Spain Germplasm Bank of Annual Forage Legumes Seeds at the Scientific and Technological Research Center of Extremadura (CICYTEX)
Francisco Antonio Galea-Gragera,
Fernando Llera Cid
Опубликована: Янв. 1, 2025
Язык: Английский
Supplementary Calcium Overcomes Nocturnal Chilling‐Induced Carbon Source‐Sink Limitations of Cyclic Electron Transport in Peanuts
Di Wu,
Siwei Zhang,
Chunming Bai
и другие.
Plant Cell & Environment,
Год журнала:
2025,
Номер
unknown
Опубликована: Март 30, 2025
ABSTRACT
‘Calcium
(Ca
2+
)
priming’
is
an
effective
strategy
to
restore
efficient
carbon
assimilation
with
undergoing
unfavourable
cold
stress
(day/night:
25°C/8°C).
However,
it
unclear
how
exogenous
calcium
strengthens
the
cyclic
electron
transfer
(CET)
attain
optimal
flux.
To
assess
nutrient
fortification
role
of
Ca
(15
mM)
in
facilitating
this
process
for
peanuts,
we
added
antimycin
(AA,
100
μM)
and
rotenone
(R,
as
specific
inhibitors.
Our
results
revealed
that
inhibiting
CET
caused
a
negative
effect
on
photosynthesis.
The
treatment
accelerated
turnover
non‐structural
carbohydrates,
linear
carriers
while
balancing
photosystem
I
(PSI)
bilateral
redox
potential.
also
strengthened
PROTON
GRADIENT
REGULATION5
(PGR5)/PGR5‐LIKE
PHOTOSYNTHETIC
PHENOTYPE1
(PGRL1)
NADH
dehydrogenase‐like
(NDH)‐mediated
CET,
plausible
crosstalk
between
thioredoxin
(Trx)
system
signalling,
regulate
chloroplast
homoeostasis.
Specifically,
PGR5/PGRL1‐mediated
by
providing
sufficient
ATP
adequate
photoprotection
during
long‐term
exposure;
NDH‐mediated
served
alleviate
limitations
PSI
acceptor
side
translocating
protons.
This
study
demonstrated
effectiveness
harnessing
supply,
form
foliar
‐based
sprays
strengthen
eco‐physiological
resilience
peanuts
against
stress.
Язык: Английский
Health Benefits and Functional Properties of Ciceritol, a Novel Prebiotic Derived from Chickpeas
Journal of Agriculture and Food Research,
Год журнала:
2025,
Номер
unknown, С. 101926 - 101926
Опубликована: Апрель 1, 2025
Язык: Английский
The role of legume roots in carbon sequestration, soil health enhancement, and salinity mitigation under climate change: A comprehensive review
Soil and Tillage Research,
Год журнала:
2025,
Номер
253, С. 106656 - 106656
Опубликована: Май 14, 2025
Язык: Английский
Predicting Field Effectiveness of Endophytic Bacillus subtilis Inoculants for Common Bean Using Morphometric and Biochemical Markers
Plants,
Год журнала:
2024,
Номер
13(13), С. 1769 - 1769
Опубликована: Июнь 26, 2024
According
to
four
field
experiments,
after
the
inoculation
of
Phaseolus
vulgaris
L.
cultivar
Ufimskaya
with
commercial
strain
Bacillus
subtilis
26D
and
promising
B.
10-4,
it
was
found
that
10-4
improved
seed
productivity
(SP)
by
31-41%
per
plant,
but
only
in
dry
years.
In
contrast,
all
4
years
were
ineffective
or
neutral.
It
intended
determine
growing
biochemical
characteristics
inoculated
7-day-old
plants,
which
correlate
SP
bacterial
preparations.
The
plants
(average
years)
correlated
root
length
(0.83),
MDA
content
(-0.98),
catalase
(CAT)
activity
roots
(-0.96)
week-old
seedlings.
High
correlation
coefficients
between
H2O2
(0.89
0.77),
as
well
shoots
(0.98
0.56),
observed
two
years,
when
influence
bacteria
detected.
These
physiological
indicators
identified
potential
markers
for
predicting
effectiveness
endophytic
symbiosis
bean
strains.
findings
may
be
used
develop
effective
microbial-based,
eco-friendly
technologies
production.
Язык: Английский
Nutritional value and environmental footprint of muffins made with green-lentil flour
Journal of Cleaner Production,
Год журнала:
2024,
Номер
unknown, С. 143826 - 143826
Опубликована: Сен. 1, 2024
Язык: Английский
Linking production, processing, and consumption of plant-based protein alternatives in Europe
Global Environmental Change,
Год журнала:
2024,
Номер
89, С. 102940 - 102940
Опубликована: Окт. 10, 2024
Язык: Английский
Assessing the efficacy of natural soil biotin on soil quality, microbial diversity, and Rhododendron simsii growth for sustainable landscape architecture
Frontiers in Microbiology,
Год журнала:
2024,
Номер
15
Опубликована: Авг. 7, 2024
Fertilization
significantly
influences
soil
quality
and
its
sustainable
use
in
urban
garden
maintenance.
