Synchrotron Radiation Spectroscopy and Transmission Electron Microscopy Techniques to Evaluate TiO(2) NPs Incorporation, Speciation, and Impact on Root Cells Ultrastructure of Pisum sativum L. Plants

Biosolids (Bs) for use in agriculture are an important way for introducing and transferring TiO(2) nanoparticles (NPs) to plants and food chain. Roots of Pisum sativum L. plants grown in Bs-amended soils spiked with TiO(2) 800 mg/kg as rutile NPs, anatase NPs, mixture of both NPs and submicron parti...

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Autores principales: Muccifora, Simonetta, Castillo-Michel, Hiram, Barbieri, Francesco, Bellani, Lorenza, Ruffini Castiglione, Monica, Spanò, Carmelina, Pradas del Real, Ana E., Giorgetti, Lucia, Tassi, Eliana L.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8066591/
https://www.ncbi.nlm.nih.gov/pubmed/33916614
http://dx.doi.org/10.3390/nano11040921
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author Muccifora, Simonetta
Castillo-Michel, Hiram
Barbieri, Francesco
Bellani, Lorenza
Ruffini Castiglione, Monica
Spanò, Carmelina
Pradas del Real, Ana E.
Giorgetti, Lucia
Tassi, Eliana L.
author_facet Muccifora, Simonetta
Castillo-Michel, Hiram
Barbieri, Francesco
Bellani, Lorenza
Ruffini Castiglione, Monica
Spanò, Carmelina
Pradas del Real, Ana E.
Giorgetti, Lucia
Tassi, Eliana L.
author_sort Muccifora, Simonetta
collection PubMed
description Biosolids (Bs) for use in agriculture are an important way for introducing and transferring TiO(2) nanoparticles (NPs) to plants and food chain. Roots of Pisum sativum L. plants grown in Bs-amended soils spiked with TiO(2) 800 mg/kg as rutile NPs, anatase NPs, mixture of both NPs and submicron particles (SMPs) were investigated by Transmission Electron Microscopy (TEM), synchrotron radiation based micro X-ray Fluorescence and micro X-ray Absorption Near-Edge Structure (µXRF/µXANES) and Inductively Coupled Plasma Optical Emission Spectrometry (ICP-OES). TEM analysis showed damages in cells ultrastructure of all treated samples, although a more evident effect was observed with single anatase or rutile NPs treatments. Micro-XRF and TEM evidenced the presence of nano and SMPs mainly in the cortex cells near the rhizodermis. Micro-XRF/micro-XANES analysis revealed anatase, rutile, and ilmenite as the main TiO(2) polymorphs in the original soil and Bs, and the preferential anatase uptake by the roots. For all treatments Ti concentration in the roots increased by 38–56%, however plants translocation factor (TF) increased mostly with NPs treatment (261–315%) and less with SMPs (about 85%), with respect to control. In addition, all samples showed a limited transfer of TiO(2) to the shoots (very low TF value). These findings evidenced a potential toxicity of TiO(2) NPs present in Bs and accumulating in soil, suggesting the necessity of appropriate regulations for the occurrence of NPs in Bs used in agriculture.
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spelling pubmed-80665912021-04-25 Synchrotron Radiation Spectroscopy and Transmission Electron Microscopy Techniques to Evaluate TiO(2) NPs Incorporation, Speciation, and Impact on Root Cells Ultrastructure of Pisum sativum L. Plants Muccifora, Simonetta Castillo-Michel, Hiram Barbieri, Francesco Bellani, Lorenza Ruffini Castiglione, Monica Spanò, Carmelina Pradas del Real, Ana E. Giorgetti, Lucia Tassi, Eliana L. Nanomaterials (Basel) Article Biosolids (Bs) for use in agriculture are an important way for introducing and transferring TiO(2) nanoparticles (NPs) to plants and food chain. Roots of Pisum sativum L. plants grown in Bs-amended soils spiked with TiO(2) 800 mg/kg as rutile NPs, anatase NPs, mixture of both NPs and submicron particles (SMPs) were investigated by Transmission Electron Microscopy (TEM), synchrotron radiation based micro X-ray Fluorescence and micro X-ray Absorption Near-Edge Structure (µXRF/µXANES) and Inductively Coupled Plasma Optical Emission Spectrometry (ICP-OES). TEM analysis showed damages in cells ultrastructure of all treated samples, although a more evident effect was observed with single anatase or rutile NPs treatments. Micro-XRF and TEM evidenced the presence of nano and SMPs mainly in the cortex cells near the rhizodermis. Micro-XRF/micro-XANES analysis revealed anatase, rutile, and ilmenite as the main TiO(2) polymorphs in the original soil and Bs, and the preferential anatase uptake by the roots. For all treatments Ti concentration in the roots increased by 38–56%, however plants translocation factor (TF) increased mostly with NPs treatment (261–315%) and less with SMPs (about 85%), with respect to control. In addition, all samples showed a limited transfer of TiO(2) to the shoots (very low TF value). These findings evidenced a potential toxicity of TiO(2) NPs present in Bs and accumulating in soil, suggesting the necessity of appropriate regulations for the occurrence of NPs in Bs used in agriculture. MDPI 2021-04-04 /pmc/articles/PMC8066591/ /pubmed/33916614 http://dx.doi.org/10.3390/nano11040921 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Muccifora, Simonetta
Castillo-Michel, Hiram
Barbieri, Francesco
Bellani, Lorenza
Ruffini Castiglione, Monica
Spanò, Carmelina
Pradas del Real, Ana E.
Giorgetti, Lucia
Tassi, Eliana L.
Synchrotron Radiation Spectroscopy and Transmission Electron Microscopy Techniques to Evaluate TiO(2) NPs Incorporation, Speciation, and Impact on Root Cells Ultrastructure of Pisum sativum L. Plants
title Synchrotron Radiation Spectroscopy and Transmission Electron Microscopy Techniques to Evaluate TiO(2) NPs Incorporation, Speciation, and Impact on Root Cells Ultrastructure of Pisum sativum L. Plants
title_full Synchrotron Radiation Spectroscopy and Transmission Electron Microscopy Techniques to Evaluate TiO(2) NPs Incorporation, Speciation, and Impact on Root Cells Ultrastructure of Pisum sativum L. Plants
title_fullStr Synchrotron Radiation Spectroscopy and Transmission Electron Microscopy Techniques to Evaluate TiO(2) NPs Incorporation, Speciation, and Impact on Root Cells Ultrastructure of Pisum sativum L. Plants
title_full_unstemmed Synchrotron Radiation Spectroscopy and Transmission Electron Microscopy Techniques to Evaluate TiO(2) NPs Incorporation, Speciation, and Impact on Root Cells Ultrastructure of Pisum sativum L. Plants
title_short Synchrotron Radiation Spectroscopy and Transmission Electron Microscopy Techniques to Evaluate TiO(2) NPs Incorporation, Speciation, and Impact on Root Cells Ultrastructure of Pisum sativum L. Plants
title_sort synchrotron radiation spectroscopy and transmission electron microscopy techniques to evaluate tio(2) nps incorporation, speciation, and impact on root cells ultrastructure of pisum sativum l. plants
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8066591/
https://www.ncbi.nlm.nih.gov/pubmed/33916614
http://dx.doi.org/10.3390/nano11040921
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