Abstract
Contaminated water with hexavalent chromium Cr(VI) is a serious environmental problem. This study aimed to evaluate the Cr(VI) removal by zero valent iron nanoparticles (nZVI) reduction process and the impact of Cr(VI), nZVI and combined treatment with nZVI and Cr(VI) on tomato growth performance. To evaluate the Cr(VI) toxic effect on germination capability, seeds were exposed to increasing Cr(VI) concentrations up to 1000 mg L−1. The inhibition of seed germination and the decrease of hypocotyl and root length started from Cr(VI) 5 mg L−1. Under treatment with Cr(VI) + nZVI 5 mg L−1, seed germination, hypocotyl and root length resulted significantly higher compared to Cr(VI) 5 mg L−1 treatment. The impact of only nZVI was investigated on chlorophyll and carotenoid in leaves; iron levels in leaves, roots, fruits and soil; carotenoid, fat-soluble vitamin and nicotianamine in mature fruits. A significant increase of leaf chlorophyll and carotenoids was observed after nZVI 5 mg L−1 treatment compared to controls. No significant variations were observed in carotenoids, fat-soluble vitamins and nicotianamine levels after treatment with nZVI 5 mg L−1 in mature fruits. For their ability to reduce Cr(VI) and to stimulate tomato growth, nZVI might to be considered as alternative for remediation purposes.
Highlights
Contaminated water with hexavalent chromium Cr(VI) is a serious environmental problem
A chemical profile of the metabolites produced in the mature fruits, both in terms of carotenoids, fat-soluble vitamins and nicotianamine (NA) content has been carried out to investigate the impact of nZVI on plant metabolism
When nanoparticles were added a similar initial trend was observed for all the investigated R, but at R = 0.5, due to the low amount of nZVI in solution, reaction stopped at a removal of about 50%
Summary
Contaminated water with hexavalent chromium Cr(VI) is a serious environmental problem. This study aimed to evaluate the Cr(VI) removal by zero valent iron nanoparticles (nZVI) reduction process and the impact of Cr(VI), nZVI and combined treatment with nZVI and Cr(VI) on tomato growth performance. No significant variations were observed in carotenoids, fat-soluble vitamins and nicotianamine levels after treatment with nZVI 5 mg L−1 in mature fruits For their ability to reduce Cr(VI) and to stimulate tomato growth, nZVI might to be considered as alternative for remediation purposes. The good results obtained by this process and the need to operate with excess when Cr(VI) is present as a contaminant, made necessary to carry out a study on the effects of the residual nanoparticles in the water This is linked with the aim of this work which represents an investigation of the effects of nanoparticles on plant growth. A chemical profile of the metabolites produced in the mature fruits, both in terms of carotenoids, fat-soluble vitamins and nicotianamine (NA) content has been carried out to investigate the impact of nZVI on plant metabolism
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