Abstract
© 2018 Geological Society of America. The interaction of marine (tides and waves) and fluvial processes determines the sedimentary fill of coastal systems in the fluvial-tomarine (FTM) transition zone. Despite frequent recognition of tidal and wave influence in modern and ancient systems, our understanding of the relative importance of marine processes and their impact on mud deposition and reservoir architecture is limited. This study combined subsurface field observations and numerical simulations to investigate the relative importance of river flow, tides, waves, and mud input in governing the sedimentary fill in funnel-shaped basins along the FTM transition. Model simulations show a self-forming bar-built estuary with dynamic channels and sandy bars flanked by mud flats, which is in agreement with trends observed in nature. From three-dimensional virtual sedimentary successions, statistical tendencies for mud distribution and thickness were derived for the spectrum of marine and fluvial processes, and these values provide quantitative information on the net-to-gross ratio and mud architecture. The relative influence of marine and fluvial processes leads to a predictable facies organization and architecture, with muddier and more heterogeneous sediments toward the flanks. For the first time, our simulations allow the sedimentary fill in basins along the FTM transition to be related explicitly to hydrodynamic conditions, providing new insights into the morphosedimentary evolution of coastal systems, with implications for sequence stratigraphy.
Highlights
The fluvial-to-marine (FTM) transition represents one of the most dynamic environments on Earth
The relative influence of river flow, waves, and tidal currents determines the type of delta (Galloway, 1975) or estuary and has important
Our study quantifies the importance of river flow, waves, tides, and mud supply in shaping the geometry and sedimentary architecture of funnel-shaped basins along the FTM transition
Summary
The fluvial-to-marine (FTM) transition represents one of the most dynamic environments on Earth. Depositional environments along the FTM transition such as deltas and estuaries are prominent features in sequence stratigraphic analyses (Dalrymple et al, 1992; MacEachern and Pemberton, 1994), and their ancient deposits host some of the world’s largest hydrocarbon resources, such as the Lower Cretaceous Athabasca Oil Sands (Canada; Wightman and Pemberton, 1997). Tide-dominated estuaries have a less pronounced tripartite facies distribution because tidal energy penetrates further than wave energy, and sands can be found in tidal channels along the length of the estuary. These basins are dominantly built of sand with muddy sediments primarily in tidal flats and marshes along the flanks. Wave-dominated sedimentary features are commonly preserved within tide-dominated estuarine sequences and vice-versa (Tessier, 2012)
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