A global analysis of the effects of forest thinning on soil N stocks and dynamics
Hongwei Xu,
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Qing Qu,
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Sha Xue
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et al.
CATENA,
Journal Year:
2024,
Volume and Issue:
246, P. 108411 - 108411
Published: Sept. 20, 2024
Language: Английский
Thinning Intensity Enhances Soil Multifunctionality and Microbial Residue Contributions to Organic Carbon Sequestration in Chinese Fir Plantations
Ting He,
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Junjie Lei,
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Yuanying Peng
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et al.
Plants,
Journal Year:
2025,
Volume and Issue:
14(4), P. 579 - 579
Published: Feb. 14, 2025
Soil
multifunctionality
is
essential
for
the
enhancement
of
soil
carbon
sequestration,
but
disturbances
such
as
thinning
practices
can
influence
microbial
activity
and
cycling.
Microbial
residues,
particularly
residue
(MRC),
are
important
contributors
to
organic
(SOC),
effects
intensity
on
MRC
accumulation
remain
poorly
understood.
This
study
evaluated
impact
four
treatments-control
(CK,
0%),
light-intensity
(LIT,
20%),
medium-intensity
(MIT,
30%),
high-intensity
(HIT,
45%)-on
in
Chinese
fir
plantations
five
years
after
thinning.
nutrient
provision,
biomass,
enzyme
activity,
were
assessed.
The
results
showed
that
significantly
affected
provision
with
MIT
HIT
showing
higher
levels
than
CK
LIT.
Specifically,
MIT's
HIT's
total
increased
by
0.04
0.15
compared
CK.
Enzyme
was
highest
LIT
(+0.89),
followed
(+0.07),
a
decline
(-0.84).
including
bacterial
PLFAs
(B-PLFAs),
fungal
(F-PLFAs),
biomass
(MBC),
nitrogen
(MBN),
MIT,
lowest
HIT,
0.13
increase
(MRC)
positively
correlated
(TN),
available
(AN),
easily
oxidized
(EOC).
content
0-20
cm
layer
observed
(10.46
11.66
g/kg,
respectively),
while
lower,
reduced
24%
12%,
respectively.
These
findings
highlight
significant
role
Medium-intensity
30%)
identified
most
effective
approach
promoting
enhancing
cycling
forest
soils,
making
it
an
optimal
management
aimed
at
increasing
sequestration.
Language: Английский
Straw Biochar Improves Saline-Alkali Tolerant Rice Yield by Regulating Ammonia-Oxidizing Microorganisms and Physicochemical Properties of Subtropical Saline Soils in South China
Weilong Wu,
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Zhen Zhen,
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Yang Guiqiong
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et al.
Published: Jan. 1, 2025
Language: Английский
Straw biochar improves rice yield by regulating ammonia-oxidizing microorganisms and physicochemical properties of subtropical saline soils by a pot study
Weilong Wu,
No information about this author
Zhen Zhen,
No information about this author
Guiqiong Yang
No information about this author
et al.
Environmental Technology & Innovation,
Journal Year:
2025,
Volume and Issue:
unknown, P. 104204 - 104204
Published: April 1, 2025
Language: Английский