Abstract
AbstractWave‐dominated deltas and strandplains make up the majority of the world’s depositional coastlines, provide an important record of sea‐level change and serve as hydrocarbon reservoirs worldwide. Satellite imagery forms a great source of data on the recent depositional history of modern deltaic systems. In the subsurface, three‐dimensional seismic and well data make the three‐dimensional assessment of large‐scale deltaic reservoir bodies possible but struggle to resolve internal heterogeneities away from wells. To bridge this gap in characterizing deltaic sedimentation, this study combines measurements from both the shallow, high‐resolution section of three‐dimensional seismic data of the Eocene Halibut Delta in the Outer Moray Firth, offshore Scotland, with information from Google Earth’s satellite imagery and digital elevation model on south‐east Brazilian river deltas (São Francisco, Jequitinhonha, Doce and Paraíba do Sul) to present a means of predicting the location of fluvial sediment input points with respect to clinoform geometry. The key measurement for this study is the delta front and clinoform dip which has been measured at multiple locations along strike of the coastline of the examined deltas. Dip decreases away from the inferred river mouth for all deltas by 50% within 7.2 km. The river mouth location was inferred from the position of palaeo‐channels visible on the delta top and coarse sediment recorded in grab samples offshore for the south‐east Brazilian deltas, and from imprints of palaeo‐channels on attribute maps for the Eocene Halibut Delta. In summary, this study found that delta front dip is steepest at the location of the river mouth and decreases, along with grain size, away from it. This suggests that high dip values correlate with the proximity to the channel mouth and can be used to predict fluvial channel facies in modern deltaic systems and subsurface reservoirs.
Highlights
Wave-dominated deltas and strandplains comprise 62% of the world’s depositional coastlines (Nyberg & Howell, 2016)
Delta front dip is a modern proxy for clinoform dip and provides an opportunity to compare modern and ancient systems
Clinoform dip and delta front dip are not measured on deposits of the same hierarchy in this classification scheme the results of both study areas are compared here
Summary
Wave-dominated deltas and strandplains comprise 62% of the world’s depositional coastlines (Nyberg & Howell, 2016) They provide an important record of sea-level change in the recent past (Dominguez et al, 1987; Bhattacharya & Giosan, 2003; Anthony, 2015) and they serve as arable living space for a large part of the world’s population (Small & Nicholls, 2003; Nicholls et al, 2007). Such systems are important hydrocarbon reservoirs in the subsurface (Kantorowicz et al, 1987; Løseth & Ryseth, 2003; Howell et al, 2008; Hampson et al, 2015). The shallow, high frequency section of conventional 3D seismic data is an often-overlooked resource that offers high resolution insights into sedimentary and stratigraphic architecture
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