Abstract
AbstractThe adequate documentation and interpretation of regional‐scale stratigraphic surfaces is paramount to establish correlations between continental and shallow marine strata. However, this is often challenged by the amalgamated nature of low‐accommodation settings and control of backwater hydraulics on fluvio‐deltaic stratigraphy. Exhumed examples of full‐transect depositional profiles across river‐to‐delta systems are key to improve our understanding about interacting controlling factors and resultant stratigraphy. This study utilizes the ~400 km transect of the Cenomanian Mesa Rica Sandstone (Dakota Group, USA), which allows mapping of down‐dip changes in facies, thickness distribution, fluvial architecture and spatial extent of stratigraphic surfaces. The two sandstone units of the Mesa Rica Sandstone represent contemporaneous fluvio‐deltaic deposition in the Tucumcari sub‐basin (Western Interior Basin) during two regressive phases. Multivalley deposits pass down‐dip into single‐story channel sandstones and eventually into contemporaneous distributary channels and delta‐front strata. Down‐dip changes reflect accommodation decrease towards the paleoshoreline at the Tucumcari basin rim, and subsequent expansion into the basin. Additionally, multi‐storey channel deposits bound by erosional composite scours incise into underlying deltaic deposits. These represent incised‐valley fill deposits, based on their regional occurrence, estimated channel tops below the surrounding topographic surface and coeval downstepping delta‐front geometries. This opposes criteria offered to differentiate incised valleys from flood‐induced backwater scours. As the incised valleys evidence relative sea‐level fall and flood‐induced backwater scours do not, the interpretation of incised valleys impacts sequence stratigraphic interpretations. The erosional composite surface below fluvial strata in the continental realm represents a sequence boundary/regional composite scour (RCS). The RCS’ diachronous nature demonstrates that its down‐dip equivalent disperses into several surfaces in the marine part of the depositional system, which challenges the idea of a single, correlatable surface. Formation of a regional composite scour in the fluvial realm throughout a relative sea‐level cycle highlights that erosion and deposition occur virtually contemporaneously at any point along the depositional profile. This contradicts stratigraphic models that interpret low‐accommodation settings to dominantly promote bypass, especially during forced regressions. Source‐to‐sink analyses should account for this in order to adequately resolve timing and volume of sediment storage in the system throughout a complete relative sea‐level cycle.
Highlights
The study of regional transects along depositional profiles is essential to establish robust sequence stratigraphic frameworks, which allow reconstructing the evolution of sedimentary basins (Amorosi, Maselli, & Trincardi, 2016; Bhattacharya, 2011; Blum, Martin, Milliken, & Garvin, 2013; Pattison, 2019; Van Wagoner, 1995)
One of these surfaces is the sequence boundary, which has been proven composite and diachronous by flume and field observations (Bhattacharya, 2011; Hodgson, Kane, Flint, Brunt, & Ortiz-Karpf, 2016; Holbrook & Bhattacharya, 2012; Madof, Harris, & Connell, 2016; Martin, Paola, Abreu, Neal, & Sheets, 2009; Strong & Paola, 2008; Zuchuat et al, 2019). This has led to the introduction of the Regional Composite Scour (RCS; sensu Holbrook & Bhattacharya, 2012), as the component of the sequence boundary that results from multiphase fluvial scours shaped throughout a relative sea-level cycle (e.g. Blum et al, 2013; Holbrook & Bhattacharya, 2012; Martin et al, 2009; Strong & Paola, 2008)
Outcrop-based estimates indicate a backwater length of ~180 km, which is the distance between the rim of the Tucumcari basin and the most updip evidence of backwater conditions (Carizzo Canyon, Figure 8)
Summary
The study of regional transects along depositional profiles is essential to establish robust sequence stratigraphic frameworks, which allow reconstructing the evolution of sedimentary basins (Amorosi, Maselli, & Trincardi, 2016; Bhattacharya, 2011; Blum, Martin, Milliken, & Garvin, 2013; Pattison, 2019; Van Wagoner, 1995). The Tucumcari Basin forms the depocentre for marine strata of the fluvio-deltaic Mesa Rica Sandstone (hereafter referred to as ‘Mesa Rica’; Figure 2a), the oldest formation within the Dakota Group in Colorado and New Mexico (e.g. Holbrook & Wright Dunbar, 1992). Regional sequence boundary SB3.1 (Figure 2b) forms the base of the Mesa Rica and is linked to a late Albian–early Cenomanian forced-regression, which caused widespread erosion in southeast Colorado and northeast New Mexico (Holbrook, 1996, 2001; Holbrook & Wright Dunbar, 1992; Oboh-Ikuenobe et al, 2008; Scott et al, 2004). The down-dip extent of the SB3.1 and SB3.2 has received minimal attention to date, with the SB3.1 expression not directly mapped but interpreted as a correlative conformity at the base of the deltaic Mesa Rica (Holbrook & Wright Dunbar, 1992)
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