Societal landslide and flood risk in Italy

Salvati, Paola; Bianchi, Cinzia; Rossi, Mauro; Guzzetti, Fausto

doi:10.5194/nhess-10-465-2010

Cited by 206 publications

(140 citation statements)

References 13 publications

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“…Previous scientifically published quantification on fatalities are, as far as we know, calculated frequency rates for average number of fatalities per event, year, month, day, intensity, area of occurrence or expressed as the number of deaths per 100,000 inhabitants for a given population over a predefined time period (Cascini et al 2008;Giannecchini and D'Amato Avanzi 2012;Guzzetti et al 2005b;Hilker et al 2009;Pereira et al 2014;Salvati et al 2010). Methodologically, the studies differ concerning which observation inclusion criteria that are used when deriving a fatality (or mortality) rate.…”

Section: Factors Affecting Susceptibility (S F )mentioning

confidence: 99%

“…Guzzetti et al (2005b) combined the number of missing people with the number of deaths when estimating fatalities. Salvati et al (2010) also included injured humans as well as those killed and declared missing. Giannecchini and D'Amato Avanzi (2012) did not distinguish between flood and landslide fatalities.…”

Section: Factors Affecting Susceptibility (S F )mentioning

confidence: 99%

“…Among the scientifically published literature, an extensive portion focuses on Italian landslide scenarios. Several studies base their research on variations of the same historical landslide catalogs (e.g., Guzzetti et al 2003Guzzetti et al , 2006Salvati et al 2010). Analyses of experienced risk factors affecting fatality rates can, however, serve as input to risk assessments and disaster response by increasing the understanding of vulnerable groups and ease assistance in the direct aftermath of a disaster (Agrawal et al 2013).…”

Section: Introductionmentioning

confidence: 99%

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Assessment of data availability for the development of landslide fatality curves

Grahn

Jaldell

2016

Landslides

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Quick clay landslides are a special feature of Norwegian and Swedish geologies. Vibrations or small initial landslides can cause a quick clay layer to collapse and liquefy, resulting in rapid landslides with little or no time for evacuation, making them a real threat to human life. Research concentrating on damages due to landslides is scarce, and analyses of loss of human lives caused by quick clay landslides in the scientific literature are, to our knowledge, nonexisting. Fatality quantification can complement landslide risk assessments and serves as guidance for policy choices when evaluating efficient risk-reducing measures. The objectives of this study were to assess and analyze available damage information in an existing data set of 66 historical landslide events that occurred in Norway and Sweden between 1848 and 2009, and access its applicability for quantifying loss of human life caused by quick clay landslides. Fatality curves were estimated as functions of the number of exposed persons per landslide. Monte Carlo simulations were used to account for the uncertainties in the number of people actually exposed. The results of the study imply that the quick clay fatality curves are nonlinear, indicating that the probability of losing lives increases exponentially when the number of exposed persons increases. Potential factors affecting human susceptibility to landslides (e.g., landslide-, area-, or individual-specific characteristics) could not be satisfyingly quantified based on available historical records. Future research should concentrate on quantifying susceptibility factors that can further explain human vulnerability to quick clay landslides.

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Section: Factors Affecting Susceptibility (S F )mentioning

confidence: 99%

Section: Factors Affecting Susceptibility (S F )mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Assessment of data availability for the development of landslide fatality curves

Grahn

Jaldell

2016

Landslides

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“…Landslides activity usually causes direct human impacts (fatalities, injuries), but the quantitative assessment of landslide societal risk has been developed in a limited number of studies performed at global (Petley 2012), European (Haque et al 2016) and national scales (Guzzetti 2000;Salvati et al 2010;Pereira et al 2016). …”

Section: Introductionmentioning

confidence: 99%

Landslide Societal Risk in Portugal in the Period 1865–2015

Pereira

Zêzere

Quaresma

2017

Advancing Culture of Living With Landslides

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In Portugal, social impacts caused by landslides occurred in the period 1865-2015 are gathered in the DISASTER database. This database includes social consequences (fatalities, injuries, missing people, evacuated people and homeless people) caused by landslides documented in newspapers. The DISASTER database contains 291 damaging landslides that caused 238 fatalities. In this work we aim to: (i) analyse the spatio-temporal analysis of damaging landslides occurred in the last 150 years; (ii) analyse the frequency and the temporal evolution of fatal landslides; (iii) analyse the spatio-temporal distribution of landslide fatalities; (iv) identify the most deadly landside types; (v) verify gender tendencies in landslide mortality; and (vi) evaluate the individual and societal risk. Individual risk is evaluated computing mortality rates for landslides, which are calculated based on the annual average population and the annual average of fatalities. The societal risk is evaluated by plotting the annual frequency of landslide cases that generated fatalities. The results demonstrate the absence of any exponential growth in time of both landslide cases and landslide mortality in Portugal. The highest number of landslide cases and related mortalities occurred in the period of 1935-1969 in relation to very wet years. Most of landslide fatalities mainly occurred in the north of the Tagus valley where the geologic and geomorphologic conditions are more prone to landslides. The Lisbon area registered a mortality hotspot, which is explained by natural conditions combined with the high exposure of population to landslide risk. Falls and flows were responsible for the highest number of fatalities associated with landslides. Males were found to have the highest frequency of fatalities. In conclusion, the spatial patterns of landslide mortality can be related to the unequal distribution of predisposing conditions to landslides, changes in the land use and exposure and social vulnerability to landslide hazards.

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“…Landslide is one of the most dangerous disasters in terms of occurrence frequency and damage severity that result in loss of human life and social infrastructure (Petley, 2012;Kjekstad and Highland, 2009;Guzzetti, 2000;Salvati et al, 2010). 30 Nat.…”

Section: Introduction 25mentioning

confidence: 99%

Risk-based analysis of monitoring time intervals for landslide prevention

Lee

Kil

et al. 2017

Preprint

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Abstract.Landslide is one of the most dangerous disasters in terms of occurrence frequency and damage severity that result in loss of human life and social infrastructure. Monitoring methods based on low temporal resolution instruments such as an inclinometer or piezometer can be an effective and cost-efficient solution. The objective of this research is to analyse monitoring time 15 intervals for low temporal resolution methods based on a risk study and to propose a plan for periodic landslide monitoring along with the different landslide hazard areas by considering the risk reduction effect. For this purpose, an equation for the probability of landslide occurrence was denoted by the concept of reliability, and the monitoring time interval was analysed quantitatively by calculating the average probability of landslide occurrence. To identity the frequency of landslide occurrence, a unit of relative temporal frequencies was adopted, and it was estimated by establishing rainfall threshold. As a case study 20 site, Pyeongchang County was selected, where landslide inventory data are available and an increase in population and infrastructure has been observed since Pyeongchang became the host city of the 2018 winter Olympic games. The result demonstrates that the appropriate monitoring intervals can be determined by calculating the average probability of landslide occurrence, and resources can then be allocated efficiently for landslide prevention.

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Societal landslide and flood risk in Italy

Cited by 206 publications

References 13 publications

Assessment of data availability for the development of landslide fatality curves

Assessment of data availability for the development of landslide fatality curves

Landslide Societal Risk in Portugal in the Period 1865–2015

Risk-based analysis of monitoring time intervals for landslide prevention

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