Itaboraí Formation
Itaboraí Formation Stratigraphic range: Early Eocene (Itaboraian) ~ | |
---|---|
Type | Geological formation |
Sub-units | See text |
Underlies | Early Eocene basalt & Late Eocene to Early Oligocene conglomerates () |
Overlies | Precambrian basement |
Area | 1 km2 (0.39 sq mi) |
Thickness | up to 100 m (330 ft) |
Lithology | |
Primary | Limestone, marl |
Other | Travertine, lignite |
Location | |
Coordinates | 22°06′S 41°36′W / 22.1°S 41.6°WCoordinates: 22°06′S 41°36′W / 22.1°S 41.6°W |
Approximate paleocoordinates | 25°00′S 30°00′W / 25.0°S 30.0°W |
Region | Rio de Janeiro |
Country | Brazil |
Extent | |
Type section | |
Named for | Itaboraí |
Named by | Leinz |
Year defined | 1938 |
Itaboraí Formation (Brazil) |
The Itaboraí Formation (Portuguese: Formação Itaboraí)[1] is a highly geologic formation and Lagerstätte[2] of the in Rio de Janeiro, southeastern Brazil. The formation reaching a thickness of 100 metres (330 ft) is the defining unit for the Itaboraian South American land mammal age (SALMA), dating to the Early Eocene, approximately 53 to 50 Ma.
The formation is restricted to the , a minibasin of 1 square kilometre (0.39 sq mi) around the city of Itaboraí, 34 kilometres (21 mi) northeast of Rio de Janeiro, and comprises limestones, marls and lignites, deposited in an alluvial to lacustrine environment, dominated by heavy rainfall. The formation overlies Precambrian basement and is overlain by Early Eocene basalts and Late Eocene to Early Oligocene conglomerates.
The up to 100 metres (330 ft) thick formation has provided many fossil mammals of various groups among which the marsupials and related metatherians dominate, birds, snakes, crocodiles, amphibians, and several species of gastropods. Several genera and species were named after the formation; the marsupials and , the birds Itaboravis elaphrocnemoides, Eutreptodactylus itaboraiensis and Eutreptodactylus itaboraiensis, the snake and crocodile Eocaiman itaboraiensis and the gastropods , and .
The formation is the richest Cenozoic fossiliferous formation of Brazil, leading to the establishment of the Parque Paleontológico de São José de Itaboraí ("São José de Itaboraí Paleontological Park") in 1995. The site is a candidate for becoming a UNESCO World Heritage Site.
Etymology[]
The word "Itaboraí" is of Tupi origin, and has two possible etymologies:
- "River of beautiful stones", a combination of the words itá (stone), porã (beautiful) and y (river)[3]
- "River of brilliant stones", derived from the words itá (stone), berab (brilliant) and y (river)[4]
Description[]
The Itaboraí Formation is restricted to the , a minibasin stretching across an area of 1 square kilometre (0.39 sq mi) of 1,400 by 500 metres (4,600 ft × 1,600 ft), in the vicinity of Itaboraí 34 kilometres (21 mi) northeast of Rio de Janeiro, southeastern Brazil.[5] 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.[6] The now abandoned and largely inaccessible limestone quarries of this locality have yielded a diverse mammalian fauna from early late Paleocene fissure fillings.[7] The sediments of the formation were described by Leinz in 1938.[8] Presently, the basin is filled up with water impeding any collecting activity.[9]
Basin history[]
The small basin, a small half-graben, is the oldest[10] and smallest[11] of several Cenozoic rift basins stretching across 1,000 kilometres (620 mi) 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 (CRSB) comprises the , , , , , , and Itaboraí Basins.[12]
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, , , and .[13]
Stratigraphy[]
The Itaboraí Formation rests unconformably on top of the Precambrian , part of the Meso- to Neoproterozoic .[14] The Paleogene succession of the minibasin reaches a thickness of 100 metres (330 ft) and consists of three depositional sequences, with the Itaboraí Formation representing the first two;[15]
- 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.[11]
- Sequence 2 (S2) - carbonates filling caverns and dissolution cracks on a karstic surface of Sequence 1, comprising fossiliferous marls, deposited in an alluvial to lacustrine environment, transported into these cavities by heavy rains and gravitational flows[11]
