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MALPAS, JACQUI A., University of Manchester, Dept. of Earth Sciences, Manchester, UK

ABSTRACT: Integrated Sedimentological and Palaeontological Analysis of Marine Flooding Surfaces: A Case Study of the Miocene, Nukhul Formation, Gulf of Suez

Breaks in sedimentation are commonly recorded within sedimentary successions as distinctive stratal surfaces. These surfaces form as a result of the interaction of depositional, biological and diagenetic processes. In ramp settings there are gradual along-strike and down-dip changes in facies. In contrast, where tectonics exert a major control on accommodation, rapid changes in stratal surface characteristics are common.

A study of the well-exposed marine flooding surfaces within the Miocene, syn-rift Nukhul Formation sediments, Gulf of Suez, has identified rapid variations in surface character associated with tectonic faulting. The regionally correlatable marine flooding surfaces show considerable changes over 12 km2.

In proximal settings, the sandstones have calcite-cemented upper surfaces colonised by oysters with Thalassinoides networks. Down-dip, the sandstones rapidly shale-out into bioturbated mudstones, with the unit tops marked by concretions. The cements are both ferroan and non-ferroan calcite, and pyrite with dolomite concretions within the basinal mudstones.

Based on this evidence, the marine flooding surfaces are interpreted as resulting from a sedimentary hiatus allowing time for colonisation by both epi- and infaunal organisms and time for bacterially-mediated carbonate cement precipitation processes to proceed.

The variation indicates that along-strike and down-dip changes in accommodation have a direct influence on the sedimentological, biological and early diagenetic processes operating during marine flooding to create rapidly changing, distinctive stratal surfaces.

AAPG Search and Discovery Article #90909©2000 AAPG Foundation Grants-in-Aid