Agriculture,
Год журнала:
2024,
Номер
14(7), С. 1133 - 1133
Опубликована: Июль 12, 2024
Carbon
sequestration
by
photosynthetic
organisms
is
the
principal
mechanism
for
absorption
of
atmospheric
CO2.
Since
1950s,
however,
global
carbon
cycle
has
been
distorted
as
increased
anthropogenic
CO2
emissions
have
greatly
outstripped
rates
sequestration,
with
a
50%
increase
in
levels
less
than
century,
leading
to
perturbation
climate
systems
and
threatening
food
production
social
stability.
In
order
address
current
imbalance
flux,
it
important
both
reduce
net
promote
sequestration.
To
latter
issue,
we
need
better
understand
roles
systems,
such
natural
forests,
coastal
wetlands,
tropical
croplands,
devise
strategies
facilitate
uptake.
trees
crops
already
removes
excess
1000
million
tonnes
annually
but
threatened
activities
deforestation
drainage
carbon-rich
peatland.
Improvements
can
be
achieved
policies
growing
part
agroforestry
enforcing
limitations
on
use
peatland,
auditing
impact
major
cropping
focus
those
that
deliver
high
yields
efficiency.
As
an
initial
step
this
process,
detailed
case
study
presented
tree
crop,
African
oil
palm,
Elaeis
guineensis.
This
analysis
includes
comparison
potential
palm
forests
other
crops,
biomass
future
aimed
at
achieving
net-zero
targets
related
crops.
Advances in environmental engineering and green technologies book series,
Год журнала:
2025,
Номер
unknown, С. 1 - 28
Опубликована: Фев. 28, 2025
The
growth
of
agricultural
areas
through
monotonous
approaches
has
expanded
due
to
the
substantial
market
for
agricultural-based
goods.
Agroforestry
is
a
mixed-purpose,
resilient
land-use
strategy,
one
popular
and
well
recognized
environmentally
conscious
food
systems
in
world.
It
might
lower
financial
shortage,
insecurity,
give
means
livelihood,
maintain
natural
functions.
Proficiency
agriculture,
careful
species
selection,
efficient
management
trees
crops
are
necessary
optimize
systemic
yield
positive
effects
while
minimizing
negative
competition
effects.
Because
agroforestry
diversify
their
intake
output,
they
socially
ecologically
acceptable
as
commercially
viable,
making
them
valuable
alternative
monoculture
systems.
This
chapter
would
assist
integrating
indigenous
people
with
other
sectors
promoting
sustainable
method
suitable
addressing
actual
demands
community.
Plants,
Год журнала:
2023,
Номер
12(13), С. 2451 - 2451
Опубликована: Июнь 26, 2023
Agroforest
systems
have
been
widely
recognized
as
an
integrated
approach
to
sustainable
land
use
for
addressing
the
climate
change
problem
because
of
their
greater
potential
sequester
atmospheric
CO2
with
multiple
economic
and
ecological
benefits.
However,
nature
extent
effects
age-sequence
agroforestry
on
carbon
(C)
storage
remain
largely
unknown.
To
reveal
influence
different
aged
poplar-crop
C
stocks,
we
investigated
variation
in
biomass
under
four
agroforest
(3-,
9-,
13-,
17-year-old)
Henan
province
China.
The
results
showed
that
stand
increased
forest
age,
ranging
from
26.9
121.6
t/ha
corresponding
systems.
poplar
tree
accounted
>80%
total
these
systems,
except
3-year-old
system.
average
productivity
peaked
a
9-year-old
system
(11.8
t/ha/yr),
next
was
13-
17-year-old
minimum
found
stands
(4.8
t/ha/yr).
stocks
increased,
aging
99.7
189.2
studied
proportion
about
6,
25,
69%
crop,
tree,
soil
components
all
ecosystems,
respectively.
Our
suggested
system,
especially
productive
mature
stages,
is
quite
effective
model
increase
study
site's
production
stocks.
This
highlighted
importance
storage.
It
recommended
ecosystems
viable
option
mitigation
central
region
Trees Forests and People,
Год журнала:
2024,
Номер
17, С. 100640 - 100640
Опубликована: Июль 30, 2024
Agroforestry
systems
play
a
dynamic
role
in
sequestering
atmospheric
carbon
to
keep
the
environment
safe
and
provide
various
benefits
such
as
food,
fodder,
fuel
wood,
increased
farm
income,
biodiversity
maintenance,
soil
conservation.
The
present
study
assessed
agroforestry's
status,
services,
climate
change
mitigation
through
sequestration
three
districts
of
Punjab,
Pakistan:
Chiniot,
Faisalabad,
Sargodha.
In
current
study,
administrative
geographical
division,
which
is
village,
union
council,
Tehsil,
district,
was
considered
for
sampling.
