World Journal of Microbiology and Biotechnology,
Journal Year:
2024,
Volume and Issue:
40(8)
Published: June 13, 2024
Abstract
Due
to
the
rapid
expansion
of
industrial
activity,
soil
pollution
has
intensified.
Plants
growing
in
these
polluted
areas
have
developed
a
rhizobiome
uniquely
and
specially
adapted
thrive
such
environments.
However,
it
remains
uncertain
whether
acts
as
sufficiently
selective
force
shape
rhizobiome,
adaptations
endure
over
time,
potentially
aiding
long-term
phytoremediation.
Therefore,
present
study,
we
aimed
compare
microbiome
associated
with
roots
from
plants
germinated
riverbanks
will
improve
phytoremediation
Cd
Pb
under
mesocosm
experiments
compared
germinating
greenhouse.
The
experimental
design
was
factorial
2
×
2,
i.e.,
origin
plant
presence
or
absence
100
mg/L
1000
Pb.
Our
results
showed
that
capacity
accumulate
twice
amount
during
experiments.
metagenomic
analysis
river
exposed
heavy
metals
at
end
were
rich
Rhizobium
sp.
AC44/96
Enterobacter
EA-1,
soli
,
Pantoea
rwandensis,
endophytica.
In
addition,
those
grahamii
which
likely
contributed
differences
levels
achieved.
Furthermore,
functional
revealed
an
augmented
potential
related
hormones,
metallothioneins,
dismutases,
reductases;
meanwhile,
greenhouse
unspecific
strategy
exceed
metal
stress.
conclusion,
pressure
drives
stable
microbial
assemblages,
could
be
used
future
phytostabilization
Graphical
Carbon Research,
Journal Year:
2024,
Volume and Issue:
3(1)
Published: May 20, 2024
Abstract
In
the
global
ecosystem,
wetlands
are
vital
carbon
sinks,
playing
a
crucial
role
in
absorbing
greenhouse
gases
such
as
dioxide
and
mitigating
warming.
Accurate
estimation
of
wetland
content
is
essential
for
research
on
sinks.
However,
cycle
complex,
sinking
affected
by
climate,
topography,
water
level
conditions,
vegetation
types,
soil
other
factors.
This
has
caused
significant
challenges
current
studies,
most
focused
impact
individual
factors
often
ignoring
interaction
between
various
factors,
which
further
leads
to
uncertainty
measurements.
paper
aims
elucidate
process
cycle,
summarize
affecting
explore
interplay
their
influence
aiming
provide
theoretical
support
study
Additionally,
this
reviews
advantages
disadvantages
measurement
methods,
proposes
directions
combining
machine
learning
identifies
existing
difficulties
measurement,
offers
suggestions
serve
reference
future
sink
management.
Graphical
Plant Physiology and Biochemistry,
Journal Year:
2024,
Volume and Issue:
210, P. 108619 - 108619
Published: April 9, 2024
Rhizosphere
interactions
from
plant-soil-microbiome
occur
dynamically
all
the
time
in
"black
microzone"
underground,
where
we
can't
see
intuitively.
metabolites
including
root
exudates
and
microbial
act
as
various
chemical
signalings
involving
rhizosphere
interactions,
play
vital
roles
on
plant
growth,
development,
disease
suppression
resistance
to
stress
conditions
well
proper
soil
health.
Although
are
a
mixture
roots
microbes,
they
often
discussed
alone.
As
rapid
appearance
of
omics
platforms
analytical
methods,
it
offers
possibilities
opportunities
for
exploring
unprecedented
breadth
depth.
However,
our
comprehensive
understanding
about
fine-tuning
mechanisms
mediated
by
these
compounds
still
remain
clear.
Thus,
this
review
summarizes
recent
advances
systemically
features
their
effects
ecosystem,
looks
forward
future
research
perspectives,
which
contributes
facilitating
better
biochemical
communications
belowground
helping
identify
novel
metabolites.
We
also
address
challenges
promoting
different
environmental
stresses.
