De novo innovation allows shark parasitism and global expansion of the barnacle Anelasma squalicola

De novo innovation allows shark parasitism and global expansion of the barnacle Anelasma squalicola

David J. Rees, Christoph Noever, Brit Finucci, Kareen Schnabel, Robin E. Leslie, Jim Drewery, Helge Olsen, Theil Bergum, Adele Dutilloy, Henrik Glenner

ABSTRACT:

The barnacle Anelasma squalicola is a marine epibiont found on members of the species-rich, deep-sea lantern shark family Etmopteridae (Figure 1A) but is unlike any other epibiotic thoracian barnacles [1]. While many barnacle species are associated with various marine animals including turtles and whales, with the exception of Anelasma these all retain a filter-feeding lifestyle and have a commensal relationship with their host; despite often being deeply embedded in the dermis, no other species has been reported as feeding on its host. Although Anelasma is fully equipped with cirri (thoracic appendages), these are no longer used for filter feeding [1]. Instead, Anelasma embeds a stalk with root-like structures into the flesh of the shark (Figure S1C in Supplemental Information, published with this article online) that it uses to parasitize its host. Here, we show that specimens of Anelasma sampled from all over the world show very little genetic differentiation, suggesting that this innovation coincided with a rapid worldwide expansion.

Current Biology, Volume 29, Issue 12, DOI 10.1016/j.cub.2019.04.053

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