A critical systematic review on spectral-based soil nutrient prediction using machine learning
Environmental Monitoring and Assessment,
Journal Year:
2024,
Volume and Issue:
196(8)
Published: July 4, 2024
Language: Английский
Geospatial prediction of total soil carbon in European agricultural land based on deep learning
The Science of The Total Environment,
Journal Year:
2023,
Volume and Issue:
912, P. 169647 - 169647
Published: Dec. 26, 2023
Language: Английский
Digital mapping of soil organic carbon in a plain area based on time-series features
Kun Yan,
No information about this author
Decai Wang,
No information about this author
Yongkang Feng
No information about this author
et al.
Ecological Indicators,
Journal Year:
2025,
Volume and Issue:
171, P. 113215 - 113215
Published: Feb. 1, 2025
Language: Английский
A partitioned conditioned Latin hypercube sampling method considering spatial heterogeneity in digital soil mapping
Scientific Reports,
Journal Year:
2025,
Volume and Issue:
15(1)
Published: April 14, 2025
The
design
of
sampling
methods
is
crucial
in
digital
soil
mapping
for
organic
carbon
(SOC),
as
it
directly
affects
prediction
precision
and
reliability.
While
based
on
environmental
variables
are
widely
used,
the
spatial
heterogeneity
properties
poses
challenges
by
introducing
variability
influential
driving
factors
across
subregions,
potentially
reducing
accuracy.
To
address
this,
a
partitioned
conditioned
Latin
hypercube
(PcLHS)
method
explicitly
considering
proposed.
PcLHS
first
employs
regionalization
with
dynamically
constrained
agglomerative
clustering
partitioning
(REDCAP)
to
partition
study
area
into
relatively
homogeneous
subregions.
Key
then
identified
using
Boruta
Variance
Inflation
Factor
method,
followed
(cLHS)
select
training
points
within
each
subregion.
Finally,
selected
combined
form
complete
dataset.
A
case
SOC
northeastern
France
demonstrated
that
consistently
outperformed
traditional
methods,
achieving
lower
root
mean
square
error
(RMSE,
0.40-0.43),
higher
coefficient
determination
(R2,
0.36-0.44),
improved
concordance
correlation
(CCC,
0.58-0.63).
Compared
other
reduced
RMSE
4-11%,
increased
R2
18-46%,
CCC
14-29%.
These
results
highlight
necessity
establish
an
effective
heterogeneous
landscapes.
Language: Английский
Soil Organic Carbon (SOC) Prediction using Super Learner Algorithm Based on the Remote Sensing Variables
Environmental Challenges,
Journal Year:
2025,
Volume and Issue:
unknown, P. 101160 - 101160
Published: April 1, 2025
Language: Английский
Spatioemporal dynamics and driving forces of soil organic carbon changes in an arid coal mining area of China investigated based on remote sensing techniques
Xuting Yang,
No information about this author
Xiao Bai,
No information about this author
Wanqiang Yao
No information about this author
et al.
Ecological Indicators,
Journal Year:
2023,
Volume and Issue:
158, P. 111453 - 111453
Published: Dec. 22, 2023
Soil
organic
carbon
(SOC)
undergoes
rapid
changes
due
to
human
production
activities,
which
have
an
impact
on
the
land
cycle
and
ultimately
global
change.
As
one
of
main
coal
mining
significantly
impacts
soil
cycle.
However,
lack
remote
sensing
modeling
in
areas,
spatio-temporal
driving
mechanisms
SOC
areas
remain
unclear.
Therefore,
this
study
investigated
determined
data
from
300
sampling
points
(depth
0–20
cm)
located
arid
area
China.
Remote
images
were
then
used
established
a
density
(SOCD)
prediction
model
within
Random
Forest
(RF)
achieve
digital
mapping
stocks
(SOCS).
The
spatiotemporal
SOCS
analyzed
using
mapping,
influencing
mechanism
was
revealed
path
analysis.
results
showed
that
constructed
SOCD
predictive
meets
demand
for
(R2
≥
0.74,
p
<
0.01,
RMSE
≤
1.72
kg/m2).
Under
combined
influence
reclamation,
total
amount
surface
exhibited
fluctuating
upward
trend
1990
(6.34
Tg)
2021
(7.73
Tg),
with
annual
growth
rate
0.038
Tg/a.
spatial
distribution
generally
increased
southeast
northwest.
