|--------|-------|----------|----------------------
ZPBL ’m’ xy C N N 0 0.0 1.0 PBLH MERRA2_400.tavg1_2d_flx_Nx.%y4%m2%d2.nc4FRLAND ’1’ xy C Y N 0 0.0 1.0 FRLAND MERRA2_400.const_2d_asm_Nx.climatology.nc4T ’K’ xyz C N N 0 0.0 1.0 T MERRA2_400.inst3_3d_asm_Nv.%y4%m2%d2.nc4PLE ’Pa’ xyz E N N 0 0.0 1.0 PLE MERRA2_400.tavg3_3d_nav_Ne.%y4%m2%d2.nc4
where:
Export Name: The variable name as written in Import State declaration.
Units: The unit of the variable.
Dim: Variable dimension (xy or xyz)
V Loc: Can have either ’C’ (center) of ’E’ (edge).
Clim: Determine if the reading will be cyclic (Y) or not (N).
Factors: Offset and Scale for unit vonversion.
External File: The variable name as it appears in the file and the location where the external fileresides.
5.4 Ouputting Variables
Component Names
To produce a field by the HISTORY component, it is important to know the acronym of thecomponent which owns it. Table 2 lists the main component names and their acronyms.
HISTORY Settings
The contents of the the file HISTORY.rc tell the model what and how to output its state anddiagnostic fields. To learn the proper settings in HISTORY.rc, visit the website:
http://geos5.org/wiki/index.php?title=Ganymed_4.1_User’s_Guide#Determining_Output:_HISTORY.rc
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Long Name Name in HISTORY.rc
GEOS-5 CTM Cinderella CTMenvGEOSchem Cinderella CHEMENVPassive Tracer TRGOCART GOCARTGMI GMICHEMConvection CONVECTIONDiffusion DIFFUSION
Table 2: Component Names and Acronymes Used in HISTORY.rc.
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Bibliography
[Bey et al., 2001] Bey, I., Jacob, D. J., M.Yantosca, R., Logan, J. A., Filed, B. D., Fiore, A. M.,Li, Q., Liu, H. Y., Mickley, L. J., and Schiltz, M. G. (2001). Global modeling of troposphericchemistry with assimilated meteorology: Model description and evaluation,. J. Geophys. Res.,106:23073–23095.
[Chin et al., 2000] Chin, M., Rood, R. B., Lin, S.-J., Muller, J., and Thompson, A. (2000). At-mospheric sulfur cycle simulated in the global model GOCART: model description and globalproperties. J. Geophys. Res., 105:24671–24687.
[Kouatchou et al., 2015] Kouatchou, J., Clune, T., Molod, A., Putman, W., Auer, B., Nielsen, J. E.,da Silva, A., Strahan, S., and Steenrod, S. (2015). GEOS-5 CTM: A new ESMF-based frameworkfor a generalized chemistry transport model. Geosci. Model Dev. submitted.
[Logan et al., 2003] Logan, J. A., Bergmann, D., Rodriguez, J., Chatfield, R., Considine, D., Wang,Y., Jacob, D., Prather, M., Rotman, D., and Cameron-Smith, P. (2003). Evaluation of tropo-spheric chemistry simulations for the Global Modeling Initiative (GMI). Geophysical ResearchAbstracts, 5.
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Appendix A: Meteorological Fields for GMI
Below is a the list of typical meteorological related variables required to run the GMI configuration.
------------------------------------------------------------------------Short Name Long Name Unit------------------------------------------------------------------------AIRDENS air density kg m-3ALBVF surface albedo for visible diffuse 1ASNOW fractional area of land snowcover 1CLDTT total cloud area fraction 1CN_PRCP convective precipitation kg m-2 s-1CNV_MFC cumulative mass flux kg m-2 s-1CNV_MFD detraining mass flux kg m-2 s-1DFPAR surface downwelling par diffuse flux W m-2DQDT specific humidity tendency due to moist s-1DRPAR surface downwelling par beam flux W m-2FCLD cloud fraction for radiation 1FRACI ice covered fraction of tile 1FRLAKE fraction of lake 1FRLAND fraction of land 1FRLANDICE fracrion of land-ice 1GRN greeness fraction 1LAI leaf area index 1LFR lightning flash rate km-2 s-1LWI land-ocean-ice mask 1PFL_CN 3D flux of liquid convective precipitation kg m-2 s-1PFL_LSAN 3D flux of liquid non convective precipitation kg m-2 s-1PLE air pressure PaPS surface pressure PaQ specific humidity 1QL cloud liquid for radiation 1RH2 relative humidity after moist 1SWNDSRF surface net downward shortwave flux W m-2T temperature KT2M 2-meter air temperature KTA surface air temperature KTAUCLW optical thickness for liquid clouds 1TAUCLI optical thickness for ice clouds 1TPREC total precipitation kg m-2 s-1TROPP tropopause pressure based on blended estimate PaU eastward wind m s-1U10M 10-meter eastward wind m s-1USTAR surface velocity scale m s-1V northward wind m s-1V10M 10-meter northward wind m s-1WET1 surface soil wetness 1Z0H surface roughness for heat mZPBL Planetary boundary layer height mZLE geopotential height m-------------------------------------------------------------------------
Appendix B: Using the GEOS-5 CTM CC for Producing Diagnostics
The GEOS-5 CTM Cinderella component (CC) can be used to produce diagnostics variables. Usersmay want the model to output meteorological fields (that are in external data files) at the same
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resolution as that of the other diagnostics. Simple code modifications can be done in CC to achieveit. Assume that we want to write out specific humidity. The following changes will be introducedin CC:
SetServices-----------
call MAPL_AddImportSpec(GC, &SHORT_NAME = ’Q’, &LONG_NAME = ’specific_humidity’, &UNITS = ’kg kg-1’, &
DIMS = MAPL_DimsHorzVert, &VLOCATION = MAPL_VLocationCenter, RC=STATUS )
VERIFY_(STATUS)
call MAPL_AddExportSpec(GC, &SHORT_NAME = ’Q’, &LONG_NAME = ’specific_humidity’, &UNITS = ’kg kg-1’, &
DIMS = MAPL_DimsHorzVert, &VLOCATION = MAPL_VLocationCenter, RC=STATUS )
VERIFY_(STATUS)
RUN---
real, pointer, dimension(:,:,:) :: imQ => null()real, pointer, dimension(:,:,:) :: exQ => null()
call MAPL_GetPointer ( IMPORT, imQ, ’Q’, __RC__ )call MAPL_GetPointer ( IMPORT, exQ, ’Q’, __RC__ )exQ = imQ
In the HISTORY.rc file, we will need the setting:
’Q’ , ’CTMenv’ ,
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|GM
ICHE
M|
kgkg
-1|
xyz
|pr
escr
ibed
sea
salt
bin
3fr
omGM
ICHE
MGM
ICHE
Mss0
04|
GMIC
HEM
|kg
kg-1
|xy
z|
pres
crib
edse
asa
ltbi
n4
from
GMIC
HEM
GMIC
HEMs
s005
|GM
ICHE
M|
kgkg
-1|
xyz
|pr
escr
ibed
sea
salt
bin
5fr
omGM
