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protolith

A protolith is the original rock from which a metamorphic rock formed before metamorphism. It represents the pre-metamorphic parent material and can be igneous, sedimentary, or, less commonly, another metamorphic rock. The composition and texture of the protolith influence the mineral assemblages and textural changes that develop during metamorphism, though metamorphism often modifies or recrystallizes these features.

During metamorphism, existing minerals respond to changing pressure, temperature, and chemical conditions by recrystallizing and by

Determining the protolith involves integrating mineralogical and chemical analyses, field relationships, and sometimes isotopic data. However,

Common protolith–metamorphic rock relationships include pelitic protoliths yielding schists and gneisses, calcareous protoliths producing marbles, mafic

forming
new
minerals.
As
a
result,
metamorphic
rocks
typically
retain
some
chemical
or
textural
clues
of
their
protolith,
while
acquiring
new
features
characteristic
of
their
metamorphic
conditions.
The
protolith
concept
helps
petrologists
interpret
metamorphic
histories,
the
inferred
tectonic
setting,
and
the
evolution
of
Earth's
crust.
metamorphism
and
metasomatism
can
overprint
or
obscure
original
features,
making
protolith
identification
challenging.
In
some
cases,
the
protolith
is
inferred
from
characteristic
metamorphic
facies
or
from
remnants
of
original
textures
such
as
bedding
in
pelitic
rocks
or
lithic
components
in
metasedimentary
rocks.
protoliths
forming
amphibolites
or
eclogites,
and
quartz-rich
sandstones
becoming
quartzites.
The
protolith
concept
remains
central
to
understanding
metamorphic
processes,
inheritance,
and
the
sequential
history
of
metamorphic
rocks.