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The respiratory health hazards of volcanic ash: a review for volcanic risk mitigation

Abstract

Studies of the respiratory health effects of different types of volcanic ash have been undertaken only in the last 40 years, and mostly since the eruption of Mt. St. Helens in 1980. This review of all published clinical, epidemiological and toxicological studies, and other work known to the authors up to and including 2005, highlights the sparseness of studies on acute health effects after eruptions and the complexity of evaluating the long-term health risk (silicosis, non-specific pneumoconiosis and chronic obstructive pulmonary disease) in populations from prolonged exposure to ash due to persistent eruptive activity. The acute and chronic health effects of volcanic ash depend upon particle size (particularly the proportion of respirable-sized material), mineralogical composition (including the crystalline silica content) and the physico-chemical properties of the surfaces of the ash particles, all of which vary between volcanoes and even eruptions of the same volcano, but adequate information on these key characteristics is not reported for most eruptions. The incidence of acute respiratory symptoms (e.g. asthma, bronchitis) varies greatly after ashfalls, from very few, if any, reported cases to population outbreaks of asthma. The studies are inadequate for excluding increases in acute respiratory mortality after eruptions. Individuals with pre-existing lung disease, including asthma, can be at increased risk of their symptoms being exacerbated after falls of fine ash. A comprehensive risk assessment, including toxicological studies, to determine the long-term risk of silicosis from chronic exposure to volcanic ash, has been undertaken only in the eruptions of Mt. St. Helens (1980), USA, and Soufrière Hills, Montserrat (1995 onwards). In the Soufrière Hills eruption, a long-term silicosis hazard has been identified and sufficient exposure and toxicological information obtained to make a probabilistic risk assessment for the development of silicosis in outdoor workers and the general population. A more systematic approach to multi-disciplinary studies in future eruptions is recommended, including establishing an archive of ash samples and a website containing health advice for the public, together with scientific and medical study guidelines for volcanologists and health-care workers.

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References

  • Adler KB, Mossman BT, Butler GB, Jean LM, Craighead JE (1984) Interaction of Mount St. Helens’ volcanic ash with cells of the respiratory epithelium. Environ Res 35:346–361

    Google Scholar 

  • Akematsu T, Dodson RF, Williams MG, Hurst GA (1982) The short-term effects of volcanic ash on the small airways of the respiratory system. Environ Res 29:358–370

    Google Scholar 

  • Anderson HR (1999) Health effects of air pollution episodes. In: Holgate ST, Samet JM, Koren HS, Maynard RL (eds) Air pollution and health. Academic, San Diego, pp 461–482

    Google Scholar 

  • Babolini G, Inferrera C, Girbino G, Grosso M (1978) The clinical and morpho-anatomic aspects of the liparitosis. In: Condorelli L, Teodori U, Anguissola AB, Sangiorgi M (eds) XIV International Congress of Internal Medicine, Excerpta Medica, Rome, vol 2, pp 829–838

  • Baris YI, Artvinli M, Sahin AA (1979) Environmental mesothelioma in Turkey. Ann NY Acad Sci 330:423–432

    Google Scholar 

  • Baxter PJ (2003) The eruption of El Reventador volcano 2002: health hazards and the implications for volcano risk management in Ecuador. Report to the Pan-American Health Organization, Pan American Health Organization, Washington DC

    Google Scholar 

  • Baxter PJ, Ing R, Falk F, French J, Stein GF, Bernstein RS, Merchant JA, Allard J (1981) Mount St Helens eruptions, May 18 to June 12 1980. J Am Med Assoc 246:2585–2589

    Google Scholar 

  • Baxter PJ, Ing R, Falk H, Plikaytis B (1983) Mount St. Helens eruptions: the acute respiratory effects of volcanic ash in a North American community. Arch Environ Health 38:138–143

    Google Scholar 

  • Baxter PJ, Woo G, Pomonis A (1998) Preliminary assessment of volcanic risk on Montserrat. Montserrat Volcano Observatory, Montserrat, p 32

  • Baxter PJ, Bonadonna C, Dupree R, Hards VL, Kohn SC, Murphy MD, Nichols A, Nicholson RA, Norton G, Searl A, Sparks RSJ, Vickers BP (1999) Cristobalite in volcanic ash of the Soufrière Hills Volcano, Montserrat, British West Indies. Science 283:1142–1145

    Google Scholar 

  • Beck BD, Brain JD, Bohannon DE (1982) The pulmonary toxicity of an ash sample from the Mount St. Helens volcano. Exp Lung Res 2:289–301

