Global
agricultural
production
is
facing
a
lot
of
challenges.
The
current
practices
seems
to
be
incompetent
meet
the
global
food
demands.
increasing
health
and
environmental
concerns
have
also
put
forward
challenge
attaining
in
sustainable
manner.
synergistic
interactions
between
different
nanoparticles
(NPs)
Plant
Growth
Promoting
Rhizobacteria
(PGPR)
novel
way
improving
plant
its
productivity.
Different
metal
oxide
NPs
like
silver,
gold,
zinc,
titanium
dioxide,
zinc
iron
are
known
interact
with
PGPR
These
increase
functioning
microbial
partner
by
growth
promotion
traits.
co-inoculation
their
synergist
can
utilized
productivity
during
exposure
stresses
salinity
stress,
heat
drought
heavy
stress.
plant-microbe
interaction
facilitated
activate
defense
systems,
activity
antioxidant
enzymes
plants,
trigger
accumulation
protective
solutes
proline
glutathione
that
stressful
conditions.
In
addition,
this
combinatorial
approach
for
bio
fortification
plants.
Frontiers in Plant Science,
Год журнала:
2022,
Номер
13
Опубликована: Март 23, 2022
Sustainable
agricultural
production
is
critically
antagonistic
by
fluctuating
unfavorable
environmental
conditions.
The
introduction
of
mineral
elements
emerged
as
the
most
exciting
and
magical
aspect,
apart
from
novel
intervention
traditional
applied
strategies
to
defend
abiotic
stress
silicon
(Si)
has
ameliorating
impacts
regulating
diverse
functionalities
on
enhancing
growth
development
crop
plants.
Si
categorized
a
non-essential
element
since
plants
accumulate
less
during
normal
Studies
application
in
highlight
beneficial
role
extreme
stressful
conditions
through
modulation
several
metabolites
Phytohormones
are
primary
plant
positively
regulated
play
pivotal
plants'
broad-spectrum
biochemical
physiological
aspects
Frontline
phytohormones
include
auxin,
cytokinin,
ethylene,
gibberellin,
salicylic
acid,
abscisic
brassinosteroids,
jasmonic
acid.
These
internally
correlated
with
tolerance
mechanisms.
This
review
explores
insights
into
phytohormone
metabolism
its
maintaining
well-being
stresses.
Moreover,
in-depth
information
about
Si's
inducing
metabolic
molecular
modulations
elaborated.
Furthermore,
potential
various
high
throughput
technologies
also
been
discussed
improving
Si-induced
multiple
tolerance.
In
addition,
special
emphasis
engrossed
achieving
sustainable
global
food
security.
Antibiotics,
Год журнала:
2023,
Номер
12(2), С. 338 - 338
Опубликована: Фев. 6, 2023
Nanoparticles
are
recognized
due
to
their
particular
physical
and
chemical
properties,
which
conferred
size,
in
the
range
of
nanometers.
for
application
medicine,
electronics,
textile
industry,
among
others,
but
also
agriculture.
The
nanoparticles
as
nanofertilizers
biostimulants
can
help
improve
growth
crop
productivity,
it
has
therefore
been
mentioned
an
essential
tool
control
adverse
effects
abiotic
stress.
However,
have
noted
exceptional
antimicrobial
properties.
Therefore,
this
work
reviews
state
art
different
that
shown
capacity
biotic
stress
plants.
In
regard,
metal
oxide
nanoparticles,
polymeric
such
silica
described.
Moreover,
uptake
translocation
covered.
Finally,
future
remarks
about
studies
on
beneficial
role
management
made.
Frontiers in Plant Science,
Год журнала:
2023,
Номер
14
Опубликована: Сен. 4, 2023
Secondary
metabolites
synthesized
by
the
Solanaceous
plants
are
of
major
therapeutic
and
pharmaceutical
importance,
many
which
commonly
obtained
from
roots
these
plants.
'Hairy
roots',
mirroring
same
phytochemical
pattern
corresponding
root
parent
plant
with
higher
growth
rate
productivity,
therefore
extensively
studied
as
an
effective
alternative
for
