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Geological Society, London, Special Publications; 1990; v. 49; p. 495-519;
DOI: 10.1144/GSL.SP.1992.049.01.31
© 1990 Geological Society of London

Evolution of the Oman Tethyan Continental Margin

Maastrichtian to early Tertiary stratigraphy and palaeogeography of the Central and Northern Oman Mountains

S. C. Nolan1, P. W. Skelton2, B. P. Clissold3 & J. D. Smewing1

1 Earth Resources Institute, University Innovation Centre, Singleton Park, Swansea SA2 8PP, UK
2 Department of Earth Sciences, The Open University, Milton Keynes, MK7 6AA, UK
3 , 51 Mountain Road, Brynamman, Dyfed SA18 1AN, UK

Maastrichtian to Tertiary sedimentary rocks outcrop extensively around the periphery of the Oman Mountains. They form part of a geologically distinct suite of strata deposited after obduction of the Semail ophiolite and thrusting of the Hawasina and Sumeini imbricates onto the eastern edge of the Arabian plate. The lithostratigraphy of Maastrichtian and early Tertiary rocks of the central and northern Oman Mountains is revised and a number of new formations are erected. The proto-Oman Mountains were emergent in the early Maastrichtian and were subject to subaerial erosion and weathering. NW and W of the mountains, gradual subsidence followed during the Maastrichtian, allowing for formation of a transgressive, onlapping sequence represented by the Qahlah (fluviatile to shallow marine terrigenous clastics) and Simsima (shallow shelf carbonate) Formations. More rapid subsidence NE of the mountains produced fan delta and submarine debris flow/turbidite apron sequences comprising the Al Khawd and Thaqab Formations respectively. A low-angle unconformity separates Tertiary strata from older units. During the Palaeogene, basinal and slope facies with debris flows and turbidite sequences were deposited directly upon the unconformity surface in rapidly subsiding basins NW (Muthaymimah Formation) and NNE (Ruwaydah Formation) of the Oman Mountains. Elsewhere, shallow carbonate shelf facies were extensively developed in less rapidly subsiding areas during the Palaeogene. The Palaeocene and early Eocene is represented by the Jafnayn Limestone Formation. This is succeeded and overlapped by a variety of later Eocene units. ENE and E of the mountains early Eocene regression is marked by restricted facies of the Rusayl Formation. Overlying the Rusayl Formation are shallow, open shelf limestones of the Seeb Formation which is rich in alveolinid and nummulitic foraminifera. On the Arabian side of the mountains the Rusayl Formation is not developed and the Jafnayn Formation is succeeded either by the Seeb Formation or fine-grained, faunally restricted limestones and marls of the Fahud Beds, which represent intra-shelf facies.





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Geological Society, London, Memoirs, 2006; 32: 235 - 261.
[Abstract] [PDF]