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Cadmium availability to wheat in five soil series from the Yonne district, Burgundy, France.
1997
Mench M. | Baize D. | Mocquot B.
Relationships between river sediment characteristics and trace metal concentrations in tubificid worms and chironomid larvae
1997
Bervoets, L. | Blust, R. | Wit, M. de | Verheyen, R. (Department of Biology, University of Antwerp (UIA), Universiteitsplein I, 2610, Wilrijk (Belgium))
Decomposition of pine-litter organic matter and chemical properties of upper soil layers: transect studies
1997
Breymeyer, A. | Degorski, M. | Reed, D. (Institute of Geography and Spatial Organization PAS, Twarda 51/55, 00-818 Warsaw (Poland))
Cu accumulation in the earthworm Dendrobaena veneta in a heavy metal (Cu, Pb, Zn) contaminated site compared to Cu accumulation in laboratory experiments
1997
Marinussen, M.P.J.C. | Zee, S.E.A.T.M. van der | Haan, F.A.M. de (Wageningen Agricultural University, Department of Soil Science and Plant Nutrition, PO Box 8005, 6700 EC Wageningen (Netherlands))
Spatial and temporal distribution of metals in soils in Warsaw, Poland
1997
Pichtel, J. | Sawyerr, H.T. | Czarnowska, K. (Ball State University, Natural Resources and Environmental Management, Muncie, Indiana 47306-0495 (USA))
Behaviour of metals following intensive pig slurry applications to a natural field treatment process in Brittany (France)
1997
L'Herroux, L. | Roux, S. le | Appriou, P. | Martinez, J. (UBO, UMR CNRS 5521, Departement de Chimie, UFR Sciences, 6 Avenue Le Gorgeu, F-29285 Brest cedex (France))
The uptake of particulates by an urban woodland: site description and particulate composition
1997
Freer-Smith, P.H. | Holloway, S. | Goodman, A. (Forestry Commission Research Division, Alice Holt Lodge, Wrecclesham, Farnham, Surrey, GU10 4LH, UK)
Assessment of trace metal distribution and contamination in surface soils of Hong Kong
1997
Chen, T.B. | Wong, J.W.C. | Zhou, H.Y. | Wong, M.H. (Station for Agroecology and Environmental Technology, Institute of Geography, Chinese Academy of Sciences, 3 Datun Road, Beijing 100101 (China))
Patterns of soil copper contamination and temporal changes in vegetation in the vicinity of a copper rod rolling factory
1997
Lepp, N.W. | Hartley, J. | Toti, M. | Dickinson, N.M. (School of Biological and Earth Sciences, Liverpool John Moores University, Byrom Street, Liverpool, L3 3AF (United Kingdom))
Metal extractability and availability in a soil after heavy application of either nickel or lead in different forms
1997
NOGALES, R. | GALLARDO-LARA, F. | BENITEZ, E. | Soto, J. | HERVAS, D. | Polo, A.
A greenhouse experiment using soil was conducted to investigate the effects of the addition of different forms of either nickel or lead, together with an acidifying agent, on the distribution of Ni, Pb, Zn, Cu and Mn in wheat plants, and on the post-harvest extractability of these elements in the soil. Two treatments consisting of soil alone or soil mixed with sewage sludge at a rate of 200 Mg ha⁻¹ were used as controls. Nickel (400 mg kg⁻¹) or lead (1600 mg kg⁻¹) was added to the soil as an inorganic salt or mixed previously with sewage sludge. Six further treatments including an acidifying agent (wastewater from olive oil processing: alpechin) were also prepared. Wheat (Triticum aestivum L. var. Mesa) plants were harvested 75 d after germination. Dry matter yield of wheat was increased by the addition of sewage sludge. No reductions in yield were observed after the addition of nickel or lead. Nickel concentration and uptake by wheat, and extractability from soil, were higher when the sewage sludge enriched in nickel was added to soil. This effect was enhanced when the acidifying agent was also added. In contrast, lead availability was higher after the addition of inorganic Pb to soil. The addition of both forms of Ni enhanced Zn, Cu and Mn uptake by the plant, whereas the addition of lead increased Zn and Cu. After harvesting, increases in extractable Zn and Cu in the soil were observed only in treatments with sewage sludge, and not after the addition of Ni or Pb, or after the addition of the acidifying agent. Decreasing the pH of the soil with the acidifying agent tended to increase Mn uptake by wheat, and Mn extractability from the soil after harvesting.
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