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Reynolds, L., Jones, T. P., Beérubeé, K. A., Wise, H., Richards, R. (2003) Toxicity of airborne dust generated by opencast coal mining. Mineralogical Magazine, 67 (2) 141-152 doi:10.1180/0026461036720091

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Reference Type	Journal (article/letter/editorial)
Title	Toxicity of airborne dust generated by opencast coal mining
Journal	Mineralogical Magazine
Authors	Reynolds, L.		Author
	Jones, T. P.		Author
	Beérubeé, K. A.		Author
	Wise, H.		Author
	Richards, R.		Author
Year	2003 (April)	Volume	67
Issue	2
Publisher	Mineralogical Society
DOI	doi:10.1180/0026461036720091Search in ResearchGate
	Generate Citation Formats
Mindat Ref. ID	243418	Long-form Identifier	mindat:1:5:243418:0
GUID	0
Full Reference	Reynolds, L., Jones, T. P., Beérubeé, K. A., Wise, H., Richards, R. (2003) Toxicity of airborne dust generated by opencast coal mining. Mineralogical Magazine, 67 (2) 141-152 doi:10.1180/0026461036720091
Plain Text	Reynolds, L., Jones, T. P., Beérubeé, K. A., Wise, H., Richards, R. (2003) Toxicity of airborne dust generated by opencast coal mining. Mineralogical Magazine, 67 (2) 141-152 doi:10.1180/0026461036720091
Abstract/Notes	Experiments were undertaken to determine the toxicity in the lung of dust generated by opencast coal mining. Since it was impractical to collect the large mass of actual opencast respirable dust required for the toxicity experiment, a surrogate dust with the same size distribution was manufactured (PSW). This surrogate dust had the same basic mineralogical composition as mineralogically characterized airborne dust collected from the welsh coal opencast pit at Park Slip West. Diesel exhaust particles (DEP), generated from mining vehicular and mechanical activity, contribute towards opencast particulate matter. Therefore, a second dust comprising of a 50/50 by weight mixture of the surrogate mineral dust and diesel soot was also examined (PSW + DEP). These dusts and DEP (weak biological reactivity) and a-quartz (high biological reactivity) were instilled into the lungs of healthy rats. The animals were sacrificed at 1, 6 and 11 weeks. Assessments of potential toxicity included lung to body weight ratios, acellular protein in lung lavage (markers of lung permeability) and total free cells (marker of inflammation). The surrogate opencast dust with or without DEP caused no significant increases in any of the parameters studied and as such was very similar to the weak biological effects of DEP alone. These effects contrasted sharply with those observed for the bioreactive mineral, quartz that induced rapid increases in permeability and a progressive inflammation. The use of a surrogate is less desirable then the real opencast mine dust, however, if as believed, the surrogate material is a representative mixture of the actual airborne dust around this opencast site, then these particles should show little or no short-term lung toxicity following inhalation.

See Also

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	Whittaker, A. G., Jones, T. P., Shao, L., Shi, Z., Bérubé, K. A., Richards, R. J. (2003) Mineral dust in urban air: Beijing, China. Mineralogical Magazine, 67 (2) 173-182 doi:10.1180/0026461036720111
	Parsons, B., Salter, L., Coe, T., Mathias, R., Richards, R. J., Jones, T. P. (2003) Airborne particulate matter (PM₁₀) in the china clay area, Cornwall, UK. Mineralogical Magazine, 67 (2) 163-171 doi:10.1180/0026461036720093
	Jones, T., Morgan, A., Richards, R. (2003) Primary blasting in a limestone quarry: physicochemical characterization of the dust clouds. Mineralogical Magazine, 67 (2) 153-162 doi:10.1180/0026461036720092
	Bérubé, K. A., Jones, T. P., Housley, D. G., Richards, R. J. (2004) The respiratory toxicity of airborne volcanic ash from the Soufrière Hills volcano, Montserrat. Mineralogical Magazine, 68 (1) 47-60 doi:10.1180/0026461046810170
	*(2004) 04/02111 Toxicity of airborne dust generated by opencast coal mining. Fuel and Energy Abstracts, 45 (4). 290-291 doi:10.1016/s0140-6701(04)94698-x*
	*Richards, R. (2003) What effects do mineral particles have in the lung?. Mineralogical Magazine, 67 (2) 129-139 doi:10.1180/0026461036720090*
	Evans, K. A., Gandy, C. J., Banwart, S. A. (2003) Mineralogical, numerical and analytical studies of the coupled oxidation of pyrite and coal. Mineralogical Magazine, 67 (2) 381-398 doi:10.1180/0026461036720107
	Tripathy, D. P., Dash, T. R. (2018) Assessment of Particulate and Trace Element Pollution in Airborne Dust around a Highly Mechanized Opencast Coal Mine in Talcher, Odisha. Journal of Mining Science, 54 (4) 697-708 doi:10.1134/s1062739118044784
	Hudson-Edwards, K. A. (2003) Sources, mineralogy, chemistry and fate ofheavy metal-bearing particles in mining-affected river systems. Mineralogical Magazine, 67 (2) 205-217 doi:10.1180/0026461036720095
	*Grapes, R. H. (2003) Pyrometamorphic breakdown of cordierite - muscovite intergrowths. Mineralogical Magazine, 67 (4) 653-663 doi:10.1180/0026461036740124*
	*Swainson, I. P., Hammond, R. P. (2003) Hydrogen bonding in ikaite, CaCO₃.6H₂O. Mineralogical Magazine, 67 (3) 555-562 doi:10.1180/0026461036730117*

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