Rundeck: E6F40

Created: Thu May 2 03:30:28 EDT 2024

List of Database Variables

a b c d e f g h i j k l m n o p q r s t u v w x y z

adiurn_dust : integer, public: Global variable . Module: DIAG_COM. File: DIAG_COM.f
flag to switch on/off intra daily diagnostics for dust
Initial Value = 0
aer_rad_forc : integer: Global variable . Module: RAD_COM. File: RAD_COM.f
= 1 for calculation of aerosol radiative forcing
Initial Value = 0
aero_yr : integer: Global variable . Module: RAD_COM. File: RAD_COM.f
obs.year of troposph.Aerosols (if 0: use current yr)
Initial Value = 1951
albsn_yr : integer: Global variable . Module: RAD_COM. File: RAD_COM.f
year of blk carb depos used for snow alb. reduction
Initial Value = 1951
ang_gwd : integer: Global variable . Module: STRAT. File: STRATDYN.f
=1 ang mom. lost by GWDRAG is added in troposphere
Initial Value = 1
ang_uv : integer: Global variable . Module: DYNAMICS. File: ATMDYN_COM.F90
= 1 to conserve ang mom in UVfilter
Initial Value = 1
autoconv_multiplier : real*8: Global variable . Module: CLOUDS. File: CLOUDS2.F90
autoconversion rate multiplier
Initial Value = 1.d0
c_sdrag : real*8: Global variable . Module: DYNAMICS. File: ATMDYN_COM.F90
. SDRAG=C_SDRAG (const.)
Initial Value = 2.5d-5
cael_lakes : integer: Subroutine: init_lakes. Module: NONE. File: LAKES.f
switch to select default shape of new lakes
Initial Value = 0
calc_wspdf : integer: Global variable . Module: SOCPBL. File: PBL.f
if calc_wspdf==1, calculate mean surface
Initial Value = 0
cc_cdncx : real*8: Global variable . Module: RAD_COM. File: RAD_COM.f
scaling factor relating cld cvr change and CDNC change
Initial Value = .0000d0
cdef : real*8: Global variable . Module: STRAT. File: STRATDYN.f
parameter for GW DEF drag (in param. database)
Initial Value = 3
chl_from_obio : integer: Global variable . Module: RAD_COM. File: RAD_COM.f
=1 to use chl from obio when computing ocean albedo
Initial Value = 0
chl_from_seawifs : integer: Global variable . Module: RAD_COM. File: RAD_COM.f
=1 to use chl from SeaWIFs when computing ocn albedo
Initial Value = 0
clim_interact_chem : integer: Global variable . Module: RAD_COM. File: RAD_COM.f
=1 for radiatively active chem tracers
Initial Value = 0
cloud_rad_forc : integer: Global variable . Module: RAD_COM. File: RAD_COM.f
= 1 for calculation of cloud radiative forcing
Initial Value = 0
cmc : real*8: Global variable . Module: STRAT. File: STRATDYN.f
parameter for GW M. Convective drag (database if LM<=40)
Initial Value = 2d-7
cmtn : real*8: Global variable . Module: STRAT. File: STRATDYN.f
parameter for GW MTN drag (in param. database)
Initial Value = .5
co2x : real*8: Global variable . Module: RAD_COM. File: RAD_COM.f
,... scaling factors for CO2 N2O CH4 CFC11 CFC12 XGHG
Initial Value = 1.
cshear : real*8: Global variable . Module: STRAT. File: STRATDYN.f
parameter for GW shear drag (in param. database)
Initial Value = 1
dalbsnx : real*8: Global variable . Module: RAD_COM. File: RAD_COM.f
global coeff for snow alb change by black carbon depos
Initial Value = 0.
