Environmental Sciences Europe,
Journal Year:
2024,
Volume and Issue:
36(1)
Published: Feb. 25, 2024
Abstract
There
is
a
long
history
in
environmental
sciences
to
investigate
and
understand
the
fate
of
chemicals
environment.
For
pesticides,
this
has
led
systematic
assessments
compounds
by
both
academic
regulatory
bodies,
particularly
for
soil
water.
As
we
show
here,
recent
years,
there
an
increasing
interest
potential
presence
pesticide
residues
air
related
exposure
risks.
Based
on
literature
review
years
2002–2022,
find
growing
number
monitoring
studies
with
average
6.7
studies/year
since
2020,
passive
sampling
methods
contributing
significantly
rise.
Most
are
concentrated
Europe
North
America,
France
leading
studies.
However,
due
lack
harmonization,
thus,
use
diverse
approaches,
it
remains
challenging
derive
risks,
assess
data
quality
studies,
compare
datasets.
In
perspective,
focus
current
emerging
trends
different
approaches
highlight
how
they
influence
interpretation
data.
To
improve
comparability
utility
data,
ensure
that
monitorings
meet
certain
requirements,
propose
path
forward,
including:
(1)
Standardization
harmonization
methods:
Adopting
well-characterized
widely
applied
from
research
as
basis
standardizing
monitoring,
clear
distinction
between
relevant
total
concentrations.
(2)
Tiered
approach
programs:
A
dynamic
concept
where
initial
identifies
followed
active
quantitative
and,
if
necessary,
extensive
programs.
This
balances
need
detailed
resource
constraints.
(3)
Data
transparency:
Public
availability
reporting
methods,
analysis,
uncertainties
crucial
credibility
Overall,
see
standards
critical
assessing
risks
pesticides
informing
decisions
mitigation
strategies.
Collaboration
atmospheric
community
strongly
recommended
leverage
existing
expertise
sampling,
interpretation.
Environment International,
Journal Year:
2024,
Volume and Issue:
187, P. 108653 - 108653
Published: April 12, 2024
Pesticides
are
widely
used
in
agriculture,
but
their
impact
on
the
environment
and
human
health
is
a
major
concern.
While
much
attention
has
been
given
to
presence
soil,
water,
food,
there
have
few
studies
airborne
pesticide
pollution
global
scale.
This
study
aimed
assess
extent
of
atmospheric
countries
worldwide
identify
regional
differences
using
scoring
approach.
In
addition
analyzing
risks
associated
with
pollution,
we
also
examined
agricultural
practices
current
air
quality
standards
for
pesticides
these
countries.
The
scores
varied
significantly
among
countries,
particularly
Europe.
Asian
Oceanic
generally
had
higher
compared
those
Americas,
suggesting
relatively
level
caused
by
regions.
It
worth
noting
that
levels,
as
assessed
theoretically,
pose
minimal
humans.
However,
literature
shown
excessive
exposure
present
atmosphere
various
problems,
such
cancer,
neuropsychiatric
disorders,
other
chronic
diseases.
Interestingly,
European
highest
overall
application
intensities,
this
did
not
necessarily
correspond
scores.
Only
established
specifically
pesticides.
Furthermore,
across
states
USA
were
investigated
sampling
sites
mapped.
findings
revealed
limited
or
unevenly
distributed
some
Nordic
These
can
help
relevant
environmental
agencies
set
up
comprehensive
monitoring
networks.
Overall,
research
highlights
need
create
system
increase
efforts
enhance
regulation,
ensure
consistency
standards,
promote
international
cooperation.
Scientific Reports,
Journal Year:
2025,
Volume and Issue:
15(1)
Published: Jan. 21, 2025
Abstract
Current
use
pesticides
(CUPs)
are
recognised
as
the
largest
deliberate
input
of
bioactive
substances
into
terrestrial
ecosystems
and
one
main
factors
responsible
for
current
decline
in
insects
agricultural
areas.
To
quantify
seasonal
insect
exposure
landscape
at
a
regional
scale
(Rhineland-Palatine
Germany),
we
analysed
presence
multiple
(93)
active
ingredients
CUPs
across
three
different
cultivation
types
(with
each
fields:
arable,
vegetable,
viticulture)
neighbouring
meadows.
We
collected
monthly
soil
vegetation
samples
over
year.
A
total
71
CUP
residues
mixtures
was
detected,
with
up
to
28
25
single
samples.
The
concentrations
numbers
fluctuated
sampling
period,
peaking
summer
months
but
remaining
almost
constant
topsoil.
calculated
in-field
additive
risks
earthworms,
collembola,
soil-living
wild
bees
using
measured
CUPs.
Our
results
call
need
assess
mixture
low
concentrations,
chronically
present
Since
this
risk
is
not
addressed
regulation,
emphasise
urgent
implement
global
pesticide
reduction
targets.
