Evolution of fluvial meander-belt deposits and implications for the completeness of the stratigraphic record

Durkin, Paul R.; Hubbard, Stephen M.; Holbrook, John; Boyd, Ron

Title: Evolution of fluvial meander-belt deposits and implications for the completeness of the stratigraphic record
Creator: Durkin, Paul R.; Hubbard, Stephen M.; Holbrook, John; Boyd, Ron
Relation: Bulletin of the Geological Society of America Vol. 130, Issue 5-6, p. 721-739
Publisher Link: http://dx.doi.org/10.1130/B31699.1
Publisher: Geological Society of America
Resource Type: journal article
Date: 2018
Description: The fragmentary nature of the stratigraphic record is particularly evident with respect to fluvial deposits, which are characterized by a hierarchy of depositional units deposited over a wide range of time scales and sedimentation rates. We quantified stratigraphic completeness in meander-belt deposits through deducing the total area of bar sedimentation versus what is ultimately preserved in the depositional record, using area as a surrogate metric for sediment volume. Data sets were evaluated for a numerical model, the modern Mississippi River valley, and the Cretaceous McMurray Formation. In each data set, the evolutionary history of a series of meander-belt elements was discerned. Migrated area between successive reconstructed paleochannel positions was measured, representing: total area of net bar migration (MA), the area of bar preserved (PA), and percent of bar preserved (PA/MA), at the accretion package, bar, and meanderbelt scale. Results of our analysis show that the average preservation percent ranges from 27.3% to 67.8% for an accretion package, 35.0% to 85.1% for a bar, and 38.2% to 67.6% for a meander belt. The processes that lead to a decrease in preservation include intra-meanderbend erosion (due to downstream translation or bar rotation), and increasing meanderbend sinuosity and eventual cutoff (neck and chute), as well as inter-meander-bend erosion due to avulsion and subsequent migration of the meandering channel. The results of this study document a decrease in preservation over time that follows a natural logarithmic function of decay; we have termed this the "survivability" curve. The results presented here document a systematic, monotonic decrease in preservation over time, which is consistent regardless of the spatial or temporal scale and agrees with probabilities of preservation at long time scales proposed by previous workers. A comparison between data sets allows for an estimation of the time span represented by meander-belt deposits in the deep time record.
Subject: fluvial deposits; stratigraphic record; channel migration; erosion
Identifier: http://hdl.handle.net/1959.13/1387185
Identifier: uon:32550
Identifier: ISSN:0016-7606
Language: eng
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