ICHE
MGM
ICHE
MSO4
|GM
ICHE
M|
kgkg
-1|
xyz
|pr
escr
ibed
sulf
ate
from
GMIC
HEM
REFF
ICE
|GM
ICHE
M|
cm|
xyz
|ic
eae
roso
lef
fect
ive
radi
usRE
FFST
S|
GMIC
HEM
|cm
|xy
z|
STS
aero
sol
effe
ctiv
era
dius
VFAL
L|
GMIC
HEM
|cm
s-1
|xy
z|
effe
ctiv
eae
roso
lfa
llve
loci
tyHO
2PBL
FLAG
|GM
ICHE
M|
0-1
|xy
z|
PBL
flag
for
HO2
loss
inae
roso
lsEM
ISOP
SFC
|GM
ICHE
M|
kgm-
2s-
1|
xy|
surf
ace
emis
sion
ofis
opre
neEM
NOX
|GM
ICHE
M|
kgm-
2s-
1|
xy|
surf
ace
emis
sion
ofod
dni
trog
enEM
MONO
T|
GMIC
HEM
|kg
m-2
s-1
|xy
|su
rfac
eem
issi
onof
mono
terp
enes
EMBI
OCOM
ETH
|GM
ICHE
M|
kgm-
2s-
1|
xy|
biog
enic
sour
ceof
COfr
omox
idat
ion
ofme
than
olEM
BIOC
OMON
OT|
GMIC
HEM
|kg
m-2
s-1
|xy
|bi
ogen
icso
urce
ofCO
from
oxid
atio
nof
mono
terp
enes
EMBI
OPRO
PENE
|GM
ICHE
M|
kgm-
2s-
1|
xy|
biog
enic
sour
ceof
prop
ene
EMSO
ILNO
X|
GMIC
HEM
|kg
m-2
s-1
|xy
|so
ilso
urce
ofod
dni
trog
enEM
SHIP
HNO3
|GM
ICHE
M|
kgm-
2s-
1|
xy|
surf
ace
ship
sour
ceof
nitr
icac
idEM
SHIP
O3|
GMIC
HEM
|kg
m-2
s-1
|xy
|su
rfac
esh
ipso
urce
ofoz
one
EM_N
O|
GMIC
HEM
|--
->|
xyz
|ni
trou
sox
ide
emis
sion
s[m
olmo
l-1
s-1]
EM_C
O|
GMIC
HEM
|--
->|
xyz
|ca
rbon
mono
xide
emis
sion
s[m
olmo
l-1
s-1]
EM_M
EK|
GMIC
HEM
|--
->|
xyz
|me
thyl
ethy
lke
tone
(C4H
8O)
emis
sion
s[m
olmo
l-1
s-1]
EM_P
RPE
|GM
ICHE
M|
--->
|xy
z|
prop
ene
(C3H
6)em
issi
ons
[mol
mol-
1s-
1]EM
_C2H
6|
GMIC
HEM
|--
->|
xyz
|et
hane
emis
sion
s[m
olmo
l-1
s-1]
EM_C
3H8
|GM
ICHE
M|
--->
|xy
z|
prop
ane
emis
sion
s[m
olmo
l-1
s-1]
EM_A
LK4
|GM
ICHE
M|
--->
|xy
z|
C45
alka
nes
(C4H
10)
emis
sion
s[m
olmo
l-1
s-1]
EM_A
LD2
|GM
ICHE
M|
--->
|xy
z|
acet
alde
hyde
(C2H
4O)
emis
sion
s[m
olmo
l-1
s-1]
EM_C
H2O
|GM
ICHE
M|
--->
|xy
z|
form
alde
hyde
emis
sion
s[m
olmo
l-1
s-1]
EM_A
CET
|GM
ICHE
M|
--->
|xy
z|
acet
one
emis
sion
s[m
olmo
l-1
s-1]
EM_C
H4|
GMIC
HEM
|--
->|
xyz
|me
than
eem
issi
ons
[mol
mol-
1s-
1]EM
_LGT
NO|
GMIC
HEM
|--
->|
xyz
|NO
emis
sion
sfr
omli
ghtn
ing
[mol
mol-
1s-
1]SZ
APHO
T|
GMIC
HEM
|de
g|
xy|
sola
rze
nith
angl
efo
rGM
Iche
mph
otol
ysis
DUST
OD|
GMIC
HEM
|1
|xy
z|
dust
opti
cal
dept
h(4
00nm
)DU
STSA
|GM
ICHE
M|
cm+2
cm-3
|xy
z|
dust
surf
ace
area
SO4O
D|
GMIC
HEM
|1
|xy
z|
sulf
ate
opti
cal
dept
h(4
00nm
)
11
SO4H
YGRO
|GM
ICHE
M|
1|
xyz
|hy
gros
copi
cgr
owth
ofsu
lfat
eSO
4SA
|GM
ICHE
M|
cm+2
cm-3
|xy
z|
sulf
ate
surf
ace
area
BCOD
|GM
ICHE
M|
1|
xyz
|bl
ack
carb
onop
tica
lde
pth
(400
nm)
BCHY
GRO
|GM
ICHE
M|
1|
xyz
|hy
gros
copi
cgr
owth
ofbl
ack
carb
onBC
SA|
GMIC
HEM
|cm
+2cm
-3|
xyz
|bl
ack
carb
onsu
rfac
ear
eaOC
OD|
GMIC
HEM
|1
|xy
z|
orga
nic
carb
onop
tica
lde
pth
(400
nm)
OCHY
GRO
|GM
ICHE
M|
1|
xyz
|hy
gros
copi
cgr
owth
ofor
gani
cca
rbon
OCSA
|GM
ICHE
M|
cm+2
cm-3
|xy
z|
orga
nic
carb
onsu
rfac
ear
eaSS
AOD
|GM
ICHE
M|
1|
xyz
|ac
cumu
late
dse
asa
ltop
tica
lde
pth
(400
nm)
SSAH
YGRO
|GM
ICHE
M|
1|
xyz
|hy
gros
copi
cgr
owth
ofac
cumu
late
dse
asa
ltSS
ASA
|GM
ICHE
M|
cm+2
cm-3
|xy
z|
accu
mula
ted
sea
salt
surf
ace
area
SSCO
D|
GMIC
HEM
|1
|xy
z|
coar
sese
asa
ltop
tica
lde
pth
(400
nm)
SSCH
YGRO
|GM
ICHE
M|
1|
xyz
|hy
gros
copi
cgr
owth
ofco
arse
sea
salt
SSCS
A|
GMIC
HEM
|cm
+2cm
-3|
xyz
|co
arse
sea
salt
surf
ace
area
O3|
GMIC
HEM
|kg
kg-1
|xy
z|
ozon
ema
ssmi
rati
oO3
PPMV
|GM
ICHE
M|
ppmv
|xy
z|
ozon
ema
ssmi
rati
oin
ppm
OX_T
END
|GM
ICHE
M|
--->
|xy
z|
tend
ency
ofod
dox
ygen
mixi
ngra
tio
due
toch
emis
try
[kg
kg-1
s-1]
H2O_
TEND
|GM
ICHE
M|
--->
|xy
z|
tend
ency
ofwa
ter
vapo
rmi
rati
odu
eto
chem
istr
y[k
gkg
-1s-
1]GM
ITO3
|GM
ICHE
M|
dobs
ons
|xy
|to
tal
ozon
eGM
ITTO
3|
GMIC
HEM
|do
bson
s|
xy|
tota
ltr
opos
pher
icoz
one
GMIT
ROPP
|GM
ICHE
M|
Pa|
xy|
trop
opau
sepr
essu
reus
edin
GMIC
HEM
AGCM
TROP
P|
GMIC
HEM
|Pa
|xy
|tr
opop
ause
pres
sure
impo
rted
into
GMIC
HEM
GMIH
2O|
GMIC
HEM
|mo
lmo
l-1
|xy
z|
gas
phas
ewa
ter
from
GMIC
HEM
AERO
|GM
Iche
m|
kgkg
-1|
xyz
|ae
roso
lma
ssmi
rati
osAE
RO_D
P|
GMIc
hem
|kg
m-2
s-1
|xy
|ae
roso
lde
posi
tion
HNO3
COND
sad
|GM
Iche
m|
--->
|xy
z|
cond
ense
dph
ase
hno3
[mix
ing_
rati
o]HN
O3GA
Ssad
|GM
Iche
m|
--->
|xy
z|
gas
phas
e-hn
o3[m
ixin
g_ra
tio]
jNO2
val
|GM
Iche
m|
s^-1
|xy
|ph
otol
ysis
rate
cons
tant
sfo
rNO
gmiS
AD|
GMIc
hem
|cm
^2cm
^3|
xyz
|su
rfac
ear
eade
nsit
ies
gmiQ
J|
GMIc
hem
|cm
3s-
1|
xyz
|ph
otol
ysis
rate
cons
tant
sgm
iQQJ
|GM
Iche
m|
cm-3
s-1
|xy
z|
phot
olys
isre
acti
onra
tes
gmiQ
K|
GMIc
hem
|--
->|
xyz
|th
erma
lra
teco
nsta
nts
[2-3
body
_var
ies]
gmiQ
QK|
GMIc
hem
|cm
-3s-
1|
xyz
|th
erma
lre
acti
onra
tes
gmiE
RADI
US|
GMIc
hem
|cm
|xy
z|
Aero
sol
Dust
Radi
igm
iTAR
EA|
GMIc
hem
|cm
^2cm
^3|
xyz
|su
rfac
ear
eaae
roso
ldu
st--
----
----
----
--|-
----
----
---|
----
----
----
|---
----
|---
----
----
----
----
----
----
----
----
----
----
----
----
-
12
3.3
GO
CA
RT
Notethat
thecompo
nent
names
onthelistreferto
thesubc
ompo
nentsof
GOCART.IntheHISTORY.rcfile,
useGOCART
asthecompo
nent
who
owns
each
variab
leon
thelist.
----
----
----
----
|---
----
----
-|--
----
----
--|-
----
--|-
----
----
----
----
----
----
----
----
----
----
----
----
---
Name
|Co
mpon
ent
|Un
its
|Di
m|
Long
Name
----
----
----
----
|---
----
----
-|--
----
----
--|-
----
--|-
----
----
----
----
----
----
----
----
----
----
----
----
---
BCMA
SS|
BC|
kgkg
|xy
z|
Blac
kCa
rbon
Mass
Mixi
ngRa
tio
BCCO
NC|
BC|
kgm-
3|
xyz
|Bl
ack
Carb
onMa
ssCo
ncen
trat
ion
BCEX
TCOE
F|
BC|
m-1
|xy
z|
Blac
kCa
rbon
Exti
ncti
onCo
effi
cien
t[5
50nm
]BC
SCAC
OEF
|BC
|m-
1|
xyz
|Bl
ack
Carb
onSc
atte
ring
Coef
fici
ent
[550
nm]
BCEM
001
|BC
|kg
m-2
s-1
|xy
|Bl
ack
Carb
onEm
issi
onBi
n00
1BC
EM00
2|
BC|
kgm-
2s-
1|
xy|
Blac
kCa
rbon
Emis
sion
Bin
002
BCSD
001
|BC
|kg
m-2
s-1
|xy
|Bl
ack
Carb
onSe
dime
ntat
ion
Bin
001
BCSD
002
|BC
|kg
m-2
s-1
|xy
|Bl
ack
Carb
onSe
dime
ntat
ion
Bin
002
BCDP
001
|BC
|kg
m-2
s-1
|xy
|Bl
ack
Carb
onDr
yDe
posi
tion
Bin
001
BCDP
002
|BC
|kg
m-2
s-1
|xy
|Bl
ack
Carb
onDr
yDe
posi
tion
Bin
002
BCWT
001
|BC
|kg
m-2
s-1
|xy
|Bl
ack
Carb
onWe
tDe
posi
tion
Bin
001
BCWT
002
|BC
|kg
m-2
s-1
|xy
|Bl
ack
Carb
onWe
tDe
posi
tion
Bin
002
BCSV
001
|BC
|kg
m-2
s-1
|xy
|Bl
ack
Carb
onCo
nvec
tive
Scav
engi
ngBi
n00
1BC
SV00
2|
BC|
kgm-
