Abstract
Modern-day
Indo-Pacific
coral
reefs
are
characterized
by
rapid
recovery
driven
pulses
of
recruitment,
but
Caribbean
exhibit
low
rates
recruitment
and
poor
following
a
wide
range
disturbance
events.
The
contrasting
evolutionary
history
taxa
offers
key
insight
into
biogeographic
patterns
resilience.
Following
the
closure
Isthmus
Panama
approximately
2.8
million
years
ago,
widespread
extinction
corals
led
to
an
bottleneck
that
favored
large
long-lived
species
with
relatively
high
reliance
on
asexual
versus
sexual
reproduction.
In
contrast,
adaptive
radiation
evolution
superrecruiting
tabular,
digitate,
corymbose
drive
modern-day
disturbance.
dominance
branching
growth
forms
absence
throughout
entire
(approximately
38
ago
present)
may
explain
exceptionally
historical
reefs.
reef-building
implies
that,
even
reversal
ecosystem
state,
be
limited.
Conservation Biology,
Год журнала:
2021,
Номер
35(5), С. 1473 - 1483
Опубликована: Апрель 28, 2021
Abstract
By
2004,
Belize
was
exhibiting
classic
fishing
down
of
the
food
web.
Groupers
(Serranidae)
and
snappers
(Lutjanidae)
were
scarce
fisheries
turned
to
parrotfishes
(Scarinae),
leading
a
41%
decline
in
their
biomass.
Several
policies
enacted
2009–2010,
including
moratorium
on
parrotfish
new
marine
park
with
no‐take
areas.
Using
20‐year
time
series
reef
fish
benthos,
we
evaluated
impact
these
approximately
10
years
after
implementation.
Establishment
Southwater
Caye
Marine
Reserve
led
recovery
snapper
at
2
out
3
sites,
but
there
no
evidence
outside
reserve.
Snapper
populations
an
older
reserve
continued
increase,
implying
that
least
9
is
required
for
recovery.
Despite
concerns
over
feasibility
banning
harvest
once
it
has
become
dominant
fin
fishery,
returned
exceeded
biomass
levels
prior
fishery.
The
majority
changes
involved
increase
density;
species
composition
adult
body
size
generally
exhibited
little
change.
Recovery
occurred
equally
well
reserves
areas
open
other
forms
fishing,
strong
compliance.
Temporal
trends
grazing
intensity
strongly
negatively
associated
cover
macroalgae,
which
by
2018
had
fallen
lowest
observed
since
measurements
began
1998.
Coral
remained
resilient
exhibit
periods
net
disturbance.
We
found
harvesting
feasible
appears
help
constrain
can
otherwise
impede
coral
resilience.
Coral Reefs,
Год журнала:
2019,
Номер
38(4), С. 637 - 649
Опубликована: Март 6, 2019
Thermally
induced
mass
coral
bleaching
is
globally
responsible
for
major
losses
of
cover.
Coral
recovery
from
disturbances
like
the
2016
event
hinges
on
successful
recruitment
new
colonies
to
existing
population.
Juvenile
corals
as
a
life
history
stage
represent
survival
and
growth
recruits.
As
such,
habitat
preferences
juvenile
how
environmental
parameters
interact
drive
following
disturbance
are
important
research
areas.
To
expand
our
knowledge
this
topic,
we
compared
densities
before
with
those
after
identified
abiotic
biotic
characteristics
21
reefs
in
inner
Seychelles
that
predict
densities.
Our
results
show
event,
were
significantly
reduced
by
about
70%,
particularly
large
decline
Acropora.
Macroalgae
present
obstacle
post-bleaching
setting,
but
their
influence
varies
function
herbivore
biomass,
reef
structure,
type.
Higher
biomass
herbivorous
fish
weakens
negative
effect
macroalgae
corals,
structural
complexity
granitic
strong
positive
predictor
density.