defthresh : real*8: Global variable . Module: STRAT. File: STRATDYN.f
threshold for deformation wave (1/s)
Initial Value = 15d-6
do_blu00 : integer: Global variable . Module: CLOUDS. File: CLOUDS2.F90
=1 if boundary layer U00 is treated differently
Initial Value = 0
do_ic_fixups : integer: Subroutine: input. Module: NONE. File: MODELE.f
: set = 1 if surface IC are to be checked/corrected
Initial Value = 0
do_polefix : integer: Global variable . Module: DYNAMICS. File: ATMDYN_COM.F90
= 1 to correct u,v tendencies near poles
Initial Value = 1
dt : real*8: Global variable . Module: DYNAMICS. File: ATMDYN_COM.F90
= (atmospheric) dynamics time step (s)
Initial Value = 450
dt_xufilter : real*8: Global variable . Module: DYNAMICS. File: ATMDYN_COM.F90
dU is multiplied by dt/DT_XUfilter in E-W, value of 0 switches off filter
Initial Value = 0
dt_xvfilter : real*8: Global variable . Module: DYNAMICS. File: ATMDYN_COM.F90
dV is multiplied by dt/DT_XVfilter in E-W
Initial Value = 0
dt_yufilter : real*8: Global variable . Module: DYNAMICS. File: ATMDYN_COM.F90
dU is multiplied by dt/DT_YUfilter in N-S
Initial Value = 0
dt_yvfilter : real*8: Global variable . Module: DYNAMICS. File: ATMDYN_COM.F90
dV is multiplied by dt/DT_YVfilter in N-S
Initial Value = 0
dtsrc : real*8: Global variable . Module: MODEL_COM. File: MODEL_COM.f
source time step (s) = 1 ITU
Initial Value = 3600.
dust_yr : integer: Global variable . Module: RAD_COM. File: RAD_COM.f
nominal year for prescribed dust climatology (if 0: use current yr)
Initial Value = 1951
entrainment_cont1 : real*8: Global variable . Module: CLOUDS. File: CLOUDS2.F90
constant for entrainment rate, plume 1
Initial Value = .4d0
entrainment_cont2 : real*8: Global variable . Module: CLOUDS. File: CLOUDS2.F90
constant for entrainment rate, plume 2
Initial Value = .6d0
flake_sill : real*8: Global variable . Module: FLUXES. File: FLUXES.f
lake fraction at sill level (FLAKE0)
Initial Value = -1.
funio_denominator : real*8: Global variable . Module: CLOUDS. File: CLOUDS2.F90
funio denominator
Initial Value = 22.d0
fuse_groups : logical: Subroutine: ij_defs. Module: NONE. File: DEFACC.f
whether to output groups of related
Initial Value = .false.
geotherm_landx : real*8: Subroutine: alloc_ghy_com. Module: NONE. File: GHY_COM.f
scaling factor for geothermal heat flux->land
Initial Value = 0.
geotherm_ocnx : real*8: Subroutine: alloc_qfluxes. Module: OCNML. File: OCNML.f
scaling factor for geothermal heat flux over ocean
Initial Value = 0.
ghg_day : integer: Global variable . Module: RAD_COM. File: RAD_COM.f
obs.date of well-mixed GHgases (if 0: time var)
Initial Value = 182
ghg_yr : integer: Global variable . Module: RAD_COM. File: RAD_COM.f
obs.date of well-mixed GHgases (if 0: time var)
Initial Value = 1951
ghy_default_data : integer: Subroutine: init_gh. Module: SOIL_DRV. File: GHY_DRV.f
if == 1 reset all GHY data to defaults
Initial Value = 0
glmelt_fac_nh : real*8: Global variable . Module: LANDICE. File: LANDICE.f
is a factor to multiply glacial melt by in NH
Initial Value = 1.d0
glmelt_fac_sh : real*8: Global variable . Module: LANDICE. File: LANDICE.f
is a factor to multiply glacial melt by in SH
Initial Value = 1.d0
glmelt_on : integer: Global variable . Module: LANDICE. File: LANDICE.f
determines whether glacial melt is used for oceans
Initial Value = 1
h2obych4 : real*8: Global variable . Module: RAD_COM. File: RAD_COM.f
if not 0: add CH4 produced H2O into layers 1->LM
Initial Value = 1.
