Biochar and compost amendments enhance copper immobilisation and support plant growth in contaminated soils

Contamination of soil with trace elements, such as Cu, is an important risk management issue. A pot experiment was conducted to determine the effects of three biochars and compost on plant growth and the immobilisation of Cu in a contaminated soil from a site formerly used for wood preservation. To...

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Published in	Journal of environmental management Vol. 171; pp. 101 - 112
Main Authors	Jones, Sarah, Bardos, R. Paul, Kidd, Petra S., Mench, Michel, de Leij, Frans, Hutchings, Tony, Cundy, Andrew, Joyce, Chris, Soja, Gerhard, Friesl-Hanl, Wolfgang, Herzig, Rolf, Menger, Pierre
Format	Journal Article
Language	English
Published	England Elsevier Ltd 15.04.2016 Academic Press Ltd Elsevier
Subjects	Biomass Biomass energy Charcoal - chemistry Composting Contamination Copper Copper - analysis Environment management Helianthus Helianthus - growth & development In situ stabilisation Leaching Leaching tests Life Sciences Organic amendments Plant growth Plant trials Plants (organisms) Soil - chemistry Soil contamination Soil Pollutants - analysis Soils Sunflower Trace elements Trace Elements - analysis Wood - chemistry Trace elements In situ stabilisation Organic amendments Leaching tests Sunflower Plant trials in situ stabilisation plant trials trace elements leaching tests sunflower organic amendments
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Abstract	Contamination of soil with trace elements, such as Cu, is an important risk management issue. A pot experiment was conducted to determine the effects of three biochars and compost on plant growth and the immobilisation of Cu in a contaminated soil from a site formerly used for wood preservation. To assess Cu mobility, amended soils were analysed using leaching tests pre- and post-incubation, and post-growth. Amended and unamended soils were planted with sunflower, and the resulting plant material was assessed for yield and Cu concentration. All amendments significantly reduced leachable Cu compared to the unamended soil, however, the greatest reductions in leachable Cu were associated with the higher biochar application rate. The greatest improvements in plant yields were obtained with the higher application rate of biochar in combination with compost. The results suggest joint biochar and compost amendment reduces Cu mobility and can support biomass production on Cu-contaminated soils. •Cu-contaminated soil was amended with three biochars singly and with compost.•Leaching tests and plant trials determined Cu mobility and plant growth.•All amendments reduced Cu mobility and facilitated plant growth.•Biochar and compost amendments could facilitate plant growth on Cu-contaminated soil.
AbstractList	Contamination of soil with trace elements, such as Cu, is an important risk management issue. A pot experiment was conducted to determine the effects of three biochars and compost on plant growth and the immobilisation of Cu in a contaminated soil from a site formerly used for wood preservation. To assess Cu mobility, amended soils were analysed using leaching tests pre- and post-incubation, and post-growth. Amended and unamended soils were planted with sunflower, and the resulting plant material was assessed for yield and Cu concentration. All amendments significantly reduced leachable Cu compared to the unamended soil, however, the greatest reductions in leachable Cu were associated with the higher biochar application rate. The greatest improvements in plant yields were obtained with the higher application rate of biochar in combination with compost. The results suggest joint biochar and compost amendment reduces Cu mobility and can support biomass production on Cu-contaminated soils. Contamination of soil with trace elements, such as Cu, is an important risk management issue. A pot experiment was conducted to determine the effects of three biochars and compost on plant growth and the immobilisation of Cu in a contaminated soil from a site formerly used for wood preservation. To assess Cu mobility, amended soils were analysed using leaching tests pre- and post-incubation, and post-growth. Amended and unamended soils were planted with sunflower, and the resulting plant material was assessed for yield and Cu concentration. All amendments significantly reduced leachable Cu compared to the unamended soil, however, the greatest reductions in leachable Cu were associated with the higher biochar application rate. The greatest improvements in plant yields were obtained with the higher application rate of biochar in combination with compost. The results suggest joint biochar and compost amendment reduces Cu mobility and can support biomass production on Cu-contaminated soils. [web URL: http://www.sciencedirect.com/science/article/pii/S0301479716300226] Contamination of soil with trace elements, such as Cu, is an important risk management issue. A pot experiment was conducted to determine the effects of three biochars and compost on plant growth and the immobilisation of Cu in a contaminated soil from a site formerly used for wood preservation. To assess Cu mobility, amended soils were analysed using leaching tests pre- and post-incubation, and post-growth. Amended and unamended soils were planted with sunflower, and the resulting plant material was assessed for yield and Cu concentration. All amendments significantly reduced leachable Cu compared to the unamended soil, however, the greatest reductions in leachable Cu were associated with the higher biochar application rate. The greatest improvements in plant yields were obtained with the higher application rate of biochar in combination with compost. The results suggest joint biochar and compost amendment reduces Cu mobility and can support biomass production on Cu-contaminated soils. •Cu-contaminated soil was amended with three biochars singly and with compost.•Leaching tests and plant trials determined Cu mobility and plant growth.•All amendments reduced Cu mobility and facilitated plant growth.•Biochar and compost amendments could facilitate plant growth on Cu-contaminated soil.
