Available knowledge on the European white oaks (Quercus, sect. Quercus) plastome still exhibits large gaps, mostly in respect of detailed phylogeny and information from southern Europe and adjacent Near East. We investigated DNA sequence polymorphism at two plastid loci on 270 individuals representing 13 white oak species/taxa and retrieved several hundred sequences of the same two DNA regions from GenBank to fll the above gaps, and contribute to a better understanding of white oak diversity and evolution. The modern European sect. Quercus species exhibits a poorly diferentiated plastid DNA, despite its current highly diversifed taxonomy. Twenty-nine haplotypes were identifed across the Euro-Mediterranean and Near East regions, including two ancestral variants that are westerly and south-easterly partitioned. Other high- and lowfrequency haplotypes also showed a well-structured geographic distribution consistent with the current phytogeographic framework of the European continent. The climatic and geological events that characterized the end of the Tertiary and Quaternary periods played a crucial role in triggering haplotype mixing, isolation, and in ofering niche opportunities for more recent diversifcation. Euro-Mediterranean southern territories host a high and as yet poorly studied genetic variation; the role of the Italian Peninsula as a crossroad and threshold for haplotype diversity and distribution clearly emerges from this study

Dissecting the continuum and unravelling the phylogeographic knot of plastid DNA in European white oaks (Quercus sect. Quercus): ancient signatures and multiple diversity reservoirs / Fortini, Paola; DI PIETRO, Romeo; Proietti, Elisa; Cardoni, Simone; Quaranta, Luca; Cosimo Simeone, Marco. - In: EUROPEAN JOURNAL OF FOREST RESEARCH. - ISSN 1612-4669. - 143:(2024), pp. 107-127. [10.1007/s10342-023-01610-8]

Dissecting the continuum and unravelling the phylogeographic knot of plastid DNA in European white oaks (Quercus sect. Quercus): ancient signatures and multiple diversity reservoirs

Romeo Di Pietro
Secondo
Writing – Original Draft Preparation
;
Elisa Proietti
Investigation
;
2024

Abstract

Available knowledge on the European white oaks (Quercus, sect. Quercus) plastome still exhibits large gaps, mostly in respect of detailed phylogeny and information from southern Europe and adjacent Near East. We investigated DNA sequence polymorphism at two plastid loci on 270 individuals representing 13 white oak species/taxa and retrieved several hundred sequences of the same two DNA regions from GenBank to fll the above gaps, and contribute to a better understanding of white oak diversity and evolution. The modern European sect. Quercus species exhibits a poorly diferentiated plastid DNA, despite its current highly diversifed taxonomy. Twenty-nine haplotypes were identifed across the Euro-Mediterranean and Near East regions, including two ancestral variants that are westerly and south-easterly partitioned. Other high- and lowfrequency haplotypes also showed a well-structured geographic distribution consistent with the current phytogeographic framework of the European continent. The climatic and geological events that characterized the end of the Tertiary and Quaternary periods played a crucial role in triggering haplotype mixing, isolation, and in ofering niche opportunities for more recent diversifcation. Euro-Mediterranean southern territories host a high and as yet poorly studied genetic variation; the role of the Italian Peninsula as a crossroad and threshold for haplotype diversity and distribution clearly emerges from this study
2024
chloroplast DNA; Quercus; white oaks; evolution; phylogeography; Mediterranean
01 Pubblicazione su rivista::01a Articolo in rivista
Dissecting the continuum and unravelling the phylogeographic knot of plastid DNA in European white oaks (Quercus sect. Quercus): ancient signatures and multiple diversity reservoirs / Fortini, Paola; DI PIETRO, Romeo; Proietti, Elisa; Cardoni, Simone; Quaranta, Luca; Cosimo Simeone, Marco. - In: EUROPEAN JOURNAL OF FOREST RESEARCH. - ISSN 1612-4669. - 143:(2024), pp. 107-127. [10.1007/s10342-023-01610-8]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1704984
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