Abstract
The historical phylogeography of Ostrea edulis was successfully depicted in its native range for the first time using ancient DNA methods on dry shells from museum collections. This research reconstructed the historical population structure of the European flat oyster across Europe in the 1870s—including the now extinct population in the Wadden Sea. In total, four haplogroups were identified with one haplogroup having a patchy distribution from the North Sea to the Atlantic coast of France. This irregular distribution could be the result of translocations. The other three haplogroups are restricted to narrow geographic ranges, which may indicate adaptation to local environmental conditions or geographical barriers to gene flow. The phylogenetic reconstruction of the four haplogroups suggests the signatures of glacial refugia and postglacial expansion. The comparison with present-day O. edulis populations revealed a temporally stable population genetic pattern over the past 150 years despite large-scale translocations. This historical phylogeographic reconstruction was able to discover an autochthonous population in the German and Danish Wadden Sea in the late nineteenth century, where O. edulis is extinct today. The genetic distinctiveness of a now-extinct population hints at a connection between the genetic background of O. edulis in the Wadden Sea and for its absence until today.
Highlights
Today, many plant and animal species are threatened or endangered by extinction, mainly due to human influences
It is with 16 356 nucleotides 36 bp longer than the existing mitochondrial genome (JF274008) and encodes 38 genes, including 12 protein-coding genes (PCGs), 3 rRNAs and 23 tRNAs on the same strand
In the course of this study, we reconstructed 37 complete historical mitochondrial genomes extracted from dry shells of O. edulis and based on this ancient DNA (aDNA) data, we successfully reconstructed the phylogeography of O. edulis throughout the native range from the 1870s
Summary
Many plant and animal species are threatened or endangered by extinction, mainly due to human influences. Could not be included into the phylogeographical studies of present day genetic diversity, which may provide vital clues for the survival of oysters at large This highlights a general problem in conservation biology: as soon as a species or population goes extinct, it becomes difficult to reconstruct the reasons for their demise. This study aims to reconstruct the actual state of O. edulis’ historical phylogeography in its native range between the years 1868 to 1885 by using complete mitochondrial genomes At this time, the natural oyster beds were still widespread—including the extinct Wadden Sea. By using the historical shells in combination with the entire genomes, we intend to achieve a higher resolution of the historical phylogeography of O. edulis and the reconstruction of the genetic population structure within areas in which O. edulis is extinct today
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