Author	Herzig, Rolf Menger, Pierre Soja, Gerhard Jones, Sarah Kidd, Petra S. Joyce, Chris Mench, Michel Friesl-Hanl, Wolfgang Bardos, R. Paul Hutchings, Tony Cundy, Andrew de Leij, Frans
Author_xml	– sequence: 1 givenname: Sarah surname: Jones fullname: Jones, Sarah email: sarah@r3environmental.co.uk organization: r3 Environmental Technology UK Ltd, H9 TOB1, University of Reading Whiteknights Campus, Reading, UK – sequence: 2 givenname: R. Paul orcidid: 0000-0001-5698-4561 surname: Bardos fullname: Bardos, R. Paul email: paul@r3environmental.co.uk organization: r3 Environmental Technology UK Ltd, H9 TOB1, University of Reading Whiteknights Campus, Reading, UK – sequence: 3 givenname: Petra S. orcidid: 0000-0002-1721-7367 surname: Kidd fullname: Kidd, Petra S. email: pkidd@iiag.csic.es organization: Instituto de Investigaciones Agrobiológicas de Galicia (IIAG), Consejo Superior de Investigaciones Científicas (CSIC), Santiago de Compostela, 15706, Spain – sequence: 4 givenname: Michel surname: Mench fullname: Mench, Michel email: mench@bordeaux.inra.fr organization: UMR BIOGECO INRA 1202, Ecologie des Communautés, Université de Bordeaux, Bât. B2, allée Geoffroy St-Hilaire, CS50023, F-33615, Pessac cedex, France – sequence: 5 givenname: Frans surname: de Leij fullname: de Leij, Frans email: frans@ccuresolutions.com organization: C-Cure Solutions Ltd, Forest Research, Wrecclesham, Farnham, Surrey, UK – sequence: 6 givenname: Tony surname: Hutchings fullname: Hutchings, Tony email: tony@ccuresolutions.com organization: C-Cure Solutions Ltd, Forest Research, Wrecclesham, Farnham, Surrey, UK – sequence: 7 givenname: Andrew surname: Cundy fullname: Cundy, Andrew email: A.cundy@brighton.ac.uk organization: Environment and Technology, University of Brighton, Lewes Road, Brighton, BN2 4GJ, UK – sequence: 8 givenname: Chris surname: Joyce fullname: Joyce, Chris organization: Environment and Technology, University of Brighton, Lewes Road, Brighton, BN2 4GJ, UK – sequence: 9 givenname: Gerhard surname: Soja fullname: Soja, Gerhard email: Gerhard.soja@ait.ac.at organization: AIT Austrian Institute of Technology GmbH, Konrad Lorenz-Str. 24, 3430, Tulln, Austria – sequence: 10 givenname: Wolfgang surname: Friesl-Hanl fullname: Friesl-Hanl, Wolfgang email: Wolfgang.friesl@ait.ac.at organization: AIT Austrian Institute of Technology GmbH, Konrad Lorenz-Str. 24, 3430, Tulln, Austria – sequence: 11 givenname: Rolf surname: Herzig fullname: Herzig, Rolf email: rolf.herzig.agb@bleuwin.ch organization: Phytotech Foundation & AGB, Quartiergasse 12, CH3013, Berne, Switzerland – sequence: 12 givenname: Pierre surname: Menger fullname: Menger, Pierre email: pierre.menger@tecnalia.com organization: Tecnalia Research & Innovation, Parque Tecnológico de Bizkaia, E-48160, Derio - Bizkaia, Spain
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Keywords	Trace elements In situ stabilisation Organic amendments Leaching tests Sunflower Plant trials in situ stabilisation plant trials trace elements leaching tests sunflower organic amendments
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Snippet	Contamination of soil with trace elements, such as Cu, is an important risk management issue. A pot experiment was conducted to determine the effects of three...
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SubjectTerms	Biomass Biomass energy Charcoal - chemistry Composting Contamination Copper Copper - analysis Environment management Helianthus Helianthus - growth & development In situ stabilisation Leaching Leaching tests Life Sciences Organic amendments Plant growth Plant trials Plants (organisms) Soil - chemistry Soil contamination Soil Pollutants - analysis Soils Sunflower Trace elements Trace Elements - analysis Wood - chemistry
Title	Biochar and compost amendments enhance copper immobilisation and support plant growth in contaminated soils
URI	https://dx.doi.org/10.1016/j.jenvman.2016.01.024 https://www.ncbi.nlm.nih.gov/pubmed/26850677 https://www.proquest.com/docview/1773541493 https://search.proquest.com/docview/1771725775 https://search.proquest.com/docview/1785244866 https://search.proquest.com/docview/1790948317 https://hal.inrae.fr/hal-02637500
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