Geoscientific model development,
Journal Year:
2023,
Volume and Issue:
16(13), P. 3953 - 3995
Published: July 13, 2023
Abstract.
This
paper
provides
an
overview
of
the
United
States
(US)
Department
Energy's
(DOE's)
Energy
Exascale
Earth
System
Model
version
2
(E3SMv2)
fully
coupled
regionally
refined
model
(RRM)
and
documents
overall
atmosphere,
land,
river
results
from
Coupled
Intercomparison
Project
6
(CMIP6)
DECK
(Diagnosis,
Evaluation,
Characterization
Klima)
historical
simulations
–
a
first-of-its-kind
set
climate
production
using
RRM.
The
North
American
(NA)
RRM
(NARRM)
is
developed
as
high-resolution
configuration
E3SMv2
with
primary
goal
more
explicitly
addressing
DOE's
mission
needs
regarding
impacts
to
US
energy
sector
facing
system
changes.
NARRM
features
finer
horizontal
resolution
grids
centered
over
NA,
consisting
25→100
km
atmosphere
0.125∘
river-routing
model,
14→60
ocean
sea
ice.
By
design,
computational
cost
∼3×
uniform
low-resolution
(LR)
at
100
but
only
∼
10
%–20
%
globally
25
km.
A
novel
hybrid
time
step
strategy
for
key
achieve
improved
simulation
fidelity
within
patch
without
sacrificing
global
performance.
climate,
including
climatology,
series,
sensitivity,
feedback,
confirmed
be
largely
identical
between
LR
quantified
typical
metrics.
Over
NA
area,
generally
superior
LR,
precipitation
clouds
contiguous
(CONUS),
summertime
marine
stratocumulus
off
coast
California,
liquid
ice
phase
near
Pole
region,
extratropical
cyclones,
spatial
variability
in
land
hydrological
processes.
improvements
are
related
better-resolved
topography
NARRM,
whereas
those
attributable
air–sea
interactions
both
Some
appear
insensitive
change
analyzed
here,
instance
diurnal
propagation
organized
mesoscale
convective
systems
CONUS
warm-season
land–atmosphere
coupling
southern
Great
Plains.
In
summary,
our
study
presents
realistically
efficient
approach
leverage
framework
standard
release
simulations.
Nature Climate Change,
Journal Year:
2022,
Volume and Issue:
12(12), P. 1151 - 1159
Published: Nov. 14, 2022
Abstract
Societies
and
ecosystems
within
downstream
of
mountains
rely
on
seasonal
snowmelt
to
satisfy
their
water
demands.
Anthropogenic
climate
change
has
reduced
mountain
snowpacks
worldwide,
altering
magnitude
timing.
Here
the
global
warming
level
leading
widespread
persistent
snowpack
decline,
termed
low-to-no
snow,
is
estimated
for
world’s
most
latitudinally
contiguous
range,
American
Cordillera.
We
show
that
a
combination
dynamical,
thermodynamical
hypsometric
factors
results
in
an
asymmetric
emergence
low-to-no-snow
conditions
midlatitudes
Low-to-no-snow
occurs
approximately
20
years
earlier
southern
hemisphere,
at
third
local
level,
coincides
with
runoff
efficiency
declines
(8%
average)
both
dry
wet
years.
The
prevention
future
either
hemisphere
requires
be
held
to,
most,
+2.5
°C.
Progress in Physical Geography Earth and Environment,
Journal Year:
2023,
Volume and Issue:
48(1), P. 136 - 161
Published: Nov. 24, 2023
Rationale
and
scope:
Although
soil
erosion
was
recognised
as
a
serious
problem
in
antiquity
research
into
started
the
early
20th
century,
it
remains
substantial
for
agriculture
environment
across
globe.
It
disrupts
agricultural
production,
threatening
food
increases
severity
of
floods
droughts
impacts
on
biology
biogeochemical
cycling.
This
review
describes
different
processes
manifestations
arable
land
availability
global
data.
points
out
that
while
there
is
good
understanding
erosion,
causes
are
complex
even
if
agronomic
landscape
solutions
available,
their
implementation
challenging
needs
tailored
approaches
to
account
specific
local
socio-economic,
political,
institutional
contexts.
Geophysical Research Letters,
Journal Year:
2023,
Volume and Issue:
50(3)
Published: Jan. 21, 2023
Abstract
Increasing
wildfire
and
declining
snowpacks
in
mountain
regions
threaten
water
availability.
We
combine
satellite‐based
fire
detections
with
snow
seasonality
classifications
to
examine
activity
California's
seasonal
ephemeral
zones.
find
a
nearly
tenfold
increase
during
2020–2021
versus
2001–2019.
Accumulation
season
broadband
albedo
declined
25%–71%
at
two
burned
sites
(2021
2022)
according
in‐situ
data
relative
un‐burned
conditions,
greater
declines
associated
increased
burn
severity.
By
enhancing
snowpack
susceptibility
melt,
both
decreased
canopy
drove
midwinter
melt
multi‐week
dry
spell
2022.
Despite
similar
meteorological
conditions
December–February
2013
2022–linked
persistent
high
pressure
weather
regimes–minimal
occurred
2013.
Post‐fire
differences
are
confirmed
satellite
measurements.
With
growing
geographical
overlap
between
snow,
our
findings
suggest
is
increasingly
vulnerable
the
compounding
effects
of
spells
wildfire.
Geoscientific model development,
Journal Year:
2023,
Volume and Issue:
16(13), P. 3953 - 3995
Published: July 13, 2023
Abstract.
This
paper
provides
an
overview
of
the
United
States
(US)
Department
Energy's
(DOE's)
Energy
Exascale
Earth
System
Model
version
2
(E3SMv2)
fully
coupled
regionally
refined
model
(RRM)
and
documents
overall
atmosphere,
land,
river
results
from
Coupled
Intercomparison
Project
6
(CMIP6)
DECK
(Diagnosis,
Evaluation,
Characterization
Klima)
historical
simulations
–
a
first-of-its-kind
set
climate
production
using
RRM.
The
North
American
(NA)
RRM
(NARRM)
is
developed
as
high-resolution
configuration
E3SMv2
with
primary
goal
more
explicitly
addressing
DOE's
mission
needs
regarding
impacts
to
US
energy
sector
facing
system
changes.
NARRM
features
finer
horizontal
resolution
grids
centered
over
NA,
consisting
25→100
km
atmosphere
0.125∘
river-routing
model,
14→60
ocean
sea
ice.
By
design,
computational
cost
∼3×
uniform
low-resolution
(LR)
at
100
but
only
∼
10
%–20
%
globally
25
km.
A
novel
hybrid
time
step
strategy
for
key
achieve
improved
simulation
fidelity
within
patch
without
sacrificing
global
performance.
climate,
including
climatology,
series,
sensitivity,
feedback,
confirmed
be
largely
identical
between
LR
quantified
typical
metrics.
Over
NA
area,
generally
superior
LR,
precipitation
clouds
contiguous
(CONUS),
summertime
marine
stratocumulus
off
coast
California,
liquid
ice
phase
near
Pole
region,
extratropical
cyclones,
spatial
variability
in
land
hydrological
processes.
improvements
are
related
better-resolved
topography
NARRM,
whereas
those
attributable
air–sea
interactions
both
Some
appear
insensitive
change
analyzed
here,
instance
diurnal
propagation
organized
mesoscale
convective
systems
CONUS
warm-season
land–atmosphere
coupling
southern
Great
Plains.
In
summary,
our
study
presents
realistically
efficient
approach
leverage
framework
standard
release
simulations.
