# Evaluating SSR marker transferability and plastid barcode variation in native Populus and Salix species of Türkiye

**Authors:** Funda Özdemir Değirmenci

PMC · DOI: 10.7717/peerj.20936 · 2026-03-17

## TL;DR

This study explores genetic differences in willow and poplar species in Türkiye using molecular markers to better understand their relationships and diversity.

## Contribution

The study provides new molecular data on native Populus and Salix species in Türkiye, an underrepresented region for such research.

## Key findings

- Populus and Salix species showed clear genetic differentiation.
- SSR markers and plastid barcodes revealed distinct patterns of genetic variation.
- matK was the most effective plastid marker for species discrimination.

## Abstract

Populus and Salix species are key components of forest and riparian ecosystems and hold substantial economic value in forestry, bioenergy, and restoration practices. In Türkiye, these genera are widely distributed across diverse ecological zones, yet regional molecular data remain limited. In this study, I examined genetic relationships among six native species—Populus nigra L., Populus alba L., Populus tremula L., Populus euphratica Olivier, Salix alba L., and Salix caprea L.—using an integrative molecular approach. Twelve nuclear microsatellite (simple sequence repeats; SSR) markers and three plastid DNA barcode regions (matK, rbcL, trnH–psbA) were employed to assess marker performance, genetic variation, and species-level relationships. The analyses revealed clear genetic differentiation between Populus and Salix and substantial variation among Populus species. SSR loci detected both conserved and lineage-specific alleles, with limited allele sharing between genera, while plastid barcodes showed marker-specific patterns of sequence variation and phylogenetic resolution. Among the plastid regions, matK provided the strongest discriminatory signal, whereas rbcL was more conservative and trnH–psbA exhibited higher variability. P. tremula and P. nigra displayed higher levels of sequence and allelic variation compared with the other taxa, whereas P. euphratica showed a more distinct genetic profile. The combined use of nuclear SSRs and plastid barcodes provided complementary insights into genetic structure and evolutionary relationships among selected Populus and Salix species. Although limited in taxon and marker coverage, this study contributes regionally focused molecular data from a biogeographically underrepresented area and provides a foundation for future multilocus and genome-wide investigations of Salicaceae diversity in Türkiye.

## Full-text entities

- **Genes:** trnH [NCBI Gene 4178278], matK [NCBI Gene 4178225], rbcL [NCBI Gene 4178172], psbA [NCBI Gene 4178158]
- **Species:** P. nigra [taxon 75824], Populus euphratica (Euphrates poplar, species) [taxon 75702], Salix alba (white willow, species) [taxon 75704], Salix (willows, genus) [taxon 40685], Salix caprea (species) [taxon 172267], Populus alba (abele, species) [taxon 43335], Populus tremula (European aspen, species) [taxon 113636], Populus nigra (black poplar, species) [taxon 3691]

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC13003949/full.md

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Source: https://tomesphere.com/paper/PMC13003949