MM
Member Since 2010
Marco Maria Scuderi
Post-Doc, Sapienza University of Rome
Member, Mineral and Rock Physics Canvassing Committee
Professional Experience
Sapienza University of Rome
Post-Doc
Education
Doctorate
2014
Honors & Awards
Mineral and Rock Physics Early Career Award
Received December 2020
Publications
The Effect of Normal Stress Oscillations on Fault Slip Behavior Near the Stability Transition From S...

Tectonic fault zones are subject to normal stress variations with a wide range of spatio‐temporal scales. Stress perturbations cover a wide r...

February 13, 2024
AGU Abstracts
Predictability and Nucleation of Laboratory Earthquakes: Insights from High Normal Stress Shear Experiments on Fault Gouges
AGU 2024
tectonophysics | 09 december 2024
Giacomo Mastella, Federico Pignalberi, Carolina Gi...
Laboratory shear experiments are established methods for investigating the physics of frictional instabilities. While the nucleation of lab-quakes has...
View Abstract
Seismicity Distribution within a Rheologically Heterogeneous Deformation zone: Insights from the Central Apennines.
EARTHQUAKE SOURCE CHARACTERIZATION AND FAULT ZONE PROPERTIES FROM MICROMETER TO KILOMETER SCALES III POSTER
seismology | 12 december 2023
Giuseppe Volpe, Giacomo Pozzi, Maria Eugenia Locch...
Although rheological heterogeneities are invoked to explain differences in fault slip behavior, case studies where an interdisciplinary approach is fo...
View Abstract
Acoustic signature of fault slip from slow to fast earthquake: a laboratory insight
FROM ROCK PHYSICS TO EARTHQUAKE MECHANICS: INSIGHTS FROM THE FIELD, THE LAB, AND IN BETWEEN II POSTER
mineral and rock physics | 15 december 2022
Federico Pignalberi, Marco Maria Scuderi, Carolina...
In the last decades, it has been observed that faults can slip both by slow aseismic creep and seismic events (i.e., earthquakes). In between these tw...
View Abstract
Volunteer Experience
2023 - 2024
Member
Mineral and Rock Physics Canvassing Committee
Check out all of Marco Maria Scuderi’s AGU Research!
View All Research Now