Diagenetic evolution of Tortonian temperate carbonates close to evaporites in the Granada Basin (SE Spain)
Identificadores
URI: https://hdl.handle.net/10481/95026Metadatos
Afficher la notice complèteAuteur
López Quirós, Adrián; Barbier, M.; Martín Martín, José Manuel; Puga Bernabeu, Ángel; Guichet, X.Editorial
Elsevier
Date
2016Referencia bibliográfica
López-Quirós, A., Barbier, M., Martín, J.M., Puga-Bernabéu, Á., Guichet, X., 2016. Diagenetic evolution of Tortonian temperate carbonates close to evaporites in the Granada Basin (SE Spain). Sedimentary Geology 335, 180-196. https://doi.org/10.1016/j.sedgeo.2016.02.011
Résumé
The Granada Basin (SE Spain) is a small basin located in the central part of the Betic Cordillera, structured as such
in the late Tortonian and initially connected to the Atlantic Ocean and to the Mediterranean Sea. During the late
Tortonian, normal marine conditions prevailed, leading to the deposition of skeletal carbonate sediments on plat-
forms around structural highs. The marine connections were later interrupted, first to the Atlantic Ocean and
then to the Mediterranean Sea, and a thick evaporite sequence, marking the transition from marine to continental
conditions, was deposited during the latest Tortonian. In this work, the diagenetic evolution of the Tortonian tem-
perate carbonates (TTC), underlying and close to the evaporite bodies, is revealed and discussed. The diagenetic
study includes petrographic analyses (conventional petrography, cathodoluminescence, and fluorescence), geo-
chemical analyses (major, minor and trace elements, and δ13C and δ18O stable isotopes), and microthermometry
of fluid inclusions. In the TTC, marine diagenetic processes such as micritization and fibrous calcite-cement pre-
cipitation and mechanical compaction took place during or just after deposition (Eogenesis). An initial burial
event (Mesogenesis 1) is characterized by: 1) stabilization of the temperate-water carbonates by freshwater,
and 2) porosity occlusion via precipitation of low-Mg bladed and syntaxial/mosaic calcite cements. The TTC
were then subaerially exposed (or got close to the surface) during evaporite deposition and underwent pedogen-
esis, Mg-smectite infiltration, and pyrite formation (Telogenesis 1). Subsequent brine-related diagenetic alter-
ations, such as dolomitization and silica, halite, and sylvite replacements of carbonate grains occurred during a
second burial episode (Mesogenesis 2) concomitant with the Messinian lacustrine deposition, this being follow-
ed by chemical compaction (stylolite formation). Finally, the area was uplifted and the TTC exhumed.
Microstalactitic (dripstone) and fibre/whisker calcite cement precipitation and extensive dissolution relate to
this Pliocene–Quaternary late event (Telogenesis 2). In the study case diagenetic history is closely linked to
basin evolution, as diagenetic pathways of carbonate rocks were related to major geodynamic events, including
basin restriction leading to evaporite deposition, and several episodes of subsidence and uplift. Up to now, only
very few diagenetic studies have attempted to demonstrate this correlation between diagenetic history and basin
evolution.