Multiple microalgal partners in symbiosis with the acantharian Acanthochiasma sp. (Radiolaria)

TitreMultiple microalgal partners in symbiosis with the acantharian Acanthochiasma sp. (Radiolaria)
Type de publicationJournal Article
Year of Publication2012
AuteursDecelle, J, Siano, R, Probert, I, Poirier, C, Not, F
JournalSymbiosis
Volume58
Ticket1-3
Pagination233 - 244
Date PublishedJan-12-2012
ISSN0334-5114
Résumé

Acantharia (Radiolaria) are widespread and abundant heterotrophic marine protists, some of which can host endosymbiotic eukaryotic microalgae. Although this photosymbiotic association was first described at the end of the 19th century, the diversity of the symbiotic microalgae remains poorly characterized. Here, we examined the identity of the microalgae associated with the acantharian species Acanthochiasma sp. by sequencing partial 18S and internal transcribed spacer (ITS) ribosomal DNA genes from cultured symbionts and directly from isolated holobiont specimens. Single Acanthochiasma cells contained multiple symbiotic partners, including distantly related dinoflagellates (Heterocapsa sp.Pelagodinium sp., Azadinium sp. and Scrippsiella sp.) as well as a haptophyte (Chrysochromulina sp.). This original association of multiple symbiotic microalgae within a single host cell raises questions about the specificity and functioning of the relationship. These microalgae exhibit the common ecological feature of being abundant and widely distributed in coastal and oceanic waters, some occasionally forming extensive blooms. Some of the microalgal genera found in association with Acanthochiasma (i.e. Pelagodinium and Chrysochromulina) are known to occur in symbiosis with other heterotrophic protists such as Foraminifera and other Radiolaria, whereas Heterocapsa, Scrippsiella and Azadinium have never previously been reported to be involved in putative symbiotic relationships. The unusual association unveiled in this study contributes to our understanding of the ecological and evolutionary significance of photosymbiosis in Acantharia and also provides new insights into the nature of such partnerships in the planktonic realm.

URLhttp://link.springer.com/10.1007/s13199-012-0195-xhttp://link.springer.com/content/pdf/10.1007/s13199-012-0195-x
DOI10.1007/s13199-012-0195-x
Short TitleSymbiosis