The role of domestication and maternal effects on seed traits of crop–wild sunflower hybrids (Helianthus annuus)

Hybridisation between crops and their wild relatives may promote the evolution of weeds. Seed germination and dormancy are the earliest life‐history traits and are highly influenced by the maternal parent. However, the ecological role of the maternal effect on seed traits in the evolution of crop–wi...

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Published in:Annals of applied biology 2017-09, Vol.171 (2), p.237-251
Main Authors: Hernández, F., Lindström, L.I., Parodi, E., Poverene, M., Presotto, A.
Format: Article
Language:English
Subjects:
Anatomy
Crops
Crop–wild hybrids
Divergence
Domestication
Dormancy
Ecological effects
Electron microscopy
Evolution
Germination
Helianthus annuus
Hybrids
Life cycle engineering
Life cycles
Life history
Maternal effects
Morphology
Pericarp
pericarp anatomy
Ripening
Scanning electron microscopy
seed dormancy
Seed germination
seed morphology
Seeds
sunflower
Weeds
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cited_by cdi_FETCH-LOGICAL-c2978-3ae80590ebd49af21faf98c31b68b83a25dca279cb89a8d96299bbf824caee903
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container_title Annals of applied biology
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creator Hernández, F.
Lindström, L.I.
Parodi, E.
Poverene, M.
Presotto, A.
description Hybridisation between crops and their wild relatives may promote the evolution of weeds. Seed germination and dormancy are the earliest life‐history traits and are highly influenced by the maternal parent. However, the ecological role of the maternal effect on seed traits in the evolution of crop–wild hybrids has received little attention. In this study, we test the relative importance of maternal and hybridisation effects on seed traits of the first generation of crop–wild sunflower hybrids (Helianthus annuus). Seed germination was tested in two wild populations with contrasting dormancy, two cultivated materials and their reciprocal crosses at four different times after harvest and three different temperatures. Seed germination at each of the four times, after ripening response and secondary dormancy were recorded along with four morphological traits. Additionally, the pericarp anatomy was analysed with light and scanning electron microscopy. We observed strong maternal effects on all seed traits. Seed germination, morphology and pericarp anatomy differed largely between the crop and wild seeds and these traits in the crop–wild hybrids resembled their female parent. Slight but significant hybridisation effects were observed in germination, mainly in seeds produced on wild plants. Crop hybridisation changed seed germination, the after ripening response and secondary dormancy in the crop direction. Morphological and anatomical traits associated with domestication strongly correlated with the observed differences in seed germination and dormancy in crop–wild sunflower hybrids. The large maternal effects along with the evolutionary divergence in seed traits were responsible for the large phenotypic differences observed in crop–wild hybrids with the same genetic composition. Wild‐like seed traits of hybrids suggest that there are no barriers to crop gene introgression at the seed level whereas crop‐like seed traits could be strongly selected against, conditioning the selection of traits expressed later in the life cycle and in the next generations.
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Seed germination and dormancy are the earliest life‐history traits and are highly influenced by the maternal parent. However, the ecological role of the maternal effect on seed traits in the evolution of crop–wild hybrids has received little attention. In this study, we test the relative importance of maternal and hybridisation effects on seed traits of the first generation of crop–wild sunflower hybrids (Helianthus annuus). Seed germination was tested in two wild populations with contrasting dormancy, two cultivated materials and their reciprocal crosses at four different times after harvest and three different temperatures. Seed germination at each of the four times, after ripening response and secondary dormancy were recorded along with four morphological traits. Additionally, the pericarp anatomy was analysed with light and scanning electron microscopy. We observed strong maternal effects on all seed traits. 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ispartof Annals of applied biology, 2017-09, Vol.171 (2), p.237-251
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1744-7348
language eng
recordid cdi_proquest_journals_1929655557
source Wiley
subjects Anatomy
Crops
Crop–wild hybrids
Divergence
Domestication
Dormancy
Ecological effects
Electron microscopy
Evolution
Germination
Helianthus annuus
Hybrids
Life cycle engineering
Life cycles
Life history
Maternal effects
Morphology
Pericarp
pericarp anatomy
Ripening
Scanning electron microscopy
seed dormancy
Seed germination
seed morphology
Seeds
sunflower
Weeds
title The role of domestication and maternal effects on seed traits of crop–wild sunflower hybrids (Helianthus annuus)
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