Naturally occurring asbestos in eastern Australia: a review of geological occurrence, disturbance and mesothelioma risk

Potential asbestos-bearing rocks account for about 0.2% of the land area of eastern Australia. The main mode of occurrence is as narrow cross fibre and slip fibre veins of chrysotile asbestos in serpentinised ophiolite complexes along the boundaries of major tectonic domains. Smaller deposits of chrysotile and amphibole asbestos occur in metamorphosed mafic and ultramafic rocks associated with the Macquarie Volcanic Arc in New South Wales. Amphibole asbestos is also known from Proterozoic and Palaeozoic amphibolite and from Devonian basalt. Natural asbestos-bearing materials in eastern Australia have been disturbed by mining, road construction, agriculture and forestry, urban development and through natural weathering processes. Persons most at risk of potential exposure to asbestos from natural sources include: farmers who work or live in areas where asbestos-bearing materials may be routinely disturbed by agricultural activities; construction workers involved in large-scale earthwork projects in areas underlain by asbestos-bearing rocks; and quarry workers who unwittingly disturb asbestos-bearing materials. Government authorities and private enterprise need to take geological factors into account to reduce the likelihood of unplanned disturbance of natural asbestos-bearing materials.

[1]  E. Gazzano,et al.  POTENTIAL TOXICITY OF NONREGULATED ASBESTIFORM MINERALS: BALANGEROITE FROM THE WESTERN ALPS. PART 2: OXIDANT ACTIVITY OF THE FIBERS , 2005, Journal of toxicology and environmental health. Part A.

[2]  T. Ireland,et al.  Age profile of ophiolitic rocks across the Late Palaeozoic New England Orogen, New South Wales: Implications for tectonic models , 1995 .

[3]  P Brochard,et al.  Environmental airborne tremolite asbestos pollution and pleural plaques in Afghanistan. , 1994, Chest.

[4]  M. Etheridge,et al.  The stratigraphy and deformation history of the Tumut region: Implications for the development of the Lachlan Fold Belt , 1992 .

[5]  D. Gray,et al.  Structural style and crustal architecture of the Tasmanides of eastern Australia: Example of a composite accretionary orogen , 2006 .

[6]  M. Goldberg,et al.  Can exposure to very low levels of asbestos induce pleural mesothelioma? , 2005, American journal of respiratory and critical care medicine.

[7]  P Sébastien,et al.  Mesothelioma and asbestos fiber type. Evidence from lung tissue analyses , 1989, Cancer.

[8]  S. Emri,et al.  Malignant pleural mesothelioma in Turkey, 2000-2002. , 2004, Lung cancer.

[9]  Patricia A. Sullivan,et al.  Vermiculite, Respiratory Disease, and Asbestos Exposure in Libby, Montana: Update of a Cohort Mortality Study , 2007, Environmental health perspectives.

[10]  J. Wagner,et al.  Diffuse Pleural Mesothelioma and Asbestos Exposure in the North Western Cape Province , 1960, British journal of industrial medicine.

[11]  H. Catherine W. Skinner,et al.  Asbestos and Other Fibrous Materials: Mineralogy, Crystal Chemistry, and Health Effects , 1988 .

[12]  Jennifer R. Verkouteren,et al.  Amphibole asbestos from Libby, Montana: Aspects of nomenclature , 2000 .

[13]  J. Leigh,et al.  Malignant mesothelioma in Australia, 1945-2000. , 2002, American journal of industrial medicine.

[14]  D A Dankovic,et al.  Occupational exposure to chrysotile asbestos and cancer risk: a review of the amphibole hypothesis. , 1996, American journal of public health.

[15]  D. Kamp,et al.  Asbestos and the pleura: a review. , 2004, Chest.

[16]  D. S. O'Hanley Serpentinites : records of tectonic and petrological history , 1996 .

[17]  M. Hendrickx,et al.  Carbonate-hosted asbestos occurrences in South Australia: review of geology and implications for mesothelioma , 2009 .

