Depositional evolution of a progradational to aggradational,mixed-influenced deltaic succession: Jurassic Tofte and Ile formations,southern Halten Terrace,offshore Norway |
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| Affiliation: | 1. Inst. Environmental and Marine Sciences, Universidad Católica de Valencia, Guillem de Castro 94, 46001 Valencia, Spain;2. Dpto. de Oceanografia Física, Química e Geológica, Instituto Oceanográfico, Universidade de São Paulo, Praça do Oceanográfico 191, São Paulo, Brazil;3. Instituto Geológico y Minero Español, Ríos Rosas 23, 28003 Madrid, Spain;4. National Oceanography Centre, University of Southampton, Southampton, United Kingdom;5. ESGEMAR, M5 Pier 7, Málaga Port, 29001 Málaga, Spain;1. Department of Earth Science, University of California Santa Barbara, 1006 Webb Hall, Santa Barbara, CA 93106, USA;2. Institute of Marine Sciences, University of North Carolina, Chapel Hill, 3431 Arendell St., Morehead City, NC 28557, USA;3. Department of Earth Sciences, Rice University, 6100 S. Main, Houston, TX 77005, USA;1. Department of Geological Sciences, The University of Texas at Austin, 1 University Station, C1100, Austin, TX 78712, USA;2. National Institute for Marine Geology and Geoecology, 23-25 Dimitrie Onciul St., Bucharest 024053, Romania |
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| Abstract: | Predicting the hydrodynamics, morphology and evolution of ancient deltaic successions requires the evaluation of the three-dimensional depositional process regime based on sedimentary facies analysis. This has been applied to a core-based subsurface facies analysis of a mixed-energy, clastic coastal-deltaic succession in the Lower-to-Middle Jurassic of the Halten Terrace, offshore mid-Norway. Three genetically related successions with a total thickness of 100–300 m and a total duration of 12.5 Myr comprising eight facies associations record two initial progradational phases and a final aggradational phase. The progradational phases (I and II) consist of coarsening upward successions that pass from prodelta and offshore mudstones (FA1), through delta front and mouth bar sandstones (FA2) and into erosionally based fluvial- (FA3) and marine-influenced (FA4) channel fills. The two progradational phases are interpreted as fluvial- and wave-dominated, tide-influenced deltas. The aggradational phase (III) consists of distributary channel fills (FA3 and FA4), tide-dominated channels (FA5), intertidal to subtidal heterolithic fine-grained sandstones (FA6) and coals (FA7). The aggradational phase displays more complex facies relationships and a wider range of environments, including (1) mixed tide- and fluvial-dominated, wave-influenced deltas, (2) non-deltaic shorelines (tidal channels, tidal flats and vegetated swamps), and (3) lower shoreface deposits (FA8). The progradational to aggradational evolution of this coastal succession is represented by an overall upward decrease in grain size, decrease in fluvial influence and increase in tidal influence. This evolution is attributed to an allogenic increase in the rate of accommodation space generation relative to sediment supply due to tectonic activity of the rift basin. In addition, during progradation, there was also an autogenic increase in sediment storage on the coastal plain, resulting in a gradual autoretreat of the depositional system. This is manifested in the subsequent aggradation of the system, when coarse-grained sandstones were trapped in proximal locations, while only finer grained sediment reached the coastline, where it was readily reworked by tidal and wave processes. |
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| Keywords: | Ror Formation Fangst Group Facies analysis Mixed energy delta Tide dominated Tide influenced |
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