Precipitation,
Normalized
Difference
Vegetation
Index
(NDVI),
use
positively
correlated
distribution,
while
temperature,
elevation,
erosion,
intensity
negatively
SOCS.
degree
factors
as
follows:
NDVI
>
erosion
precipitation
elevation
temperature.
negative
mainly
indirect,
through
disturbance
vegetation,
erosion.
uneven
ground
subsidence
stretching
caused
by
contribute
intensified
vegetation
degradation
affected
area,
leading
reduction
did
not
decrease
under
high
mining,
related
increase
area.
In
study,
based
evaluate
temporal
can
serve
valuable
references
scientific
improvement
ecological
environment
rational
planning
construction,
well
low-carbon
reclamation
compensation
assessments.
Language: Английский
Prediction of Spatial Distribution of Soil Organic Carbon in Helan Farmland Based on Different Prediction Models
Yuhan Zhang,
No information about this author
Youqi Wang,
No information about this author
Yi‐Ru Bai
No information about this author
et al.
Land,
Journal Year:
2023,
Volume and Issue:
12(11), P. 1984 - 1984
Published: Oct. 27, 2023
Soil
organic
carbon
(SOC)
is
widely
recognized
as
an
essential
indicator
of
the
quality
arable
soils
and
health
ecosystems.
In
addition,
accurate
understanding
spatial
distribution
soil
content
for
precision
digital
agriculture
important.
this
study,
in
topsoil
was
determined
using
four
common
machine
learning
methods,
namely
back-propagation
neural
network
model
(BPNN),
random
forest
algorithm
(RF),
geographically
weighted
regression
(GWR),
ordinary
Kriging
interpolation
method
(OK),
with
Helan
County
study
area.
The
prediction
accuracies
different
models
were
compared
conjunction
multiple
sources
auxiliary
variables.
BPNN
(MRE
=
0.066,
RMSE
0.257)
>
RF
0.186,
3.320)
GWR
0.193,
3.595)
OK
0.198,
4.248).
Moreover,
trends
SOC
predicted
similar:
high
western
area
low
eastern
region.
better
handled
nonlinear
relationship
between
multisource
variables
presented
finer
information
differentiation.
These
results
provide
important
theoretical
basis
data
support
to
explore
trend
content.
Language: Английский
Soil Carbon Stock Modelling in the Forest-Tundra Ecotone Using Drone-Based Lidar
Published: Jan. 1, 2024
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Language: Английский
Prediction and Mapping of Topsoil Organic Carbon Content in the Provence Coal Field, France: A Machine Learning and Deep Learning Approach
Published: Jan. 1, 2023
Soil
organic
carbon
content
(SOC)
plays
a
crucial
role
in
cycle
management
and
soil
fertility.
In
this
study,
spatial
modelling
approach
of
the
dynamics
SOC
distribution
between
2003
2022,
as
well
its
relationship
with
land
use/land
cover
(LULC)
change
Provence
coal
field
(PCF)
France,
was
carried
out
by
performing
regression
using
random
forest
(RF),
support
vector
machine
(SVM),
gradient
boosting
(GBM),
deep
neural
network
(DNN)
fed
21
predictors
data
from
162
sites.
Predictors
were
extracted
multispectral
images.
The
results
show
that
forests
contain
significantly
more
than
other
types
LULC
(average
69.3g/kg),
while
arable
has
lowest
average
(8.9g/kg).
Although
shows
certain
proportionality
cover,
soils
artificial
areas
have
relatively
high
(33.6g/kg).
correlations
suggest
LULC,
topography,
parameters
environmental
indices
are
main
factors
influencing
PCFs.
RF
model
proved
to
be
best
for
predicting
SOC.
maximum
overall
accuracy
(OA)
maps
generated
reached
(0.84)
coefficient
determination
(R2)
0.81
compared
an
OA=0.76
R2=0.83
GBM
model,
OA=0.75
R2=0.6
DNN
OA=0.71
R2=0.3
SVM.
However,
visual
point
view,
showed
better
match
reality
PCF
indicating
learning
effectively
captures
features
reducing
significant
variations.
study
provide
important
guidance
management,
which
could
prove
beneficial
mitigating
climate
through
sustainable
use
practices.
Language: Английский