GNGTS 2022 - Atti del 40° Convegno Nazionale

GNGTS 2022 Sessione 1.3 173 PARAMETRIC STUDY OF THE EFFECTS OF MICRO-CONTINENTS COLLISION IN AN OCEANIC SUBDUCTION SYSTEM BY 2D NUMERICAL SIMULATIONS A. Regorda 1 , M. Roda 1 , C. Thieulot 2 1 Dipartimento di Scienze della Terra ’A. Desio’, Universita degli Studi di Milano, Milano, Italy 2 Department of Earth Sciences, Utrecht University, Utrecht, the Netherlands Heterogeneities of the oceanic crust are very diffuse and considered to represent remnants of extinct arcs, abandoned spreading ridges, detached and submerged continental fragments, anomalous volcanic piles, and uplifted oceanic crust (Stein and Ben-Avraham, 2007; Vogt and Gerya, 2014). Here, we simulated the collision of micro-continents characterized by different sizes in an oceanic subduction with a continental overriding plate, to verify their effects on the thermo-mechanical evolution of the subduction systems. Our results show that the subduction of a micro-continent has an impact on the thermal state of the subduction complex, the larger the micro-continent, the higher the temperature increase in the slab. From the mechanical point of view, larger micro-continents cause higher forces at the trench during the collision, with a consequent retreat of the trench toward the overriding plate. Consequently, for larger micro-continents the upper plate records higher compressive strain. In addition, if the micro-continent is larger than 100 km there is a jump of the subduction to the back of the micro-continent with the development of a new subduction zone. Lastly, a strain partition can be observed in the subducted micro-continent, from portions highly deformed to portions where the accumulated strain is almost zero. References M. Stein and Z. Ben-Avraham. Mechanisms of continental crust growth. 2007. K. Vogt and T. V. Gerya. From oceanic plateaus to allochthonous terranes: Numerical modelling. Gondwana Research, 25(2):494–508, 2014. ISSN 1342-937X. doi:10.1016/j.gr.2012.11.002.1