Frontiers in Marine Science,
Journal Year:
2024,
Volume and Issue:
11
Published: April 26, 2024
Significant
threats
to
the
long-term
persistence
of
coral
reefs
have
accelerated
adoption
propagation
and
out-planting
approaches.
However,
how
materials
commonly
used
for
structures
could
potentially
affect
coral-associated
bacterial
communities
remains
untested.
Here,
we
examined
impact
metal
on
communities.
Fragments
species
Acropora
millepora
were
grown
aluminium,
sand/epoxy-coated
steel
(Reef
Stars),
uncoated
(rebar)
structures.
After
6
months,
functional
taxonomic
profiles
propagated
corals
reef
colonies
characterised
using
amplicon
(16S
rRNA
gene)
shotgun
metagenomic
sequencing.
No
differences
in
phylogenetic
structure
or
profile
observed
between
colonies.
specific
genes
pathways
(e.g.,
lipid,
nucleotide,
carbohydrate
metabolism)
overrepresented
different
materials,
taxa
indicative
materials.
These
findings
indicate
that
may
lead
individual
potential
communities,
but
these
contribute
changed
holobiont
fitness
presents
a
key
question
be
addressed.
PLoS Biology,
Journal Year:
2024,
Volume and Issue:
22(3), P. e3002542 - e3002542
Published: March 19, 2024
Coral
reefs
provide
ecosystem
benefits
to
millions
of
people
but
are
threatened
by
rapid
environmental
change
and
ever-increasing
human
pressures.
Restoration
is
becoming
a
priority
strategy
for
coral
reef
conservation,
yet
implementation
remains
challenging
it
increasingly
apparent
that
indirect
conservation
restoration
approaches
will
not
ensure
the
long-term
sustainability
reefs.
The
important
role
conditions
in
practice
currently
undervalued,
carrying
substantial
implications
success.
Giving
paramount
importance
conditions,
particularly
during
pre-restoration
planning
phase,
has
potential
bring
about
considerable
improvements
innovation.
This
Essay
argues
risk
may
be
reduced
adopting
an
environmentally
aware
perspective
gives
historical,
contemporary,
future
context
decisions.
Such
approach
open
up
new
opportunities
with
improved
have
capacity
dynamically
respond
trajectories.
The Science of The Total Environment,
Journal Year:
2024,
Volume and Issue:
949, P. 174589 - 174589
Published: July 7, 2024
There
is
growing
evidence
that
reef-building
corals
can
acclimate
to
novel
and
challenging
thermal
conditions.
However,
potential
trade-offs
accompany
acclimation
remain
largely
unexplored.
We
investigated
physiological
in
colonies
of
a
globally
abundant
coral
species
(Pocillopora
acuta)
were
acclimated
ex
situ
an
elevated
temperature
31
°C
(i.e.,
1
above
their
bleaching
threshold)
for
six
years.
By
comparing
them
conspecifics
maintained
at
cooler
temperature,
we
found
the
energy
storage
was
prioritized
over
skeletal
growth
temperature.
This
associated
with
formation
higher
density
skeletons,
lower
calcification
rates
consequently
extension
rates,
which
entails
ramifications
future
processes,
structural
complexity
reef
community
composition.
Furthermore,
symbionts
physiologically
compromised
had
overall
reserves,
likely
due
increased
exploitation
by
host,
resulting
stress
resilience
holobiont.
Our
study
shows
how
biological
unfold,
helping
refine
our
picture
trajectories.
Importantly,
observations
this
six-year
do
not
align
short-term
studies,
where
temperatures
often
depletion
highlighting
importance
studying
organisms
relevant
scales.
PLoS ONE,
Journal Year:
2024,
Volume and Issue:
19(7), P. e0303779 - e0303779
Published: July 31, 2024
Climate
change
is
transforming
coral
reefs
by
increasing
the
frequency
and
intensity
of
marine
heatwaves,
often
leading
to
bleaching
mortality.
Coral
communities
have
demonstrated
modest
increases
in
thermal
tolerance
following
repeated
exposure
moderate
heat
stress,
but
it
unclear
whether
these
shifts
represent
acclimatization
individual
colonies
or
mortality
thermally
susceptible
individuals.
For
corals
that
survive
events,
important
understand
how
past
responses
impact
future
growth
potential.
Here,
we
track
1,832
leeward
Maui
through
multiple
heatwaves
document
patterns
survivorship
over
a
seven-year
period.
While
find
limited
evidence
at
population
scales,
reduced
time
specific
individuals
indicative
acclimatization,
primarily
stress-tolerant
taxa
Porites
lobata
.
survived
both
no
relationship
between
response
three
four
studied.
This
decoupling
suggests
better
indicator
than
coral’s
history.