Field
visits
were
carried
out
175
rural
councils
14
Tehsils
selected
collect
socio-economic
data
validated
questionnaires
tree
inventory
estimate
stocks.
Research
results
revealed
that
most
respondents
area
middle-aged,
had
about
8–10
years
education,
less
than
5
hectares
landholding.
Nearly
34
%
36
farmers
earned
359.59
1438.37
USD
annually,
with
farming
major
income
source.
Linear
planting
dominant
form
agroforestry,
P.
deltoides,
D.
sissoo,
E.
camaldulensis
being
species.
number
trees
ha-1
19–25,
while
potential
could
be
57–72
area.
Across
tehsils
districts,
maximum
total
stock
(8.97
Mg
ha-1)
CO2
(32.21
estimated
Tehsil
Lalian
district
Chiniot
lowest
(1.82
(7.34
Faisalabad
Faisalabad.
this
highlight
eco-friendly
advantages
agroforestry
can
used
improve
approvals
strategies
on
selection
management
species,
along
land
use
designing
effective
projects
Pakistan.
Advances in environmental engineering and green technologies book series,
Год журнала:
2024,
Номер
unknown, С. 63 - 90
Опубликована: Ноя. 1, 2024
The
GreenTech
revolution
is
reshaping
the
global
landscape,
offering
innovative
solutions
to
pressing
environmental
challenges
of
our
time.
This
chapter
explores
concept
Green
Technology
(GreenTech),
tracing
its
historical
evolution
and
highlighting
key
sectors
applications.
encompasses
a
wide
array
technologies
practices
aimed
at
reducing
impact,
conserving
natural
resources,
promoting
sustainability
across
various
industries,
including
energy,
transportation,
agriculture,
waste
management.
Despite
transformative
potential,
widespread
adoption
faces
significant
challenges,
technological
barriers,
financial
constraints,
regulatory
complexities,
societal
resistance.
These
obstacles,
however,
also
present
opportunities
for
innovation,
market
growth,
collaboration.
examines
these
opportunities,
emphasizing
role
advancements,
emerging
markets,
strategic
partnerships
in
driving
forward.
Abstract
Agroforestry
is
an
alternative
land
use
practice
that
holds
promise
for
societal
benefits
and
the
attainment
of
ecosystem
sustainability.
The
objectives
this
study
were
to
evaluate
tree
diversity,
carbon
sequestration,
soil
pool,
oxygen
production
rice
productivity
under
traditional
agroforestry
systems
at
different
elevations
in
Garhwal
Himalayan
region
India.
Tree
sequestration
quantified
by
field
measurements
(using
0.04
ha
quadrats)
subsequent
calculations.
Rice
was
assessed
using
grain
yield,
straw
yield
biological
while
properties
analyzed
laboratory
standard
methods.
Results
showed
diversity
higher
1200–1600
m
elevation
had
a
maximum
Shannon
Diversity
Index
(1.29)
Simpson
(0.69).
1600–2000
stored
more
(34.43
Mg
−1
)
total
(91.79
).
Among
trees,
Quercus
leucotrichophora
,
Melia
azedarach
Prunus
cerasoides
highest
storage
production.
Elevation
depth
found
affect
properties.
organic
lower
bulk
density
than
sole
cropping
systems.
Compared
system,
monoculture
produced
(
Oryza
sativa
shows
valuable
tool
improvement,
albeit
with
potential
compromises
crop
productivity.
It
emphasises
need
tailored
management
approaches
harness
ecological
environmental
Himalayas.
This
draws
attention
Himalaya
climate
change
mitigation
quality
improvement
which
provides
reference
striking
balance
between
advantages
socio-economic
considerations
local
communities.
However,
it
also
underlines
importance
considering
trade-offs
yields
when
implementing
such
Graphical
BIO Web of Conferences,
Год журнала:
2025,
Номер
155, С. 01021 - 01021
Опубликована: Янв. 1, 2025
Some
issues
that
will
threaten
agriculture
now
and
in
the
future
are
declining
productivity
increased
risks
due
to
climate
change.
However,
agroforestry,
organic
waste
fertilizers,
mulching
promising
ways
address
these
challenges.
They
offer
approaches
increase
improve
land
adaptability
extremes.
This
review
explores
integration
of
fertilizer
from
local
systems
as
strategies
soybean
while
ensuring
sustainability.
Agroforestry
reduced
soil
erosion
by
50%
carbon
stocks
26-34%
at
various
depths.
Organic
fertilizers
combined
with
inorganic
inputs
yields
12.8-32.5%,
further
38.6-44.2%.
These
practices
health,
reduce
reliance
on
chemical
provide
ecosystem
services
support
adaptation
mitigation
for
combination
is
expected
production
meet
global
demand.
adoption
remains
limited
economic
technical
constraints,
particularly
among
smallholder
farmers.
Future
studies
should
cost-effective
solutions
identify
optimal
zones
implementation.
