International Journal of Environment and Climate Change,
Год журнала:
2024,
Номер
14(7), С. 181 - 209
Опубликована: Июль 1, 2024
As
global
population
continues
to
grow,
there
is
an
increasing
need
for
innovative
solutions
enhance
agricultural
productivity,
efficiency,
and
sustainability.
To
meet
demand,
production
must
be
doubled.
The
projected
rise
by
almost
two
billion
individuals
within
the
next
three
decades.
With
challenges
such
as
growth,
climate
change,
resource
formation,
automation
in
farming
practices
one
of
key
driving
forces
behind
this
revolution.
Robotics,
coupled
with
artificial
intelligence
(AI)
advanced
data
analytics,
are
transformative
precision
smart
technologies.
These
technologies
enable
continuous
efficient
operations
provide
detailed
monitoring
at
a
plant-by-pant
level,
optimizing
use
reducing
environmental
footprint.
Technological
advancements
have
led
development
various
robotic
systems,
including
grippers
autonomous
machinery,
which
integral
tasks,
from
sowing
harvesting.
However,
adoption
not
without
challenges.
High
initial
investment
costs,
connectivity
issues,
security
some
barriers
that
addressed.
potential
benefits
reduced
operational
improved
crop
quality,
enhanced
farm
output
make
it
promising
solution
future
farming.
In
article,
we
discuss
multifaceted
role
robotics
modern
agriculture
exploring
both
technological
widespread
adoption.
Green
nanotechnology,
an
emerging
field,
offers
economic
and
social
benefits
while
minimizing
environmental
impact.
Nanoparticles,
pivotal
in
medicine,
pharmaceuticals,
agriculture,
are
now
sourced
from
green
plants
microorganisms,
overcoming
limitations
of
chemically
synthesized
ones.
In
these
green-made
nanoparticles
find
use
fertilizers,
insecticides,
pesticides,
fungicides.
Nanofertilizers
curtail
mineral
losses,
bolster
yields,
foster
agricultural
progress.
Their
biological
production,
preferred
for
friendliness
high
purity,
is
cost-effective
efficient.
Biosensors
aid
early
disease
detection,
ensuring
food
security
sustainable
farming
by
reducing
excessive
pesticide
use.
This
eco-friendly
approach
harnesses
natural
phytochemicals
to
boost
crop
productivity.
review
highlights
recent
strides
showcasing
how
green-synthesized
nanomaterials
elevate
quality,
combat
plant
pathogens,
manage
diseases
stress.
These
advancements
pave
the
way
production
systems
future.
Gels,
Год журнала:
2024,
Номер
10(6), С. 365 - 365
Опубликована: Май 25, 2024
Cellulose
hydrogels,
formed
either
through
physical
or
chemical
cross-linking
into
a
three-dimensional
network
from
cellulose
its
derivatives,
are
renowned
for
their
exceptional
water
absorption
capacities
and
biocompatibility.
Rising
demands
sustainable
materials
have
spurred
interest
in
attributed
to
abundant
supply,
biodegradability,
non-toxic
nature.
These
properties
highlight
extensive
potential
across
various
sectors
including
biomedicine,
the
food
industry,
environmental
protection.
hydrogels
particularly
advantageous
applications
such
as
drug
delivery,
wound
dressing,
treatment.
Recent
large-scale
studies
advanced
our
understanding
of
preparation
applications.
This
review
delves
fundamental
concepts,
techniques,
current
diverse
fields.
It
also
discusses
latest
advances
nano-lignin-based
providing
comprehensive
overview
this
promising
material
offering
insights
guidance
future
research
development.
The International Journal of Logistics Management,
Год журнала:
2024,
Номер
unknown
Опубликована: Авг. 8, 2024
Purpose
The
study
investigated
the
relationship
between
digital
supply
chain
(DSC)
and
sustainable
performance
(SSCP)
of
small
medium-sized
enterprises
(SMEs)
via
lens
integration
(SCI)
information
sharing
(IS).
