VOLCANIC-LAT-SEASON MET-FUB MPI-ESM-LR PINAsh atmosphere echam monthly

hdl:21.14106/58246c9055d061b5ec395682a4e0a426fbe75987

Zhuo, Zhihong; Kirchner, Ingo; Cubasch, Ulrich

Dataset
Summary
[ Derived from parent entry - See data hierarchy tab ]

In order to explore the sensitivity of the climate impact of volcanic eruptions to eruption season and latitude, we simulate volcanic eruptions at different latitudes and in different seasons with the Max Planck Institute Earth System Model (MPI-ESM). We use the same configuration of the MPI-ESM model as used for the historical simulation of CMIP6. An initial run is performed firstly (PINArst). Then we perform 23 and 10 control runs without any volcanic eruption (PINAref and PINAwRef). Two groups of three different latitudinal volcanic eruptions in boreal summer and winter are simulated. We perform 10-member simulations for each eruption case. 9 Tg of total sulfur injection magnitude is prescribed. The eruption latitudes are set to be 0° for the equatorial eruptions (PINAeq and PINAwEQ) and 30° N and 30° S for the northern and southern hemispheric eruptions (PINAnh, PINAwNH, PINAsh and PINAwNH), respectively. For the summer eruptions, the date is set to be the same as the 1991 Pinatubo eruption on June 15, 1991; for the winter eruptions, the date is set to be December 15, 1991.
Project
Hydro-Volc-AMR (The hydrological effects of explosive volcanic eruptions in the Asian monsoon region)
Spatial Coverage
Longitude 0 to 360 Latitude -90 to 90
Temporal Coverage
1991-01-01 to 1996-12-01 (calendrical)
Use constraints
Creative Commons Attribution 4.0 International (CC BY 4.0) (https://creativecommons.org/licenses/by/4.0/)
Data Catalog
World Data Center for Climate
Access constraints
registered users
Size
12.21 GiB (13115596800 Byte)
Format
tar-File(s)
Status
completely archived
Creation Date
Future Review Date
2031-02-24
Download Permission
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Cite as
[ Derived from parent entry - See data hierarchy tab ]
Zhuo, Zhihong; Kirchner, Ingo; Cubasch, Ulrich (2021). Different latitudinal volcanic eruption simulations in different seasons met.fu-berlin MPI-ESM-LR echam monthly. World Data Center for Climate (WDCC) at DKRZ. https://doi.org/10.26050/WDCC/LAT-SEASON-VOLCANIC_MPI-ESM-LR

