Data‐driven modelling of joint debris flow release susceptibility and connectivity

Steger, Stefan; Scorpio, Vittoria; Comiti, Francesco; Cavalli, Marco

doi:10.1002/esp.5421

Cited by 15 publications

(4 citation statements)

References 101 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…However, relatively wide channels (high W * values) are characterised also by non‐glacial rivers draining sedimentary substrates, which are prone to occasional (i.e. storm‐driven) supply of large coarse sediment volumes by numerous debris flow tributaries (Brardinoni et al, 2012; Scorpio et al, 2022; Steger et al, 2022).…”

Section: Discussionmentioning

confidence: 99%

Multi‐decadal quantification of interactions between coarse sediment fluxes and channel management in South Tyrol, Eastern European Alps

Scorpio,

Andreoli,

Dinkelaker

et al. 2024

Earth Surf Processes Landf

Self Cite

View full text Add to dashboard Cite

Channel incision and narrowing have occurred in the 20th century in most Alpine rivers. However, the causal links between sediment‐related human engineering and exploitation and morphological changes in rivers are mostly unclear. This study presents an analysis of the evolutionary trajectories of the main active channels in the upper Etsch/Adige River basin (Eastern European Alps) coupled with their modifications in terms of coarse sediment transport. Channel planform variations were quantified in 15 rivers (total length of 630 km) using multi‐temporal analysis of historical maps and orthophotos. Sediment volumes excavated from river channels or trapped by hydraulic structures (dams and retention basins) were retrieved from historical records, along with geospatial information regarding the presence of lateral and longitudinal consolidation works and land use variations. Results indicate that most rivers underwent slight narrowing and some of them experienced widening, from the mid‐19th century to the 1950s. From the 1950s to the late 1990s, severe variations in terms of narrowing and morphological simplification took place in all rivers. The analysis of channel changes in relation to human activities shows that gravel mining carried out in the period 1970s–1990s appears to have been the main cause of sediment imbalance in the rivers which narrowed the most. Since the 2000s, when gravel mining was banned by law, channel adjustments have become negligible throughout study area. Nevertheless, the trapping of a large share of coarse sediment fluxes—at the river basin scale—by retention check dams and hydropower dams has impeded rivers from recovering to their original conditions.

show abstract

Section: Discussionmentioning

confidence: 99%

Multi‐decadal quantification of interactions between coarse sediment fluxes and channel management in South Tyrol, Eastern European Alps

Scorpio,

Andreoli,

Dinkelaker

et al. 2024

Earth Surf Processes Landf

Self Cite

View full text Add to dashboard Cite

show abstract

“…There, the susceptibility patterns are obtained by locally solving the prediction function fitted over another study area. This procedure is commonly referred to as model transferability (Steger et al, 2022) or as validation with independent spatial data (Roberts et al, 2017) and it is often assumed to return worse performance as compared to tests that are run within the same study area where a given model is calibrated. This is confirmed even in this case, with barely acceptable transferred performances down to 0.7 of AUC in both cases.…”

Section: Susceptibility Modeling Performancementioning

confidence: 99%

Assessing multi-hazard susceptibility to cryospheric hazards: lesson learnt from an Alaskan example

Elia¹,

Castellaro²,

Dahal³

et al. 2023

Preprint

View full text Add to dashboard Cite

Classifying a given landscape on the basis of its susceptibility to surface processes is a standard procedure in low to mid-latitudes. Conversely, these procedures have hardly been explored in periglacial regions, primarily because of the limited presence of human settlements and, therefore, the little need for risk assessment. However, global warming is radically changing this situation and will change it even more in the future. For this reason, understanding the spatial and spatiotemporal dynamics of geomorphological processes in peri-arctic environments can be crucial to make informed decisions in such unstable environments and shed light on what changes may follow at lower latitudes. For this reason, here we explored the use of data-driven models capable of recognizing locations prone to develop retrogressive thaw slumps (RTSs) and/or active layer detachments (ALDs). These are cryospheric hazards induced by permafrost degradation, and their development can negatively affect human settlements or infrastructure, change the sediment budget dynamics and release greenhouse gases. Specifically, we test a binomial Generalized Additive Modeling structure to estimate the probability of RST and ALD occurrences in the North sector of the Alaskan territory. The results we obtain show that our binary classifiers can accurately recognize locations prone to RTS and ALD, in a number of goodness-of-fit (AUC_RTS = 0.83; AUC_ALD = 0.86), random cross-validation (mean AUC_RTS = 0.82; mean AUC_ALD = 0.86), and spatial cross-validation (mean AUC_RTS = 0.74; mean AUC_ALD = 0.80) routines.Overall, our analytical protocol has been implemented to build an open-source tool scripted in Python as part of an interactive Jupyter notebook where all the operational steps are automatized for anyone to replicate the same experiment. Our protocol allows one to access cloud-stored information, pre-process it, and download it locally to be integrated for spatial predictive purposes. Data and codes can be accessed at this GitHub repository: https://github.com/zincoblenda/CryoS

show abstract

“…It has increasingly become a popular topic over the last decade, also as a support to sustainable river management, flood-risk assessment, and fluvial processes analysis [27][28][29][30]. Channel systems continuously evolve responding to fluctuations and changes of sediment supply and runoff; this can interact with channel morphologies, bed material size, hydraulic forces, river islands, and construction sites [31][32][33][34][35][36][37][38][39]. The movement and remodelling of soil due to anthropic actions can affect both slope and fluvial dynamics [30,40].…”

Section: Investigation Of Slope and Fluvial Dynamics: State-of-the-artmentioning

confidence: 99%

Integrated Geomatics Surveying and Data Management in the Investigation of Slope and Fluvial Dynamics

et al. 2022

View full text Add to dashboard Cite

In mountain environments, slope and fluvial dynamics often interact, and their relationship can be investigated through an integrated methodological approach. Landslides are a source of supplying sediments into riverbeds and can interact or interrupt the water course. Water courses can trigger or re-activate slope movements. The complexity of investigating the interaction between the two dynamics needs a complementarity of methods and techniques, combining remote and proximal sensing, geotechnical in situ surveys, and repositories and catalogue datasets. This leads to a synergistic use of all the heterogeneous data from different fields and formats. The present paper provides a literature review on the approaches and surveying procedures adopted in the investigation of slope and fluvial dynamics and highlights the need to improve the integrated management of geospatial information complemented by quality information. In this regard, we outline a geodatabase structure capable of handling the variety of geoscientific data available at different spatial and temporal scales, with derived products that are useful in integrated monitoring tasks. Indeed, the future adoption of a shared physical structure would allow the merging and synergistic use of data provided by different surveyors as well as the effective storing and sharing of datasets from a monitoring perspective.

show abstract

Data‐driven modelling of joint debris flow release susceptibility and connectivity

Cited by 15 publications

References 101 publications

Multi‐decadal quantification of interactions between coarse sediment fluxes and channel management in South Tyrol, Eastern European Alps

Multi‐decadal quantification of interactions between coarse sediment fluxes and channel management in South Tyrol, Eastern European Alps

Assessing multi-hazard susceptibility to cryospheric hazards: lesson learnt from an Alaskan example

Integrated Geomatics Surveying and Data Management in the Investigation of Slope and Fluvial Dynamics

Contact Info

Product

Resources

About