The
iron
oxyhydroxides
of
plaque
on
the
surface
rice
root
is
crucial
for
utilization
nutrition
elements
especially
phosphorus
(P),
while
coupled
chemical
and
biological
mechanism
accumulation
uptake
P
still
unresolved.
In
this
study,
we
investigated
regulatory
in
via
combination
hydroponics
whole
plant
simulation
experiment
construction
oxyhydroxides-coated
suspension
cell
lines.
results
showed
that
presence
increased
content
shoot.
also
cells
with
absorption
P.
To
understand
mechanisms
hydroxides
systems,
further
analyzed
effects
potential
by
Fe
coated
surfaces
before
after
adsorption
coating
was
conducive
to
adsorbing
more
This
study
provides
a
understanding
rice,
which
may
hold
significant
implications
comprehending
efficient
nutrients
biogeochemical
cycle
at
soil-plant
interface.
The
iron
oxyhydroxides
of
plaque
on
the
surface
rice
root
is
crucial
for
utilization
nutrition
elements
especially
phosphorus
(P),
while
coupled
chemical
and
biological
mechanism
accumulation
uptake
P
still
unresolved.
In
this
study,
we
investigated
regulatory
in
via
combination
hydroponics
whole
plant
simulation
experiment
construction
oxyhydroxides-coated
suspension
cell
lines.
results
showed
that
presence
increased
content
shoot.
also
cells
with
absorption
P.
To
understand
mechanisms
hydroxides
systems,
further
analyzed
effects
potential
by
Fe
coated
surfaces
before
after
adsorption
coating
was
conducive
to
adsorbing
more
This
study
provides
a
understanding
rice,
which
may
hold
significant
implications
comprehending
efficient
nutrients
biogeochemical
cycle
at
soil-plant
interface.
