The Science of The Total Environment,
Год журнала:
2024,
Номер
923, С. 171437 - 171437
Опубликована: Март 4, 2024
Human
actions
can
damage
the
ecosystems
and
affect
services
depending
on
them,
with
ample
detrimental
consequences.
In
earlier
studies,
Conservation
Use
Potential
(PCU)
framework
proved
useful
in
assessing
capacity
for
aquifer
recharge,
suitable
land
uses
resistance
to
erosion
at
river
basin
scale.
On
other
hand,
joint
analysis
of
PCU
allowed
identifying
adequacy
current
relation
suitability
(natural
uses)
various
basins.
This
was
especially
from
management
perspective
basins
environmental
conflicts,
where
differed
suitability,
because
indicated
how
conflicts
should
be
mitigated.
Besides
use
as
tool,
has
potential
shed
light
over
issues
such
ecosystem
services,
but
that
not
tempted
so
far.
The
aim
this
work
therefore
bridge
knowledge
gap
frame
PCU's
application
standpoint
Ecosystem
Services
(ES)
assessment.
We
demonstrated
could
used
improve
provision
(recharge),
support
(sustainable
agriculture)
regulation
(resistance
erosion)
a
specific
(the
Upper
Rio
das
Velhas
basin,
located
Minas
Gerais,
Brazil),
through
planning
uses.
It
noted
studied
is
mostly
composed
Very
Low,
Low
Medium
potentials.
These
classes
occur
steep
slopes,
fragile
soils
lithologies
high
denudation
low
nutrient
supply
dominate
basin.
urban
sprawl
negative
impact
all
ES,
while
maintaining
agricultural
areas
appropriate
effectively
regulate
erosion.
As
per
results,
premise
using
management-environmental
tool
fully
accomplished,
recommended
basis
public
policy
design
implementation
Brazil
elsewhere.
Applied Sciences,
Год журнала:
2023,
Номер
13(4), С. 2743 - 2743
Опубликована: Фев. 20, 2023
Groundwater
level
(GWL)
refers
to
the
depth
of
water
table
or
below
Earth’s
surface
in
underground
formations.
It
is
an
important
factor
managing
and
sustaining
groundwater
resources
that
are
used
for
drinking
water,
irrigation,
other
purposes.
prediction
a
critical
aspect
resource
management
requires
accurate
efficient
modelling
techniques.
This
study
reviews
most
commonly
conventional
numerical,
machine
learning,
deep
learning
models
predicting
GWL.
Significant
advancements
have
been
made
terms
efficiency
over
last
two
decades.
However,
while
researchers
primarily
focused
on
monthly,
weekly,
daily,
hourly
GWL,
managers
strategists
require
multi-year
GWL
simulations
take
effective
steps
towards
ensuring
sustainable
supply
groundwater.
In
this
paper,
we
consider
collection
state-of-the-art
theories
develop
design
novel
methodology
improve
field
evaluation.
We
examined
109
research
articles
published
from
2008
2022
investigated
different
Finally,
concluded
approaches
Moreover,
provide
possible
future
directions
recommendations
enhance
accuracy
relevant
understanding.
Water Research,
Год журнала:
2024,
Номер
262, С. 122098 - 122098
Опубликована: Июль 19, 2024
While
existing
studies
on
sewer
networks
have
explored
topics
such
as
surface
water
inflow,
limited
research
has
delved
into
groundwater
infiltration
(GWI).
This
study
aims
to
fill
this
void
by
providing
a
comprehensive
overview
of
quantitative
analyses
GWI
in
plus
current
status,
limitations
and
future
perspectives,
considering
the
most
relevant
peer-reviewed
research,
including
83
studies.
We
propose
dividing
two
main
groups:
(1)
phreatic
zone,
(2)
vadose
zone.
Most
focused
latter,
mainly
Rainfall-Derived
Inflow
Infiltration
(RDII),
inflow
GWI.
The
ratio
each
is
not
frequently
separated;
otherwise,
there
may
be
some
assumptions,
e.g.
dry
weather
assuming
zero
inflow.
also
divided
employed
approaches
different
categories
from
physically-based
numerical
models,
simpler
ones,
budget
analysis.
In
fact,
combination
applied
find
intricate
characteristics
'urban
groundwater'
or
karst.'
findings
revealed
heightened
vulnerability
GWI,
due
climate
change
(CC)
its
associated
repercussions,
sea
level
rise
(SLR),
making
coastal
cities
vulnerable
regions.
criticality
pre-emptive
measures
monitoring
networks,
especially
near
coastline,
emphasised
ensure
resilience
adaptability
context
amid
potential
impacts
CC.
However,
practices
lack
widespread
evidence
for
spatiotemporal
analysis
quantity.
Annual Review of Environment and Resources,
Год журнала:
2024,
Номер
49(1), С. 623 - 653
Опубликована: Июль 18, 2024
Driven
by
the
need
for
integrated
management
of
groundwater
(GW)
and
surface
water
(SW),
quantification
GW–SW
interactions
associated
contaminant
transport
has
become
increasingly
important.
This
is
due
to
their
substantial
impact
on
quantity
quality.
In
this
review,
we
provide
an
overview
methods
developed
over
past
several
decades
investigate
interactions.
These
include
geophysical,
hydrometric,
tracer
techniques,
as
well
various
modeling
approaches.
Different
reveal
valuable
information
at
different
scales
with
respective
advantages
limitations.
Interpreting
data
from
these
techniques
can
be
challenging
factors
like
scale
effects,
heterogeneous
hydrogeological
conditions,
sediment
variability,
complex
spatiotemporal
connections
between
GW
SW.
To
facilitate
selection
appropriate
specific
sites,
discuss
strengths,
weaknesses,
challenges
each
technique,
offer
perspectives
knowledge
gaps
in
current
science.
Journal of Hydrology,
Год журнала:
2024,
Номер
633, С. 130901 - 130901
Опубликована: Фев. 15, 2024
Integrated
Hydrological
Models
(IHMs)
dynamically
couple
surface
and
groundwater
processes
across
the
unsaturated
zone
domain.
IHMs
are
data
intensive
computationally
demanding
but
can
provide
physically
realistic
output,
particularly
if
sufficient
input
of
high
quality
is
available.
In-situ
observations
often
have
a
small
footprint
time
cost-demanding.
Satellite
remote
sensing
observations,
with
their
long
series
archives
spatially
semi-continuous
gridded
format,
as
well
hydrogeophysical
flexible,
'on-demand'
high-resolution
coverage,
perfectly
complement
in-situ
observations.
We
review
contribution
various
satellite
products
for
IHM:
(1)
climate
forcings,
(2)
parameters,
(3)
boundary
conditions
(4)
constraining
model
calibration
assimilation.
Our
hydrogeophysics
focuses
on
four
mentioned
IHM
contributions,
we
analyze
them
per
acquisition
platform,
i.e.,
surface,
drone-borne
airborne
hydrogeophysics.
Finally,
includes
discussion
optimal
use
in
IHMs,
vision
further
improvements
data-driven,
integrated
hydrological
modelling.
