The Science of The Total Environment,
Journal Year:
2023,
Volume and Issue:
891, P. 164068 - 164068
Published: May 24, 2023
Microplastics
have
been
reported
in
wastewater
treatment
works
across
the
world.
The
majority
of
microplastics
are
removed
during
process,
with
removal
efficiencies
between
57
%
to
99
%.
What
happens
from
wastewater,
and
how
they
accumulate
sewage
sludge
biosolids
(by-products
process),
remains
a
topic
high
interest.
Here
we
systematically
reviewed
current
state
knowledge
on
presence,
concentration,
characteristics
globally
understand
may
act
as
pathway
for
microplastic
pollution
soils.
A
systematic
search
was
performed
Web
Science
Direct
databases.
Sixty-five
studies
reporting
biosolid
products
were
identified,
spanning
twenty-five
countries.
Reported
concentrations
varied
considerably
0.193
microplastics/g
1.69
×
105
median
concentration
22.41
microplastics/g,
illustrating
many
captured
retained
sludge.
extent
which
recycling
pollutes
terrestrial
environment
compared
High
numbers
estimated
reach
fields
via
application
wide
variation
8.2
1010
1.29
1015
microplastics/year
sixteen
countries,
although
there
no
significant
difference
history
applications
control
fields.
comparative
risk
this
delivery
approx.
0.4
6430
tonnes
poses
environmental
benefits
nutrient
carbon
associated
reuse,
or
other
sources
global
research
imperative.
next
step
scientific
needs
focus
solutions
circular
economy
conundrum
-
valuable
source
nutrients
but
contain
microplastics,
ultimately
entering
environment.
Environmental Science & Technology,
Journal Year:
2022,
Volume and Issue:
56(3), P. 1510 - 1521
Published: Jan. 18, 2022
We
submit
that
the
safe
operating
space
of
planetary
boundary
novel
entities
is
exceeded
since
annual
production
and
releases
are
increasing
at
a
pace
outstrips
global
capacity
for
assessment
monitoring.
The
in
boundaries
framework
refers
to
geological
sense
could
have
large-scale
impacts
threaten
integrity
Earth
system
processes.
review
scientific
literature
relevant
quantifying
highlight
plastic
pollution
as
particular
aspect
high
concern.
An
impact
pathway
from
on
processes
presented.
define
apply
three
criteria
suitability
control
variables
boundary:
feasibility,
relevance,
comprehensiveness.
propose
several
complementary
capture
complexity
this
boundary,
while
acknowledging
major
data
limitations.
conclude
humanity
currently
outside
based
weight-of-evidence
these
variables.
rate
larger
volumes
higher
numbers
with
diverse
risk
potentials
exceed
societies'
ability
conduct
safety
related
assessments
recommend
taking
urgent
action
reduce
harm
associated
exceeding
by
reducing
entities,
noting
even
so,
persistence
many
and/or
their
effects
will
continue
pose
threat.
Environmental Science & Technology,
Journal Year:
2021,
Volume and Issue:
55(8), P. 5084 - 5096
Published: March 16, 2021
Human
exposure
to
microplastic
is
recognized
as
a
global
problem,
but
the
uncertainty,
variability,
and
lifetime
accumulation
are
unresolved.
We
provide
probabilistic
model
for
children
adults,
which
accounts
intake
via
eight
food
types
inhalation,
intestinal
absorption,
biliary
excretion,
plastic-associated
chemical
physiologically
based
pharmacokinetic
submodel.
The
probabilistically
simulates
concentrations
in
gut,
body
tissue,
stool,
latter
allowing
validation
against
empirical
data.
Rescaling
methods
were
used
ensure
comparability
between
abundance
Microplastic
(1–5000
μm)
median
rates
553
particles/capita/day
(184
ng/capita/day)
883
(583
respectively.
This
can
irreversibly
accumulate
8.32
×
103
(90%
CI,
7.08
102–1.91
106)
particles/capita
or
6.4
0.1–2.31
103)
ng/capita
until
age
18,
up
5.01
104
5.25
103–9.33
40.7
0.8–9.85
adults
70
tissue
1–10
μm
particles.
Simulated
stool
agree
with
Chemical
absorption
from
ingested
of
nine
media
on
biphasic,
reversible,
size-specific
sorption
kinetics,
reveals
that
contribution
microplastics
total
small.
as-yet-unknown
contributions
other
discussed
light
future
research
needs.
Environmental Science & Technology,
Journal Year:
2021,
Volume and Issue:
55(11), P. 7246 - 7255
Published: May 11, 2021
We
described
in
2017
how
weathering
plastic
litter
the
marine
environment
fulfils
two
of
three
criteria
to
impose
a
planetary
boundary
threat
related
"chemical
pollution
and
release
novel
entities":
(1)
planetary-scale
exposure,
which
(2)
is
not
readily
reversible.
Whether
plastics
meet
third
criterion,
(3)
eliciting
disruptive
impact
on
vital
earth
system
processes,
was
uncertain.
Since
then,
several
important
discoveries
have
been
made
motivate
re-evaluation.
