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Multi-temporal remote sensing for monitoring hydro-erosive process dynamics in terraced cultural landscapes

Multi-temporal remote sensing for monitoring hydro-erosive process dynamics in terraced cultural landscapes
Multi-temporal remote sensing for monitoring hydro-erosive process dynamics in terraced cultural landscapes

Cultural landscapes embody the evolving relationship between humans and nature, often reflecting strong rural influences. Agricultural terraces are repositories of traditional knowledge, supporting the local economy through food production and economic development, including tourism. However, challenges such as field abandonment, inadequate maintenance, and extreme rainfall events significantly affect terrace systems. These issues lead to instabilities, wall collapses, landslides, floods, and debris flows, posing an imminent threat to their distinctive identity. The increased frequency of heavy rainfall due to climate change may exacerbate these problems. Therefore, monitoring hydro-erosive processes is crucial to mitigate these risks and protect the associated social and cultural values. Remote sensing technologies with High-Resolution Topography (HRT) surveys offer effective tools (e.g., multi-temporal Digital Elevation Models-DEM) for this purpose. This research introduces a preliminary workflow for monitoring instabilities in terraced cultural landscapes, focusing on Italy's UNESCO World Heritage site “Portovenere, Cinque Terre, and the islands”. The area is prone to such issues as evidenced by a dramatic flash-flood event in 2011. The method integrates data collected over different years and techniques (i.e., airborne laser scanning and photogrammetry), overcoming challenges associated with “old legacy” datasets. These data facilitated investigations of hydro-erosive processes over time, supporting hydrological modelling and geomorphometric indices to identify critical areas for rapid and targeted mitigation. Monitoring, planning, and preventive measures are crucial for enhancing resilience in terraced cultural landscapes, and remote sensing technologies are key in reshaping protective strategies and preserving these invaluable landscapes.

Agricultural terraces, Cultural landscapes, Hydro-erosive processes, Monitoring workflow, Remote sensing
2366-2557
37-44
Springer
Straffelini, Eugenio
1ee0408d-9d8f-4043-8ad2-eb25537fb223
Cucchiaro, Sara
7d9876e2-f73c-411d-9966-980681b3f3cd
Raso, Emanuele
d8d12e21-2d97-4afb-adfd-c234b7de80cb
Paliaga, Guido
99fbe068-c245-4aa4-8d2a-8983eb56ef32
Fallu, Daniel
3f91622e-bf08-458c-beec-505bf161b20d
Brown, Antony G.
c51f9d3e-02b0-47da-a483-41c354e78fab
Tarolli, Paolo
2126b078-784e-4444-9bf1-2a2dffdb8e38
Sartori, Luigi
Tarolli, Paolo
Guerrini, Lorenzo
Zuecco, Giulia
Pezzuolo, Andrea
Straffelini, Eugenio
1ee0408d-9d8f-4043-8ad2-eb25537fb223
Cucchiaro, Sara
7d9876e2-f73c-411d-9966-980681b3f3cd
Raso, Emanuele
d8d12e21-2d97-4afb-adfd-c234b7de80cb
Paliaga, Guido
99fbe068-c245-4aa4-8d2a-8983eb56ef32
Fallu, Daniel
3f91622e-bf08-458c-beec-505bf161b20d
Brown, Antony G.
c51f9d3e-02b0-47da-a483-41c354e78fab
Tarolli, Paolo
2126b078-784e-4444-9bf1-2a2dffdb8e38
Sartori, Luigi
Tarolli, Paolo
Guerrini, Lorenzo
Zuecco, Giulia
Pezzuolo, Andrea

Straffelini, Eugenio, Cucchiaro, Sara, Raso, Emanuele, Paliaga, Guido, Fallu, Daniel, Brown, Antony G. and Tarolli, Paolo (2025) Multi-temporal remote sensing for monitoring hydro-erosive process dynamics in terraced cultural landscapes. Sartori, Luigi, Tarolli, Paolo, Guerrini, Lorenzo, Zuecco, Giulia and Pezzuolo, Andrea (eds.) In Biosystems Engineering Promoting Resilience to Climate Change - AIIA 2024 - Mid-Term Conference. vol. 586, Springer. pp. 37-44 . (doi:10.1007/978-3-031-84212-2_5).

Record type: Conference or Workshop Item (Paper)

Abstract

Cultural landscapes embody the evolving relationship between humans and nature, often reflecting strong rural influences. Agricultural terraces are repositories of traditional knowledge, supporting the local economy through food production and economic development, including tourism. However, challenges such as field abandonment, inadequate maintenance, and extreme rainfall events significantly affect terrace systems. These issues lead to instabilities, wall collapses, landslides, floods, and debris flows, posing an imminent threat to their distinctive identity. The increased frequency of heavy rainfall due to climate change may exacerbate these problems. Therefore, monitoring hydro-erosive processes is crucial to mitigate these risks and protect the associated social and cultural values. Remote sensing technologies with High-Resolution Topography (HRT) surveys offer effective tools (e.g., multi-temporal Digital Elevation Models-DEM) for this purpose. This research introduces a preliminary workflow for monitoring instabilities in terraced cultural landscapes, focusing on Italy's UNESCO World Heritage site “Portovenere, Cinque Terre, and the islands”. The area is prone to such issues as evidenced by a dramatic flash-flood event in 2011. The method integrates data collected over different years and techniques (i.e., airborne laser scanning and photogrammetry), overcoming challenges associated with “old legacy” datasets. These data facilitated investigations of hydro-erosive processes over time, supporting hydrological modelling and geomorphometric indices to identify critical areas for rapid and targeted mitigation. Monitoring, planning, and preventive measures are crucial for enhancing resilience in terraced cultural landscapes, and remote sensing technologies are key in reshaping protective strategies and preserving these invaluable landscapes.

Text
Subm Paper AIIA24 - Straffelini et al - Accepted Manuscript
Restricted to Repository staff only until 13 April 2026.
Available under License University of Southampton Accepted Manuscript Licence.
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e-pub ahead of print date: 13 April 2025
Keywords: Agricultural terraces, Cultural landscapes, Hydro-erosive processes, Monitoring workflow, Remote sensing

Identifiers

Local EPrints ID: 502978
URI: http://eprints.soton.ac.uk/id/eprint/502978
DOI: doi:10.1007/978-3-031-84212-2_5
ISSN: 2366-2557
PURE UUID: a161568b-9711-4c72-9cce-1f56f71408e9
ORCID for Antony G. Brown: ORCID iD orcid.org/0000-0002-1990-4654

Catalogue record

Date deposited: 15 Jul 2025 16:52
Last modified: 19 Jul 2025 01:44

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Contributors

Author: Eugenio Straffelini
Author: Sara Cucchiaro
Author: Emanuele Raso
Author: Guido Paliaga
Author: Daniel Fallu
Author: Antony G. Brown ORCID iD
Author: Paolo Tarolli
Editor: Luigi Sartori
Editor: Paolo Tarolli
Editor: Lorenzo Guerrini
Editor: Giulia Zuecco
Editor: Andrea Pezzuolo

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