    Google Scholar 

  • Beckett W (2000) Occupational respiratory disease. N Engl J Med 342:406–413

    Google Scholar 

  • Bernstein RS, McCawley MA, Attfield MD, Green FHY, Olenchock SA, Dollberg DD (1981) Evaluation of the potential pulmonary hazards of breathing-zone exposures to Mount St. Helens volcanic ash in loggers: the results of short-term toxicological, environmental and epidemiological studies. Interim Report No. GHE-80-112, DHHS (NIOSH), Atlanta, GA

  • Bernstein RS, McCawley MA, Attfield MD, Green FHY, Olenchock SA (1982) Epidemiological assessment of the risk for adverse pulmonary effects from persistent occupational exposures to Mount St. Helens volcanic ash (tephra). In: Keller SAC (ed) Mount St. Helens: one year later. Eastern Washington University Press, Cheney, WA, pp 207–213

    Google Scholar 

  • Bernstein RS, Baxter PJ, Falk H, Ing R, Foster L, Frost F (1986) Immediate public health concerns and actions in volcanic eruptions: lessons from the Mount St. Helens eruptions, May 18–October 18, 1980. Am J Public Health 76:25–37

    Google Scholar 

  • Blong R (1996) Volcanic hazards risk assessment. In: Scarpa R, Tilling RI (eds) Monitoring and mitigation of volcanic hazards. Springer, Berlin Heidelberg New York, pp 675–698

    Google Scholar 

  • Bonner JC, Rice AB, Lindroos PM, O’Brien PO, Dreher KL, Rosas I, Alfaro-Moreno E, Osornio-Vargas AR (1998) Induction of the lung myofibroblast PDGF receptor system by urban ambient particles from Mexico City. Am J Respir Cell Moll Biol 19:672–680

    Google Scholar 

  • Bradshaw L, Fishwick D, Kemp T, Lewis S, Rains N, Slater T, Pearce N, Crane J (1997) Under the volcano: fire, ash and asthma? NZ Med J 110:90–91

    Google Scholar 

  • Buist AS, Bernstein RS (1986) Health effects of volcanoes: an approach to evaluating the health effects of an environmental hazard. Am J Public Health 76:1–2

    Google Scholar 

  • Buist AS, Johnson LR, Vollmer WM, Sexton GJ, Kanarek PH (1983) Acute effects of volcanic ash from Mount Saint Helens on lung function in children. Am Rev Respir Dis 127:714–719

    Google Scholar 

  • Buist AS, Vollmer WM, Johnson LR, Bernstein RS, McCamant LE (1986) A four-year prospective study of the respiratory effects of volcanic ash from Mt. St. Helens. Am Rev Respir Dis 133:526–534

    Google Scholar 

  • Burney P (1999) Air pollution and asthma: the dog that doesn’t always bark. Lancet 353:859–860

    Google Scholar 

  • Calverley PMA, Walker P (2003) Chronic obstructive pulmonary disease. Lancet 352:1053–1061

    Google Scholar 

  • Castranova V, Bowman L, Shreve JM, Jones GS, Miles PR (1982) Volcanic ash: toxicity to isolated lung cells. J Toxicol Environ Health 9:317–325

    Google Scholar 

  • Choudhury AH, Gordian ME, Morris SS (1997) Associations between respiratory illness and PM10 air pollution. Arch Environ Health 52:113–117

    Article  Google Scholar 

  • Cowie HA, Graham MK, Searl A, Miller BG, Hutchison PA, Swales C, Dempsey S, Russell M (2001a) A health survey of workers on the island of Montserrat. Institute of Occupational Medicine, Edinburgh, IOM TM/02/01

  • Cowie HA, Searl A, Ritchie PJ, Graham MK, Hutchison PA, Pilkington A (2001b) A health survey of Montserratians relocated to the UK. Institute of Occupational Medicine, Edinburgh, IOM TM/01/07

  • Cowie HA, Baxter PJ, Hincks T, Searl A, Sparks RSJ, Tran CL, Aspinall W, Woo G (2003) Risk assessment for silicosis and exposure to volcanic ash on Montserrat. Report to the UK Department for International Development, UK Department for International Development, London, p 49

  • Craighead JE, Adler KB, Butler GB, Emerson RJ, Mossman BT, Woodworth CD (1983) Health effects of Mount St. Helens volcanic dust. Lab Invest 48:5–12

