The Itaboraí Formation is restricted to the
Itaboraí Basin, a minibasin stretching across an area of of , in the vicinity of
Itaboraí northeast of
Rio de Janeiro, southeastern Brazil. Between 1933 and 1984, a local cement company exploited the rocks in the area and their workers discovered the first fossil remains in the formation. The now abandoned and largely inaccessible limestone quarries of this locality have yielded a diverse mammalian fauna from early late Paleocene fissure fillings. Presently, the basin is filled up with water impeding any collecting activity.
Basin history The small basin, a small
half-graben, is the oldest and smallest of several
Cenozoic rift basins stretching across along a west-southwest to east-northeast trend between the
Paraná Basin to the northwest and the
Santos Basin to the southeast, separated by the
Serra da Mantiqueira and
Serra do Mar respectively. This
Continental Rift of Southern Brazil (CRSB) comprises the
Curitiba,
São Paulo,
Taubaté,
Resende,
Volta Redonda,
Macacu,
Barra de São João and Itaboraí Basins. An erosional surface, correlated with a 55 Ma sea-level lowstand representing the Paleocene-Eocene transition and associated with magmatism, has been recorded in the various Atlantic marginal basins along the Brazilian coast;
Pelotas,
Santos,
Campos,
Espírito Santo,
Cumuruxatiba,
Jequitinhonha and
Mucuri Basins.
Stratigraphy The Itaboraí Formation rests
unconformably on top of the
Precambrian Paraíba do Sul Group, part of the
Meso- to
Neoproterozoic Paraíba do Sul Complex. The Paleogene succession of the minibasin reaches a thickness of and consists of three depositional sequences, with the Itaboraí Formation representing the first two; • Sequence 1 (S1) - clastic
limestones with
travertine, grey carbonates and
oolitic limestones, carbonatic
shales and
lignites, deposited in a
lacustrine environment, originating from debris flows in a tectonic lake. From this sequence gastropods are abundant, while woods, reptiles and mammals are scarce. have been correlated with the Eocene to Oligocene
Resende Formation of the eponymous basin. Thin section analysis suggests the travertine sequence went through a series of
diagenetic processes: firstly, the deposition of the primary carbonate, followed by a set of percolating
iron oxide enriched fluids and lastly a set of
silica-rich fluids leading to the silica
chalcedony and micro-crystalline deposition.
Age The Itaboraí Formation, defining the Itaboraian SALMA, was first thought to be early to mid Paleocene in age, until dating performed by Woodburne et al. in 2014 suggested as a more probable early Eocene age (53–50 Ma), spanning
polarity chron 23. The overlying basalts have been dated to the Early Eocene (52.6 ± 2.4 Ma). Another very important source of data is palynological analysis of a coal-bearing horizon (lignite) interlayered with alluvial fan deposits at the northern border of the Itaboraí Basin, suggesting a Paleocene to Eocene age. During this time, a biogeographical connection existed with Antarctica and, though separated by the developing
South Atlantic, with Africa. The deposits of the formation were formed during the
Early Eocene Climatic Optimum (EECO), just after the
Paleocene-Eocene Thermal Maximum. == Paleontological significance ==