Limnology and Oceanography,
Год журнала:
2024,
Номер
69(3), С. 515 - 523
Опубликована: Янв. 9, 2024
Abstract
Feedbacks
between
sediment
and
plants
in
the
submersed
aquatic
vegetation
(SAV)
beds
of
Susquehanna
Flats
help
modulate
delivery
into
upper
Chesapeake
Bay
from
its
major
tributary
(Susquehanna
River).
Recent
modeling
work
has
shown
that
SAV
can
steer
river
plume,
directly
controlling
transport
fate.
However,
mechanisms
likely
differ
flood
non‐flood
conditions
depend
on
event
timing.
An
opportunity
to
evaluate
these
insights
field
occurred
with
several
events
summer
2018.
Sediment
biomass
samples
were
collected
after
large,
continuous
main
bed
smaller
patches
west
effect
size
(width).
characteristics
(grain
size,
organic
content)
deposition
rates
compared
previous
observations
during
2014–2015
2019.
Overall,
could
be
predicted
by
an
empirical
model
including
load,
biomass,
width,
reflecting
role
steering
River
plume
modulating
input
Bay.
Understanding
spatiotemporal
patterns
sedimentation
is
essential
for
realistic
estimates
nutrient
(especially
nitrogen
carbon)
storage
freshwater
systems,
which
have
not
received
as
much
attention
their
saltwater
counterparts.
The Science of The Total Environment,
Год журнала:
2022,
Номер
847, С. 157603 - 157603
Опубликована: Июль 25, 2022
In
this
paper
we
demonstrate
a
novel
framework
for
assessing
nature-based
solutions
(NBSs)
in
coastal
zones
using
new
suite
of
numerical
models
that
provide
virtual
"replica"
the
natural
environment.
We
design
experiments
use
Digital
Twin
strategy
to
establish
wave,
sea
level
and
current
attenuation
due
seagrass
NBSs.
This
modelling
allows
us
answer
"what
if"
scenario
questions
such
as:
(i)
are
indigenous
meadows
able
reduce
energy
storm
surges,
if
so
how?
(ii)
what
best
types
their
landscaping
optimal
wave
attenuation?
An
important
result
study
is
show
seagrasses
an
choice
does
not
directly
attenuate
but
amplitudes.
reveals
link
between
NBS
components
disruptive
potential
surges
(waves
level)
opens
up
avenues
future
studies.
Journal of Geophysical Research Earth Surface,
Год журнала:
2022,
Номер
127(9)
Опубликована: Авг. 19, 2022
Abstract
Storm
surge
has
the
potential
to
significantly
increase
suspended
sediment
flux
microtidal
marshes.
However,
overall
effects
of
storm
on
marsh
deposition
have
not
been
well
quantified,
with
most
modeling
studies
focusing
regular
(astronomical)
tidal
flooding.
Here
we
applied
Delft3D
model
a
bay‐marsh
complex
in
Hog
Bay,
Virginia
quantify
contributions
deposition.
We
validated
using
spatially
distributed
hydrodynamic
and
data
collected
from
site
ran
simulations
under
different
conditions
with/without
storm‐driven
water
level
changes.
Our
results
show
that
episodic
events
occurred
5%
time
at
our
study
site,
but
contributed
40%
during
2009–2020.
illustrate
while
wind‐driven
waves
control
resuspension
flats,
storms
was
largely
determined
by
inundation
associated
levels.
A
moderate
event
can
double
marshes
around
bay
deliver
more
interior
compared
include
wind
variations
Simulations
response
varying
magnitude
intensity
reveal
total
increased
linearly
intensity,
suggesting
future
changes
and/or
frequency
would
significant
implications
for
supply
site.
Frontiers in Earth Science,
Год журнала:
2023,
Номер
11
Опубликована: Фев. 9, 2023
Seagrass
canopies
are
important
components
of
the
world’s
coastal
environments
providing
critical
ecological
services.
Nearshore
hydrodynamics,
i.e.,
waves
and
currents,
essential
in
controlling
processes
across
environments.
meadows
can
impose
more
complex
hydrodynamics
by
attenuating
sea-swell
decreasing
impact
nearshore
mean
water
level
rise
due
to
wave
setup
Infragravity
(IG)
waves.
Consequently,
seagrasses
dissipate
reduce
flows
allowing
sediments
settle
accrete
shorelines.
However,
despite
their
significant
roles,
knowledge
Indonesian
seagrass
ecosystems
is
relatively
limited
compared
other
such
as
sandy
beaches,
mangroves,
coral
reefs.
This
review
highlights
dynamics
interaction
with
sediment
transport
processes,
including
biogeochemical
dispersal
on
ecosystem
contributing
existing
research
Indonesia.
The
associated
literature
collected
from
scientific
databases
Scopus
Google
Scholar
that
range
between
1965
2021.
result
showed
most
hydrodynamic
was
carried
out
temperate
zones.
Until
recently,
there
have
been
publications
discussing
(tropical)
parameters,
even
though
region
has
abundant
species.
Moreover,
Indonesia
strongly
influenced
various
atmospheric-oceanic
forcing,
Asian
monsoon
affecting
dynamic
area
ecosystems.
At
a
canopy
scale,
correlation
system
yet
be
explored.
Considering
potential
benefit
ecosystems,
developing
future
overcoming
gaps
gained
could
support
services
resilience
hazards
climate
change.
Marine Environmental Research,
Год журнала:
2023,
Номер
188, С. 105997 - 105997
Опубликована: Апрель 23, 2023
Habitat
degradation
in
coastal
ecosystems
has
resulted
the
fragmentation
of
aquatic
vegetation
and
compromised
their
role
supplying
essential
ecological
services
such
as
trapping
sediment
or
sequestering
carbon.