- Sequence 3 (S3) - terrestrial siliciclastic sediments, including mudstones, sandstones and sandy conglomerates of Late Eocene to Early Oligocene age, derived from the surrounding basement gneisses, deposited by mudflows in a subaerial alluvial fan environment. These sediments, referred to as the ,[1] have been correlated with the Eocene to Oligocene of the eponymous basin.[13]
The Itaboraí Formation is separated from Sequence 3 by basaltic volcanic rocks, formed in the Early Eocene.[16]
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.[17]
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),[18][19] spanning polarity chron 23.[20] 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.[21] During this time, a biogeographical connection existed with Antarctica and, though separated by the developing South Atlantic, with Africa.[22] The deposits of the formation were formed during the (EECO), just after the Paleocene-Eocene Thermal Maximum.[23]
Paleontological significance[]
The Itaboraí Formation is the richest and one of few formations in Brazil providing Paleogene mammal faunas, between the older Tiupampan Maria Farinha Formation of the Parnaíba Basin and the younger Divisaderan Guabirotuba Formation of the , the Tinguirirican of the and the Deseadan of the .[24]
Despite its relatively small size, the São José de Itaboraí Basin comprises a diversified fossil assemblage. Among the groups found there, fossil birds are very rare, mainly due to their pneumatized bones. Only three bird species have been described up to this moment from the Itaboraí Basin. Diogenornis fragilis, a probable ratite ancestor, stands out for its good preservation and the number of specimens preserved.[25] In the Paleocene of the southern hemisphere, small terrestrial birds have only been discovered in the late Paleocene fissure fillings of the Itaboraí Formation.[7]
The relative fossil diversity of the Itaboraí Formation at family level consists of 44% mammals, 23% mollusks, 14% reptiles (lizards, chelonians, crocodyliforms), 7% birds, 5% amphibians and 7% plants.[26] Fish are one of the few groups not found to date in the lacustrine formation.[27] The formation has provided many marsupials and related metatherians. The species is the largest "condylarth" at Itaboraí and approximates the size of a wolf. , originally described as Paulacoutoia protocenica, is the smallest of the "condylarth" species of Itaboraí, but the most abundant.[28] The most abundant litoptern found in the formation is .[29]
Sequence 1 of the formation has provided many land snails, among which several new species. The records of Itaboraí are the oldest for the genera Austrodiscus, Brachypodella, Bulimulus, Cecilioides, , Eoborus, Gastrocopta, Leiostracus, Plagiodontes and Temesa. Also, the formation contains the oldest record for the families Orthalicidae, Gastrocoptidae, Ferussaciidae and Strophocheilidae.[30]
Several genera and species were named after the formation; the marsupials and , the birds Itaboravis elaphrocnemoides, Eutreptodactylus itaboraiensis and Eutreptodactylus itaboraiensis, the snake and crocodile Eocaiman itaboraiensis and the gastropods , and .
Because of its paleontological importance, the Itaboraí Basin area was designated as a paleontological park in 1995: Parque Paleontológico de São José de Itaboraí ("São José de Itaboraí Paleontological Park").[31] The park was established to preserve the geology and highlight the importance of the paleontological richness of the area.[32]
The formation is named as one of the fossil sites of potential World Heritage Value by the IUCN in 1996.[33]
Fossil content[]
Fossils recovered from the formation include:[34][35][36][37]
Itaboraian correlations[]
Formation | Itaboraí | Bogotá | Cerrejón | Ypresian (IUCS) • Wasatchian (NALMA) Bumbanian (ALMA) • Mangaorapan (NZ) | |||||
---|---|---|---|---|---|---|---|---|---|
Basin | Golfo San Jorge | Salta | Altiplano Basin | & |
Altiplano Cundiboyacense |
Cesar-Ranchería | |||
Country | Brazil | Argentina | Peru | Colombia | |||||
Carodnia | |||||||||
Victorlemoinea | |||||||||
Polydolopimorphia | |||||||||
Birds | |||||||||
Reptiles | |||||||||
Fish | |||||||||
Flora | |||||||||
Environments | Alluvial-lacustrine | Alluvial-fluvial | Fluvio-lacustrine | Lacustrine | Fluvial | Fluvio-deltaic | Itaboraian volcanoclastics Itaboraian fauna Itaboraian flora
| ||
Volcanic | Yes |
See also[]