However,
carbonate
or
patch
was
negatively
related
density,
highlighting
importance
considering
interactive
terms
analyses.
study
emphasises
abundance
at
both
fine
seascape
scales,
adding
literature
drivers
rebound
potential
severe
bleaching.
Journal of Ecology,
Год журнала:
2019,
Номер
108(1), С. 70 - 80
Опубликована: Июнь 29, 2019
Abstract
Globally,
coral
reefs
are
being
transformed
by
a
suite
of
stressors,
the
foremost
climate
change.
Increasingly,
it
is
expected
that
these
reconfigured
reef
systems
will
emerge
with
lower‐complexity
and
be
dominated
algal
turfs.
Understanding
this
new
operating
space
vital
if
we
to
maintain
services,
such
as
fishable
biomass
production,
provide.
However,
functionality
appears
depend
on
nature
turfs
themselves,
which
in‐turn,
intimately
linked
sediments
they
contain.
As
losing
complexity,
need
understand
if,
what
extent,
turf
condition
complex
structure
connected.
To
address
issue
took
advantage
recent
developments
in
3D
structure‐from‐motion
technology
examine
how
complexity
metrics
(elevation
surface
angle)
related
heavily
climate‐impacted
reef.
This
represents
novel
application
context
ecosystems.
We
found
both
elevation
angle
decreased,
nutritional
value
epilithic
matrix
also
decreased
while
sediment
accumulation
increased.
Furthermore,
showed
elevated
surfaces
were
characterized
far
shorter
turfs,
potentially
herbivory
hotspots,
offering
fertile
grounds
for
further
exploration
dynamics
at
sub‐metre
spatial
scales.
Synthesis.
study
yields
insights
into
operating‐space
future
reefs,
suggests
flatten,
likely
increase
even
inputs
remain
unchanged,
altering
fundamentally.
Maintaining
key
services
provided
climate‐transformed,
low‐complexity
turf‐dominated
future,
managing
interactions
between
herbivory,
sediments,
structural
complexity.
Conservation Letters,
Год журнала:
2021,
Номер
14(5)
Опубликована: Июнь 1, 2021
Abstract
Identifying
organisms
that
play
an
important
role
in
maintaining
ecosystem
function
is
a
key
aspect
of
resilience‐based
management.
For
Australia's
Great
Barrier
Reef
(GBR),
we
found
the
recovery
ability
shallow
exposed
fore‐reefs
more
than
14
times
higher
when
tabular
Acropora
are
present.
The
disproportionate
appears
to
be
driven
by
combination
traits
including
high
recruitment,
growth
rate
and,
importantly,
large
maximum
colony
sizes.
Despite
this
role,
highly
sensitive
most
pressures.
We
compile
evidence
suggesting
if
corals
were
decline
or
disappear
on
GBR,
potential
for
reef
would
considerably
slowed.
then
consider
merits
placing
special
emphasis
protection
within
management
GBR.
Importantly,
recognise
analysis
costs
and
benefits
such
recognition
vital
before
any
change
implemented.
Actions
might
include
targeted
crown‐of‐thorns
starfish
control,
anchoring
restrictions
reefs
identified
as
essential
their
larval
dispersal.
In
addition,
communications
about
critical
importance
these
recognisable
may
boost
community
support
participation
protection.
PLoS ONE,
Год журнала:
2022,
Номер
17(1), С. e0249155 - e0249155
Опубликована: Янв. 18, 2022
Disease,
storms,
ocean
warming,
and
pollution
have
caused
the
mass
mortality
of
reef-building
corals
across
Caribbean
over
last
four
decades.
Subsequently,
stony
been
replaced
by
macroalgae,
bacterial
mats,
invertebrates
including
soft
sponges,
causing
changes
to
functioning
reef
ecosystems.
Here
we
describe
in
absolute
cover
benthic
taxa,
corals,
gorgonians,
algae,
at
15
fore-reef
sites
(12–15m
depth)
Belizean
Barrier
Reef
(BBR)
from
1997
2016.