Based
on
results,
recommend
restoration
practitioners
Hawaiʻi
focus
Montipora
with
proven
track-record
survivorship,
rather
devote
resources
toward
identifying
cultivating
bleaching-resistant
phenotypes
lab.
Survivorship
followed
latitudinal
stress
gradient,
because
this
gradient
was
small,
likely
local
environmental
factors
also
drove
differences
performance
sites.
Efforts
reduce
human
impacts
low
performing
sites
would
improve
future.
Emerging Topics in Life Sciences,
Journal Year:
2022,
Volume and Issue:
6(1), P. 107 - 124
Published: Feb. 28, 2022
Reducing
the
global
reliance
on
fossil
fuels
is
essential
to
ensure
long-term
survival
of
coral
reefs,
but
until
this
happens,
alternative
tools
are
required
safeguard
their
future.
One
emerging
tool
locate
areas
where
corals
surviving
well
despite
changing
climate.
Such
locations
include
refuges,
refugia,
hotspots
resilience,
bright
spots,
contemporary
near-pristine
and
hope
spots
that
collectively
named
reef
‘safe
havens'
in
mini-review.
Safe
havens
have
intrinsic
value
for
reefs
through
services
such
as
environmental
buffering,
maintaining
conditions,
or
housing
naturally
adapted
future
conditions.
Spatial
temporal
variance
physicochemical
conditions
exposure
stress
however
preclude
certainty
over
ubiquitous
capacity
safe
maintain
protective
service
provision.
To
effectively
integrate
into
proactive
management
contingency
planning
climate
change
scenarios,
thus
requires
an
understanding
differences,
potential
values,
predispositions
stress.
purpose,
I
provide
a
high-level
review
defining
characteristics
different
havens,
how
they
being
utilised
what
risk
susceptibilities
inherently
have.
The
mini-review
concludes
with
outline
haven
habitats
support
under
uncertain
from
intensifying
change.
PeerJ,
Journal Year:
2022,
Volume and Issue:
10, P. e13653 - e13653
Published: July 18, 2022
The
global
decline
of
coral
reefs
has
driven
considerable
interest
in
active
restoration.
Despite
their
importance
and
dominance
on
mature
reefs,
relatively
few
restoration
projects
use
slower
growth
forms
like
massive
encrusting
species.
Micro-fragmentation
can
increase
cover
by
orders
magnitude
faster
than
natural
growth,
which
now
allows
cultivation
slow
growing
shows
promise
flexibility
for
reef
However,
the
major
causes
variation
survival
outplanted
colonies
remain
poorly
understood.
Here,
we
report
simple
outplanting
assays
to
aid
species
likelihood
success.
We
used
two
different
micro-fragmentation
assays.
Pyramid
were
examine
associated
with
fragment
size
(ranging
from
≈1-9
cm
Fisheries Management and Ecology,
Journal Year:
2022,
Volume and Issue:
29(4), P. 329 - 345
Published: April 21, 2022
Abstract
Fisheries
management
is
a
complex
task
made
even
more
challenging
by
rapid
and
unprecedented
socioecological
transformations
associated
with
climate
change.
The
Resist‐Accept‐Direct
(RAD)
framework
can
be
useful
tool
to
support
fisheries
in
facing
the
high
uncertainty
variability
aquatic
ecosystem
transformations.
Here,
RAD
strategies
are
presented
address
ecological
goals
for
ecosystems
social
fisheries.
These
mapped
on
controllability
matrix
which
explores
ability
guide
system's
behaviour
towards
desired
state
based
responsiveness
societal
receptivity
Understanding
improving
of
systems
help
managers
maintain
broadest
suite
available
strategies.
Frontiers in Ecology and the Environment,
Journal Year:
2022,
Volume and Issue:
20(5), P. 285 - 291
Published: March 23, 2022
The
global
decline
of
coral
reefs
urgently
requires
scalable
colony‐level
data
about
phenotypic
variation
to
improve
conservation
and
management.
To
address
this,
we
leveraged
historical
bleaching
phenotypes,
airborne
imaging
spectroscopy,
recurrent
temperature
stress
map
species
composition
thermal
tolerance
across
four
focal
with
a
cumulative
area
~15
ha.
Spectral
accurately
distinguished
benthic
species,
showed
substantial
capacity
for
mapping
in
two
healthy
coral.
We
used
from
2019
marine
heatwave
demonstrate
high
prediction
accuracy
during
natural
event,
strengthen
the
links
between
predictions,
conserved
spectral
signatures.
Large
differences
proportion
tolerant
corals
at
individual
suggest
that
ecosystem‐scale
“winners”
“losers”
future
can
be
predicted,
which
may
greatly
increase
efficacy
This
framework
provides
foundational
evidence
applicability
organismic‐scale
remote
sensing
conservation.
