Grain‐size variability within a mega‐scale point‐bar system, False River, Louisiana

Clift, Peter D.; Olson, Elizabeth D.; Lechnowskyj, Alexandra N.; Moran, Mary Grace; Barbato, Allison K.; Lorenzo, Juan M.

doi:10.1111/sed.12528

Cited by 22 publications

(11 citation statements)

References 88 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Normal gradation is a common element of fluvial point bar depositional models and is attributed to the progressive accumulation of finer overbank sediments over coarser thalweg sands as the channel migrates across the floodplain (e.g., Refs. [18,53,72,73]). Inherent to this model of formation is the notion that fluvial point bars are laterally mobile features, migrating over time through extension and down-valley translation (e.g., Refs.…”

Section: Down-core Trends In Grain Sizementioning

confidence: 99%

An Integrated Approach for Constraining Depositional Zones in a Tide-Influenced River: Insights from the Gorai River, Southwest Bangladesh

Bomer

Wilson

Datta

2019

Water

View full text Add to dashboard Cite

The tidal to fluvial transition (TFT) of estuaries and coastal rivers is one of the most complex environments on Earth with respect to the transportation and deposition of sediment, owing in large part to competing fluvial and marine processes. While there have been recent advances in the stratigraphic understanding of the TFT, it is still unclear whether these findings are site-specific or representative of mixed tidal-fluvial systems worldwide. Yet, research from this depositional domain holds profound societal and economic importance. For instance, understanding the underlying stratigraphic architecture of channel margins is critical for assessing geomorphic change for fluvio-deltaic settings, which are generally vulnerable to lateral channel migration and resultant erosion. Findings would also benefit paleo-geographic reconstructions of ancient tide-influenced successions and provide an analog for hydrocarbon reservoir models. In the Ganges-Brahmaputra Delta of Bangladesh, the Gorai River is one of two Ganges distributaries actively connected to the Bay of Bengal. With fluvial input from the Ganges and meso-scale (2–4 m range) tides at the coast, the Gorai exhibits a variety of hydrodynamic regimes across its 350-km reach, providing a unique opportunity to investigate along-channel depositional patterns across the TFT. This study integrates multiple datasets—core sedimentology, river channel bathymetry, and remote sensing—to provide a process-based framework for determining the relative position of sedimentary deposits within the tidal-fluvial continuum of the Gorai River. The results of this investigation reveal coincident, abrupt shifts in river channel morphology and sediment character, suggesting the occurrence of backwater-induced mass extraction of relatively coarse sediments (i.e., fine sand). Despite being situated in an energetic tidal environment, evidence of tidal cyclicity in cored sediments is relatively rare, and the bulk stratigraphy appears strongly overprinted by irregularly spaced cm- to dm-scale sediment packages, likely derived from monsoonal flood pulses. Such findings differ from previously-studied mixed tidal-fluvial systems and underscore the site-specific complexities associated with this depositional domain.

show abstract

Section: Down-core Trends In Grain Sizementioning

confidence: 99%

An Integrated Approach for Constraining Depositional Zones in a Tide-Influenced River: Insights from the Gorai River, Southwest Bangladesh

Bomer

Wilson

Datta

2019

Water

View full text Add to dashboard Cite

show abstract

“…Indeed, correlations between planform evolution (i.e. scroll‐bar pattern) and related point‐bar geometries were carried out for fluvial meanders (Pranter et al ., 2007; Ghinassi et al ., 2013, 2014; Ielpi & Ghinassi, 2014; Ghinassi & Ielpi, 2015; Yan et al ., 2017, 2019; Willis & Sech, 2018a; Ghinassi et al ., 2019a; Parquer et al ., 2019) along with models concerning along‐bend grain‐size distribution (Purkait, 2002; Frings, 2008; Smith et al ., 2009, 2011; Bhattacharyya & Bhattacharya, 2015; Ghinassi & Ielpi, 2015; Clift et al ., 2019; Hagstrom et al ., 2019). Comparable insights are conversely missing for intertidal meanders, whose planform evolution has been inferred only for short time intervals (Choi et al ., 2013; Ghinassi et al ., 2018b) and for which the spatial distribution of sediment grain size was mainly investigated with vertical, rather than along‐channel, trends (de Mowbray, 1983; Dalrymple et al ., 1990; Pearson & Gingras, 2006; Choi, 2011; Choi et al ., 2013; Choi & Jo, 2015).…”

