Quantitative evaluation of multi-walled carbon nanotube uptake in wheat and rapeseed

► Wheat and rapeseed accumulate MWCNT through root exposure, and translocate them to their leaves. ► Transfer factor of MWCNT from hydroponic solution to leaves never exceeds 0.005‰. ► MWCNT majorly accumulate in the most peripheral areas and in newly developed leaves. ► Accumulation of less than 20...

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Bibliographic Details
Published inJournal of hazardous materials Vol. 227-228; pp. 155 - 163
Main Authors Larue, Camille, Pinault, Mathieu, Czarny, Bertrand, Georgin, Dominique, Jaillard, Danielle, Bendiab, Nedjma, Mayne-L’Hermite, Martine, Taran, Frédéric, Dive, Vincent, Carrière, Marie
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 15.08.2012
Elsevier
Subjects
Accumulation
Brassica rapa - drug effects
Brassica rapa - growth & development
Brassica rapa - metabolism
Carbon nanotube
Chemical Sciences
Crops
Environmental Pollutants - metabolism
Hydroponics
Leaves
Nanotubes, Carbon - analysis
Nanotubes, Carbon - toxicity
or physical chemistry
Physiology
Plant
Plant Leaves - drug effects
Plant Leaves - growth & development
Plant Leaves - metabolism
Plant Roots - drug effects
Plant Roots - growth & development
Plant Roots - metabolism
Plants (organisms)
Quantification
Rapeseed
Roots
Theoretical and
Translocation
Triticum - drug effects
Triticum - growth & development
Triticum - metabolism
Triticum aestivum
Uptakes
Wheat
Translocation
NP
Quantification
CNT
TBARS
NOM
Accumulation
Carbon nanotube
Plant
HA
MWCNT
SEM
GA
TEM
SWCNT
Online AccessGet full text

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Abstract ► Wheat and rapeseed accumulate MWCNT through root exposure, and translocate them to their leaves. ► Transfer factor of MWCNT from hydroponic solution to leaves never exceeds 0.005‰. ► MWCNT majorly accumulate in the most peripheral areas and in newly developed leaves. ► Accumulation of less than 200ng MWCNT per g of leaf does not impact plant development and physiology. Environmental contamination with carbon nanotubes would lead to plant exposure and particularly exposure of agricultural crops. The only quantitative exposure data available to date which can be used for risk assessment comes from computer modeling. The aim of this study was to provide quantitative data relative to multi-walled carbon nanotube (MWCNT) uptake and distribution in agricultural crops, and to correlate accumulation data with impact on plant development and physiology. Roots of wheat and rapeseed were exposed in hydroponics to uniformly 14C-radiolabeled MWCNTs. Radioimaging, transmission electron microscopy and raman spectroscopy were used to identify CNT distribution. Radioactivity counting made it possible absolute quantification of CNT accumulation in plant leaves. Impact of CNTs on seed germination, root elongation, plant biomass, evapotranspiration, chlorophyll, thiobarbituric acid reactive species and H2O2 contents was evaluated. We demonstrate that less than 0.005‰ of the applied MWCNT dose is taken up by plant roots and translocated to the leaves. This accumulation does not impact plant development and physiology. In addition, it does not induce any modifications in photosynthetic activity nor cause oxidative stress in plant leaves. Our results suggest that if environmental contamination occurs and MWCNTs are in the same physico-chemical state than the ones used in the present article, MWCNT transfer to the food chain via food crops would be very low.
AbstractList Environmental contamination with carbon nanotubes would lead to plant exposure and particularly exposure of agricultural crops. The only quantitative exposure data available to date which can be used for risk assessment comes from computer modeling. The aim of this study was to provide quantitative data relative to multi-walled carbon nanotube (MWCNT) uptake and distribution in agricultural crops, and to correlate accumulation data with impact on plant development and physiology. Roots of wheat and rapeseed were exposed in hydroponics to uniformly 14C-radiolabeled MWCNTs. Radioimaging, transmission electron microscopy and raman spectroscopy were used to identify CNT distribution. Radioactivity counting made it possible absolute quantification of CNT accumulation in plant leaves. Impact of CNTs on seed germination, root elongation, plant biomass, evapotranspiration, chlorophyll, thiobarbituric acid reactive species and H2O2 contents was evaluated. We demonstrate that less than 0.005ppt of the applied MWCNT dose is taken up by plant roots and translocated to the leaves. This accumulation does not impact plant development and physiology. In addition, it does not induce any modifications in photosynthetic activity nor cause oxidative stress in plant leaves. Our results suggest that if environmental contamination occurs and MWCNTs are in the same physico-chemical state than the ones used in the present article, MWCNT transfer to the food chain via food crops would be very low.