2s-
1|
xy|
Blac
kCa
rbon
Conv
ecti
veSc
aven
ging
Bin
002
BCHY
PHIL
|BC
|kg
m-2
s-1
|xy
|Bl
ack
Carb
onHy
drop
hobi
cto
Hydr
ophi
lic
BCEM
AN|
BC|
kgm-
2s-
1|
xy|
Blac
kCa
rbon
Anth
ropo
geni
cEm
issi
ons
BCEM
BB|
BC|
kgm-
2s-
1|
xy|
Blac
kCa
rbon
Biom
ass
Burn
ing
Emis
sion
sBC
EMBF
|BC
|kg
m-2
s-1
|xy
|Bl
ack
Carb
onBi
ofue
lEm
issi
ons
BCSM
ASS
|BC
|kg
m-3
|xy
|Bl
ack
Carb
onSu
rfac
eMa
ssCo
ncen
trat
ion
BCCM
ASS
|BC
|kg
m-2
|xy
|Bl
ack
Carb
onCo
lumn
Mass
Dens
ity
BCEX
TTAU
|BC
|1
|xy
|Bl
ack
Carb
onEx
tinc
tion
AOT
[550
nm]
BCSC
ATAU
|BC
|1
|xy
|Bl
ack
Carb
onSc
atte
ring
AOT
[550
nm]
BCAN
GSTR
|BC
|1
|xy
|Bl
ack
Carb
onAn
gstr
ompa
rame
ter
[470
-870
nm]
BCFL
UXU
|BC
|kg
m-1
s-1
|xy
|Bl
ack
Carb
onco
lumn
u-wi
ndma
ssfl
uxBC
FLUX
V|
BC|
kgm-
1s-
1|
xy|
Blac
kCa
rbon
colu
mnv-
wind
mass
flux
CFC1
2S|
CFC
|mo
lmo
l-1
|xy
z|
Stra
tosp
heri
cCF
C-12
(CCl
2F2)
CFC1
2T|
CFC
|mo
lmo
l-1
|xy
z|
Trop
osph
eric
CFC-
12(C
Cl2F
2)CF
C12E
M|
CFC
|kg
m-2
s-1
|xy
|CF
C-12
Emis
sion
CFC1
2SLS
|CF
C|
m-3
s-1
|xy
z|
Stra
tosp
heri
cCF
C-12
Loss
CFC1
2TLS
|CF
C|
m-3
s-1
|xy
z|
Trop
osph
eric
CFC-
12Lo
ssCF
C12S
CL|
CFC
|kg
m-2
|xy
|St
rato
sphe
ric
CFC-
12Co
lumn
13
CFC1
2TCL
|CF
C|
kgm-
2|
xy|
Trop
osph
eric
CFC-
12Co
lumn
CFC1
2PH
|CF
C|
s-1
|xy
z|
CFC-
12Ph
otor
ate
CH4E
M|
CH4
|kg
m-2
s-1
|xy
|CH
4Em
issi
onEN
SEMB
LECH
4EMa
niml
s|
CH4
|kg
m-2
s-1
|xy
|CH
4Em
issi
onan
imal
sCH
4EMc
oal
|CH
4|
kgm-
2s-
1|
xy|
CH4
Emis
sion
coal
CH4E
Mlea
k|
CH4
|kg
m-2
s-1
|xy
|CH
4Em
issi
onle
akag
eCH
4EMg
asvn
t|
CH4
|kg
m-2
s-1
|xy
|CH
4Em
issi
onga
sve
ntin
gCH
4EMh
ydz
|CH
4|
kgm-
2s-
1|
xy|
CH4
Emis
sion
ocea
nHY
DZCH
4EMm
sw|
CH4
|kg
m-2
s-1
|xy
|CH
4Em
issi
onmu
nici
pal
sewe
rsCH
4EMs
oila
b|
CH4
|kg
m-2
s-1
|xy
|CH
4Em
issi
onso
ilab
sorp
tion
CH4E
Mtrm
ite
|CH
4|
kgm-
2s-
1|
xy|
CH4
Emis
sion
term
ites
CH4E
Mbog
s|
CH4
|kg
m-2
s-1
|xy
|CH
4Em
issi
onbo
gsCH
4EMb
urn
|CH
4|
kgm-
2s-
1|
xy|
CH4
Emis
sion
biom
ass
burn
ing
CH4E
Mric
ec|
CH4
|kg
m-2
s-1
|xy
|CH
4Em
issi
onri
cecu
ltiv
atio
nCH
4EMs
wamp
s|
CH4
|kg
m-2
s-1
|xy
|CH
4Em
issi
onsw
amps
CH4E
Mtun
dra
|CH
4|
kgm-
2s-
1|
xy|
CH4
Emis
sion
tund
raCH
4EMb
f|
CH4
|kg
m-2
s-1
|xy
|CH
4Em
issi
onbi
ofue
lCH
4EMt
ot|
CH4
|kg
m-2
s-1
|xy
|CH
4Em
issi
onto
tal
CH4P
D|
CH4
|kg
m-2
s-1
|xy
|CH
4Ch
emic
alPr
oduc
tion
ENSE
MBLE
CH4P
Dani
mls
|CH
4|
kgm-
2s-
1|
xy|
CH4
Chem
ical
Prod
ucti
onan
imal
sCH
4PDc
oal
|CH
4|
kgm-
2s-
1|
xy|
CH4
Chem
ical
Prod
ucti
onco
alCH
4PDl
eak
|CH
4|
kgm-
2s-
1|
xy|
CH4
Chem
ical
Prod
ucti
onle
akag
eCH
4PDg
asvn
t|
CH4
|kg
m-2
s-1
|xy
|CH
4Ch
emic
alPr
oduc
tion
gas
vent
ing
CH4P
Dhyd
z|
CH4
|kg
m-2
s-1
|xy
|CH
4Ch
emic
alPr
oduc
tion
ocea
nHY
DZCH
4PDm
sw|
CH4
|kg
m-2
s-1
|xy
|CH
4Ch
emic
alPr
oduc
tion
muni
cipa
lse
wers
CH4P
Dsoi
lab
|CH
4|
kgm-
2s-
1|
xy|
CH4
Chem
ical
Prod
ucti
onso
ilab
sorp
tion
CH4P
Dtrm
ite
|CH
4|
kgm-
2s-
1|
xy|
CH4
Chem
ical
Prod
ucti
onte
rmit
esCH
4PDb
ogs
|CH
4|
kgm-
2s-
1|
xy|
CH4
Chem
ical
Prod
ucti
onbo
gsCH
4PDb
urn
|CH
4|
kgm-
2s-
1|
xy|
CH4
Chem
ical
Prod
ucti
onbi
omas
sbu
rnin
gCH
4PDr
icec
|CH
4|
kgm-
2s-
1|
xy|
CH4
Chem
ical
Prod
ucti
onri
cecu
ltiv
atio
nCH
4PDs
wamp
s|
CH4
|kg
m-2
s-1
|xy
|CH
4Ch
emic
alPr
oduc
tion
swam
psCH
4PDt
undr
a|
CH4
|kg
m-2
s-1
|xy
|CH
4Ch
emic
alPr
oduc
tion
tund
raCH
4PDb
f|
CH4
|kg
m-2
s-1
|xy
|CH
4Ch
emic
alPr
oduc
tion
biof
uel
CH4P
Dtot
|CH
4|
kgm-
2s-
1|
xy|
CH4
Chem
ical
Prod
ucti
onto
tal
CH4L
S|
CH4
|kg
m-2
s-1
|xy
|CH
4Ch
emic
alLo
ssEN
SEMB
LECH
4LSa
niml
s|
CH4
|kg
m-2
s-1
|xy
|CH
4Ch
emic
alLo
ssan
imal
sCH
4LSc
oal
|CH
4|
kgm-
2s-
1|
xy|
CH4
Chem
ical
Loss
coal
CH4L
Slea
k|
CH4
|kg
m-2
s-1
|xy
|CH
4Ch
emic
alLo
ssle
akag
eCH
4LSg
asvn
t|
CH4
|kg
m-2
s-1
|xy
|CH
4Ch
emic
alLo
ssga
sve
ntin
g
14
CH4L
Shyd
z|
CH4
|kg
m-2
s-1
|xy
|CH
4Ch
emic
alLo
ssoc
ean
HYDZ
CH4L
Smsw
|CH
4|
kgm-
2s-
1|
xy|
CH4
Chem
ical
Loss
muni
cipa
lse
wers
CH4L
Ssoi
lab
|CH
4|
kgm-
2s-
1|
xy|
CH4
Chem
ical
Loss
soil
abso
rpti
onCH
4LSt
rmit
e|
CH4
|kg
m-2
s-1
|xy
|CH
4Ch
emic
alLo
sste
rmit
esCH
4LSb
ogs
|CH
4|
kgm-
2s-
1|
xy|
CH4
Chem
ical
Loss
bogs
CH4L
Sbur
n|
CH4
|kg
m-2
s-1
|xy
|CH
4Ch
emic
alLo
ssbi
omas
sbu
rnin
gCH
4LSr
icec
|CH
4|
kgm-
2s-
1|
xy|
CH4
Chem
ical
Loss
rice
cult
ivat
ion
CH4L
Sswa
mps
|CH
4|
kgm-
2s-
1|
xy|
CH4
Chem
ical
Loss
swam
psCH
4LSt
undr
a|
CH4
|kg
m-2
s-1
|xy
|CH
4Ch
emic
alLo
sstu
ndra
CH4L
Sbf
|CH
4|
kgm-
2s-
1|
xy|
CH4
Chem
ical
Loss
biof
uel
CH4L
Stot
|CH
4|
kgm-
2s-
1|
xy|
CH4
Chem
ical
Loss
tota
lCH
4SC
|CH
4|
ppbv
|xy
|CH
4Su
rfac
eCo
ncen
trat
ion
ENSE
MBLE
CH4S
Cani
mls
|CH
4|
ppbv
|xy
|CH
4Su
rfac
eCo
ncen
trat
ion
anim
als
CH4S
Ccoa
l|
CH4
|pp
bv|
xy|
CH4
Surf
ace
Conc
entr
atio
nco
alCH
4SCl
eak
|CH
4|
ppbv
|xy
|CH
4Su
rfac
eCo
ncen
trat
ion
leak
age
CH4S
Cgas
vnt
|CH
4|
ppbv
|xy
|CH
4Su
rfac
eCo
ncen
trat
ion
gas
vent
ing
CH4S
Chyd
z|
CH4
|pp
bv|
xy|
CH4
Surf
ace
Conc
entr
atio
noc
ean
HYDZ
CH4S
Cmsw
|CH
4|
ppbv
|xy
|CH
4Su
rfac
eCo
ncen
trat
ion
muni
cipa
lse
wers
CH4S
Csoi
lab
|CH
4|
ppbv
|xy
|CH
4Su
rfac
eCo
ncen
trat
ion
soil
abso
rpti
onCH
4SCt
rmit
e|
CH4
|pp
bv|
xy|
CH4
Surf
ace
Conc
entr
atio
nte
rmit
esCH
4SCb
ogs
|CH
4|
ppbv
|xy
|CH
4Su
rfac
eCo
ncen
trat
ion
bogs
CH4S
Cbur
n|
CH4
|pp
bv|
xy|
CH4
Surf
ace
Conc
entr
atio
nbi
omas
sbu
rnin
gCH
4SCr
icec
|CH
4|
ppbv
|xy
|CH
4Su
rfac
eCo
ncen
trat
ion
rice
cult
ivat
ion
CH4S
Cswa
mps
|CH
4|
ppbv
|xy
|CH
4Su
rfac
eCo
ncen
trat
ion
swam
psCH
4SCt
undr
a|
CH4
|pp
bv|
xy|
CH4
Surf
ace
Conc
entr
atio
ntu
ndra
CH4S
Cbf
|CH
4|
ppbv
|xy
|CH
4Su
rfac
eCo
ncen
trat
ion
biof
uel
CH4S
Ctot
|CH
4|
ppbv
|xy
|CH
4Su
rfac
eCo
ncen
trat
ion
tota
lCH
4CL
|CH
4|
kgm-
2|
xy|
CH4
Colu
mnBu
rden
ENSE
MBLE
CH4C
Lani
mls
|CH
4|
kgm-
2|
xy|
CH4
Colu
mnBu
rden
anim
als
CH4C
Lcoa
l|
CH4
|kg
m-2
|xy
|CH
4Co
lumn
Burd
enco
alCH
4CLl
eak
|CH
4|
kgm-
2|
xy|
CH4
Colu
mnBu
rden
leak
age
CH4C
Lgas
vnt
|CH
4|
kgm-
2|
xy|
CH4
Colu
mnBu
rden
gas
vent
ing
CH4C
Lhyd
z|
CH4
|kg
m-2
|xy
|CH
4Co
lumn
Burd
enoc
ean
HYDZ
CH4C
Lmsw
|CH
4|
kgm-
2|
xy|
CH4
Colu
mnBu
rden
muni
cipa
lse
wers
CH4C
Lsoi
lab
|CH
4|
kgm-
2|
xy|
CH4
Colu
mnBu
rden
soil
abso
rpti
onCH
4CLt
rmit
e|
CH4
|kg
m-2
|xy
|CH