h2ostratx : real*8: Global variable . Module: RAD_COM. File: RAD_COM.f
strat_water_vapor, cloud, Ozone scaling factor
Initial Value = 1.
hrmax : real*8: Global variable . Module: CLOUDS. File: CLOUDS2.F90
maximum distance an air parcel rises from surface
Initial Value = 1000.d0
ijdd : integer, dimension(2, ndiupt), public: Global variable . Module: DIAG_COM. File: DIAG_COM.f
(i,j)-coord.,names of boxes w/diurnal cycle diag
ikliq : integer: Global variable . Module: RAD_COM. File: RAD_COM.f
0,1,-1 initialize kliq as dry,equil,current model state
Initial Value = -1
init_flake : integer: Global variable . Module: LAKES. File: LAKES.f
used to make sure FLAKE is properly initialised
Initial Value = 1
init_topog_related : integer: Subroutine: input. Module: NONE. File: MODELE.f
: set = 1 if IC and topography are incompatible
Initial Value = 0
irand : integer: Global variable . Module: MODEL_COM. File: MODEL_COM.f
last seed used by rand.number generator
Initial Value = 123456789
irrig_yr : integer: Global variable . Module: IRRIGMOD. File: IRRIGMOD.f
year for irrigation data (if 0: time var)
Initial Value = 2000
isc : integer: Global variable . Module: CLOUDS. File: CLOUDS2.F90
integer to turn on computation of stratocumulus clouds
Initial Value = 0
isccp_diags : integer, public: Global variable . Module: DIAG_COM. File: DIAG_COM.f
: if 1 accumulate ISCCP cloud data (default 0)
Initial Value = 0
kcopy : integer: Global variable . Module: MODEL_COM. File: MODEL_COM.f
: if 1 => acc, if 3 => +od are saved
Initial Value = 1
keep_params : integer: Subroutine: new_io_label. Module: NONE. File: IO_DRV.f
if =1, params are read in from a *.rsf* file
Initial Value = 0
kfpco2 : integer: Subroutine: set_fpxco2. Module: NONE. File: RAD_UTILS.f
selects CO2 profile absorber scaling (if >0 )
kocean : integer: Global variable . Module: MODEL_COM. File: MODEL_COM.f
: if 0 => specified, if 1 => predicted ocean
Initial Value = 1
kradia : integer: Global variable . Module: ATM_COM. File: ATM_COM.f
if -1 save data for, if 1|2 do inst|adj forcing run
Initial Value = 0
krsf : integer: Global variable . Module: MODEL_COM. File: MODEL_COM.f
: .rsf is written at beginning of every KRSF month
Initial Value = 120
lake :: Global variable . Module: LAKES. File: LAKES.f
ice exceeding lake_ice_max (m) of water equivalent
lake_rise_max : real*8: Global variable . Module: LAKES. File: LAKES.f
amount of lake rise (m) over sill level before
Initial Value = 1d2
land_co2_bc : real*8: Global variable . Module: SOIL_DRV. File: GHY_DRV.f
CO2 concentration (ppm) to be used by Land Surfacw
Initial Value = 280.d0
land_co2_bc_flag : integer: Global variable . Module: SOIL_DRV. File: GHY_DRV.f
type of CO2 BC to be used by Land Surface
Initial Value = 1
lh_diags : integer, public: Global variable . Module: DIAG_COM. File: DIAG_COM.f
: if 1 accumulate 3D drying & latent heating profiles (default 0)
Initial Value = 0
lldd : real*8, dimension(2, ndiupt), public: Global variable . Module: DIAG_COM. File: DIAG_COM.f
(lon,lat)-coords (deg) of boxes w/diurnal cycle diag
lmaxsubdd : integer: Global variable . Module: SUBDAILY. File: DIAG.f
: the max L when writing "ALL" levels
Initial Value = LM
lmcm : integer: Global variable . Module: CLOUDS. File: CLOUDS2.F90
max level for originating MC plumes
Initial Value = -1
make_timeaxis : logical, public: Global variable . Module: MDIAG_COM. File: MODEL_COM.f
whether scaled monthly output files should contain
Initial Value = .false.
