The hyper-accumulation of chromium in its hexavalent form is treated as a hazardous soil pollutant at industrial and mining sites. Excessive accumulation of Cr6+ in soil threatens the environmental health and safety of living organisms. Out of two stable forms of chromium, Cr6+ is highly responsible for ecotoxicity. The expression of the high toxicity of Cr6+ at low concentrations in the soil environment indicates its lethality. It is usually released into the soil during various socio-economic activities. Sustainable remediation of Cr6+ contaminated soil is of utmost need and can be carried out by employing suitable plant hyperaccumulators. Alongside the plant's ability to sequester toxic metals like Cr6+, the rhizospheric soil parameters play a significant role in this technique and are mostly overlooked. Here we review the application of a cost-effective and eco-friendly remediation technology at hyperaccumulators rhizosphere to minimize the Cr6+ led soil toxicity. The use of selected plant species along with effective rhizospheric activities has been suggested as a technique to reduce Cr6+ toxicity on soil and its associated biota. This soil rectification approach may prove to be sustainable and advantageous over other possible techniques. Further, it may open up new solutions for soil Cr6+ management at polluted sites.
Keywords: Environment; Hexavalent chromium; Hyperaccumulators; Rhizosphere; Toxicity.
Phytoremediation is an eco-friendly technology that has been widely used for the treatment of Cr6+ contaminated soils. Most of the phytoremedial studies either focus on the ability of plant hyperaccumulators alone or in association with rhizospheric microbes for the successful remediation of Cr6+. The current study lays emphasis on different soil parameters and interactions (both biotic and abiotic) at the plant rhizosphere that is much essential for providing a sustainable remedial solution for Cr6+ contaminated soils.