The
widespread
application
of
inorganic
fertilizers
has
raised
ecological
concerns
due
to
their
potential
environmental
impacts.
Organic
fertilizers,
while
beneficial,
often
have
slow
effects
are
costly.
Biofertilizers,
with
eco-friendly
nature
low
carbon
footprint,
gaining
attention
for
multifaceted
role
supporting
plant
growth.
Despite
the
focus
on
fruit
trees,
vegetables,
medicinal
plants,
ornamental
plants
been
understudied.
This
study
aims
evaluate
efficacy
a
novel
microbial
fertilizer,
'natural
biotin',
Rhododendron
specifically
Azalea
hybrid
'Carnation'.
employed
comparative
approach
assess
impact
different
fertilization
strategies
properties,
diversity,
enzyme
activity,
morphology,
physiological
parameters.
biotin'
was
compared
organic
fertilizers.
combined
found
effectively
enhance
properties
mitigate
other
pH.
It
also
improved
relative
abundance
beneficial
groups
such
as
Proteobacteria,
Ascomycota,
Basidiomycota.
Furthermore,
mixed
increased
activities
urease
sucrase
which
promoted
growth,
development,
stress
resistance.
results
indicate
that
not
only
but
enhanced
efficiency
fertilizer
utilization.
led
economic
benefits
cultivation.
findings
contribute
foundation
improvement
restoration,
suggesting
could
be
promising
alternative
or
supplement
traditional
methods
landscape
architecture.
Язык: Английский
Effects of short-term exposure to elevated atmospheric CO2 on yield, nutritional profile, genetic regulatory pathways, and rhizosphere microbial community of common bean (Phaseolus vulgaris)
Plant and Soil,
Год журнала:
2024,
Номер
unknown
Опубликована: Дек. 3, 2024
Abstract
Aim
Legumes
are
vital
to
agroecosystems
and
human
nutrition,
yet
climate
change
is
compromising
their
nutritional
value.
This
study
aims
assess
how
a
one-month
exposure
elevated
CO
2
(eCO
)
impacts
biomass
yield,
mineral
profile,
gene
expression,
the
soil
microbiome
of
common
bean
plants
(
Phaseolus
vulgaris
L.).
Methods
L.
was
grown
in
field
conditions
under
ambient
(control,
aCO
,
400
ppm)
or
eCO
(600
pm)
from
start
pod
filling
until
plant
maturity
analyzed
for
several
morphophysiological
parameters.
Results
Compared
with
significantly
increased
grain
biomass,
fluctuations
accumulation.
Notably,
it
decreased
iron
zinc
concentrations,
two
essential
microelements
related
food
security,
by
59%
49%,
respectively.
Additionally,
phenolic
content
up
41%.
Genes
involved
uptake
(such
as
FER1
ZIP1
ZIP16
),
response
stress
TCR1
TCR2
HLH54
symbiosis
microorganisms
NRMAP7
RAM2
seemed
regulate
effects.
Microbiome
analysis
supported
these
findings,
an
increase
relative
abundance
Pseudomonadota
10%,
suggesting
-induced
alterations
microbial
community
structure.
Conclusions
research
demonstrates
quality
beans
regarding
micronutrients
content,
while
also
affecting
composition.
Highlighting
value
shorter
term
treatments,
findings
provide
early
insights
into
immediate
responses.
underscores
need
crop
improvement
strategies
address
nutrient
deficiencies
that
may
arise
future
conditions.
Язык: Английский
Development of a Spectrophotometric Flow‐Based System for the Determination of Total Polyphenol Content in Legume Flours
Phytochemical Analysis,
Год журнала:
2024,
Номер
unknown
Опубликована: Ноя. 1, 2024
ABSTRACT
Introduction
Conventional
nutritional
characterization
of
legume
flours
comprises
costly
and
laborious
analytical
methods
for
nutrient
quantification
that
establish
the
quality
seeds,
including
their
macronutrient
quantification,
fiber,
mineral,
antioxidant
content,
more.
The
total
polyphenol
content
(TPC)
in
legumes
is
performed
using
different
analytic
methods,
namely
Folin–Ciocalteu
(FC)
method,
which
lengthy
employs
potentially
toxic
reagents.
Additionally,
it
time‐consuming
prone
to
human
error
if
carried
out
a
conventional
batch
mode.
Objective
To
develop
semi‐automatic
method
faster,
greener,
more
precise
TPC
resorting
flow
injection
analysis
(FIA).
Methods
development
FIA
was
based
on
FC
method.
manifold
structured
by
performing
an
array
preliminary
studies,
led
establishment
displayed
highest
sensitivity
(highest
slope
calibration
curve).
applied
determine
various
flours.
Results
This
novel
resulted
throughput
1
per
minute,
allowing
analyze
20
samples
triplicate
within
hour,
with
LOD
4.32
mg
L
−1
,
LOQ
14.4
RSD
4.4%.
results
calculated
from
proposed
agreed
those
reference
procedure.
Conclusions
By
system,
lower
consumption
reagents
observed.
as
there
no
need
reach
chemical
equilibrium,
high
has
been
achieved,
resulting
faster
greener
determination
polyphenols
types
legumes.
Язык: Английский