[18]  W. Mccrone,et al.  Detection and identification of asbestos by microscopical dispersion staining , 1974, Environmental health perspectives.

[19]  Aubrey Miller,et al.  Radiographic abnormalities and exposure to asbestos-contaminated vermiculite in the community of Libby, Montana, USA. , 2003, Environmental health perspectives.

[20]  G. Hillerdal Mesothelioma: cases associated with non-occupational and low dose exposures. , 1999, Occupational and environmental medicine.

[21]  Geoffrey Berry,et al.  The Australian Mesothelioma Surveillance Program 1979‐1985 , 1987, The Medical journal of Australia.

[22]  B. Franklin,et al.  The Mooney Mooney Fault System and Coolac ophiolite suite in the tectonics of the Tumut Trough, southeastern Australia , 1992 .

[23]  B. Robineau,et al.  Pleural mesothelioma in New Caledonia: an acute environmental concern. , 2007, Cancer detection and prevention.

[24]  N Hisanaga,et al.  Airborne fiber concentration and size distribution of mineral fibers in area with serpentinite outcrops in Aichi prefecture, Japan. , 2001, Industrial health.

[25]  V. Cardile,et al.  Toxicity and Carcinogenicity Mechanisms of Fibrous Antigorite , 2007, International journal of environmental research and public health.

[26]  Mark R Cullen,et al.  Residential proximity to naturally occurring asbestos: health risk or ecologic fallacy? , 2006, American journal of respiratory and critical care medicine.

[27]  S. Constantopoulos,et al.  Malignant pleural mesothelioma from nonoccupational asbestos exposure in Metsovo (north-west Greece): slow end of an epidemic? , 1996, The European respiratory journal.

[28]  Todd M. Hoefen,et al.  The Composition and Morphology of Amphiboles from the Rainy Creek Complex, Near Libby, Montana , 2003 .

[29]  A. Şenyiğit,et al.  Incidence of Malignant Pleural Mesothelioma due to Environmental Asbestos Fiber Exposure in the Southeast of Turkey , 2000, Respiration.

[30]  A. Musk,et al.  Epidemiology of Mesothelioma , 2002 .

[31]  B. Leake,et al.  Nomenclature of the Amphiboles: Report of the Subcommittee on Amphiboles of the International Mineralogical Association Commision on New Minerals , 1997 .

[32]  C. Zolov,et al.  Pleural asbestosis in agricultural workers. , 1967, Environmental research.

[33]  L. Simonato,et al.  Epidemiological and environmental evidence of the health effects of exposure to erionite fibres: A four‐year study in the cappadocian region of turkey , 1987, International journal of cancer.

[34]  W. Gibbons,et al.  Amphibole asbestos in Africa and Australia: geology, health hazard and mining legacy , 2000, Journal of the Geological Society.

[35]  J. Dement,et al.  Epidemiology of asbestos-related diseases. , 1980, Environmental health perspectives.

[36]  F. Pooley,et al.  Mesothelioma in Cyprus: the role of tremolite. , 1987, Thorax.

[37]  L. Beckett,et al.  Residential proximity to naturally occurring asbestos and mesothelioma risk in California. , 2005, American journal of respiratory and critical care medicine.

[38]  M. Goldberg,et al.  Environmental exposure to tremolite and respiratory cancer in New Caledonia: a case-control study. , 2000, American journal of epidemiology.

[39]  B. S. Gosen Reported Historic Asbestos Mines, Historic Asbestos Prospects, and Natural Asbestos Occurrences in the Rocky Mountain States of the United States (Colorado, Idaho, Montana, New Mexico, and Wyoming) , 2007 .

[40]  V. Roggli,et al.  Environmental malignant mesothelioma in southern Anatolia: a study of fifty cases. , 2000, Environmental health perspectives.

[41]  E. Belluso,et al.  CHARACTERIZATION OF CHRYSOTILE, ANTIGORITE AND LIZARDITE BY FT-RAMAN SPECTROSCOPY , 2003 .

