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Uptake and translocation of brominated flame retardants in tomato plants (Solanum lycopersicum L.): Results from a standard soil-based biotest

Beggio Giovanni, Bonato Tiziano, Marangoni Simone, Bravin Matthieu, Fantinato Edy, Nigris Sebastiano, Pivato Alberto, Piazza Rossano. 2024. Uptake and translocation of brominated flame retardants in tomato plants (Solanum lycopersicum L.): Results from a standard soil-based biotest. Chemosphere, 353:141594, 10 p.

Article de revue ; Article de recherche ; Article de revue à facteur d'impact
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Chemo_Beggio_RHIZOtest Brominated Flame Retardants Phytoavailability.pdf

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Résumé : The uptake and translocation of four polybrominated diphenyl ethers (PBDEs) and four novel brominated flame retardants (NBFRs) in tomato plants (Solanum lycopersicum L.) were investigated via the RHIZOtest, a standard soil-based biotest, optimized for organic compounds. Tomato plants were exposed to soil samples spiked with 0 (i.e. control), 5.00 or 50.00 ng g−1dw of each compound. Compared of those of the control, exposure to increasing spiking concentrations resulted in average reductions of 13% and 26% (w/w) in tomato plant biomass. Higher concentrations of NBFRs were analyzed both in roots, ranging from 0.23 to 8.01 ng g−1dw for PBDEs and from 1.25 to 18.51 ng g−1dw for NBFRs, and in shoots, ranging from 0.09 to 5.58 ng g−1dw and from 0.47 to 7.78 ng g−1dw for PBDEs and NBFRs, respectively. This corresponded to an average soil uptake of 5% for PBDEs and 9% for NBFRs at the lower soil-spiking level, and 3% for PBDEs and 6% for NBFRs at the higher soil spiking level. Consequently, among both initial spiking levels, the soil-root concentration factor (RCF) values were lower on average for PBDEs (0.13 ± 0.05 g dw soil g−1dw roots) than for NBFRs (0.33 ± 0.16 g dw soil g−1dw roots). Conversely, nondifferent values of the root-shoot transfer factor (TF) were calculated for both PBDEs (0.54 ± 0.13 g dw roots g−1dw shoots) and NBFRs (0.49 ± 0.24 g dw roots g−1dw shoots). The differences and similarities reported in the RCF and TF between and within the two groups of compounds can be explained by their properties. The calculated RCF and TF values of the PBDEs exhibited a decreasing trend as the number of bromine atoms increased. Additionally, a robust negative linear correlation was observed between RCF values and the respective logKow values for the PBDEs, at both soil-spiking levels. The root uptake of NBFRs exhibited a negative correlation with their hydrophobicity; however, this was not observed in the context of root-to-shoot transfer. The presence of a second aromatic ring appears to be the key factor influencing the observed variations in NBFRs, with biphenyl NBFRs (BTBPE and DBDPE) characterized by lower uptake and reduced translocation potential than monophenyl PBEB and HBB. Understanding the transfer of these compounds to crops, especially near plastic recycling waste sites, is crucial for understanding the risks of their potential inclusion in the human food chain.

Mots-clés Agrovoc : test biologique, Solanum lycopersicum, translocation, composé du brome, biphényle, retardant, contamination, contamination des aliments

Classification Agris : Q03 - Contamination et toxicologie alimentaires
P33 - Chimie et physique du sol
P02 - Pollution

Champ stratégique Cirad : CTS 4 (2019-) - Santé des plantes, des animaux et des écosystèmes

Agences de financement hors UE : Next-GenerationEU

Auteurs et affiliations

  • Beggio Giovanni, Università di Padova (ITA) - auteur correspondant
  • Bonato Tiziano, University of Venice (ITA)
  • Marangoni Simone, Società Estense Servizi Ambientali (ITA)
  • Bravin Matthieu, CIRAD-PERSYST-UPR Recyclage et risque (FRA) ORCID: 0000-0002-1436-7837
  • Fantinato Edy, University of Venice (ITA)
  • Nigris Sebastiano, Università di Padova (ITA)
  • Pivato Alberto, Università di Padova (ITA)
  • Piazza Rossano, University of Venice (ITA)

Source : Cirad-Agritrop (https://agritrop.cirad.fr/608753/)

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