    Google Scholar 

  • Cronin SJ, Sharp DS (2002) Environmental impacts on health from continuous volcanic activity at Yasur (Tanna) and Ambrym, Vanuatu. Int J Environ Health Res 12:109–123

    Google Scholar 

  • Cronin SJ, Manoharan V, Hedley MJ, P L (2000) Fluoride: a review of its fate, bioavailability, and risks of fluorosis in grazed-pasture systems in New Zealand. N Z J Agr Res 43:295–321

    Google Scholar 

  • Cronin SJ, Neall VE, Lecointre JA, Hedley MJ, Loganathan P (2003) Environmental hazards of fluoride in volcanic ash: a case study from Ruapehu volcano, New Zealand. J Volcanol Geotherm Res 121:271–291

    Google Scholar 

  • Cullen RT, Searl A (1998) Preliminary toxicological hazard assessment of Montserrat volcanic ash: in vitro cytotoxicity. Institute of Occupational Medicine, Edinburgh, p 13, P752/200

    Google Scholar 

  • Cullen RT, Jones AD, Miller BG, Donaldson K, Davis JMG, Wilson M, Tran CL (2002) Toxicity of volcanic ash from Montserrat. Institute of Occupational Medicine, Edinburgh, p 55, IOM TM/02/01

    Google Scholar 

  • Daniels MJ, Dominici F, Samet JM, Zeger SL (2000) Estimating particulate matter-mortality dose-response curves and threshold levels: an analysis of daily time-series for the 20 largest US cities. Am J Epidemiol 152:397–406

    Google Scholar 

  • Dashtoyan AK, Akopyan SG, Azoyan IS, Magakyan KI (1980) Respiratory function in the early stages of tuffaceous pneumoconiosis. Gig Tr Prof Zabol 2:36–37

    Google Scholar 

  • Davis BL, Johnson LR, Griffen DT, Phillips WR, Stevens RK, Maughan D (1981) Quantitative analysis of Mount St. Helens ash by X-ray diffraction and X-ray fluorescence spectrometry. J Appl Meteorol 20:922–933

    Google Scholar 

  • Dodson RF, Martin RR, O’Sullivan MF, Hurst GA (1982) In vitro response of human pulmonary macrophages with volcanic ash: a morphological study. Exp Mol Pathol 37:406–412

    Google Scholar 

  • Dollberg DD, Sweet DV, Bolyard M, Carter JW, Stettler LE, Geraci CL (1984) Mount St. Helens volcanic ash: crystalline silica analysis. In: Russell PA (eds) Fourth annual symposium on electron microscopy and X-ray applications to environmental and occupational health analysis. Ann Arbor Science, Ann Arbor, MI

    Google Scholar 

  • Dollberg DD, Bolyard ML, Smith DL (1986) Evaluation of physical health effects due to volcanic hazards: crystalline silica in Mount St. Helens volcanic ash. Am J Public Health 76:53–58

    Google Scholar 

  • Donaldson K, Stone V, Duffin R, Clouter A, Schins R, Borm P (2001) The quartz hazard: effects of surface and matrix on inflammogenic activity. J Environ Pathol Tox 20:109–118

    Google Scholar 

  • Expert Panel on Air Quality Standards (1995) Particles. Department of the Environment, Her Majesty’s Stationery Office, London, p 30

  • Expert Panel on Air Quality Standards (2001) Airborne particles: what is the appropriate measurement on which to base a standard? A discussion document. Department for Environment, Food and Rural Affairs, London

  • Faraone G, Majori I (1958) Conimetric and granulometric determinations in various operating phases in the pumice stone industry in Canneto-Lipari (Messina). Acta Med Legal Social 11:83–94

    Google Scholar 

  • Fedan JS, Ma J, Fromelel G, Mentneck MS (1981) Effect of Mount St. Helens ash on the response of rat trachea to smooth muscle agonists. Environ Res 26:497–502

    Google Scholar 

  • Forbes L, Jarvis D, Potts J, Baxter PJ (2003) Volcanic ash and respiratory symptoms in children on the island of Montserrat, British West Indies. Occup Environ Med 60:207–211

    Google Scholar 

  • Fraunfelder FT, Kalina RE, Buist RS, Johnson DS (1983) Ocular effects following the volcanic eruptions of Mount St Helens. Arch Ophthalmol 101:376–378

    Google Scholar 

  • Fruchter JS, Robertson DE, Evans JC, Olsen KB, Lepel EA, Laul JC, Abel KH, Sanders RW, Jackson PO, Wogman NS, Perkins RW, van Tuyl HH, Beauchamp AV, Shade JW, Daniel JL et al (1980) Mount St. Helens ash from the 18 May 1980 eruption: chemical, physical, mineralogical and biological properties. Science 209:1116–1125

