Leslie Berger scite author profile

Leslie Berger

2Publications

103Citation Statements Received

58Citation Statements Given

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ETH Zurich, Board of the Swiss Federal Institutes of Technology

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The plant availability of phosphorus from thermo-chemically treated sewage sludge ashes as studied by 33P labeling techniques

et al. 2014

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Phosphorus resources have to be managed sustainably and therefore the recycling of P from waste streams is essential. A thermo-chemical recycling process has been developed to produce a P fertilizer from sewage sludge ash (SSA) but its plant availability is unknown. Methods Two SSA products prepared with either CaCl 2 (SSACa) or MgCl 2 (SSAMg) as chemical reactant during the thermal treatment were mixed with three soils previously labeled with 33 P. Reference treatments with water-soluble P added at equal amounts of total P were included. The transfer of P from SSACa and SSAMg to Lolium multiflorum or P pools of sequentially extracted soil-fertilizer incubations were quantified. Results The shoot P uptake from SSAMg was higher than from SSACa. For SSAMg the relative effectiveness compared to a water-soluble P fertilizer was 88 % on an acidic and 71 % on a neutral soil but only 4 % on an alkaline soil. The proportion of P derived from the fertilizer in the plant and in the first two extraction pools of soil-fertilizer incubations were strongly correlated, suggesting that it is sufficient to conduct an incubation study to obtain robust information on plant P availability. Conclusions We conclude that under acidic to neutral conditions SSAMg presents an appropriate alternative to conventional P fertilizers and the dissolution of P from SSAMg seems to be governed by protons and cations in the soil solution.

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Linear viscoelasticity, simple and planar melt extension of linear polybutadienes with bimodal molar mass distributions

Berger

Meißner

1992

Rheol Acta

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Leslie Berger

The plant availability of phosphorus from thermo-chemically treated sewage sludge ashes as studied by 33P labeling techniques

Linear viscoelasticity, simple and planar melt extension of linear polybutadienes with bimodal molar mass distributions

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