References
- Occupational Safety and Health Administration (OSHA). Occupational exposure to asbestos, anthophyllite, tremolite, and actinolite. Fed Regist. 1992;57:2470.
- Selikoff IJ, Hammond EC, Churg J. Carcinogenicity of amosite asbestos. Arch Environ Health. 1972;25(3):183–186.
- Ribak J, Ribak G. Human health effects associated with the commercial use of grunerite asbestos (amosite): Paterson, NJ; Tyler, TX; Uxbridge, UK. Regul Toxic and Pharm. 2008;52(1 Suppl.):82–90.
- Germine M, Puffer JH. Origin and development of flexibility in asbestiform fibers. Min Mag. 1989;53:32–35.
- Campbell WJ, Blake RL, Brown LL, Cather EE, Sjoberth JJ. Selected silicate minerals and their asbestiform varieties. United States Bureau of Mines. Inform Circ. 1977; 8751:56.
- Deer WA, Howie RA, Zussman J. Double Chain Silicates. Rock-Forming Minerals. London, Bath: Geological Society of London; 1997.
- Cressey BA, Whittaker EJW, Hutchison JL. Morphology and alteration of asbestiform grunerite and anthophyllite. Min Mag. 1982;46(338):77–87.
- Hutchison JL, Whittaker EJW. The nature of electron diffraction patterns of amphibole asbestos and their use in identification. Environ Res. 1979;20(2):445–449.
- Zoltai T, Stout JH. Mineralogy: Concepts and Principles. Minneapolis, MN: Burgess Publishing Company; 1984; 505 pp.
- Cook PM, Palekar LD, Coffin DL. Tumorigenesis by a ferroactinolite mineral. Toxicol Lett. 1982;13(3-4):143–149.
- Cook PM, Palekar LD, Coffin DL. Interpretation of the carcinogenicity of amosite asbestos and ferroactinolite on the basis of retained fiber dose and characteristics in vivo. Toxicol Lett. 1982;13(3–4):151–158.
- Rees D, Goodman K, Fourie E. Asbestos exposure and mesothelioma in South Africa. So Afri Med J. 1999;89(6)
- Du Toit AL. The origin of amphibole asbestos deposits of South Africa. Trans Geol Soc So Afri. 1945;58:161–206.
- Roggli VL, Pratt PC, Brody AR. Asbestos fiber type in malignant mesothelioma: an analytical scanning electron microscope study of 94 cases. Am J Ind Med. 1993;23(4):605–614.
- Sharpe MR, Chadwick B. Structures in Transvaal Sequence rocks within and adjacent to the eastern Bushveld Complex. Trans Geol Soc So Afri. 1982;85:29–41.
- Miyano T, Beukes NJ. Metamorphism and petrology of the contact metamorphosis amphibole-bearing Penge Iron Formation, Eastern Transvaal, South Africa. J Petrol. 1997;38(5):651–676.
- Anderson CH, Long JM. Interim Method for Determining Asbestos in Water. Cincinnati, OH: United States Environmental Protection Agency; 1980, 33 pp.; EPA-600/U-8-005.
- Bowen NL, Schairer JF. Grunerite from Rockport, Massachusetts and a series synthetic fluor-amphiboles. Am. Mineral. 1935; 20, 543–551.
- Hirschmann M, Evans BW, Hexiong Y. Composition and temperature dependence of Fe-Mg ordering in cummingtonite-grunerite as determined by X-ray diffraction. Amer Min. 1994;79:377–862.
- Zeh A, Holland TJ, Klemd R. Phase relationships in grunerite–garnet‐bearing amphibolites in the system CFMASH, with applications to metamorphic rocks from the Central Zone of the Limpopo Belt, South Africa. J Metamorph Geol. 2005;23(1):1–7.
- Palekar LD, Cook PM, Coffin DL. In vitro effects of mineral fibers. Environ Health Perspect. 1983;51:11–16.
- Wylie AG. Fiber length and aspect ratio of some selected asbestos samples. Ann NY Acad Sci. 1979;330:219–611.
- Siegrist HG, Wylie AG. Characterizing and discriminating the shape of asbestos particles. Environ Res. 1980;23(2):348–361.
- Germine M. Sepiolite asbestos from Franklin, New Jersey: a case study in medical geology. Environ Res. 1987;42(2):386–389.