Insects,
Год журнала:
2024,
Номер
15(12), С. 1021 - 1021
Опубликована: Дек. 23, 2024
The
decline
of
insects
is
a
global
concern,
yet
identifying
the
factors
behind
it
remains
challenging
due
to
complexity
potential
drivers
and
underlying
processes,
lack
quantitative
historical
data
on
insect
populations.
This
study
assesses
92
in
West
Germany,
where
significant
declines
have
been
observed.
Using
from
federal
statistical
offices
market
surveys,
traces
changes
landscape
structure
agricultural
practices
over
33
years.
Over
years,
region
underwent
major
changes,
including
reduced
cropland
grassland
increased
urbanization
forest
areas.
Potential
detected
include:
(1)
urban
expansion,
reducing
habitats
as
areas
by
25%;
(2)
intensified
management;
(3)
shifts
arable
land
use
towards
bioenergy
feed
crop
cultivation,
particularly
corn,
driven
dairy
farming
intensification
renewable
energy
policies.
While
toxic
load
pesticide
application
has
decreased,
land-use
most
likely
demands
national
EU
policies,
habitat
availability
suitability
for
insects.
highlights
how
these
management
past
years
align
with
observed
biomass
region.
Scientific Reports,
Год журнала:
2025,
Номер
15(1)
Опубликована: Янв. 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.
Pesticide-induced
resurgence,
increases
in
pest
insect
populations
following
pesticide
application,
is
a
serious
threat
to
the
sustainable
control
of
many
highly
damaging
crop
pests.
Resurgence
can
result
from
pesticide-enhanced
reproduction,
however,
molecular
mechanisms
mediating
this
process
remain
unresolved.
Here
we
show
that
brown
planthopper
(BPH)
resurgence
rice
crops
exposure
emamectin
benzoate
(EB)
results
coordinated
action
suite
genes
regulate
juvenile
hormone
(JH)
levels,
resulting
increased
JH
titer
adult
females
and
enhanced
fecundity.
We
demonstrate
EB
treatment
at
sublethal
levels
profound
changes
female
BPH
fitness
including
egg
maturation
oviposition.
This
reproductive
EB-mediated
upregulation
key
involved
regulation
JH,
JHAMT
Kr-h1
downregulation
allatostatin
(
AstA
)
receptor
AstAR
expression.
signaling
known
inhibit
production
corpora
allata
hence
diminishes
inhibitory
action.
find
gene
expression
are
caused
by
insecticide
on
its
target,
glutamate-gated
chloride
channel
(GluCl).
Collectively,
these
provide
mechanistic
insights
into
negative
pesticide-induced
responses
insects
reveal
actors
JH-signaling
pathway
underpin
resurgence.
Journal of Nanobiotechnology,
Год журнала:
2025,
Номер
23(1)
Опубликована: Апрель 1, 2025
Chemical
pesticides
face
significant
challenges
regarding
their
efficacy
and
environmental
impact.
Plant-based
food
attractants
have
emerged
as
a
promising
green
alternative
for
pest
control.
However,
field
application
is
limited
by
the
short
duration
of
effectiveness,
necessitating
improved
carrier
systems
sustained
release.
Electrospinning
technology
in
this
field,
with
core-shell
fibers
offering
superior
performance
efficient
loading
release
compared
to
uniaxial
fibers,
highlighting
potential
further
development.
In
study,
micro-nano
fiber
mats
were
prepared
via
coaxial
electrospinning
using
multiple
environmentally
friendly
polymers.
These
firstly
successfully
loaded
bisexually
attractive
Loxostege
sticticalis
adults,
including
1-octen-3-ol,
trans-2-hexenal,
linalool,
anethole,
enabling
effective
trapping.
The
components
spinning
solution
chemically
compatible,
after
spinning,
poly(3-hydroxybutyrate-co-4-hydroxybutyrate)/polycaprolactone
(PHB/PCL)
shell
layer
polyethylene
oxide
(PEO)
core
formed
clear
boundaries.
achieved
an
average
encapsulation
efficiency
78%
active
ingredients,
profile
that
delivered
over
60%
within
80
days
while
mitigating
early
burst
Electroantennogram
behavioral
studies
revealed
retained
electrophysiological
activity
at
least
90
days,
effectively
attracting
male
female
adult
insects
even
75
days.
