3D density structure and geological evolution of Stromboli volcano (Aeolian Islands, Italy) inferred from land-based and marine gravity data
N. Linde, L. Baron, T. Ricci, A. Finizola, A. Revil, F. Muccini, L., Cocchi, C. Carmisciano

TL;DR
This study presents the first detailed 3D density model of Stromboli volcano using land and marine gravity data, revealing geological features and volcanic evolution without assumptions on density values.
Contribution
It introduces a novel inversion method combining land and sea gravity data to produce an assumption-free, high-resolution 3D density model of Stromboli volcano.
Findings
Density anomalies correlate with degassing faults and dyke intrusions.
Low-density anomalies relate to past explosive volcanic events.
Model explains gravity data with high accuracy.
Abstract
We present the first density model of Stromboli volcano (Aeolian Islands, Italy) obtained by simultaneously inverting land-based (543) and sea-surface (327) relative gravity data. Modern positioning technology, a 1 * 1 m digital elevation model, and a 15 * 15 m bathymetric model made it possible to obtain a detailed 3-D density model through an iteratively reweighted smoothness-constrained least-squares inversion that explained the land-based gravity data to 0.09 mGal and the sea-surface data to 5 mGal. Our inverse formulation avoids introducing any assumptions about density magnitudes. At 125 m depth from the land surface, the inferred mean density of the island is 2380 kg m-3, with corresponding 2.5 and 97.5 percentiles of 2200 and 2530 kg m-3. This density range covers the rock densities of new and previously published samples of Paleostromboli I, Vancori, Neostromboli and San…
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