4.7 Article

Accessing Ancestral Origin and Diversity Evolution by Net Divergence of an Ongoing Domestication Mediterranean Olive Tree Variety

Journal

FRONTIERS IN PLANT SCIENCE
Volume 12, Issue -, Pages -

Publisher

FRONTIERS MEDIA SA
DOI: 10.3389/fpls.2021.688214

Keywords

Olea europaea; genetic diversity; genetic erosion; SSR; ancient and centennial trees; minimum spanning tree

Categories

Funding

  1. Fundo Europeu de Desenvolvimento Regional (FEDER) [PDR2020-7.8.4-FEADER042744, POCI-01-0246-FEDER026758]
  2. FCT (Fundacao para a Ciencia e a Tecnologia)
  3. MCTES (Ministerio da Ciencia, Tecnologia e Ensino Superior)
  4. Association BLC3 [SFRH/BDE/102401/2014]
  5. RD Unit [UIDB/04551/2020]
  6. Center Bio RD Unit [UID/05083/2020]
  7. Center of Excellence for Biodiversity and Molecular Plant Breeding (CoE CroP-BioDiv), Zagreb, Croatia [KK.01.1.1.01.0005]

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The genetic analysis of 595 Olea europaea 'Galega vulgar' trees revealed significant genetic and morphological variability, suggesting a monoclonal origin and genetic erosion. The study highlights the importance of recovering lost diversity in this traditional olive variety and investing in the protection of valuable genetic resources. The approach used in this study could be applicable to other diverse olive varieties as well.
Olea europaea 'Galega vulgar' variety is a blend of West and Central Mediterranean germplasm with cultivated-wild admixture characteristics. 'Galega vulgar' is known for its high rusticity and superior-quality olive oil, being the main Portuguese variety with high impact for bioeconomy. Nevertheless, it has been replaced by higher-yielding and more adapted to intensive production foreign varieties. To clarify the potential ancestral origin, genetic diversity evolution, and existing genetic relationships within the national heritage of 'Galega vulgar', 595 trees, belonging to ancient and centenary age groups and prospected among ten traditional production regions, were characterized using 14 SSR markers after variety validation by endocarp measurements. Ninety-five distinguishable genets were identified, revealing the presence of a reasonable amount of intra-genetic and morphological variability. A minimum spanning tree, depicting the complete genealogy of all identified genets, represented the 'Galega vulgar' intra-varietal diversity, with 94% of the trees showing only a two-allele difference from the most frequent genet (C001). Strong correlations between the number of differentiating alleles from C001, the clonal size, and their net divergence suggested an ancestral monoclonal origin of the 'Galega vulgar', with the most frequent genet identified as the most likely origin of all the genets and phenotypic diversification occurring through somatic mutations. Genetic erosion was detected through the loss of some allele combinations across time. This work highlights the need to recover the lost diversity in this traditional olive variety by including ancient private genets (associated with potential adaptation traits) in future breeding programs and investing in the protection of these valuable resources in situ by safeguarding the defined region of origin and dispersion of 'Galega vulgar'. Furthermore, this approach proved useful on a highly diverse olive variety and thus applicable to other diverse varieties due either to their intermediate nature between different gene pools or to the presence of a mixture of cultivated and wild traits (as is the case of 'Galega vulgar').

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