Natural hazard fatalities in Switzerland from 1946 to 2015

Abstract. A database of fatalities caused by natural hazard processes in Switzerland was compiled for the period between 1946 and 2015. Using information from the Swiss flood and landslide damage database and the Swiss destructive avalanche database, the data set was extended back in time and more hazard processes were added by conducting an in-depth search of newspaper reports. The new database now covers all natural hazards common in Switzerland, categorised into seven process types: flood, landslide, rockfall, lightning, windstorm, avalanche and other processes (e.g. ice avalanches, earthquakes). Included were all fatal accidents associated with natural hazard processes in which victims did not expose themselves to an important danger on purpose. The database contains information on 635 natural hazard events causing 1023 fatalities, which corresponds to a mean of 14.6 victims per year. The most common causes of death were snow avalanches (37 %), followed by lightning (16 %), floods (12 %), windstorms (10 %), rockfall (8 %), landslides (7 %) and other processes (9 %). About 50 % of all victims died in one of the 507 single-fatality events; the other half were killed in the 128 multi-fatality events. The number of natural hazard fatalities that occurred annually during our 70-year study period ranged from 2 to 112 and exhibited a distinct decrease over time. While the number of victims in the first three decades (until 1975) ranged from 191 to 269 per decade, it ranged from 47 to 109 in the four following decades. This overall decrease was mainly driven by a considerable decline in the number of avalanche and lightning fatalities. About 75 % of victims were males in all natural hazard events considered together, and this ratio was roughly maintained in all individual process categories except landslides (lower) and other processes (higher). The ratio of male to female victims was most likely to be balanced when deaths occurred at home (in or near a building), a situation that mainly occurred in association with landslides and avalanches. The average age of victims of natural hazards was 35.9 years and, accordingly, the age groups with the largest number of victims were the 20–29 and 30–39 year-old groups, which in combination represented 34 % of all fatalities. It appears that the overall natural hazard mortality rate in Switzerland over the past 70 years has been relatively low in comparison to rates in other countries or rates of other types of fatal accidents in Switzerland. However, a large variability in mortality rates was observed within the country with considerably higher rates in Alpine environments.

[1]  B V Shah,et al.  Is the environment becoming more hazardous?-A global survey 1947 to 1980. , 1983, Disasters.

[2]  D. Deangelis The Bangladesh Cyclone , 1986 .

[3]  R. Blong,et al.  Lightning fatalities in Australia, 1824–1991 , 1993 .

[4]  A. R. Chowdhury,et al.  The bangladesh cyclone of 1991: why so many people died. , 1993, Disasters.

[5]  Raúl E. López,et al.  Lightning Casualties and Property Damage in Colorado from 1950 to 1991 Based on Storm Data , 1995 .

[6]  Christian Wilhelm Wirtschaftlichkeit im Lawinenschutz , 1996 .

[7]  Fluctuations of Lightning Casualties in the United States: 1959–1990 , 1996 .

[8]  Paul M. B. Föhn,et al.  Wechselwirkungen zwischen Klima, Lawinen und technischen Massnahmen , 1998 .

[9]  D. Atkins,et al.  Avalanche deaths in the United States: a 45-year analysis. , 1999, Wilderness & environmental medicine.

[10]  Lucinda Coates,et al.  Flood Fatalities in Australia, 1788-1996 , 1999 .

[11]  Raúl E. López,et al.  Lightning Casualties and Damages in the United States from 1959 to 1994 , 2000 .

[12]  Fausto Guzzetti,et al.  Landslide fatalities and the evaluation of landslide risk in Italy , 2000 .

[13]  Edward N. Rappaport,et al.  Loss of Life in the United States Associated with Recent Atlantic Tropical Cyclones , 2000 .

[14]  D. M. Elsom,et al.  Deaths and injuries caused by lightning in the United Kingdom: analyses of two databases , 2001 .

[15]  J. Schweizer,et al.  Characteristics of human-triggered avalanches , 2001 .

[16]  S. Margreth,et al.  Winter opening of high alpine pass roads—analysis and case studies from the Swiss Alps , 2003 .

[17]  Yi-Ben Tsai,et al.  Spatial Distribution and Age Dependence of Human-Fatality Rates from the Chi-Chi, Taiwan, Earthquake of 21 September 1999 , 2004 .

[18]  Unwetterschäden in der Schweiz 1972-2002: Verteilung, Ursachen, Entwicklung , 2004 .

[19]  Michael Bründl,et al.  IFKIS - a basis for managing avalanche risk in settlements and on roads in Switzerland , 2004 .

[20]  Herman Gerritsen,et al.  What happened in 1953? The Big Flood in the Netherlands in retrospect , 2005, Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences.

[21]  Christophe Bonnard,et al.  Landslide risk management in Switzerland , 2005 .

[22]  S. Jonkman Global Perspectives on Loss of Human Life Caused by Floods , 2005 .

[23]  Shannon Doocy,et al.  Tsunami mortality in Aceh Province, Indonesia. , 2007, Bulletin of the World Health Organization.

[24]  Walker S. Ashley Spatial and Temporal Analysis of Tornado Fatalities in the United States: 1880–2005 , 2007 .