[42]  J. Stetkiewicz,et al.  Experimental carcinogenicity and mutagenicity of non-asbestos natural fibres--preliminary report. , 1993, Polish journal of occupational medicine and environmental health.

[43]  A. Langer,et al.  ASSOCIATION OF METSOVO LUNG AND PLEURAL MESOTHELIOMA WITH EXPOSURE TO TREMOLITE-CONTAINING WHITEWASH , 1987, The Lancet.

[44]  D. Bleyl,et al.  IARC Monographs on the Evaluation of Carcinogenic Risks to Humans. Overall Evaluations of Carcinogenicity: An Updating of IARC Monographs vol. 1 to 42. Supplement 7. 440 Seiten. International Agency for Research on Cancer, Lyon 1987. Preis: 65, – s.Fr , 1989 .

[45]  R. Lemen Asbestos in brakes: exposure and risk of disease. , 2004, American journal of industrial medicine.

[46]  M. Stanton,et al.  Relation of particle dimension to carcinogenicity in amphibole asbestoses and other fibrous minerals. , 1981, Journal of the National Cancer Institute.

[47]  B. Leake,et al.  Nomenclature of amphiboles; report of the subcommittee on amphiboles of the International Mineralogical Association, Commission on New Minerals and Mineral Names , 1997 .

[48]  Y. Bariş,et al.  An outbreak of pleural mesothelioma and chronic fibrosing pleurisy in the village of Karain/Urgüp in Anatolia. , 1978, Thorax.

[49]  V. Cuomo,et al.  Deterioration status of asbestos-cement roofing sheets assessed by analyzing hyperspectral data , 2007 .

[50]  Bice Fubini,et al.  POTENTIAL TOXICITY OF NONREGULATED ASBESTIFORM MINERALS: BALANGEROITE FROM THE WESTERN ALPS. PART 1: IDENTIFICATION AND CHARACTERIZATION , 2005, Journal of toxicology and environmental health. Part A.

[51]  S. J. Sutley,et al.  Using the geologic setting of talc deposits as an indicator of amphibole asbestos content , 2004 .

[52]  D. Palladino,et al.  Geo-volcanological, mineralogical and environmental aspects of quarry materials related to pleural neoplasm in the area of Biancavilla, Mount Etna (Eastern Sicily, Italy) , 2005 .

[53]  M. Hakama,et al.  Incidence of cancer among anthophyllite asbestos miners in Finland. , 1994, Occupational and environmental medicine.

[54]  C. Wen,et al.  Asbestos related diseases from environmental exposure to crocidolite in Da-yao, China. I. Review of exposure and epidemiological data , 2003, Occupational and environmental medicine.

[55]  D. S. O'Hanley,et al.  Characterization of multiple serpentinization, Woodsreef, New South Wales , 1992 .

[56]  A. Crawford,et al.  Middle and Late Ordovician magmatic evolution of the Macquarie Arc, Lachlan Orogen, New South Wales , 2007 .

[57]  V. Rusch,et al.  Malignant mesothelioma in Australia , 2006 .

[58]  A. Langer,et al.  Environmental asbestos pollution related to use of quarried serpentine rock. , 1977, Science.

[59]  H. Skinner,et al.  Geology and health : closing the gap , 2003 .

[60]  E. Gazzano,et al.  POTENTIAL TOXICITY OF NONREGULATED ASBESTIFORM MINERALS: BALANGEROITE FROM THE WESTERN ALPS. PART 3: DEPLETION OF ANTIOXIDANT DEFENSES , 2005, Journal of toxicology and environmental health. Part A.

[61]  R. Virta Worldwide asbestos supply and consumption trends from 1900 to 2000 , 2003 .

[62]  S. Isomura,et al.  CONTACT INFECTION FROM LIVE VARICELLA VACCINE RECIPIENTS , 1976, The Lancet.

