There have been many disagreements regarding the depositional environment of the Oligocene Tajau Sandstone Member of the Kudat Formation, Northern Sabah. We present here, the first detailed sedimentary facies analysis for the Tajau Sandstone Member, exposed on the Kudat Peninsula. The identified facies are interpreted as the deposits of subaqueous sediment density flows, which are common processes in deep marine depositional settings. These include debrites, hyperconcentrated density flow deposits, and turbidites. Several of the turbidite facies display evidence for hydraulic jumps, which are also common processes in deepwater settings and probably indicate changes in slope topography or loss of flow confinement. Trace fossils characteristi...
Interest has been stimulated by discovery of hydrocarbons in turbiditic sandstones interpreted as su...
A detailed facies analysis is presented for the Paleocene to middle Eocene Kapit and Pelagus members...
Thin-bedded turbidites dominate the deep-water succession of the Mio-Pliocene to Recent offshore Bru...
There have been many disagreements regarding the depositional environment of the Oligocene Tajau San...
A detailed study of sedimentology and stratigraphy of the Kudat Formation (Oligocene - Early Miocen...
The Kudat Formation, formed the major rock unit of Kudat Peninsula in the northern tip of Borneo Isl...
Deep-marine rocks of the Belaga Formation (Cretaceous-Eocene) in the Sibu-Tatau area, Sarawak, show ...
Trace fossil assemblages from a variety of outcropping tidal and shoreface facies in the Belait Form...
Northern Borneo is a geologically complex region believed to be influenced by the rifting and openin...
The Crocker Formation, Late Eocene to Middle Miocene in age, was deposited in a deep-marine environm...
The potential for long term growth of the EP sector within Sabah is heavily dependent on the success...
Deepwater lobes constitute a significant volume of submarine fans and are primarily believed to exhi...
Small benthic foraminifera have been fully extracted from the mudstone of Kudat Formation, Kudat, Sa...
Borneo was positioned in an exceedingly dynamic tectonic area throughout the Tertiary at the edge of...
Varieties of thirteen facies types were recognized in the Kuhlan Formation represented by red bed si...
Interest has been stimulated by discovery of hydrocarbons in turbiditic sandstones interpreted as su...
A detailed facies analysis is presented for the Paleocene to middle Eocene Kapit and Pelagus members...
Thin-bedded turbidites dominate the deep-water succession of the Mio-Pliocene to Recent offshore Bru...
There have been many disagreements regarding the depositional environment of the Oligocene Tajau San...
A detailed study of sedimentology and stratigraphy of the Kudat Formation (Oligocene - Early Miocen...
The Kudat Formation, formed the major rock unit of Kudat Peninsula in the northern tip of Borneo Isl...
Deep-marine rocks of the Belaga Formation (Cretaceous-Eocene) in the Sibu-Tatau area, Sarawak, show ...
Trace fossil assemblages from a variety of outcropping tidal and shoreface facies in the Belait Form...
Northern Borneo is a geologically complex region believed to be influenced by the rifting and openin...
The Crocker Formation, Late Eocene to Middle Miocene in age, was deposited in a deep-marine environm...
The potential for long term growth of the EP sector within Sabah is heavily dependent on the success...
Deepwater lobes constitute a significant volume of submarine fans and are primarily believed to exhi...
Small benthic foraminifera have been fully extracted from the mudstone of Kudat Formation, Kudat, Sa...
Borneo was positioned in an exceedingly dynamic tectonic area throughout the Tertiary at the edge of...
Varieties of thirteen facies types were recognized in the Kuhlan Formation represented by red bed si...
Interest has been stimulated by discovery of hydrocarbons in turbiditic sandstones interpreted as su...
A detailed facies analysis is presented for the Paleocene to middle Eocene Kapit and Pelagus members...
Thin-bedded turbidites dominate the deep-water succession of the Mio-Pliocene to Recent offshore Bru...
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