► Wheat and rapeseed accumulate MWCNT through root exposure, and translocate them to their leaves. ► Transfer factor of MWCNT from hydroponic solution to leaves never exceeds 0.005‰. ► MWCNT majorly accumulate in the most peripheral areas and in newly developed leaves. ► Accumulation of less than 200ng MWCNT per g of leaf does not impact plant development and physiology. Environmental contamination with carbon nanotubes would lead to plant exposure and particularly exposure of agricultural crops. The only quantitative exposure data available to date which can be used for risk assessment comes from computer modeling. The aim of this study was to provide quantitative data relative to multi-walled carbon nanotube (MWCNT) uptake and distribution in agricultural crops, and to correlate accumulation data with impact on plant development and physiology. Roots of wheat and rapeseed were exposed in hydroponics to uniformly 14C-radiolabeled MWCNTs. Radioimaging, transmission electron microscopy and raman spectroscopy were used to identify CNT distribution. Radioactivity counting made it possible absolute quantification of CNT accumulation in plant leaves. Impact of CNTs on seed germination, root elongation, plant biomass, evapotranspiration, chlorophyll, thiobarbituric acid reactive species and H2O2 contents was evaluated. We demonstrate that less than 0.005‰ of the applied MWCNT dose is taken up by plant roots and translocated to the leaves. This accumulation does not impact plant development and physiology. In addition, it does not induce any modifications in photosynthetic activity nor cause oxidative stress in plant leaves. Our results suggest that if environmental contamination occurs and MWCNTs are in the same physico-chemical state than the ones used in the present article, MWCNT transfer to the food chain via food crops would be very low.
Environmental contamination with carbon nanotubes would lead to plant exposure and particularly exposure of agricultural crops. The only quantitative exposure data available to date which can be used for risk assessment comes from computer modeling. The aim of this study was to provide quantitative data relative to multi-walled carbon nanotube (MWCNT) uptake and distribution in agricultural crops, and to correlate accumulation data with impact on plant development and physiology. Roots of wheat and rapeseed were exposed in hydroponics to uniformly (14)C-radiolabeled MWCNTs. Radioimaging, transmission electron microscopy and raman spectroscopy were used to identify CNT distribution. Radioactivity counting made it possible absolute quantification of CNT accumulation in plant leaves. Impact of CNTs on seed germination, root elongation, plant biomass, evapotranspiration, chlorophyll, thiobarbituric acid reactive species and H(2)O(2) contents was evaluated. We demonstrate that less than 0.005‰ of the applied MWCNT dose is taken up by plant roots and translocated to the leaves. This accumulation does not impact plant development and physiology. In addition, it does not induce any modifications in photosynthetic activity nor cause oxidative stress in plant leaves. Our results suggest that if environmental contamination occurs and MWCNTs are in the same physico-chemical state than the ones used in the present article, MWCNT transfer to the food chain via food crops would be very low.
Environmental contamination with carbon nanotubes would lead to plant exposure and particularly exposure of agricultural crops. The only quantitative exposure data available to date which can be used for risk assessment comes from computer modeling. The aim of this study was to provide quantitative data relative to multi-walled carbon nanotube (MWCNT) uptake and distribution in agricultural crops, and to correlate accumulation data with impact on plant development and physiology. Roots of wheat and rapeseed were exposed in hydroponics to uniformly C-14-radiolabeled MWCNTs. Radioimaging, transmission electron microscopy and raman spectroscopy were used to identify CNT distribution. Radioactivity counting made it possible absolute quantification of CNT accumulation in plant leaves. Impact of CNTs on seed germination, root elongation, plant biomass, evapotranspiration, chlorophyll, thiobarbituric acid reactive species and H2O2 contents was evaluated. We demonstrate that less than 0.005% of the applied MWCNT dose is taken up by plant roots and translocated to the leaves. This accumulation does not impact plant development and physiology. In addition, it does not induce any modifications in photosynthetic activity nor cause oxidative stress in plant leaves. Our results suggest that if environmental contamination occurs and MWCNTs are in the same physicochemical state than the ones used in the present article, MWCNT transfer to the food chain via food crops would be very low.