master_yr : integer: Global variable . Module: MODEL_COM. File: MODEL_COM.f
year of simulation. This value will define aero_yr,
Initial Value = 1951
maxctop : real*8: Global variable . Module: CLOUDS. File: CLOUDS2.F90
max cloud top pressure
Initial Value = 50.d0
mc_entr_mass_lim_plume : integer: Global variable . Module: CLOUDS. File: CLOUDS2.F90
1 to limit entr. mass to that of plume, 0 for base layer
Initial Value = 1
mc_fddrt : real*8: Global variable . Module: CLOUDS. File: CLOUDS2.F90
frac of ddraft condensate avail for evp
Initial Value = .5d0
mc_new_ddrft_thetav : integer: Global variable . Module: CLOUDS. File: CLOUDS2.F90
1 to use new virt pot temp for ddraft buoy, 0 for old
Initial Value = 1
mc_revp_abv_cldbase : integer: Global variable . Module: CLOUDS. File: CLOUDS2.F90
1 to allow conv re-evap above the cld base, 0 for below only
Initial Value = 1
mfiltr : integer: Global variable . Module: DYNAMICS. File: ATMDYN_COM.F90
: if 1 => PSL, if 2 => T, if 3 => PSL&T is filtered
Initial Value = 1
namdd : character*4, dimension(ndiupt), public: Global variable . Module: DIAG_COM. File: DIAG_COM.f
(i,j)-coord.,names of boxes w/diurnal cycle diag
nda4 : integer, public: Global variable . Module: DIAG_COM. File: DIAG_COM.f
: DT_Diag4 = NDA4 *DTsrc Energy history
Initial Value = 24
nda5d : integer, public: Global variable . Module: DIAG_COM. File: DIAG_COM.f
: DT_Diag5d = NDA5d*DTsrc Consrv SpAnal dyn
Initial Value = 1
nda5k : integer, public: Global variable . Module: DIAG_COM. File: DIAG_COM.f
: DT_Diag5k = NDA5k*DTsrc + 2*DT(dyn) SpAnal KE
Initial Value = 7
nda5s : integer, public: Global variable . Module: DIAG_COM. File: DIAG_COM.f
: DT_Diag5s = NDA5s*DTsrc Consrv SpAnal src
Initial Value = 1
ndaa : integer, public: Global variable . Module: DIAG_COM. File: DIAG_COM.f
: DT_DiagA = NDAA*DTsrc + 2*DT(dyn)
Initial Value = 7
ndasf : integer, public: Global variable . Module: DIAG_COM. File: DIAG_COM.f
: DT_DiagSrfc = NDASf*DTsrc + DTsrc/NIsurf
Initial Value = 1
ndisk : integer: Global variable . Module: MODEL_COM. File: MODEL_COM.f
: DT_saversf = Ndisk *DTsrc fort.1/fort.2 saves
Initial Value = 24
nfiltr : integer: Global variable . Module: DYNAMICS. File: ATMDYN_COM.F90
= DT_filter / DTsrc
Initial Value = 1
ngrids : integer: Global variable . Module: MODEL_COM. File: MODEL_COM.f
: set 1 | 2 if atm and ocn grids are same | different
Initial Value = 2
niprnt : integer: Global variable . Module: MODEL_COM. File: MODEL_COM.f
number of instantaneous initial printouts
Initial Value = 1
nisurf : integer: Global variable . Module: FLUXES. File: FLUXES.f
: DT_Surface = DTsrc/NIsurf
Initial Value = 2
nmonav : integer: Global variable . Module: MODEL_COM. File: MODEL_COM.f
number of months in a diagnostic accuml. period
Initial Value = 1
nrad : integer: Global variable . Module: RAD_COM. File: RAD_COM.f
: DT_Rad = NRad*DTsrc
Initial Value = 5
nradfrc : integer: Global variable . Module: RAD_COM. File: RAD_COM.f
sets frequency of inst. rad. forcing calculations
Initial Value = 1
nssw : integer: Global variable . Module: MODEL_COM. File: MODEL_COM.f
: DT_checkSsw = Nssw *DTsrc
Initial Value = 1
nsubdd : integer: Global variable . Module: SUBDAILY. File: DIAG.f
: DT_save_SUBDD = Nsubdd*DTsrc sub-daily diag freq.
