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chemosensation

Chemosensation is the sensory process by which chemical stimuli are detected by specialized receptors. It encompasses olfaction (smell), gustation (taste), and chemesthesis, the perception of chemical irritants and other sensations mediated by the trigeminal system. Chemosensation plays a central role in nutrition, safety, and social communication across species.

Olfaction begins when volatile compounds bind to receptors on the cilia of olfactory receptor neurons in the

Gustation arises from taste receptor cells within taste buds on the tongue and other epithelia. Taste buds

Chemesthesis refers to irritation, burning, cooling, and tingling sensations produced by chemicals such as capsaicin or

Sensory disorders include anosmia and ageusia, with dysgeusia and impaired flavor perception affecting appetite and safety.

nasal
epithelium.
Axons
project
to
the
olfactory
bulb
and
then
to
primary
olfactory
cortex,
including
the
piriform
and
entorhinal
areas,
with
connections
to
the
amygdala
and
hippocampus
that
link
odors
to
memory
and
emotion.
Retronasal
olfaction
occurs
when
volatile
compounds
reach
the
nasal
cavity
from
the
mouth
during
eating,
contributing
to
flavor.
detect
five
basic
qualities—sweet,
salty,
sour,
bitter,
and
umami—through
distinct
receptor
mechanisms.
Signals
travel
via
cranial
nerves
VII,
IX,
and
X
to
the
nucleus
of
the
solitary
tract,
then
to
the
thalamus
and
finally
to
the
insular
and
frontal
opercular
cortices.
menthol,
mediated
mainly
by
the
trigeminal
nerve
and
transient
receptor
potential
(TRP)
channels.
Pheromonal
and
other
chemical
signals
are
important
in
many
species,
though
their
role
in
humans
is
still
debated.
The
chemosensory
system
exhibits
plasticity
and
integrates
with
memory
and
reward
networks
to
shape
food
choice
and
behavior.