4Co
lumn
Burd
ente
rmit
esCH
4CLb
ogs
|CH
4|
kgm-
2|
xy|
CH4
Colu
mnBu
rden
bogs
CH4C
Lbur
n|
CH4
|kg
m-2
|xy
|CH
4Co
lumn
Burd
enbi
omas
sbu
rnin
gCH
4CLr
icec
|CH
4|
kgm-
2|
xy|
CH4
Colu
mnBu
rden
rice
cult
ivat
ion
15
CH4C
Lswa
mps
|CH
4|
kgm-
2|
xy|
CH4
Colu
mnBu
rden
swam
psCH
4CLt
undr
a|
CH4
|kg
m-2
|xy
|CH
4Co
lumn
Burd
entu
ndra
CH4C
Lbf
|CH
4|
kgm-
2|
xy|
CH4
Colu
mnBu
rden
biof
uel
CH4C
Ltot
|CH
4|
kgm-
2|
xy|
CH4
Colu
mnBu
rden
tota
lCH
4JL
|CH
4|
m-3
s-1
|xy
z|
CH4
Phot
olyt
icLo
ssEN
SEMB
LECH
4JLa
niml
s|
CH4
|m-
3s-
1|
xyz
|CH
4Ph
otol
ytic
Loss
anim
als
CH4J
Lcoa
l|
CH4
|m-
3s-
1|
xyz
|CH
4Ph
otol
ytic
Loss
coal
CH4J
Llea
k|
CH4
|m-
3s-
1|
xyz
|CH
4Ph
otol
ytic
Loss
leak
age
CH4J
Lgas
vnt
|CH
4|
m-3
s-1
|xy
z|
CH4
Phot
olyt
icLo
ssga
sve
ntin
gCH
4JLh
ydz
|CH
4|
m-3
s-1
|xy
z|
CH4
Phot
olyt
icLo
ssoc
ean
HYDZ
CH4J
Lmsw
|CH
4|
m-3
s-1
|xy
z|
CH4
Phot
olyt
icLo
ssmu
nici
pal
sewe
rsCH
4JLs
oila
b|
CH4
|m-
3s-
1|
xyz
|CH
4Ph
otol
ytic
Loss
soil
abso
rpti
onCH
4JLt
rmit
e|
CH4
|m-
3s-
1|
xyz
|CH
4Ph
otol
ytic
Loss
term
ites
CH4J
Lbog
s|
CH4
|m-
3s-
1|
xyz
|CH
4Ph
otol
ytic
Loss
bogs
CH4J
Lbur
n|
CH4
|m-
3s-
1|
xyz
|CH
4Ph
otol
ytic
Loss
biom
ass
burn
ing
CH4J
Lric
ec|
CH4
|m-
3s-
1|
xyz
|CH
4Ph
otol
ytic
Loss
rice
cult
ivat
ion
CH4J
Lswa
mps
|CH
4|
m-3
s-1
|xy
z|
CH4
Phot
olyt
icLo
sssw
amps
CH4J
Ltun
dra
|CH
4|
m-3
s-1
|xy
z|
CH4
Phot
olyt
icLo
sstu
ndra
CH4J
Lbf
|CH
4|
m-3
s-1
|xy
z|
CH4
Phot
olyt
icLo
ssbi
ofue
lCH
4JLt
ot|
CH4
|m-
3s-
1|
xyz
|CH
4Ph
otol
ytic
Loss
tota
lCH
4QP
|CH
4|
--->
|xy
z|
H2O
tend
ency
from
CH4
phot
olys
isEN
SEMB
LE[k
gkg
-1s-
1]CH
4QPa
niml
s|
CH4
|--
->|
xyz
|H2
Ote
nden
cyfr
omCH
4ph
otol
ysis
anim
als
[kg
kg-1
s-1]
CH4Q
Pcoa
l|
CH4
|--
->|
xyz
|H2
Ote
nden
cyfr
omCH
4ph
otol
ysis
coal
[kg
kg-1
s-1]
CH4Q
Plea
k|
CH4
|--
->|
xyz
|H2
Ote
nden
cyfr
omCH
4ph
otol
ysis
leak
age
[kg
kg-1
s-1]
CH4Q
Pgas
vnt
|CH
4|
--->
|xy
z|
H2O
tend
ency
from
CH4
phot
olys
isga
sve
ntin
g[k
gkg
-1s-
1]CH
4QPh
ydz
|CH
4|
--->
|xy
z|
H2O
tend
ency
from
CH4
phot
olys
isoc
ean
HYDZ
[kg
kg-1
s-1]
CH4Q
Pmsw
|CH
4|
--->
|xy
z|
H2O
tend
ency
from
CH4
phot
olys
ismu
nici
pal
sewe
rs[k
gkg
-1s-
1]CH
4QPs
oila
b|
CH4
|--
->|
xyz
|H2
Ote
nden
cyfr
omCH
4ph
otol
ysis
soil
abso
rpti
on[k
gkg
-1s-
1]CH
4QPt
rmit
e|
CH4
|--
->|
xyz
|H2
Ote
nden
cyfr
omCH
4ph
otol
ysis
term
ites
[kg
kg-1
s-1]
CH4Q
Pbog
s|
CH4
|--
->|
xyz
|H2
Ote
nden
cyfr
omCH
4ph
otol
ysis
bogs
[kg
kg-1
s-1]
CH4Q
Pbur
n|
CH4
|--
->|
xyz
|H2
Ote
nden
cyfr
omCH
4ph
otol
ysis
biom
ass
burn
ing
[kg
kg-1
s-1]
CH4Q
Pric
ec|
CH4
|--
->|
xyz
|H2
Ote
nden
cyfr
omCH
4ph
otol
ysis
rice
cult
ivat
ion
[kg
kg-1
s-1]
CH4Q
Pswa
mps
|CH
4|
--->
|xy
z|
H2O
tend
ency
from
CH4
phot
olys
issw
amps
[kg
kg-1
s-1]
CH4Q
Ptun
dra
|CH
4|
--->
|xy
z|
H2O
tend
ency
from
CH4
phot
olys
istu
ndra
[kg
kg-1
s-1]
CH4Q
Pbf
|CH
4|
--->
|xy
z|
H2O
tend
ency
from
CH4
phot
olys
isbi
ofue
l[k
gkg
-1s-
1]CH
4QPt
ot|
CH4
|--
->|
xyz
|H2
Ote
nden
cyfr
omCH
4ph
otol
ysis
tota
l[k
gkg
-1s-
1]CH
4DRY
|CH
4|
mol
mol-
1|
xyz
|CH
4dr
yai
rmo
lefr
acti
onEN
SEMB
LECH
4DRY
anim
ls|
CH4
|mo
lmo
l-1
|xy
z|
CH4
dry
air
mole
frac
tion
anim
als
CH4D
RYco
al|
CH4
|mo
lmo
l-1
|xy
z|
CH4
dry
air
mole
frac
tion
coal
16
CH4D
RYle
ak|
CH4
|mo
lmo
l-1
|xy
z|
CH4
dry
air
mole
frac
tion
leak
age
CH4D
RYga
svnt
|CH
4|
mol
mol-
1|
xyz
|CH
4dr
yai
rmo
lefr
acti
onga
sve
ntin
gCH
4DRY
hydz
|CH
4|
mol
mol-
1|
xyz
|CH
4dr
yai
rmo
lefr
acti
onoc
ean
HYDZ
CH4D
RYms
w|
CH4
|mo
lmo
l-1
|xy
z|
CH4
dry
air
mole
frac
tion
muni
cipa
lse
wers
CH4D
RYso
ilab
|CH
4|
mol
mol-
1|
xyz
|CH
4dr
yai
rmo
lefr
acti
onso
ilab
sorp
tion
CH4D
RYtr
mite
|CH
4|
mol
mol-
1|
xyz
|CH
4dr
yai
rmo
lefr
acti
onte
rmit
esCH
4DRY
bogs
|CH
4|
mol
mol-
1|
xyz
|CH
4dr
yai
rmo
lefr
acti
onbo
gsCH
4DRY
burn
|CH
4|
mol
mol-
1|
xyz
|CH
4dr
yai
rmo
lefr
acti
onbi
omas
sbu
rnin
gCH
4DRY
rice
c|
CH4
|mo
lmo
l-1
|xy
z|
CH4
dry
air
mole
frac
tion
rice
cult
ivat
ion
CH4D
RYsw
amps
|CH
4|
mol
mol-
1|
xyz
|CH
4dr
yai
rmo
lefr
acti
onsw
amps
CH4D
RYtu
ndra
|CH
4|
mol
mol-
1|
xyz
|CH
4dr
yai
rmo
lefr
acti
ontu
ndra
CH4D
RYbf
|CH
4|
mol
mol-
1|
xyz
|CH
4dr
yai
rmo
lefr
acti
onbi
ofue
lCH
4DRY
tot
|CH
4|
mol
mol-
1|
xyz
|CH
4dr
yai
rmo
lefr
acti
onto
tal
COEM
|CO
|kg
m-2
s-1
|xy
|CO
Emis
sion
ENSE
MBLE
COEM
bbbo
|CO
|kg
m-2
s-1
|xy
|CO
Emis
sion
(Bor
eal
Biom
ass
Burn
ing)
COEM
bbnb
|CO
|kg
m-2
s-1
|xy
|CO
Emis
sion
(Non
-Bor
eal
Biom
ass
Burn
ing)
COEM
ffru
|CO
|kg
m-2
s-1
|xy
|CO
Emis
sion
(Ant
hopo
geni
cEm
issi
ons
Nort
hern
Asia
)CO
EMff
as|
CO|
kgm-
2s-
1|
xy|
COEm
issi
on(A
ntho
poge
nic
Emis
sion
sSo
uthe
rnAs
ia)
COEM
ffeu
|CO
|kg
m-2
s-1
|xy
|CO
Emis
sion
(Ant
hopo
geni
cEm
issi
ons
Euro
pe)
COEM
ffna
|CO
|kg
m-2
s-1
|xy
|CO
Emis
sion
(Ant
hopo
geni
cEm
issi
ons
Nort
hAm
eric
a)CO
EMbb
ae|
CO|
kgm-
2s-
1|
xy|
COEm
issi
on(A
sia
and
Euro
peBi
omas
sBu
rnin
g)CO
EMbb
na|
CO|
kgm-
2s-
1|
xy|
COEm
issi
on(N
orth
Amer
ica
Biom
ass
Burn
ing)
COEM
bbla
|CO
|kg
m-2
s-1
|xy
|CO
Emis
sion
(Cen
tral
and
Sout
hAm
eric
aBi
omas
sBu
rnin
g)CO
EMbb
af|
CO|
kgm-
2s-
1|
xy|
COEm
issi
on(A
fric
aBi
omas
sBu
rnin
g)CO
EMbb
gl|
CO|
kgm-
2s-
1|
xy|
COEm
issi
on(G
loba
lBi
omas
sBu
rnin
g)CO
EMnb
as|
CO|
kgm-
2s-
1|
xy|
COEm
issi
on(A
sia
Non-
Biom
ass
Burn
ing)
COEM
nbeu
|CO
|kg
m-2
s-1
|xy
|CO
Emis
sion
(Eur
opea
nNo
n-Bi
omas
sBu
rnin
g)CO
EMnb
na|
CO|
kgm-
2s-
1|
xy|
COEm
issi
on(N
orth
Amer
ican
Non-
Biom
ass
Burn
ing)
COEM
nbgl
|CO
|kg
m-2
s-1
|xy
|CO
Emis
sion
(Glo
bal
Non-
Biom
ass
Burn
ing)
COPD
|CO
|kg
m-2
s-1
|xy
|CO
Chem
ical
Prod
ucti
onEN
SEMB
LECO
PDbb
bo|
CO|
kgm-
2s-
1|
xy|
COCh
emic
alPr
oduc
tion
(Bor
eal
Biom
ass
Burn
ing)
COPD
bbnb
|CO
|kg
m-2
s-1
|xy
|CO
Chem
ical
Prod
ucti
on(N
on-B
orea
lBi
omas
sBu
rnin
g)CO
PDff
ru|
CO|
kgm-
2s-
1|
xy|
COCh
emic
alPr
oduc
tion
(Ant
hopo
geni
cEm
issi
ons
Nort
hern
Asia
)CO
PDff
as|
CO|
kgm-
2s-
1|
xy|
COCh
emic
alPr
oduc
tion
(Ant
hopo
geni
cEm
issi
ons
Sout
hern
Asia
)CO
PDff
eu|
CO|
kgm-
2s-
1|
xy|
COCh
emic
alPr
oduc
tion
(Ant
hopo
geni
cEm
issi
ons
Euro
pe)
COPD
ffna
|CO
|kg
m-2
s-1
|xy
|CO
Chem
ical
Prod
ucti
on(A
ntho
poge
nic
Emis
sion
sNo
rth
Amer
ica)
COPD