BibTeX RIS
VariableCodeAggregationUnit
air_pressure_at_convective_cloud_top (maximum)CF
topmax (ECHAM6: 217)
monPa
air_temperatureCF
st (ECHAM6: 130)
monK
air_temperature-at2mCF
temp2 (ECHAM6: 167)
monK
air_temperature-at2m (maximum)CF
t2max (ECHAM6: 201)
monK
air_temperature-at2m (minimum)CF
t2min (ECHAM6: 202)
monK
area_fraction-ofSea/Lake-ice (except ice-shelf) (area:grid box)CF
seaice (ECHAM6: 210)
mon1
atmosphere_mass_content_of_cloud_iceCF
xivi (ECHAM6: 150)
monkg m-2
atmosphere_mass_content_of_cloud_liquid_waterCF
xlvi (ECHAM6: 231)
monkg m-2
atmosphere_relative_vorticityCF
svo (ECHAM6: 138)
mons-1
atmosphere_water_vapor_contentCF
qvi (ECHAM6: 230)
monkg m-2
cloud_area_fractionCF
aclcov (ECHAM6: 164)
mon1
cloud_area_fraction_in_atmosphere_layerCF
aclcac (ECHAM6: 223)
mon1
cloud_ice_mixing_ratioCF
xi (ECHAM6: 154)
monkg kg-1
cloud_liquid_water_mixing_ratioCF
xl (ECHAM6: 153)
monkg kg-1
convective_precipitation_fluxCF
aprc (ECHAM6: 143)
monkg(S) m-2 s-1
dew_point_temperature-at2mCF
dew2 (ECHAM6: 168)
monK
dissipation_in_atmosphere_boundary_layerCF
vdis (ECHAM6: 145)
monW/m2
divergence_of_windCF
sd (ECHAM6: 155)
mons-1
eastward_windCF
c131 (ECHAM6: 131)
monm/s
eastward_wind-at10mCF
u10 (ECHAM6: 165)
monm/s
floating_ice_thicknessCF
siced (ECHAM6: 211)
monm
geopotential_heightCF
c156 (ECHAM6: 156)
monm
humidity_mixing_ratioCF
q (ECHAM6: 133)
monkg kg-1
ice_thickness-where_land/ice-shelf
gld (ECHAM6: 213)
monm
land_area_fractionCF
slf (ECHAM6: 194)
mon1
land_binary_maskCF
slm (ECHAM6: 172)
mon1
land_ice_area_fractionCF
glac (ECHAM6: 232)
mon1
large_scale_precipitation_fluxCF
aprl (ECHAM6: 142)
monkg(S) m-2 s-1
lwe_thickness_of_snowfall_amount-where_vegetationCF
snc (ECHAM6: 233)
monm
lwe_thickness_of_surface_snow_amountCF
sn (ECHAM6: 141)
monm
lwe_thickness_of_surface_snow_amount-where_sea/lake-ice (except ice-shelf)CF
sni (ECHAM6: 214)
monm
minus_one_times_surface_upwelling_longwave_flux_in_airCF
tradsu (ECHAM6: 205)
monW/m2
minus_one_times_surface_upwelling_shortwave_flux_in_airCF
sradsu (ECHAM6: 204)
monW/m2
minus_one_times_toa_outgoing_shortwave_fluxCF
srad0u (ECHAM6: 203)
monW/m2
northward_windCF
c132 (ECHAM6: 132)
monm/s
northward_wind-at10mCF
v10 (ECHAM6: 166)
monm/s
relative_humidityCF
relhum (ECHAM6: 157)
mon1
snowfall_fluxCF
aprs (ECHAM6: 144)
monkg(S) m-2 s-1
soil_moisture_contentCF
ws (ECHAM6: 140)
monm
soil_moisture_content_at_field_capacityCF
wsmx (ECHAM6: 229)
monm
surface_air_pressureCF
aps (ECHAM6: 134)
monPa
surface_air_pressure_log
lsp (ECHAM6: 152)
mon1
surface_albedoCF
albedo (ECHAM6: 175)
mon1
surface_downward_latent_heat_fluxCF
ahfl (ECHAM6: 147)
monW/m2
surface_downward_sensible_heat_fluxCF
ahfs (ECHAM6: 146)
monW/m2
surface_geopotentialCF
geosp (ECHAM6: 129)
monm2/s2
surface_net_downward_longwave_fluxCF
trads (ECHAM6: 177)
monW/m2
surface_net_downward_longwave_flux_assuming_clear_skyCF
trafs (ECHAM6: 186)
monW/m2
surface_net_downward_shortwave_fluxCF
srads (ECHAM6: 176)
monW/m2
surface_net_downward_shortwave_flux_assuming_clear_skyCF
srafs (ECHAM6: 185)
monW/m2
surface_temperatureCF
tsurf (ECHAM6: 169)
monK
toa_incoming_shortwave_fluxCF
srad0d (ECHAM6: 184)
monW/m2
toa_net_downward_longwave_fluxCF
trad0 (ECHAM6: 179)
monW/m2
toa_net_downward_longwave_flux_assuming_clear_skyCF
traf0 (ECHAM6: 188)
monW/m2
toa_net_downward_shortwave_fluxCF
srad0 (ECHAM6: 178)
monW/m2
toa_net_downward_shortwave_flux_assuming_clear_skyCF
sraf0 (ECHAM6: 187)
monW/m2
tropopause_air_pressureCF
tropo (ECHAM6: 237)
monPa
water_evaporation_fluxCF
evap (ECHAM6: 182)
monkg(S) m-2 s-1
wind_speed-at10mCF
wind10 (ECHAM6: 171)
monm/s

Parent

Different latitudinal volcanic eruption simulations in different seasons met.fu-berlin MPI-ESM-LR echam monthly
Details

Parent project(s)

The hydrological effects of explosive volcanic eruptions in the Asian monsoon region

[Entry acronym: VLMFELPINAshatmosechamm] [Entry id: 3887534]