Recognition of debris flow, debris flood and flood hazard through watershed morphometrics

Wilford, David; Sakals, M. E.; Innes, John L.; Sidle, Roy C.; Bergerud, W A

doi:10.1007/s10346-003-0002-0

Cited by 253 publications

(252 citation statements)

References 17 publications

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“…Although rare, such events can have significant impacts on the local natural environment and disastrous consequences for the affected communities and populations (Woo and Jones, 2002). Rainfall-induced debris flows are one of the most dangerous natural hazards in mountain regions (Hu et al, 2009), because their occurrence is unpredictable and this type of waterrelated natural disaster can be catastrophic, affecting significantly not only the landscape, but also causing damage to houses and infrastructures (Kanji et al, 2008), loss of lives (Wilford et al, 2004), and other negative economic and social impacts due to the increasing anthropisation of such areas (Hürlimann et al, 2006). Floods and associated landslides and debris-flows triggered by extreme rainfall events have been in reality the most devastating of natural disasters, both in Madeira Island (Baioni, 2011;Quintal, 1999) as in the rest of the world (Hong et al, 2007).…”

Section: Introductionmentioning

confidence: 99%

A dependence modelling study of extreme rainfall in Madeira Island

Gouveia-Reis

Lopes

Mendonça

2016

Physics and Chemistry of the Earth, Parts A/B/C

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a b s t r a c tThe dependence between variables plays a central role in multivariate extremes. In this paper, spatial dependence of Madeira Island's rainfall data is addressed within an extreme value copula approach through an analysis of maximum annual data. The impact of altitude, slope orientation, distance between rain gauge stations and distance from the stations to the sea are investigated for two different periods of time. The results obtained highlight the influence of the island's complex topography on the spatial distribution of extreme rainfall in Madeira Island.

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Section: Introductionmentioning

confidence: 99%

A dependence modelling study of extreme rainfall in Madeira Island

Gouveia-Reis

Lopes

Mendonça

2016

Physics and Chemistry of the Earth, Parts A/B/C

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“…Df-dominated alluvial fans are susceptible to the occurrence of flows with high viscosity (high percentage of debris load) and hence this group of fans can be considered as having the highest danger levels (Aulitzky, 1980;Welsh & Davies, 2011). Many studies have proved that a detailed morphometric analysis of the basin/fan system, coupled with geomorphological, stratigraphic, sedimentological and historical analyses, may be useful to distinguish between Df and Wf fans (Bertrand, Liébault, & Piégay, 2013;Crosta & Frattini, 2004;De Scally & Owens, 2004;De Scally, Owens, & Louis, 2010;Hashimoto et al, 2008;Melton, 1965;Santangelo et al, 2012;Sorriso-Valvo, Antronico, & La Pera, 1998;Wilford, Sakals, Innes, Sidle, & Bergerud, 2004).…”

Section: Introductionmentioning

confidence: 99%

Multiscale map analysis in alluvial fan flood-prone areas

2015

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Several case studies of geomorphological mapping at various scales in order to identify areas prone to alluvial fan flooding are presented in this paper. The selected areas are located in southern Italy and are representative of a geomorphic unit (foothills consisting of coalescent alluvial fans) found throughout the southern Apennines. The medium-scale approach represents the best tool to identify areas susceptible to flooding, using detailed geomorphological mapping of fan systems. It can be considered a preliminary analysis, which provides important information for large areas and identifies zones which need further investigation. Large-scale map analysis may be applied to a single fan and used to distinguish fan portions prone to different degrees of hazard exposure, thus providing accurate information for decision-makers who are called upon to plan hazard management. In both cases, analysis based on detailed geological and geomorphological field surveys is often coupled with remotely sensed data.Keywords: Medium and Large scale maps; urbanized alluvial fan; flooding susceptibility; GIS applications; Southern Italy; debris flow 1. Introduction Piedmont areas consisting of coalescent alluvial fans are commonly occurring geomorphological units worldwide (Bull, 1968(Bull, , 1977. Due to their gentle slope, they are often prime spots for urban development. However, during intense storms, they may be affected by flooding and/or debris flow processes, thus becoming prone to hazardous phenomena.Flood susceptibility assessment in fan contexts is a major challenge, although to date this has received little attention. Papers dealing with other kinds of natural hazards such as landslides in mountain and hill areas (Aleotti & Chowdhury, 1999;Capparelli, Versace, & Biondi, 2013;Cascini, Bonnard, Corominas, Jibson, & Montero-Olarte, 2005;Castelli et al., 2002; JTC-1, 2008;Olivares & Picarelli, 2003;Sorbino, Sica, & Cascini, 2010) and flood hazards in floodplains (Canuti & Casagli, 1996;Guzzetti, Stark, & Salvati, 2005; Jalayer et al., 2014;Van Westen, 2000) are more numerous than those regarding flood susceptibility assessment in fan contexts.

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“…The Melton ratio is 0.62 and the relief ratio 0.3. The analysis of the morphometric parameters of the catchment indicates that the Portainé basin is susceptible of generating hyperconcentrated flows (Wilford et al 2004). …”

Section: Morphology Geology and Climatementioning

confidence: 99%