Supporting data for "Genomic exploration of the endangered oriental stork, Ciconia boyciana, sheds light on migration adaptation and future conservation"
The oriental stork, Ciconia boyciana, is an endangered migratory bird listed on the IUCN Red List. The bird population has experienced a rapid decline in the past decades, with nest locations and stop-over sites largely degraded due to human-bird conflicts. Multipronged conservation efforts are requ...
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Zusammenfassung: | The oriental stork, Ciconia boyciana, is an endangered migratory bird listed on the IUCN Red List. The bird population has experienced a rapid decline in the past decades, with nest locations and stop-over sites largely degraded due to human-bird conflicts. Multipronged conservation efforts are required to secure the future of oriental storks. We propose that a thorough understanding of the genome-wide genetic background of this threatened bird species is critical to make future conservation strategies.In this study, the first chromosome-scale reference genome was presented for the oriental stork with high quality, contiguity, and accuracy. The assembled genome size was 1.24 Gb with a scaffold N50 of 103 Mb, and 1.23 Gb contigs (99.32%) were anchored to 35 chromosomes. Population genomic analysis did not show a genetic structure in the wild population. Genome-wide genetic diversity (π = 0.0012) of the oriental stork was at a moderate to high level among threatened bird species and the inbreeding risk was also not significant (FROH = 5.56±5.30%). Reconstruction of demographic history indicated a rapid recent population decline likely driven by human activities. Genes that were under positive selection associated with the migratory trait were identified in related to the long-term potentiation, photoreceptor cell organization, circadian rhythm, muscle development and energy metabolism, indicating the essential interplay between genetic and ecological adaptation.Our study presents the first chromosome-scale genome assembly of the oriental stork, provides a genomic basis for understanding genetic background of the oriental stork, the population’s extinction risks and the migratory characteristics, which will facilitate the decision of future conservation plans for this species. |
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DOI: | 10.5524/102556 |