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evolutie

Evolutie is the process by which populations of organisms change over generations as heritable traits vary and differential survival and reproduction bias the gene pool. Over time, these changes can lead to adaptations to environments and, in some cases, the emergence of new species. Evolutie acts on populations rather than on individual organisms.

The primary mechanisms include natural selection, genetic drift, mutation, gene flow, and recombination. Natural selection favors

Evidence for evolutie comes from multiple sources. The fossil record reveals transitional forms and gradual changes

History and development of the theory trace to early ideas about change in living beings, with Charles

traits
that
increase
reproductive
success
in
a
given
environment.
Genetic
drift
causes
random
changes
in
trait
frequencies,
especially
in
small
populations.
Gene
flow
adds
or
removes
genetic
material
between
populations.
Mutations
introduce
new
genetic
variation,
while
recombination
reshuffles
alleles
during
reproduction.
Sexual
selection
can
shape
traits
related
to
mating
success.
over
time.
Comparative
anatomy
shows
structural
similarities
among
related
organisms.
Biogeography
explains
patterns
of
relatedness
across
geographic
regions.
Molecular
biology
and
genomics
reveal
shared
genetic
codes
and
congruent
phylogenies
among
living
groups.
Experimental
evolution
demonstrates
adaptive
changes
in
controlled
conditions
and
over
relatively
short
timescales.
Darwin
and
Alfred
Russel
Wallace
proposing
natural
selection
as
a
unifying
mechanism.
The
Modern
Synthesis
in
the
20th
century
integrated
Mendelian
genetics
with
natural
selection,
uniting
multiple
disciplines
under
evolutie.
Ongoing
research
extends
into
evo-devo,
population
genetics,
and
genomics,
refining
understanding
of
speciation,
adaptation,
and
constraints,
while
maintaining
a
neutral,
evidence-based
framework.