Depositional controls on sediment properties in dryland rivers: Influence on near-surface diagenesis

Henares S, Donselaar EM, Caracciolo L (2020)


Publication Language: English

Publication Type: Journal article, Review article

Publication year: 2020

Journal

Book Volume: 208

URI: https://www.sciencedirect.com/science/article/abs/pii/S0012825220303433?via=ihub

DOI: 10.1016/j.earscirev.2020.103297

Abstract

Sandy braided dryland rivers, deposited under arid to semi-arid conditions, constitute important clastic reservoirs worldwide whose reservoir quality reflects the effect of primary sediment properties on near-surface diagenetic processes. A literature review is presented of existing facies models, based on geomorphological analysis of modern perennial braided rivers, further illustrated with own outcrop and subsurface examples of dryland river deposits in: (a) Argana Basin (Triassic, Morocco), (b) Iberian Meseta (Triassic, Central SE Spain), (c) Huesca Fluvial Fan (Miocene, Spain) and (d) Rotliegend hydrocarbon reservoir in the Southern Permian Basin (The Netherlands). The facies models, combined with the analyses of the rock record, provides a comprehensive depositional framework where the influence of depositional characteristics, such as grain-size and sorting variations, interstitial clay distribution and composition and amount of intrabasinal components, on the extent and pathway of near-surface mechanical and chemical processes can be investigated.

The particular dryland setting is characterized by prolonged periods of inactivity and short, episodic periods of peak discharge, which lead to the transport and deposition of poorly-sorted, clay-rich extra- and intraformational conglomeratic sediments upstream. Downstream, channels, mid-channel and bank-attached bars develop with conspicuous anisotropic trough and tabular cross-stratified sandstones. The most common near-surface diagenetic processes that alter the textural properties of these deposits are the rapid decrease of porosity and permeability due to grain-rearrangements and mechanical compaction of mud intraclasts along with pervasive early carbonate cementation. The results of this study will help to better configure the boundary conditions (e.g., external versus local supply for carbonates cements) in state-of-the-art reservoir quality forward models for ancient dryland river sandstones, which are especially prominent in Devonian, Permian, Triassic and Jurassic reservoir settings.

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APA:

Henares, S., Donselaar, E.M., & Caracciolo, L. (2020). Depositional controls on sediment properties in dryland rivers: Influence on near-surface diagenesis. Earth-Science Reviews, 208. https://doi.org/10.1016/j.earscirev.2020.103297

MLA:

Henares, Saturnina, Eric Marinus Donselaar, and Luca Caracciolo. "Depositional controls on sediment properties in dryland rivers: Influence on near-surface diagenesis." Earth-Science Reviews 208 (2020).

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