    Google Scholar 

  • Fubini B, Wallace WE (1999) Modulation of silica pathogenicity by surface processes. In: Papirer E (ed) Absorption on silica surfaces. Mulhouse, France, pp 645–664

    Google Scholar 

  • Fubini B, Fenoglio I, Elias Z, Poirot O (2001) Variability of biological responses to silicas: effect of origin, crystallinity, and state of surface on generation of reactive oxygen species and morphological transformation of mammalian cells. J Environ Pathol Toxicol Oncol 20:95–108

    Google Scholar 

  • Gage DR, Farwell SO (1981) Laser Raman spectrometry for the determination of crystalline silica polymorphs in volcanic ash. Anal Chem 53:2123–2127

    Google Scholar 

  • Gilbert JS, Lane SJ, Sparks RSJ, Koyaguchi T (1991) Charge measurements on particle fallout from a volcanic plume. Nature 349:598–600

    Google Scholar 

  • Gordian ME, Ozkaynak H, Xue J, Morris SS, Spengler JD (1996) Particulate air pollution and respiratory disease in Anchorage, Alaska. Environ Health Perspect 104:290–297

    Google Scholar 

  • Green FHY, Bowman L, Castranova V, Dollberg DD, Elliot JA, Fedan JS, Hahon N, Judy DJ, Major PC, Mentnech MS, Miles PR, Mull J, Olenchock S, Ong T, Pailes WM et al (1982) Health implications of Mount St. Helens eruption: laboratory investigations. Ann Occup Hyg 26:921–933

    Google Scholar 

  • Grose EC, Grady MA, Illing JW, Daniels MJ, Selgrade MK, Hatch GE (1985) Inhalation studies of Mt. St. Helens volcanic ash in animals. III. Host defense mechanisms. Environ Res 37:84–92

    Google Scholar 

  • Halliwell B (1984) Oxygen radicals: a commonsense look at their nature and medical importance. Med Biol 62:71–77

    Google Scholar 

  • Hansen K, Mossman BT (1987) Generation of superoxide (O2-) from alveolar macrophages exposed to asbestiform and nonfibrous particles. Cancer Res 47:1681–1686

    Google Scholar 

  • Health and Safety Executive (2002) Respirable crystalline silica: phase 1. Variability in fibrogenic potency and exposure-response relationships for silicosis. Health and Safety Executive, Sudbury, EH75/4

    Google Scholar 

  • Health and Safety Executive (2003) Respirable crystalline silica: phase 2. Carcinogenicity. Health and Safety Executive, Sudbury, EH75/5

    Google Scholar 

  • Hefflin BJ, Jalaludin B, McClure E, Cobb N, Johnson CA, Jecha L, Etzel RA (1994) Surveillance for dust storms and respiratory diseases in Washington State, 1991. Arch Env Health 49:170–174

    Article  Google Scholar 

  • Heiken G (1972) Morphology and petrology of volcanic ashes. Geol Soc Am Bull 83:1961–1988

    Google Scholar 

  • Heiken G, Wohletz K (1985) Volcanic ash. University of California Press, Berkeley, CA, p 246

    Google Scholar 

  • Hendrick DJ, Sherwood Burge P, Beckett WS, Churg A (2002) Occupational disorders of the lung: recognition, management and prevention. Saunders, London, p 652

    Google Scholar 

  • Hickling J, Clements M, Weinstein P, Woodward A (1999) Acute health effects of the Mount Ruapehu (New Zealand) volcanic eruption of June 1996. Int J Environ Health Res 9:97–107

    Google Scholar 

  • Higashi H, Yano E, Yokoyama Y, Nishii S, Koizumi A, Maeda K (1987) Seasonal variations in the responses to a respiratory symptom questionnaire: a study in an area exposed to volcanic ash. Jpn J Public Health 34:453–458

    Google Scholar 

  • Hnizdo E, Vallyathan V (2003) Chronic obstructive pulmonary disease due to occupational exposure to silica dust: a review of epidemiological and pathological evidence. Occup Environ Med 60:237–243

    Google Scholar 

  • Holt PF (1987) Inhaled dust and disease. Wiley, p 325

  • Horton RJM, McCaldin RO (1964) Observations on air pollution aspects of Irazu volcano, Costa Rica. Public Health Rep 79:925–929