The Science of The Total Environment,
Journal Year:
2022,
Volume and Issue:
854, P. 158814 - 158814
Published: Sept. 14, 2022
Pesticide
drift
onto
non-agricultural
land
is
a
common
problem
in
intensively
farmed
regions,
and
national
action
plans
have
been
established
across
Europe
to
prevent
it.
Here,
we
analyzed
official
data
on
pesticide
residues
grass
samples
collected
over
six
years
determine
whether
implemented
measures
reduce
were
effective.
We
used
306
between
2014
2020
one
of
the
most
managed
apple
wine
growing
regions
Europe,
Autonomous
Province
Bolzano-South
Tyrol,
Italy.
Samples
for
up
314
substances
by
gas
chromatography
mass
spectrometry.
Percentage
sites
with
multiple
pesticides
number
decreased
2020.
Fungicides
often
detected,
fluazinam
found
74
%
captan
60
contaminated
(53
out
total
88
contaminated).
The
frequently
insecticide,
phosmet,
was
detected
49
sites.
Only
herbicide,
oxadiazon,
<1
sites;
glyphosate
not
analyzed.
percentage
human
hazard
properties
increased
significantly
regarding
reproductive
toxicity
(from
21
2020)
specific
target
organ
(0
2020).
Percentages
associated
endocrine-disruption
(89
years)
or
carcinogenic
(45
remained
constant.
where
concentrations
exceeded
surrogate
maximum
residue
levels
(MRLs)
lettuce
also
Potential
ecotoxicological
hazards
acute
contact
honeybees
high
study
years,
while
chronic
earthworms
decreased.
Our
results
suggest
that
mitigation
contributed
some
reduction
contamination,
they
sufficient
eliminate
substantial
risks
health
environment
nontarget
areas.
Toxics,
Journal Year:
2023,
Volume and Issue:
11(10), P. 858 - 858
Published: Oct. 13, 2023
This
critical
review
examines
the
release
of
pesticides
from
agricultural
practices
into
air,
with
a
focus
on
volatilization,
and
factors
influencing
their
dispersion.
The
delves
effects
airborne
human
health
contribution
to
anthropogenic
air
pollution.
It
highlights
necessity
interdisciplinary
research
encompassing
science,
technology,
public
policy,
effectively
mitigate
risks
associated
pesticide
volatilization
spray
text
acknowledges
need
for
more
understand
fate
transport
pesticides,
develop
innovative
application
technologies,
improve
predictive
modeling
risk
assessment,
adopt
sustainable
pest
management
strategies.
Robust
policies
regulations,
supported
by
education,
training,
research,
development,
are
crucial
ensuring
safe
use
environment.
By
providing
valuable
insights,
this
aids
researchers
practitioners
in
devising
effective
solutions
safeguarding
environment
hazards
pesticides.
Environment International,
Journal Year:
2023,
Volume and Issue:
181, P. 108280 - 108280
Published: Oct. 30, 2023
Intensive
and
widespread
use
of
pesticides
raises
serious
environmental
human
health
concerns.
The
presence
levels
209
pesticide
residues
(active
substances
transformation
products)
in
625
samples
(201
soil,
193
crop,
20
outdoor
air,
115
indoor
dust,
58
surface
water,
38
sediment
samples)
have
been
studied.
were
collected
during
the
2021
growing
season,
across
10
study
sites,
covering
main
European
crops,
conventional
organic
farming
systems.
We
profiled
found
different
matrices
using
existing
hazard
classifications
towards
non-target
organisms
humans.
Combining
monitoring
data
information,
we
developed
an
indicator
for
prioritization
pesticides,
which
can
support
policy
decisions
sustainable
transitions.
Eighty-six
percent
had
at
least
one
residue
above
respective
limit
detection.
One
hundred
112
99
sediments,
78
76
197
dust.
number,
levels,
profile
varied
between
Our
results
show
that
non-approved
compounds
still
represent
a
significant
part
cocktails
should
be
accounted
programs
risk
assessments.
profiles
analysis
confirms
dominance
low-moderate
underscores
high
some
approved
recurring
"no
available"
situations.
Overall,
our
idea
assessed
mixture
context,
taking
environmentally
relevant
mixtures
into
consideration.
uncovered
uncertainties
gaps
addressed,
as
well
implications
EU
approval
status
level.
newly
introduced
help
identify
research
priority
areas,
act
reference
targeted
scenarios
set
forth
Farm
to
Fork
reduction
goals.
Foods,
Journal Year:
2023,
Volume and Issue:
12(10), P. 1936 - 1936
Published: May 10, 2023
Pesticides
are
used
on
fruit
and
vegetable
crops
to
obtain
greater
yield
quality.
