TY - GEN
T1 - Integrated geophysical investigation for structures favourable to uranium mineralization in Dhofar Region, Sultanate of Oman
AU - Al Khirbash, S.
AU - Bernard, P.
AU - Narasimman, S.
AU - Al Hosni, T.
AU - Ebrahimy, A.
AU - Al-Mushani, M.
N1 - Publisher Copyright:
© 2018 EAGE.
PY - 2018
Y1 - 2018
N2 - The Proterozoic basement of the Dhofar region of Oman may be a potential source and trap for uranium and associated minerals as 30%-40% of the global production of Uranium comes from Proterozoic basins (Canada). Further, the reconnaissance surveys carried out during the late 1970s suggest the possibility of Uranium occurrence in this region. The emphasis (area of interest) for further detailed investigation lies on increased radiation levels for which the Neoproterozoic rocks of southern Oman and some members of the Huqf Supergroup in Al Wasta region can be considered as the major hosts for potential Uranium enrichment. An association of evaporates, C-rich shales, and accumulated hydrocarbons, presents a perfect geochemical trap for an initial concentration of elements such as Uranium, from where successive redistribution processes may lead to a Uranium enrichment/mineralization in a particular strata. Accordingly, a detailed geological, geochemical and geophysical investigations were carried out in the recent past in a selected couple of areas. The acquired geophysical data such as Radiometric, Magnetic and VLF-EM (Very low frequency electromagnetic) were processed and interpreted in addition to in situ XRF analysis and geochemical laboratory investigation are presented.
AB - The Proterozoic basement of the Dhofar region of Oman may be a potential source and trap for uranium and associated minerals as 30%-40% of the global production of Uranium comes from Proterozoic basins (Canada). Further, the reconnaissance surveys carried out during the late 1970s suggest the possibility of Uranium occurrence in this region. The emphasis (area of interest) for further detailed investigation lies on increased radiation levels for which the Neoproterozoic rocks of southern Oman and some members of the Huqf Supergroup in Al Wasta region can be considered as the major hosts for potential Uranium enrichment. An association of evaporates, C-rich shales, and accumulated hydrocarbons, presents a perfect geochemical trap for an initial concentration of elements such as Uranium, from where successive redistribution processes may lead to a Uranium enrichment/mineralization in a particular strata. Accordingly, a detailed geological, geochemical and geophysical investigations were carried out in the recent past in a selected couple of areas. The acquired geophysical data such as Radiometric, Magnetic and VLF-EM (Very low frequency electromagnetic) were processed and interpreted in addition to in situ XRF analysis and geochemical laboratory investigation are presented.
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M3 - Conference contribution
AN - SCOPUS:85050157085
T3 - Saint Petersburg 2018: Innovations in Geosciences - Time for Breakthrough
BT - Saint Petersburg 2018
PB - European Association of Geoscientists and Engineers, EAGE
T2 - 8th Saint Petersburg International Conference and Exhibition: Innovations in Geosciences - Time for Breakthrough
Y2 - 9 April 2018 through 12 April 2018
ER -