Thomas von Kronhelm scite author profile

It has to be ensured that soft remediation methods like biodegradation or the natural remediation approach do not result in the mobilization of toxic compounds including more mobile degradation products. For PAH-contaminated sites this cannot be assured merely by monitoring the 16 target PAHs. The combined use of a battery of biotests for different types of PAH effects such as the CALUX and the Comet assay together with bioavailability extraction methods may be a useful screening tool of bioremediation processes of PAH-contaminated soil and contribute to a more accurate risk assessment. If the bioremediation causes a release of bound PAHs that are left undegraded in an easily extracted fraction, the soil may be more toxic to organisms living in the soil as a result of the treatment. A prolonged treatment time may be one way to reduce the risk of remaining mobile PAHs. In critical cases, the remediation concept might have to be changed to ex situ remediation methods.

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Laboratory and pilot scale soil washing of PAH and arsenic from a wood preservation site: Changes in concentration and toxicity

Elgh-Dalgren

Arwidsson

Camdzija

et al. 2009

Journal of Hazardous Materials

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Remediation of Metal Contaminated Soil by Organic Metabolites from Fungi I—Production of Organic Acids

Arwidsson

Johansson

Kronhelm³

et al. 2009

Water Air Soil Pollut

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Investigations were made on living strains of fungi in a bioremediation process of three metal (lead) contaminated soils. Three saprotrophic fungi (Aspergillus niger, Penicillium bilaiae, and a Penicillium sp.) were exposed to poor and rich nutrient conditions (no carbon availability or 0.11 M D-glucose, respectively) and metal stress (25 µM lead or contaminated soils) for 5 days. Exudation of low molecular weight organic acids was investigated as a response to the metal and nutrient conditions. Main organic acids identified were oxalic acid (A. niger) and citric acid (P. bilaiae).

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Remediation of heavy metal contaminated soil washing residues with amino polycarboxylic acids

Arwidsson

Elgh-Dalgren

Kronhelm³

et al. 2010

Journal of Hazardous Materials

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Re-cycling of remediated soil in Sweden: An environmental advantage?

Hees

Elgh-Dalgren

Engwall

et al. 2008

Resources, Conservation and Recycling

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