bbae
|CO
|kg
m-2
s-1
|xy
|CO
Chem
ical
Prod
ucti
on(A
sia
and
Euro
peBi
omas
sBu
rnin
g)CO
PDbb
na|
CO|
kgm-
2s-
1|
xy|
COCh
emic
alPr
oduc
tion
(Nor
thAm
eric
aBi
omas
sBu
rnin
g)CO
PDbb
la|
CO|
kgm-
2s-
1|
xy|
COCh
emic
alPr
oduc
tion
(Cen
tral
and
Sout
hAm
eric
aBi
omas
sBu
rnin
g)
17
COPD
bbaf
|CO
|kg
m-2
s-1
|xy
|CO
Chem
ical
Prod
ucti
on(A
fric
aBi
omas
sBu
rnin
g)CO
PDbb
gl|
CO|
kgm-
2s-
1|
xy|
COCh
emic
alPr
oduc
tion
(Glo
bal
Biom
ass
Burn
ing)
COPD
nbas
|CO
|kg
m-2
s-1
|xy
|CO
Chem
ical
Prod
ucti
on(A
sia
Non-
Biom
ass
Burn
ing)
COPD
nbeu
|CO
|kg
m-2
s-1
|xy
|CO
Chem
ical
Prod
ucti
on(E
urop
ean
Non-
Biom
ass
Burn
ing)
COPD
nbna
|CO
|kg
m-2
s-1
|xy
|CO
Chem
ical
Prod
ucti
on(N
orth
Amer
ican
Non-
Biom
ass
Burn
ing)
COPD
nbgl
|CO
|kg
m-2
s-1
|xy
|CO
Chem
ical
Prod
ucti
on(G
loba
lNo
n-Bi
omas
sBu
rnin
g)CO
LS|
CO|
kgm-
2s-
1|
xy|
COCh
emic
alLo
ssEN
SEMB
LECO
LSbb
bo|
CO|
kmm-
2s-
1|
xy|
COCh
emic
alLo
ss(B
orea
lBi
omas
sBu
rnin
g)CO
LSbb
nb|
CO|
kmm-
2s-
1|
xy|
COCh
emic
alLo
ss(N
on-B
orea
lBi
omas
sBu
rnin
g)CO
LSff
ru|
CO|
kmm-
2s-
1|
xy|
COCh
emic
alLo
ss(A
ntho
poge
nic
Emis
sion
sNo
rthe
rnAs
ia)
COLS
ffas
|CO
|km
m-2
s-1
|xy
|CO
Chem
ical
Loss
(Ant
hopo
geni
cEm
issi
ons
Sout
hern
Asia
)CO
LSff
eu|
CO|
kmm-
2s-
1|
xy|
COCh
emic
alLo
ss(A
ntho
poge
nic
Emis
sion
sEu
rope
)CO
LSff
na|
CO|
kmm-
2s-
1|
xy|
COCh
emic
alLo
ss(A
ntho
poge
nic
Emis
sion
sNo
rth
Amer
ica)
COLS
bbae
|CO
|km
m-2
s-1
|xy
|CO
Chem
ical
Loss
(Asi
aan
dEu
rope
Biom
ass
Burn
ing)
COLS
bbna
|CO
|km
m-2
s-1
|xy
|CO
Chem
ical
Loss
(Nor
thAm
eric
aBi
omas
sBu
rnin
g)CO
LSbb
la|
CO|
kmm-
2s-
1|
xy|
COCh
emic
alLo
ss(C
entr
alan
dSo
uth
Amer
ica
Biom
ass
Burn
ing)
COLS
bbaf
|CO
|km
m-2
s-1
|xy
|CO
Chem
ical
Loss
(Afr
ica
Biom
ass
Burn
ing)
COLS
bbgl
|CO
|km
m-2
s-1
|xy
|CO
Chem
ical
Loss
(Glo
bal
Biom
ass
Burn
ing)
COLS
nbas
|CO
|kg
m-2
s-1
|xy
|CO
Chem
ical
Loss
(Asi
aNo
n-Bi
omas
sBu
rnin
g)CO
LSnb
eu|
CO|
kgm-
2s-
1|
xy|
COCh
emic
alLo
ss(E
urop
ean
Non-
Biom
ass
Burn
ing)
COLS
nbna
|CO
|kg
m-2
s-1
|xy
|CO
Chem
ical
Loss
(Nor
thAm
eric
anNo
n-Bi
omas
sBu
rnin
g)CO
LSnb
gl|
CO|
kgm-
2s-
1|
xy|
COCh
emic
alLo
ss(G
loba
lNo
n-Bi
omas
sBu
rnin
g)CO
SC|
CO|
1e-9
|xy
|CO
Surf
ace
Conc
entr
atio
nin
ppbv
ENSE
MBLE
COSC
bbbo
|CO
|1e
-9|
xy|
COSu
rfac
eCo
ncen
trat
ion
inpp
bv(B
orea
lBi
omas
sBu
rnin
g)CO
SCbb
nb|
CO|
1e-9
|xy
|CO
Surf
ace
Conc
entr
atio
nin
ppbv
(Non
-Bor
eal
Biom
ass
Burn
ing)
COSC
ffru
|CO
|1e
-9|
xy|
COSu
rfac
eCo
ncen
trat
ion
inpp
bv(A
ntho
poge
nic
Emis
sion
sNo
rthe
rnAs
ia)
COSC
ffas
|CO
|1e
-9|
xy|
COSu
rfac
eCo
ncen
trat
ion
inpp
bv(A
ntho
poge
nic
Emis
sion
sSo
uthe
rnAs
ia)
COSC
ffeu
|CO
|1e
-9|
xy|
COSu
rfac
eCo
ncen
trat
ion
inpp
bv(A
ntho
poge
nic
Emis
sion
sEu
rope
)CO
SCff
na|
CO|
1e-9
|xy
|CO
Surf
ace
Conc
entr
atio
nin
ppbv
(Ant
hopo
geni
cEm
issi
ons
Nort
hAm
eric
a)CO
SCbb
ae|
CO|
1e-9
|xy
|CO
Surf
ace
Conc
entr
atio
nin
ppbv
(Asi
aan
dEu
rope
Biom
ass
Burn
ing)
COSC
bbna
|CO
|1e
-9|
xy|
COSu
rfac
eCo
ncen
trat
ion
inpp
bv(N
orth
Amer
ica
Biom
ass
Burn
ing)
COSC
bbla
|CO
|1e
-9|
xy|
COSu
rfac
eCo
ncen
trat
ion
inpp
bv(C
entr
alan
dSo
uth
Amer
ica
Biom
ass
Burn
ing)
COSC
bbaf
|CO
|1e
-9|
xy|
COSu
rfac
eCo
ncen
trat
ion
inpp
bv(A
fric
aBi
omas
sBu
rnin
g)CO
SCbb
gl|
CO|
1e-9
|xy
|CO
Surf
ace
Conc
entr
atio
nin
ppbv
(Glo
bal
Biom
ass
Burn
ing)
COSC
nbas
|CO
|1e
-9|
xy|
COSu
rfac
eCo
ncen
trat
ion
inpp
bv(A
sia
Non-
Biom
ass
Burn
ing)
COSC
nbeu
|CO
|1e
-9|
xy|
COSu
rfac
eCo
ncen
trat
ion
inpp
bv(E
urop
ean
Non-
Biom
ass
Burn
ing)
COSC
nbna
|CO
|1e
-9|
xy|
COSu
rfac
eCo
ncen
trat
ion
inpp
bv(N
orth
Amer
ican
Non-
Biom
ass
Burn
ing)
COSC
nbgl
|CO
|1e
-9|
xy|
COSu
rfac
eCo
ncen
trat
ion
inpp
bv(G
loba
lNo
n-Bi
omas
sBu
rnin
g)CO
CL|
CO|
kgm-
2|
xy|
COCo
lumn
Burd
enEN
SEMB
LE
18
COCL
bbbo
|CO
|kg
m-2
|xy
|CO
Colu
mnBu
rden
(Bor
eal
Biom
ass
Burn
ing)
COCL
bbnb
|CO
|kg
m-2
|xy
|CO
Colu
mnBu
rden
(Non
-Bor
eal
Biom
ass
Burn
ing)
COCL
ffru
|CO
|kg
m-2
|xy
|CO
Colu
mnBu
rden
(Ant
hopo
geni
cEm
issi
ons
Nort
hern
Asia
)CO
CLff
as|
CO|
kgm-
2|
xy|
COCo
lumn
Burd
en(A
ntho
poge
nic
Emis
sion
sSo
uthe
rnAs
ia)
COCL
ffeu
|CO
|kg
m-2
|xy
|CO
Colu
mnBu
rden
(Ant
hopo
geni
cEm
issi
ons
Euro
pe)
COCL
ffna
|CO
|kg
m-2
|xy
|CO
Colu
mnBu
rden
(Ant
hopo
geni
cEm
issi
ons
Nort
hAm
eric
a)CO
CLbb
ae|
CO|
kgm-
2|
xy|
COCo
lumn
Burd
en(A
sia
and
Euro
peBi
omas
sBu
rnin
g)CO
CLbb
na|
CO|
kgm-
2|
xy|
COCo
lumn
Burd
en(N
orth
Amer
ica
Biom
ass
Burn
ing)
COCL
bbla
|CO
|kg
m-2
|xy
|CO
Colu
mnBu
rden
(Cen
tral
and
Sout
hAm
eric
aBi
omas
sBu
rnin
g)CO
CLbb
af|
CO|
kgm-
2|
xy|
COCo
lumn
Burd
en(A
fric
aBi
omas
sBu
rnin
g)CO
CLbb
gl|
CO|
kgm-
2|
xy|
COCo
lumn
Burd
en(G
loba
lBi
omas
sBu
rnin
g)CO
CLnb
as|
CO|
kgm-
2|
xy|
COCo
lumn
Burd
en(A
sia
Non-
Biom
ass
Burn
ing)
COCL
nbeu
|CO
|kg
m-2
|xy
|CO
Colu
mnBu
rden
(Eur
opea
nNo
n-Bi
omas
sBu
rnin
g)CO
CLnb
na|
CO|
kgm-
2|
xy|
COCo
lumn
Burd
en(N
orth
Amer
ican
Non-
Biom
ass
Burn
ing)
COCL
nbgl
|CO
|kg
m-2
|xy
|CO
Colu
mnBu
rden
(Glo
bal
Non-
Biom
ass
Burn
ing)
CO2
|CO
2|
molm
ol|
xyz
|Ca
rbon
Diox
ide
CO2N
AMER
|CO
2|
molm
ol|
xyz
|No
rth
Amer
ican
Carb
onDi
oxid
eCO
2SAM
ER|
CO2
|mo
lmol
|xy
z|
Sout
hAm
eric
anCa
rbon
Diox
ide
CO2A
FRIC
|CO
2|
molm
ol|
xyz
|Af
rica
nCa
rbon
Diox
ide
CO2E
M001
|CO
2|
kgm-
2s-
1|
xy|
CO2
Emis
sion
Bin
001
CO2E
M002
|CO
2|
kgm-
2s-
1|
xy|
CO2
Emis
sion
Bin
002
CO2E
M003
|CO
2|
kgm-
2s-
1|
xy|
CO2
Emis
sion
Bin
003
CO2E
M004
|CO
2|
kgm-
2s-
1|
xy|
CO2
Emis
sion
Bin
004
CO2C
L001
|CO
2|
1|
xy|
CO2
Bulk
Mixi
ngRa
tio
(Col
umn
Mass
ps)
Bin
001
CO2C
L002
|CO
2|
1|
xy|
CO2
Bulk
Mixi
ngRa
tio
(Col
umn
Mass
ps)
Bin
002
CO2C
L003
|CO
2|
1|
xy|
CO2
Bulk
Mixi
ngRa
tio
(Col
umn
Mass
ps)
Bin
003
CO2C
L004
|CO
2|
1|
xy|
CO2
Bulk
Mixi
ngRa
tio
(Col
umn
Mass
ps)
Bin
004
CO2S
C001
|CO
2|
1e-6
|xy
|CO
2Su
rfac
eCo
ncen
trat
ion
Bin
001
CO2S
C002
|CO
2|
1e-6
|xy
|CO
2Su
rfac
eCo
ncen
trat
ion
Bin
002
CO2S
C003
|CO
2|
1e-6
|xy
|CO
2Su
rfac
eCo
ncen
trat
ion
Bin
003
CO2S
C004
|CO
2|
1e-6
|xy
|CO
2Su
rfac
eCo
ncen
trat
ion
Bin
004
DUMA
SS|
DU|
kgkg
-1|
xyz
|Du
stMa
ssMi
Rati
oDU
MASS
25|
DU|
kgkg
-1|
xyz
|Du
stMa
ssMi
Rati
o-
PM2.
