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selffertility

Selffertility is the biological capacity of an organism to produce offspring from its own gametes, without requiring fertilization from a distinct individual. In plants, this capability is typically referred to as self-compatibility or self-pollination, enabling pollen to fertilize ovules of the same plant or flower. In animals, selffertility occurs in many hermaphroditic species that can fertilize their own eggs with their own sperm.

In flowering plants, selffertility arises when the plant is self-compatible, either through pollen tolerance of its

In animals, selffertility is seen in hermaphroditic species such as Caenorhabditis elegans and some land snails,

Implications for ecology and evolution include effects on mating-system evolution, population structure, and adaptation. In agriculture

own
pistil
or
through
mechanisms
that
allow
pollen
tubes
to
grow
despite
self-pollen.
This
may
involve
autogamy
(self-pollination
within
the
same
flower)
or
geitonogamy
(pollination
between
flowers
of
the
same
plant).
Plants
may
also
exhibit
cleistogamy,
producing
closed,
self-pollinating
flowers.
Self-fertile
species
can
reproduce
in
the
absence
of
cross-pollination,
increasing
reproductive
assurance,
but
often
at
the
cost
of
reduced
genetic
diversity
and
potential
inbreeding
depression.
which
can
produce
offspring
from
self-fertilized
eggs.
The
prevalence
and
ecological
significance
vary
widely
across
taxa,
with
many
species
relying
primarily
on
outcrossing
but
retaining
the
capacity
for
selfing
under
certain
conditions.
and
horticulture,
selffertility
is
valuable
for
breeding
and
cultivation
because
it
provides
reliable
seed
set
under
limited
pollinator
abundance,
though
it
can
reduce
heterozygosity
and
long-term
vigor
if
not
balanced
with
outcrossing.