Water, Air, and Soil Pollution

, Volume 148, Issue 1–4, pp 61–76 | Cite as

Heavy Metal Content of Arable Soils in Northern Belgium

  • L. De TemmermanEmail author
  • L. Vanongeval
  • W. Boon
  • M. Hoenig
  • M. Geypens


More than 600 arable soils from Flanders (Northern-Belgium) were analysed for their total acid extractable contents of As, B, Be, Cd, Co, Cr, Cu, Mn, Ni, Pb and Zn in order to determine any increase in the natural background values. Samples were taken at random in several municipalities throughout Flanders. Areas with known historical or actual sources of trace element emissions were omitted although in some cases the distance between those sources and the sampling locations was not more than 20 km. The main soil types were, ranging from north to south: sand, loamy sand, light sandy-loam, sandy-loam and loam. In the coastal area, clay soils (sea polders) were sampled. In addition to the analysis of trace elements, the soil texture class, the pH and the carbon content were determined. Macro- or mesonutrients, Ca, K, P, Mg and Na, were determined from a weak acid extract of the soil samples. Correlations between trace elements and macronutrients provide some information about fertilisation practices and heavy metal sources.A limited number of soils showed slightly enhanced levels for As, Be, Cu, Co, Cr Mn, Ni Pb and Zn. In most cases, this could be linked to the regional industrial activities. However, a clear increase for Cu and Zn, above the natural background could be distinguished in areas with low atmospheric heavy metal deposits. In these cases, the excessive use of animal manure in the past may be the reason for this enrichment. However there was no indication that the Cd content of the soil was raised by the use of large amounts of pig slurry and/or by other common agricultural activities.

arable soils heavy metals total acid extractable contents trace elements 


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  1. Bosmans, H. and Paenhuys, J.: 1980, ‘The distribution of heavy metals in the soils of the Kempen’, Pedologie 30(2), 191-223.Google Scholar
  2. Bowen, H. J. M.: 1969, Trace Elements in Biochemistry, Academic Press London and New York, 241 pp.Google Scholar
  3. Csato, P. and Kadar, I.: 1992, ‘The Assessment of Phosphorus Fixation on a Calcareous Chernozem Soil, in a Long-term Field Trial’, Proceedings 4th International Imphos Conference. Phosphorus, Life and Environment. From Research to Application, Ghent, pp. 607-609.Google Scholar
  4. De Temmerman, L. O., Istas, J. R., Hoenig, M., Dupire, S., Ledent, G., Van Elsen, Y., Baeten, H. and De Meyer, A.: 1982, ‘Définition des teneurs ‘normales’ des éléments en trace de certains sols belges en tant que critère de base pour la détection et l'interprétation de la pollution des sols en général’, Revue de l’Agriculture 35(2), 1915-1944.Google Scholar
  5. De Temmerman, L., Hoenig, M. and Scokart, P. O.: 1984, ‘Determination of ‘normal’ levels and upper limit values of trace elements in soils', Z. Pflanzenernaehr. Bodenk. 147, 687-694.CrossRefGoogle Scholar
  6. De Temmerman, L., Vanongeval, L., Boon, W., Hoenig, M. and Geypens, M.: 2000, ‘Gehalten aan Spoorelementen in Akkerbodems in Vlaanderen’, Publicatie CODA-BDB, 2000/1, 16 pp. (in Dutch).Google Scholar
  7. Egner, H., Riehm, H. and Domingo, W. R.: 1960, ‘Untersuchungen über die chemische Bodenanalyse als Grondlage für die Beurteiling des Nährstoffzustandes der Böden II’, Kungl. Lantbrukshögskolans Annaler 26, 199-215.Google Scholar
  8. Eriksson, J. and Söderström, M.: 1996,. ‘Cadmium in soil and winter wheat grain in southern Sweden. I. Factors influencing Cd levels in soils and grains’, Acta Agriculturae Scandinavica, Section B, Soil and Plant Science 46, 240-248.Google Scholar
  9. Jackson, M. L.: 1958, Soil Chemical Analysis, Prentice Hall, Englewood Cliffs, N.J., 220 pp.Google Scholar
  10. Kabata-Pendias, A. and Pendias, H.: 1984, Trace Elements in Soils and Plants, CRC Press Inc., Boca Raton, Florida, 315 pp.Google Scholar
  11. Kloke, A.: 1980, ‘Immissionsbelastete Landwirtschaftliche Standorte’. Leistungen von Landwirtschaft und Landschaft zur Wohlfart in Verdichtungsräumen. Verlag M & H. Schaper, Hannover, 84, pp. 24-44.Google Scholar
  12. Kloke, A., Sauerbeck, D. R. and Vetter, H.: 1984, ‘The Contamination of Plants and Soils with Heavy Metals and the Transport of Metals in Terrestrial Food Chains’, in J. O. Nriagu (ed.), Changing Metal Cycles and Human Health. Dahlem Konferenzen, Springer-Verlag, Berlin, Heidelberg, New York, Tokyo, pp. 113-141.CrossRefGoogle Scholar
  13. Öborn, I., Jansson, G. and Johnsson, L.: 1995, ‘A field study on the influence of soil pH on trace element levels in spring wheat (Triticum aestivum), potatoes (Solanum tuberosum) and carrots (Daucus carota)’, Water, Air, and Soil Pollut. 85, 835-840.CrossRefGoogle Scholar
  14. Puschenreiter, M. and Horak, O.: 2000, ‘Influence of different soil parameters on the transfer factor soil to plant of Cd, Cu and Zn for wheat and rye’, Die Bodenkultur 51(1), 3-10.Google Scholar
  15. Teicher, K.: 1967, ‘Ñber die Bestimmung der pflanzenverfügbaren Phosphorsäure met verschiedenen Extractionsmethoden in Böden von Dauerdüngungsversuchen’, Landwirtschaftliche Forschung 20(4), 241-250.Google Scholar
  16. Vanongeval, L., Vandendriessche, H. and Geypens, M.: 1995, Bouwlaagonderzoek op Macronutriënten en Spoorelementen van Akkerbouw-, Weiland-en Groentetuinstalen uit de Provincie West-Vlaanderen, Bodemkundige Dienst van België, 1995, 91 pp. (in Dutch).Google Scholar
  17. Vanongeval, L., Ver Elst, P., Boon, W., Bries, J., Vandendriessche, H. and Geypens, M.: 1996, De Chemische Bodemvruchtbaarheid van het Belgische Akkerbouw-en Weilandareaal (1992-1995), Bodemkundige Dienst van België, 1996, 104 pp. (in Dutch).Google Scholar
  18. VLAREBO: 1996, Vlaams Reglement Betreffende de Bodemsanering van 5 Maart 1996, Belgisch Staatsblad, 27-03-1996.Google Scholar
  19. Wiersma, D., Van Goor, B. J. and Van der Veen, N. G.: 1986, ‘Cadmium, lead, mercury and arsenic concentrations in crops and corresponding soils in The Netherlands’, J. Agric. Food. Chem. 34, 1067-1074.CrossRefGoogle Scholar

Copyright information

© Kluwer Academic Publishers 2003

Authors and Affiliations

  • L. De Temmerman
    • 1
    Email author
  • L. Vanongeval
  • W. Boon
  • M. Hoenig
    • 1
  • M. Geypens
  1. 1.Veterinary and Agrochemical Research Centre (VAR)TervurenBelgium (author for correspondence

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