Tognin, DavideD'Alpaos, AndreaD'Alpaos, LuigiRinaldo, AndreaCarniello, Luca2025-02-012025-02-012025-01-312024-01-1810.5194/esurf-12-201-2024https://infoscience.epfl.ch/handle/20.500.14299/246295WOS:001306420700001A proper understanding of sediment resuspension and transport processes is key to the morphodynamics of shallow tidal environments. However, a complete spatial and temporal coverage of suspended sediment concentration (SSC) to describe these processes is hardly available, preventing the effective representation of depositional dynamics in long-term modelling approaches. Through aiming to couple erosion and deposition dynamics in a unique synthetic theoretical framework, we here investigate SSC dynamics, following a similar approach to that adopted for erosion . The analysis with the peak-over-threshold theory of SSC time series computed using a fully coupled, bi-dimensional model allows us to identify interarrival times, intensities, and durations of over-threshold events and test the hypothesis of modelling SSC dynamics as a Poisson process. The effects of morphological modifications on spatial and temporal SSC patterns are investigated in the Venice Lagoon, for which several historical configurations in the last 4 centuries are available. Our results show that, similar to erosion events, SSC can be modelled as a marked Poisson process in the intertidal flats for all the analysed morphological lagoon configurations because exponentially distributed random variables describe over-threshold events well. Although erosion and resuspension are intimately intertwined, erosion alone does not suffice to describe also SSC because of the non-local dynamics due to advection and dispersion processes. The statistical characterization of SSC events completes the framework introduced for erosion mechanics, and together, they represent a promising tool to generate synthetic, yet realistic, time series of shear stress and SSC for the long-term modelling of tidal environments.EnglishIN-SITU MEASUREMENTSSAN-FRANCISCO BAYSATELLITE DATAVENICE LAGOONWIND-WAVESWATERTURBIDITYGROWTHMODELFLOWScience & TechnologyPhysical SciencesStatistical characterization of erosion and sediment transport mechanics in shallow tidal environments - Part 2: Suspended sediment dynamicstext::journal::journal article::research article