This
concentrates
more
on
mediating
role
SCI
IS
in
link
DSC
SSCP
that
no
research
has
mentioned
before.
Design/methodology/approach
figures
out
how
impacts
organization
chain.
By
employing
a
carefully
designed
questionnaire
to
gather
data,
quantitative
methodology
was
employed.
Managers
at
senior
medium
levels
were
responders
who
targeted.
There
are
467
valid
replies
gathered
from
primary
survey.
data
results
used
analysis
using
partial
least
squares
structural
equation
modeling
(PLS-SEM).
Findings
findings
imply
SCI’s
function
information-sharing
process
is
crucial
as
it
fosters
cooperation,
coordination
connectivity
throughout
DSC.
Furthermore,
study’s
conclusions
offer
helpful
businesses
might
enhance
through
exchange.
Businesses
constantly
concentrating
plays
catalyst
for
growth
improving
Originality/value
highlights
gaps
unexplored
themes
existing
literature,
catalogs
published
main
logistics
journals
helps
people
recognize
appreciate
this
kind
work.
It
also
potential
contribute
future
SSCP.
Moreover,
novelty
further
reinforced
by
coverage
newfound
mechanism,
where
mediate
SSCP,
directly
positively
enhancing
Abstract
A
crucial
determining
factor
in
agricultural
productivity
is
biotic
stress.
In
addition,
supply
of
quality
food
to
the
ever-increasing
world’s
population
has
raised
demand
tremendously.
Therefore,
enhanced
crop
only
option
mitigate
these
concerns.
It
ultimately
demanded
often
and
indiscriminate
use
synthetic
agrochemicals
such
as
chemical
fertilizers,
pesticides,
insecticides,
herbicides,
etc.
for
management
various
stresses
including
a
variety
plant
pathogens.
However,
chain
biosphere
are
severely
impacted
due
harmful
their
byproducts.
Hence,
it
need
hour
search
novel,
effective
ecofriendly
approaches
plants.
Particularly,
disease
management,
efforts
being
made
take
advantage
newly
emerged
science
i.e.
nanotechnology
creation
inorganic
nanoparticles
(NPs)
metallic,
oxide,
sulphide,
through
different
routes
application
management.
Among
these,
green
nanomaterials
which
synthesized
using
environmentally
friendly
methods
materials
reported
possess
unique
properties
(such
high
surface
area,
adjustable
size
shape,
specific
functionalities)
making
them
ideal
candidates
targeted
control.
Nanotechnology
can
stop
losses
by
managing
diseases
from
soil,
plants,
hydroponic
systems.
This
review
mainly
focuses
on
biologically
produced
NPs
treatment
caused
bacteria,
viruses,
fungi.
The
utilization
synthesis
intelligent
pesticide
biomolecule
control
delivery
systems,
considered
its
pursuit
less
hazardous,
sustainable,
methods.
Crop Forage & Turfgrass Management,
Год журнала:
2025,
Номер
11(1)
Опубликована: Фев. 8, 2025
Abstract
Paddy
cultivation
plays
a
pivotal
role
in
ensuring
global
food
security,
yet
it
encounters
persistent
challenges
posed
by
diverse
pest
species.
This
comprehensive
review
delves
into
the
prevalent
types
of
attacks
paddy
fields
and
scrutinizes
efficacy
biological
control
methods,
specifically
focusing
on
botanical
pesticides.
Commencing
with
an
overview
highlighting
key
species
their
detrimental
effect
yield,
encompasses
extensive
examination
traditional
methods
alongside
limitations
associated
chemical
interventions.
Particular
emphasis
is
placed
evaluating
feasibility
pesticides
regulating
populations,
meticulously
weighing
advantages,
constraints,
future
prospects.
Ultimately,
this
study
summarizes
findings
that
highlight
effectiveness
managing
particular
pests.
The
resultant
insights
significantly
contribute
to
advancing
understanding
sustainable
management
practices
within
cultivation,
paving
way
for
informed
strategies
agricultural
sustainability.
