This
bibliometric
and
systematic
review
assesses
research
progress
climate
change
adaptation
strategies
to
control
invasive
crop
pests
in
sub-Saharan
Africa.
Scientific
publications
on
pest
management
Africa
a
context
of
were
extracted
from
papers
published
between
1991
2024.
A
literature
search
was
conducted
Scopus,
dimension,
google
scholar,
followed
by
screening
data
extraction
compliance
with
ROSES
standards.
Findings
indicated
that
such
as
armyworms,
fruit
flies
coffee
berry
borer
cause
huge
losses.
Communities
are
adopting
integrated
management,
water
harvesting,
drip
irrigation,
resistant
varieties,
improving
production
efficiency.
Agro-ecological
practices
reduce
invasions
while
preserving
the
environment.
Meanwhile,
chemical
insecticide
use
remains
an
emergency
solution
its
effects
would
be
more
efficient.
However,
promising
approaches
emerge
around
biocontrol,
agroforestry
integrating
gender-tailored
strategies.
Nevertheless,
regional
disparities
persist
scientific
output.
In
conclusion,
represent
major
plant
health
crisis
Africa,
this
highlights
innovative
Their
development
will
require
coordinated
mobilization
catalyze
sustainable
agro-ecological
transition
needs
address
these
multidimensional
challenges.
Future
should
assess
farmer’s
perception
effectiveness
existing
for
pests.
Journal of Applied Entomology,
Год журнала:
2024,
Номер
148(2), С. 232 - 251
Опубликована: Янв. 10, 2024
Abstract
The
application
of
artificial
intelligence
(AI)
in
entomological
research
has
gained
significant
attention
recent
years.
This
review
summarizes
the
current
state
on
potential
AI
methods
various
subfields
entomology,
such
as
behavioural
biology,
biodiversity
research,
climate
change
pest
management,
and
disease
vector
control.
In
some
cases,
AI‐based
species
identification
based
deep
learning
neuronal
network
models
have
been
shown
to
outperform
traditional
morphological
terms
accuracy
speed.
Behavioural
biology
enhanced
through
use
tracking
systems
that
can
classify
insect
behaviour
movement
patterns.
Habitat
modelling
also
improved
with
AI,
allowing
for
creation
more
accurate
predict
distribution
abundance.
Climate
benefited
from
AI‐driven
tools
analyse
large
datasets
impact
environmental
changes
populations.
agriculture,
management
revolutionized
by
methods,
development
smart
traps
monitoring
detect
identify
real‐time,
enabling
targeted
control
measures.
Disease
predictive
models,
which
areas
at
risk
transmission
aid
effective
strategies.
conclusion,
revolutionize
many
aspects
research.
Future
should
focus
developing
sophisticated
integrating
them
into
address
even
complex
ecological
questions.
Journal of Agricultural and Food Chemistry,
Год журнала:
2024,
Номер
72(19), С. 10710 - 10724
Опубликована: Апрель 30, 2024
The
human
population
will
be
approximately
9.7
billion
by
2050,
and
food
security
has
been
identified
as
one
of
the
key
issues
facing
global
population.
Agrochemicals
are
an
important
tool
available
to
farmers
that
enable
high
crop
yields
continued
access
healthy
foods,
but
average
new
agrochemical
active
ingredient
takes
more
than
ten
years,
350
million
dollars,
20,000
animals
develop
register.
time,
monetary,
animal
costs
incentivize
use
New
Approach
Methodologies
(NAMs)
in
early-stage
screening
prioritize
chemical
candidates.
This
review
outlines
NAMs
currently
or
can
adapted
for
programs.
It
covers
vitro
screens
on
horizon
areas
regulatory
concern.
Overall,
with
enables
prioritization
development
agrochemicals
without
environmental
health
concerns
through
a
directed,
agile,
iterative
program
before
animal-based
testing
is
even
considered.