5DU
CONC
|DU
|kg
m-3
|xy
z|
Dust
Mass
Conc
entr
atio
nDU
EXTC
OEF
|DU
|m-
1|
xyz
|Du
stEx
tinc
tion
Coef
fici
ent
[550
nm]
DUSC
ACOE
F|
DU|
m-1
|xy
z|
Dust
Scat
teri
ngCo
effi
cien
t[5
50nm
]DU
EM00
1|
DU|
kgm-
2s-
1|
xy|
Dust
Emis
sion
Bin
001
DUEM
002
|DU
|kg
m-2
s-1
|xy
|Du
stEm
issi
onBi
n00
2DU
EM00
3|
DU|
kgm-
2s-
1|
xy|
Dust
Emis
sion
Bin
003
19
DUEM
004
|DU
|kg
m-2
s-1
|xy
|Du
stEm
issi
onBi
n00
4DU
EM00
5|
DU|
kgm-
2s-
1|
xy|
Dust
Emis
sion
Bin
005
DUSD
001
|DU
|kg
m-2
s-1
|xy
|Du
stSe
dime
ntat
ion
Bin
001
DUSD
002
|DU
|kg
m-2
s-1
|xy
|Du
stSe
dime
ntat
ion
Bin
002
DUSD
003
|DU
|kg
m-2
s-1
|xy
|Du
stSe
dime
ntat
ion
Bin
003
DUSD
004
|DU
|kg
m-2
s-1
|xy
|Du
stSe
dime
ntat
ion
Bin
004
DUSD
005
|DU
|kg
m-2
s-1
|xy
|Du
stSe
dime
ntat
ion
Bin
005
DUDP
001
|DU
|kg
m-2
s-1
|xy
|Du
stDr
yDe
posi
tion
Bin
001
DUDP
002
|DU
|kg
m-2
s-1
|xy
|Du
stDr
yDe
posi
tion
Bin
002
DUDP
003
|DU
|kg
m-2
s-1
|xy
|Du
stDr
yDe
posi
tion
Bin
003
DUDP
004
|DU
|kg
m-2
s-1
|xy
|Du
stDr
yDe
posi
tion
Bin
004
DUDP
005
|DU
|kg
m-2
s-1
|xy
|Du
stDr
yDe
posi
tion
Bin
005
DUWT
001
|DU
|kg
m-2
s-1
|xy
|Du
stWe
tDe
posi
tion
Bin
001
DUWT
002
|DU
|kg
m-2
s-1
|xy
|Du
stWe
tDe
posi
tion
Bin
002
DUWT
003
|DU
|kg
m-2
s-1
|xy
|Du
stWe
tDe
posi
tion
Bin
003
DUWT
004
|DU
|kg
m-2
s-1
|xy
|Du
stWe
tDe
posi
tion
Bin
004
DUWT
005
|DU
|kg
m-2
s-1
|xy
|Du
stWe
tDe
posi
tion
Bin
005
DUSV
001
|DU
|kg
m-2
s-1
|xy
|Du
stCo
nvec
tive
Scav
engi
ngBi
n00
1DU
SV00
2|
DU|
kgm-
2s-
1|
xy|
Dust
Conv
ecti
veSc
aven
ging
Bin
002
DUSV
003
|DU
|kg
m-2
s-1
|xy
|Du
stCo
nvec
tive
Scav
engi
ngBi
n00
3DU
SV00
4|
DU|
kgm-
2s-
1|
xy|
Dust
Conv
ecti
veSc
aven
ging
Bin
004
DUSV
005
|DU
|kg
m-2
s-1
|xy
|Du
stCo
nvec
tive
Scav
engi
ngBi
n00
5DU
SMAS
S|
DU|
kgm-
3|
xy|
Dust
Surf
ace
Mass
Conc
entr
atio
nDU
CMAS
S|
DU|
kgm-
2|
xy|
Dust
Colu
mnMa
ssDe
nsit
yDU
EXTT
AU|
DU|
1|
xy|
Dust
Exti
ncti
onAO
T[5
50nm
]DU
SCAT
AU|
DU|
1|
xy|
Dust
Scat
teri
ngAO
T[5
50nm
]DU
SMAS
S25
|DU
|kg
m-3
|xy
|Du
stSu
rfac
eMa
ssCo
ncen
trat
ion
-PM
2.5
DUCM
ASS2
5|
DU|
kgm-
2|
xy|
Dust
Colu
mnMa
ssDe
nsit
y-
PM2.
5DU
EXTT
25|
DU|
1|
xy|
Dust
Exti
ncti
onAO
T[5
50nm
]-
PM2.
5DU
SCAT
25|
DU|
1|
xy|
Dust
Scat
teri
ngAO
T[5
50nm
]-
PM2.
5DU
AERI
DX|
DU|
1|
xy|
Dust
TOMS
UVAe
roso
lIn
dex
DUFL
UXU
|DU
|kg
m-1
s-1
|xy
|Du
stco
lumn
u-wi
ndma
ssfl
uxDU
FLUX
V|
DU|
kgm-
1s-
1|
xy|
Dust
colu
mnv-
wind
mass
flux
DUEX
TTFM
|DU
|1
|xy
|Du
stEx
tinc
tion
AOT
[550
nm]
-PM
1.0
umDU
SCAT
FM|
DU|
1|
xy|
Dust
Scat
teri
ngAO
T[5
50nm
]-
PM1.
0um
DUAN
GSTR
|DU
|1
|xy
|Du
stAn
gstr
ompa
rame
ter
[470
-870
nm]
AERO
|GO
CART
|kg
kg-1
|xy
z|
aero
sol
mass
mixi
ngra
tios
AERO
_DP
|GO
CART
|kg
m-2
s-1
|xy
|ae
roso
lde
posi
tion
TOTE
XTTA
U|
GOCA
RT|
1|
xy|
Tota
lAe
roso
lEx
tinc
tion
AOT
[550
nm]
20
TOTS
CATA
U|
GOCA
RT|
1|
xy|
Tota
lAe
roso
lSc
atte
ring
AOT
[550
nm]
TOTE
XTT2
5|
GOCA
RT|
1|
xy|
Tota
lAe
roso
lEx
inct
ion
AOT
[550
nm]
-PM
2.5
TOTS
CAT2
5|
GOCA
RT|
1|
xy|
Tota
lAe
roso
lSc
atte
ring
AOT
[550
nm]
-PM
2.5
TOTE
XTTF
M|
GOCA
RT|
1|
xy|
Tota
lAe
roso
lEx
inct
ion
AOT
[550
nm]
-PM
1.0
TOTS
CATF
M|
GOCA
RT|
1|
xy|
Tota
lAe
roso
lSc
atte
ring
AOT
[550
nm]
-PM
1.0
TOTA
NGST
R|
GOCA
RT|
1|
xy|
Tota
lAe
roso
lAn
gstr
ompa
rame
ter
[470
-870
nm]
O3|
O3|
kgkg
-1|
xyz
|Oz
one
mass
mixi
ngra
tio
OX|
O3|
mol
mol-
1|
xyz
|Oz
one
volu
memi
rati
oO3
DDV
|O3
|m
s-1
|xy
|Dr
yde
posi
tion
spee
dO3
PPMV
|O3
|pp
mv|
xyz
|Oz
one
O3TO
T|
O3|
Dobs
ons
|xy
|To
tal
ozon
eO3
DDP
|O3
|kg
m-2
s-1
|xy
|Oz
one
dry
depo
siti
onDO
3DT
|O3
|--
->|
xyz
|Oz
one
tend
ency
[kg
kg-1
s-1]
OX_T
END
|O3
|--
->|
xyz
|te
nden
cyof
odd
oxyg
enmi
rati
odu
eto
chem
istr
y[m
olmo
l-1
s-1]
OCMA
SS|
OC|
kgkg
-1|
xyz
|Or
gani
cCa
rbon
Mass
Mixi
ngRa
tio
ENSE
MBLE
OCCO
NC|
OC|
kgm-
3|
xyz
|Or
gani
cCa
rbon
Mass
Conc
entr
atio
nEN
SEMB
LEOC
EXTC
OEF
|OC
|m-
1|
xyz
|Or
gani
cCa
rbon
Ext.
Coef
fici
ent
[550
nm]
ENSE
MBLE
OCSC
ACOE
F|
OC|
m-1
|xy
z|
Orga
nic
Carb
onSc
att.
Coef
fici
ent
[550
nm]
ENSE
MBLE
OCEM
001
|OC
|kg
m-2
s-1
|xy
|Or
gani
cCa
rbon
Emis
sion
Bin
001
ENSE
MBLE
OCEM
002
|OC
|kg
m-2
s-1
|xy
|Or
gani
cCa
rbon
Emis
sion
Bin
002
ENSE
MBLE
OCSD
001
|OC
|kg
m-2
s-1
|xy
|Or
gani
cCa
rbon
Sedi
ment
atio
nBi
n00
1EN
SEMB
LEOC
SD00
2|
OC|
kgm-
2s-
1|
xy|
Orga
nic
Carb
onSe
dime
ntat
ion
Bin
002
ENSE
MBLE
OCDP
001
|OC
|kg
m-2
s-1
|xy
|Or
gani
cCa
rbon
Dry
Depo
siti
onBi
n00
1EN
SEMB
LEOC
DP00
2|
OC|
kgm-
2s-
1|
xy|
Orga
nic
Carb
onDr
yDe
posi
tion
Bin
002
ENSE
MBLE
OCWT
001
|OC
|kg
m-2
s-1
|xy
|Or
gani
cCa
rbon
Wet
Depo
siti
onBi
n00
1EN
SEMB
LEOC
WT00
2|
OC|
kgm-
2s-
1|
xy|
Orga
nic
Carb
onWe
tDe
posi
tion
Bin
002
ENSE
MBLE
OCSV
001
|OC
|kg
m-2
s-1
|xy
|Or
gani
cCa
rbon
Conv
ecti
veSc
aven
ging
Bin
001
ENSE
MBLE
OCSV
002
|OC
|kg
m-2
s-1
|xy
|Or
gani
cCa
rbon
Conv
ecti
veSc
aven
ging
Bin
002
ENSE
MBLE
OCHY
PHIL
|OC
|kg
m-2
s-1
|xy
|Or
gani
cCa
rbon
Hydr
opho
bic
toHy
drop
hili
cEN
SEMB
LEOC
EMAN
|OC
|kg
m-2
s-1
|xy
|Or
gani
cCa
rbon
Anth
ropo
geni
cEm
issi
ons
ENSE
MBLE
OCEM
BB|
OC|
kgm-
2s-
1|
xy|
Orga
nic
Carb
onBi
omas
sBu
rnin
gEm
issi
ons
ENSE
MBLE
OCEM
BF|
OC|
kgm-
2s-
1|
xy|
Orga
nic
Carb
onBi
ofue
lEm
issi
ons
ENSE
MBLE
OCEM
BG|
OC|
kgm-
2s-
1|
xy|
Orga
nic
Carb
onBi
ogen
icEm
issi
ons
ENSE
MBLE
OCSM
ASS
|OC
|kg
m-3
|xy
|Or
gani
cCa
rbon
Surf
ace
Mass
Conc
entr
atio
nEN
SEMB
LEOC
CMAS
S|
OC|
kgm-
2|
xy|
Orga
nic
Carb
onCo
lumn
Mass
Dens
ity
ENSE
MBLE
OCEX
TTAU
|OC
|1
|xy
|Or
gani
cCa
rbon
Exti
ncti
onAO
T[5
50nm
]EN
SEMB
LEOC
SCAT
AU|
OC|
1|
xy|
Orga
nic
Carb
onSc
atte
ring
AOT
[550
nm]
ENSE
MBLE
OCAN
GSTR
|OC
|1
|xy
|Or
gani
cCa
rbon
Angs
trom
para
mete
r[4
70-8
70nm
]EN
SEMB
LEOC
FLUX
U|
OC|
kgm-
1s-
1|
xy|
Orga
nic
Carb
onco
lumn
u-wi
ndma
ssfl
uxEN
SEMB
LE
21
OCFL
UXV
|OC
|kg
m-1
s-1
|xy
|Or
gani
cCa
rbon
colu
mnv-
wind
mass
flux
ENSE
MBLE
RnEM
|Rn
|kg
m-2
s-1
|xy
|Rn
Emis
sion
ENSE
MBLE
RnEM
Asia
|Rn
|kg
m-2
s-1
|xy
|Rn
Emis
sion
Asia
RnEM
Euro
|Rn
|kg
m-2
s-1
|xy
|Rn
Emis
sion
Euro
peRn
EMNo
Am|
Rn|
kgm-
2s-
1|
xy|
RnEm
issi
onNo
rth
Amer
ica
RnEM
SoAm
|Rn
|kg
m-2
s-1
|xy
|Rn
Emis
sion
Sout
hAm
eric
aRn
EMAf
ri|
Rn|
kgm-
2s-
1|
xy|
RnEm
issi
onAf
rica
RnEM
Aust
|Rn
|kg
m-2
s-1
|xy
|Rn
Emis
sion
Aust
rali
aRn
LS|
Rn|
kgm-
2s-
1|
xy|
RnDe
cay
ENSE
MBLE
RnLS
Asia
|Rn
|kg
m-2
s-1
|xy
|Rn
Deca
yAs
iaRn
LSEu
ro|
Rn|
kgm-
2s-
1|
xy|
RnDe
cay
Euro
peRn
LSNo
Am|
Rn|
kgm-
2s-
1|
xy|
RnDe
cay
Nort
hAm
eric
aRn
LSSo
Am|
Rn|
kgm-
2s-
1|
xy|
RnDe
cay
Sout
hAm
eric
aRn
LSAf
ri|
Rn|
kgm-
2s-
1|
xy|
RnDe
cay
Afri
caRn
LSAu
st|
Rn|
kgm-
2s-
1|
xy|
RnDe
cay
Aust
rali
aRn
SC|
Rn|
molm
ol|
xy|
RnSu
rfac
eCo
ncen
trat
ion
ENSE
MBLE
RnSC
Asia
|Rn
|mo
lmol
|xy
|Rn
Surf
ace
Conc
entr
atio
nAs
iaRn
SCEu
ro|
Rn|
molm
ol|
xy|
RnSu
rfac
eCo
ncen
trat
ion
Euro
peRn
SCNo
Am|
Rn|
molm
ol|
xy|
RnSu
rfac
eCo
ncen
trat
ion
Nort
hAm
eric
aRn
SCSo
Am|
Rn|
molm
ol|
xy|
RnSu
rfac
eCo
ncen
trat
ion
Sout
hAm
eric
aRn
SCAf
ri|
Rn|
molm
ol|
xy|
RnSu
rfac
eCo
ncen
trat
ion
Afri
caRn
SCAu
st|
Rn|
molm
ol|
xy|
RnSu
rfac
eCo
ncen
trat
ion
Aust
rali
aRn
CL|
Rn|
kgm-
2|
xy|
RnCo
lumn
Burd
enEN
SEMB
LERn
CLAs
ia|
Rn|
kgm-
2|
xy|
RnCo
lumn
Burd
enAs
iaRn
CLEu
ro|
Rn|
kgm-
2|
xy|
RnCo
lumn
Burd
enEu
rope
RnCL
NoAm
|Rn
|kg
m-2
|xy
|Rn
Colu
mnBu
rden
Nort
hAm
eric
aRn
CLSo
Am|
Rn|
kgm-
2|
xy|
RnCo
lumn
Burd
enSo
uth
Amer
ica
RnCL
Afri
|Rn
|kg
m-2
|xy
|Rn
Colu
mnBu
rden
Afri
caRn
CLAu
st|
Rn|
kgm-
2|
xy|
RnCo
lumn
Burd
enAu
stra
lia
SSMA
SS|
SS|
kgkg
-1|
xyz
|Se
aSa
ltMa
ssMi
Rati
oSS
MASS
25|
SS|
kgkg
-1|
xyz
|Se
aSa
ltMa
ssMi
Rati
o-
PM2.
