Genetic diversity of Syagrus coronata and principal component analysis of phenotypic traits: a palm from the brazilian semiarid biome

Genetic diversity of Syagrus coronata and principal component analysis of phenotypic traits: a palm from the brazilian semiarid biome

Syagrus coronata (Arecaceae) is among the endemic species of Caatinga, a unique and fragile Brazilian biome. This palm has ecological and socioeconomic significance since its seeds have high oil and protein contents. Although the species is not under threat, it is in a vulnerable position due to int...

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Bibliographic Details
Published in:Biodiversity and conservation Vol. 32; no. 13; pp. 4275 - 4293
Main Authors: Neves, Geís Ferreira, Motoike, Sérgio Yoshimitsu, Kuki, Kacilda Naomi, Montoya, Sebastián Giraldo, Cruz, Cosme Damião, de Sousa, Wassali Valadares
Format: Journal Article
Language:English
Published: Dordrecht Springer Netherlands 01-11-2023
Springer
Springer Nature B.V
Subjects:
Analysis
Biodiversity
Biological diversity
Biomedical and Life Sciences
Biomes
Breeding
Climate Change/Climate Change Impacts
Conservation Biology/Ecology
Correlation analysis
Ecology
Ecosystems
Endemic species
Genetic diversity
Genetic programs
Genetic variation
Genotypes
Habitat selection
Life Sciences
Morphometry
Natural populations
Original Research
Principal components analysis
Seeds
Species diversity
Syagrus coronata
Visual inspection
Brazilian semiarid
Phenotype
Licuri palm
Morphological descriptor
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Summary:Syagrus coronata (Arecaceae) is among the endemic species of Caatinga, a unique and fragile Brazilian biome. This palm has ecological and socioeconomic significance since its seeds have high oil and protein contents. Although the species is not under threat, it is in a vulnerable position due to intense exploitation and severe biome fragmentation. Natural populations of S. coronata are found in the Caatinga remnant areas, including those located in Northern Minas Gerais. In this region, they occupy an ecotone, which enables potential diversity of this species given the different environmental pressures. To test this possibility, sets of genotypes from three locations were analyzed in terms of their morphometric traits. In general, Pearson’s correlation analysis indicated weak interaction between vegetative and reproductive traits. The high positive correlations found for vegetative traits may be because most of them are leaf-related features. A Mantel test indicated a weak linear relationship between the two groups of variables and, thus, a weak correspondence among the genetic clusters. The genotypes were arranged into several different groups by both the Tocher and UPGMA methods, which revealed considerable variability and dissimilarity regardless of their provenance. Visual inspection of the principal component analysis results indicated that the genotypes were categorized into one large group and numerous medium to small groups. The PCA results were also used to determine which morphological descriptors should be discarded due to their low contributions. This preliminary information can help genetic programs for the conservation and breeding of S. coronata.
ISSN:0960-3115
1572-9710
DOI:10.1007/s10531-023-02689-6