AJ Mitten
Controls on the deposition and preservation of architectural elements within a fluvial multi-storey sandbody
Mitten, AJ; Howell, LP; Clarke, S; Pringle, J
Abstract
Architectural elements of fluvial multi-storey sandbodies provide principal controls on the distribution of meso-scale (100–101?m scale) heterogeneity and reservoir quality. Consequently, it is valuable to understand the deposition and preservation of sedimentary architecture in such systems in relation to autogenic (stream capture and avulsion) and allogenic controls (subsidence rates, climate and sediment supply). The aims of this study are to quantify the architectural and erosional nature of a fluvial multi-storey sandbody and to establish the effects of downstream distance and subsidence rates upon the preservation of architectural elements, using the Lower Castlegate Sandstone, Utah, USA, as an example. Quantitative architectural element analysis and palaeodischarge reconstructions were undertaken from eight locations using sedimentary logs and three terrestrial photogrammetric outcrop datasets along a 150?km down-dip profile. These observations were supplemented by burial history analysis of ten wells across the same profile. Results show the Lower Castlegate comprises channel-fill, downstream accretion, lateral accretion, upstream accretion and overbank elements. From these observations, calculations of sinuosity and flow depths along with architectural geometric analysis provide evidence of stream capture contemporaneous with foreland basin subsidence. The preservation of lateral accretion and overbank elements is limited within the distal portion of the multi-storey sandbody, as a result of local avulsion and limited subsidence rates. Results demonstrate that complex sedimentary architecture can form in fluvial multi-storey sandbodies as a product of variable discharge rates, the fluvial graded profile and spatially variable aggradation rates, driven principally by subsidence rates. The use of meso-scale architectural analysis, with analysis of in-channel sinuosity and hydrodynamics, along with erosional bounding surfaces, has helped to complemented basin-scale interpretations of fluvial architecture.
Citation
Mitten, A., Howell, L., Clarke, S., & Pringle, J. (2020). Controls on the deposition and preservation of architectural elements within a fluvial multi-storey sandbody. Sedimentary Geology, https://doi.org/10.1016/j.sedgeo.2020.105629
Acceptance Date | Feb 29, 2020 |
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Publication Date | Mar 6, 2020 |
Journal | Sedimentary Geology |
Print ISSN | 0037-0738 |
Publisher | Elsevier |
DOI | https://doi.org/10.1016/j.sedgeo.2020.105629 |
Keywords | Architectural elements, Lower Castlegate Sandstone, Multi-storey sandbody, Sequence stratigraphy |
Publisher URL | https://doi.org/10.1016/j.sedgeo.2020.105629 |
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Manuscript_mitten_2020_castlegate_preservation_for_keele.docx
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Publisher Licence URL
https://creativecommons.org/licenses/by-nc-nd/4.0/
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