Geomorphic Flood Index 2.0: Enhanced Tools for Delineating Flood-Prone Areas in Data-Scarce Regions

Salvatore Manfreda; Jorge Saavedra; Cinzia Albertini; Daniele Pacia; Caterina Samela; Ruodan Zhuang

doi:https://doi.org/10.5194/egusphere-egu25-18999

[Back] [Session GM3.3]

EGU25-18999, updated on 15 Mar 2025

https://doi.org/10.5194/egusphere-egu25-18999

EGU General Assembly 2025

© Author(s) 2025. This work is distributed under
the Creative Commons Attribution 4.0 License.

PICO | Wednesday, 30 Apr, 16:52–16:54 (CEST)

PICO spot 2, PICO2.13

Geomorphic Flood Index 2.0: Enhanced Tools for Delineating Flood-Prone Areas in Data-Scarce Regions

Salvatore Manfreda¹, Jorge Saavedra¹, Cinzia Albertini², Daniele Pacia¹, Caterina Samela³, and Ruodan Zhuang¹

Salvatore Manfreda et al.

¹Università degli Studi di Napoli Federico II, Dipartimento di Ingegneria Civile, Edile e Ambientale, Naples, Italy
²L’affiliazione è: Consiglio Nazionale delle Ricerche (CNR), Istituto per il Rilevamento Elettromagnetico dell’Ambiente (IREA), Via Giovanni Amendola, 122, 70125, Bari, Italy
³Institute of Methodologies for Environmental Analysis - National Research Council of Italy (IMAA-CNR), 85050 Tito Scalo (PZ), Italy

In recent years, significant advancements in geomorphic methods have offered a cost-effective and valuable alternative for large-scale flood mapping. Among these, the Geomorphic Flood Index (GFI) has gained widespread adoption for flood delineation applications globally (Samela et al., 2017). The development of the GFA-tool plug-in for QGIS has helped to disseminate and simplify the application of this approach and boosted its popularity (Samela et al., 2018).

The GFI builds on Digital Elevation Models (DEMs) information on water levels in each drainage network cell and elevation differences between each river basin location and the closest stream channel cell hydrologically connected to it. However, in its current original formulation, certain limitations exist that can affect its usability and reliability (Albertini et al., 2021). In fact, near confluences, floodwater may not strictly follow river connectivity patterns and secondary tributary floodplains may be partially submerged due to the backflow from the mainstream.

To address these challenges, a new methodology has been developed that explicitly takes into consideration confluences. This improved approach enhances the robustness of the index and provides more reliable flood mapping, even in complex settings such as large alluvial valleys. The method further improves the reliability of flood depth estimations obtained through this approach.

References:

Albertini, C., D. Miglino, V. Iacobellis, F. De Paola, S. Manfreda, Flood-prone areas delineation in coastal regions using the Geomorphic Flood Index, Journal of Flood Risk Management, e12766, 2021.

Samela, C., R. Albano, A. Sole, S. Manfreda, A GIS tool for cost-effective delineation of flood-prone areas, Computers, Environment and Urban Systems, 70, 43-52, 2018.

Samela, C., T.J. Troy, S. Manfreda, Geomorphic classifiers for flood-prone areas delineation for data-scarce environments, Advances in Water Resources, 102, 13-28, 2017.

How to cite: Manfreda, S., Saavedra, J., Albertini, C., Pacia, D., Samela, C., and Zhuang, R.: Geomorphic Flood Index 2.0: Enhanced Tools for Delineating Flood-Prone Areas in Data-Scarce Regions, EGU General Assembly 2025, Vienna, Austria, 27 Apr–2 May 2025, EGU25-18999, https://doi.org/10.5194/egusphere-egu25-18999, 2025.