A review of green remediation strategies for heavy metal contaminated soil

Heavy metals and metalloids can accumulate in soil, with potentially toxic effects to human health and ecosystems, threatening the sustainable use and management of soil resources. Although a number of remediation technologies, such as Solidification/Stabilization (S/S), soil washing, electrokinetic...

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Bibliographic Details
Published in:Soil use and management 2021-10, Vol.37 (4), p.936-963
Main Authors: Wang, Liuwei, Rinklebe, Jörg, Tack, Filip M. G., Hou, Deyi
Format: Article
Language:English
Subjects:
biochar
Bioremediation
Cations
Contaminants
Detoxification
Economic impact
Economics
Electrokinetics
Energy conservation
Green remediation
Heavy metals
Immobilization
metal
Metalloids
Metals
nature‐based solutions
Oxidation
Phytoremediation
Remediation
Resource recovery
Resources
Soil
Soil amendment
Soil contamination
Soil management
Soil pollution
Soil remediation
Soil stabilization
Soils
Solidification
Stabilization
Strategic management
Sustainability
Sustainable development
Sustainable remediation
Sustainable use
Synergistic effect
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Summary:Heavy metals and metalloids can accumulate in soil, with potentially toxic effects to human health and ecosystems, threatening the sustainable use and management of soil resources. Although a number of remediation technologies, such as Solidification/Stabilization (S/S), soil washing, electrokinetic remediation and chemical oxidation/reduction can be applied for the immobilization, removal or detoxification of heavy metals in soil, the environmental, social and economic impacts associated with these conventional approaches hinder their overall sustainability. More attempts have been made to maximize the ‘net environmental benefit’ in various ways, including recovering resources, embracing nature‐based solutions (NBS), and saving energy with the emergence and development of the ‘green and sustainable remediation’ (GSR) movement. This review critically discusses these green remediation strategies, and the novel soil amendments being utilized in these sustainable approaches. Iron‐based amendments are the most promising candidates in green remediation due to the highest stabilization performances for both oxyanions and metallic cations as well as relatively low disturbance to soil. In comparison, waste‐derived materials suffer from risks of contaminant release in the long run, reducing the overall sustainability despite their low costs. It has been found that phytoremediation and green amendment‐based S/S are typically the ‘greenest’ remediation strategies, but wise decisions should be made on the basis of case‐specific sustainability assessment results. Finally, it is proposed that integration of several green remediation techniques may have a synergistic effect on remediation efficiency.
ISSN:0266-0032
1475-2743
DOI:10.1111/sum.12717