    Google Scholar 

  • Horwell CJ, Braña LP, Sparks RSJ, Murphy MD, Hards VL (2001) A geochemical investigation of fragmentation and physical fractionation in pyroclastic flows from the Soufrière Hills volcano, Montserrat. J Volcanol Geotherm Res 109:247–262

    Google Scholar 

  • Horwell CJ, Fenoglio I, Ragnarsdottir KV, Sparks RSJ, Fubini B (2003a) Surface reactivity of volcanic ash from the eruption of Soufrière Hills volcano, Montserrat, with implications for health hazards. Environ Res 93:202–215

    Google Scholar 

  • Horwell CJ, Sparks RSJ, Brewer TS, Llewellin EW, Williamson BJ (2003b) The characterisation of respirable volcanic ash from the Soufrière Hills Volcano, Montserrat, with implications for health hazard. Bull Volcanol 65:346–362

    Google Scholar 

  • Horwell CJ (submitted) Grain size analysis of volcanic ash for the rapid assessment of respiratory health hazard. Nat Hazards

  • Horwell CJ, Fenoglio I, Fubini B (submitted) Iron-induced hydroxyl radical generation from basaltic volcanic ash. Science

  • Housley DG, Berube KA, Jones TP, Anderson S, Pooley FD, Richards RJ (2002) Pulmonary epithelial response in the rat lung to instilled Montserrat respirable dusts and their major mineral components. Occup Environ Med 59:466–472

    Google Scholar 

  • Hughes JM, Weill H, Checkoway H, Jones RN, Henry MM, Heyer NJ, Seixas NS, Demers PA (1998) Radiographic evidence of silicosis risk in the diatomaceous earth industry. Am J Respir Crit Care Med 158:807–814

    Google Scholar 

  • International Agency for Research on Cancer (1997) Silica, some silicates, coal dust and para-aramid fibrils. Monographs on the Evaluation of Carcinogenic Risks to Humans, 68. International Agency for Research on Cancer, Lyon, p 506

    Google Scholar 

  • Johnson KA, Loftsgaarden DO, Gideon RA (1982) The effects of Mount St. Helens ash on the pulmonary function of 120 elementary school children. Am Rev Resp Dis 126:1066–1069

    Google Scholar 

  • Kariya M, Goto M, Hasui K, Yamamoto N, Tashiro Y, Sato E (1992) Is there any effect of volcanic eruptions of Mount Sakurajima on canine lungs exposed naturally? Morphometric analysis of intrapulmonary particulate deposit amount and histopathological investigations. Tohuku J Exp Med 167:197–205

    Article  Google Scholar 

  • Kornbrust DJ, Hatch GE (1984) Effect of silica and volcanic ash on the content of lung alveolar and tissue phospholipids. Environ Res 35:140–153

    Google Scholar 

  • Kraemer MJ, McCarthy MM (1985) Childhood asthma hospitalization rates in Spokane County, Washington: impact of volcanic ash air pollution. J Asthma 22:37–43

    Google Scholar 

  • Lee SH, Richards RJ (2004) Montserrat volcanic ash induces lymph node granuloma and delayed lung inflammation. Toxicology 195:155–165

    Google Scholar 

  • Lehnert BE (1993) Defense mechanisms against inhaled particles and associated particle-cell interactions. In: Guthrie GDJ, Mossman BT (eds) Health effects of mineral dusts. Reviews in mineralogy. Mineralogical Society of America, Washington DC, pp 425–469

    Google Scholar 

  • Leus X, West CM (1981) Asthmatic bronchitis associated with a volcanic eruption in St. Vincent, West Indies. Disasters 5:67–69

    Google Scholar 

  • Malilay J, Real MG, Ramirez Vanegas A, Noji E, Sinks T (1996) Public health surveillance after a volcanic eruption: lessons from Cerro Negro, Nicaragua, 1992. Bull Pan Am Health Organ 30:218–226

    Google Scholar 

  • Martin TR, Chi EY, Covert DS, Hodson WA, Kessler DE, Moore WE, Altman LC, Butler J (1983a) Comparative effects of inhaled volcanic ash and quartz in rats. Am Rev Respir Dis 128:144–152

    Google Scholar 

  • Martin TR, Wehner AP, Butler J (1983b) Pulmonary toxicity of Mt. St. Helens volcanic ash: a review of experimental studies. Am Rev Respir Dis 128:158–162

