Natural Hazards Research,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Feb. 1, 2024
Pollution
from
microplastics
(MPs)
is
recognized
as
a
significant
new
global
change
factor
that
may
have
an
impact
on
ecosystem
services
and
functions.
Although
it
known
soil
ecosystems,
especially
agricultural
land,
are
source
of
MPs,
little
about
the
effects
MPs
such
those
above
below
ground.
Microplastics
assemble
in
environment,
which
also
acts
secondary
other
environmental
media.
To
evaluate
MP
contamination
arable
residential
land
areas
(due
to
primary
MPs),
development
reproduction
fauna,
we
performed
analysis
this
study.
This
study
sought
determine
whether
exists
how
influences
physical,
chemical,
biological
properties
soil.
examine
causes,
impacts,
mitigation,
perspective
pollution
soil,
several
research
databases
its
identification,
occurrences,
consequences
were
combed
for
pertinent
data
citations.
The
academic
literature
was
located
using
search
engines
Google
Scholar,
Springer
Link,
Elsevier,
Frontiers.
Through
study,
possible
these
qualities,
landfill
leachate,
route
affect
toxicity
consequential
well
living
organisms.
work
addresses
laws,
rules,
numerous
state-of-the-art
treatment
strategies
reducing
MPs.
Significant
gaps
knowledge
require
further
thorough
research.
TrAC Trends in Analytical Chemistry,
Journal Year:
2024,
Volume and Issue:
174, P. 117667 - 117667
Published: March 25, 2024
Microplastics
(MPs),
miniscule
plastic
particles
measuring
less
than
5
mm
in
size,
have
become
a
concern
terrestrial
ecosystems,
with
primarily
agricultural
and
wetland
soils
being
the
highest
loadings.
The
adverse
effect
of
MPs
might
lead
to
changes
physicochemical
biological
characteristics
soil
including
properties,
microbial
communities,
plants,
as
well
potential
or
affirmed
correlations
among
them.
Therefore,
understanding
risks
effects
MPs,
particularly
within
soil-plant-microbe
context
is
challenging
subject
substantial
scientific
inquiry.
This
comprehensive
review
focused
on
rhizosphere
plant-microbe
symbiotic
relationships,
implications
for
plant
growth
ecosystem-level
nutrient
fluxes.
alter
community
composition,
enzymatic
activities
rhizosphere,
influencing
availability
uptake
by
plants.
These
can
disrupt
interactions,
such
mycorrhizal
associations
nitrogen-fixing
symbioses,
ultimately
impacting
cycling
nutrients
ecosystems.
Furthermore,
we
elaborate
relationships
carrying
Future
research
directions
solutions
microplastics
menace
acknowledging
combined
other
contaminants,
advanced
technologies
identification
quantification,
engineering
remediation.
knowledge
MPs-induced
impacts
interactions
essential
generate
mitigating
actions
environmental
management
conservation.
Environment International,
Journal Year:
2024,
Volume and Issue:
190, P. 108781 - 108781
Published: May 28, 2024
As
an
exogenous
carbon
input,
microplastics
(MPs),
especially
biodegradable
MPs,
may
significantly
disrupt
soil
microbial
communities
and
element
cycling
(CNPS
cycling),
but
few
studies
have
focused
on
this.
Here,
we
assessing
the
effects
of
conventional
low-density
polyethylene
(LDPE),
polybutylene
adipate
terephthalate
(PBAT),
polylactic
acid
(PLA)
MPs
rhizosphere
CNPS
in
a
soil-soybean
system.
The
results
showed
that
PBAT-MPs
PLA-MPs
were
more
detrimental
to
soybean
growth
than
LDPE-MPs,
resulting
reduction
shoot
nitrogen
(14.05%
11.84%)
biomass
(33.80%
28.09%)
at
podding
stage.
In
addition,
dissolved
organic
(DOC)
increased
by
20.91%
66.59%,
while
nitrate
(NO
