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Multiple reversals of chirality in the land snail genus Albinaria (Gastropoda, Clausiliidae)
Author(s) -
Kornilios Panagiotis,
Stamataki Eirini,
Giokas Sinos
Publication year - 2015
Publication title -
zoologica scripta
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.204
H-Index - 64
eISSN - 1463-6409
pISSN - 0300-3256
DOI - 10.1111/zsc.12125
Subject(s) - sinistral and dextral , biology , monophyly , gastropoda , phylogenetic tree , evolutionary biology , paleontology , genus , clade , zoology , genetics , tectonics , gene
Reversed chirality has frequently evolved in snails, although the vast majority coils dextrally. However, there are often sinistral species within a dextral genus or almost exclusively sinistral families, such as the Clausiliidae. Some populations of the predominantly sinistral clausiliid genus Albinaria , in the southern Greek mainland, coil dextrally. The origin, evolution and distribution of the dextral Albinaria are puzzling, and as there is no reliable phylogenetic reconstruction for this speciose genus, it remains unclear how many times a shift in chirality has really occurred. In this study, our aim was to elucidate the evolutionary pathways of dextrality in Albinaria . We undertook a molecular phylogenetic analysis of two mt DNA (16S and COI ) and one nDNA marker ( ITS 1) and included dextral and sinistral representatives found in syntopy or not. Both mt DNA and nDNA tree topologies imply that dextrals did not evolve as a monophyletic lineage. Instead, dextral lineages have evolved from sinistral ancestors multiple times independently. The fragmented population structure in Albinaria facilitates genetic drift and contributes to fixation of the opposite chirality and overcoming of the mating disadvantage of left–right reversal. Stochastic phenomena and biogeographical barriers have trapped those reversals in a limited geographical area.

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