The Lithological, Stratigraphical, Structural Control of Quartzites Hosting Sulphide Mineralisation in the Proterozoic Shillong Group, Meghalaya, India
- 533 Downloads
The White Quarzite belonging to the Lower Shillong Group, overlying the older Archeans, in the Proterozoic Shillong Group of rocks host the sulphide mineralization. The sulphide minerals are argentiferous galena and subordinate auriferous arsenopyrite, loellignite, gersdorffite, safflorite, pyrite and pyrohotite occurring as bed - like or lens - like ore bodies along the compositions bands. Surface geochemical prospecting revealed Pb values of (maximum) 29%, silver values (maximum) of 0.3%, and gold values ranging from 50 to 260 ppb. The lithological, stratigraphic and structural controls of the sulphide mineralization have been established. The syn-sedimentary/syn-genetic Pb (+Ag) mineralization was remobilized during the F1 folding. The Pb/(Pb + Zn) ratio of 0.93 and co-existence of detrital monazite and zircon suggests deposition of the sediments in shallow marine condition. The S– isotopic analysis of the samples have revealed δ34 S values with an average of +9.3‰. The positive δ34S value shows derivation of sulphur due to sulphate reduction within a limited reservoir in a sedimentary domain and bears no mantle signature. Sulphide ore minerals are crystalline and unzoned, indicating crystallaization under equilibrium condition. Mineral assemblage of the host rock and mineralized zones indicate biotite-grade of regional metamorphism. Pb–Pb age of the galena being between 1530 and 1550 Ma interpreted the age of the mineralization.
KeywordsShillong group Sulphide mineralisation Lithological, stratigraphical, structural control
- 1.Bjorlykke A., Songster, D.F.: Eco.Geol. 75th Annuv. pp. 179–213 (1981)Google Scholar
- 2.Mazumder, S.K.: A summary of the precambrian geology of the Khasi Hills. Meghalaya. Misc. Pub. Geol. Surv. India 23(2), 311–324 (1976)Google Scholar
- 3.Mitra, S.K.: Control of lead-silver mineralisation. Mawmaram Area, East Khasi Hills Meghalaya. India Minneral 53(3&4), 223–234 (1999)Google Scholar