Book contents
- Frontmatter
- Contents
- List of Contributors
- Foreword
- Preface
- Acknowledgements
- 1 An introduction to global volcanic hazard and risk
- 2 Global volcanic hazard and risk
- 3 Volcanic ash fall hazard and risk
- 4 Populations around Holocene volcanoes and development of a Population Exposure Index
- 5 An integrated approach to Determining Volcanic Risk in Auckland, New Zealand: the multi-disciplinary DEVORA project
- 6 Tephra fall hazard for the Neapolitan area
- 7 Eruptions and lahars of Mount Pinatubo, 1991-2000
- 8 Improving crisis decision-making at times of uncertain volcanic unrest (Guadeloupe, 1976)
- 9 Forecasting the November 2010 eruption of Merapi, Indonesia
- 10 The importance of communication in hazard zone areas: case study during and after 2010 Merapi eruption, Indonesia
- 11 Nyiragongo (Democratic Republic of Congo), January 2002: a major eruption in the midst of a complex humanitarian emergency
- 12 Volcanic ash fall impacts
- 13 Health impacts of volcanic eruptions
- 14 Volcanoes and the aviation industry
- 15 The role of volcano observatories in risk reduction
- 16 Developing effective communication tools for volcanic hazards in New Zealand, using social science
- 17 Volcano monitoring from space
- 18 Volcanic unrest and short-term forecasting capacity
- 19 Global monitoring capacity: development of the Global Volcano Research and Monitoring Institutions Database and analysis of monitoring in Latin America
- 20 Volcanic hazard maps
- 21 Risk assessment case history: the Soufrière Hills Volcano, Montserrat
- 22 Development of a new global Volcanic Hazard Index (VHI)
- 23 Global distribution of volcanic threat
- 24 Scientific communication of uncertainty during volcanic emergencies
- 25 Volcano Disaster Assistance Program: Preventing volcanic crises from becoming disasters and advancing science diplomacy
- 26 Communities coping with uncertainty and reducing their risk: the collaborative monitoring and management of volcanic activity with the vigías of Tungurahua
- Index
- Online Appendix A
- Online Appendix B - part 1 (low res)
- Online Appendix B - part 2 (low res)
2 - Global volcanic hazard and risk
Published online by Cambridge University Press: 05 August 2015
- Frontmatter
- Contents
- List of Contributors
- Foreword
- Preface
- Acknowledgements
- 1 An introduction to global volcanic hazard and risk
- 2 Global volcanic hazard and risk
- 3 Volcanic ash fall hazard and risk
- 4 Populations around Holocene volcanoes and development of a Population Exposure Index
- 5 An integrated approach to Determining Volcanic Risk in Auckland, New Zealand: the multi-disciplinary DEVORA project
- 6 Tephra fall hazard for the Neapolitan area
- 7 Eruptions and lahars of Mount Pinatubo, 1991-2000
- 8 Improving crisis decision-making at times of uncertain volcanic unrest (Guadeloupe, 1976)
- 9 Forecasting the November 2010 eruption of Merapi, Indonesia
- 10 The importance of communication in hazard zone areas: case study during and after 2010 Merapi eruption, Indonesia
- 11 Nyiragongo (Democratic Republic of Congo), January 2002: a major eruption in the midst of a complex humanitarian emergency
- 12 Volcanic ash fall impacts
- 13 Health impacts of volcanic eruptions
- 14 Volcanoes and the aviation industry
- 15 The role of volcano observatories in risk reduction
- 16 Developing effective communication tools for volcanic hazards in New Zealand, using social science
- 17 Volcano monitoring from space
- 18 Volcanic unrest and short-term forecasting capacity
- 19 Global monitoring capacity: development of the Global Volcano Research and Monitoring Institutions Database and analysis of monitoring in Latin America
- 20 Volcanic hazard maps
- 21 Risk assessment case history: the Soufrière Hills Volcano, Montserrat
- 22 Development of a new global Volcanic Hazard Index (VHI)
- 23 Global distribution of volcanic threat
- 24 Scientific communication of uncertainty during volcanic emergencies
- 25 Volcano Disaster Assistance Program: Preventing volcanic crises from becoming disasters and advancing science diplomacy
- 26 Communities coping with uncertainty and reducing their risk: the collaborative monitoring and management of volcanic activity with the vigías of Tungurahua
- Index
- Online Appendix A
- Online Appendix B - part 1 (low res)
- Online Appendix B - part 2 (low res)
Summary
Introduction
An estimated 800 million people live within 100 km of an active volcano in 86 countries and additional overseas territories worldwide [see Chapter 4 and Appendix B]1. Volcanoes are compelling evidence that the Earth is a dynamic planet characterised by endless change and renewal. Humans have always found volcanic activity fascinating and have often chosen to live close to volcanoes, which commonly provide favourable environments for life. Volcanoes bring many benefits to society: eruptions fertilise soils; elevated topography provides good sites for infrastructure (e.g. telecommunications on elevated ground); water resources are commonly plentiful; volcano tourism can be lucrative; and volcanoes can acquire spiritual, aesthetic or religious significance. Some volcanoes are also associated with geothermal resources, making them a target for exploration and a potential energy resource.
Much of the time volcanoes are not a threat because they erupt very infrequently or because communities have become resilient to frequently erupting volcanoes. However, there is an everpresent danger of a long-dormant volcano re-awakening or of volcanoes producing anomalously large or unexpected eruptions. Volcanic eruptions can cause loss of life and livelihoods in exposed communities, damage or disrupt critical infrastructure and add stress to already fragile environments. Their impacts can be both short-term, e.g. physical damage, and long-term, e.g. sustained or permanent displacement of populations. The risk from volcanic eruptions and their attendant hazards is often underestimated beyond areas within the immediate proximity of a volcano. For example, volcanic ash hazards can have effects hundreds of kilometres away from the vent and have an adverse impact on human and animal health, infrastructure, transport, agriculture and horticulture, the environment and economies. The products of volcanism and their impacts can extend beyond country borders, to be regional and even global in scale.
Although known historical loss of life from volcanic eruptions (since 1600 AD about 280,000 fatalities are recorded, Auker et al. (2013)) is modest compared to other major natural hazards, volcanic eruptions can be catastrophic for exposed communities. In 1985 the town of Armero in Colombia was buried by lahars (volcanic mudflows) with more than 21,000 fatalities due to relatively small explosive eruptions at the summit of Nevado del Ruiz volcano that partially melted a glacier (Voight, 1990).
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- Global Volcanic Hazards and Risk , pp. 81 - 172Publisher: Cambridge University PressPrint publication year: 2015
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