- Turkish Journal of Earth Sciences
- Vol: 22 Issue: 1
- Genesis of sedimentary- and vein-type magnesite deposits at Kop Mountain, NE Turkey
Genesis of sedimentary- and vein-type magnesite deposits at Kop Mountain, NE Turkey
Authors : Selahattin Kadir, Hasan Kolayli, Muhsin Eren
Pages : 98-114
Doi:10.3906/tar-1204-42
View : 8 | Download : 2
Publication Date : 9999-12-31
Article Type : Makaleler
Abstract :Sedimentary- and vein-type magnesites were deposited within and on ultramafic rocks of the Kop Mountain region in Bayburt province. In the field, magnesites are exposed along NE-SW trending normal faults and in fractures in the ultramafic rocks. Petrographic studies reveal that magnesite is predominantly micrite, but also occurs as microsparite formed by recrystallization of micrite. The ultramafic rocks hosting the magnesites consist of serpentinized olivine, hypersthene and diopside. Ni, Co and Ti contents of magnesites suggest precipitation from percolating water through the serpentinized ultramafic rocks. The sedimentary- and vein-type magnesites have different d18O and d13C values, characterizing formation under different conditions. Temperature estimates using the average d18O values reveal precipitation from water at ~24.5°C for sedimentary magnesite and ~37.0°C for vein-type magnesite. The d13C values of vein-type magnesites are distinctly more negative than those of sedimentary magnesites, indicating carbon isotopes derived from predominantly decarboxylation of organic sediments in shales and carbonate dissolution. Less negative d13C values in the sedimentary magnesite are mainly due to outgassing of mineralizing water. Our data suggest a petrogenetic model in which the surface water percolates through the ultramafic and sedimentary rocks becoming heated by volcanics at depth and enriched in Mg+2 and light carbon isotopes, followed by migration upward to form magnesite near the surface in ultramafic rocks as fracture-fill and as sediment at the surface.Keywords : Magnesite, sediment, vein, ultramafic rocks, Kop Mountain, mineralogy, and geochemistry.