Over
the
past
decade,
there
have
been
increasing
recognition
and
concern
of
toxicological
impacts
microplastics
(MPs)
in
environment,
which
widely
found
various
marine
environments
from
estuary
to
deep
oceans.
Numerous
studies
conducted
on
MPs
organisms,
especially
phytoplankton,
zooplankton,
bivalves,
fish
different
trophic
levels.
These
mainly
focused
measurements
bioaccumulation
their
resulting
biological
at
molecular,
metabolic,
biochemical,
physiological,
organismic
This
review
examines
over
recent
years
toxicology
particularly
toxicity
MPs.
The
organisms
are
diverse,
complexity
organism
physiology
as
well
physical
chemical
properties
need
be
considered.
Future
should
consider
environmental
relevance
research
development
quantitative
tools
model
transport,
bioaccumulation,
important
for
real
risk
assessments
environments.
Environmental Science & Technology,
Journal Year:
2024,
Volume and Issue:
58(37), P. 16269 - 16281
Published: Aug. 30, 2024
Microplastics
(MPs)
as
emerging
contaminants
are
widely
present
in
the
environment
and
ubiquitously
ingested
accumulated
by
aquatic
organisms.
MPs
may
be
quickly
eliminated
after
a
brief
retention
animals
(such
digestive
tract);
thus,
understanding
damage
caused
during
this
process
whether
can
recovered
is
important.
Here,
we
proposed
use
of
visible
light
imaging
to
track
combined
with
near-infrared
(NIR)
reveal
Over
the
past
decade,
there
have
been
increasing
recognition
and
concern
of
toxicological
impacts
microplastics
(MPs)
in
environment,
which
widely
found
various
marine
environments
from
estuary
to
deep
oceans.
Numerous
studies
conducted
on
MPs
organisms,
especially
phytoplankton,
zooplankton,
bivalves,
fish
different
trophic
levels.
These
mainly
focused
measurements
bioaccumulation
their
resulting
biological
at
molecular,
metabolic,
biochemical,
physiological,
organismic
This
review
examines
over
recent
years
toxicology
particularly
toxicity
MPs.
The
organisms
are
diverse,
complexity
organism
physiology
as
well
physical
chemical
properties
need
be
considered.
Future
should
consider
environmental
relevance
research
development
quantitative
tools
model
transport,
bioaccumulation,
important
for
real
risk
assessments
environments.
Over
the
past
decade,
there
have
been
increasing
recognition
and
concern
of
toxicological
impacts
microplastics
(MPs)
in
environment,
which
widely
found
various
marine
environments
from
estuary
to
deep
oceans.
Numerous
studies
conducted
on
MPs
organisms,
especially
phytoplankton,
zooplankton,
bivalves,
fish
different
trophic
levels.
These
mainly
focused
measurements
bioaccumulation
their
resulting
biological
at
molecular,
metabolic,
biochemical,
physiological,
organismic
This
review
examines
over
recent
years
toxicology
particularly
toxicity
MPs.
The
organisms
are
diverse,
complexity
organism
physiology
as
well
physical
chemical
properties
need
be
considered.
Future
should
consider
environmental
relevance
research
development
quantitative
tools
model
transport,
bioaccumulation,
important
for
real
risk
assessments
environments.
Over
the
past
decade,
there
have
been
increasing
recognition
and
concern
of
toxicological
impacts
microplastics
(MPs)
in
environment,
which
widely
found
various
marine
environments
from
estuary
to
deep
oceans.
Numerous
studies
conducted
on
MPs
organisms,
especially
phytoplankton,
zooplankton,
bivalves,
fish
different
trophic
levels.
These
mainly
focused
measurements
bioaccumulation
their
resulting
biological
at
molecular,
metabolic,
biochemical,
physiological,
organismic
This
review
examines
over
recent
years
toxicology
particularly
toxicity
MPs.
The
organisms
are
diverse,
complexity
organism
physiology
as
well
physical
chemical
properties
need
be
considered.
Future
should
consider
environmental
relevance
research
development
quantitative
tools
model
transport,
bioaccumulation,
important
for
real
risk
assessments
environments.
Over
the
past
decade,
there
have
been
increasing
recognition
and
concern
of
toxicological
impacts
microplastics
(MPs)
in
environment,
which
widely
found
various
marine
environments
from
estuary
to
deep
oceans.
