René Phieler scite author profile

René Phieler

3Publications

41Citation Statements Received

0Citation Statements Given

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Friedrich Schiller University Jena

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Microbially Supported Phytoremediation of Heavy Metal Contaminated Soils: Strategies and Applications

Phieler

Voit

Kothe

2013

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Heavy metal contamination of soil as a result of, for example, mining operations, evokes worldwide concern. The use of selected metal-accumulating plants to clean up heavy metal contaminated sites represents a sustainable and inexpensive method for remediation approaches and, at the same time, avoids destruction of soil function. Within this scenario, phytoremediation is the use of plants (directly or indirectly) to reduce the risks of contaminants in soil to the environment and human health. Microbially assisted bioremediation strategies, such as phytoextraction or phytostabilization, may increase the beneficial aspects and can be viewed as potentially useful methods for application in remediation of low and heterogeneously contaminated soil. The plant-microbe interactions in phytoremediation strategies include mutually beneficial symbiotic associations such as mycorrhiza, plant growth promoting bacteria (PGPB), or endophytic bacteria that are discussed with respect to their impact on phytoremediation approaches.

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Phytoremediation using microbially mediated metal accumulation in Sorghum bicolor

Phieler

Merten

Roth

et al. 2015

Environ Sci Pollut Res

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Reclaiming land that has been anthropogenically contaminated with multiple heavy metal elements, e.g., during mining operations, is a growing challenge worldwide. The use of phytoremediation has been discussed with varying success. Here, we show that a careful examination of options of microbial determination of plant performance is a key element in providing a multielement remediation option for such landscapes. We used both (a) mycorrhiza with Rhizophagus irregularis and (b) bacterial amendments with Streptomyces acidiscabies E13 and Streptomyces tendae F4 to mediate plant-promoting and metal-accumulating properties to Sorghum bicolor. In pot experiments, the effects on plant growth and metal uptake were scored, and in a field trial at a former uranium leaching heap site near Ronneburg, Germany, we could show the efficacy under field conditions. Different metals could be extracted at the same time, with varying microbial inoculation and soil amendment scenarios possible when a certain metal is the focus of interest. Especially, manganese was extracted at very high levels which might be useful even for phytomining approaches.

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Changes in element availability induced by sterilization in heavy metal contaminated substrates: A comprehensive study

Krauße

Schütze

Phieler

et al. 2019

Journal of Hazardous Materials

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René Phieler

Microbially Supported Phytoremediation of Heavy Metal Contaminated Soils: Strategies and Applications

Phytoremediation using microbially mediated metal accumulation in Sorghum bicolor

Changes in element availability induced by sterilization in heavy metal contaminated substrates: A comprehensive study

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