The Bonifacio formation (Miocene of Corsica): transition from a wave- to tide-dominated coastal system in mixed carbonate-siliciclastic setting

Andre, J.; Barthet, Yves; Ferrandini, Michelle; Ferrandini, Jean; Reynaud, Jean‐Yves; Tessier, Bernadette

doi:10.2113/gssgfbull.182.3.221

Cited by 14 publications

(10 citation statements)

References 34 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In many tidal strait‐fill examples, cross‐strata are interpreted as the product of the migration of two‐dimensional (2D) and three‐dimensional (3D) dunes (Costello & Southard, ; Harms et al ., ; Rubin, ; Ashley, ; Venditti et al ., ; André et al ., ) which are common types of sedimentary structures in tide‐influenced/dominated successions (see reviews in Davis, or Longhitano et al ., ). Planar (2D) and trough (3D) cross‐stratification derives from flow‐parallel and flow‐transverse bedforms, migrating under different shear stresses and flow regimes (Dalrymple, ; Dalrymple & Rhodes, ; Mitchell et al ., ; Desjardins et al ., ; Longhitano et al ., ).…”

Section: Introductionmentioning

confidence: 99%

Three‐dimensional to two‐dimensional cross‐strata transition in the lower Pleistocene Catanzaro tidal strait transgressive succession (southern Italy)

2014

View full text Add to dashboard Cite

Sandstone tidal cross-strata are the predominant sedimentary feature of strait-fill stratigraphic successions. However, although widely described in numerous studies, tidal strait-fill two-dimensional and three-dimensional cross-strata have\ud rarely been reported to occur in discrete intervals which are laterally adjacent or vertically stacked, and the meaning of this stratigraphic architecture has not yet been fully investigated. Understanding of the processes responsible for changes\ud in the internal features of modern and ancient tidal bedforms is essential in order to predict lateral and vertical heterogeneities in analogous reservoir strata.\ud This facies-based study aims to interpret the three-dimensional to two-dimensional cross-strata transition observed in the lower Pleistocene mixed siliciclastic/bioclastic sandstone filling the Catanzaro Strait, in southern Italy, during a continuous phase of tectonically driven marine transgression. Tidal cross-strata\ud disappear in the uppermost interval of the studied succession, where mudstone strata prevail. This stratigraphic trend is interpreted as the evidence of an important change in the tidal strait hydrodynamics due to a phase of relative sea-level rise. At the beginning of the transgression, three-dimensional tidal dunes migrated throughout the ca 3 to 4 km wide and ca 30 km long, WNW–ESE-oriented Catanzaro Strait, due to strong tidal currents amplified through the seaway and flowing in semi-diurnal phase opposition. As the intermediate phase of transgression enlarged the seaway width, the tidal current strength decreased as tidal water exchange occurred over a larger cross-sectional area.\ud The progressive reduction of the bed shear stress modified three-dimensional tidal dunes into an extensive two-dimensional bedform field. At the end of the transgression, the further widening of the Catanzaro Strait into a ca 10 to 12 km\ud wide marine passageway changed the tidally dominated strait into a non-tidal open shelf. The results of this research suggest the presence of a ‘critical cross-sectional area’ in the narrowest strait-centre zone which controls the activation and deactivation of tidal current amplification along a marine seaway

show abstract

Section: Introductionmentioning

confidence: 99%

Three‐dimensional to two‐dimensional cross‐strata transition in the lower Pleistocene Catanzaro tidal strait transgressive succession (southern Italy)

2014

View full text Add to dashboard Cite

show abstract

“…Barthet (2006), Barthet et al. (2009) and André et al. (2011) studied in detail some cliff sections and determined the tidal nature of the Bonifacio Formation.…”

Section: Sedimentary Facies and Unitsmentioning

confidence: 99%

“…The cross‐beds are commonly grouped in bundles, locally bounded by reactivation surfaces (Fig. 6K) and locally with superimposed reverse ripples (André et al. , 2011).…”

Section: Sedimentary Facies and Unitsmentioning

confidence: 99%

“…However, some reactivation surfaces are still observed (Fig. 6K), as well as reverse ripples (André et al. , 2011).…”

Section: Sedimentary Facies and Unitsmentioning

confidence: 99%

“…The present article provides a sequence‐stratigraphic framework for the Miocene deposits of the Bonifacio Basin, based on a review of outcrop and drillhole studies published by Ferrandini et al. (2002) and André et al. (2011), with the addition of new data from the cliffs around Bonifacio city.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

From non‐tidal shelf to tide‐dominated strait: The Miocene Bonifacio Basin, Southern Corsica

Reynaud¹,

Ferrandini

et al. 2012

Sedimentology

Self Cite

View full text Add to dashboard Cite

International audienceThis study documents a change from a non-tidal to tide-dominated shelf system that occurred between Corsica and Sardinia (the Bonifacio Basin, Western Mediterranean) during the early to middle Miocene. The non-tidal deposits formed on a low-energy siliciclastic shelf surrounded by progradational coralline algal ramps at full highstand. The tidal deposits consist of an up to 200 m thick succession of siliciclastic to coralline-rich cross-beds formed by large sub-tidal dunes. Based on outcrop and sub-surface data, it is possible to conclude that the tidal currents were amplified as a consequence of the rapid subsidence of the basin centre due to tectonic activity. It is suggested that this tectonic event initiated the strait between Corsica and Sardinia. The strait was deep enough to allow the tidal flux to be significantly increased, generating a localized strong tidal current at the junction between the Western Mediterranean and the East Corsica Basin

show abstract

Shallow-Marine Tidal Deposits

Reynaud

Dalrymple

2011

Principles of Tidal Sedimentology

View full text Add to dashboard Cite

The Bonifacio formation (Miocene of Corsica): transition from a wave- to tide-dominated coastal system in mixed carbonate-siliciclastic setting

Cited by 14 publications

References 34 publications

Three‐dimensional to two‐dimensional cross‐strata transition in the lower Pleistocene Catanzaro tidal strait transgressive succession (southern Italy)

Three‐dimensional to two‐dimensional cross‐strata transition in the lower Pleistocene Catanzaro tidal strait transgressive succession (southern Italy)

From non‐tidal shelf to tide‐dominated strait: The Miocene Bonifacio Basin, Southern Corsica

Shallow-Marine Tidal Deposits

Contact Info

Product

Resources

About