RAPID ADAPTATION AT THE PACIFIC OYSTER INVASION FRONT IN EUROPE SEEN
THROUGH QUANTITATIVE GENETICS AND ADAPTATION GENOMICS
- Alexandra Kinnby,
- Chloé Robert,
- Jonathan Havenhand,
- Göran Broström,
- Luc Bussière,
- Pierre De Wit
Alexandra Kinnby
University of Gothenburg Faculty of Science
Author ProfileAbstract
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Invasive species are a major challenge to managers worldwide due to
their ability to rapidly change their niche space and behavior in order
to reproduce and survive in a novel environment. One globally
distributed invasive species, the Pacific oyster, Crassostrea
(Magallana) gigas, first arrived in Sweden in 2006. To date, they have
not colonized the low salinity waters of the Baltic Sea, and it has
generally been assumed that the inability of Pacific oysters to
reproduce in low salinities has acted as a barrier. We have studied
differences in fertilization rates among oysters along the invasion
range, and examined heritability of salinity tolerance through classic
mating designs across five different salinity levels. We found that
fertilization rates in low salinities increased with proximity to the
range front, and that there was a strong heritable component to these
differences. We then used whole genome sequence data to identify genomic
regions that diverged significantly from expected Mendelian inheritance
in larval full-sib families that survived in low salinities. Our results
show that a chromosomal region containing coding sequences for all
histones forming the nucleosome, as well as a region containing LSU and
SSU subunit ribosomal DNA in the sperm, are involved in low-salinity
tolerance at fertilization and early development. We also found no
evidence of recent bottlenecks or reductions in genetic diversity along
the invasion front compared to more established populations. We
therefore conclude that the Pacific oyster has the potential to adapt
further to low-salinity conditions and may invade the Baltic Sea.30 Aug 2024Submitted to Molecular Ecology 02 Sep 2024Submission Checks Completed
02 Sep 2024Assigned to Editor
02 Sep 2024Review(s) Completed, Editorial Evaluation Pending
08 Sep 2024Reviewer(s) Assigned
04 Nov 2024Editorial Decision: Revise Minor