    Google Scholar 

  • Martin TR, Ayars G, Butler J, Altman LC (1984a) The comparative toxicity of volcanic ash and quartz: effects on cells derived from the human lung. Am Rev Respir Dis 130:778–782

    Google Scholar 

  • Martin TR, Chi EY, Covert DS et al (1984b) Comparative effects of volcanic ash, quartz, and aluminium oxide on antibacterial defenses in rat lung. Am Rev Resp Dis 129:138 (abstract)

    Google Scholar 

  • Martin TR, Wehner AP, Butler J (1986) Evaluation of physical health effects due to volcanic hazards: the use of experimental systems to estimate the pulmonary toxicity of volcanic ash. Am J Public Health 76:59–65

    Google Scholar 

  • Merchant JA, Baxter PJ, Bernstein RS, McCawley M, Falk H, Stein G, Ing R, Attfield M (1982) Health implications of the Mount St. Helens eruption: epidemiological considerations. Ann Occup Hyg 26:911–919

    Google Scholar 

  • Mossman BT (1993) Cellular and molecular mechanisms of disease. In: Guthrie GDJ, Mossman BT (eds) Health effects of mineral dusts. Reviews in mineralogy. Mineralogical Society of America, Washington DC, pp 514–521

    Google Scholar 

  • Nania J, Bruya TE (1982) In the wake of Mount St Helens. Ann Emerg Med 11:184–191

    Google Scholar 

  • Newhall CG, Fruchter JS (1986) Volcanic activity: a review for health professionals. Am J Public Health 76:10–24

    Google Scholar 

  • NIOSH (2002) Hazard review. Health effects of exposure to respirable crystalline silica. Department of Health and Human Services. National Institute of Occupational Health and Safety, Cincinnati, OH

  • Norton MR, Gunter ME (1999) Relationships between respiratory diseases and quartz-rich dust in Idaho, USA. Am Mineral 84:1009–1019

    Google Scholar 

  • OPS (2000) Erupciones volcanicas y proteccion de la salud. Organization Panamerica de la Salud, Quito, Ecuador

  • Paoletti L, Batisti D, Bruno C, Di Paola M, Gianfagna A, Mastrantonio M, Nesti M, Comba P (2000) Unusually high incidence of malignant pleural mesothelioma in a town of eastern Sicily: an epidemiological and environmental study. Arch Environ Health 55:392–398

    Article  Google Scholar 

  • Peters A, Dockery DW, Muller JE, Mittleman MA (2001) Increased particulate air pollution and the triggering of myocardial infarction. Circulation 103:2810–2815

    Google Scholar 

  • Ping C-L (1999) Volcanic soils. In: Sigurdsson H (ed) Encyclopedia of volcanoes. Academic Press, San Diego, pp 461–482

    Google Scholar 

  • Quality of Urban Air Review Group (1996) Airborne particulate matter in the United Kingdom. Department of the Environment, Belfast, 3, pp 30

  • Raub JA, Hatch GE, Mercer RR, Grady M, Hu PC (1985) Inhalation studies of Mt. St. Helens volcanic ash in animals. II. Lung function, biochemistry, and histology. Environ Res 37:72–83

    Google Scholar 

  • Research Committee on Volcanic Emissions (1982) Research report on the human effect of volcanic exhaust (Sakurajima), 1980–1981 report. Tuberculosis and chronic disease division, Public Health Bureau, Ministry of Health and Welfare, Tokyo

  • Robinson AV, Schneider RP (1982) In vitro toxicity of Mount St. Helens volcanic ash: final report to NIEHS on Task 3, Health Effects of Mount St. Helens volcano. Batttelle Pacific Northwest Laboratories, Richland, WA

  • Rojas-Ramos M, Catalan-Vazquez M, Martin-Del Pozzo AL, Garcia-Ojeda E, Villalba-Caloca J, Perez-Neria J (2001) A seven months prospective study of the respiratory effects of exposure to ash from Popocatapetl volcano, Mexico. Environ Geochem Health 23:383–396

    Google Scholar 

  • Sanders CL, Conklin AW, Gelman RA, Adee RR, Rhoads K (1982) Pulmonary toxicity of Mount St. Helens volcanic ash. Environ Res 27:118–135

    Google Scholar 

  • Sanders CL, Rhoads K, Mahaffey JA (1983) Long-term reactivity of lung and mediastinal lymph nodes following intratracheal instillation of sandy loam soil or Mount St. Helens volcanic ash. Environ Res 32:188–198