[63]  C James Dusek,et al.  CONTROL AND PREVENTION OF ASBESTOS EXPOSURE FROM CONSTRUCTION IN NATURALLY OCCURRING ASBESTOS , 1993 .

[64]  D. Gray,et al.  Timing of subduction and exhumation along the Cambrian East Gondwana margin, and the formation of Paleozoic backarc basins , 2005 .

[65]  L. Michailova,et al.  Asbestos content of the soil and endemic pleural asbestosis. , 1970 .

[66]  R. Pasetto,et al.  Mesothelioma associated with environmental exposures. , 2005, La Medicina del lavoro.

[67]  G. Hillerdal,et al.  Environmental asbestos exposure and malignant pleural mesothelioma. , 1999, Respiratory medicine.

[68]  A. Churg,et al.  Chrysotile, tremolite, and malignant mesothelioma in man. , 1988, Chest.

[69]  Roderic Brown,et al.  Shaping the Australian crust over the last 300 million years: Insights from fission track thermotectonic imaging and denudation studies of key terranes , 2002 .

[70]  I. Uçgun,et al.  Malignant mesothelioma due to environmental exposure to asbestos: follow-up of a Turkish cohort living in a rural area. , 2002, Chest.

[71]  Suzette A. Morman,et al.  The Toxicological Geochemistry of Earth Materials: An Overview of Processes and the Interdisciplinary Methods Used to Understand Them , 2006 .

[72]  D. Gray,et al.  Ophiolite accretion in the Lachlan Orogen, Southeastern Australia , 2004 .

[73]  R. Coleman New Idria Serpentinite: A Land Management Dilemma , 1996 .

[74]  M. Hendrickx Records of the Australian Mesothelioma Surveillance Program have been lost! , 2008, The Medical journal of Australia.

[75]  Bradley S. Van Gosen,et al.  The Geology of Asbestos in the United States and Its Practical Applications , 2007 .

[76]  Pietro Comba,et al.  Pleural Mesothelioma Cases in Biancavilla are Related to a New Fluoro-Edenite Fibrous Amphibole , 2003, Archives of environmental health.

[77]  R. Glen,et al.  Ordovician to earliest Silurian history of the Macquarie Arc, Lachlan Orogen, New South Wales , 2007 .

[78]  J. Leigh,et al.  The Diagnosis and Attribution of Asbestos-related Diseases in an Australian Context: Report of the Adelaide Workshop on Asbestos-related Diseases. October 6–7, 2000 , 2004, International journal of occupational and environmental health.

[79]  S. J. Sutley,et al.  Using imaging spectroscopy to map ultramafic rocks, serpentinites and tremolite-actinolite-bearing rocks in California , 2004 .

[80]  Malcolm Ross,et al.  History of asbestos discovery and use and asbestos-related disease in context with the occurrence of asbestos within ophiolite complexes , 2003 .

[81]  D. S. O'Hanley,et al.  Serpentine minerals; structures and petrology , 1988 .

[82]  P. Ballirano,et al.  Characterization of amphibole fibres linked to mesothelioma in the area of Biancavilla, Eastern Sicily, Italy , 2003, Mineralogical Magazine.

[83]  E. Belluso,et al.  Amphiboles: Environmental and Health Concerns , 2007 .

[84]  A. Jayko,et al.  Paleozoic ophiolitic assemblages within the southern New England orogen of eastern Australia: Implic , 1994 .

[85]  B. Franklin,et al.  Tectonic significance of 400 Ma zircon ages for ophiolitic rocks from the Lachlan fold belt, eastern Australia , 1996 .

[86]  A. C. Tanrıkulu,et al.  Determination of Environmental Exposure to Asbestos (Tremolite) and Mesothelioma Risks in the Southeastern Region of Turkey , 2004, Archives of environmental health.

[87]  S. Heckbert,et al.  No Need For Alarm , 2004 .

[88]  J. Ribak,et al.  Amosite mesothelioma in a cohort of asbestos workers. , 1989, Scandinavian journal of work, environment & health.