Your search keyword '"Gianniantonio Petruzzelli"' showing total 3 results

1. Heavy metal distribution between contaminated soil and Paulownia tomentosa, in a pilot-scale assisted phytoremediation study: Influence of different complexing agents

Author

Saer Doumett, Leonardo Checchini, L. Lamperi, Gianniantonio Petruzzelli, Elisa Azzarello, Sergio Mugnai, Stefano Mancuso, and M. Del Bubba

Subjects

Environmental Engineering, Health, Toxicology and Mutagenesis, Glutamic Acid, chemistry.chemical_element, 010501 environmental sciences, Tartrate, 01 natural sciences, Magnoliopsida, chemistry.chemical_compound, Bioremediation, Assisted phytoremediation, Soil pollution, Glutamate, Heavy metals, Paulownia tomentosa, Metals, Heavy, Soil Pollutants, Environmental Chemistry, Chelation, Leaching (agriculture), Tartrates, Ecosystem, Edetic Acid, 0105 earth and related environmental sciences, Cadmium, biology, Public Health, Environmental and Occupational Health, Environmental engineering, 04 agricultural and veterinary sciences, General Medicine, General Chemistry, 15. Life on land, biology.organism_classification, Pollution, Soil contamination, 6. Clean water, Zinc, Phytoremediation, Biodegradation, Environmental, chemistry, Environmental chemistry, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Copper

Abstract

The distribution of Cd, Cu, Pb and Zn between a contaminated soil and the tree species Paulownia tomentosa was investigated in a pilot-scale assisted phytoremediation study. The influence of the addition of EDTA, tartrate and glutamate at 1, 5 and 10mM concentrations on metal accumulation by the plant and on metal mobilization in soil was evaluated. Root/shoot metal concentration ratios were in the range of 3-5 for Zn, 7-17 for Cu, 9-18 for Cd and 11-39 for Pb, depending on the type and concentration of complexing agent. A significant enhancement of metal uptake in response to complexing agent application was mainly obtained in roots for Pb (i.e. 359 mg kg(-1) for EDTA 10mM and 128 mg kg(-1) for the control), Cu (i.e. 594 mg kg(-1) for glutamate 10mM and 146 mg kg(-1) for the control) and, with the exception of glutamate, also for Zn (i.e. 670 mg kg(-1) for tartrate 10mM and 237 mg kg(-1) for the control). Despite its higher metal mobilization capacity, EDTA produced a metal accumulation in plants quite similar to those obtained with tartrate and glutamate. Consequently the concentration gradient between soil pore water and plant tissues does not seem to be the predominant mechanism for metal accumulation in Paulownia tomentosa and a role of the plant should be invoked in the selection of the chemical species taken up. Metal bioavailability in soil at the end of the experiment was higher in the trials treated with EDTA than in those treated with tartrate and glutamate, the latter not being significantly different from the control. These findings indicated the persistence of a leaching risk associated to the use of this chelator, while an increase of the environmental impact is not expected when glutamate and tartrate are applied.

Published

2008

2. The effects of exogenous plant growth regulators in the phytoextraction of heavy metals

Author

Gianniantonio Petruzzelli, Meri Barbafieri, Eliana Tassi, and Joël Pouget

Subjects

Environmental Engineering, Chemistry, Health, Toxicology and Mutagenesis, fungi, Public Health, Environmental and Occupational Health, food and beverages, Biomass, General Medicine, General Chemistry, Plants, Pollution, Soil contamination, Phytoremediation, chemistry.chemical_compound, Bioremediation, Plant Growth Regulators, Agronomy, Metals, Heavy, Helianthus annuus, Shoot, Cytokinin, Soil Pollutants, Environmental Chemistry, Transpiration

Abstract

The term "assisted phytoextraction" usually refers to the process of applying a chemical additive to contaminated soil in order to increase the metal uptake by crop plants. In this study three commercially available plant growth regulators (PGRs) based on cytokinins (CKs) were used to boost the assisted phytoextraction of Pb and Zn in contaminated soil collected from a former manufactured gas-plant site. The effects of EDTA treatment in soil and PGR treatment in leaves of Helianthus annuus were investigated in terms of dry weight biomass, Pb and Zn accumulation in the upper parts of the plants, Pb and Zn phytoextraction efficiency and transpiration rate. Metal solubility in soil and its subsequent accumulation in shoots were markedly enhanced by EDTA. The combined effects of EDTA and cytokine resulted in an increase in the Pb and Zn phytoextraction efficiency (up to 890% and 330%, respectively, compared to untreated plants) and up to a 50% increase in foliar transpiration. Our results indicate that exogenous PGRs based on CKs can positively assist the phytoextraction increasing the biomass production, the metal accumulation in shoots and the plant transpiration. The observed increase in biomass could be related to its action in stimulation of cell division and shoot initiation. On the other hand, the increase in metal accumulation in upper parts of plant could be related to both the role of PGRs in the enhancement of plant resistance to stress (as toxic metals) and the increase in transpiration rate, i.e. flux of water-soluble soil components and contaminants by the regulation of stomatal opening.

Published

2008

3. Strategies to use phytoextraction in very acidic soil contaminated by heavy metals

Author

Gianniantonio Petruzzelli, Meri Barbafieri, Francesca Pedron, and Eliana Tassi

Subjects

Environmental Engineering, Health, Toxicology and Mutagenesis, engineering.material, complex mixtures, Bioremediation, Nickel, Soil pH, Metals, Heavy, Environmental Chemistry, Soil Pollutants, Poa, Compost, Chemistry, Public Health, Environmental and Occupational Health, food and beverages, Soil classification, General Medicine, General Chemistry, Pollution, Soil contamination, Phytoremediation, Zinc, Biodegradation, Environmental, Agronomy, Environmental chemistry, Soil water, engineering, Helianthus, Phytotoxicity, Copper, Mustard Plant

Abstract

In microcosm experiments, the use of inorganic and organic amendments has been studied as potential agents to reduce heavy metal bioavailability in an acidic soil highly contaminated by Cu, Zn and Ni, that has to be remediated by phytoremediation. The concentrations of heavy metals in the original soil (O-Soil) produced phytotoxic effects with a strong reduction in biomass yield that hinder the utilization of this technology. To overcome phytotoxicity the use of three immobilizing agents was evaluated. The results obtained showed that all the strategies decreased the mobile fractions of heavy metals in soil and increased the metal removal efficiency. In the case of Brassica juncea the best results for Zn and Ni were obtained after zeolites addition (Z-Soil) with an increase of about 6 times with respect to the value found in the O-Soil. In the case of Cu, the more efficient treatment was Ca(OH) 2 addition (Ca-Soil). The B. juncea plants accumulated Cu amounts 8 times greater than in the O-Soil. For this metal, relevant results were obtained also with compost, that increased the amount of Cu in the plants of 7 times with respect to the O-Soil. Similar results were obtained with Helianthus annuus the highest Zn and Ni accumulation was detected in the Z-Soil and compost-treated soils (C-Soil), with an increase of nearly 11 times with respect to the accumulation in the O-Soil. In the case of Cu the highest increase of total uptake was found in the C-Soil: 28 times higher than in the O-Soil. Total accumulation in Poa annua plants showed the highest removal efficiency in the Z-Soil for all metals. The values obtained increased of 4, 11 and 12 times for Cu, Zn and Ni, respectively.

Published

2008