Agronomy,
Год журнала:
2025,
Номер
15(2), С. 459 - 459
Опубликована: Фев. 13, 2025
Nitrogen
(N)
fertilizer
incorporation
of
efficiency
enhancer
is
a
well-established
practice
aiming
at
reducing
N
loss
while
enhancing
crop
yield.
However,
the
effect
different
kinds
on
use
(NUE)
and
gas
are
rarely
compared
poorly
comprehended.
Here,
we
conducted
field
experiment
involving
combination
urease
nitrification
inhibitor
(NI),
biological
eugenol
(DE)
bioploymer
poly-glutamic
acid
(PG)
their
combinations
(NI
+
PG,
NI
DE,
PG
DE)
to
evaluate
effects
yield,
NUE,
NH3
volatilization
greenhouse
emissions
(GHGs).
Results
indicated
that
NI,
significantly
enhanced
uptake
NUE.
DE
all
effective
in
N2O
emission,
averagely
decreased
by
11.13%,
6.83%,
8.29%,
respectively,
11.15%,
4.32%,
8.35%,
have
no
significant
CO2-C
CH4-C
fluxes,
except
increases
emission
thus
global
warming
potential.
The
these
three
enhancers
has
multiply
maize
NUE
loss.
These
findings
help
screen
can
be
more
effectively
utilized
agricultural
practices
contribute
application
strategies
within
systems.
Renewable and Sustainable Energy Reviews,
Год журнала:
2023,
Номер
181, С. 113322 - 113322
Опубликована: Май 4, 2023
Despite
having
relatively
low
greenhouse
gas
(GHG)
emissions
compared
to
other
terrestrial
animal
protein
sources,
egg
production
is
among
the
fastest-growing
livestock
sectors
and
hence
faces
mounting
pressure
reduce
potential
climate
impacts.
This
includes
both
regulatory
market-based
initiatives,
as
evidenced
by
increasing
number
of
private
public
sector
actors
adopting
a
formal
net-zero
objective.
The
current
review
identifies
available
technologies
management
strategies
for
reducing
GHG
in
industrial
sector,
taking
into
account
environmental
technical
feasibility
criteria.
emission
reduction
potentials
market-ready
options
are
identified
used
derive
an
overall
estimation
based
on
Greenhouse
Gas
Protocol's
three
scopes
drawing,
particular,
recent
research
Canadian
industry.
Priority
areas
support
continued
identified.
Widespread
implementation
could
Scope
1
2
zero
short
medium
term.
3
be
reduced
between
23
95%
without
offsetting.
Important
further
include
evaluation
related
feed
(i.e.
conservation
tillage
use
NIs
UIs),
least
cost
formulation
delivery
precision
feeding
individual
birds),
well
pathways
carbon
sequestration
industry
(e.g.
via
manure
pyrolysis)
offset
residual
emissions.
Agronomy,
Год журнала:
2025,
Номер
15(2), С. 459 - 459
Опубликована: Фев. 13, 2025
Nitrogen
(N)
fertilizer
incorporation
of
efficiency
enhancer
is
a
well-established
practice
aiming
at
reducing
N
loss
while
enhancing
crop
yield.
However,
the
effect
different
kinds
on
use
(NUE)
and
gas
are
rarely
compared
poorly
comprehended.
Here,
we
conducted
field
experiment
involving
combination
urease
nitrification
inhibitor
(NI),
biological
eugenol
(DE)
bioploymer
poly-glutamic
acid
(PG)
their
combinations
(NI
+
PG,
NI
DE,
PG
DE)
to
evaluate
effects
yield,
NUE,
NH3
volatilization
greenhouse
emissions
(GHGs).
Results
indicated
that
NI,
significantly
enhanced
uptake
NUE.
DE
all
effective
in
N2O
emission,
averagely
decreased
by
11.13%,
6.83%,
8.29%,
respectively,
11.15%,
4.32%,
8.35%,
have
no
significant
CO2-C
CH4-C
fluxes,
except
increases
emission
thus
global
warming
potential.
The
these
three
enhancers
has
multiply
maize
NUE
loss.
These
findings
help
screen
can
be
more
effectively
utilized
agricultural
practices
contribute
application
strategies
within
systems.
