Wastewater reuse in agriculture: Prospects and challenges
Environmental Research,
Год журнала:
2023,
Номер
236, С. 116711 - 116711
Опубликована: Июль 23, 2023
Язык: Английский
Effect of biochar addition on crop yield, water and nitrogen use efficiency: A meta-analysis
Journal of Cleaner Production,
Год журнала:
2023,
Номер
420, С. 138425 - 138425
Опубликована: Авг. 10, 2023
Язык: Английский
Regionally adapted conservation tillage reduces the risk of crop yield losses: A global meta-analysis
Soil and Tillage Research,
Год журнала:
2024,
Номер
244, С. 106265 - 106265
Опубликована: Авг. 10, 2024
Язык: Английский
Prediction and Impact Analysis of Soil Nitrogen and Salinity Under Reclaimed Water Irrigation: A Case Study
Agronomy,
Год журнала:
2025,
Номер
15(2), С. 443 - 443
Опубликована: Фев. 11, 2025
Reclaimed
water
irrigation
is
increasingly
being
applied
to
address
global
scarcity,
yet
its
long-term
effects
on
soil
nitrogen
cycling
and
salinity
dynamics,
particularly
in
agricultural
agroforestry
systems,
remain
complex
insufficiently
understood.
Understanding
these
impacts
crucial
for
developing
sustainable
practices
that
optimize
resource
use
while
ensuring
the
health
viability
of
systems.
This
study
employs
genetic-algorithm-optimized
random
forest
models
(GA-RF1
GA-RF2)
examine
dynamics
indicators
(NO3−-N,
NH4+-N,
TN)
(EC
Cl−)
under
reclaimed
irrigation.
The
achieved
high
predictive
accuracy,
with
NSE
values
0.918,
0.946,
0.936,
0.967,
0.887
NO3−-N,
TN,
EC,
Cl−,
respectively,
demonstrating
their
robustness.
Key
drivers
were
identified
as
duration
(years),
fecal
coliform
levels,
depth,
primarily
influenced
by
land
type
chemical
composition
water,
including
oxygen
demand,
total
phosphorus,
nitrogen.
Spatial
analysis
revealed
significant
accumulation
surface
soils
extended
irrigation,
farmland,
where
NO3−-N
NH4+-N
peaked
at
25
mg/kg
15
mg/kg,
respectively.
EC
exceeded
700
µS/cm
during
early
stages
but
remained
within
crop
tolerance
levels.
Conversely,
grassland
woodland
exhibited
minimal
accumulation.
These
findings
underscore
need
targeted
management
strategies
mitigate
buildup,
ensure
productivity
Язык: Английский
Estimating Agricultural Vulnerability to Climate Change Using a Hybrid Machine Learning Model
Advances in environmental engineering and green technologies book series,
Год журнала:
2025,
Номер
unknown, С. 143 - 156
Опубликована: Апрель 4, 2025
Agriculture
is
highly
vulnerable
to
the
impacts
of
climate
change,
which
affects
crop
productivity
and
food
security.
This
study
proposes
a
hybrid
model
combining
BiLSTM
(Bidirectional
Long
Short-Term
Memory),
GRU
(Gated
Recurrent
Unit),
Random
Forest
estimate
extent
vulnerability
agriculture
change
by
considering
both
climatic
socio-economic
factors.
The
integrates
time-series
data
key
variables,
including
rainfall,
temperature,
humidity,
solar
radiation,
wind
speed,
growing
degree
days,
soil
moisture,
drought
frequency,
along
with
factors
such
as
population
density,
farm
size,
irrigation
coverage,
yield,
access
credit,
market
access.
captures
long-term
temporal
dependencies
in
data,
while
accounts
for
short-term
fluctuations
variables.
Язык: Английский
Reuse of Treated Wastewater to Address Water Scarcity in Viticulture: A Comprehensive Review
Agronomy,
Год журнала:
2025,
Номер
15(4), С. 941 - 941
Опубликована: Апрель 12, 2025
Water
scarcity
has
become
an
increasingly
critical
global
issue,
affecting
various
sectors,
including
industrial,
domestic,
and
particularly
agriculture.
Agriculture,
as
the
largest
consumer
of
water
due
to
its
substantial
requirements
for
food
production,
faces
significant
challenges,
which
are
expected
intensify
with
growth
population.
As
a
result,
many
countries
have
begun
explore
innovative
solutions
address
this
pressing
problem,
one
is
reuse
wastewater
irrigation
purposes.
This
approach
gained
particular
attention
in
viticulture,
where
consumption
high,
need
sustainable
practices
paramount.
paper
delves
into
issue
scarcity,
focusing
specifically
on
winemaking
sector.
It
reviews
several
studies
investigating
potential
irrigating
vineyards,
highlighting
both
promising
benefits
challenges
associated
practice.
The
findings
suggest
that
using
treated
viticulture
offers
viable
solution
mitigate
shortages,
regions
facing
severe
droughts
or
limited
freshwater
resources.
However,
successful
implementation
requires
careful
monitoring
management
factors,
soil
quality,
plant
health,
fruit
development,
final
wine
product.
Ensuring
safety
quality
wine,
well
safeguarding
necessitates
rigorous
oversight
prevent
any
negative
impacts
from
use
reclaimed
water.
