CADIC   02618
CENTRO AUSTRAL DE INVESTIGACIONES CIENTIFICAS
Unidad Ejecutora - UE
artículos
Título:
Depositional settings of the basal López de Bertodano Formation, Maastrichtian, Antarctica.
Autor/es:
OLIVERO, E.B.; PONCE, J.J.; MARSICANO, C.A.; MARTINIONI, D.R.
Revista:
Revista de la Asociación Geológica Argentina -RAGA-
Referencias:
Año: 2007 vol. 62 p. 521 - 529
ISSN:
0004-4822
Resumen:
In Snow Hill and Seymour islands the lower
Maastrichtian, basal part of the López de Bertodano Formation, rests on a high
relief, erosive surface elaborated in the underlying Snow Hill Island
Formation. Mudstone-dominated beds with inclined heterolithic stratification
dominate the basal strata of the López de Bertodano Formation. They consist of
rhythmical alternations of friable sandy- and clayeymudstone couplets, with
ripple cross lamination, mud drapes, and flaser bedding. They are characterized
by a marked lenticular geometry, reflecting the filling of tide-influenced
channels of various scales and paleogeographic positions within a
tide-dominated embayment or estuary. Major, sand-rich channel fills, up to 50-m
thick, bounded by erosive surfaces probably represent inlets, located on a more
central position in the estuary. Minor channel fills, 1- to 3-m thick,
associated with offlapping packages with inclined heterolithic stratification
probably represent the lateral accretion of point bars adjacent to migrating
tidal channels in the upper estuary. Both types of channel fills bear relatively
abundant marine fauna, are intensively bioturbated, and are interpreted as a
network of subtidal channels. In southwestern Snow Hill Island, the minor
offlapping packages have scarce marine fossils and bear aligned depressions
interpreted as poor preserved dinosaur footprints. They represent the lateral
accretion of point bars adjacent to intertidal creeks, probably located on the
fringes of a mud-dominated estuary or embayment. The basal unconformity was
produced by subaerial erosion; hence the inferred estuarine settings are
consistent with the beginning of a new transgressive sedimentary cycle.