P. Leidmann scite author profile

P. Leidmann

4Publications

28Citation Statements Received

24Citation Statements Given

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Affiliations

Technical University of Munich, Institute of Bioinformatics and Systems Biology

Publications

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Utilization of Biomass Residues for the Remediation of Metal-Polluted Soils

Fischer

Bipp

Riemschneider

et al. 1998

Environ. Sci. Technol.

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The utilization of biomass residues as sources for natural chelates is a new approach to improve the ecological and economical balance of leaching techniques for the remediation of metal-polluted soils. Residues, such as molasses, blood meal, and silage effluents, containing various aliphatic carboxylic acids, sugar acids, and amino acids or their precursor compounds were selected, hydrolyzed and oxidized, if required, and analyzed for their organic constituents. Soils that were contaminated with metals via sewage sludge amendment were extracted in batch and column experiments at various pH values. Grass silage effluent removed ∼75% of Cd and >50% of Cu and Zn at pH 4.4. The neutralized effluent was less effective except for Cu (69% leached). The neutral blood meal hydrolysate extracted primarily Cu (55−66%) and Ni (38−67%). Metal bonds attacked by this extractant were identified using a sequential leaching procedure. Hydrolysates containing sugar acids mobilized Cu and Pb under alkaline conditions. The actual results support the conclusion that biomass residues have a potential to serve as extractants in remediation techniques.

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Determination of short chain aliphatic acids in silage effluents by ion exclusion chromatography

et al. 1994

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Chemical Characterization of Silage Effluents and their Influence on Soil Bound Heavy Metals

Leidmann¹,

Fischer²,

Bieniek³

et al. 1995

International Journal of Environmental Analytical Chemistry

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Removal of heavy metals from polluted soil with grass silage juice

et al. 1994

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P. Leidmann

Utilization of Biomass Residues for the Remediation of Metal-Polluted Soils

Determination of short chain aliphatic acids in silage effluents by ion exclusion chromatography

Chemical Characterization of Silage Effluents and their Influence on Soil Bound Heavy Metals

Removal of heavy metals from polluted soil with grass silage juice

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