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pyritepreserved

Pyritepreserved is a term used in geology and paleontology to describe fossils or organic remains preserved predominantly by pyrite, the iron sulfide FeS2, through a diagenetic process called pyritization. In pyrite-preserved specimens, original tissues may be replaced by pyrite crystals or encased within them, sometimes preserving fine cellular details uncommon in other modes of preservation.

Formation: Pyritization occurs in reducing, anoxic marine sediments where sulfate-reducing bacteria generate hydrogen sulfide. Iron released

Significance: Pyrite-preserved remains can reveal soft-tissue morphology and microstructural details, contributing to reconstructions of ancient ecosystems

Occurrence: Pyritized preservation is reported in many basins worldwide, especially in black shales and other reducing

Identification: Detection typically relies on optical microscopy, scanning electron microscopy, and mineralogical analyses such as X-ray

See also: Pyritization; Fossil preservation; Diagenesis.

from
surrounding
minerals
combines
with
sulfide
to
form
pyrite,
which
precipitates
around
organics
or
replaces
them.
Rapid
burial
and
low
oxygen
favor
pyrite
formation
and
can
produce
framboidal
or
euhedral
pyrite
textures.
Over
time,
original
pyrite
may
weather
to
goethite
or
limonite,
altering
the
preservation
signature.
and
diagenetic
pathways.
Preservation
quality
depends
on
stable
pyrite
and
subsequent
mineral
alteration.
sediments
from
the
Precambrian
to
the
Paleozoic.
It
is
commonly
found
in
small
invertebrates
and
plant
fragments,
and
less
frequently
in
vertebrates,
depending
on
local
conditions.
diffraction
or
Raman
spectroscopy
to
confirm
pyrite
and
distinguish
it
from
later
sulfides.