Increased germination of diverse crop-wild hybrid sunflower seeds

Gene flow from crop fields to wild populations produces hybrids that often differ from their wild counterparts in growth form, phenology, and life history characteristics. Germination and dormancy dynamics have a strong influence on population persistence, competitive dynamics, and ultimately, plant...

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Bibliographic Details
Published in:Ecological applications 2006-06, Vol.16 (3), p.845-854
Main Authors: Mercer, Kristin L., Shaw, Ruth G., Wyse, Donald L.
Format: Article
Language:English
Subjects:
Crops
Crops, Agricultural
crop–wild hybrids
Dormancy
Ecological genetics
gene flow
genetic differentiation
genetic variation
Germination
Helianthus
Helianthus - physiology
Helianthus annuus
herbicide resistance
Hybrid seeds
Hybridity
hybridization
Hybridization, Genetic
hybrids
imidazolinone herbicides
introgression
line differences
Plants
seed dormancy
seed germination
Seed sources
Seeds
sulfonylurea herbicides
sunflower
Sunflowers
transgenic crops
wild relatives
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Summary:Gene flow from crop fields to wild populations produces hybrids that often differ from their wild counterparts in growth form, phenology, and life history characteristics. Germination and dormancy dynamics have a strong influence on population persistence, competitive dynamics, and ultimately, plant fitness. They may also play a role in modifying crop gene introgression, which has been of primary interest since the release of transgenic crops. We investigated how seed germination and dormancy were affected by sunflower crop-wild hybridization in both laboratory and field experiments. Hybridization increased seed germination and decreased dormancy. Of the nine wild populations we assayed, most of their hybrids had higher germination than the wilds of the same population. However, absolute germination levels varied by population and testing environment. Hybrids produced by three different crop lines differed in germination, and their germination rankings shifted across populations. Increased germination in hybrids could accelerate crop gene introgression, provided that hybrids germinate in an appropriate period. Differences in relative germination of wild and hybrid seed indicated that the effect of germination on introgression will likely vary by population due, in part, to initial levels of dormancy in the population. Therefore, the implications of. gene flow from crops with novel characteristics or from transgenic crops will also vary by population.
ISSN:1051-0761
1939-5582
DOI:10.1890/1051-0761(2006)016[0845:IGODCH]2.0.CO;2