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Research Article

Effect of Vermiculite Soil Amendment on Immobilization of Selected Heavy Metals of Rhizospheric Zone of Maize

, , , &
Pages 384-395 | Received 21 Sep 2020, Accepted 29 Nov 2021, Published online: 17 Dec 2021
 

ABSTRACT

The elevated level of metals in the soil increases the assimilation of these metals by plants causing a serious health risk to humans. A series of pot experiments were conducted to study Pb, Cu, and Zn uptake by Zea mays to investigate the role of vermiculite for metals immobilization in the soil root zone. The metals accumulation was decreased (13.17% to 29.21% in above-ground parts and 4.18% to 69.74% in roots) and total plant biomass increased (1.43% in control soil and 10.54% in polluted soil) in vermiculite amended soils. The effective immobilization of metals in vermiculite amended soil was revealed by decreased values of translocation factors for root-stalk and subsequently for stalk-leaves under varying metal concentrations. Vermiculite amendment to soil had no observable effect on the chemical structure while there were few changes in the functional group of the soil structure. The study reveals that vermiculite can be amended to the soil for reducing phytoavailability of toxic metals to plant uptake and in return flow processes for controlling food-chain contamination and groundwater pollution without compromising with crop production.

Acknowledgments

The authors SP and VS are thankful to the Head of Environmental Science, Dean, College of Basic Sciences and Humanities and Dean, Post Graduate Studies of GB Pant University of Agriculture and Technology for providing all necessary facilities leading to the execution of the study. The authors SP and VS are also thankful to UGC for the financial assistance (MRP-MAJOR-ENVI-2013-36432). The study forms part of the doctoral thesis work of SP.

Disclosure statement

No potential conflict of interest was reported by the author(s).

Additional information

Funding

This work was supported by the University Grants Commission project [MRP-MAJOR-ENVI-2013-36432].

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