Population genetic data for freshwater mussels: Unio crassus and Unio nanus in Europe
Data files
Sep 10, 2025 version files 266.50 KB
-
1_Individual_Microsatellite_Data.xlsx
135.09 KB
-
2_Individual_Sequence_Data.fas
129.39 KB
-
README.md
2.01 KB
Abstract
Historically, the thick-shelled river mussel (Unio crassus agg. complex) was considered a single, widespread species across Europe. However, recent phylogenetic taxonomic revisions have delineated 12 species from this complex, including Unio crassus (s. str. Philipsson in Retzius, 1788), Unio nanus (Lamarck, 1819 stat. rev.), which exhibit substantial range overlap and broad European distributions. Understanding their fine-scale genetic diversity, population structure, and potential for recent or ancient hybridization is critical for effective conservation planning. This study investigated the genetic diversity and structure of U. crassus and U. nanus across Europe, examining the influence of glacial disturbance history and host fish associations. Using mitochondrial (COI) and nuclear (microsatellite) markers on 60 populations, we revealed a discordance between mitochondrial and nuclear structuring, suggesting ancient introgression. Crucially, no evidence of recent hybridization was detected between U. crassus and U. nanus. We found significantly higher nuclear genetic diversity in U. crassus compared to U. nanus. Our findings indicate an older Black Sea–Caspian Sea divergence and ancient introgression between U. nanus and U. crassus, as well as distinct postglacial colonization routes: a Western route for U. nanus and an Eastern route for U. crassus, converging in a secondary contact zone. Our results highlight the strong influence of host fish associations and glacial history in shaping the genetic patterns of these mussels, underscoring the need to incorporate intraspecific genetic diversity into conservation strategies. As shell morphology proved unreliable for species identification, we recommend DNA barcoding for reliable species recognition and suggest further research into host-fish preferences to improve conservation efforts.
1. Dataset Overview
This dataset contains raw and processed genetic data used in the study investigating the population structure, genetic diversity, and evolutionary history of two European freshwater mussel species, Unio crassus (the thick-shelled river mussel) and Unio nanus.
The data comprises mitochondrial cytochrome c oxidase subunit I (COI) sequences and nuclear microsatellite genotypes. This research aims to understand historical gene flow, identify instances of ancient introgression, and provide insights for conservation management of these often threatened species across their European ranges.
2. Data Files
This directory contains the primary genetic data files.
1_Individual_Microsatellite_Data.xlsx: Excel table containing raw microsatellite genotypes for all individuals across all loci.2_Individual_Sequence_Data.fas: FASTA file containing all aligned mitochondrial COI sequences.
3. Methods
Microsatellite data
Microsatellite genotyping was performed on 1531 specimens using a set of eight loci (Uc5, Uc15, Uc16, Uc19, Uc25, Uc39, Uc69, Uc77).
For initial input file preparation of Microsatellite raw data the EXCEL MICROSATELLITE TOOLKIT 3.1 was used.
COI sequence data
Mitochondrial DNA (mtDNA) analysis was conducted on a subset of 300 specimens.
Sequences were aligned and trimmed to a standardized length of 442 bp using MEGA11 software.
4. Metadata
Detailed metadata is available in the Supporting Information Table S1 of the associated publication.
Table S1 contains the sampling characteristics of 60 populations: population code (POPID), species, river name, drainage system, country, geographic coordinates (WGS84), sample material (TS: tissue, HL: hemolymph), reference to used microsatellite data, sample size used for microsatellite analysis (NMs), for cytochrome c oxidase subunit I analysis (NCOI) and for shell outline analysis (NEFD).