Physiologia Plantarum,
Год журнала:
2024,
Номер
176(6)
Опубликована: Ноя. 1, 2024
Abstract
This
article
offers
a
comprehensive
review
of
sustainable
plant
nutrition
concepts,
examining
multitude
cutting‐edge
techniques
that
are
revolutionizing
the
modern
area.
The
copes
with
crucial
role
biostimulants
as
products
stimulate
processes,
including
their
potential
for
biofertilization,
followed
by
an
exploration
significance
micronutrients
in
health
and
growth.
We
then
delve
into
strategies
enhancing
plants'
tolerance
to
mineral
nutrient
contaminants
promising
realm
biofortification
increase
essential
nutrients
necessary
human
health.
Furthermore,
this
work
also
provides
concise
overview
burgeoning
field
nanotechnologies
fertilization,
while
integration
circular
economy
principles
underscores
importance
resource
management.
Then,
examined
interrelation
between
micronutrients.
conclude
future
challenges
opportunities
lie
ahead
pursuit
more
resilient
systems.
Plants,
Год журнала:
2025,
Номер
14(5), С. 643 - 643
Опубликована: Фев. 20, 2025
Magnesium
(Mg)
ions
play
a
crucial
role
in
the
growth
and
development
of
tea
plants
(Camellia
sinensis).
In
this
study,
ion
kinetic
method
was
used
to
analyze
effect
from
various
elements
on
Mg
uptake
rate
two
plant
varieties
(Rougui
Shuixian).
Additionally,
content
expression
intensity
CsMGT5
gene
plant’s
root
system
were
measured
further
understand
how
different
elemental
affect
accumulation.
The
results
revealed
that
while
trends
effects
similar
both
Rougui
Shuixian
roots,
magnitude
these
lower
higher
Shuixian.
presence
only
solution,
exhibited
highest
expression,
fastest
ion,
content.
Conversely,
nitrogen,
phosphorus,
potassium
alone
reduced
rate,
system.
However,
differences
impact
three
accumulation
not
statistically
significant.
addition,
with
increase
types
added
ions,
by
gradually
declined,
indicating
decreasing
demand,
showing
downward
trend.
Statistical
analysis
correlations
showed
positively
regulated
maximum
(Imax
value,
0.94
**).
Imax
value
negatively
solution
(Cmin
−0.94
**),
Cmin
(−0.95
conclusion,
significantly
influenced
plants,
intensifying
as
number
increased.
A
positive
correlation
observed
between
capacity
for
within
This
study
offers
valuable
insights
serves
an
important
reference
leveraging
regulate
practical
agricultural
applications.
Summary
Zinc
(Zn)
excess
negatively
impacts
primary
root
growth
in
Arabidopsis
thaliana
.
Yet,
the
effects
of
Zn
on
specific
processes
tip
(RT)
remain
largely
unexplored.
Transcriptomics,
ionomics,
and
metabolomics
were
used
to
examine
impact
RT
compared
with
remaining
(RR).
exposure
resulted
a
shortened
apical
meristem
elongation
zone,
differentiation
initiating
closer
root.
accumulated
at
lower
concentration
than
RR.
This
pattern
was
associated
expression
homeostasis
iron
(Fe)
deficiency
response
genes.
A
distinct
distribution
Fe
RR
highlighted
by
laser
ablation
inductively
coupled
plasma‐mass
spectrometry
analysis.
Specialized
tryptophan
(Trp)‐derived
metabolism
genes,
typically
redox
biotic
stress
responses,
specifically
upregulated
upon
excess,
among
those
Phytoalexin
Deficient
3
(
PAD3
)
encoding
last
enzyme
camalexin
synthesis.
In
roots
wild‐type
seedlings,
increased
sixfold
pad3
mutant
displayed
sensitivity
an
altered
ionome.
Our
results
indicate
that
mechanisms
are
key
elements
RT.
