Fisheries Management and Ecology,
Год журнала:
2024,
Номер
unknown
Опубликована: Ноя. 2, 2024
ABSTRACT
Fish
communities
on
artificial
reefs
have
rarely
been
monitored
over
long
periods
to
evaluate
success
of
reef
deployment.
Here,
we
used
roving
diver
surveys
assess
changes
in
fish
assemblages
a
large,
reefed
vessel
during
2008–2017.
Multivariate
analyses
revealed
dynamic
community
that
stabilized
after
5
years.
Species
richness
increased
and
species
dominance
decreased
The
shifted
toward
reef‐associated
such
as
hogfish
pufferfish.
composition
shifted,
but
trophic
structure
was
relatively
stable,
which
suggested
functional
groups
may
not
reflect
larger
shifts.
Our
results
indicate
are
temporally
long‐term
monitoring
is
needed
understand
how
assemblage
through
time.
Aquatic Conservation Marine and Freshwater Ecosystems,
Год журнала:
2025,
Номер
35(5)
Опубликована: Апрель 29, 2025
ABSTRACT
Coral
reefs
are
one
of
the
planet's
most
diverse
and
productive
ecosystems,
providing
habitat
to
a
wide
array
marine
species.
They
also
play
pivotal
role
in
coastal
protection
against
waves
storms,
granting
stability
preempting
erosion.
Regrettably,
these
environments
facing
severe
anthropogenic
threats.
This
review
presents
technological
advances
that
could
present
potential
benefit
restoration
expectations
functioning
artificial
reefs,
as
well
preservation,
through
coupling
Biorock
sea
water
electrolysis
technology
by
allowing
remote
sites
be
powered
microbial
fuel
cells.
The
recent
technologies
analysed
this
stand
out
for
having
been
previously
deployed
aquatic
environments,
with
minimal
environmental
impact.
As
result,
they
possess
enhance
energy
supply,
enable
real‐time
monitoring,
facilitate
assisted
reproduction
devices,
advance
underwater
mechatronics
contribute
areas.
By
combining
low‐impact
innovations
ecological
principles,
aligns
itself
objectives
ecoengineering,
it
seeks
innovative,
environmentally
respectful
solutions
address
challenges
conservation
ecosystems.
Research Square (Research Square),
Год журнала:
2025,
Номер
unknown
Опубликована: Май 8, 2025
Abstract
This
study
explores
the
design,
production,
and
installation
of
3D-printed
modular
artificial
reefs
(3DMARs)
at
Koh
Khai,
Chumphon
Province,
Thailand,
through
a
design
thinking
framework.
Collaborating
with
SCG
Co.,
Ltd.
Department
Marine
Coastal
Resources,
research
establishes
criteria
methods,
utilizing
content
analysis
qualitative
research.
Key
principles
such
as
modularity,
flexibility,
environmental
sustainability,
usability
are
identified.
The
user-centered
approach
optimizes
3DMARs
for
transport
deployment,
enabling
local
community
involvement
fostering
sustainable
practices.
supports
scalability,
enhancing
marine
habitats
coral
larval
settlement.
Furthermore,
underwater
monitoring
techniques
enable
site-specific
data
collection,
allowing
generation
digital
twin
models.
offers
practical
framework
ecosystem
restoration
empowers
coastal
communities
in
Thailand
beyond.
Biology,
Год журнала:
2025,
Номер
14(6), С. 644 - 644
Опубликована: Июнь 2, 2025
The
aims
of
this
study
were
to
analyze
the
preferences
rocky
reef
fish
for
different
types
artificial
reefs
and
determine
distances
between
that
lead
production
independent
effects.
In
study,
aggregation
behavior
juvenile
Lutjanus
erythropterus
was
observed
under
spacings
(0.5
L
(distances
0.5
times
length),
1.0
L,
1.5
2.0
2.5
3.0
L).
results
revealed
when
distance
presented
frequent
between-reef
activity,
their
attraction
significant.
When
or
number
appeared
significantly
differ
areas.
farther
from
relatively
low,
value
tended
plateau.
two
had
a
combined
effect
whereas
effects
L.
addition,
at
which
effects,
preference
investigated,
four
(room-shaped
reef,
RAR;
lobe-shaped
LAR;
cubic
CAR;
stacked
SAR)
placed
in
an
experimental
tank
same
time.
showed
experiments
where
models
present,
preferred
reef.
At
exhibited
strongest
reefing
stayed
longest
This
reveals
behaviors
various
models,
providing
theoretical
basis
reference
design
selection
habitats
related
species
marine
pastures.
Journal of Marine Science and Engineering,
Год журнала:
2024,
Номер
12(1), С. 169 - 169
Опубликована: Янв. 16, 2024
Suitable
colonization
materials
are
a
pursued
target
in
marine
restoration
programs.
Known
for
making
nutrients
available
while
reducing
pollutants
and
the
risk
of
pathogens
terrestrial
ecosystems,
Biochar
Bioferment
organic
origin
were
tested
during
two-year
experiment.
We
efficacy
these
purposes
through
experimental
concrete
tiles
treated
with
(B)
(F)
made
concrete,
which
used
as
controls
(Ct)
organisms
protected
area
Porto
Cesareo,
Southern
Italy
(20
m
depth).
Tiles
monitored
photographs
from
October
2019
to
September
2021.
Initially,
treatment
presented
higher
percentage
total
benthic
cover
(81.23
±
2.76,
median
SE),
differing
control
(45.65
5.43
47.95
3.69,
respectively).
Significant
interaction
between
treatments
times
suggests
changes
community
structure
related
Polychaeta
increase
second
monitoring
time.
Furthermore,
underwater
instability
on
could
explain
similarity
organisms’
covers.
Hence,
is
shown
be
material
optimal
stability
seawater,
demonstrating
greater
capacity
less
time
compared
other
two
materials.