Initial Value = 0
o3_yr : integer: Global variable . Module: RAD_COM. File: RAD_COM.f
obs.year of Ozone (if 0: use current year)
Initial Value = 1951
oc_cdncx :: Global variable . Module: RAD_COM. File: RAD_COM.f
scaling factor relating cld opt depth and CDNC change
oi_ustar0 : real*8: Global variable . Module: SEAICE. File: SEAICE.f
default ice-ocean friction velocity [m/s]
Initial Value = 1d-3
old_oht : integer: Global variable . Module: OCNML. File: OCNML.f
0: new scheme, 1: old scheme
Initial Value = 1
orb_par : real*8, dimension(3): Global variable . Module: RAD_COM. File: RAD_COM.f
:: directly specifies orbital parameters
Initial Value = (/ eccn_def, obliq_def, omegt_def /)
orb_par_year_bp : integer: Global variable . Module: RAD_COM. File: RAD_COM.f
= offset from model_year or 1950 (fixed case)
Initial Value = 0
ozone_use_ppm_interp : integer: Global variable . Module: O3MOD. File: RAD_UTILS.f
= 1 uses ppm interpolation in the
Initial Value = 1
p_csdrag :: Global variable . Module: DYNAMICS. File: ATMDYN_COM.F90
pressure level above which const.drag is increased
p_sdrag :: Global variable . Module: DYNAMICS. File: ATMDYN_COM.F90
= pressure level above which SDRAG is applied (mb), PP_SDRAG = near poles
pbreak : real*8: Global variable . Module: STRAT. File: STRATDYN.f
p. level above which GW drag acts (in param. database)
Initial Value = 500.
pbreaktop : real*8: Global variable . Module: STRAT. File: STRATDYN.f
p. level to force GW breaking in top layer
Initial Value = 0.05d0
pconpen : real*8: Global variable . Module: STRAT. File: STRATDYN.f
level of penetrating moist conv (in param. database)
Initial Value = 400.
planck_tmax : integer: Global variable . Module: RADPAR. File: RADIATION.f
temperature range for Planck function
Initial Value = 800
planck_tmin : integer: Global variable . Module: RADPAR. File: RADIATION.f
temperature range for Planck function
Initial Value = 1
prather_limits : integer: Global variable . Module: QUSDEF. File: QUSDEF.f
forces +ve sub-grid scale profiles (default=0)
Initial Value = 0
qfluxx : real*8: Global variable . Module: OCNML. File: OCNML.f
multiplying factor for qfluxes
Initial Value = 1.
qgwcnv : integer: Global variable . Module: STRAT. File: STRATDYN.f
=1 turns on GW Convective drag terms
Initial Value = 1
qgwdef : integer: Global variable . Module: STRAT. File: STRATDYN.f
=1 turns on GW Deformation drag terms
Initial Value = 1
qgwmtn : integer: Global variable . Module: STRAT. File: STRATDYN.f
=1 turns on GW Mountain Wave drag terms
Initial Value = 1
qgwshr : integer: Global variable . Module: STRAT. File: STRATDYN.f
=1 turns on GW Shear drag terms
Initial Value = 1
rad_forc_lev : integer: Global variable . Module: RAD_COM. File: RAD_COM.f
= 0 for TOA, 1 for LTROPO (default=0)
Initial Value = 0
rad_interact_aer : integer: Global variable . Module: RAD_COM. File: RAD_COM.f
=1 for radiatively active non-chem tracers
Initial Value = 0
radius_multiplier : real*8: Global variable . Module: CLOUDS. File: CLOUDS2.F90
cloud particle radius multiplier
Initial Value = 1.d0
rhfix : real*8: Global variable . Module: RAD_COM. File: RAD_COM.f
const.rel.humidity passed to radiation for aeros. tests
Initial Value = -1.
