Identification assisted by molecular markers of larval parasites in two limpet species (Patellogastropoda: Nacella) inhabiting Antarctic and Magellan coastal systems

In the Southern Ocean, many parasites of vertebrates (mainly helminth groups) have been recognized as endemic species, but parasites of marine invertebrates remain almost unknown. It is reasonable to assume that digenean larvae will parasitize gastropods, bivalves, amphipods, and annelids, the usual...

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Bibliographic Details
Published in:Polar Biology
Main Authors: Flores, K., López, Z., Levicoy, D., Muñoz Ramírez, Carlos, González Wevar, Claudio, Oliva, M. E., Cárdenas, L.
Format: Article in Journal/Newspaper
Language:English
Published: Springer Verlag 2019
Subjects:
Digenean parasites
Molecular markers
Nacella concinna
Nacella deaurata
Southern Ocean
Antarctic
Nacella
The Antarctic
Antarc*
Polar Biology
Online Access:https://doi.org/10.1007/s00300-019-02511-6
https://repositorio.uchile.cl/handle/2250/172591
Description
Summary:In the Southern Ocean, many parasites of vertebrates (mainly helminth groups) have been recognized as endemic species, but parasites of marine invertebrates remain almost unknown. It is reasonable to assume that digenean larvae will parasitize gastropods, bivalves, amphipods, and annelids, the usual first and second intermediate hosts for those parasites. Here, using an identification assisted by molecular markers, we report the Digenea species parasitizing the most abundant limpet species inhabiting ice-free rocky intertidal and subtidal zones of the Southern Ocean, viz. Nacella concinna from the Antarctic and Nacella deaurata from the Magellan region. The limpets harbored larval Digenea (two metacercariae and one sporocyst). Phylogenetic analysis based on the multilocus tree supported the hypothesis that N. concinna is parasitized by a species of Gymnophallidae, whereas the limpet N. deaurata is parasitized by Gymnophalloides nacellae and a species of Renicolidae. In addition, differences in prevalence and intensity were also recorded between the two compared host species and also from other congeneric species. This new knowledge in parasite species in marine invertebrates from the Southern Ocean reveals the presence of a particular parasite fauna and confirms the utility of molecular tools to identify biodiversity still scarcely known.

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