Chromium in plant-soil nexus: Speciation, uptake, transport and sustainable remediation techniques

Heavy metal (HM) pollution has become a serious global problem due to the non-biodegradable nature of the HMs and their persistence in the environment. Agricultural soil is a non-renewable resource that requires careful management so that it can fulfill the increasing demand for agricultural food pr...

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Bibliographic Details
Published in:Environmental pollution (1987) 2022-12, Vol.315, p.120350-120350, Article 120350
Main Authors: Wani, Kaiser Iqbal, Naeem, M., Aftab, Tariq
Format: Article
Language:English
Subjects:
agricultural soils
Bioavailability
Biogeochemical transformation
chemical speciation
chromium
Chromium toxicity
food production
food security
heavy metals
nonrenewable resources
organic matter
phosphates
physiology
plant health
pollution
redox potential
remediation
soil pH
sulfates
Sustainable remediation
toxicity
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Summary:Heavy metal (HM) pollution has become a serious global problem due to the non-biodegradable nature of the HMs and their persistence in the environment. Agricultural soil is a non-renewable resource that requires careful management so that it can fulfill the increasing demand for agricultural food production. However, different anthropogenic activities have resulted in a large-scale accumulation of HMs in soil which is detrimental to soil and plant health. Due to their ubiquity, increased bioavailability, toxicity, and non-biodegradable nature, HM contamination has formed a roadblock in the way of achieving food security, safety, and sustainability in the future. Chromium (Cr), specifically Cr(VI) is a highly bioavailable HM with no proven role in the physiology of plants. Chromium has been found to be highly toxic to plants, with its toxicity also influenced by chemical speciation, which is in turn controlled by different factors, such as soil pH, redox potential, organic matter, and microbial population. In this review, the different factors that influence Cr speciation were analyzed and the relationship between biogeochemical transformations of Cr and its bioavailability which may be beneficial for devising different Cr remediation strategies has been discussed. Also, the uptake and transport mechanism of Cr in plants, with particular reference to sulfate and phosphate transporters has been presented. The biological solutions for the remediation of Cr contaminated sites which offer safe and viable alternatives to old-style physical and chemical remediation strategies have been discussed in detail. This review provides theoretical guidance in developing suitable approaches for the better management of these remediation strategies. [Display omitted] •Cr is a highly bioavailable heavy metal with no proven role in physiology of plants.•Toxicity of Cr is also influenced by chemical speciation.•Uptake and transport mechanism of Cr in plants, with reference to transporters is reviewed.•Sustainable remediation of Cr offers safe and viable alternatives to old-style strategies.
ISSN:0269-7491
1873-6424
DOI:10.1016/j.envpol.2022.120350