My research focuses on developing new tools and constraints to evaluate mathematical models of physical processes and Earth structures. I am currently working to develop new theoretical and observational frameworks to utilize the information about earthquake source processes and Earth structure contained within long-period recordings of seismic energy.
I work jointly between Harvard and the Lamont-Doherty Earth Observatory at Columbia University in the field of observational geodynamics. My research encompasses problems related to the structure, deformation, and flow of Earth's mantle. Geological processes include mantle convection, glacial isostatic adjustment, and lithospheric deformation, and I use tools including seismology, landscape evolution, geochemistry, sediment stratigraphy, and the elevation of sea-level markers. Recently, my work has been focusing on building models of 3D Earth structure for sea-level modelling and investigating the genesis of sediment-hosted metal deposits in sedimentary basins surrounding thick lithosphere. For more info, please check out my personal website.
Giuseppe Torri is interested in Atmospheric and Climate Dynamics. His research focuses primarily on deep convection using the combination of Large Eddy Simulations/Cloud Resolving Models and a Lagrangian Particle Dispersion Model to obtain a process-level understanding of the fundamental dynamics of such systems. Currently, he is working on applying the techniques he developed so far to the study of supercell storms, with the hope of improving forecasting skills. He is also interested in topics related to the interaction between the land surface and the atmosphere, aiming to answer important questions about long-term impacts of land use on climate at the regional and global scale.
I study theoretical aspects of atmospheric dynamics. My research aims to improve our understanding of the wide variety of scales in the atmosphere to bridge the weather-climate gap, especially the role of moist convection on high-impact extreme weather and climate events.
I have recently obtained a Ph.D. from The University of Chicago. My dissertation research is focused on the fundamental dynamics of a 20-30 day periodic behavior in the storm tracks – a newly identified climatic driver and early warning of extremes.