Dust exposure during small-scale mining in Tanzania: a pilot study.

Small-scale mining in developing countries is generally labour-intensive and carried out with low levels of mechanization. In the Mererani area in the northern part of Tanzania, there are about 15000 underground miners who are constantly subjected to a poor working environment. Gemstones are found at depths down to 500 m. The objectives of this pilot study were to monitor the exposure to dust during work processes, which are typical of small-scale mining in developing countries, and to make a rough estimation of whether there is a risk of chronic pulmonary diseases for the workers. Personal sampling of respirable dust (n = 15) and 'total' dust (n = 5) was carried out during three consecutive days in one mine, which had a total of 50 workers in two shifts. Sampling started immediately before the miners entered the shaft, and lasted until they reappeared at the mine entrance after 5-8 h. The median crystalline silica content and the combustible content of the respirable dust samples were 14.2 and 5.5%, respectively. When drilling, blasting and shovelling were carried out, the exposure measurements showed high median levels of respirable dust (15.5 mg/m(3)), respirable crystalline silica (2.4 mg/m(3)), respirable combustible dust (1.5 mg/m(3)) and 'total' dust (28.4 mg/m(3)). When only shovelling and loading of sacks took place, the median exposures to respirable dust and respirable crystalline silica were 4.3 and 1.1 mg/m(3). This study shows that the exposure to respirable crystalline silica was high during underground small-scale mining. In the absence of personal protective equipment, the miners in the Mererani area are presumably at a high risk of developing chronic silicosis.

[1]  R. Cowie The epidemiology of tuberculosis in gold miners with silicosis. , 1994, American journal of respiratory and critical care medicine.

[2]  J. Mclaughlin,et al.  Historical total and respirable silica dust exposure levels in mines and pottery factories in China. , 1995, Scandinavian journal of work, environment & health.

[3]  E Hnizdo,et al.  Risk of silicosis in a cohort of white South African gold miners. , 1993, American journal of industrial medicine.

[4]  C. Shy,et al.  Silica, silicosis, and cancer , 1986 .

[5]  Bindu Raju,et al.  Silica, Some Silicates, Coal Dust and Para-aramid Fibrils. IARC Monographs on the Evaluation of Carcinogenic Risks to Humans, Vol. 68 , 1998, Cancer Causes and Control.

[6]  W. Wallace,et al.  Exposure to silica and silicosis among tin miners in China: exposure-response analyses and risk assessment , 2001, Occupational and environmental medicine.

[7]  K. Kreiss,et al.  Risk of silicosis in a Colorado mining community. , 1996, American journal of industrial medicine.

[8]  Douglas R. Parker,et al.  Quartz Exposure Trends in Metal and Nonmetal Mining , 1995 .

[9]  E Hnizdo,et al.  Silica exposure, silicosis, and lung cancer: a mortality study of South African gold miners. , 1991, British journal of industrial medicine.

[10]  T. S. Scott Pneumoconiosis: Proceedings of the International Conference, Johannesburg 1969 , 1972 .

[11]  K Steenland,et al.  Silicosis among gold miners: exposure--response analyses and risk assessment. , 1995, American journal of public health.

[12]  J. Hurley,et al.  Relation between dust exposure and lung function in miners and ex-miners. , 1986, British journal of industrial medicine.

[13]  I. Greaves Not-so-simple silicosis: a case for public health action. , 2000, American journal of industrial medicine.