Sources and pathways of environmental lead to children in a Derbyshire mining village

Garden soil and housedust samples, from households in a Derbyshire village closely associated with historic lead mining, have highly elevated lead levels. Handwipe samples from children also have relatively high lead concentrations suggesting that elevated levels of lead are transferred to the child by the soil-dust-hand-mouth pathway. However, this is not reflected in their blood lead concentrations which are within normal UK ranges and less than predicted by some lead exposure models. SEM analysis of soil grains has revealed that many are composed of pyromorphite [Pb5(PO4)3Cl], a stable soil-lead mineral. This mineral is formed from the weathering of galena [PbS] but it is not clear to what extent weathering has occurred in the soil. Pyromorphite has an extremely low solubility which may contribute to a low human bioavailability of lead in these soils, resulting in the lower than expected blood lead concentrations.

[1]  I. Thornton,et al.  The influence of house age on lead levels in dusts and soils in Brighton, England , 1987, Environmental geochemistry and health.

[2]  M. Duggan,et al.  Childhood exposure to lead in surface dust and soil: a community health problem. , 1985, Public health reviews.

[3]  R. Garrels,et al.  Solutions, Minerals and Equilibria , 1965 .

[4]  I Thornton,et al.  Lead intake and blood lead in two-year-old U.K. urban children. , 1990, The Science of the total environment.

[5]  M. Quinn,et al.  The UK Blood Lead Monitoring Programme 1984-1987: Results for 1986 , 1989, Human toxicology.

[6]  Iain Thornton,et al.  Metal Contamination in British Urban Dusts and Soils , 1988 .

[7]  D Barltrop,et al.  Temporal trends in urban and rural blood lead concentrations , 1987, Environmental geochemistry and health.

[8]  I. von Lindern,et al.  The Silver Valley lead study: the relationship between childhood blood lead levels and environmental exposure. , 1977, Journal of the Air Pollution Control Association.

[9]  Michael J. Thompson,et al.  The Wolfson geochemical atlas of England and Wales , 1978 .

[10]  D. Davies The monitoring and assessment of human exposure to lead in the environment , 1989 .

[11]  A. Chamberlain,et al.  INVESTIGATIONS INTO LEAD FROM MOTOR VEHICLES , 1978 .

[12]  I. Thornton,et al.  Metals in urban dusts and soils , 1985 .

[13]  M. Thompson,et al.  A handbook of inductively coupled plasma spectrometry , 1983 .

[14]  D. Hemphill Trace substances in environmental health - XIV. , 1980 .

[15]  J. Webb,et al.  Significance of High Soil Lead Concentrations for Childhood Lead Burdens , 1974, Environmental health perspectives.

[16]  D. Barltrop,et al.  Absorption of lead from dust and soil , 1975, Postgraduate medical journal.

[17]  G M Raab,et al.  The variability of lead in dusts within the homes of young children , 1988, Environmental geochemistry and health.

[18]  Jerome O. Nriagu,et al.  Lead orthophosphates—IV Formation and stability in the environment , 1974 .

[19]  Children's blood lead and exposure to lead in household dust and water--a basis for an environmental standard for lead in dust. , 1987, The Science of the total environment.

[20]  D Barltrop,et al.  Absorption of different lead compounds , 1975, Postgraduate medical journal.

[21]  Wendy E. Moffat Blood lead determinants of a population living in a former lead mining area in Southern Scotland , 1989, Environmental geochemistry and health.

[22]  B. E. Davies,et al.  The relationships between heavy metals in garden soils and house dusts in an old lead mining area of North Wales, Great Britain , 1985 .

[23]  Duggan Mj,et al.  Childhood exposure to lead in surface dust and soil: a community health problem. , 1985 .

[24]  I. Thornton Metal content of soils and dusts , 1988 .

[25]  I. Thornton,et al.  LEAD POLLUTION IN AGRICULTURAL SOILS , 1978 .

[26]  M. Duggan Contribution of lead in dust to children's blood lead. , 1983, Environmental health perspectives.

[27]  J. Nriagu Lead orthophosphates—II. Stability of cholopyromophite at 25°c , 1973 .