Evolution of a Miocene carbonate shelf (northern Apennines, Italy) revealed through a quantitative compositional study

The evolution of the Miocene San Marino carbonate shelf (Torriana outcrop), developed on the accretionary prism of the northern Apennines, has been interpreted through a stratigraphic and compositional study. Modal analysis allowed to quantify the framework components and to identify four microfacie...

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Bibliographic Details
Published in:Marine and Petroleum Geology
Main Authors: SALOCCHI, AURA CECILIA, ARGENTINO, CLAUDIO, FONTANA, Daniela
Other Authors: Salocchi, AURA CECILIA, Argentino, Claudio, Fontana, Daniela
Format: Article in Journal/Newspaper
Language:English
Published: 2017
Subjects:
Bryomol
Carbonate shelf
Compositional study
Hierarchical cluster analysi
Microfacie
Miocene
Northern Apennine
Oceanography
Geophysic
Geology
Economic Geology
Stratigraphy
Planktonic foraminifera
Online Access:http://hdl.handle.net/11380/1124248
https://doi.org/10.1016/j.marpetgeo.2016.11.007
http://www.sciencedirect.com/science/journal/02648172
Description
Summary:The evolution of the Miocene San Marino carbonate shelf (Torriana outcrop), developed on the accretionary prism of the northern Apennines, has been interpreted through a stratigraphic and compositional study. Modal analysis allowed to quantify the framework components and to identify four microfacies through which the main steps of the carbonate ecosystem were traced. The healthy phase of the carbonate shelf, dominated by bryozoans and echinoids, originated in a high-energy transgressive setting and evolved during a warm period characterized by a progressive increase of nutrients. The transitional stage is marked by a reduction of carbonate productivity and by terrigenous intermittent pulses associated with bioclast fragmentation. The drowning succession corresponds to deepening upward facies formed by fine-grained hybrid arenites to sandy marls with abundant planktonic foraminifera, glauconitic grains and clay matrix. The demise of the carbonate shelf might have resulted from a combination of regional and global factors that interplayed controlling the detrital input, the nutrient budget and the deepening of the basin. Synsedimentary tectonics triggered subsidence of the basin and enhanced terrigenous discharge. Moreover, the superposition of paleoclimatic and paleoceanographic events (Monterey and Middle Miocene Climate Optimum) could have contributed with the intense weathering and remarkable detrital and nutrients supply.

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