GNGTS 2021 - Atti del 39° Convegno Nazionale

GNGTS 2021 S essione 1.3 136 References Becker T. W.; 2006: On the effect of temperature and strain-rate dependent viscosity on global mantle flow, net rotation, and plate-driving forces. Geophysical Journal International , 167 (2), 943-957. Calcagnile G. and Panza G. F.; 1980: The main characteristics of the lithosphere-asthenosphere system in Italy and surrounding regions. Pure and Applied Geophysics , 119 (4), 865-879. Faccenda M. and Capitanio F. A.; 2012: Development of mantle seismic anisotropy during subduction‐indu- ced 3‐D flow. Geophysical Research Letters , 39 (11). Faccenda M. and Capitanio F. A.; 2013: Seismic anisotropy around subduction zones: Insights from th- ree‐dimensional modeling of upper mantle deformation and SKS splitting calculations. Geochemistry, Geophysics, Geosystems , 14 (1), 243-262. Faccenna, C., Becker, T. W., Auer, L., Billi, A., Boschi, L., Brun, J. P., ... & Serpelloni, E. (2014). Mantle dyna- mics in the Mediterranean. Reviews of Geophysics , 52(3), 283-332. Geiss E.; 1987: A new compilation of crustal thickness data for the Mediterranean area. In Annales geo- physicae. Series B. Terrestrial and planetary physics (Vol. 5, No. 6, pp. 623-630). Gerya T.; 2019: Introduction to numerical geodynamic modelling . Cambridge University Press. Kaminski E., Ribe N. M. and Browaeys J. T.; 2004: D-Rex, a program for calculation of seismic anisotropy due to crystal lattice preferred orientation in the convective upper mantle. Geophysical Journal Internatio- nal , 158 (2), 744-752. Lo Bue, R., Faccenda, M., & Yang, J. (2021). The Role of Adria Plate Lithospheric Structures on the Recent Dynamics of the Central Mediterranean Region. Journal of Geophysical Research: Solid Earth , 126(10), e2021JB022377. Long M. D., Hager B. H., De Hoop M. V. and van Der Hilst R. D.; 2007: Two-dimensional modelling of sub- duction zone anisotropy with application to southwestern Japan. Geophysical Journal International , 170 (2), 839-856. Lucente F. P. and Speranza F.; 2001: Belt bending driven by lateral bending of subducting lithosphe- ric slab: geophysical evidences from the northern Apennines (Italy). Tectonophysics , 337 (1-2), 53-64. Lucente F. P., Margheriti L., Piromallo C., and Barruol G.; 2006: Seismic anisotropy reveals the long route of the slab through the western-central Mediterranean mantle. Earth and Planetary Science Letters , 241 (3-4), 517-529. Maino M., Decarlis A., Felletti F. and Seno, S.; 2013: Tectono‐sedimentary evolution of the Tertiary Pied- mont Basin (NW Italy) within the Oligo–Miocene central Mediterranean geodynamics. Tectonics , 32 (3), 593-619. Mason W. G., Moresi L., Betts P. G. and Miller M. S; 2010: Three-dimensional numerical models of the in- fluence of a buoyant oceanic plateau on subduction zones. Tectonophysics , 483 (1-2), 71-79. Van Hinsbergen D. J., Vissers R. L. and Spakman W; 2014: Origin and consequences of western Mediterra- nean subduction, rollback, and slab segmentation. Tectonics , 33 (4), 393-419. Corresponding author: rosalia.lobue@phd.unipd.it