Genome skimming and plastid microsatellite profiling of alder trees (<Emphasis Type="Italic">Alnus</Emphasis> spp., Betulaceae): phylogenetic and phylogeographical prospects

Alders (Alnus spp.) represent keystone species trees of riparian and mountainous habitats of the northern hemisphere. Previous genetic studies have suggested a complex intrageneric diversification with numerous events of interspecific hybridization and polyploidization. Here, we first aim to test the present taxonomical treatment of Alnus by generating phylogenetic hypotheses based on plastid and nuclear data obtained from species belonging to the three main alder subgenera (Alnus, Alnobetula, and Clethropsis). A genome-skimming strategy was used to assemble the complete plastome and the nuclear ribosomal DNA cluster of 22 Eurasian and American alder individuals. Phylogenies based on these data strongly support an early diverging subgenus Alnobetula, while members of the subgenus Clethropsis do not constitute a monophyletic clade and are embedded within the subgenus Alnus. Incongruent topologies also sustain reticulate evolution within this group. Our results thus suggest considering the subgenera Clethropsis and Alnus within the same taxonomical unit. Our second aim is to test for the utility of highly variable plastid markers (microsatellites) to investigate the phylogeographic patterns of Eurasian alder species. Fifty-two polymorphic plastid microsatellite markers were developed and tested on 33 populations of the subgenus Alnus in western Eurasia. On average, 4.3 alleles per locus were revealed in 131 individuals of Alnus glutinosa, allowing the identification of 30 chlorotypes (multiloci profiles). Strong phylogeographic signals and recurrent cytoplasmic captures between co-occurring species are revealed, demonstrating that our plastid microsatellite profiling method is suitable for tracing the post-glacial spread of maternal lineages among alder species. All these results finally support the use of nuclear genomic regions for species identification and of plastid markers for phylogeographic aspects and origin certification in genetic resource management.