Journal of Hydrology,
Journal Year:
2024,
Volume and Issue:
634, P. 131105 - 131105
Published: March 24, 2024
Understanding
the
fluctuations
in
groundwater
levels
response
to
meteorological
conditions
is
challenging,
especially
given
slow
transit
time
associated
with
reservoirs
and
short
duration
of
series
for
levels.
Nevertheless,
this
knowledge
crucial
water
resource
management,
that
global
warming
will
drastically
impact
hydrological
dynamics
cold
humid
climates.
The
objective
work
was
quantify
how
standardized
indexes
contribute
understanding
level
climates
(10
23
years).
relationships
between
precipitation
index
(SPI),
temperature
(STI),
climate
indexes,
(SGI)
were
analyzed.
reactivity
examined
2000
2022
using
measurements
from
152
wells
located
46°N
52°N
province
Quebec
(Canada).
results
showed
available
sufficient
provide
new
insights
into
role
on
fluctuations,
demonstrating
usefulness
indexes.
One
main
contributions
study
hydrogeological
systems
go
through
an
annual
reset
due
prolonged
freezing
period.
This
one
drivers
isolating
year-to-year
conditions,
contributing
short-duration
droughts.
Water,
Journal Year:
2024,
Volume and Issue:
16(9), P. 1284 - 1284
Published: April 30, 2024
Considering
the
increased
risk
of
urban
flooding
and
drought
due
to
global
climate
change
rapid
urbanization,
imperative
for
more
accurate
methods
streamflow
forecasting
has
intensified.
This
study
introduces
a
pioneering
approach
leveraging
available
network
real-time
monitoring
stations
advanced
machine
learning
algorithms
that
can
accurately
simulate
spatial–temporal
problems.
The
Spatio-Temporal
Attention
Gated
Recurrent
Unit
(STA-GRU)
model
is
renowned
its
computational
efficacy
in
events
with
forecast
horizon
7
days.
novel
integration
groundwater
level,
precipitation,
river
discharge
as
predictive
variables
offers
holistic
view
hydrological
cycle,
enhancing
model’s
accuracy.
Our
findings
reveal
7-day
period,
STA-GRU
demonstrates
superior
performance,
notable
improvement
mean
absolute
percentage
error
(MAPE)
values
R-square
(R2)
alongside
reductions
root
squared
(RMSE)
(MAE)
metrics,
underscoring
generalizability
reliability.
Comparative
analysis
seven
conventional
deep
models,
including
Long
Short-Term
Memory
(LSTM),
Convolutional
Neural
Network
LSTM
(CNNLSTM),
(ConvLSTM),
(STA-LSTM),
(GRU),
GRU
(CNNGRU),
STA-GRU,
confirms
power
STA-LSTM
models
when
faced
long-term
prediction.
research
marks
significant
shift
towards
an
integrated
deep-learning
forecasting,
emphasizing
importance
spatially
temporally
encompassing
variability
within
watershed’s
stream
network.
Journal of Hydrology,
Journal Year:
2024,
Volume and Issue:
634, P. 131105 - 131105
Published: March 24, 2024
Understanding
the
fluctuations
in
groundwater
levels
response
to
meteorological
conditions
is
challenging,
especially
given
slow
transit
time
associated
with
reservoirs
and
short
duration
of
series
for
levels.
Nevertheless,
this
knowledge
crucial
water
resource
management,
that
global
warming
will
drastically
impact
hydrological
dynamics
cold
humid
climates.
The
objective
work
was
quantify
how
standardized
indexes
contribute
understanding
level
climates
(10
23
years).
relationships
between
precipitation
index
(SPI),
temperature
(STI),
climate
indexes,
(SGI)
were
analyzed.
reactivity
examined
2000
2022
using
measurements
from
152
wells
located
46°N
52°N
province
Quebec
(Canada).
results
showed
available
sufficient
provide
new
insights
into
role
on
fluctuations,
demonstrating
usefulness
indexes.
One
main
contributions
study
hydrogeological
systems
go
through
an
annual
reset
due
prolonged
freezing
period.
This
one
drivers
isolating
year-to-year
conditions,
contributing
short-duration
droughts.
