Super bounding surface development in a fluvial-aeolian interaction system: towards a model for food-generated "Stokes' surfaces"

ERNESTO SCHWARZ; AGUSTÍN ARGÜELLO SCOTTI; GONZALO D. VEIGA; LUIS A. SPALLETTI

Toulouse

Conferencia; International Meeting of Sedimentology 2017; 2017

International Association of Sedimentologists

Super bounding surfaces are key elements for understanding the long-term evolution of aeolian systems and represent major changes in aeolian sediment budget triggered by extra-erg factors. Multiple parallel-truncation bedding planes (aka Stokes´ surfaces) have been widelydescribed for ancient aeolian systems, associated with changes in the sediment budget and deflation to water table; although deflation is not a requisite and non-climbing, migrating ergs can also develop parallel-truncation planes. Deflationary or non-climbing conditions have been usually related to sustained dry conditions and exhaustion of the original sand supply. However, episodes of fluvial ooding may have major impact in the sedimentary budget of fluvially-sourced aeolian systems by increasing the amount of coarse-grained supply and/or rising the water table. The Lower Cretaceous Avile Member in central Neuquen basin is here analysed in order to describe and interpret complex super bounding surfaces developed in an extra-erg/ergmargin/erg-centre, downwind transect. The Avile Member is dominated by the cyclic alternation of fluvial and aeolian deposits in a ~30 m-thick, overall wetting upwards succession. Detailed work was carried out in 16 outcrop localities in which standard sedimentary logging was carried out. Gamma Ray surveys of logged sections were also performed in order to have a comparison element with subsurface information. Architectural panels of the unit were constructed and main architectural elements dened, together with key stratigraphic surfaces (flood, deflation, sand-drift surfaces). Lateral tracking of individual surfaces between localities was performed, aided by oblique aerial photographs. The study was completed with the analysis of the Avile Member in 5 subsurface localities in which general attributes of the unit were dened by well log suites and core description. Five dierent scenarios were dened from purely wet (fluvial) to purely dry (aeolian) record. In fluvial (extra-erg) settings, the record of the Avile Member is exclusively composed of amalgamated fluvial channel units. In the outer fringe of the fluvial-aeolian interaction zone, aeolian dune units are erosionally truncated by sandy fluvial channels, covered again by dune deposits across sand-drift surfaces. In the inner portions of the erg-margin, sandy flvial deposits are replaced by muddy and heterolithic deposits related to unconned floods. Yet, these deposits cover dune units across planar, horizontal surfaces that suggest episodes of defation/bypass prior to the flooding of the system. Drier scenarios are characterized, in turn,