5SS
CONC
|SS
|kg
m-3
|xy
z|
Sea
Salt
Mass
Conc
entr
atio
nSS
EXTC
OEF
|SS
|m-
1|
xyz
|Se
aSa
ltEx
tinc
tion
Coef
fici
ent
[550
nm]
SSSC
ACOE
F|
SS|
m-1
|xy
z|
Sea
Salt
Scat
teri
ngCo
effi
cien
t[5
50nm
]SS
EM00
1|
SS|
kgm-
2s-
1|
xy|
Sea
Salt
Emis
sion
Bin
001
SSEM
002
|SS
|kg
m-2
s-1
|xy
|Se
aSa
ltEm
issi
onBi
n00
2SS
EM00
3|
SS|
kgm-
2s-
1|
xy|
Sea
Salt
Emis
sion
Bin
003
SSEM
004
|SS
|kg
m-2
s-1
|xy
|Se
aSa
ltEm
issi
onBi
n00
4SS
EM00
5|
SS|
kgm-
2s-
1|
xy|
Sea
Salt
Emis
sion
Bin
005
22
SSSD
001
|SS
|kg
m-2
s-1
|xy
|Se
aSa
ltSe
dime
ntat
ion
Bin
001
SSSD
002
|SS
|kg
m-2
s-1
|xy
|Se
aSa
ltSe
dime
ntat
ion
Bin
002
SSSD
003
|SS
|kg
m-2
s-1
|xy
|Se
aSa
ltSe
dime
ntat
ion
Bin
003
SSSD
004
|SS
|kg
m-2
s-1
|xy
|Se
aSa
ltSe
dime
ntat
ion
Bin
004
SSSD
005
|SS
|kg
m-2
s-1
|xy
|Se
aSa
ltSe
dime
ntat
ion
Bin
005
SSDP
001
|SS
|kg
m-2
s-1
|xy
|Se
aSa
ltDr
yDe
posi
tion
Bin
001
SSDP
002
|SS
|kg
m-2
s-1
|xy
|Se
aSa
ltDr
yDe
posi
tion
Bin
002
SSDP
003
|SS
|kg
m-2
s-1
|xy
|Se
aSa
ltDr
yDe
posi
tion
Bin
003
SSDP
004
|SS
|kg
m-2
s-1
|xy
|Se
aSa
ltDr
yDe
posi
tion
Bin
004
SSDP
005
|SS
|kg
m-2
s-1
|xy
|Se
aSa
ltDr
yDe
posi
tion
Bin
005
SSWT
001
|SS
|kg
m-2
s-1
|xy
|Se
aSa
ltWe
tDe
posi
tion
Bin
001
SSWT
002
|SS
|kg
m-2
s-1
|xy
|Se
aSa
ltWe
tDe
posi
tion
Bin
002
SSWT
003
|SS
|kg
m-2
s-1
|xy
|Se
aSa
ltWe
tDe
posi
tion
Bin
003
SSWT
004
|SS
|kg
m-2
s-1
|xy
|Se
aSa
ltWe
tDe
posi
tion
Bin
004
SSWT
005
|SS
|kg
m-2
s-1
|xy
|Se
aSa
ltWe
tDe
posi
tion
Bin
005
SSSV
001
|SS
|kg
m-2
s-1
|xy
|Se
aSa
ltCo
nvec
tive
Scav
engi
ngBi
n00
1SS
SV00
2|
SS|
kgm-
2s-
1|
xy|
Sea
Salt
Conv
ecti
veSc
aven
ging
Bin
002
SSSV
003
|SS
|kg
m-2
s-1
|xy
|Se
aSa
ltCo
nvec
tive
Scav
engi
ngBi
n00
3SS
SV00
4|
SS|
kgm-
2s-
1|
xy|
Sea
Salt
Conv
ecti
veSc
aven
ging
Bin
004
SSSV
005
|SS
|kg
m-2
s-1
|xy
|Se
aSa
ltCo
nvec
tive
Scav
engi
ngBi
n00
5SS
SMAS
S|
SS|
kgm-
3|
xy|
Sea
Salt
Surf
ace
Mass
Conc
entr
atio
nSS
CMAS
S|
SS|
kgm-
2|
xy|
Sea
Salt
Colu
mnMa
ssDe
nsit
ySS
EXTT
AU|
SS|
1|
xy|
Sea
Salt
Exti
ncti
onAO
T[5
50nm
]SS
SCAT
AU|
SS|
1|
xy|
Sea
Salt
Scat
teri
ngAO
T[5
50nm
]SS
SMAS
S25
|SS
|kg
m-3
|xy
|Se
aSa
ltSu
rfac
eMa
ssCo
ncen
trat
ion
-PM
2.5
SSCM
ASS2
5|
SS|
kgm-
2|
xy|
Sea
Salt
Colu
mnMa
ssDe
nsit
y-
PM2.
5SS
EXTT
25|
SS|
1|
xy|
Sea
Salt
Exti
ncti
onAO
T[5
50nm
]-
PM2.
5SS
SCAT
25|
SS|
1|
xy|
Sea
Salt
Scat
teri
ngAO
T[5
50nm
]-
PM2.
5SS
AERI
DX|
SS|
1|
xy|
Sea
Salt
TOMS
UVAe
roso
lIn
dex
SSEX
TTFM
|SS
|1
|xy
|Se
aSa
ltEx
tinc
tion
AOT
[550
nm]
-PM
1.0
umSS
SCAT
FM|
SS|
1|
xy|
Sea
Salt
Scat
teri
ngAO
T[5
50nm
]-
PM1.