Язык: Английский
Migration and Accumulation Simulation Prediction of PPCPs in Urban Green Space Soil Irrigated with Recycled Water: A Review
M. Liu,
Pengwei Qiao,
Yue Shan
и другие.
Journal of Hazardous Materials,
Год журнала:
2024,
Номер
476, С. 135037 - 135037
Опубликована: Июнь 25, 2024
Язык: Английский
Leveraging green infrastructure for efficient treatment of reclaimed water
The Science of The Total Environment,
Год журнала:
2023,
Номер
872, С. 162232 - 162232
Опубликована: Фев. 14, 2023
Global
water
scarcity
necessitates
creative,
yet
practical,
solutions
to
meet
ever-growing
demand.
Green
infrastructure
is
increasingly
used
in
this
context
provide
environmentally
friendly
and
sustainable
ways.
In
study,
we
focused
on
reclaimed
wastewater
from
a
joint
gray
green
system
employed
by
the
Loxahatchee
River
District
Florida.
The
consists
of
series
treatment
stages
for
which
assessed
12
years
monitoring
data.
We
measured
quality
after
secondary
(gray)
treatment,
then
onsite
lakes,
offsite
landscape
irrigation
(via
sprinklers),
ultimately
downstream
canals.
Our
findings
show
designed
integrated
with
infrastructure,
achieved
nutrient
concentrations
nearly
equivalent
advanced
systems.
For
example,
observed
dramatic
decline
mean
nitrogen
concentration
19.42
mg
L-1
5.26
spending
an
average
30
days
lakes.
Nitrogen
continued
as
moved
lakes
(3.87
L-1)
sprinklers
(3.27
L-1).
Phosphorus
exhibited
similar
pattern.
These
decreasing
led
relatively
low
loading
rates
occurred
while
consuming
substantially
less
energy
producing
fewer
greenhouse
gas
emissions
than
traditional
infrastructure-at
lower
cost
higher
efficiency.
There
was
no
evidence
eutrophication
canals
residential
whose
sole
source
water.
This
study
provides
long-term
example
how
circularity
use
can
be
work
toward
development
goals.
Язык: Английский
Logistics Supply Chain Network Risk Prediction Model Based on Intelligent Random Forest Model
IEEE Transactions on Engineering Management,
Год журнала:
2023,
Номер
71, С. 9813 - 9825
Опубликована: Окт. 10, 2023
This
article's
goal
is
to
investigate,
using
an
intelligent
random
forest
model
(RFM),
the
logistics
supply
chain's
network
risk
control
method.
The
chain
network,
a
vital
component
of
modern
economy,
faces
numerous
potential
risks,
and
uncertainties.
To
ensure
stability
sustainability
chain,
effective
plan
crucial.
article
examines
network's
management
practices
proposes
approach
based
on
RFM.
Many
data
are
gathered
compared
with
other
widely
used
models
in
experimental
section,
including
convolutional
analytic
hierarchy
process
model.
accuracy,
recall,
area
under
curve
(AUC)
value
RFM
determined
be
better
than
those
by
comparing
data.
In
particular,
raises
accuracy
recall
average
3.5%
4.1%,
respectively.
89.3%,
which
3.7%
7.2%
higher
that
model,
respectively,
various
dataset
studies.
RFM's
AUC
experiment
0.87
0.91,
0.05
0.08
models.
These
statistics
demonstrate
superior
prediction
capabilities
chain.
purpose
provide
superiority
tactic
can
assist
companies
effectively
identifying
assessing
risks.
Язык: Английский
Effect of soil management practice on soil phosphorus dynamics: A meta‐analysis
Soil Use and Management,
Год журнала:
2023,
Номер
40(1)
Опубликована: Ноя. 13, 2023
Abstract
Soil
phosphorus
(P)
is
pivotal
for
crop
health
and
growth.
We
collated
a
dataset
spanning
65
studies
from
19
countries
to
quantify
the
effects
of
both
natural
anthropogenic
factors
on
P
dynamics
(dataset
provided).
Our
meta‐analysis
encompassed
five
variables:
type
fertilizer
(chemical
or
organic
fertilizer),
tillage
practices
(tillage
no‐till),
land
use
(cultivated
forest),
soil
texture
(either
loam
sandy
soil)
depth
(surface
subsurface).
The
interplay
between
management
strategies,
especially
those
encompassing
application
tillage,
well
established.
quantitative
data
suggests
fertilizers
relates
significant
82%
increase
in
Olsen‐P
content.
Additionally,
while
no‐till
method
has
resulted
only
slight
1.6%
Total‐P,
it
brought
about
remarkable
60%
phosphorus,
NaHCO
3
‐Po,
contrast
conventionally
tilled
soils.
Further,
we
found
that
concentrations
Total‐P
surface
soils
elevated,
being
24.8%
1023.6%
higher,
respectively,
compared
with
subsurface
In
soils,
these
values
are
35.3%
872.2%
respectively.
These
highlight
how
can
cause
variation
species
soil.
They
not
underscore
potential
strategies
refined
diverse
farming
contexts
but
also
pave
way
further
research
focusing
agricultural
management.
Язык: Английский