The phytoremediation of this soil was made possible only after a landfarming pre-treatment stimulating and supporting the microbial activity. The phytoremediation was further supported by the addition of a microbial consortium made up of indigenous bacteria showing in vitro PGP features. These pre-treatments enabled plants to efficiently uptake the co-contaminant metals (nickel and copper). These outcomes are particularly interesting since they confirm the potential of a fully biological process to simultaneously remove organic and inorganic contaminants. FTICR-MS technique was crucial in understanding the complexity of the contamination by providing valuable insights regarding which molecules were mostly degraded and which did not show biodegradation.
PHYTOREMEDIATION OF A MULTICONTAMINATED SOIL SUPPORTED BY INDIGENOUS HYDROCARBON-DEGRADER BACTERIA: MONITORING THE BIODEGRADATION ACTIVITY BY FTICR-MASS SPECTROMETRY
Pedron Francesca;Rosellini Irene;Barbafieri Meri;Petruzzelli Gianniantonio;
2016
Abstract
The phytoremediation of this soil was made possible only after a landfarming pre-treatment stimulating and supporting the microbial activity. The phytoremediation was further supported by the addition of a microbial consortium made up of indigenous bacteria showing in vitro PGP features. These pre-treatments enabled plants to efficiently uptake the co-contaminant metals (nickel and copper). These outcomes are particularly interesting since they confirm the potential of a fully biological process to simultaneously remove organic and inorganic contaminants. FTICR-MS technique was crucial in understanding the complexity of the contamination by providing valuable insights regarding which molecules were mostly degraded and which did not show biodegradation.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
