Syvitski Student Modeler Award 2022: Difference between revisions
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|Narrative=Marco was awarded for his submission “[http://cascade.deib.polimi.it/ D-CASCADE: a dynamic sediment (dis)connectivity model for strategic river basin planning and management]”. Modelling network-scale sediment (dis)connectivity and its response to anthropic pressures provides a foundation understanding of river processes and sediment dynamics that can be used to forecast future trajectories of river form and process. | |Narrative=Marco was awarded for his submission “[http://cascade.deib.polimi.it/ D-CASCADE: a dynamic sediment (dis)connectivity model for strategic river basin planning and management]”. Modelling network-scale sediment (dis)connectivity and its response to anthropic pressures provides a foundation understanding of river processes and sediment dynamics that can be used to forecast future trajectories of river form and process. | ||
The basin-scale, dynamic sediment connectivity model D-CASCADE, combines concepts of network modelling with empirical sediment transport formulas to quantify spatiotemporal sediment (dis)connectivity in river networks. The D-CASCADE framework describes sediment connectivity in terms of transfer rate through space and time while accounting for several hydro-morphological and anthropic factors affecting sediment transport. PhD March 2022 Politecnico di Milano, Advisor: Andrea Castelletti | The basin-scale, dynamic sediment connectivity model D-CASCADE, combines concepts of network modelling with empirical sediment transport formulas to quantify spatiotemporal sediment (dis)connectivity in river networks. The D-CASCADE framework describes sediment connectivity in terms of transfer rate through space and time while accounting for several hydro-morphological and anthropic factors affecting sediment transport. | ||
* Tangi, M., Bizzi, S., Fryirs, K., Castelletti, A., 2022. A dynamic, network scale sediment (dis)connectivity model to reconstruct historical sediment | |||
transfer and river reach sediment budgets. Water Resources Research, e2021WR030784. https://doi.org/10.1029/2021WR030784 | Marco received his PhD in March 2022 at Politecnico di Milano, Advisor: Andrea Castelletti. | ||
* Tangi, M., Bizzi, S., Fryirs, K., Castelletti, A., 2022. A dynamic, network scale sediment (dis)connectivity model to reconstruct historical sediment transfer and river reach sediment budgets. Water Resources Research, e2021WR030784. https://doi.org/10.1029/2021WR030784 | |||
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Latest revision as of 10:53, 5 May 2022
Postdoc/Fellow, Marco Tangi, recipient of the 2022 Syvitski Student Modeler award
Politecnico di Milano, Italy
The basin-scale, dynamic sediment connectivity model D-CASCADE, combines concepts of network modelling with empirical sediment transport formulas to quantify spatiotemporal sediment (dis)connectivity in river networks. The D-CASCADE framework describes sediment connectivity in terms of transfer rate through space and time while accounting for several hydro-morphological and anthropic factors affecting sediment transport.
Marco received his PhD in March 2022 at Politecnico di Milano, Advisor: Andrea Castelletti.
- Tangi, M., Bizzi, S., Fryirs, K., Castelletti, A., 2022. A dynamic, network scale sediment (dis)connectivity model to reconstruct historical sediment transfer and river reach sediment budgets. Water Resources Research, e2021WR030784. https://doi.org/10.1029/2021WR030784
