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

Sarah Jones; R. Paul Bardos; Petra S. Kidd; Michel Mench; Frans de Leij; Tony Hutchings; Andrew Cundy; Chris Joyce; Gerhard Soja; Wolfgang Friesl-Hanl; Rolf Herzig; Pierre Menger

doi:10.1016/j.jenvman.2016.01.024

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

Sarah Jones
, R. Paul Bardos^*
, Petra S. Kidd
, Michel Mench
, Frans de Leij
, Tony Hutchings
, Andrew Cundy
, Chris Joyce
, Gerhard Soja
, Wolfgang Friesl-Hanl
, Rolf Herzig
, Pierre Menger

^*Corresponding author for this work

Circular Economy

University of Reading
Consejo Superior de Investigaciones Científicas (CSIC)
Université de Bordeaux
UMR BIOGECO INRA 1202
Forestry Commission England
University of Brighton
Austrian Institute of Technology
Phytotech Foundation and AGB

Research output: Contribution to journal › Article › peer-review

118 Citations (Scopus)

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.

Original language	English
Pages (from-to)	101-112
Number of pages	12
Journal	Journal of Environmental Management
Volume	171
DOIs	https://doi.org/10.1016/j.jenvman.2016.01.024
Publication status	Published - 15 Apr 2016

Keywords

In situ stabilisation
Leaching tests
Organic amendments
Plant trials
Sunflower
Trace elements

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10.1016/j.jenvman.2016.01.024

Cite this

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title = "Biochar and compost amendments enhance copper immobilisation and support plant growth in contaminated soils",

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.",

keywords = "In situ stabilisation, Leaching tests, Organic amendments, Plant trials, Sunflower, Trace elements",

author = "Sarah Jones and Bardos, \{R. Paul\} and Kidd, \{Petra S.\} and Michel Mench and \{de Leij\}, Frans and Tony Hutchings and Andrew Cundy and Chris Joyce and Gerhard Soja and Wolfgang Friesl-Hanl and Rolf Herzig and Pierre Menger",

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T1 - Biochar and compost amendments enhance copper immobilisation and support plant growth in contaminated soils

AU - Jones, Sarah

AU - Bardos, R. Paul

AU - Kidd, Petra S.

AU - Mench, Michel

AU - de Leij, Frans

AU - Hutchings, Tony

AU - Cundy, Andrew

AU - Joyce, Chris

AU - Soja, Gerhard

AU - Friesl-Hanl, Wolfgang

AU - Herzig, Rolf

AU - Menger, Pierre

PY - 2016/4/15

Y1 - 2016/4/15

N2 - 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.

AB - 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.

KW - In situ stabilisation

KW - Leaching tests

KW - Organic amendments

KW - Plant trials

KW - Sunflower

KW - Trace elements

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DO - 10.1016/j.jenvman.2016.01.024

M3 - Article

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AN - SCOPUS:84956621436

SN - 0301-4797

VL - 171

SP - 101

EP - 112

JO - Journal of Environmental Management

JF - Journal of Environmental Management

ER -

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

Abstract

Keywords

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