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allometry

Allometry is the study of how biological traits scale with body size. The term comes from Greek allos, meaning other, and metron, meaning measure, reflecting how different parts of an organism grow at different rates as size changes. Mathematically, a common description uses a power law: y = a x^b, where y is a trait, x is body size, a is a constant, and b is the allometric exponent. If b equals 1, the trait scales isometrically with size; if b is greater than 1, the trait grows faster than size (positive allometry); if b is less than 1, the trait grows more slowly (negative allometry).

Allometry can be studied from several angles: static allometry compares individuals of the same species at

Common examples include metabolic rate, which has historically been described by Kleiber’s law as scaling roughly

Limitations include variation among taxa, temperature effects, developmental stage, and measurement error. While a powerful organizing

a
given
life
stage;
ontogenetic
allometry
examines
growth
trajectories
within
an
individual
over
time;
evolutionary
allometry
compares
scaling
patterns
across
species.
Analysts
typically
use
log-transformed
data
to
estimate
the
exponent
b
through
regression
and
may
apply
phylogenetic
methods
to
account
for
shared
ancestry
when
comparing
related
species.
with
body
mass
to
the
3/4
power.
Brain
size
often
shows
negative
allometry
with
body
size,
meaning
larger
animals
have
proportionally
smaller
brains.
Allometry
has
broad
applications
in
physiology,
ecology,
paleobiology,
and
evolutionary
biology,
aiding
in
the
interpretation
of
energy
needs,
ecological
roles,
and
functional
constraints.
principle,
allometric
relationships
are
not
universal
and
can
vary
with
phylogeny,
environment,
and
life
history.