0um
SSAN
GSTR
|SS
|1
|xy
|Se
aSa
ltAn
gstr
ompa
rame
ter
[470
-870
nm]
SSFL
UXU
|SS
|kg
m-1
s-1
|xy
|Se
aSa
ltco
lumn
u-wi
ndma
ssfl
uxSS
FLUX
V|
SS|
kgm-
1s-
1|
xy|
Sea
Salt
colu
mnv-
wind
mass
flux
SUEM
001
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eEm
issi
onBi
n00
1EN
SEMB
LESU
EM00
2|
SU|
kgm-
2s-
1|
xy|
Sulf
ate
Emis
sion
Bin
002
ENSE
MBLE
SUEM
003
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eEm
issi
onBi
n00
3EN
SEMB
LESU
EM00
4|
SU|
kgm-
2s-
1|
xy|
Sulf
ate
Emis
sion
Bin
004
ENSE
MBLE
SUDP
001
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eDr
yDe
posi
tion
Bin
001
ENSE
MBLE
23
SUDP
002
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eDr
yDe
posi
tion
Bin
002
ENSE
MBLE
SUDP
003
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eDr
yDe
posi
tion
Bin
003
ENSE
MBLE
SUDP
004
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eDr
yDe
posi
tion
Bin
004
ENSE
MBLE
SUSD
001
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eSe
ttli
ngBi
n00
1EN
SEMB
LESU
SD00
2|
SU|
kgm-
2s-
1|
xy|
Sulf
ate
Sett
ling
Bin
002
ENSE
MBLE
SUSD
003
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eSe
ttli
ngBi
n00
3EN
SEMB
LESU
SD00
4|
SU|
kgm-
2s-
1|
xy|
Sulf
ate
Sett
ling
Bin
004
ENSE
MBLE
SUWT
001
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eWe
tDe
posi
tion
Bin
001
ENSE
MBLE
SUWT
002
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eWe
tDe
posi
tion
Bin
002
ENSE
MBLE
SUWT
003
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eWe
tDe
posi
tion
Bin
003
ENSE
MBLE
SUWT
004
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eWe
tDe
posi
tion
Bin
004
ENSE
MBLE
SUSV
001
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eCo
nvec
tive
Scav
engi
ngBi
n00
1EN
SEMB
LESU
SV00
2|
SU|
kgm-
2s-
1|
xy|
Sulf
ate
Conv
ecti
veSc
aven
ging
Bin
002
ENSE
MBLE
SUSV
003
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eCo
nvec
tive
Scav
engi
ngBi
n00
3EN
SEMB
LESU
SV00
4|
SU|
kgm-
2s-
1|
xy|
Sulf
ate
Conv
ecti
veSc
aven
ging
Bin
004
ENSE
MBLE
SO4E
MAN
|SU
|kg
m-2
s-1
|xy
|SO
4An
thro
poge
nic
Emis
sion
sEN
SEMB
LESO
2EMA
N|
SU|
kgm-
2s-
1|
xy|
SO2
Anth
ropo
geni
cEm
issi
ons
ENSE
MBLE
SO2E
MBB
|SU
|kg
m-2
s-1
|xy
|SO
2Bi
omas
sBu
rnin
gEm
issi
ons
ENSE
MBLE
SO2E
MVN
|SU
|kg
m-2
s-1
|xy
|SO
2Vo
lcan
ic(n
on-e
xplo
sive
)Em
issi
ons
ENSE
MBLE
SO2E
MVE
|SU
|kg
m-2
s-1
|xy
|SO
2Vo
lcan
ic(e
xplo
sive
)Em
issi
ons
ENSE
MBLE
PSO2
|SU
|kg
m-2
s-1
|xy
z|
SO2
Prod
from
DMS
oxid
atio
nEN
SEMB
LEPM
SA|
SU|
kgm-
2s-
1|
xyz
|MS
APr
odfr
omDM
Sox
idat
ion
ENSE
MBLE
PSO4
G|
SU|
kgm-
2s-
1|
xyz
|SO
4Pr
odfr
omSO
2ox
idat
ion
ENSE
MBLE
PSO4
WET
|SU
|kg
m-2
s-1
|xy
z|
SO4
Prod
from
wet
SO2
oxid
atio
nEN
SEMB
LEPS
O4AQ
|SU
|kg
m-2
s-1
|xy
z|
SO4
Prod
from
aque
ous
SO2
oxid
atio
nEN
SEMB
LESU
PSO2
|SU
|kg
m-2
s-1
|xy
|SO
2Pr
odfr
omDM
SOx
idat
ion
[col
umn]
ENSE
MBLE
SUPS
O4G
|SU
|kg
m-2
s-1
|xy
|SO
4Pr
odfr
omGa
seou
sSO
2Ox
idat
ion
[col
umn]
ENSE
MBLE
SUPS
O4AQ
|SU
|kg
m-2
s-1
|xy
|SO
4Pr
odfr
omAq
ueou
sSO
2Ox
idat
ion
[col
umn]
ENSE
MBLE
SUPS
O4WT
|SU
|kg
m-2
s-1
|xy
|SO
4Pr
odfr
omAq
ueou
sSO
2Ox
idat
ion
(wet
dep)
[col
umn]
ENSE
MBLE
SUPM
SA|
SU|
kgm-
2s-
1|
xy|
MSA
Prod
from
DMS
Oxid
atio
n[c
olum
n]EN
SEMB
LESO
2SMA
SS|
SU|
kgm-
3|
xy|
SO2
Surf
ace
Mass
Conc
entr
atio
nEN
SEMB
LESO
2CMA
SS|
SU|
kgm-
2|
xy|
SO2
Colu
mnMa
ssDe
nsit
yEN
SEMB
LESO
4SMA
SS|
SU|
kgm-
3|
xy|
SO4
Surf
ace
Mass
Conc
entr
atio
nEN
SEMB
LESO
4CMA
SS|
SU|
kgm-
2|
xy|
SO4
Colu
mnMa
ssDe
nsit
yEN
SEMB
LEDM
SSMA
SS|
SU|
kgm-
3|
xy|
DMS
Surf
ace
Mass
Conc
entr
atio
nEN
SEMB
LEDM
SCMA
SS|
SU|
kgm-
2|
xy|
DMS
Colu
mnMa
ssDe
nsit
yEN
SEMB
LESU
CONC
|SU
|kg
m-3
|xy
z|
SO4
Aero
sol
Mass
Conc
entr
atio
nEN
SEMB
LESU
EXTC
OEF
|SU
|m-
1|
xyz
|SO
4Ex
tinc
tion
Coef
fici
ent
[550
nm]
ENSE
MBLE
SUSC
ACOE
F|
SU|
m-1
|xy
z|
SO4
Scat
teri
ngCo
effi
cien
t[5
50nm
]EN
SEMB
LE
24
SUAN
GSTR
|SU
|1
|xy
|SO
4An
gstr
ompa
rame
ter
[470
-870
nm]
ENSE
MBLE
SUFL
UXU
|SU
|kg
m-1
s-1
|xy
|SO
4co
lumn
u-wi
ndma
ssfl
uxEN
SEMB
LESU
FLUX
V|
SU|
kgm-
1s-
1|
xy|
SO4
colu
mnv-
wind
mass
flux
ENSE
MBLE
SO4M
ASS
|SU
|kg
kg-1
|xy
z|
SO4
Aero
sol
Mass
Mixi
ngRa
tio
ENSE
MBLE
SUEX
TTAU
|SU
|1
|xy
|SO
4Ex
tinc
tion
AOT
[550
nm]
ENSE
MBLE
SUSC
ATAU
|SU
|1
|xy
|SO
4Sc
atte
ring
AOT
[550
nm]
ENSE
MBLE
SUEM
001v
olc
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eEm
issi
onBi
n00
1(V
olca
nic)
SUEM
002v
olc
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eEm
issi
onBi
n00
2(V
olca
nic)
SUEM
003v
olc
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eEm
issi
onBi
n00
3(V
olca
nic)
SUEM
004v
olc
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eEm
issi
onBi
n00
4(V
olca
nic)
SUDP
001v
olc
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eDr
yDe
posi
tion
Bin
001
(Vol
cani
c)SU
DP00
2vol
c|
SU|
kgm-
2s-
1|
xy|
Sulf
ate
Dry
Depo
siti
onBi
n00
2(V
olca
nic)
SUDP
003v
olc
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eDr
yDe
posi
tion
Bin
003
(Vol
cani
c)SU
DP00
4vol
c|
SU|
kgm-
2s-
1|
xy|
Sulf
ate
Dry
Depo
siti
onBi
n00
4(V
olca
nic)
SUSD
001v
olc
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eSe
ttli
ngBi
n00
1(V
olca
nic)
SUSD
002v
olc
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eSe
ttli
ngBi
n00
2(V
olca
nic)
SUSD
003v
olc
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eSe
ttli
ngBi
n00
3(V
olca
nic)
SUSD
004v
olc
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eSe
ttli
ngBi
n00
4(V
olca
nic)
SUWT
001v
olc
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eWe
tDe
posi
tion
Bin
001
(Vol
cani
c)SU
WT00
2vol
c|
SU|
kgm-
2s-
1|
xy|
Sulf
ate
Wet
Depo
siti
onBi
n00
2(V
olca
nic)
SUWT
003v
olc
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eWe
tDe
posi
tion
Bin
003
(Vol
cani
c)SU
WT00
4vol
c|
SU|
kgm-
2s-
1|
xy|
Sulf
ate
Wet
Depo
siti
onBi
n00
4(V
olca
nic)
SUSV
001v
olc
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eCo
nvec
tive
Scav
engi
ngBi
n00
1(V
olca
nic)
SUSV
002v
olc
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eCo
nvec
tive
Scav
engi
ngBi
n00
2(V
olca
nic)
SUSV
003v
olc
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eCo
nvec
tive
Scav
engi
ngBi
n00
3(V
olca
nic)
SUSV
004v
olc
|SU
|kg
m-2
s-1
|xy
|Su
lfat
eCo
nvec
tive
Scav
engi
ngBi
n00
4(V
olca
nic)
SO4E
MANv
olc
|SU
|kg
m-2
s-1
|xy
|SO
4An
thro
poge
nic
Emis
sion
s(V
olca
nic)
SO2E
MANv
olc
|SU
|kg
m-2
s-1
|xy
|SO
2An
thro
poge
nic
Emis
sion
s(V
olca
nic)
SO2E
MBBv
olc
|SU
|kg
m-2
s-1
|xy
|SO
2Bi
omas
sBu
rnin
gEm
issi
ons
(Vol
cani
c)SO
2EMV
Nvol
c|
SU|
kgm-
2s-
1|
xy|
SO2
Volc
anic
(non
-exp
losi
ve)
Emis
sion
s(V
olca
nic)
SO2E
MVEv
olc
|SU
|kg
m-2
s-1
|xy
|SO
2Vo
lcan
ic(e
xplo
sive
)Em
issi
ons
(Vol
cani
c)PS
O2vo
lc|
SU|
kgm-
2s-
1|
xyz
|SO
2Pr
odfr
omDM
Sox
idat
ion
(Vol
cani
c)PM
SAvo
lc|
SU|
kgm-
2s-
1|
xyz
|MS
APr
odfr
omDM
Sox
idat
ion
(Vol
cani
c)PS
O4Gv
olc
|SU
|kg
m-2
s-1
|xy
z|
SO4
Prod
from
SO2
oxid
atio
n(V
olca
nic)
PSO4
WETv
olc
|SU
|kg
m-2
s-1
|xy
z|
SO4
Prod
from
wet
SO2
oxid
atio
n(V
olca
nic)
PSO4
AQvo
lc|
SU|
kgm-
2s-
1|
xyz
|SO
4Pr
odfr
omaq
ueou
sSO
2ox
idat
ion
(Vol
cani
c)SU
PSO2
volc
|SU
|kg
m-2
s-1
|xy
|SO
2Pr
odfr
omDM
SOx
idat
ion
[col
umn]
(Vol
cani
c)SU
PSO4
Gvol
c|
SU|
kgm-
2s-
1|
xy|
SO4
Prod
from
Gase
ous
SO2
Oxid
atio
n[c
olum
n](V
olca
nic)
SUPS
O4AQ
volc
|SU
|kg
m-2
s-1
|xy
|SO
4Pr
odfr
omAq
ueou
sSO
2Ox
idat
ion
[col
umn]
(Vol
cani
c)
25
SUPS
O4WT
volc
|SU
|kg
m-2
s-1
|xy
|SO
4Pr
odfr
omAq
ueou
sSO
2Ox
idat
ion
(wet
dep)
[col
umn]
(Vol
cani
c)SU
PMSA
volc
|SU
|kg
m-2
s-1
|xy
|MS
APr
odfr
omDM
SOx
idat
ion
[col
umn]
(Vol
cani
c)SO
2SMA
SSvo
lc|
SU|
kgm-
3|
xy|
SO2
Surf
ace
Mass
Conc
entr
atio
n(V
olca
nic)
SO2C
MASS
volc
|SU
|kg
m-2
|xy
|SO
2Co
lumn
Mass
Dens
ity
(Vol
cani
c)SO
4SMA
SSvo
lc|
SU|
kgm-
3|
xy|
SO4
Surf
ace
Mass
Conc
entr
atio
n(V
olca
nic)
SO4C
MASS
volc
|SU
|kg
m-2
|xy
|SO
4Co
lumn
Mass
Dens
ity
(Vol
cani
c)DM
SSMA
SSvo
lc|
SU|
kgm-
3|
xy|
DMS
Surf
ace
Mass
Conc
entr
atio
n(V
olca
nic)
DMSC
MASS
volc
|SU
|kg
m-2
|xy
|DM
SCo
lumn
Mass
Dens
ity
(Vol
cani
c)SU
CONC
volc
|SU
|kg
m-3
|xy
z|
SO4
Aero
sol
Mass
Conc
entr
atio
n(V
olca
nic)
SUEX
TCOE
Fvol
c|
SU|
m-1
|xy
z|
SO4
Exti
ncti
onCo
effi
cien
t[5
50nm
](V
olca
nic)
SUSC
ACOE
Fvol
c|
SU|
m-1
|xy
z|
SO4
Scat
teri
ngCo
effi
cien
t[5
50nm
](V
olca
nic)
SUAN
GSTR
volc
|SU
|1
|xy
|SO
4An
gstr
ompa
rame
ter
[470
-870
nm]
(Vol
cani
c)SU
FLUX
Uvol
c|
SU|
kgm-
1s-
1|
xy|
SO4
colu
mnu-
wind
mass
flux
(Vol
cani
c)SU
FLUX
Vvol
c|
SU|
kgm-
1s-
1|
xy|
SO4
colu
mnv-
wind
mass
flux
(Vol
cani
c)SO
4MAS
Svol
c|
SU|
kgkg
-1|
xyz
|SO
4Ae
roso
lMa
ssMi
Rati
o(V
olca
nic)
SUEX
TTAU
volc
|SU
|1
|xy
|SO
4Ex
tinc
tion
AOT
[550
nm]
(Vol
cani
c)SU
SCAT
AUvo
lc|
SU|
1|
xy|
SO4
Scat
teri
ngAO
T[5
50nm
](V
olca
nic)
----
----
----
----
|---
----
----
-|--
----
----
--|-
----
--|-
----
----
----
----
----
----
----
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26