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hergroei

Hergroei is a Dutch term that describes the process by which a plant or plant part produces new growth after disturbance such as pruning, grazing, fire, or mechanical damage. It can involve shoots arising from latent buds on stems or roots, or from underground storage organs such as bulbs, tubers, rhizomes, or the root crown.

The capacity for hergroei depends on species and individual, plant age, energy reserves, and environmental conditions.

Applications and management: In agriculture, horticulture, and forestry, hergroei is a central consideration for pruning schedules,

Ecological significance: Regrowth supports resilience after disturbance, enables vegetative reproduction, and influences successional dynamics in ecosystems.

After
damage,
dormant
or
latent
meristems
activate;
carbohydrates
stored
in
roots
or
stems
fuel
the
initial
growth;
hormones
such
as
auxins,
cytokinins,
and
gibberellins
coordinate
regrowth.
Light,
moisture,
and
soil
nutrients
influence
the
rate
and
extent
of
regrowth,
and
the
severity
of
disturbance
often
determines
whether
regrowth
is
vigorous
or
limited.
Some
plants
are
well
known
for
their
strong
regrowth
capacity,
while
others
rely
more
on
seed
production.
grazing
management,
coppicing,
restoration,
and
weed
control.
Grasses
and
forage
crops
often
rely
on
regrowth
after
mowing
or
grazing
for
yield
and
persistence.
Woody
plants
may
be
managed
to
encourage
coppice
regrowth
or
to
produce
usable
shoots
from
stumps.
Practices
that
conserve
energy
reserves,
maintain
soil
fertility,
and
provide
adequate
light
and
moisture
tend
to
enhance
regrowth.
Some
species
are
classified
as
sprouters
due
to
their
robust
regrowth
from
crowns,
roots,
or
lignotubers,
contributing
to
their
persistence
in
changing
environments.