Numerous
studies
conducted
on
MPs
organisms,
especially
phytoplankton,
zooplankton,
bivalves,
fish
different
trophic
levels.
These
mainly
focused
measurements
bioaccumulation
their
resulting
biological
at
molecular,
metabolic,
biochemical,
physiological,
organismic
This
review
examines
over
recent
years
toxicology
particularly
toxicity
MPs.
The
organisms
are
diverse,
complexity
organism
physiology
as
well
physical
chemical
properties
need
be
considered.
Future
should
consider
environmental
relevance
research
development
quantitative
tools
model
transport,
bioaccumulation,
important
for
real
risk
assessments
environments.
Over
the
past
decade,
there
have
been
increasing
recognition
and
concern
of
toxicological
impacts
microplastics
(MPs)
in
environment,
which
widely
found
various
marine
environments
from
estuary
to
deep
oceans.
Numerous
studies
conducted
on
MPs
organisms,
especially
phytoplankton,
zooplankton,
bivalves,
fish
different
trophic
levels.
These
mainly
focused
measurements
bioaccumulation
their
resulting
biological
at
molecular,
metabolic,
biochemical,
physiological,
organismic
This
review
examines
over
recent
years
toxicology
particularly
toxicity
MPs.
The
organisms
are
diverse,
complexity
organism
physiology
as
well
physical
chemical
properties
need
be
considered.
Future
should
consider
environmental
relevance
research
development
quantitative
tools
model
transport,
bioaccumulation,
important
for
real
risk
assessments
environments.
Over
the
past
decade,
there
have
been
increasing
recognition
and
concern
of
toxicological
impacts
microplastics
(MPs)
in
environment,
which
widely
found
various
marine
environments
from
estuary
to
deep
oceans.
Numerous
studies
conducted
on
MPs
organisms,
especially
phytoplankton,
zooplankton,
bivalves,
fish
different
trophic
levels.
These
mainly
focused
measurements
bioaccumulation
their
resulting
biological
at
molecular,
metabolic,
biochemical,
physiological,
organismic
This
review
examines
over
recent
years
toxicology
particularly
toxicity
MPs.
The
organisms
are
diverse,
complexity
organism
physiology
as
well
physical
chemical
properties
need
be
considered.
Future
should
consider
environmental
relevance
research
development
quantitative
tools
model
transport,
bioaccumulation,
important
for
real
risk
assessments
environments.
Over
the
past
decade,
there
have
been
increasing
recognition
and
concern
of
toxicological
impacts
microplastics
(MPs)
in
environment,
which
widely
found
various
marine
environments
from
estuary
to
deep
oceans.
Numerous
studies
conducted
on
MPs
organisms,
especially
phytoplankton,
zooplankton,
bivalves,
fish
different
trophic
levels.
These
mainly
focused
measurements
bioaccumulation
their
resulting
biological
at
molecular,
metabolic,
biochemical,
physiological,
organismic
This
review
examines
over
recent
years
toxicology
particularly
toxicity
MPs.
The
organisms
are
diverse,
complexity
organism
physiology
as
well
physical
chemical
properties
need
be
considered.
Future
should
consider
environmental
relevance
research
development
quantitative
tools
model
transport,
bioaccumulation,
important
for
real
risk
assessments
environments.
Over
the
past
decade,
there
have
been
increasing
recognition
and
concern
of
toxicological
impacts
microplastics
(MPs)
in
environment,
which
widely
found
various
marine
environments
from
estuary
to
deep
oceans.
Numerous
studies
conducted
on
MPs
organisms,
especially
phytoplankton,
zooplankton,
bivalves,
fish
different
trophic
levels.
These
mainly
focused
measurements
bioaccumulation
their
resulting
biological
at
molecular,
metabolic,
biochemical,
physiological,
organismic
This
review
examines
over
recent
years
toxicology
particularly
toxicity
MPs.
The
organisms
are
diverse,
complexity
organism
physiology
as
well
physical
chemical
properties
need
be
considered.
Future
should
consider
environmental
relevance
research
development
quantitative
tools
model
transport,
bioaccumulation,
important
for
real
risk
assessments
environments.
