Kjell B. Esser scite author profile

Background values for heavy metals are necessary for the assessment of metal pollution of soils and plants. Samples of cultivated and uncultivated soils, oat grain, and seed heads of orchard grass (Ddctytis glomerdta) were collected from central, southeastern, and southwestern Norway.Total and easily extractable concentrations of As, Cd, Cr, Cu, Hg, Ni, Pb, and Zn were determined in soil samples and total concentrations in plant samples. Element distributions have been correlated with petrology of soil parent material, type of mineral deposit, soil depth, geographic area, and land use. Concentrations of heavy metals are generally within the lower part of the normal global range. The petrology of the soil parent material has the greatest influence on aqua regia extracted metal concentrations among the factors studied. DTPA extracted metals show less dependence on rock types. Presence of alum shale results in particularly high values for Cd in both soil extracts and in oat grain. Soil cultivation seems to influence the relative concentration of metals in the topsoil. The ratios of easily extractable to total concentrations of metals are primarily related tO the organic matter content. Metal concentrations in oat grain can best be predicted by concentrations in DTPA extracts and soil pH among the factors studied. Seed heads of orchard grass are less affected by concentrations in the soil and appear therefore to be a poor indicator of heavy metals in soils.

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Efforts by Small-Scale Farmers to Maintain Soil Fertility and Their Impacts on Soil Properties, Luwero District, Uganda

Nyombi¹,

Esser²,

Zake³

2006

Journal of Sustainable Agriculture

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Trace Element Contamination of Soils in the Indiana Dunes

1991

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Potential soil contamination by aerosol fallout and rainout and subsequent surface accumulation of trace elements in four soils in the Indiana Dunes have been evaluated based on chemical analyses using XRF and NAA and data from the literature. Among the studied elements, Se, Sb, Zn, and As show highest concentrations in aerosols relative to the soils. The surface accumulation of trace elements in the soil is a function of the proximity to the pollution sources, vegetation, and the organic matter content of the surface horizon. In the studied soils, presence of humus is essential for the retention of trace elements added by aerosols. Enrichment in the Ah horizon compared to the B horizon is, in decreasing order, evident for Mn, Sb, Zn, As, Cs, Se, Cr, Fe, and Co. Contaminant Mn, Sb, As, Se, and possibly Zn have migrated into the E horizon. Bioaccumulation of trace elements has been insignificant in view of apparent input of the elements by deposition, possibly with the exception of Se.

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Kjell B. Esser

Cultural preferences in designing ecological sanitation systems in North West Frontier Province, Pakistan

Trace Element Distribution in Soils Formed in the Indiana Dunes, U.S.A

Reference concentrations for heavy metals in mineral soils, oat, and orchard grass (D�ctylis glomer�ta) from three agricultural regions in Norway

Efforts by Small-Scale Farmers to Maintain Soil Fertility and Their Impacts on Soil Properties, Luwero District, Uganda

Trace Element Contamination of Soils in the Indiana Dunes

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