Fragmentation
changed
seagrass
architecture
by
decreasing
density
canopy
engendering
small
patches
vegetated
areas.
This
study
aims
to
quantify
different
patch
sizes
with
densities
have
spatial
distribution
within
a
patch.
To
this
aim,
two
densities,
four
lengths,
wave
frequencies
were
considered.
The
amounts
deposited
onto
bed,
captured
plant
leaves,
remaining
suspension
canopy,
above
used
understand
impact
hydrodynamics
on
patterns
patches.
In
all
cases
studied,
reduced
suspended
concentrations,
increased
capture
particles
sedimentation
rates
bed.
For
lowest
frequency
studied
(0.5
Hz),
bottom
was
enhanced
at
edges,
resulting
heterogeneous
patterns.
Therefore,
restoration
preservation
landscapes
can
help
face
future
climate
change
scenarios
where
an
increase
mitigate
predicted
sea
level
rise
The Science of The Total Environment,
Год журнала:
2024,
Номер
921, С. 170888 - 170888
Опубликована: Фев. 23, 2024
A
novel
flume
experiment
was
conducted
to
compare
the
sheltering
effect
of
surrogate
seagrass
meadows
two
different
lengths
against
a
bare
beach
(benchmark).
The
analyses
focused
on
assessing
impact
meadow
cross-shore
extent
wave
height
attenuation,
behaviour
orbital
velocity
components,
sediment
transport,
and
shoreline
erosion.
Throughout
tests
in
large-scale
CIEM
at
LIM/UPC
Barcelona,
density
submergence
ratio
remained
constant,
while
irregular
waves
were
run
over
an
initial
1:15
sand
profile.
In
both
layouts,
persistent
decrease
from
offshore
area
front
breaking
zone
found.
This
reduction
directly
correlated
with
length
meadow.
As
result
energy,
less
erosion
occurred
accordance
height.
mean
velocities
exhibited
changes
profile
immediate
behind
meadow,
phenomenon
not
observed
more
onshoreward
positions.
Orbital
displayed
exclusively
for
long
case.
up
zone.
consequence
these
changes,
layout
led
volume
transport
breaker
bar
closer
shoreline.
short
resulted
higher
compared
layout,
although
still
than
benchmark
layout.
Furthermore,
final
situated
location
similar
that
Limnology and Oceanography,
Год журнала:
2024,
Номер
69(7), С. 1593 - 1605
Опубликована: Июнь 27, 2024
Abstract
Net
global
losses
of
seagrasses
have
accelerated
efforts
to
understand
recovery
from
disturbances.
Stressors
causing
disturbances
(e.g.,
storms,
heatwaves,
boating)
vary
temporally
and
spatially
within
meadows
potentially
affecting
recovery.
To
test
differential
recovery,
we
conducted
a
removal
experiment
at
sites
that
differed
in
thermal
stress
for
temperate
seagrass
(
Zostera
marina
).
We
also
synthesized
prior
studies
assess
general
patterns.
Seagrass
shoots
were
removed
28.3
m
2
plots
edge
central
meadow
South
Bay,
Virginia,
USA.
hypothesized
faster
where
greater
oceanic
exchange
reduces
stress.
Contrary
our
hypothesis
was
most
rapid
the
matching
control
site
shoot
density
24
months.
Recovery
incomplete
estimated
require
158
Differences
likely
due
storm‐driven
sediment
erosion
sites.
Based
on
data
studies,
which
primarily
monospecific
,
recover
across
broad
range
conditions
with
positive,
nonlinear
relationship
between
disturbance
area
time.
Our
indicates
position
affects
susceptibility
length
Linking
this
finding
literature
synthesis
suggests
increased
attention
spatial
context
will
contribute
better
understanding
variation
rates.
Frontiers in Marine Science,
Год журнала:
2021,
Номер
8
Опубликована: Окт. 1, 2021
Rising
sea
levels
and
the
increased
frequency
of
extreme
events
put
coastal
communities
at
serious
risk.
In
response,
shoreline
armoring
for
stabilization
has
been
widespread.
However,
this
solution
does
not
take
ecological
aspects
coasts
into
account.
The
“living
shoreline”
technique
includes
ecology
by
incorporating
natural
habitat
features,
such
as
saltmarshes,
stabilization.
impacts
living
shorelines
on
adjacent
benthic
communities,
submersed
aquatic
vegetation
(SAV),
are
yet
clear.
particular,
while
both
marshes
SAV
trap
sediment
necessary
their
resilience
to
environmental
change,
synergies
between
well-understood.
To
help
quantify
protective
(shoreline
stabilization)
shorelines,
we
presented
modeling
results
using
Delft3D-SWAN
system
transport
created
saltmarshes
in
a
subestuary
Chesapeake
Bay.
We
used
double
numerical
approach
primarily
validate
deposition
measurements
made
field
further
balance
two
an
idealized
model.
This
model
same
domain
with
different
wave
heights,
periods,
basin
slopes
presence
rip-rap,
which
is
often
together
marsh
plantings
look
influences
artificial
structures
exchange
plant
communities.
study
indicated
lower
shear
stress,
erosion
rates,
higher
rates
within
bed
compared
scenario
only,
helped
stabilize
bottom
sediments
making
positive
case
moderate
climate
(deposition
vegetations
than
loss).
rip-rap
resulted
balance,
especially
events,
where
was
magnified.
Overall,
concluded
that
helps
level
shoreline,
works
better
conditions,
demonstrating
how
right
combination
built
solutions
can
work
well
terms
protection.
