Biotechnology Reports,
Journal Year:
2024,
Volume and Issue:
42, P. e00835 - e00835
Published: March 11, 2024
Environmental
contamination
with
dichlorodiphenyltrichloroethane
(DDT)
has
sever
effects
on
the
ecosystem
worldwide.
DDT
is
a
recalcitrant
synthetic
chemical
high
toxicity
and
lipophilicity.
It
also
bioaccumulated
in
food
chain
causes
genotoxic,
estrogenic,
carcinogenic,
mutagenic
aquatic
organisms
humans.
Microbial
remediation
mechanism
its
enzymes
are
very
important
for
removing
from
environment.
main
residues
dichlorodiphenyldichloroethylene
(DDE)
dichlorodiphenyldichloroethane
(DDD)
can
biodegrade
slowly
soil
water.
To
enhance
this
process,
number
of
strategies
proposed,
such
as
bio-attenuation,
biostimulation,
bioaugmentation
manipulation
environmental
conditions
to
activity
microbial
enzymes.
The
addition
organic
matter
flooding
degradation.
candidates
include
micro-algae,
fungi
bacteria.
This
review
provide
brief
information
recommendation
mechanisms.
Plants,
Journal Year:
2024,
Volume and Issue:
13(6), P. 776 - 776
Published: March 8, 2024
Pesticide
overuse
in
agricultural
systems
has
resulted
the
development
of
pest
resistance,
impoverishment
soil
microbiota,
water
pollution,
and
several
human
health
issues.
Nonetheless,
farmers
still
depend
heavily
on
these
agrochemicals
for
economically
viable
production,
given
high
frequency
at
which
crops
are
affected
by
pests.
Phytopathogenic
insects
considered
most
destructive
pests
crops.
Botanical
pesticides
have
gained
attention
as
potential
biopesticides
complements
to
traditional
pesticides,
owing
their
biodegradability
low
toxicity.
Plant-based
extracts
abundant
a
wide
variety
bioactive
compounds,
such
flavonoids,
class
polyphenols
that
been
extensively
studied
this
purpose
because
involvement
plant
defense
responses.
The
present
review
offers
comprehensive
current
research
flavonoids
insecticides
crop
protection,
addressing
modes
possible
mechanisms
action
underlying
bioactivity.
structure–activity
relationship
is
also
discussed.
It
addresses
challenges
associated
with
application
disease
management
suggests
alternatives
overcome
Biochar,
Journal Year:
2024,
Volume and Issue:
6(1)
Published: Jan. 23, 2024
Abstract
Pesticide
misuse
and
overuse
severely
pollute
agricultural
soils,
water,
crop
yields,
harming
people
animals.
This
situation
raises
serious
concerns
about
environmental
pollution
on
a
global
scale.
As
an
eco-friendly
material
for
soil
remediation,
biochar
can
efficiently
immobilize
pesticides
in
the
soil.
Several
studies
have
focused
feasibility
of
remediating
polluted
However,
its
influences
during
remediation
pesticide-polluted
soils
remain
indistinct.
The
present
review
illuminates
positive
negative
dissemination
pesticides,
underlying
mechanisms,
regulating
factors,
critical
considerations
ongoing
development
pesticide
use.
It
also
delineates
impacts
soil,
evaluates
potential
pitfalls
based
recent
research,
offers
suggestions
prospective
applications
crucial
contaminated
reveals
that
fate
types
along
with
physicochemical
properties
types,
significantly
influence
using
biochar.
Biochar
has
to
enhance
abundance
certain
bacteria
colonization
arbuscular
mycorrhizal
fungi,
both
which
play
roles
remediation.
modify
moisture,
microbial
communities,
other
factors
impact
rate
degradation
while
simultaneously
reducing
fungi.
underscores
importance
thoroughly
understanding
before
application
soils.
serve
as
basis
subsequent
biochar-mediated
Graphical
The Science of The Total Environment,
Journal Year:
2025,
Volume and Issue:
962, P. 178398 - 178398
Published: Jan. 1, 2025
Agricultural
activities
are
essential
for
sustaining
the
global
population,
yet
they
exert
considerable
pressure
on
environment.
A
major
challenge
we
face
today
is
agricultural
pollution,
much
of
which
diffuse
in
nature,
lacking
a
clear
point
origin
chemical
discharge.
Modern
practices,
often
depend
substantial
applications
fertilizers,
pesticides,
and
irrigation
water,
key
contributors
to
this
form
pollution.
These
lead
downstream
contamination
through
mechanisms
such
as
surface
runoff,
leaching,
soil
erosion,
wind
dispersal,
sedimentation.
The
environmental
human
health
consequences
pollution
profound
cannot
be
ignored.
Accurate
assessment
risks
posed
by
pollutants
crucial
ensuring
production
safe,
high-quality
food
while
safeguarding
This
requires
systematic
monitoring
evaluation
including
testing
nutrient
management.
Furthermore,
development
implementation
best
management
practices
(BMPs)
critical
reducing
levels
Such
measures
mitigating
negative
impacts
ecosystems
public
health.
Therefore,
adoption
preventive
strategies
aimed
at
minimizing
its
associated
highly
recommended
ensure
long-term
sustainability
well-being.
Agriculture,
Journal Year:
2022,
Volume and Issue:
12(10), P. 1579 - 1579
Published: Sept. 30, 2022
Soil
pesticide
contamination
induced
by
modern
agriculture
has
become
a
serious
global
issue.
Its
uncontrolled
and
inefficient
application
is
among
the
main
reasons
for
their
enrichment
in
plants
animals
subsequently
transferred
to
humans
providing
public
health
risk.
Biochar
as
renewable
economical
carbonaceous
material
provides
natural
solution
immobilizing
pesticides
improving
soil
health.
The
biochar
impact
agricultural
contaminated
governed
various
factors
such
physico-chemical
properties
of
biochar,
pyrolysis,
conditions,
method,
which
can
lead
significant
gaps
removal
or
mitigation
toxic
substances.
current
study
summarizes
negative
effects
use
advantages
according
other
remediation
techniques,
succeeded
mechanism
controlling
on
minimizing
leaching
bioavailability
soil.
In
addition,
role
fundamental
processes
adsorption,
desorption,
biodegradation,
discussed.
Ultimately,
major
future
research
regulation
key
strategies
that
are
pesticide-contaminated
proposed.
