« Previous AbstractOccupational health risk assessment of volatile organic compounds emitted from the coke production unit of a steel plant    Next AbstractChemical characterization and adsorption of oil mill wastewater on Moroccan clay in order to be used in the agricultural field »

Molecules

Title:		Insights into the Intraspecific Variability of the above and Belowground Emissions of Volatile Organic Compounds in Tomato
Author(s):		Dehimeche N; Buatois B; Bertin N; Staudt M;
Address:		"Centre d'Ecologie Fonctionnelle et Evolutive, CNRS-Universite Montpellier-Universite Paul-Valery Montpellier-EPHE, Campus CNRS, CEDEX 5, F-34293 Montpellier, France. INRAE, UR115 Plantes et Systemes de Culture Horticoles, Site Agroparc, 84914 Avignon, France"
Journal Title:		Molecules
Year:		2021
Volume:		20210105
Issue:		1
Page Number:		-
DOI:		10.3390/molecules26010237
ISSN/ISBN:		1420-3049 (Electronic) 1420-3049 (Linking)
Abstract:		"The in-vivo monitoring of volatile organic compound (VOC) emissions is a potential non-invasive tool in plant protection, especially in greenhouse cultivation. We studied VOC production from above and belowground organs of the eight parents of the Multi-Parent Advanced Generation Intercross population (MAGIC) tomato population, which exhibits a high genetic variability, in order to obtain more insight into the variability of constitutive VOC emissions from tomato plants under stress-free conditions. Foliage emissions were composed of terpenes, the majority of which were also stored in the leaves. Foliage emissions were very low, partly light-dependent, and differed significantly among genotypes, both in quantity and quality. Soil with roots emitted VOCs at similar, though more variable, rates than foliage. Soil emissions were characterized by terpenes, oxygenated alkanes, and alkenes and phenolic compounds, only a few of which were found in root extracts at low concentrations. Correlation analyses revealed that several VOCs emitted from foliage or soil are jointly regulated and that above and belowground sources are partially interconnected. With respect to VOC monitoring in tomato crops, our results underline that genetic variability, light-dependent de-novo synthesis, and belowground sources are factors to be considered for successful use in crop monitoring"
Keywords:		*Genetic Variation Solanum lycopersicum/*chemistry/*genetics/metabolism Plant Leaves/chemistry/genetics/metabolism Plant Roots/chemistry/genetics/metabolism Volatile Organic Compounds/*analysis/metabolism Solanum lycopersicum aboveground-belowground inter;
Notes:		"MedlineDehimeche, Nafissa Buatois, Bruno Bertin, Nadia Staudt, Michael eng ANR15-CE02-010-01/Agence Nationale de la Recherche/ ANR-10-LABX-04-01/Agence Nationale de la Recherche/ Switzerland 2021/01/21 Molecules. 2021 Jan 5; 26(1):237. doi: 10.3390/molecules26010237"