Plants,
Год журнала:
2024,
Номер
13(14), С. 1914 - 1914
Опубликована: Июль 11, 2024
In
the
dynamic
landscape
of
agriculture
and
food
science,
incorporating
emergent
crops
appears
as
a
pioneering
solution
for
diversifying
agriculture,
unlocking
possibilities
sustainable
cultivation
nutritional
bolstering
security,
creating
economic
prospects
amid
evolving
environmental
market
conditions
with
positive
impacts
on
human
health.
This
review
explores
potential
utilizing
in
Mediterranean
environments
under
current
climate
scenarios,
emphasizing
manifold
benefits
agricultural
system
diversification
assessing
impact
factors
their
quality
consumer
Through
deep
exploration
resilience,
value,
health
neglected
underutilized
species
(NUS)
such
quinoa,
amaranth,
chia,
moringa,
buckwheat,
millet,
teff,
hemp,
or
desert
truffles,
capacity
to
thrive
changing
is
highlighted,
offering
novel
opportunities
functional
development.
By
analysing
how
promoting
can
enhance
adaptability
conditions,
fostering
sustainability
we
discuss
recent
findings
that
underscore
main
limitations
these
from
agricultural,
perspectives,
all
crucial
responsible
adoption.
Thus,
by
using
holistic
approach,
this
revision
analyses
integration
NUS
into
agrifood
systems
resilience
addressing
environmental,
nutritional,
biomedical,
economic,
cultural
dimensions,
thereby
mitigating
risks
associated
monoculture
practices
local
economies
livelihoods
new
scenarios.
The
cultivation
of
sugarcane
(
Saccharum
officinarum
L.)
in
the
face
climate
change
requires
robust
strategies
for
managing
pests,
diseases,
and
weeds.
This
systematic
review
exposes
critical
deficiencies
current
practices
underscores
need
climate-adaptive
strategies.
Climate
differentially
influences
pest
behaviour,
disease
progression,
weed
growth
across
various
regions,
yet
lack
region-specific
responses
impairs
effective
management.
emphasizes
necessity
localized
approaches
that
consider
specific
climatic
conditions
development
predictive
models
to
anticipate
outbreaks.
These
include
Decision
Support
Systems
(DSS),
Vector
Machines
(SVM),
Susceptible-Exposed-Infectious-Recovered
(SEIR)
models,
Geographic
Information
(GIS),
Species
Distribution
Models
(SDMs),
Agricultural
Production
sIMulator
(APSIM),
Integrated
Pest
Management
(IPM).
Crucial
encompass
integrated
management,
adaptive
breeding,
precision
agriculture,
ongoing
innovation.
Precision
agriculture
technologies,
such
as
remote
sensing
drones,
enable
early
detection
prompt
interventions.
By
adopting
these
measures
addressing
existing
research
gaps,
industry
can
bolster
its
resilience
maintain
productivity
amidst
evolving
conditions.
Systematic
registration
https://www.bmj.com/content/372/bmj.n71
.
Revista Multidisciplinar do Nordeste Mineiro,
Год журнала:
2025,
Номер
1(1), С. 1 - 13
Опубликована: Янв. 15, 2025
The
article
explores
the
relationship
between
climate
change
and
food
security,
emphasizing
challenges
confronting
global
agricultural
sector,
with
a
particular
focus
on
Brazil.
Climate
has
intensified
extreme
events
such
as
droughts,
floods,
heatwaves,
adversely
affecting
agriculture
quality
of
life.
research
utilized
Science
Direct
database
to
analyze
peer-reviewed
articles
related
security.
impacts
productivity
crops
rice,
soybeans,
maize
were
identified,
influenced
by
factors
like
temperature,
precipitation,
solar
radiation.
Deforestation
land-use
changes
also
contribute
alterations
in
rainfall
patterns,
reducing
productivity.
Consequently,
forest
preservation
is
highlighted
essential
for
it
regulates
microclimates
hydrological
cycles.
Policies
that
promote
conservation
adaptation
are
critical
addressing
challenges,
protecting
biodiversity,
ensuring
sustainable
production.
