Influence of biochar on trace element uptake, toxicity and detoxification in plants and associated health risks: A critical review

Environmental contamination by toxic trace elements is a global issue faced by soil-plant-human systems. Biochar has gained substantial attention as a soil amendment to reduce toxic trace element impacts on plant and human health due to biochar's capacity to influence trace element biogeochemis...

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Published in:Critical reviews in environmental science and technology 2022-08, Vol.52 (16), p.2803-2843
Main Authors: Natasha, Natasha, Shahid, Muhammad, Khalid, Sana, Bibi, Irshad, Naeem, Muhammad Asif, Niazi, Nabeel Khan, Tack, Filip M. G., Ippolito, James Anthony, Rinklebe, Jörg
Format: Article
Language:English
Subjects:
Biochar
Biogeochemistry
Charcoal
Contamination
Copper
Data analysis
Detoxification
Food contamination
Health hazards
health risk
Health risks
Literature reviews
Oxidative stress
Physicochemical properties
Physiological effects
Soil amendment
Soil contamination
Soil properties
soil-plant transfer
Soils
Toxicity
trace element
Trace elements
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Summary:Environmental contamination by toxic trace elements is a global issue faced by soil-plant-human systems. Biochar has gained substantial attention as a soil amendment to reduce toxic trace element impacts on plant and human health due to biochar's capacity to influence trace element biogeochemistry. This review focuses on the key roles of biochar with respect to trace element interactions, mobility and phytoavailability in soil-plant systems. In addition to direct interactions, various biochar types can impact soil physicochemical properties and subsequently trace element biogeochemical behavior. A critical literature review revealed increasing and/or decreasing trends with respect to biochar-induced variation in soil physicochemical characteristics and soil-plant trace element transfer. Data analysis revealed that biochar-mediated an overall decrease in the phyto-uptake of As, Cd, Cu, Ni, Pb, and Zn by 48%, 40%, 38%, 44%, 28%, and 22%, respectively. This article also discusses the possible biochar-mediated alleviations of human health hazards (41% less cancer risk) due to consuming trace elements-contaminated foods. Likewise, for the first time, the effect of soil biochar application on plant physiological and morphological attributes, as well as activation of tolerance mechanisms (enzymatic and non-enzymatic) is critically discussed. Highlights Literature review revealed biochar applications increased soil trace element sorption and decreased phyto-uptake. Plant uptake of trace element depends on soil and biochar properties as well as trace element and plant type. Biochar-mediated trace element phytoavailability reductions cause lower toxicity in plant-human systems. Biochar alters plant detoxification and tolerance mechanisms directly or indirectly.
ISSN:1064-3389
1547-6537
DOI:10.1080/10643389.2021.1894064