Effect of Iodine treatments on Ocimum basilicum L.: Biofortification, phenolics production and essential oil composition.

Effect of Iodine treatments on Ocimum basilicum L.: Biofortification, phenolics production and essential oil composition.

Iodine biofortification has been gaining interest in recent years as a sustainable and innovative approach to eradicate iodine deficiency disorders. Studying the impact of iodine biofortification on plant phenotype, biochemical and physiological parameters is crucial to leverage the expertise and be...

Full description

Bibliographic Details
Main Authors: Claudia Kiferle, Roberta Ascrizzi, Marco Martinelli, Silvia Gonzali, Lorenzo Mariotti, Laura Pistelli, Guido Flamini, Pierdomenico Perata
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2019-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0226559
id doaj-d649b6699ebc446dac2486d3f2630274
record_format Article
spelling doaj-d649b6699ebc446dac2486d3f26302742021-03-04T13:10:50ZengPublic Library of Science (PLoS)PLoS ONE1932-62032019-01-011412e022655910.1371/journal.pone.0226559Effect of Iodine treatments on Ocimum basilicum L.: Biofortification, phenolics production and essential oil composition.Claudia KiferleRoberta AscrizziMarco MartinelliSilvia GonzaliLorenzo MariottiLaura PistelliGuido FlaminiPierdomenico PerataIodine biofortification has been gaining interest in recent years as a sustainable and innovative approach to eradicate iodine deficiency disorders. Studying the impact of iodine biofortification on plant phenotype, biochemical and physiological parameters is crucial to leverage the expertise and best practices for the agro-food industry and human health. The aim of this study was to evaluate iodine biofortification on the main quantitative and qualitative traits of basil (Ocimum basilicum L.) plants cultivated both in open field and in growth chamber. The impact of KI and KIO3 treatments was evaluated on biomass production, as well as on the synthesis of phenolic compounds, especially rosmarinic acid and other caffeic acid derivatives, and on the essential oil (EO) composition. These compounds are typically accumulated in basil leaves and strongly contribute to the plant nutraceutical value and aroma. In open field, the use of increasing concentrations of both iodine salts gradually enhanced iodine accumulation in leaves, also determining an increase of the antioxidant power, total phenolics, rosmarinic acid and cinnamic acid accumulation. The composition of EO was only slightly affected by the treatments, as all the samples were characterized by a linalool chemotype and a minor alteration in their relative content was observed. A growth chamber experiment was performed to test EO variation in controlled conditions, broadening the range of iodine concentrations. In this case, plant chemotype was significantly affected by the treatments and large EO variability was observed, suggesting that iodine form and concentration can potentially influence the EO composition but that in open field this effect is overcome by environmental factors.https://doi.org/10.1371/journal.pone.0226559
collection DOAJ
language English
format Article
sources DOAJ
author Claudia Kiferle
Roberta Ascrizzi
Marco Martinelli
Silvia Gonzali
Lorenzo Mariotti
Laura Pistelli
Guido Flamini
Pierdomenico Perata
spellingShingle Claudia Kiferle
Roberta Ascrizzi
Marco Martinelli
Silvia Gonzali
Lorenzo Mariotti
Laura Pistelli
Guido Flamini
Pierdomenico Perata
Effect of Iodine treatments on Ocimum basilicum L.: Biofortification, phenolics production and essential oil composition.
PLoS ONE
author_facet Claudia Kiferle
Roberta Ascrizzi
Marco Martinelli
Silvia Gonzali
Lorenzo Mariotti
Laura Pistelli
Guido Flamini
Pierdomenico Perata
author_sort Claudia Kiferle
title Effect of Iodine treatments on Ocimum basilicum L.: Biofortification, phenolics production and essential oil composition.
title_short Effect of Iodine treatments on Ocimum basilicum L.: Biofortification, phenolics production and essential oil composition.
title_full Effect of Iodine treatments on Ocimum basilicum L.: Biofortification, phenolics production and essential oil composition.
title_fullStr Effect of Iodine treatments on Ocimum basilicum L.: Biofortification, phenolics production and essential oil composition.
title_full_unstemmed Effect of Iodine treatments on Ocimum basilicum L.: Biofortification, phenolics production and essential oil composition.
title_sort effect of iodine treatments on ocimum basilicum l.: biofortification, phenolics production and essential oil composition.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2019-01-01
description Iodine biofortification has been gaining interest in recent years as a sustainable and innovative approach to eradicate iodine deficiency disorders. Studying the impact of iodine biofortification on plant phenotype, biochemical and physiological parameters is crucial to leverage the expertise and best practices for the agro-food industry and human health. The aim of this study was to evaluate iodine biofortification on the main quantitative and qualitative traits of basil (Ocimum basilicum L.) plants cultivated both in open field and in growth chamber. The impact of KI and KIO3 treatments was evaluated on biomass production, as well as on the synthesis of phenolic compounds, especially rosmarinic acid and other caffeic acid derivatives, and on the essential oil (EO) composition. These compounds are typically accumulated in basil leaves and strongly contribute to the plant nutraceutical value and aroma. In open field, the use of increasing concentrations of both iodine salts gradually enhanced iodine accumulation in leaves, also determining an increase of the antioxidant power, total phenolics, rosmarinic acid and cinnamic acid accumulation. The composition of EO was only slightly affected by the treatments, as all the samples were characterized by a linalool chemotype and a minor alteration in their relative content was observed. A growth chamber experiment was performed to test EO variation in controlled conditions, broadening the range of iodine concentrations. In this case, plant chemotype was significantly affected by the treatments and large EO variability was observed, suggesting that iodine form and concentration can potentially influence the EO composition but that in open field this effect is overcome by environmental factors.
url https://doi.org/10.1371/journal.pone.0226559
work_keys_str_mv AT claudiakiferle effectofiodinetreatmentsonocimumbasilicumlbiofortificationphenolicsproductionandessentialoilcomposition
AT robertaascrizzi effectofiodinetreatmentsonocimumbasilicumlbiofortificationphenolicsproductionandessentialoilcomposition
AT marcomartinelli effectofiodinetreatmentsonocimumbasilicumlbiofortificationphenolicsproductionandessentialoilcomposition
AT silviagonzali effectofiodinetreatmentsonocimumbasilicumlbiofortificationphenolicsproductionandessentialoilcomposition
AT lorenzomariotti effectofiodinetreatmentsonocimumbasilicumlbiofortificationphenolicsproductionandessentialoilcomposition
AT laurapistelli effectofiodinetreatmentsonocimumbasilicumlbiofortificationphenolicsproductionandessentialoilcomposition
AT guidoflamini effectofiodinetreatmentsonocimumbasilicumlbiofortificationphenolicsproductionandessentialoilcomposition
AT pierdomenicoperata effectofiodinetreatmentsonocimumbasilicumlbiofortificationphenolicsproductionandessentialoilcomposition
_version_ 1714800534375890944

Similar Items