Field
trials
demonstrated
significantly
outperformed
commercial
slow-release
carriers,
higher
number
L.
adults.
Additionally,
exhibited
strong
stress
resistance,
biodegradability,
compatibility,
protecting
molecules
minimizing
ecological
developed
provide
highly
efficient,
eco-friendly
plant-based
attractants,
prolonged
insect
trapping
performance.
This
study
highlights
sustainable
agriculture
management,
paving
way
greener
alternatives
chemical
pesticides.
The Science of The Total Environment,
Год журнала:
2025,
Номер
969, С. 178900 - 178900
Опубликована: Март 1, 2025
Pollution
is
a
global
issue
contributing
to
biodiversity
loss,
climate
change,
and
human
health
concerns.
Lead
(Pb)
has
long
been
recognized
as
toxic
heavy
metal
pollutant
but
few
studies
have
investigated
the
impact
routes
of
exposure
lead
in
field
conditions
across
multiple
species.
We
collected
22
common
species
butterflies
gradient
pollution
Twin
Cities
metropolitan
area
(Minneapolis
St.
Paul,
MN,
USA).
measured
their
thorax
concentrations
body
condition
including
wing
area,
number
eggs,
brain
mass.
quantified
soil,
host
plant
leaves,
air
(through
lichen
bio-monitors)
at
sites
where
were
investigate
potential
exposure.
found
negative
correlation
between
sublethal
butterfly
size
all
Contrary
expectations
from
previous
literature,
we
did
not
find
correlations
concentration
eggs
or
Our
data
indicate
that
for
are
particularly
pronounced
through
soil
air,
relative
plants,
there
positive
nearby
plants.
Such
effects
lead,
even
low
levels
pollution,
underline
importance
continuing
reduce
emissions
impacts
pollutants
protect
biodiversity.
Journal of Agricultural and Food Chemistry,
Год журнала:
2025,
Номер
unknown
Опубликована: Март 7, 2025
Isoxazoline
insecticides
exhibit
broad-spectrum
insecticidal
activity
against
insect
pests.
However,
the
high
toxicity
to
honeybees
limits
their
application
in
pest
management.
To
explore
reducing
of
isoxazoline
derivatives
bees,
a
series
new
cyclopropyl-picolinamide
were
designed
and
synthesized.
Bioassays
revealed
that
FSA37
showed
excellent
Plutella
xylostella,
Spodoptera
litura,
exigua,
with
LC50
values
0.077,
0.104,
0.198
mg/L,
respectively.
These
results
surpass
those
fluxametamide,
which
displayed
0.605,
0.853,
1.254
mg/L.
Furthermore,
exhibited
notable
Solenopsis
invicta.
Importantly,
bee
studies
indicated
possesses
significantly
lower
acute
oral
compared
fluralaner
fluxametamide.
Quantum
chemical
calculations
molecular
docking
suggest
fragment
may
be
crucial
for
both
biological
safety
nontarget
organisms.
In
conclusion,
represents
promising
candidate
highly
effective
environmentally
friendly
insecticide.
Journal of Fungi,
Год журнала:
2025,
Номер
11(2), С. 128 - 128
Опубликована: Фев. 8, 2025
Entomopathogenic
fungi
represent
a
valuable
natural
resource
with
significant
potential
as
biological
agents
for
pest
management.
However,
different
species
or
strains
of
demonstrate
varying
effectiveness
against
specific
targets.
In
this
study,
we
assessed
the
impact
two
fungal
strains,
Beauveria
bassiana
KN801
and
KN802,
on
rice
planthoppers
Ninaparvata
lugens
Sogatella
furcifera,
in
combination
insecticides.
Our
findings
indicate
that
both
B.
can
effectively
infect
nymphs
adults
N.
S.
resulting
significantly
higher
mortality
rate
compared
to
control
groups.
Notably,
strain
demonstrated
greater
virulence
than
KN802
these
pests.
no
differences
were
observed
when
using
concentrations
same
(B.
KN802)
Additionally,
showed
germination
over
90%
after
treatment
combined
several
common
insecticides
like
chlorfenapyr
dinotefuran.
The
application
dinotefuran
could
improve
efficacy
This
study
suggests
have
indicating
their
promise
