Selection of genotypes (citral chemotype) of Lippia alba (Mill.) N. E. Brown regarding seasonal stability of the essential oils chemical profile

•Genetic effects were more important than environment in controlling chemotype expression.•Essential oil qualitative fraction was more sensitive to environment than the quantitative one.•The compounds isogeranial, cubebol and isoneral varied the most among the seasons.•The proposed GCPSI index was e...

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Published in:Industrial crops and products 2019-11, Vol.139, p.111497, Article 111497
Main Authors: Soares, Carlos Henrique do Nascimento, Damasceno, Pedro Corrêa, Campos, Ivana de Mello, Amorim, Gustavo Torres dos Santos, Carmo, Margarida Goréte Ferreira do, Chaves, Douglas Siqueira de Almeida, Souza, Marco Andre Alves de
Format: Article
Language:English
Subjects:
Bushy lippia
Chemical Profile Stability Index
Genetic improvement
Season interaction
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Summary:•Genetic effects were more important than environment in controlling chemotype expression.•Essential oil qualitative fraction was more sensitive to environment than the quantitative one.•The compounds isogeranial, cubebol and isoneral varied the most among the seasons.•The proposed GCPSI index was efficient in identifying the genotype with greatest stability.•GCPSI indicated ECB005 genotype as having the most stable essential oil chemical profile. The Lippia alba essential oil has been used for the preparation of cosmetics, which makes important the search for a plant that presents chemical and sensorial properties with greater stability under varying environmental conditions. In this context, the objective of this work was to identify genotypes of L. alba that are stable regarding to essential oil profile in two seasons. For this purpose, we extracted by hydrodistillation and analyzed by GC-FID and GC–MS the essential oils eight L. alba genotypes from plants collected in the summer and winter, to estimate the variation of the metabolites between and within genotypes. Afterwards, the data on geranial and neral concentrations were submitted to analysis of variance (ANOVA) and testing of the means. Then the metabolites data were submitted to the t-test at 5% probability, to compare the two seasons and submitted to cluster analysis by UPGMA. We formulated an index to assess the chemical profile stability according to the genotype, called the Genotype Chemical Profile Stability Index (GCPSI), based on the production of the metabolites between the seasons. All told, 63 metabolites were identified in the essential oil of the genotypes, of which 31 were listed and used as the data for calculating GCPSI. The environment (season) had a stronger influence on the number of metabolites than the total quality of the essential oil. Citral and its isomers geranial and neral were stable during the seasons. In general, the essential oil chemical profile was grouped according to the season. The lowest estimated GCPSI was 84.00% (genotype UFRRJ ECB011) and the highest was 95.40% (UFRRJ ECB005). Of the genotypes evaluated, UFRRJ ECB005 was the most chemically stable. Therefore, we recommend that it be studied regarding its productive potential.
ISSN:0926-6690
1872-633X
DOI:10.1016/j.indcrop.2019.111497