Unraveling mechanisms of N₂O emissions and nitrogen cycling: The role of biochar C:N ratios in loamy and sandy soils
Applied Soil Ecology,
Journal Year:
2025,
Volume and Issue:
207, P. 105950 - 105950
Published: Feb. 11, 2025
Language: Английский
Differential Stimulation of Phosphorus-Mobilizing Bacteria by Common Bean Genotypes in Amazonian Dark Earth and Agricultural Soils with Varying Fertility Levels
Rhizosphere,
Journal Year:
2025,
Volume and Issue:
unknown, P. 101026 - 101026
Published: Feb. 1, 2025
Language: Английский
Production and Evaluation of Organic Pelleted Soil Amendments for Improving Soil Health in Intensive Cropping Systems
Chaiya Klinsukon,
No information about this author
Sophon Boonlue,
No information about this author
Suchat Juntahum
No information about this author
et al.
Published: Jan. 1, 2025
Language: Английский
Silicon enhances the growth of nickel-stressed cabbage plants by reducing oxidative damage and strengthening root architecture
International Journal of Phytoremediation,
Journal Year:
2025,
Volume and Issue:
unknown, P. 1 - 11
Published: April 21, 2025
Nickel
(Ni)
toxicity
can
disorder
plant
growth
and
development,
while
silicon
(Si)
is
important
element
in
ameliorating
heavy
metal
stress.
This
study
investigated
the
effect
of
exogenous
application
Si
(2
mM)
on
cabbage
plants
exposed
to
Ni
(0.5
mM
1
mM).
The
impacts
root
morphology,
enzymatic
activities,
proline
glycine
betaine
(GB)
accumulation,
reactive
oxygen
species
(ROS),
other
physiological
parameters
grown
under
stress
were
observed.
Exogenous
mitigated
irreversible
damage
caused
by
improving
enhancing
regulating
osmoprotectants
(proline
betaine),
modulating
ROC
(O2-
H2O2),
supporting
overall
physiology.
Furthermore,
reduced
content
67%
72%
roots
leaves,
respectively,
improved
nutrients
(Si,
N,
P,
K)
upregulation
reducing
oxidative
findings
suggest
that
foliar
2
enhance
regulate
nutrient
uptake,
play
a
crucial
role
accumulation.
primarily
attributed
its
contribution
strengthening
defense
mechanisms
against
osmoregulation,
thereby
alleviating
Ni-induced
promoting
growth.
Language: Английский
Mechanistic insights into the role of biochar C:N ratios in modulating greenhouse gas emissions and soil organic carbon fractions in contrasting soil types
Soil Science Society of America Journal,
Journal Year:
2025,
Volume and Issue:
89(3)
Published: May 1, 2025
Abstract
Role
of
varying
C:N
ratios
biochar
to
enhance
soil
health
and
impacts
across
types
remain
inadequately
understood.
Therefore,
this
study
aimed
elucidate
the
mechanisms
change
in
organic
carbon
(SOC)
fractions
greenhouse
gas
(GHG)
emissions
under
nitrogen‐enriched
(NB)
application
sandy
loamy
soil.
A
control
(CK;
without
biochar)
four
types,
including
one
pristine
(PB)
three
NB
(NB1,
NB2,
NB3),
were
applied
at
two
rates
(20
t
ha
−1
[L1]
40
[L2]).
Biochar
levels
significantly
influenced
CH₄
CO₂
emissions.
effectively
reduced
while
increased
both
types.
enhanced
SOC
pools,
which
is
primarily
attributed
mineral‐associated
particulate
soils.
β‐glucosidase,
cellobiohydrolase,
β‐xylosidase
by
NB,
particularly
a
higher
rate
(L2)
compared
CK,
with
more
pronounced
increases
Structural
equation
modeling
showed
that
SOC.
The
results
provide
valuable
insights
for
guiding
applications
reducing
improving
fertility,
potential
benefits
diverse
agroecosystems
farming
communities
worldwide.
Language: Английский