Home

geotropie

Geotropie, or gravitropism, is the directional growth response of plant organs to gravity. In most vascular plants, roots exhibit positive geotropism by growing toward the gravitational pull, while shoots show negative geotropism by growing away from gravity. This organization helps secure the plant in the soil and position shoots for optimal light exposure.

Perception: Gravity is detected by specialized gravity-sensing cells called statocytes, located in the root cap (columella)

Mechanism: The gravity signal is transduced into an asymmetric distribution of the growth regulator auxin. Through

Timing and variability: Geotropic responses develop as tissues expand and can adjust with developmental stage and

Geotropie is a fundamental aspect of plant physiology, interacting with phototropism and other tropisms to shape

and
in
the
shoot
apex.
Within
these
cells,
dense
starch-filled
plastids,
known
as
amyloplasts
or
statoliths,
settle
under
gravity
and
initiate
a
signaling
cascade
that
affects
hormone
transport
and
distribution.
polar
auxin
transport,
higher
auxin
levels
accumulate
on
the
lower
side
of
a
bending
organ:
in
roots,
this
inhibits
elongation
on
the
lower
side,
producing
downward
bending;
in
shoots,
it
promotes
elongation
on
the
lower
side,
producing
upward
bending.
The
cytoskeleton
and
intracellular
signaling
molecules
participate
in
the
response.
environmental
conditions.
Experimental
observations,
including
clinostat
experiments
and
microgravity
studies,
show
that
altering
the
gravity
vector
changes
growth
direction
and
curvature.
plant
form
and
spatial
orientation.
See
also
gravitropism,
statolith,
auxin.