    Google Scholar 

  • Sarna-Wojcicki AM, Meyer CE, Woodward MJ, Lamothe PJ (1981a) Composition of air-fall ash erupted on May 18, May 25, June 12, July 22, and August 7. In: Lipman PW, Mullineaux DR (eds) The 1980 eruption of Mount St. Helens, Washington. Govt Printing Office, Washington DC

    Google Scholar 

  • Sarna-Wojcicki AM, Shipley S, Waitt RB, Dzuricin D, Wood SH (1981b) Areal distribution, thickness, mass, volume and grain size of air-fall ash from the six major eruptions of 1980. In: Lipman PW, Mullineaux DR (eds) The 1980 eruption of Mount St. Helens, Washington. Govt Printing Office, Washington DC

    Google Scholar 

  • Sarna-Wojcicki AM, Waitt RB, Woodward MJ, Shipley S, Rivera J (1981c) Premagmatic ash erupted from March 27 through May 14 1980, extent, mass, volume and composition. In: Lipman PW, Mullineaux DR (eds) The 1980 eruption of Mount St. Helens, Washington. Govt Printing Office, Washington DC

    Google Scholar 

  • Schiff LJ, Byrne MM, Elliott SF, Moore SJ, Ketels KV, Graham JA (1981) Response of hamster trachea in organ culture to Mount St. Helens volcano ash. Scan Elec Micro 11:169–178

    Google Scholar 

  • Schwartz J, Norris G, Larson T, Sheppard L, Claiborne C, Koenig J (1999) Episodes of high coarse particle concentrations are not associated with increased mortality. Environ Health Persp 107:339–342

    Google Scholar 

  • Searl A, Nicholl A, Baxter PJ (2002) Assessment of the exposure of islanders to ash from the Soufrière Hills volcano, Montserrat, West Indies. Occup Environ Med 59:523–531

    Google Scholar 

  • Shi X, Mao Y, Daniel LN, Saffiotti U, Dalal NS, Vallyathan V (1995) Generation of reactive oxygen species by quartz particles and its implication for cellular damage. Appl Occup Environ Hyg 10:1138–1144

    Google Scholar 

  • Shirakawa M, Fukushima R, Kyushima K (1984) Experimental studies on the effects of Mt. Sakurajima volcanic ashes on the respiratory organs. Jpn J Pub Health 26:130–146

    Google Scholar 

  • Shore JH, Tatum EL, Vollmer WM (1986) Evaluation of mental health effects of disaster, Mount St. Helens eruption. Am J Pub Health 76:76–83

    Article  Google Scholar 

  • Small C, Naumann T (2001) Holocene volcanism and the global distribution of human population. Environ Hazards 3:93–109

    Google Scholar 

  • Sorem RK (1982) Volcanic ash clusters: tephra rafts and scavengers. J Volcanol Geotherm Res 13:63–71

    Google Scholar 

  • Talvitie NA (1951) Determination of quartz in presence of silicates using phosphoric acid. Anal Chem 23:623–626

    Google Scholar 

  • Tobin GA, Whiteford LM (2001) Children’s health characteristics under different evacuation strategies: the eruption of Mount Tungurahua, Ecuador. In: Applied Geography Conference, 24, pp 183–191

  • Uda H, Akiba S, Hatano H, Shinkura R (1999) Asthma-like disease in the children living in the neighbourhood of Mt. Sakurajima. J Epidemiol 9:27–31

    Google Scholar 

  • Vallyathan V, Mentnech MS, Stettler LE, Dollberg DD, Green FH (1983a) Mount St. Helens’ volcanic ash: hemolytic activity. Environ Res 30:349–360

    Google Scholar 

  • Vallyathan V, Mentnech MS, Tucker JH, Green FH (1983b) Pulmonary response to Mount St. Helens’ volcanic ash. Environ Res 30:361–371

    Google Scholar 

  • Vallyathan V, Robinson V, Reasor M, Stettler L, Bernstein R (1984) Comparative in vitro cytotoxicity of volcanic ashes from Mount St. Helens, El Chichon, and Galunggung. J Toxicol Environ Health 14:641–654

    Google Scholar 

  • Vallyathan V, Mega JF, Shi X, Dalal NS (1992) Enhanced generation of free radicals from phagocytes induced by mineral dusts. Am J Respir Cell Mol Biol 6:404–413

    Google Scholar 

  • Wakisaka I, Yanagihashi T (1986) Week-to-week variations in mortality in the areas exposed to volcanic air pollution. J Jpn Soc Air Pollut 21:322–329

