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polyfenizm

Polyfenizm, also known as polyphenism, is a form of phenotypic plasticity in which a single genotype can produce two or more discrete phenotypes depending on environmental conditions. The alternative morphs arise through environmentally induced developmental pathways and are not fixed genetic variants; thus, polyfenizm differs from polymorphism, where genetic differences underlie the variation within a population.

Common environmental cues include population density, temperature, photoperiod, nutrition, and social context. The decision point often

Classic examples include winged and wingless morphs in aphids triggered by crowding and host quality; caste

Mechanisms involve gene regulatory networks that translate environmental cues into hormonal signals (notably juvenile hormone and

Polyfenizm is observed across major animal groups, especially insects and nematodes, and has become a focal

occurs
during
early
development
and
leads
to
stable,
irreversible
morphological
or
behavioral
phenotypes,
although
some
systems
allow
later
reversibility
under
certain
conditions.
differentiation
in
eusocial
insects
such
as
honeybees
and
termites,
influenced
by
larval
nutrition
and
hormonal
signaling;
seasonal
morphs
in
butterflies
(for
example,
Bicyclus
anynana)
that
develop
different
camouflage
or
eye-spot
patterns
according
to
wet
or
dry
seasons;
and
alternative
mouth
forms
in
nematodes
such
as
Pristionchus
pacificus,
where
diet
cues
determine
predatory
or
microbial-feeding
forms.
ecdysteroids
in
insects)
and,
in
some
lineages,
epigenetic
changes
that
lock
in
the
developmental
pathway.
Polyfenizm
can
enhance
fitness
by
producing
specialized
phenotypes
suited
to
different
conditions,
though
it
may
entail
costs
such
as
the
need
to
defend
multiple
developmental
strategies.
point
in
studies
of
development,
evolution,
and
ecology
of
plasticity.