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)
16 - Developing effective communication tools for volcanic hazards in New Zealand, using social science
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
Background
Social science plays an increasing and valuable role in volcanic Disaster Risk Management (DRM); social science research methods are now used globally to investigate and improve the links amongst volcanology, emergency mangement and community resilience to volcanic hazards. The biennial IAVCEI Cities on Volcanoes Conferences, each hosted by an international city at risk from volcanic hazards, held its eighth meeting in Yogyakarta (Indonesia) in September 2014. These meetings attract large attendances of social and physical scientists as well as emergency managers and DRM practitioners. By incorporating social science methodologies, information derived from volcano monitoring and data interpretation can be used in the most effective way possible to reduce the risk of volcanic hazards to society.
A range of New Zealand researchers at universities, and the government earth science research institute GNS Science, have been conducting applied social research focussed around natural hazards for nearly 20 years, spearheaded by studies of the impacts of the 1995/96 eruptions of Ruapehu volcano. In 2006 the national Joint Centre for Disaster Research was established, a joint venture between Massey University School of Psychology and GNS Science. It includes researchers from other universities and agencies and undertakes multi-disciplinary applied teaching and research aimed at gaining a better understanding of the impacts of disasters on communities, improving the way society manages risk, and enhancing community preparedness, response and recovery from the consequences of hazard events. Researchers also focus on the effective communication of likelihoods for volcanic eruption forecasts (Doyle et al., 2014). Three projects are highlighted here as examples of volcanic hazard focussed research within this collaborative national social science framework.
Development of a revised Volcanic Alert Level system
The communication of scientific information to stakeholders is a critical component of an effective Volcano Early Warning System. Volcanic Alert Level (VAL) systems are used in many countries as a tool to communicate complex volcanic information in a simple form, from which response decisions can be made. Communication tools such as these are required to meet the needs of a wide range of stakeholders, including central government, emergency managers, the aviation industry, media and the public.
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- Information
- Global Volcanic Hazards and Risk , pp. 305 - 310Publisher: Cambridge University PressPrint publication year: 2015
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- This content is Open Access and distributed under the terms of the Creative Commons Attribution licence CC-BY-NC-ND 3.0 https://creativecommons.org/cclicenses/
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