Substrate-dependent shell morphology in a deep-sea vetigastropod limpet

Abstract

Having a noncoiled, limpet-like shell is a characteristic shared by numerous gastropod molluscs, including many lineages outside the true limpets (Patellogastropoda) where it has evolved convergently. The shell shape of limpet-formed gastropods has often been used as a key taxonomic character, and although studies have shown that it can vary depending on the substrate morphology, these have mostly been examples from true limpets. Over a dozen origins of limpet-form are known in Vetigastropoda, and these limpets are still generally assumed to have rather stable shell forms that are useful for taxonomy and species identification. Here, we show that the vetigastropod limpet Lepetodrilus nux (Okutani, Fujikura & Sasaki, 1993) from a deep-sea hot vent in the Okinawa Trough develop distinct shell forms when living on different substrate types. Sequences of the barcoding region of the mitochondrial cytochrome c oxidase subunit I gene among the three forms only differed by 0.31–0.63% (K2P distance) in a 637 bp alignment, in line with the differences in shell morphology being intraspecific. The extent of shell form shift seen in this species is likely the largest reported for a vetigastropod limpet and provide further evidence that such plasticity is not phylogenetically constrained but is an intrinsic part of having a limpet-like shell.