    Google Scholar 

  • Wakisaka I, Takano A, Watanabe N (1978) Health effects of volcanic ashes of Mt. Sakurajima. Jpn J Pub Health 25:455–461

    Google Scholar 

  • Wakisaka I, Yanagihashi T, Tomari T, Ando T (1983a) Effect of volcanic activities of Mt. Sakurajima on mortality due to respiratory diseases. Jpn J Pub Health 30:109–116

    Google Scholar 

  • Wakisaka I, Yanagihashi T, Tomari T, Ando T (1983b) Health effects of volcanic activities of Mt. Sakurajima on school children. Jpn J Pub Health 30:101–108

    Google Scholar 

  • Wakisaka I, Yanagihashi T, Tomari T, Ando T, Sakamoto M (1984) Effects of the volcanic activities of Mt. Sakurajima on mortality figures. Jpn J Pub Health 31:548–556

    Google Scholar 

  • Wakisaka I, Yanagihashi T, Ono M, Hirano S (1985) Health effects of the volcanic activities of Mt. Sakurajima in the mortality statistics. J Jpn Soc Air Pollut 20:120–127

    Google Scholar 

  • Walker GPL (1973) Explosive volcanic eruptions: a new classification scheme. Geol Rundschau 62:431–446

    Google Scholar 

  • Wehner AP, Wilkerson CL, Stevens DL (1984) Lung clearance of neutron-activated Mount St. Helens ash in the rat. Environ Res 35:211–217

    Google Scholar 

  • Wehner AP, Dagle GE, Clark ML, Buschbom RL (1986) Lung changes in rats following inhalation exposure to volcanic ash for two years. Environ Res 40:499–517

    Google Scholar 

  • WHO (2000) Air quality guidelines for Europe, 2nd end. World Health Organization, Copenhagen

    Google Scholar 

  • Wiester MJ, Setzer CJ, Barry BE, Mercer RR, Grady MA (1985) Inhalation studies of Mt. St. Helens volcanic ash in animals: respiratory mechanics, airway reactivity and deposition. Environ Res 36:230–240

    Google Scholar 

  • Williamson BJ, Pastiroff S, Cressey G (2001) Piezoelectric properties of quartz and cristobalite airborne particulates as a cause of adverse health effects. Atmos Environ 35:3539–3542

    Google Scholar 

  • Wilson MR, Stone V, Cullen RT, Searl A, Maynard RL, Donaldson K (2000) In vitro toxicology of respirable Montserrat volcanic ash. Occup Environ Med 57:727–733

    Google Scholar 

  • Yano E, Takeuchi A, Nishii S, Koizumi A, Poole A, Brown RC, Johnson NF, Evans PH, Yukiyama Y (1985) In vitro biological effects of volcanic ash from Mount Sakurajima. J Toxicol Environ Health 16:127–135

    Article  Google Scholar 

  • Yano E, Yokoyama Y, Nishii S (1986) Chronic pulmonary effects of volcanic ash: an epidemiologic study. Arch Environ Health 41:94–99

    Article  Google Scholar 

  • Yano E, Higashi H, Nishii S, Koizumi A, Yokoyama Y (1987) Pulmonary function of loggers exposed to the volcanic ash from Mt. Sakurajima. Jpn J Public Health 34:251–254

    Google Scholar 

  • Yano E, Yokoyama Y, Higashi H, Nishii S, Maeda K, Koizumi A (1990) Health effects of volcanic ash: a repeat study. Arch Environ Health 45:367–373

    Article  Google Scholar 

  • Zanobetti A, Schwartz J, Samoli E, Gryparis A, Touloumi G, Atkinson R, Le Tertre A, Bobros J, Celko M et al (2002) The temporal pattern of mortality responses to air pollution: a multicity assessment of mortality displacement. Epidemiology 13:87–93

    Google Scholar 

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Acknowledgements

We thank RSJ Sparks and S Cronin for their comments on an early draft of the paper and P Cullinan for reviewing the current paper. CJH acknowledges a Leverhulme Trust Research Interchange Grant. This paper will be displayed on the International Volcanic Health Hazard Network website http://www.ivhhn.org).

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Correspondence to Claire J. Horwell.

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Horwell, C.J., Baxter, P.J. The respiratory health hazards of volcanic ash: a review for volcanic risk mitigation. Bull Volcanol 69, 1–24 (2006). https://doi.org/10.1007/s00445-006-0052-y

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Keywords

  • Volcanic ash
  • Respiratory
  • Health
  • Hazard
  • Risk mitigation
  • Review