Abstract
Many shallow-water tropical and subtropical foraminifera engage in photosymbiosis with eukaryotic microalgae. Some of these foraminifera appear to harbor a diverse consortium of endosymbiotic algae within a single host. Such apparent ability to contain different symbionts could facilitate change in symbiont community composition (symbiont shuffling) and mediate the ecological success of the group in a changing environment. However, the discovery of the intra-individual symbiont diversity was thus far based on symbiont culturing, which provides strong constraints on the vitality of the identified algae but provides poor constraints on their initial abundance and thus functional relevance to the host. Here we analyze the algal symbiont diversity in Pararotalia calcariformata, a benthic foraminifera sampled at four stations, inside and outside of a thermal plume in the eastern Mediterranean coast of Israel. This species has recently invaded the Mediterranean, is unusually thermally tolerant and was described previously to host at least one different diatom symbiont than other symbiont-bearing foraminifera. Our results using genotyping and isolation of algae in culture medium, confirm multiple associations with different diatom species within the same individual. Both methods revealed spatially consistent symbiont associations and identified the most common symbiont as a pelagic diatom Minutocellus polymorphus. In one case, an alternative dominant symbiont, the diatom Navicula sp., was detected by genotyping. This diatom was the third most abundant species identified using standard algae culturing method. This method further revealed a spatially consistent pattern in symbiont diversity of a total of seventeen identified diatom species, across the studied localities. Collectively, these results indicate that P. calcariformata hosts a diverse consortium of diatom endosymbionts, where different members can become numerically dominant and thus functionally relevant in a changing environment.
Highlights
Photosymbiosis is a widespread phenomenon among shallowdwelling marine organisms and appears to convey strong benefits to the host organisms, facilitating population densities and calcification rates that are unmatched by symbiont-barren relatives (Duguay, 1983; Lee et al, 2010)
We focus our study on the benthic foraminifera Pararotalia calcariformata, which is unusually thermally tolerant and where initial results indicated the presence of multiple symbiont types (Schmidt et al, 2015)
Comparison with the SILVA database revealed that 46 sequences, except one, were attributed to the diatom species Minutocellus polymorphus with the level of identity of 92–95% (Figure 3 and Supplementary Table 1)
Summary
Photosymbiosis is a widespread phenomenon among shallowdwelling marine organisms and appears to convey strong benefits to the host organisms, facilitating population densities and calcification rates that are unmatched by symbiont-barren relatives (Duguay, 1983; Lee et al, 2010). Many marine algal symbioses are not strictly specific: for example, corals and some foraminifera are associated with a high genetic diversity of the dinoflagellate Symbiodinium (e.g., Schoenberg and Trench, 1980; Momigliano and Uthicke, 2013). In corals, this endosymbiotic associations can comprise eight evolutionarily divergent clades (A–H) of Symbiodinium (Coffroth and Santos, 2005). This endosymbiotic associations can comprise eight evolutionarily divergent clades (A–H) of Symbiodinium (Coffroth and Santos, 2005) These clades are genetically distinct, and functionally diverse, facilitating ecological adaptations to local environments (Baker and Romanski, 2007; Wilkinson et al, 2015). Not in all cases endosymbiotic flexibility leads to higher thermal tolerance, so does the environmentally resistant massive coral Porites sp. exhibit low symbiont flexibility and harbors a taxonomically narrow Symbiodinium assemblages (Putnam et al, 2012)
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