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Bibliographic Details
Main Authors: Nicoletti, Sara, Belli, Giacomo, Morandi, Omar, Marchetti, Emanuele
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2604.17913
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author Nicoletti, Sara
Belli, Giacomo
Morandi, Omar
Marchetti, Emanuele
author_facet Nicoletti, Sara
Belli, Giacomo
Morandi, Omar
Marchetti, Emanuele
contents We present a physics based numerical model that estimates the seismic radiation generated by water sediment flows in gravel-bed rivers. The model reproduces the trajectories of individual particles, evaluates impact and rolling forces from grain scale dynamics, and accounts for broadband turbulence and vortex shedding in the water column. Synthetic seismic signals are propagated to the receivers using the Rayleigh wave Green s function approach and synthetic ground-velocity signals are estimated. Application to a controlled test case shows how intermittent, size selective sediment transport mechanisms produce distinct spectral signatures. Comparison with seismic data from a flood event in a mountain torrent in the Tuscan Apennines displays general agreement with the observed frequency bands and clarifies the relative width of particle collisions and turbulent flow. These results show that resolved grain scale dynamics provides a framework for discriminating sediment transport and flow induced contributions to river seismic noise.
format Preprint
id arxiv_https___arxiv_org_abs_2604_17913
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Synthetic Seismograms from Particle Bed Interactions and Turbulent River Flow: Modeling and Comparison with Observations
Nicoletti, Sara
Belli, Giacomo
Morandi, Omar
Marchetti, Emanuele
Mathematical Physics
Fluid Dynamics
We present a physics based numerical model that estimates the seismic radiation generated by water sediment flows in gravel-bed rivers. The model reproduces the trajectories of individual particles, evaluates impact and rolling forces from grain scale dynamics, and accounts for broadband turbulence and vortex shedding in the water column. Synthetic seismic signals are propagated to the receivers using the Rayleigh wave Green s function approach and synthetic ground-velocity signals are estimated. Application to a controlled test case shows how intermittent, size selective sediment transport mechanisms produce distinct spectral signatures. Comparison with seismic data from a flood event in a mountain torrent in the Tuscan Apennines displays general agreement with the observed frequency bands and clarifies the relative width of particle collisions and turbulent flow. These results show that resolved grain scale dynamics provides a framework for discriminating sediment transport and flow induced contributions to river seismic noise.
title Synthetic Seismograms from Particle Bed Interactions and Turbulent River Flow: Modeling and Comparison with Observations
topic Mathematical Physics
Fluid Dynamics
url https://arxiv.org/abs/2604.17913