A
key
issue
if
macroplastics,
microplastics,
nanoplastics,
their
leachates
an
inherently
higher
potential
elicit
adverse
effects
than
natural
particles
same
size.
summarize
findings
context
that
demonstrate
increasing
fate
processes
leading
poorly
reversible
pollution,
(eco)toxicological
hazards
thresholds.
provide
evidence
criterion
could
be
fulfilled
for
sensitive
environments
therefore
conclude
pose
threat.
suggest
future
research
priorities
better
understand
modulated
by
exposure
continuous
parametrize
threshold
pollution.
Journal of Hazardous Materials Advances,
Journal Year:
2022,
Volume and Issue:
6, P. 100057 - 100057
Published: Feb. 24, 2022
The
last
decade
has
been
transformative
for
micro(nano)plastic
(MnP)
research
with
recent
discoveries
revealing
the
extent
and
magnitude
of
MnP
pollution,
even
in
world's
most
remote
places.
Historically,
while
researchers
recognized
that
plastic
pollution
was
derived
from
land-based
sources,
it
generally
believed
microplastic
particles
(i.e.,
fragments
<5
mm)
only
a
marine
issue
effects
largely
impacting
biota.
However,
over
progressed
rapidly
MnPs
freshwater,
snow,
ice,
soil,
terrestrial
biota,
air
found
ocean
spray.
have
now
every
environmental
compartment
on
earth,
within
tissues
gastrointestinal
tracts
thousands
species,
including
humans,
resulting
harmful
effects.
10
years
also
seen
development
new
techniques
analysis,
re-purposing
old
technologies
allowing
us
to
determine
down
nano
size
range
(<1
µm).
This
short
review
summarizes
what
key
milestones
major
advances
made
nanoplastic
environment,
their
fate,
decade.
Science,
Journal Year:
2024,
Volume and Issue:
386(6720)
Published: Sept. 19, 2024
Twenty
years
after
the
first
publication
that
used
term
microplastic,
we
review
current
understanding,
refine
definitions,
and
consider
future
prospects.
Microplastics
arise
from
multiple
sources,
including
tires,
textiles,
cosmetics,
paint,
fragmentation
of
larger
items.
They
are
widely
distributed
throughout
natural
environment,
with
evidence
harm
at
levels
biological
organization.
pervasive
in
food
drink
have
been
detected
human
body,
emerging
negative
effects.
Environmental
contamination
could
double
by
2040,
wide-scale
has
predicted.
Public
concern
is
increasing,
diverse
measures
to
address
microplastic
pollution
being
considered
international
negotiations.
Clear
on
efficacy
potential
solutions
now
needed
issue
minimize
risks
unintended
consequences.
Analytical and Bioanalytical Chemistry,
Journal Year:
2021,
Volume and Issue:
413(24), P. 5969 - 5994
Published: July 20, 2021
Abstract
Microplastics
are
a
widespread
contaminant
found
not
only
in
various
natural
habitats
but
also
drinking
waters.
With
spectroscopic
methods,
the
polymer
type,
number,
size,
and
size
distribution
as
well
shape
of
microplastic
particles
waters
can
be
determined,
which
is
great
relevance
to
toxicological
studies.
Methods
used
studies
so
far
show
huge
diversity
regarding
experimental
setups
often
lack
certain
quality
assurance
aspects.
To
overcome
these
problems,
this
critical
review
consensus
paper
12
European
analytical
laboratories
institutions,
dealing
with
particle
identification
quantification
gives
guidance
toward
harmonized
analysis
clean
The
aims
(i)
improve
reliability
analysis,
(ii)
facilitate
planning
sample
preparation
detection,
(iii)
provide
better
understanding
evaluation
already
existing
aims,
we
hope
make
an
important
step
harmonization
water
samples
and,
thus,
allow
comparability
results
obtained
different
by
using
similar
or
methods.
Clean
samples,
for
purpose
paper,
considered
comprise
all
low
matrix
content,
particular
drinking,
tap,
bottled
water,
other
types
such
freshwater.
Graphical
abstract
Water Research,
Journal Year:
2021,
Volume and Issue:
202, P. 117429 - 117429
Published: July 14, 2021
Understanding
the
multidimensionality
of
microplastics
is
essential
for
a
realistic
assessment
risks
these
particles
pose
to
environment
and
human
health.
Here,
we
capture
size,
shape,
area,
polymer,
volume
mass
characteristics
>60,000
individual
microplastic
as
continuous
distributions.
Particles
originate
from
samples
taken
different
aquatic
compartments,
including
surface
water
sediments
marine
freshwater
environment,
waste
effluents,
organisms.
Data
were
obtained
using
state-of-the-art
FTIR-imaging,
same
automated
imaging
post-processing
software.
We
introduce
workflow
with
two
quality
criteria
that
assure
minimum
data
loss
due
volumetric
filter
area
subsampling.
find
probability
density
functions
(PDFs)
particle
length
follow
power
law
distributions,
median
slopes
ranging
2.2
3.1
biota
samples,
compartment-specific.
Polymer-specific
PDFs
demonstrated
significant
differences
in
among
polymers,
hinting
at
polymer
specific
sources,
removal
or
fragmentation
processes.
Furthermore,
provide
width,
width
ratio,
distributions
propose
how
can
represent
full
diversity
toxicologically
relevant
dose
metrics
required
risks.
