Horticulturae,
Год журнала:
2024,
Номер
10(10), С. 1083 - 1083
Опубликована: Окт. 9, 2024
The
three-amino-loop-extension
(TALE)
family
involves
key
transcription
factors
vital
for
maintaining
different
aspects
of
growth
including
leaf,
flower,
and
fruit
development
responses
to
stressful
stimulus.
Thus
far,
a
deep
understanding
the
TALE
gene
in
wax
gourd
subjected
low
calcium
magnesium
stress
has
been
missing.
Here,
we
isolated
24
BhTALE
genes
from
genome
database.
Comprehensive
bioinformatic
analysis,
evolutionary
tree,
structures,
conserved
motifs,
chemical
properties,
provide
structural
functional
insights
into
family.
Gene
ontology
(GO)
analysis
unveils
their
involvement
responses.
Promoter
indicates
that
hormones
stresses
can
influence
expression
genes.
Tissue-specific
under
showed
were
more
active
leaves
roots.
Notably,
BhTALE7,
BhTALE10,
BhTALE14
expressed
differentially
applications.
Similarly,
induced
pattern
BhTALE4
was
recorded
roots
Our
findings
underscore
pivotal
role
dealing
with
gourd.
International Journal of Molecular Sciences,
Год журнала:
2025,
Номер
26(4), С. 1780 - 1780
Опубликована: Фев. 19, 2025
Plants
are
constantly
exposed
to
abiotic
and
biotic
stresses
that
seriously
affect
crop
yield
quality.
A
coordinated
regulation
of
plant
responses
combined
abiotic/biotic
requires
crosstalk
between
signaling
pathways
initiated
by
each
stressor.
Interconnected
further
finetune
stress
allow
the
respond
such
effectively.
The
nutritional
status
might
influence
disease
resistance
strengthening
or
weakening
immune
responses,
as
well
through
modulation
pathogenicity
program
in
pathogen.
Here,
we
discuss
advances
our
understanding
interactions
nutrient
stress,
deficiency
excess,
context
current
agricultural
practices.
introduction
chemical
fertilizers
pesticides
was
a
major
component
Green
Revolution
1960s
greatly
boosted
production.
However,
massive
application
agrochemicals
also
has
adverse
consequences
on
environment
animal/human
health.
Therefore,
an
in-depth
connections
caused
overfertilization
(or
low
bioavailability
nutrients)
is
timely
novel
field
research
with
important
implications
for
control
species.
Optimizing
management
practices
tailored
specific
environmental
conditions
will
be
crucial
maximizing
production
using
environmentally
friendly
systems.
Plants,
Год журнала:
2025,
Номер
14(5), С. 712 - 712
Опубликована: Фев. 26, 2025
Organic
farming
is
an
environmentally
friendly
management
practice
that
excludes
the
use
of
synthetic
inputs,
but
at
same
time
associated
with
lower
yields
than
conventional
production.
In
attempt
to
compensate
for
yield
reduction,
resulting
from
foregoing
fertilizers,
we
hypothesized
biostimulant
products
could
provide
much-desired
food
security.
light
this,
a
greenhouse
experiment
was
conducted
compare
and
evaluate
effects
foliar
application
three
different
non-microbial
biostimulants
(a
seaweed
extract,
plant
protein
hydrolysate,
extract)
on
yield,
mineral
profile,
physiological
response
strawberry
(Fragaria
×
ananassa
Duch.)
grown
in
organic
context.
Regardless
type
biostimulant,
treated
plants
showed
significant
improvement
photosynthetic
performance.
Specifically,
plant-derived
hydrolysate
increased
ACO2
by
34.5%
compared
control.
Despite
only
significantly
fruit
per
unit
area
(+13.5%).
The
improved
performance
overall
profile
(compared
control
+49.4
33.0%
NO3−
Mg2+
concentration,
respectively).
contrast,
(+17.4%)
antioxidant
activity
(DPPH)
plants.
These
results
underscore
how
diverse
origins
are
responsible
specific
responses
crops
can
be
exploited
growers
increase
productivity.
International Journal of Molecular Sciences,
Год журнала:
2024,
Номер
25(19), С. 10318 - 10318
Опубликована: Сен. 25, 2024
Soil
acidity
is
a
divesting
factor
that
restricts
crop
growth
and
productivity.
Conversely,
silicon
nanomaterials
(Si-NMs)
have
been
praised
as
blessing
of
modern
agricultural
intensification
by
overcoming
the
ecological
barrier.
Here,
we
performed
sequential
study
from
seed
germination
to
yield
performance
mustard
(Brassica
campestris)
crops
under
acid-stressed
conditions.
The
results
showed
Si-NMs
significantly
improved
seedling
acid
stress
situations.
These
might
be
associated
with
increased
antioxidant
activity
preserve
ratio
GSH/GSSG
AsA/DHA,
which
restricted
soil
acidity.
Moreover,
in
field
regimes
diminished
acid-stress-induced
inhibitions,
evidenced
net
photosynthesis
biomass
accumulations.
Again,
triggered
all
critical
metrics
productivity,
including
oil
content.
Additionally,
Si-NMs,
upon
dolomite
supplementation,
further
yields
related
farming
resilience.
Therefore,
present
highlighted
crucial
roles
sustainable
expansion
cropping
intensification,
especially
areas
affected
Journal of Experimental Biology and Agricultural Sciences,
Год журнала:
2024,
Номер
12(4), С. 573 - 587
Опубликована: Сен. 25, 2024
Soil
pH
is
crucial
to
soil
health,
influencing
nutrient
availability,
microbial
activity,
and
plant
growth.
This
review
aims
assess
the
adaptability
of
under
changing
conditions
by
analyzing
natural
human
factors.
Information
was
gathered
from
various
sources,
including
peer-reviewed
articles,
field
studies,
recent
advances
in
science.
The
study
explores
how
factors
such
as
parent
material,
climate,
vegetation
establish
baseline
pH,
while
activities
intensive
farming
land-use
changes
further
modify
it,
often
leading
acidification
or
alkalinization.
Traditional
management
methods
like
lime
application,
organic
amendments,
crop
rotation
are
reviewed
for
their
effectiveness
stabilizing
limitations
varying
conditions.
also
modern
technological
innovations
precision
agriculture,
which
uses
sensors
variable
rate
technology
targeted
management,
biological
approaches,
inoculants,
enhance
cycling
matter
decomposition.
Integrating
these
traditional
contemporary
approaches
essential
sustainable
long-term
productivity.
findings
highlight
need
a
holistic
approach
that
combines
historical
knowledge
with
emerging
technologies
promote
agricultural
practices
environmental
conservation.
Frontiers in Plant Science,
Год журнала:
2024,
Номер
15
Опубликована: Ноя. 27, 2024
The
imbalanced
fertilization
and
the
consequential
deterioration
on
rhizosphere
microbial
community
(RMC)
were
two
potential
reasons
for
quick
yielding
degradation
of
