Flash-flood hyperpycnal flows generating shallow-water landslides at Fiumara mouths in Western Messina Strait (Italy)

Casalbore, Daniele; Chiocci, Francesco Latino; Mugnozza, Gabriele Scarascia; Tommasi, Paolo; Sposato, A.

doi:10.1007/s11001-011-9128-y

Cited by 77 publications

(67 citation statements)

References 32 publications

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“…Casalbore et al, 2011), even though a portion of this volume represents the amount of sediment deposited in the sea (Figure 3), which cannot be precisely estimated. Therefore, the total estimated debris-flow volume was approximately 120 000 m 3 , a value comparable with that estimated in previous work (e.g.…”

Section: Resultsmentioning

confidence: 99%

Reconstruction of a destructive debris‐flow event via numerical modeling: the role of valley geometry on flow dynamics

Schilirò

Blasio

Esposito

et al. 2015

Earth Surf Processes Landf

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Debris‐flows are widespread natural phenomena characterized by high mobility (high velocity and long runout distance) and impact forces, which frequently cause human casualties and significant damage to infrastructure. To better understand the dynamics of such events, analyzing in particular the effect induced by the valley geometry on flow velocity, runout and mobilized volumes, in this work we reconstruct a real debris‐flow event through numerical modeling. Specifically, we used a modified version of the BING model, a fluid‐dynamic depth‐integrated numerical model for debris flows, which has been properly modified to account for width changes along the valley. The studied event, which occurred in Scaletta Zanclea (Messina, north‐eastern Sicily, Italy) on October 1, 2009, is exceptionally well constrained by field and topographic information. In this respect the flow velocity, estimated from two specific locations on the basis of field evidence, the distribution of erosional and depositional areas along the Racinazzo valley, based on the comparison of pre‐ and post‐event digital elevation models (DEMs), and the runout distance were used as constraints to calibrate the model. Furthermore, we report a detailed description of the main event characteristics based on hydrological records and witness reports. The numerical modeling results are consistent with witness reports and the severe damage recorded in the Scaletta Marina village, and highlight the effect of the valley geometry on both the debris flow velocity and the erosion/deposition processes. The effect of changing valley width has been also quantified, resulting in accelerations of the debris in correspondence of the valley narrowing and stagnations at the plateaus. Copyright © 2015 John Wiley & Sons, Ltd.

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Section: Resultsmentioning

confidence: 99%

Reconstruction of a destructive debris‐flow event via numerical modeling: the role of valley geometry on flow dynamics

Schilirò

Blasio

Esposito

et al. 2015

Earth Surf Processes Landf

View full text Add to dashboard Cite

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“…Well-controlled laboratory and flume investigations provide valuable steps toward understanding how sediment-supply pulses affect processes such as stream-channel evolution, bar formation, and avulsion (e.g., Lisle et al, 1997;Braudrick et al, 2009;Madej et al, 2009;Tal and Paola, 2010;Pryor et al, 2011); and modeling studies allow simulated manipulation of landscapes over a range of scales (e.g., Cui and Parker, 2005;Jerolmack and Paola, 2007;Karssenberg and Bridge, 2008;Wang et al, 2011). However, opportunities to study landscape response to major sediment influx over large field scales are much rarer and usually are not anticipated in advance (e.g., dam failure, volcanic eruptions, landslides, or debris flows; Meyer and Martinson, 1989;Montgomery et al, 1999;Hoffman and Gabet, 2007;Casalbore et al, 2011;Gran, 2012;Guthrie et al, 2012;Pierson and Major, 2014;Tullos and Wang, 2014). Therefore, landscape adjustment to a substantial sedimentsupply increase remains seldom quantified in the field.…”

Section: Introductionmentioning

confidence: 99%

Large-scale dam removal on the Elwha River, Washington, USA: River channel and floodplain geomorphic change

et al. 2015

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“…In recent years, high-resolution bathymetric data acquired with latest-generation multibeam and sonar technologies also provides advances in outlining submarine morphological features, and in understanding the sedimentary processes in canyons (Greene et al, 2002;Lastras et al, 2007, Lastras et al, 2009Mountjoy et al, 2009;Paull et al, 2010;Paull et al,2013), and especially at the canyon heads (Smith et al, 2007;Yoshikawa and Nemoto, 2010;Casalbore et al, 2011;Lastras et al, 2011).…”

Section: Introductionmentioning

confidence: 99%

Direct sediment transfer from land to deep-sea: Insights into shallow multibeam bathymetry at La Réunion Island

et al. 2013

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Submarine canyon heads are key areas for understanding the triggering factors of gravity currents responsible for the transfer of detrital sediment to the deep basins. This contribution offers a detailed picture of canyon heads off La Réunion Island, with high-resolution multibeam bathymetry in the water depth range of 4-220 m. The present feeding of the Cilaos turbidite system, one of the largest modern volcaniclastic systems in the world, is deduced from morphological and sedimentological interpretations of newly acquired data. The study highlights small-scale sedimentary features indicating hydrodynamic and sedimentary processes.A direct connexion between the Saint-Etienne river mouth and submarine canyons is evidenced by the complete incision of the shelf and the presence of canyon heads connected to the modern deltaic bar. This direct connection, supplied by river torrential floods (cyclonic floods every two or three years), suggests the continuity of high-density fluvial flows to submarine gravity flows, forming hyperpycnal flows in the canyon.The initiation of secondary submarine gravity flows by storm waves (large austral waves and cyclonic waves) is also proposed for submarine canyons with large canyon heads developed in the surf zone from a sandy coastal bar. Bedforms in active canyon axis are considered as an indicator of the frequent activity of high-density turbidity currents.Moreover, a morphological record of last glacial and deglacial sea level variations is preserved, and particularly the Last Glacial Maximum sea level with the presence of small vertical cliffs, observed in this bathymetric data, which likely corresponds to a paleo-shoreline or paleo-reefs.2

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Flash-flood hyperpycnal flows generating shallow-water landslides at Fiumara mouths in Western Messina Strait (Italy)

Cited by 77 publications

References 32 publications

Reconstruction of a destructive debris‐flow event via numerical modeling: the role of valley geometry on flow dynamics

Reconstruction of a destructive debris‐flow event via numerical modeling: the role of valley geometry on flow dynamics

Large-scale dam removal on the Elwha River, Washington, USA: River channel and floodplain geomorphic change

Direct sediment transfer from land to deep-sea: Insights into shallow multibeam bathymetry at La Réunion Island

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