[25]  Hiroyuki Matsumoto,et al.  Field Survey of Tsunami Effects in Sri Lanka due to the Sumatra-Andaman Earthquake of December 26, 2004 , 2007 .

[26]  Developments in avalanche forecasting and other prevention measures and their potential effects on avalanche fatalities , 2008 .

[27]  Susan L Cutter,et al.  Spatial patterns of natural hazards mortality in the United States , 2008, International journal of health geographics.

[28]  Walker S. Ashley,et al.  Flood Fatalities in the United States , 2008 .

[29]  Walker S. Ashley,et al.  Nontornadic convective wind fatalities in the United States , 2008 .

[30]  Michael K Lindell,et al.  Households' Perceived Personal Risk and Responses in a Multihazard Environment , 2008, Risk analysis : an official publication of the Society for Risk Analysis.

[31]  Walker S. Ashley,et al.  Fatalities Associated with Nonconvective High-Wind Events in the United States , 2008 .

[32]  Peter Höller,et al.  Avalanche cycles in Austria: an analysis of the major events in the last 50 years , 2009 .

[33]  Donat Fäh,et al.  The 1356 earthquake: an interdisciplinary revision , 2009 .

[34]  Roger A. Pielke,et al.  Normalized Earthquake Damage and Fatalities in the United States: 1900–2005 , 2009 .

[35]  Lightning fatalities in Swaziland: 2000–2007 , 2009 .

[36]  A. Badoux,et al.  The Swiss flood and landslide damage database 1972–2007 , 2009 .

[37]  M. Levitan,et al.  Loss of Life Caused by the Flooding of New Orleans After Hurricane Katrina: Analysis of the Relationship Between Flood Characteristics and Mortality , 2009, Risk analysis : an official publication of the Society for Risk Analysis.

[38]  Donat Fäh,et al.  The 1356 Basel earthquake: an interdisciplinary revision , 2009 .

[39]  Günter Blöschl,et al.  Flood fatalities in Africa: From diagnosis to mitigation , 2010 .

[40]  Xiang-Yu Hou,et al.  Flood fatalities in contemporary Australia (1997–2008) , 2010, Emergency medicine Australasia : EMA.

[41]  M. Tanner,et al.  Earthquake awareness and perception of risk among the residents of Istanbul , 2011 .

[42]  Daniel Sutter,et al.  An analysis of coastal and inland fatalities in landfalling US hurricanes , 2011 .

[43]  Ilan Noy,et al.  NATURAL DISASTERS , 2011 .

[44]  W. Botzen,et al.  A Review of Risk Perceptions and Other Factors that Influence Flood Mitigation Behavior , 2012, Risk analysis : an official publication of the Society for Risk Analysis.

[45]  D. Petley Global patterns of loss of life from landslides , 2012 .

[46]  P. Santi,et al.  Debris flows and their toll on human life: a global analysis of debris-flow fatalities from 1950 to 2011 , 2014, Natural Hazards.

[47]  M. Ando,et al.  Interviewing insights regarding the fatalities inflicted by the 2011 Great East Japan Earthquake , 2013 .

[48]  Benjamin Zweifel,et al.  Recreational avalanche accidents in Switzerland: Trends and patterns with an emphasis on burial, rescue methods and avalanche danger , 2013 .

[49]  A. Badoux,et al.  Damage costs due to bedload transport processes in Switzerland , 2013 .

[50]  Manish Kumar,et al.  Flood events, fatalities and damages in India from 1978 to 2006 , 2013, Natural Hazards.

[51]  R. Sparks,et al.  A statistical analysis of the global historical volcanic fatalities record , 2013, Journal of Applied Volcanology.

[52]  M. Diakakis,et al.  Vehicle-related flood fatalities in Greece , 2013 .

[53]  Mary Ann Cooper,et al.  Lightning fatalities in Colombia from 2000 to 2009 , 2014, 2014 International Conference on Lightning Protection (ICLP).

[54]  Faisel T. Illiyas,et al.  Lightning Risk in India Challenges in Disaster Compensation , 2014 .

[55]  Moazzem Hossain,et al.  Analysis of Flood Fatalities in Texas , 2015 .

[56]  M. Paulikas,et al.  A temporal assessment of flooding fatalities in Pakistan (1950–2012) , 2015 .

[57]  Schnee und Lawinen in den Schweizer Alpen. Hydrologisches Jahr 2014/15 , 2015 .

[58]  David N. Petley,et al.  Regional trends and controlling factors of fatal landslides in Latin America and the Caribbean , 2015 .

[59]  Omvir Singh,et al.  Lightning fatalities over India: 1979–2011 , 2015 .

[60]  Mauro Valt,et al.  Avalanche fatalities in the European Alps: long-term trends and statistics , 2016 .

[61]  R. Holle A Summary of Recent National-Scale Lightning Fatality Studies , 2016 .

[62]  Akira Mano,et al.  Evaluation of the Characteristics of Human Loss and Building Damage and Reasons for the Magnification of Damage Due to Typhoon Haiyan , 2016 .