Acidic deposition and human exposure to toxic metals.

Acid precipitation affects the solubility of several metals in aquatic systems and in soil. Cadmium levels in tap water samples from geological areas having low resistance to acidic pollution were significantly higher than those in samples from a neighbouring reference area where there was a different geological structure. The median cadmium levels and pH values were 0.14 microgram l-1 and 5.6 respectively, for the acidic areas compared with 0.07 microgram l-1 and 6.4 respectively for the reference area. Further, there was a significant inverse relationship between both cadmium and lead contents and the pH values of the samples. The mobility of the metals was thus dependent on the acidity. The blood lead levels in 195 subjects from the acidic areas were lower than those in 91 subjects from the reference area (medians 60 vs. 70 micrograms l-1); no significant differences were found in blood cadmium or blood mercury levels. Subjects in the acidic areas had lower plasma selenium levels than those from the reference area (medians 85 vs. 90 micrograms l-1); the difference was mainly attributed to subjects with private wells. The data may indicate a negative effect of the acidic pollution on selenium intake via water and/or foods. There was also a positive relationship between intake of fish on the one hand and blood mercury and plasma selenium on the other, which is in accordance with the role of fish as a source of these metals.

[1]  B. Åkesson,et al.  Selenium status in vegans and lactovegetarians , 1985, British Journal of Nutrition.

[2]  P. Wester,et al.  Trace elements in drinking water and death rate in cardiovascular disease. , 2009, Acta medica Scandinavica.

[3]  J. Wood Effects of acidification on the mobility of metals and metalloids: an overview. , 1985, Environmental health perspectives.

[4]  P. Mushak Potential impact of acid precipitation on arsenic and selenium. , 1985, Environmental health perspectives.

[5]  L. Friberg,et al.  Mercury In The Environment , 1971 .

[6]  T W Clarkson,et al.  Impact of effects of acid precipitation on toxicity of metals. , 1985, Environmental health perspectives.

[7]  A. Frank,et al.  Assessment of bioavailability of cadmium in the swedish environment using the moose (Alees alces) as indicator , 1984 .

[8]  J. Salonen,et al.  Association between serum selenium and the risk of cancer. , 1984, American journal of epidemiology.

[9]  S Skerfving,et al.  Methylmercury exposure, mercury levels in blood and hair, and health status in Swedes consuming contaminated fish. , 1974, Toxicology.

[10]  K. Roberts,et al.  Fluorometry of selenium in serum or urine. , 1982, Clinical chemistry.

[11]  U. Johansson,et al.  Selenium status in patients with liver cirrhosis and alcoholism , 1986, British Journal of Nutrition.

[12]  M. Moore Influence of acid rain upon water plumbosolvency. , 1985, Environmental health perspectives.

[13]  L. Friberg,et al.  Lead and cadmium levels in blood samples from the general population of Sweden. , 1983, Environmental research.

[14]  P. Puska,et al.  ASSOCIATION BETWEEN CARDIOVASCULAR DEATH AND MYOCARDIAL INFARCTION AND SERUM SELENIUM IN A MATCHED-PAIR LONGITUDINAL STUDY , 1982, The Lancet.