We
also
tested
whether
Marine
Protected
Areas
(MPAs),
which
fishing
was
prohibited
but
likely
still
occurred,
mitigated
these
changes.
Additionally,
determined
ocean-temperature
anomalies
(measured
via
satellite)
or
local
human
impacts
(estimated
using
Human
Influence
Index,
HII)
were
related
community
structure.
observed
a
reduction
long-lived,
massive
Orbicella
spp.
(from
13
2%),
an
increase
fleshy
corticated
macroalgae
most
sites.
These
other
communities
unaffected
protection.
The
covers
hard-coral
Acropora
spp.,
Montastraea
cavernosa
,
Porites
negatively
frequency
anomalies.
Only
gorgonian
related,
negatively,
our
metric
magnitude
(HII).
Our
results
suggest
that
along
BBR
experienced
disturbances
are
beyond
capacity
current
management
structure
mitigate.
recommend
managers
devote
greater
resources
enforcing
expanding
existing
marine
protected
areas
mitigating
stressors,
importantly,
government,
industry,
public
act
immediately
reduce
global
carbon
emissions.
Limnology and Oceanography,
Год журнала:
2019,
Номер
64(5), С. 2283 - 2294
Опубликована: Апрель 25, 2019
Abstract
The
decline
in
living
coral
since
the
1970s
has
conspicuously
slowed
reef
construction
on
a
global
scale,
but
related
process
of
erosion
is
less
visible
and
not
often
quantified.
Here,
we
present
new
data
constructional
deconstructional
sides
carbonate‐budget
equation
Florida
Keys,
U.S.A.
We
documented
Orbicella
spp.
calcification
rates
at
four
offshore
reefs
quantified
decadal‐scale
‐reef
mid‐shore
patch
reef.
Using
heads
fitted
with
permanent
markers
1998,
measured
reef‐elevation
loss
28
stations
over
17.3
yr
to
estimate
mean
rate
−5.5
(±
3.2,
SD)
mm
−1
.
This
equates
an
−8.2
4.8,
kg
m
−2
dead
colonies,
or
−6.6
when
adjusted
reef‐wide.
Calculating
net
carbonate
production
using
census‐based
approach
same
2017,
estimated
reef‐wide
bioerosion
−1.9
2.0,
,
0.5
0.3,
Substituting
would
suggest
that
this
was
lower
negative,
−4.2
divergence
could
be
function
high
tops
which
may
preferentially
targeted
by
parrotfish.
Nonetheless,
our
study
suggests
need
for
field
improve
estimates
reef‐structure
persistence
as
continue
degrade.
Global Change Biology,
Год журнала:
2020,
Номер
26(9), С. 4785 - 4799
Опубликована: Июль 21, 2020
Abstract
Dramatic
coral
loss
has
significantly
altered
many
Caribbean
reefs,
with
potentially
important
consequences
for
the
ecological
functions
and
ecosystem
services
provided
by
reef
systems.
Many
studies
examine
its
causes—and
often
presume
a
universal
decline
of
loss—rather
than
evaluating
range
possible
outcomes
diversity
at
reefs
varying
in
cover.
We
evaluate
10
key
metrics,
relating
to
variety
different
services,
on
328
focus
variability
these
metrics
rather
mean
responses.
In
contrast
prevailing
paradigm,
we
document
high
is
not
related
find
numerous
“bright
spots,”
where
herbivorous
fish
biomass,
density
large
fishes,
fishery
value,
and/or
species
richness
are
high,
despite
low
Although
it
remains
critical
protect
restore
corals,
understanding
among
low‐coral
can
facilitate
maintenance
sustained
as
work
degraded
This
framework
be
applied
other
ecosystems
Anthropocene
better
understand
variance
service
identify
why
bright
spots
exist.
