Geochemical, mineralogical and petrological investigation of Large Igneous Provinces (LIPs) and their signature in the sedimentary record: the case of study of Valle della Contessa and Bottaccione Gorge sections in Gubbio (Italy)

Anno
2021
Proponente Giulia Marras - Assegnista di ricerca
Sottosettore ERC del proponente del progetto
PE10_10
Componenti gruppo di ricerca
Componente Categoria
Vincenzo Stagno Aggiungi Tutor di riferimento (Professore o Ricercatore afferente allo stesso Dipartimento del Proponente)
Abstract

The evolution of the chemistry of Earth¿s atmosphere has been affected over time by the composition of gases released during volcanic eruptions, which, in turn, are the expression of Earth¿s interior processes. The eruption of CO2-rich magmas occurred between 250 and 50 Ma coincided with the emplacement of large igneous magmatic provinces named LIPs that are considered the major cause for carbon cycle perturbation and dramatic environmental changes. LIPs events also overlap with the Phanerozoic largest mass extinctions and the Oceanic Anoxic Events (OAEs). Recently, much interest has been focused on searching for geochemical tracers of large volcanic eruptions in sedimentary rocks that allow estimating the duration of LIPs events and how these might have limited the life development. Mercury (Hg) anomalous spikes are used as unique geochemical marker of LIP evidence in the sedimentary record. Volcanic eruptions are the primary source of Hg to the atmosphere and the long residence time relative to atmospheric mixing of this metal (up to 2 years), allows an efficient global distribution.
This project aims to constrain the link between LIP magmatism and Hg geochemical cycle. In particular, geochemical, mineralogical and petrological investigations will be performed on two stratigraphic sections in Gubbio, representative of Cenomanian-Turonian and Cretaceous-Paleogene boundaries, which are temporally overlapped to three important LIP events such as High Atlantic, Caribbean and Deccan Traps. The integration of data from geochemistry, mineralogy and petrology will contribute to propose a model of Hg speciation from the Earth¿s interior to the atmosphere and establish possible relations with additional trace elements.

ERC
PE10_10, PE10_11
Keywords:
PETROLOGIA, GEOCHIMICA, MAGMATOLOGIA, PETROGRAFIA

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