Journal of Marine Science and Engineering,
Journal Year:
2024,
Volume and Issue:
12(5), P. 802 - 802
Published: May 11, 2024
Mangroves
are
important
coastal
wetlands
along
tropical
and
subtropical
regions.
Pneumatophore,
a
kind
of
aerial
root,
is
among
the
prominent
components
mangrove
ecosystem,
which
provides
microhabitats
for
range
prokaryotic
(bacteria
cyanobacteria)
microbial
assemblages,
whose
role
in
maintenance
ecology
often
remains
neglected.
Very
few
studies
available
on
pneumatophore-associated
microorganisms
(PAPMs).
The
majority
them
related
to
microscopic
identification
cyanobacteria,
with
very
limited
research
bacterial
population,
even
though
they
demand
more
attention.
Also,
scarce
information
biotic
abiotic
factors
shaping
PAPMs.
objective
this
review
highlight
structural
functional
importance
organisms
associated
pneumatophores.
This
begins
brief
introduction
what
pneumatophores
are,
then
focuses
PAPMs,
accentuating
breadth
depth
gained
from
previous
research.
We
further
discuss
how
combination
traditional
cultivable
approach
newly
developed
omics
can
be
efficaciously
employed
untangle
updated
will
intensify
visibility
necessity
community
E3S Web of Conferences,
Journal Year:
2025,
Volume and Issue:
605, P. 03005 - 03005
Published: Jan. 1, 2025
Yeast
biodiversity
in
mangrove
ecosystems
is
crucial
for
their
health
and
ecological
functions.
However,
traditional
methods
often
fail
to
detect
yeast
species
that
are
difficult
culture
or
slow
growing,
leaving
a
significant
portion
of
this
undetected.
This
study
explores
the
use
environmental
DNA
(eDNA)
as
an
alternative
method
identifying
ecosystems,
addressing
data
gaps
left
by
conventional
methods.
Data
collected
from
various
relevant
literature
sources,
including
scientific
journals,
books,
research
reports.
The
review
reveals
eDNA
analysis
can
improve
conservation
management
providing
robust
assessments.
Future
should
focus
on
understanding
persistence,
implications,
improving
bioinformatics
better
interpretation.
In-depth
long-term
studies
recommended
temporal
spatial
dynamics
communities
ecosystems.
Further
validation
conditions
needed
ensure
reliability.
Research
interactions
with
other
ecosystem
components
impact
human
activities
like
pollution
habitat
change
also
important.
Frontiers in Microbiology,
Journal Year:
2025,
Volume and Issue:
16
Published: Feb. 19, 2025
Mangrove
forests,
found
primarily
in
tropical
and
subtropical
coastal
regions,
support
diverse
microbial
communities
that
are
crucial
for
nutrient
cycling
energy
flow
then
sustain
mangrove
ecosystem
integrity.
This
study
investigated
the
seasonal
dynamics
of
bacterial
sediments
Shupaisha
island
(Zhejiang
Province,
China)
through
amplifying
high-throughput
sequencing
16S
rRNA
gene
fragments.
Proteobacteria
(23.59-44.40%),
Actinobacteria
(4.92-19.01%),
Bacteroidetes
(4.31-22.79%)
dominated
phyla
with
highest
diversity
indices
winter.
were
more
abundant
during
winter
(13.27%)
spring
(14.36%),
while
abundance
was
summer,
significantly
correlating
temperature.
Significant
differences
community
composition
observed
between
autumn
exhibited
similar
distribution,
indicating
a
transitional
pattern
dynamics,
temperature
sand
content
being
most
influential
factors.
enhances
our
understanding
characteristics
ecosystems,
potentially
providing
valuable
insights
into
monitoring
assessing
health
stability
ecosystems
Zhejiang
Province.
Environmental Microbiome,
Journal Year:
2025,
Volume and Issue:
20(1)
Published: March 25, 2025
Abstract
Background
Microbial
communities
in
mangrove
sediments
play
vital
ecological
roles
that
underpin
the
functioning
of
overall
ecosystem.
Fungal
communities,
particular,
are
known
to
crucial
across
sediment
systems,
yet
their
sediments,
especially
deeper
layers,
remain
poorly
understood
without
a
comprehensive
inter-domain
characterization.
To
better
understand
fungal
horizons,
10
cores
extending
down
depth
1
m
were
taken
three
sites
characterise
archaeal,
bacterial,
and
at
cm
intervals.
Results
We
demonstrate
has
distinct
effects
on
microbial
communities.
While
community
compositions
similar
depths,
bacterial
archaeal
stratified
into
surface
(10–30
cm),
subsurface
(40–60
deep
(70–100
cm).
Co-occurrence
networks
then
constructed
investigate
fungi
these
where
consistently
identified
as
keystone
taxa
maintaining
network
topology,
with
co-domain
interactions
constituting
more
than
half
all
interactions.
Even
deepest
layer,
nodes
still
retained
high
betweenness
centralities,
acting
hubs
potentially
augment
for
Conclusions
Overall,
our
results
emphasise
important
role
mediating
depths
even
deep,
anoxic
highlight
importance
cross-domain
integral
holistic
understanding
microbiome.
