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Health Impacts of Volcanic Activity in Oceania

Published online by Cambridge University Press:  16 July 2020

Joseph Cuthbertson*
Affiliation:
Monash University Disaster Resilience Initiative, Clayton, Melbourne, Victoria, Australia
Carol Stewart
Affiliation:
College of Health, Massey University, Palmerston North, Manawatu-Wanganui, New Zealand
Alison Lyon
Affiliation:
Western Sydney University, Penrith South, New South Wales, Australia
Penelope Burns
Affiliation:
Australian National University, Canberra, Australian Capital Territory, Australia; Western Sydney University, Penrith South, New South Wales, Australia
Thompson Telepo
Affiliation:
University of Papua New Guinea (UPNG), Port Moresby, Papua New Guinea
*
Correspondence: Joseph Cuthbertson, MPH, MSC, MEH 30 Sixth Avenue Kensington 6151WAAustralia E-mail: [email protected]

Abstract

Volcanoes cause a wide range of hazardous phenomena. Close to volcanic vents, hazards can be highly dangerous and destructive and include pyroclastic flows and surges, ballistic projectiles, lava flows, lahars, thick ashfalls, and gas and aerosol emissions. Direct health impacts include trauma, burns, and exacerbation of respiratory diseases. Far-reaching volcanic hazards include volcanic ashfalls, gas and aerosol dispersion, and lahars. Within Oceania, the island arc countries of Papua New Guinea (PNG), the Solomon Islands, Vanuatu, Tonga, and New Zealand are the most at-risk from volcanic activity. Since 1500ad, approximately 10,000 lives have been lost due to volcanic activity across Oceania, with 39 lives lost since 2000. While volcano monitoring and surveillance save lives, residual risks remain from small, sudden, unheralded eruptions, such as the December 9, 2019 eruption of Whakaari/White Island volcano, New Zealand which has a death toll of 21 at the time of writing. Widespread volcanic ashfalls can affect the habitability of downwind communities by contaminating water supplies, damaging crops and buildings, and degrading indoor and outdoor air quality, as well as disrupting transport and communication networks and access to health services. While the fatality rate due to volcanic eruptions may be low, far greater numbers of people may be affected by volcanic activity with approximately 100,000 people in PNG and Vanuatu displaced since 2000. It is challenging to manage health impacts for displaced people, particularly in low-income countries where events such as eruptions occur against a background of low, variable vaccination rates, high prevalence of infectious diseases, poor sanitation infrastructure, and poor nutritional status. As a case study, the 2017-2018 eruption of Ambae volcano, Vanuatu caused no casualties but triggered two separate mandatory off-island evacuations of the entire population of approximately 11,700 people. On the neighboring island of Santo, a health disaster response was coordinated by local government and provided acute care when evacuees arrived. Involving primary care clinicians in this setting enhanced local capacity for health care provision and allowed for an improved understanding of the impact of displacement on evacuee communities.

Type
Special Report
Copyright
© World Association for Disaster and Emergency Medicine 2020

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References

Fitzgerald, GJ, Tarrant, M, Aitken, P. Disaster Health Management: A Primer for Students and Practitioners. United Kingdom: Taylor & Francis; 2016.CrossRefGoogle Scholar
Earth Observatory of Singapore. Singapore: Asian School of the Environment. https://www.earthobservatory.sg/resources/maps/ring-fire. Accessed February 11, 2020.Google Scholar
Secretariat of the Pacific Community. Volcanic hazards and emergency management in the Southwest Pacific. SPC Technical Bulletin SP00017. 2016; Suva, Fiji.Google Scholar
Brown, SK, Jenkins, SF, Sparks, SJ, Odbert, H, Auker, MR. Volcanic fatalities database: analysis of volcanic threat with distance and victim classification. Journal of Applied Volcanology. 2017;6:15.CrossRefGoogle Scholar
Ministry of Health Manatū Hauora, New Zealand. Whakaari/White Island: final patients discharged from National Burn Centre. https://www.health.govt.nz/our-work/emergency-management/whakaari-white-island-patient-status. Accessed March 9, 2020.Google Scholar
Stewart, C, Wilson, TM, Sword-Daniels, V, et al.Communication demands of volcanic ashfall events.” In: Advances in Volcanology. Berlin, Germany: Springer; 2018:2349.Google Scholar
Loughlin, SC, Vye-Brown, C, Sparks, RS, et al.Global volcanic hazards and risk: summary background paper for the UN-ISDR Global Assessment Report on Disaster Risk Reduction 2015.” In: FitzGerald, GJ, Tarrant, M, Aitken, P. Disaster Health Management: A Primer for Students and Practitioners. United Kingdom: Taylor & Francis; 2016.Google Scholar
Global Volcanism Program, 2004. Report on Manam (Papua New Guinea). Bulletin of the Global Volcanism Network. 2004;29(11).Google Scholar
Global Volcanism Program, 2005. Report on Manam (Papua New Guinea). Bulletin of the Global Volcanism Network. 2005;30(2).Google Scholar
Universite Catholique de Louvain (UCL) - CRED, D. EM-DAT: The Emergency Events Database. Guha-Sapir. www.emdat.be. Accessed March 9, 2020.Google Scholar
Ambae Evacuee Response, Vanuatu: Ambae Returns as of 2019-03-18. https://reliefweb.int/report/vanuatu/ambae-evacuee-response-vanuatu-ambae-returns-2019-03-18. Accessed March 13, 2020.Google Scholar
McSporran, AM. Impacts of tephra fall on buildings from the 2017-2018 eruption of Manaro Voui volcano, Ambae Island, Vanuatu. 2019. MSc Thesis; University of Canterbury, New Zealand. https://ir.canterbury.ac.nz/handle/10092/18600. Accessed March 13, 2020.Google Scholar
Stewart, C. Unpublished data.Google Scholar
Vanuatu National Disaster Management Office. NEOC Situation Report 18; August 22, 2018. http://www.ndmo.gov.vu/resources/downloads/category/62-situation-reports. Accessed March 13, 2020.Google Scholar
Burns, PL, Douglas, KA, Hu, W. Primary care in disasters: opportunity to address a hidden burden of healthcare. Med J Aust. 2019;210(7).CrossRefGoogle Scholar
United Nations. Sendai Framework for Disaster Risk Reduction 2015-2030. Sendai, Japan: World Conference on Disaster Risk Reduction; 2015.Google Scholar