Necronectes, Portunus and Scylla, the ecology of which is associated with beaches of marginal lagoons. The main factor in the formation of these carbonate environments is assumed to have been related to the lack of a large-scale drainage system such as the Amazon River basin in the transition Oligocene–Miocene, which may also have influenced carbonate production and resulted in a strong decrease of paleodischarges from incipient river systems along the Amazon coast." />
Erratum to: Neogene eastern Amazon carbonate platform and the paleoenvironmental interpretation
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  • 作者:Orangel Aguilera (1)
    José Tasso Felix Guimar?es (2)
    Heloisa Moraes-Santos (1)
  • 关键词:Amazon ; Carbonate ; Pirabas ; Paleoenvironment ; Palynology ; Crustacea
  • 刊名:Swiss Journal of Palaeontology
  • 出版年:2014
  • 出版时间:July 2014
  • 年:2014
  • 卷:133
  • 期:1
  • 页码:99-118
  • 全文大小:2,926 KB
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  • 作者单位:Orangel Aguilera (1)
    José Tasso Felix Guimar?es (2)
    Heloisa Moraes-Santos (1)

    1. Museu Paraense Emilio Goeldi, Coordena??o de Ciências da Terra e Ecologia, CCTE, Av. Perimetral, 1901, Terra Firme, Belém, PA, 66077-830, Brazil
    2. Instituto Tecnológico Vale-ITV, Rua Boa Ventura da Silva, no 955, 3o andar, Umarizal, Belém, PA, 66055-090, Brazil
  • ISSN:1664-2384
文摘
The Early Miocene Pirabas Formation represents extensive carbonate and siliciclastic belts deposited in marine coastal environments along the eastern Amazon coast. This formation was studied in its palynological, crustacean decapods and sedimentary facies, to develop a model of its depositional processes, faunal and floral assemblages and the sedimentary environments, as observed in the B17 mine (Capanema, Pará). The sedimentary records consist mostly of light gray to greenish gray mudstones with tidal bedding, calciferous sandstones, stratified biocalcirudites and levels with conglomerates deposited in a carbonate/siliciclastic transitional system with lagoon, tidal flat, flood-tide delta and foreshore environments. 18 palynomorph species were identified in the tidal flat deposits including one alga, five pteridophytes and nine angiosperms. Among the latter, mangrove pollen and spores of Zonocostites ramonae, Zonocostites minor and Deltoidospora adriennis are reported. Nine species of crustacean decapods were recognized in the foreshore deposits, comprising one Callianassoidae, two Calappidae and six Portunidae, represented by Euphylax, -em class="a-plus-plus">Necronectes, Portunus and Scylla, the ecology of which is associated with beaches of marginal lagoons. The main factor in the formation of these carbonate environments is assumed to have been related to the lack of a large-scale drainage system such as the Amazon River basin in the transition Oligocene–Miocene, which may also have influenced carbonate production and resulted in a strong decrease of paleodischarges from incipient river systems along the Amazon coast.

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