Use of Biochar as an Amendment for Remediation of Heavy Metal-Contaminated Soils:Prospects and Challenges

Biochar(BC), known as the new black gold, is a stable, novel carbonaceous by-product that is synthesized through pyrolysis of biological materials in the absence of O_2.Recently, an emerging interest in the application of BC as a robust soil amendment has given rise to a broad research area in scien...

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Published inPedosphere Vol. 27; no. 6; pp. 991 - 1014
Main Authors LAHORI, Altaf Hussain, GUO, Zhanyu, ZHANG, Zengqiang, LI, Ronghua, MAHAR, Amanullah, AWASTHI, Mukesh Kumar, SHEN, Feng, SIAL, Tanveer Ali, KUMBHAR, Farhana, WANG, Ping, JIANG, Shuncheng
Format Journal Article
LanguageEnglish
Published Beijing Elsevier Ltd 01.12.2017
Elsevier Science Ltd
Department of Biotechnology, Amicable Knowledge Solution University, Satna 485001(India)%College of Agronomy, Northwest A&F University, Yangling 712100(China)
College of Natural Resources and Environment, Northwest A&F University, Yangling 712100(China)%Centre for Environmental Sciences, University of Sindh, Jamshoro 76080(Pakistan)%College of Natural Resources and Environment, Northwest A&F University, Yangling 712100(China)
Subjects
Additives
Antimony
arsenic
Bioavailability
biochar
Biological materials
Biotechnology
byproducts
Cadmium
Charcoal
Chromium
Copper
Ecological risk assessment
Environmental management
environmental pollution
Environmental protection
Environmental risk
environmental sustainability
feedstock
feedstocks
Gold
Heavy metals
Immobilization
Lead
Manganese
Nickel
oxygen
Plants (botany)
polluted soils
pollution
Pollution control
Porosity
Pyrolysis
pyrolysis temperature
Raw materials
Remediation
remediation efficacy
risk
Soil amendment
soil amendments
Soil contamination
Soil porosity
Soil remediation
temperature
zinc
immobilization
additives
remediation efficacy
pyrolysis temperature
environmental pollution
feedstock
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Summary:Biochar(BC), known as the new black gold, is a stable, novel carbonaceous by-product that is synthesized through pyrolysis of biological materials in the absence of O_2.Recently, an emerging interest in the application of BC as a robust soil amendment has given rise to a broad research area in science and technology.It is considered a promising remediation option for heavy metal(HM)-contaminated soils to reduce HM bioavailability to plants.Remediation efficacy of BC depends on the porosity, composition,pyrolysis temperature, feedstock, and residence time of pyrolysis.This review article aimed to present an overview of BC use in the immobilization of HMs, i.e., Cd, As, Pb, Zn, Ni, Cu, Mn, Cr, and Sb, in contaminated soils.The remaining uncertain factors, including the specific soil HM immobilization mechanisms, long-term beneficial effects, and potential environmental risks associated with BC application are analyzed.Future research must be conducted to ensure that the management of environmental pollution is in accord with ecological sustainability and adaptation of the black gold biotechnology on a commercial basis for immobilization of HMs in contaminated soils.
Bibliography:additives environmental pollution feedstock immobilization pyrolysis temperature remediation efficacy
Biochar(BC), known as the new black gold, is a stable, novel carbonaceous by-product that is synthesized through pyrolysis of biological materials in the absence of O_2.Recently, an emerging interest in the application of BC as a robust soil amendment has given rise to a broad research area in science and technology.It is considered a promising remediation option for heavy metal(HM)-contaminated soils to reduce HM bioavailability to plants.Remediation efficacy of BC depends on the porosity, composition,pyrolysis temperature, feedstock, and residence time of pyrolysis.This review article aimed to present an overview of BC use in the immobilization of HMs, i.e., Cd, As, Pb, Zn, Ni, Cu, Mn, Cr, and Sb, in contaminated soils.The remaining uncertain factors, including the specific soil HM immobilization mechanisms, long-term beneficial effects, and potential environmental risks associated with BC application are analyzed.Future research must be conducted to ensure that the management of environmental pollution is in accord with ecological sustainability and adaptation of the black gold biotechnology on a commercial basis for immobilization of HMs in contaminated soils.
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ISSN:1002-0160
2210-5107
DOI:10.1016/S1002-0160(17)60490-9