ricldx : real*8: Global variable . Module: CLOUDS. File: CLOUDS2.F90
multiplies part.size of ice clouds at 1000mb, changes linearly to 1 as p->0mb
Initial Value = 1.d0
rimax : real*8: Global variable . Module: CLOUDS. File: CLOUDS2.F90
maximum ice cloud size
Initial Value = 100.d0
river_fac : real*8: Global variable . Module: LAKES. File: LAKES.f
Factor to multiply runoff by to balance sea level
Initial Value = 1.
rtau : real*8, allocatable, dimension(:): Global variable . Module: DYNAMICS. File: ATMDYN_COM.F90
rayleigh friction timescale (seconds) as a function of layer
rwcldox : real*8: Global variable . Module: CLOUDS. File: CLOUDS2.F90
multiplies part.size of water clouds over ocean
Initial Value = 1.d0
rwmax : real*8: Global variable . Module: CLOUDS. File: CLOUDS2.F90
maximum water cloud size
Initial Value = 20.d0
s0_day : integer: Global variable . Module: RAD_COM. File: RAD_COM.f
obs.date of solar constant (if 0: time var)
Initial Value = 182
s0_yr : integer: Global variable . Module: RAD_COM. File: RAD_COM.f
obs.date of solar constant (if 0: time var)
Initial Value = 1951
s0x : real*8: Global variable . Module: RAD_COM. File: RAD_COM.f
solar constant multiplication factor
Initial Value = 1.
save3daod : integer, public: Global variable . Module: DIAG_COM. File: DIAG_COM.f
flag to calculate ttasv_save in rad code even when
Initial Value = 0
sbgc_spinup : logical: Global variable . Module: SOIL_DRV. File: GHY_DRV.f
turn on the algorithm for fast soil carbon spinup.
Initial Value = .false.
scvmu : real*8: Global variable . Module: STRAT. File: STRATDYN.f
parameter to Scale Convective MUs (database if LM>40)
Initial Value = .188d0
silmfac : real*8: Global variable . Module: SEAICE. File: SEAICE.f
factor controlling lateral melt of ocean ice
Initial Value = 1.d-7
skin_effect : integer: Global variable . Module: SOCPBL. File: PBL.f
sets whether skin effects are used or not
Initial Value = 1
small_lake_evap : integer: Global variable . Module: LAKES. File: LAKES.f
: if set to 1, shallow lakes may evaporate; if
Initial Value = 0
snoage_def : integer: Global variable . Module: RAD_COM. File: RAD_COM.f
determines how snowage is calculated:
Initial Value = 0
snow_cover_coef : real*8: Global variable . Module: SOIL_DRV. File: GHY_DRV.f
coefficient for topography variance in
Initial Value = .15d0
snow_ice : integer: Global variable . Module: SEAICE. File: SEAICE.f
=1 to allow for snow ice formation (default=1)
Initial Value = 1
subdd : character*64: Global variable . Module: SUBDAILY. File: DIAG.f
string contains variables to save for sub-daily diags
Initial Value = "SLP"
subdd1 : character*64: Global variable . Module: SUBDAILY. File: DIAG.f
additional string of variables for sub-daily diags
Initial Value = " "
subdd2 : character*64: Global variable . Module: SUBDAILY. File: DIAG.f
additional string of variables for sub-daily diags
Initial Value = " "
subdd3 : character*64: Global variable . Module: SUBDAILY. File: DIAG.f
additional string of variables for sub-daily diags
Initial Value = " "
subdd4 : character*64: Global variable . Module: SUBDAILY. File: DIAG.f
additional string of variables for sub-daily diags
Initial Value = " "
taero_aod_diag : integer: Global variable . Module: RAD_COM. File: RAD_COM.f
= 1 outputs offline aerosol optical properties,
Initial Value = 0
u00a : real*8: Global variable . Module: CLOUDS. File: CLOUDS2.F90
tuning knob for U00 above 850 mb without moist convection
Initial Value = 0.55d0
u00b : real*8: Global variable . Module: CLOUDS. File: CLOUDS2.F90
tuning knob for U00 below 850 mb and in convective regions
Initial Value = 1.00d0
u00ice : real*8: Global variable . Module: CLOUDS. File: CLOUDS2.F90
critical humidity for ice cloud condensation
Initial Value = .7d0
u00wtrx : real*8: Global variable . Module: CLOUDS. File: CLOUDS2.F90
multiplies U00ice for critical humidity for water clds
Initial Value = 1.0d0
uodrag : integer: Global variable . Module: FLUXES. File: FLUXES.f
parameter that decides whether ocean.ice velocities
Initial Value = 0
use_sol_ox_cycle : integer: Global variable . Module: O3MOD. File: RAD_UTILS.f
if =1, a cycle of ozone is appled to
Initial Value = 0
use_unr_drag : integer: Global variable . Module: DYNAMICS. File: ATMDYN_COM.F90
: if 1 => SDRAG is turned off and GWD is applied
Initial Value = 0
use_vmp : logical: Global variable . Module: CLOUDS. File: CLOUDS2.F90
whether to use VMP option
Initial Value = .false.
