Spatiotemporal reconstruction of the Aquilegia rapid radiation through next-generation sequencing of rapidly evolving cpDNA regions

Aquilegia is a well-known model system in the field of evolutionary biology, but obtaining a resolved and well-supported phylogenetic reconstruction for the genus has been hindered by its recent and rapid diversification. Here, we applied 454 next-generation sequencing to PCR amplicons of 21 of the...

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Bibliographic Details
Published in:The New phytologist 2013-04, Vol.198 (2), p.579-592
Main Authors: Fior, Simone, Li, Mingai, Oxelman, Bengt, Viola, Roberto, Hodges, Scott A., Ometto, Lino, Varotto, Claudio
Format: Article
Language:English
Subjects:
Aquilegia
Aquilegia - genetics
Base Sequence
Biological evolution
Biological Systematics
Biological taxonomies
Biologisk systematik
Biology
Calibration
Cluster Analysis
Datasets
Diversification
DNA
DNA, Chloroplast - genetics
Evolution
Evolution, Molecular
Evolutionary Biology
Evolutionsbiologi
Miocene
Mountains
Next‐generation sequencing
Nucleotide sequence
PCR
Phylogenetics
Phylogeny
Plants
Principal Component Analysis
Radiation
Ranunculaceae
Ranunculaceae molecular dating
rapidly evolving noncoding cpDNA
recent rapid radiation
Reconstruction
Regions
Roche 454
Sequence Analysis, DNA - methods
Sequencing
Speciation
Taxa
Time Factors
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Summary:Aquilegia is a well-known model system in the field of evolutionary biology, but obtaining a resolved and well-supported phylogenetic reconstruction for the genus has been hindered by its recent and rapid diversification. Here, we applied 454 next-generation sequencing to PCR amplicons of 21 of the most rapidly evolving regions of the plastome to generate c. 24 kb of sequences from each of 84 individuals from throughout the genus. The resulting phylogeny has well-supported resolution of the main lineages of the genus, although recent diversification such as in the European taxa remains unresolved. By producing a chronogram of the whole Ranunculaceae family based on published data, we inferred calibration points for dating the Aquilegia radiation. The genus originated in the upper Miocene c. 6.9 million yr ago (Ma) in Eastern Asia, and diversification occurred c. 4.8 Ma with the split of two main clades, one colonizing North America, and the other Western Eurasia through the mountains of Central Asia. This was followed by a back-to-Asia migration, originating from the European stock using a North Asian route. These results provide the first backbone phylogeny and spatiotemporal reconstruction of the Aquilegia radiation, and constitute a robust framework to address the adaptative nature of speciation within the group.
ISSN:0028-646X
1469-8137
1469-8137
DOI:10.1111/nph.12163