Fruit yield, fatty and essential oils content genetics in coriander

•GCA×water treatment (WT) and SCA×WT interactions were significant (P≤0.01).•Essential oil content (EOC) controlled by dominance gene action in water stress.•The EOC controlled by both additive and dominance gene action in well water.•Fatty oil content and yield governed by dominant and over dominan...

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Published inIndustrial crops and products Vol. 94; pp. 72 - 81
Main Authors Khodadadi, Mostafa, Dehghani, Hamid, Jalali Javaran, Mokhtar, Christopher, Jack T.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 30.12.2016
Subjects
Coriandrum sativum L
Essential oil
Fatty oil content
Gene action
Water stress
Essential oil
Fatty oil content
Gene action
Water stress
Coriandrum sativum L
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Abstract •GCA×water treatment (WT) and SCA×WT interactions were significant (P≤0.01).•Essential oil content (EOC) controlled by dominance gene action in water stress.•The EOC controlled by both additive and dominance gene action in well water.•Fatty oil content and yield governed by dominant and over dominant genes in all WTs.•H 1×4 identified appropriate for high essential oil and fatty oil content and yield. Some regions of the world suffers of drought which affects plant behavior regarding biochemical and yield responses. This study aimed to estimate the general and specific combining abilities of coriander (Coriandrum sativum L.) by analyzing its fruit yield, essential oil content (EOC) and fatty oil content (FOC). To reach this aim, 15 half-diallel hybrids and their six parents, selected for their different response to water stress in fruit yield, essential oil and fatty oil content were evaluated under well-watered, moderate water-stressed and severe water-stressed conditions in the field and in glasshouse cultivation systems. Fruit yield in the field (FYF) and glasshouse (FYG), percent of de-hulled fruit, percent of hulls, EOC, essential oil yield (EOY), de-hulled fruit fatty oil content (DFFOC), hull fatty oil content (HFOC), fatty oil content (FOC) and fatty oil yield (FOY) were examined. Water treatment (WT), genotype and genotype×WT effects were significant (P≤0.01) for all measured traits. For FYF, gene action was mostly additive while dominance was more important for FYG. Genotypes gained different EOC and FOC in different WTs. Genetic control of the EOC was affected by water stress and the portion of dominance in gene action increased as water stress progressed leading to completely dominant genetic control of EOC under severe water stress. For FOC and FOY genetic control was governed by dominant and over dominant gene nature in all WTs. Parents including P1, P4 and P6 were indicated as promising hybrid contributors for high EOC, DFFOC and FOY. Similar genetic control mechanisms of the EOC, EOY, FOC and FOY suggests that improvement of essential oil content and fatty oil content could be simultaneously achieved in coriander.
AbstractList •GCA×water treatment (WT) and SCA×WT interactions were significant (P≤0.01).•Essential oil content (EOC) controlled by dominance gene action in water stress.•The EOC controlled by both additive and dominance gene action in well water.•Fatty oil content and yield governed by dominant and over dominant genes in all WTs.•H 1×4 identified appropriate for high essential oil and fatty oil content and yield. Some regions of the world suffers of drought which affects plant behavior regarding biochemical and yield responses. This study aimed to estimate the general and specific combining abilities of coriander (Coriandrum sativum L.) by analyzing its fruit yield, essential oil content (EOC) and fatty oil content (FOC). To reach this aim, 15 half-diallel hybrids and their six parents, selected for their different response to water stress in fruit yield, essential oil and fatty oil content were evaluated under well-watered, moderate water-stressed and severe water-stressed conditions in the field and in glasshouse cultivation systems. Fruit yield in the field (FYF) and glasshouse (FYG), percent of de-hulled fruit, percent of hulls, EOC, essential oil yield (EOY), de-hulled fruit fatty oil content (DFFOC), hull fatty oil content (HFOC), fatty oil content (FOC) and fatty oil yield (FOY) were examined. Water treatment (WT), genotype and genotype×WT effects were significant (P≤0.01) for all measured traits. For FYF, gene action was mostly additive while dominance was more important for FYG. Genotypes gained different EOC and FOC in different WTs. Genetic control of the EOC was affected by water stress and the portion of dominance in gene action increased as water stress progressed leading to completely dominant genetic control of EOC under severe water stress. For FOC and FOY genetic control was governed by dominant and over dominant gene nature in all WTs. Parents including P1, P4 and P6 were indicated as promising hybrid contributors for high EOC, DFFOC and FOY. Similar genetic control mechanisms of the EOC, EOY, FOC and FOY suggests that improvement of essential oil content and fatty oil content could be simultaneously achieved in coriander.
Author Dehghani, Hamid
Jalali Javaran, Mokhtar
Khodadadi, Mostafa
Christopher, Jack T.
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Keywords Essential oil
Fatty oil content
Gene action
Water stress
Coriandrum sativum L
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Snippet •GCA×water treatment (WT) and SCA×WT interactions were significant (P≤0.01).•Essential oil content (EOC) controlled by dominance gene action in water...
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SubjectTerms Coriandrum sativum L
Essential oil
Fatty oil content
Gene action
Water stress
Title Fruit yield, fatty and essential oils content genetics in coriander
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