variable_lk : integer: Global variable . Module: LAKES. File: LAKES.f
1 if lakes are to be variable
Initial Value = 0
variable_orb_par : integer: Global variable . Module: RAD_COM. File: RAD_COM.f
1 if orbital parameters are time dependent
Initial Value = -2
volc_day : integer: Global variable . Module: RAD_COM. File: RAD_COM.f
obs.date of Volc.Aerosols (if 0: time var)
Initial Value = 182
volc_mean : integer, dimension(2): Global variable . Module: RAD_COM. File: RAD_COM.f
Range of years to be used when volc_yr=-1
Initial Value = (/1850,2014/)
volc_yr : integer: Global variable . Module: RAD_COM. File: RAD_COM.f
obs.date of Volc.Aerosols (if 0: time var)
Initial Value = 1951
vsdragl :: Global variable . Module: DYNAMICS. File: ATMDYN_COM.F90
= tuning factor for stratospheric drag (not =1 e.g. if used with explicit grav.wave drag scheme)
wc_jdrag :: Global variable . Module: DYNAMICS. File: ATMDYN_COM.F90
= critical velocity for J.Hansen/Judith Perlwitz drag; if 0 no JDRAG feature in SDRAG
wmax :: Global variable . Module: DYNAMICS. File: ATMDYN_COM.F90
= imposed limit for stratospheric winds (m/s) in SDRAG
wmui_multiplier : real*8: Global variable . Module: CLOUDS. File: CLOUDS2.F90
critical ice cloud water multiplier
Initial Value = 1.d0
wsn_max : real*8, public: Global variable . Module: GHY_COM. File: GHY_COM.f
snow amount limit (m, water equivalent)
Initial Value = 2.d0
x_sdrag : real*8, dimension(2): Global variable . Module: DYNAMICS. File: ATMDYN_COM.F90
. SDRAG ~X_SDRAG(1)+X_SDRAG(2)*wind_magnitude
Initial Value = (/2.5d-4,2.5d-5/)
xcdnst : real*8, dimension(2), dimension(2): Global variable . Module: STRAT. File: STRATDYN.f
parameters for GW drag (in param. database)
xcdpbl : real*8: Global variable . Module: SOCPBL. File: PBL.f
factor for momentum drag coefficient
Initial Value = 1d0
year :: Global variable . Module: IRRIGMOD. File: IRRIGMOD.f
to start adding "fossil" groundwater to system
year1_ohtconv : integer, public: Global variable . Module: OCNML. File: OCNML.f
first year of accumulation for ohtconv
Initial Value = 0
z12o_max : real*8, public: Global variable . Module: OCNML. File: OCNML.f
maximal mixed layer depth (m) for qflux model
Initial Value = -1

Simplex Website Curator: Igor Aleinov — NASA Official: Gavin A. Schmidt

Contact GISS — NASA Privacy Policy — Accessibility

National Aeronautics and Space Administration

Goddard Institute for Space Studies

List of Database Variables