RT Journal Article
T1 Middle Triassic carbonate platforms in eastern Iberia: Evolution of their fauna and palaeogeographic significance in the western Tethys
A1 Escudero Mozo, María José
A1 Márquez Aliaga, Ana
A1 Goy, Antonio
A1 Martín Chivelet, Javier
A1 López Gómez, José
A1 Márquez, L.
A1 Arche, Alfredo
A1 Plasencia, P.
A1 Pla Barniol, Carlos
A1 Marzo Carpio, Mariano
A1 Sánchez Fernández, D.
AB This article reports the first integrated study of the Middle Triassic of Iberia, based on the stratigraphy, sedimentology, and fossil fauna of Muschelkalk facies of the Iberian Ranges and the Catalan Coastal Ranges in Spain. On the basis of this study, new palaeogeographic reconstructions of the westernmost Tethys are proposed, and the evolution of the different palaeogeographic domains of Iberia (e.g., Iberian, Mediterranean, and Levantine–Balearic) are described. In these Domains, Muschelkalk facies record the development of wide carbonate platforms that were the consequence of the first two broad marine transgressions of the Mesozoic in Iberia, respectively, late Pelsonian–early Illyrian and late Illyrian–Longobardian. Of these marine incursions, the oldest only manifested in the Mediterranean Triassic domain (Catalan Coastal Ranges and part of the Iberian Ranges),which acted as a Palaeogeographic gulf opening northwards. Most of the fauna related to this first incursion show strong affinities with the Alpine/Germanic bioprovinces, related to the Palaeotethys. In contrast, the second transgressive episode took place in a new regional palaeogeographic setting related to the intra-Pangea dextral shear, and the northward movement of the Cimmerian microcontinent. A rapid sea-level rise induced generalised marine flooding of the Iberian,Mediterranean, and Levantine–Balearic Triassic domains. The resulting carbonate platforms yield fossil assemblages (ammonoids, bivalves, foraminifera and conodonts) that show affinities with those of both the Alpine and Sephardic bioprovinces related to the Neotethys. These assemblages point to a significant increase in diversity during the late Fassanian–Longobardian, possibly related to the prevailing wider connections between the sea corridors, an increased continental run-off and input of nutrients and/or a general cooling of marine waters.
PB Elsevier
SN 0031-0182
YR 2014
FD 2014-11-08
LK https://hdl.handle.net/20.500.14352/35493
UL https://hdl.handle.net/20.500.14352/35493
LA eng
NO Ministerio de Economía y Competitividad (MINECO)
NO Universidad Complutense de Madrid
DS Docta Complutense
RD 7 may 2024