Residues
can
be
detected
in
these
or
their
products
if
applied
pesticides
do
not
degrade
naturally.
Therefore,
this
study
aimed
estimate
pesticide
residues
some
strawberry
tomato-based
available
the
market
for
human
consumption
associated
dietary
risks.
Contamination
with
3–15
tested
samples
was
found.
The
total
number
of
20,
belonging
group
insecticides
(84%)
fungicides
(16%).
cypermethrin,
thiamethoxam,
chlorpyrifos,
lambda-cyhalothrin
appeared
at
100%
a
samples,
where
most
cypermethrin
followed
by
thiamethoxam.
average
values
ranged
from
0.006
0.568
mg
kg−1,
it
found
that
had
highest
residue
value
jam
obtained
market.
recovery
rate
fortified
pyrethroids
47.5%
(fenvalerate)
127%
(lambda-cyhalothrin).
Home
processing
tomato
significant
effect
reducing
sauce
jam,
reduction
reached
100%.
results
acute
chronic
risk
assessment
showed
were
much
lower
than
100%,
indicating
minimal
intake.
Environmental Sciences Europe,
Journal Year:
2023,
Volume and Issue:
35(1)
Published: July 8, 2023
Abstract
Glyphosate
(GLY),
the
most
widely
used
herbicide
in
world,
is
frequently
detected
various
environmental
matrices,
including
soil,
foundation
of
agriculture.
In
practice,
more
than
2000
GLY-based
(GBH)
products
are
used,
consisting
one
or
active
ingredients
(AIs)
and
so-called
“inert”
co-formulants
that
increase
efficacy
AIs.
However,
focus
ecotoxicological
assessments
mainly
on
AIs,
while
organisms
exposed
to
complex
pesticide
formulations
under
real-world
conditions.
Overall,
effects
non-target
indicate
a
broad
range
biochemical
physiological
modes
action,
which
contrasts
with
general
assumption
herbicides
specific
act
only
target
plants.
Both
GLY
alone
GBHs
have
unintended
side-effects
many
terrestrial
organisms,
plants,
microorganisms,
insects,
spiders,
earthworms,
as
well
vertebrates
such
amphibians,
reptiles,
mammals.
One
triggering
mechanisms
for
these
oxidative
stress
consequences
parameters
DNA
damage.
addition,
disruptions
physiological,
behavioral
ecological
processes
been
reported.
Most
studies
examined
short-term
single
application
GLY/GBH
species.
agricultural
practice
applying
two
three
times
during
cultivation
season
over
an
extended
period
time,
interactions
other
pesticides
agrochemicals
applied
same
field,
within
field
landscape
rarely
considered.
vast
majority
cases,
toxicity
exceeds
GLY,
demonstrating
supposedly
inert
either
toxic
their
own
right
interact
add
The
chemical
diversity
different
non-disclosure
make
it
difficult
attribute
substances
GBH.
Moreover,
impurities
(e.g.,
heavy
metals
arsenic,
chromium,
cobalt)
pose
additional
environment
food
safety
risks.
These
impacts
even
critical
because
so
distributed
worldwide
pollutants
stressors.
Based
available
literature
ecotoxicity,
given
drastic
decline
biodiversity,
we
conclude
continued
high
use
GBHs,
resulting
increased
exposure
risk,
cannot
be
considered
ecologically
sustainable.
Critical Reviews in Environmental Science and Technology,
Journal Year:
2023,
Volume and Issue:
53(22), P. 1957 - 1981
Published: April 8, 2023
Organochlorine
pesticides
(OCPs)
have
been
widely
used
around
the
world
due
to
their
high-efficiency
and
broad-spectrum
insecticidal
effects.
However,
they
pose
a
severe
threat
ecosystems
human
health
easy
bioaccumulation
high
toxicity.
Periphyton
is
ubiquitous
in
submerged
substrates
surface.
It
plays
crucial
role
carbon,
nutrients
elements
cycling
contaminants
transformation
environment.
can
remove
OCPs
through
bioadsorption,
biodegradation,
which
alters
fate
of
This
review
presents
comprehensive
summary
occurrence,
global
cycle,
potential
harm
environment,
removal
by
periphyton.
The
residual
detected
frequently
different
environmental
medias
such
as
water,
soil,
atmosphere,
sediment,
organisms.
Their
depending
on
physicochemical
properties
exposure
route.
main
compositions
functions
periphyton
summarized.
Moreover,
artificial
cultivation
methods
laboratory
in-situ
field
are
compared.
In
addition,
mechanisms
periphyton-mediated
factors
impacting
also
discussed.
could
self-regulate
its
biological
communities
adapt
then
regenerate
new
species
degrade
OCPs.
Finally,
prospect
future
studies
proposed.
provides
systematic
introduction
current
knowledge
