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Pollution and Oral Bioaccessibility of Pb in Soils of Villages and Cities with a Long Habitation History

Author

Listed:
  • Nikolaj Walraven

    (GeoConnect, Meester Dekkerstraat 4, Castricum 1901 PV, The Netherlands)

  • Martine Bakker

    (Rijksinstituut voor Volksgezondheid en Milieu (RIVM), P.O. Box 1, Bilthoven 3720 BA, The Netherlands)

  • Bertil Van Os

    (Rijksdienst voor het Cultureel Erfgoed, Cultural Heritage Agency, P.O. Box 1600, Amersfoort 3800 BP, The Netherlands)

  • Gerard Klaver

    (Bureau de Recherches Géologiques et Minières (BRGM), 3 Avenue Claude-Guillemin, BP 36009, Orléans Cedex 2 45060, The Netherlands)

  • Jack Jacobus Middelburg

    (Department of Earth Sciences, University Utrecht, P.O. Box 80021, Utrecht 3508 TA, The Netherlands)

  • Gareth Davies

    (Geology & Geochemistry, Faculty of Earth and Life Sciences, VU University Amsterdam, De Boelelaan 1085, Amsterdam 1081 HV, The Netherlands)

Abstract

The Dutch cities Utrecht and Wijk bij Duurstede were founded by the Romans around 50 B.C. and the village Fijnaart and Graft-De Rijp around 1600 A.D. The soils of these villages are polluted with Pb (up to ~5000 mg/kg). Lead isotope ratios were used to trace the sources of Pb pollution in the urban soils. In ~75% of the urban soils the source of the Pb pollution was a mixture of glazed potsherd, sherds of glazed roof tiles, building remnants (Pb sheets), metal slag, Pb-based paint flakes and coal ashes. These anthropogenic Pb sources most likely entered the urban soils due to historical smelting activities, renovation and demolition of houses, disposal of coal ashes and raising and fertilization of land with city waste. Since many houses still contain Pb-based building materials, careless renovation or demolition can cause new or more extensive Pb pollution in urban soils. In ~25% of the studied urban topsoils, Pb isotope compositions suggest Pb pollution was caused by incinerator ash and/or gasoline Pb suggesting atmospheric deposition as the major source. The bioaccessible Pb fraction of 14 selected urban soils was determined with an in vitro test and varied from 16% to 82% of total Pb. The bioaccessibility appears related to the chemical composition and grain size of the primary Pb phases and pollution age. Risk assessment based on the in vitro test results imply that risk to children may be underestimated in ~90% of the studied sample sites (13 out of 14).

Suggested Citation

  • Nikolaj Walraven & Martine Bakker & Bertil Van Os & Gerard Klaver & Jack Jacobus Middelburg & Gareth Davies, 2016. "Pollution and Oral Bioaccessibility of Pb in Soils of Villages and Cities with a Long Habitation History," IJERPH, MDPI, vol. 13(2), pages 1-23, February.
  • Handle: RePEc:gam:jijerp:v:13:y:2016:i:2:p:221-:d:63930
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    Citations

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    Cited by:

    1. Howard W. Mielke, 2016. "Editorial: Lead Risk Assessment and Health Effects," IJERPH, MDPI, vol. 13(6), pages 1-3, June.
    2. Xuemeng Sun & Xiaoping Li & Dongying Liu & Tao Yang & Yanan Zhao & Ting Wu & Yue Cai & Yuwei Ai & Xu Zhang & Jiwen Wang & Rui Yang & Hongtao Yu & Howard W. Mielke, 2018. "Use of a Survey to Assess the Environmental Exposure and Family Perception to Lead in Children (<6 Years) in Four Valley Cities, Northwestern China," IJERPH, MDPI, vol. 15(4), pages 1-26, April.

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