Section: Introductionmentioning

confidence: 99%

Ontogeny of a subtidal point bar in the microtidal Venice Lagoon (Italy) revealed by three‐dimensional architectural analyses

et al. 2022

View full text Add to dashboard Cite

Sedimentological and architectural features of meandering subtidal channels are relatively unexplored, and their deposits are commonly investigated based on facies models set up for intertidal meandering channels. The Venice Lagoon (northern Adriatic Sea, Italy) is affected by a micro-tidal regime and hosts a dense network of active and buried tidal channels. It represents an excellent natural laboratory to improve the current knowledge on subtidal meander morphodynamics and related deposits. In this study, the integration of high-resolution geophysical images and core data allows reconstruction of the architectural three-dimensional model of a meandering subtidal palaeochannel, which is buried below a modern subtidal flat. The study palaeochannel was 35 m wide and 3 m deep, and formed three adjacent meander bends and related point bars. A detailed three-dimensional architectural reconstruction was carried out for deposits associated with one of these meander bends, that was crossed by a minor, low-sinuosity channel with two minor bank-attached bars. This reconstruction highlights that the study point bar has a horseshoe shape, which arose from the onset of bar accretion from an already-sinuous channel. Reconstructed growth stages of the studied bends show that point-bar accretion can follow different styles of planform transformation, also experiencing simultaneously landward (or seaward) deposition according to the dominant flow direction (i.e. local tidal asymmetry). The analyses show that planform transformations occurred in parallel with elevation changes of the related channel thalweg, which shaped pools with geometry varying with the radius of curvature of the bend. The present study highlights the relevance of high-resolution threedimensional reconstructions to link palaeomorphodynamic processes with related sedimentary products.

show abstract

“…For the solution analyzed concentrations of such elements as: Na, K, Mg, Ca, Fe, Mn, Cu, Zn, and Pb, the atomic absorption spectrometry (AAS) was used. Grain size composition of the ash samples, remaining after the solution was made in accordance with Clift et al (2019), was determined using a Mastersizer 3000 laser particle-size analyzer (Malvern). The relationship between the mean grain size and the sorting index (the so-called coordinate system) follows Mycielska-Dowgiałło and Ludwikowska-Kêdzia (2011).…”

Section: Geochemical and Sedimentological Analysesmentioning

confidence: 99%

Chironomidae Morphological Types and Functional Feeding Groups as a Habitat Complexity Vestige

et al. 2021

View full text Add to dashboard Cite

Chironomid (Diptera: Chironomidae) larvae play an important role in a wide range of aquatic ecosystems. The study focuses on Chironomidae trophic guilds and morphological types as indicator traits in reconstructions of habitat changes in shallow water bodies. Mentum and ventromental plates are important mouthparts whose shape depends on food type and feeding behavior. Chironomidae larvae strongly vary in the mode of life and feeding habits, representing almost every feeding group. Here we classified the mentum types into 16 groups and tested if they indicated similar past habitat changes as the Chironomidae functional feeding groups (FFGs), and tribes/subfamilies. Paleoecological data of biotic and abiotic proxies were derived from short sequences from a Late Glacial oxbow and a nearby medieval moat located in Central Poland. The study revealed that the habitat substratum structure, vegetation and physicochemical conditions are associated both with the feeding types and morphological traits. This provides a valuable tool for future reconstructions of habitat changes.

show abstract

Grain‐size variability within a mega‐scale point‐bar system, False River, Louisiana

Cited by 22 publications

References 88 publications

An Integrated Approach for Constraining Depositional Zones in a Tide-Influenced River: Insights from the Gorai River, Southwest Bangladesh

An Integrated Approach for Constraining Depositional Zones in a Tide-Influenced River: Insights from the Gorai River, Southwest Bangladesh

Ontogeny of a subtidal point bar in the microtidal Venice Lagoon (Italy) revealed by three‐dimensional architectural analyses

Chironomidae Morphological Types and Functional Feeding Groups as a Habitat Complexity Vestige

Contact Info

Product

Resources

About