期刊
METALLOMICS
卷 15, 期 8, 页码 -出版社
OXFORD UNIV PRESS
DOI: 10.1093/mtomcs/mfad047
关键词
arsenic; Pityrogramma calomelanos; Pteris vittata; rhizosphere-root; speciation
This study used synchrotron micro-X-ray fluorescence spectroscopy and X-ray absorption near-edge structure imaging to investigate the chemical transformations of arsenic in the rhizosphere-root interface of Pityrogramma calomelanos and Pteris vittata. The results showed that the dominant form of arsenic in the soils was As(V), but in P. calomelanos roots it was As(III), while it was As(V) in P. vittata roots. This research provides insights for phytotechnologies to remediate arsenic-polluted soils.
Pityrogramma calomelanos and Pteris vittata are cosmopolitan fern species that are the strongest known arsenic (As) hyperaccumulators, with potential to be used in the remediation of arsenic-contaminated mine tailings. However, it is currently unknown what chemical processes lead to uptake of As in the roots. This information is critical to identify As-contaminated soils that can be phytoremediated, or to improve the phytoremediation process. Therefore, this study identified the in situ distribution of As in the root interface leading to uptake in P. calomelanos and P. vittata, using a combination of synchrotron micro-X-ray fluorescence spectroscopy and X-ray absorption near-edge structure imaging to reveal chemical transformations of arsenic in the rhizosphere-root interface of these ferns. The dominant form of As in soils was As(V), even in As(III)-dosed soils, and the major form in P. calomelanos roots was As(III), while it was As(V) in P. vittata roots. Arsenic was cycled from roots growing in As-rich soil to roots growing in control soil. This study combined novel analytical approaches to elucidate the As cycling in the rhizosphere and roots enabling insights for further application in phytotechnologies to remediated As-polluted soils.
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