dc.description.abstract | The Trepča Pb-Zn-Ag skarn deposit in Kosovo is spatially and temporarily related to the
phreatomagmatic breccia of Oligocene age (~23Ma). The deposit shows features typical for
skarn deposits worldwide, including a stage of isochemical metamorphism, a prograde stage of
an anhydrous, low oxygen and low sulfur fugacity character, and a retrograde stage characterized
by an increase in the water activity as well as by an increase in oxygen and sulfur fugacities. The
mineralization is hosted by the recrystallized Upper Triassic limestone. The prograde
mineralization consists mainly of Ca-Fe-Mn±Mg pyroxenes. The host recrystallized limestone
at the contact with the prograde (skarn) mineralization has an increased content of Fe, Mn, Mo,
As, Au, Cs, Ga, REE and Y suggesting their transport by infiltrating magmatic fluids. The
decreased d 13C and d 18O values reflect the contribution of magmatic CO2. The retrograde
mineral assemblage comprises ilvaite, magnetite, arsenopyrite, pyrrhotite, marcasite, pyrite,
Ca-Fe-Mn±Mg carbonates and quartz. Hydrothermal ore minerals, mostly galena, sphalerite
and pyrite, were deposited contemporaneously with the retrograde stage of the skarn
development. Syn-ore and post-ore carbonates reflect the diminishing influence of magmatic
CO2. Syn-ore carbonates are enriched in Fe, Mg, Mn, many chalcophile elements, including Ag,
As, Bi, Cd, Cu, Pb, Sb and Zn, as well as in Au, Y and REE. The post-ore stage accompanied
the precipitation of a significant amount of Ca-rich carbonates including travertine deposits at
the deposit surface.
The phreatomagmatic breccia was developed along a NW dipping contact between the ore
bearing recrystallized limestone and the overlying schist. It has an inverted cone shape with
vertical extension up to 800 m and a diameter of up to 150 m. The upper part of the diatreme
(an underground segment of the phreatomagmatic breccia) is characterized by the presence of a
hydrothermally altered rootless quartz-latite dyke surrounded by an unsorted polymict breccia
mantle. Despite the alteration processes, the dyke has a preserved porphyritic texture. Partly
preserved sanidine, accompanied with a mixture of muscovite and quartz, reflects a near-neutral
to weakly acidic environment. The clasts of country rocks and skarn mineralization underwent
intense milling and mixing due to repeated magmatic penetrations. Sericitization of the breccia
matrix, locally accompanied with minor kaolinitization, point to an increased water activity
under near-neutral to weakly acidic conditions. Large fragments originally composed of
anhydrous skarn minerals (pyroxenes) are usually completely altered to a mixture of fibroradial
magnetite, quartz and various amounts of carbonates suggesting an increase in oxygen fugacity.
Their pyrite rims reflect that the increase in oxygen fugacity was followed by an increase in
sulfur fugacity. The clast predominantly composed of Fe-sulfides and minor Bi-sulfides suggest
that the increase in sulfur fugacity was locally sufficient to complete sulfidation of hedenbergite
to pyrrhotite and/or pyrite.
Although the phreatomagmatic breccia at the Trepča Pb-Zn-Ag skarn deposit does not carry
significant amounts of ore mineralization, its formation was crucial for ore deposition.
Phreatomagmatic explosions and formation of the breccia turned the system from the lithostatic
to hydrostatic regime and triggered the retrograde stage increasing the water activity and oxygen
fugacity in the system. In addition, cooling and decompression of the system contributed to
more effective degassing of magmatic sulfur and increased the sulfur fugacity. | en_US |