Phytoremediation
is
an
environmentally
friendly,
economical,
and
sustainable
technique
for
restoring
farmland.
It
can
remove
heavy
metals
organic
pollutants
from
the
soil
through
implementation
of
hyperaccumulator
plants.
In
recent
years,
it
has
garnered
significant
interest
academic
industrial
sectors.
This
article
screened
368
research
papers
Web
Science
core
collection
database
related
to
farmland
phytoremediation
conducted
a
bibliometric
analysis
domain
based
on
CiteSpace.
The
paper
intuitively
demonstrates
most
influential
countries,
productive
institutions,
contributing
groups
authors,
primary
sources
domain.
findings
additionally
indicate
that
hotspots
include:
(1)
mechanisms
principles
phytoremediation,
(2)
improvement
restoration
efficiency,
(3)
economic,
ecological,
development
phytoremediation.
exploration
plants
with
potential
accumulate
produce
large
amounts
biomass
frontier
within
field
Additionally,
this
help
scholars
willing
work
in
by
concisely
understanding
overall
frontiers.
With
continuous
its
combination
other
remediation
technologies,
future
will
have
promising
prospect.
Journal of Environmental Management,
Год журнала:
2024,
Номер
351, С. 119971 - 119971
Опубликована: Янв. 1, 2024
Phytoremediation
is
an
environmentally
friendly,
economical,
and
sustainable
technique
for
restoring
farmland.
It
can
remove
heavy
metals
organic
pollutants
from
the
soil
through
implementation
of
hyperaccumulator
plants.
In
recent
years,
it
has
garnered
significant
interest
academic
industrial
sectors.
This
article
screened
368
research
papers
Web
Science
core
collection
database
related
to
farmland
phytoremediation
conducted
a
bibliometric
analysis
domain
based
on
CiteSpace.
The
paper
intuitively
demonstrates
most
influential
countries,
productive
institutions,
contributing
groups
authors,
primary
sources
domain.
findings
additionally
indicate
that
hotspots
include:
(1)
mechanisms
principles
phytoremediation,
(2)
improvement
restoration
efficiency,
(3)
economic,
ecological,
development
phytoremediation.
exploration
plants
with
potential
accumulate
produce
large
amounts
biomass
frontier
within
field
Additionally,
this
help
scholars
willing
work
in
by
concisely
understanding
overall
frontiers.
With
continuous
its
combination
other
remediation
technologies,
future
will
have
promising
prospect.
Agriculture,
Год журнала:
2025,
Номер
15(8), С. 804 - 804
Опубликована: Апрель 8, 2025
Mining
activities
cause
substantial
heavy
metal
release.
Ecosystem
restoration
is
considered
one
of
the
most
effective
ways
to
prevent
mobilization
in
mining
areas.
Previous
studies
have
suggested
that
microorganisms
play
crucial
roles
transport
metal-contaminated
farmland
soils.
However,
interactions
between
geochemical
fractions
metals
and
microbial
communities
under
crop
cultivation
restored
areas
are
still
unclear.
In
this
study,
we
systematically
collected
soil
(FS)
grassland
(GS)
from
a
area
reveal
effects
on
composition
microbiomes
their
potential
mobilization.
The
results
revealed
exchangeable
(Cd,
Zn,
As)
FS
(11%,
11%,
1.3%
average,
respectively)
were
significantly
greater
than
those
GS
(30%,
19%,
3.2%
respectively),
indicating
agricultural
promoted
addition,
determined
attributes,
including
diversity,
composition,
community
structure,
different
GS.
Furthermore,
our
such
differences
driven
mainly
by
Notably,
dominant
genera
enriched
extensively
involved
mobilization,
which
consistent
with
fact
metabolism-related
genes
FS.
Taken
together,
findings
suggest
an
important
role
Sustainability,
Год журнала:
2023,
Номер
15(5), С. 4198 - 4198
Опубликована: Фев. 25, 2023
The
aim
of
this
work
was
the
investigation
effect
wastewater
generated
from
poultry
meat
industry
on
irrigation
olive
trees,
during
a
short
time
period,
in
order
to
evaluate
its
impact
pomological
criteria
and
oil
quality.
Olive
trees
were
subjected
with
different
water
qualities:
(i)
(PWW),
(ii)
diluted
tap
50:50
(v/v)
(PWTWW),
(iii)
rain-fed
cultivation
system
(control).
results
showed
that
PWTWW
contains
optimal
mineral
proportions,
leading
improved
criteria.
However,
highest
significant
pulp
content
obtained
using
(69.51%),
while
66.71%
wastewater,
58.03
%
for
control.
Poultry
yielded
best
standard
quality
indices.
In
addition,
an
enrichment
total
polyphenols
achieved.
fatty
acid
profile
not
affected
following
wastewater.
Nevertheless,
there
increase
contents
oleic
alcohols,
accompanied
by
decrease
sterols.
heavy
metals
accumulation
observed
both
fruits
oil.
conclusion,
our
suggest
among
three
qualities,
is
alternative
improve
PLoS ONE,
Год журнала:
2023,
Номер
18(1), С. e0280449 - e0280449
Опубликована: Янв. 18, 2023
Heavy
metal
pollution
is
becoming
a
serious
problem
in
wetland
and
often
co-occurs
with
nutrient
availability
light
conditions
variation.
We
hypothesized
that
condition
can
affect
the
growth
of
plants
under
heavy
stress.
To
test
this
hypothesis,
single
ramets
common,
clonal
plant
Hydrocotyle
vulgaris
were
grown
for
four
weeks
at
three
levels
cadmium
30%
or
100%
conditions.
High
level
high
overall
promoted
H
.
Cd
Under
two
conditions,
responses
to
treatments
differed
among
levels.
condition,
2
mg
L
-1
2+
treatment
decreased
total
mass
low
ramet
number
medium
level;
0.5
leaf
ratio
significantly
nutrients;
Our
results
suggested
stress
interact
performance
such
as
A
two-year
field
experiment
(2022–2023)
was
carried
out
to
investigate
the
impact
of
different
sowing
periods
(spring
and
winter)
nitrogen
levels
(0,
30,
60
kg/ha)
on
phytoextraction
potential
flax.
The
study
site
is
characterized
by
high
concentrations
heavy
metals
(Cd,
Ni,
Cu,
Pb,
Zn)
belongs
Mediterranean
climate
type.
Flax
(var.
Calista)
sown
in
spring
2022
winter
2023,
following
a
split
plot
experimental
design
with
three
rep-lications,
applying
low-input
practices.
Results
showed
that
spring-sown
flax
produced
short-er
but
thicker
plants
significantly
higher
biomass
(5.27
tn
ha-1)
when
treated
30
kg
ha-1
N
compared
winter-sown
(2.30
N.
concentration
contaminants
aerial
varied
according
metal
type
period.
production
resulted
quantity
being
removed
from
soil,
making
promising
crop
for
purposes,
especially
soils
contami-nated
multiple
metals.
