Phytoextraction efficiency of Pteris vittata grown on a naturally As-rich soil and characterization of As-resistant rhizosphere bacteria

This study evaluated the phytoextraction capacity of the fern Pteris vittata grown on a natural arsenic‑rich soil of volcanic‑origin from the Viterbo area in central Italy. This calcareous soil is characterized by an average arsenic concentration of 750 mg kg−1, of which 28% is bioavailable. By means of micro‑energy dispersive X‑ray fuorescence spectrometry (μ‑XRF) we detected As in P. vittata fronds after just 10 days of growth, while a high As concentrations in fronds (5,000 mg kg−1), determined by Inductively coupled plasma‑optical emission spectrometry (ICP‑OES), was reached after 5.5 months. Sixteen arsenate‑tolerant bacterial strains were isolated from the P. vittata rhizosphere, a majority of which belong to the Bacillus genus, and of this majority only two have been previously associated with As. Six bacterial isolates were highly As‑resistant (>100 mM) two of which, homologous to Paenarthrobacter ureafaciens and Beijerinckia fuminensis, produced a high amount of IAA and siderophores and have never been isolated from P. vittata roots. Furthermore, fve isolates contained the arsenate reductase gene (arsC). We conclude that P. vittata can efciently phytoextract As when grown on this natural As‑rich soil and a consortium of bacteria, largely diferent from that usually found in As‑polluted soils, has been found in P. vittata rhizosphere.