Author Taran, Frédéric
Larue, Camille
Dive, Vincent
Jaillard, Danielle
Pinault, Mathieu
Carrière, Marie
Bendiab, Nedjma
Georgin, Dominique
Mayne-L’Hermite, Martine
Czarny, Bertrand
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  surname: Larue
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  fullname: Czarny, Bertrand
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  givenname: Danielle
  surname: Jaillard
  fullname: Jaillard, Danielle
  email: danielle.jaillard@u-psud.fr
  organization: UMR8195 CNRS-Université Paris-Sud, Centre Commun de Microscopie Electronique, F-91405 Orsay, France
– sequence: 6
  givenname: Nedjma
  surname: Bendiab
  fullname: Bendiab, Nedjma
  email: Nedjma.bendiab@grenoble.cnrs.fr
  organization: Institut Néel, CNRS-Université Joseph Fourier, 25 rue des Martyrs, 38049 Grenoble Cedex 9, France
– sequence: 7
  givenname: Martine
  surname: Mayne-L’Hermite
  fullname: Mayne-L’Hermite, Martine
  email: martine.mayne@cea.fr
  organization: CEA, IRAMIS, SPAM, Laboratoire Francis Perrin (CNRS URA 2453), 91191 Gif sur Yvette, France
– sequence: 8
  givenname: Frédéric
  surname: Taran
  fullname: Taran, Frédéric
  email: frederic.taran@cea.fr
  organization: CEA, IBiTecS, SCBM, CEA Saclay, 91191 Gif sur Yvette, France
– sequence: 9
  givenname: Vincent
  surname: Dive
  fullname: Dive, Vincent
  email: vincent.dive@cea.fr
  organization: CEA, iBiTecS SIMOPRO, CEA Saclay, 91191 Gif sur Yvette, France
– sequence: 10
  givenname: Marie
  surname: Carrière
  fullname: Carrière, Marie
  email: marie.carriere@cea.fr
  organization: UMR3299 CEA-CNRS, Service Interdisciplinaire des Systèmes Moléculaires et Matériaux, Laboratoire Structure et Dynamique par Résonance Magnétique (LSDRM), CEA Saclay, 91191 Gif sur Yvette, France
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Keywords Translocation
NP
Quantification
CNT
TBARS
NOM
Accumulation
Carbon nanotube
Plant
HA
MWCNT
SEM
GA
TEM
SWCNT
Language English
License Copyright © 2012 Elsevier B.V. All rights reserved.
Distributed under a Creative Commons Attribution 4.0 International License: http://creativecommons.org/licenses/by/4.0
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– name: Elsevier
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Snippet ► Wheat and rapeseed accumulate MWCNT through root exposure, and translocate them to their leaves. ► Transfer factor of MWCNT from hydroponic solution to...
Environmental contamination with carbon nanotubes would lead to plant exposure and particularly exposure of agricultural crops. The only quantitative exposure...
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SubjectTerms Accumulation
Brassica rapa - drug effects
Brassica rapa - growth & development
Brassica rapa - metabolism
Carbon nanotube
Chemical Sciences
Crops
Environmental Pollutants - metabolism
Hydroponics
Leaves
Nanotubes, Carbon - analysis
Nanotubes, Carbon - toxicity
or physical chemistry
Physiology
Plant
Plant Leaves - drug effects
Plant Leaves - growth & development
Plant Leaves - metabolism
Plant Roots - drug effects
Plant Roots - growth & development
Plant Roots - metabolism
Plants (organisms)
Quantification
Rapeseed
Roots
Theoretical and
Translocation
Triticum - drug effects
Triticum - growth & development
Triticum - metabolism
Triticum aestivum
Uptakes
Wheat
Title Quantitative evaluation of multi-walled carbon nanotube uptake in wheat and rapeseed
URI https://dx.doi.org/10.1016/j.jhazmat.2012.05.033
https://www.ncbi.nlm.nih.gov/pubmed/22652322
https://search.proquest.com/docview/1023292475
https://search.proquest.com/docview/1024667167
https://search.proquest.com/docview/1762129269
https://hal.science/hal-00755566
Volume 227-228
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