Application of Remote Sensing for Identifying Soil Erosion Processes on a Regional Scale: An Innovative Approach to Enhance the Erosion Potential Model
Remote Sensing,
Journal Year:
2024,
Volume and Issue:
16(13), P. 2390 - 2390
Published: June 28, 2024
Soil
erosion
represents
a
complex
ecological
issue
that
is
present
on
global
level,
with
negative
consequences
for
environmental
quality,
the
conservation
and
availability
of
natural
resources,
population
safety,
material
security,
both
in
rural
urban
areas.
To
mitigate
harmful
effects
soil
erosion,
map
can
be
created.
Broadly
applied
Balkan
Peninsula
region
(Serbia,
Bosnia
Herzegovina,
Croatia,
Slovenia,
Montenegro,
North
Macedonia,
Romania,
Bulgaria,
Greece),
Erosion
Potential
Method
(EPM)
an
empirical
model
widely
process
creating
maps.
In
this
study,
innovation
identification
mapping
processes
was
made,
coefficient
types
extent
slumps
(φ),
representing
one
most
sensitive
parameters
EPM.
The
(φ)
consisted
applying
remote
sensing
methods
satellite
images
from
Landsat
mission.
research
area
which
were
obtained
thematic
maps
(coefficient
φ)
created
Federation
Herzegovina
Brčko
District
(situated
Herzegovina).
Google
Earth
Engine
(GEE)
platform
employed
to
retrieve
7
Enhanced
Thematic
Mapper
plus
(ETM+)
8
Operational
Land
Imager
Thermal
Infrared
Sensor
(OLI/TIRS)
imagery
over
period
ten
years
(from
1
January
2010
31
December
2020).
performed
based
Bare
Index
(BSI)
by
equation
fractional
bare
cover.
spatial–temporal
distribution
cover
enabled
definition
values
field.
An
accuracy
assessment
conducted
190
reference
samples
field
using
confusion
matrix,
overall
(OA),
user
(UA),
producer
(PA),
Kappa
statistic.
Using
OA
85.79%
obtained,
while
UA
ranged
33%
100%,
PA
50%
100%.
Applying
statistic,
0.82
indicating
high
level
accuracy.
time
series
multispectral
each
month
crucial
element
monitoring
occurrence
various
(surface,
mixed,
deep)
Additionally,
it
contributes
significantly
decision-making,
strategies,
plans
domain
control
work,
development
identifying
erosion-prone
areas,
defense
against
torrential
floods,
creation
at
local,
regional,
national
levels.
Language: Английский
Assessing the Temporal Changes in Alpine Hillslopes Prone to Erosion
Lecture notes in civil engineering,
Journal Year:
2025,
Volume and Issue:
unknown, P. 74 - 82
Published: Jan. 1, 2025
Language: Английский
UAV-Based Soil Water Erosion Monitoring: Current Status and Trends
Drones,
Journal Year:
2025,
Volume and Issue:
9(4), P. 305 - 305
Published: April 14, 2025
Soil
erosion
affects
land
productivity,
water
quality,
and
ecosystem
resilience.
Traditional
monitoring
methods
are
often
time-consuming,
labor-intensive,
resource-demanding,
while
unmanned
aerial
vehicles
(UAVs)
provide
high-resolution,
near-real-time
data,
improving
accuracy.
This
study
conducts
a
bibliometric
analysis
of
UAV-based
soil
research
to
explore
trends,
technologies,
challenges.
A
systematic
review
Web
Science
Scopus
articles
identified
473
relevant
studies
after
filtering
for
terms
that
refer
types
erosion.
Analysis
using
R’s
bibliometrix
package
shows
is
concentrated
in
Asia,
Europe,
the
Americas,
with
304
publications
following
surge.
Multi-rotor
UAVs
RGB
sensors
most
common.
Gully
studied
form
issue,
followed
by
landslides,
rills,
interrill
piping
Significant
gaps
remain
rill
research.
The
integration
satellite
laser
surveys,
properties
limited
but
crucial.
While
challenges
such
as
data
accuracy
persist,
offer
cost-effective,
capabilities,
enabling
rapid
responses
changes.
Future
work
should
focus
on
multi-source
fusion
enhance
conservation
strategies.
Language: Английский
UTILIZAÇÃO DE SISTEMAS DE AERONAVES NÃO TRIPULADAS NA GESTÃO DE SEGURANÇA DE BARRAGENS
GEOFRONTER,
Journal Year:
2025,
Volume and Issue:
11, P. e9219 - e9219
Published: May 7, 2025
Nos
últimos
anos,
a
gestão
de
segurança
barragens
tem
sido
aprimorada
com
o
avanço
tecnológico,
os
Sistemas
Aeronaves
Não
Tripuladas,
tradução
Unmanned
Aircraft
Systems
–
UAS,
vêm
se
destacando
como
uma
solução
eficaz
e
econômica
para
monitoramento
inspeções.
A
utilização
das
UAS
permite
obtenção
dados
alta
resolução
alcance
áreas
inacessíveis
por
métodos
tradicionais,
proporcionando
maior
eficiência
precisão
nas
avaliações
estruturais
na
análise
condições
barragens.
Este
trabalho
objetivo
realizar
Revisão
Sistemática
Literatura
sobre
aplicação
barragens,
identificando
principais
uso
dessas
aeronaves
inspeção,
mapeamento,
risco.
pesquisa
examina
quais
as
tecnologias
associadas
ao
dos
visando
preventiva
sustentável
recursos
hídricos
resposta
rápida
frente
possíveis
falhas
estruturais.
O
método
PRISMA
foi
utilizado
selecionar
analisar
54
estudos
acadêmicos
partir
três
bases
dados:
Web
of
Science,
Scopus
Science
Direct.
Como
resultado,
observou-se
que
adoção
da
tecnologia
representa
um
significativo
do
risco
em
além
facilitar
acesso
remotas,
possibilitando
identificação
precoce
auxiliando
tomada
decisões
estratégicas.
Essas
vantagens
reforçam
papel
ferramentas
estratégicas
riscos
voltadas
à