Aptian carbonate platform development in the southern Iberian palaeomargin (Prebetic of Alicante, SE Spain)

The Aptian stratigraphic record of the Alicante region consists of: a rudist and coral-rich carbonate platform of earliest Aptian age (Llopis Formation), with a discontinuous siliciclastic member at its top; followed by late Early, to Late Aptian hemipelagic marls and marlstones (Almadich Formation)...

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Bibliographic Details
Published in:Bulletin de la Société géologique de France 2019, Vol.190 (1), p.3
Main Authors: Skelton, Peter W, Castro, José Manuel, Ruiz-Ortiz, Pedro Alejandro
Format: Article
Language:English
Subjects:
Agres Bed
Albian
Alicante Spain
Almadich Formation
Anthozoa
Aptian
benthic taxa
Bivalvia
Calcite
carbonate platforms
Casetas del Mayor
Climate change
Cnidaria
Cretaceous
Europe
Foraminifera
Heterodonta
Iberian Peninsula
Llopis Formation
Lower Cretaceous
Mesozoic
microfossils
Mollusca
OAE1a
palaeoecology
paleoecology
petrography
Prebetic Zone
rudist/coral formations
Rudistae
Seawater
sed rocks, sediments
Sedimentary petrology
sedimentary rocks
sedimentology
Seguili Foramation
Sierra de Mariola
Sierra de Seguili
Sierra del Carrascal de Parcent
Southern Europe
Spain
Stratigraphy
Valencia region
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Summary:The Aptian stratigraphic record of the Alicante region consists of: a rudist and coral-rich carbonate platform of earliest Aptian age (Llopis Formation), with a discontinuous siliciclastic member at its top; followed by late Early, to Late Aptian hemipelagic marls and marlstones (Almadich Formation); and then by renewed carbonate platform development of Late Aptian to earliest Albian age (Seguili Formation). In the Llopis Formation, SW-dipping, massive clinoform beds of bioclastic debris are succeeded by flat-lying platform-top beds. The latter show a cyclically regressive stacking of biofacies, with rudist-dominated floatstone in their lower parts passing upwards to finer-grained, more sparsely fossiliferous bed tops with burrow mottling. Caprinid rudists, with originally almost wholly aragonitic shells, dominate the external platform-top facies, while more internal facies contain a mix of monopleurid, polyconitid and requieniid rudists, all with relatively slightly thicker development of the calcitic outer shell layer, together with caprinids. Biostratigraphic and carbon-isotope data link the termination of the Llopis platform with the onset of OAE1a. The carbonate platform of the Seguili Formation again contains tabular platform-top beds showing repeated cyclic regression, with dense rudist and/or chondrodont floatstones overlain by sparser floatstones with wackestone matrix and secondarily filled burrows. But caprinids are now absent, while requieniids and polyconitids, some of large size, as well as radiolitids, all with thickened calcitic outer shell layers, accompany the tubular monopleurid, Mathesia, together with a greater development of Chondrodonta biofacies. The same overall pattern of biotic turnover from the Early, to the Late Aptian is confirmed in other parts of Iberia and contiguous regions. Moreover, Iberian platforms of late Early Aptian age outside the present study area reveal a transitional phase with an increasing proportion of polyconitids in the outer platform-top to upper slope facies at the expense of caprinids. The siliciclastic influx at the top of the Llopis Formation implies a climatic shift from arid, to relatively more humid/pluvial conditions through the mid-Early Aptian, as seen in several other Iberian sections. This climatic change was probably forced by the intensified greenhouse conditions at the onset of OAE1a. By contrast with these Iberian platforms, caprinids continued to dominate the outer platform-top zones of s
ISSN:0037-9409
1777-5817
DOI:10.1051/bsgf/2019001