- South American land mammal ages
- Iguape Formation, contemporaneous formation of the Santos Basin
- Laguna del Hunco Formation, contemporaneous fossiliferous formation of the Cañadón Asfalto Basin, Argentina
- Lefipan Formation, pre-Tiupampan fossiliferous lacustrine formation of the Cañadón Asfalto Basin, Argentina
- Bogotá Formation, contemporaneous fossiliferous formation of central Colombia
- Green River Formation, contemporaneous fossiliferous formation of Colorado, Wyoming and Utah
- Klondike Mountain Formation, contemporaneous fossiliferous formation of Washington State
- La Meseta Formation, contemporaneous fossiliferous formation of Antarctica
References[]
- ^ a b Riccomini et al., 2004, p.401
- ^ Kellner & Campos, 1999, p.399
- ^ Bragança Júnior, 1992
- ^ Carvalho, 1987, p.47
- ^ Riccomini et al., 2004, p.390
- ^ Santos & Carvalho, 2012, p.332
- ^ a b c d Mayr et al., 2011, p.679
- ^ Riccomini, 1990, p.68
- ^ Kellner & Campos, 1999, p.246
- ^ Riccomini et al., 2004, p.384
- ^ a b c Oliveira & Goin, 2011, p.107
- ^ Modenesi-Gauttieri et al., 2002, p.258
- ^ a b Oliveira & Goin, 2011, p.108
- ^ Torres Tiago, 2017, p.25
- ^ Torres Tiago, 2017, p.26
- ^ Torres Tiago, 2017, p.27
- ^ Valente et al., 2017, p.227
- ^ Oliveira et al., 2016, p.2
- ^ Woodburne et al., 2014, p.116
- ^ Woodburne et al., 2014, p.112
- ^ a b c d e f g h i j k l m n o p q r s Oliveira & Goin, 2011, p.109
- ^ Ezcurra & Agnolín, 2012, p.560
- ^ Woodburne et al., 2013, p.7
- ^ Sedor, 2017, p.39
- ^ De Taranto et al., 2011, p.R58
- ^ Pinheiro et al., 2013, p.328
- ^ Bergqvist & Bastos, 2011, p.370
- ^ Bergqvist, 2008, p.107
- ^ Bergqvist, 2008, p.108
- ^ Salvador & Simone, 2013a, p.42
- ^ Pinheiro et al., 2013, p.329
- ^ Bergqvist & Bastos, 2011, p.367
- ^ Wells, 1996, p.35
- ^ Itaboraí snakes at Fossilworks.org
- ^ a b c Portland Quarry at Fossilworks.org
- ^ a b c d e f São José de Itaboraí at Fossilworks.org
- ^ a b São José 700 m at Fossilworks.org
- ^ Carneiro, 2019, p.5
- ^ Oliveira, 1998, p.148
- ^ a b c d e f g h i j k l m Ladevèze & De Muizon, 2010, p.759
- ^ Carneiro & Oliveira, 2017a, p.357
- ^ Goin & Oliveira, 2007, p.310
- ^ Oliveira & Goin, 2015, p.99
- ^ Oliveira & Goin, 2015, p.101
- ^ a b Oliveira et al., 2016, p.4
- ^ Carneiro et al., 2018, p.121
- ^ Goin et al., 2016, p.85
- ^ Oliveira & Goin, 2011, p.114
- ^ Oliveira & Goin, 2011, p.112
- ^ a b Goin et al., 2016, p.86
- ^ a b c d e Ladevèze, 2004, p.202
- ^ a b Ladevèze & De Muizon, 2010, p.747
- ^ Carneiro & Oliveira, 2017b, p.499
- ^ Carneiro et al., 2018, p.122
- ^ Bergqvist et al., 2004, p.325
- ^ Oliveira & Bergqvist, 1998, p.36
- ^ Bergqvist, 2010, p.858
- ^ Goin et al., 2016, p.87
- ^ Bergqvist, 2008, p.119
- ^ Bergqvist, 2008, p.113
- ^ Mones, 2015, p.1
- ^ Bergqvist, 2010, p.860
- ^ Bergqvist, 2010, p.861
- ^ Bergqvist, 2010, p.859
- ^ Bergqvist, 2008, p.124
- ^ a b Goin et al., 2016, p.89
- ^ Beck, 2016, p.8
- ^ Mayr et al., 2011, p.682
- ^ Mayr et al., 2011, p.680
- ^ Rage, 1998, p.133
- ^ Rage, 1998, p.131
- ^ Rage, 2001, p.122
- ^ Rage, 2001, p.116
- ^ Rage, 2008, p.46
- ^ Rage, 2008, p.41
- ^ Rage, 2008, p.52
- ^ Rage, 2001, p.130
- ^ Rage, 2001, p.126
- ^ Rage, 1998, p.116
- ^ Rage, 2008, p.58
- ^ Kellner et al., 2014, p.2
- ^ Pinheiro et al., 2013, p.330
- ^ Salvador & Simone, 2013a, p.12
- ^ a b Salvador & Simone, 2013a, p.28
- ^ a b c d e f g h i j k l m n Salvador & Simone, 2013b, p.4
- ^ Salvador & Simone, 2013a, p.26
- ^ Salvador & Simone, 2013a, p.9
- ^ a b Salvador & Simone, 2013a, p.11
- ^ Salvador & Simone, 2013a, p.15
- ^ Salvador & Simone, 2013a, p.16
- ^ Salvador & Simone, 2013a, p.14
- ^ Salvador & Simone, 2013a, p.17
- ^ Salvador & Simone, 2013a, p.21
- ^ Salvador & Simone, 2013a, p.25
- ^ Salvador & Simone, 2013a, p.23
- ^ Salvador & Simone, 2013a, p.24
- ^ Salvador & Simone, 2013a, p.27
- ^ Salvador & Simone, 2013a, p.19
- ^ Salvador & Simone, 2013a, p.22
- ^ Salvador & Simone, 2013a, p.13
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- Geologic formations of Brazil
- Eocene Series of South America
- Paleogene Brazil
- Itaboraian
- Ypresian Stage
- Limestone formations
- Marl formations
- Coal formations
- Alluvial deposits
- Lacustrine deposits
- Fossiliferous stratigraphic units of South America
- Paleontology in Brazil
- Geography of Rio de Janeiro (state)
- Tupi–Guarani languages