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microbemineral

Microbemineral refers to minerals whose formation, alteration, or organization is driven by microbial activity at the mineral–fluid interface. The term encompasses minerals precipitated directly by microbial metabolism as well as minerals whose textures, isotopic signatures, or crystal chemistry are strongly influenced by microbial processes. It is closely related to biomineralization and microbe–mineral interactions but is often used to emphasize microbe-driven mineral formation in mixed biological–geochemical settings.

Mechanisms include anaerobic and aerobic redox reactions; photosynthetic activity raising pH; enzymatic pathways producing inorganic carbonates;

Geographically, microbeminerals are found in soils, sediments, aquifers, marine environments, hydrothermal systems, and permafrost regions. They

Study approaches combine microscopy, spectroscopy, and diffraction techniques to characterize mineralogy and microbe–mineral interfaces, with stable

extracellular
polymeric
substances
providing
nucleation
templates;
indirect
effects
via
pH,
redox
potential,
and
dissolved
inorganic
carbon.
Common
outcomes
are
carbonate
minerals
such
as
calcite
and
dolomite;
iron
sulfides
like
pyrite;
iron
hydroxides;
silica;
phosphate
minerals.
These
processes
can
create
distinct
mineral
textures,
morphologies,
and
isotopic
signatures
that
aid
in
interpreting
past
and
present
microbial
activity.
contribute
to
large-scale
biogeochemical
cycles
of
carbon,
sulfur,
and
iron,
influence
the
preservation
of
organic
matter
in
sediments,
and
can
affect
rock
weathering
and
soil
formation.
Potential
applications
include
bioremediation
through
metal
immobilization,
bioleaching,
and
the
synthesis
of
novel
materials
inspired
by
natural
biomineralization
pathways.
isotope
analyses
and
molecular
biology
methods
to
link
mineral
features
to
microbial
communities
and
metabolisms.