Using remote sensing and numerical modelling to quantify a turbidity discharge event in Lake Garda

Submitted: 3 August 2020
Accepted: 23 September 2020
Published: 1 October 2020
Abstract Views: 2268
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We investigate the effect of the Adige-Garda spillway opening on the 03/03/2020 on Lake Garda using numerical modelling and maps of Suspended Particulate Matter (SPM) concentration. SPM maps are obtained from Sentinel-2 images processed using the BOMBER bio-optical model. Three satellite images are examined: 28/02/2020, 04/03/2020 and 07/03/2020. Maps indicate a significant increase in SPM concentrations, especially in the northern part of the lake close to the hydraulic tunnel outlet. Results are consistent with the modelled flow field. Remote sensing effectively captures the event’s spatial and temporal variation, while numerical modelling explains and corroborates the observed patterns.



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Edited by

Diego Fontaneto, CNR IRSA, Verbania, Italy
Marina Amadori, Institute for Electromagnetic Sensing of the Environment, National Research Council, Milan

Department of Civil, Environmental and Mechanical Engineering (DICAM), University of Trento

How to Cite

Ghirardi, Nicola, Marina Amadori, Gary Free, Lorenzo Giovannini, Marco Toffolon, Claudia Giardino, and Mariano Bresciani. 2020. “Using Remote Sensing and Numerical Modelling to Quantify a Turbidity Discharge Event in Lake Garda”. Journal of Limnology 80 (1).

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