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diagenes

Diagenes is not a widely recognized term in mainstream geology or related sciences. It is likely a misspelling or shorthand for diagenesis, the set of processes that affect sediments after deposition and before or during lithification. In some contexts, diagenes may be used informally to refer to diagenetic changes, but it does not have a standard, standalone definition in major reference works.

In geology, diagenesis encompasses physical, chemical, and biological changes that convert loose sediment into sedimentary rock.

Diagenetic changes are governed by burial history, temperature, pressure, pore-water chemistry, fluid flow, and the supply

A common framework divides diagenesis into stages such as eogenesis (early diagenesis near the surface), mesogenesis

This
occurs
at
conditions
lower
than
those
required
for
metamorphism
and
typically
involves
modifications
to
porosity
and
mineralogy
without
major
changes
in
rock
texture.
Common
diagenetic
processes
include
compaction,
cementation
by
minerals
precipitated
from
pore
waters
(such
as
calcite
or
silica),
dissolution,
replacement
of
minerals,
and
recrystallization.
Microbial
activity
can
also
influence
diagenetic
pathways
by
altering
pore-water
chemistry
and
producing
authigenic
minerals.
of
minerals
and
ions
in
solution.
They
can
produce
recognizable
textures
such
as
cemented
zones,
stylolites,
pore-fillarion,
and
mineral
boundaries
that
record
diagenetic
events.
The
degree
of
diagenesis
affects
porosity
and
permeability,
with
significant
implications
for
hydrocarbon
reservoirs,
groundwater
systems,
and
sedimentary
rock
properties.
(progressive
burial
during
deeper
diagenesis),
and
telogenesis
(late
diagenesis
associated
with
uplift
or
deep
burial
changes).
While
useful,
these
terms
are
not
universally
employed,
and
other
classifications
exist
depending
on
regional
or
lithological
context.