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sulfuroxidation

Sulfuroxidation is the chemical process by which reduced forms of sulfur or sulfur-containing compounds are oxidized to higher oxidation states, most commonly to sulfate (SO4^2−). In natural systems this oxidation can occur abiotically in the presence of oxygen and water, or biologically mediated by sulfur-oxidizing microorganisms.

Biotic sulfuroxidation is carried out by chemolithoautotrophic bacteria such as Acidithiobacillus and Thiobacillus species. These organisms

Pathways include oxidation of sulfide (S^2−) and elemental sulfur (S) to sulfate, and partial oxidation to intermediates

Applications and implications: in geology and environmental science, sulfuroxidation drives weathering of sulfide minerals, contributing to

derive
energy
from
electrons
donated
by
reduced
sulfur
compounds
and
transfer
them
to
electron
acceptors
like
oxygen
or
nitrate,
producing
sulfate
and
acidity
as
byproducts.
such
as
thiosulfate
(S2O3^2−)
or
sulfite
(SO3^2−).
The
exact
products
depend
on
the
substrate,
redox
conditions,
and
microbial
community
involved.
acid
mine
drainage
and
the
mobilization
of
metals.
In
industry
and
mining,
controlled
sulfuroxidation
is
exploited
in
biomining
and
bioleaching
to
extract
metals
from
sulfide
ores;
related
oxidation
pathways
are
also
connected
to
the
production
of
sulfuric
acid
in
industrial
processes.
Overall,
sulfuroxidation
is
a
key
component
of
the
global
sulfur
cycle,
influencing
acidity,
mineral
dissolution,
and
metal
mobility
in
both
natural
and
engineered
systems.