Abstract
Reef-building corals form symbiotic relationships with dinoflagellates of the genus Symbiodinium. Symbiodinium are genetically and physiologically diverse, and corals may be able to adapt to different environments by altering their dominant Symbiodinium phylotype. Notably, each coral species associates only with specific Symbiodinium phylotypes, and consequently the diversity of symbionts available to the host is limited by the species specificity. Currently, it is widely presumed that species specificity is determined by the combination of cell-surface molecules on the host and symbiont. Here we show experimental evidence supporting a new model to explain at least part of the specificity in coral–Symbiodinium symbiosis. Using the laboratory model Aiptasia–Symbiodinium system, we found that symbiont infectivity is related to cell size; larger Symbiodinium phylotypes are less likely to establish a symbiotic relationship with the host Aiptasia. This size dependency is further supported by experiments where symbionts were replaced by artificial fluorescent microspheres. Finally, experiments using two different coral species demonstrate that our size-dependent-infection model can be expanded to coral–Symbiodinium symbiosis, with the acceptability of large-sized Symbiodinium phylotypes differing between two coral species. Thus the selectivity of the host for symbiont cell size can affect the diversity of symbionts in corals.
Highlights
Endosymbiotic dinoflagellates of the genus Symbiodinium reside in many cnidarian organisms, such as reef-building coral, sea anemone, jellyfish and hydrocoral (Davy et al, 2012)
Using the laboratory model Aiptasia–Symbiodinium system, we found that symbiont infectivity is related to cell size; larger Symbiodinium phylotypes are less likely to establish a symbiotic relationship with the host Aiptasia
Large-sized Symbiodinium strains failed to infect Aiptasia We used cultured Symbiodinium strains isolated from different host taxa, including scleractinian coral, sea anemone, octocoral, jellyfish, zoanthid and giant clams (Supplementary Table S1)
Summary
Endosymbiotic dinoflagellates of the genus Symbiodinium reside in many cnidarian organisms, such as reef-building coral, sea anemone, jellyfish and hydrocoral (Davy et al, 2012). The degree of relationship between clade and cell size were specificity differed among both the host species obtained from Buffalo Undersea Reef Research and the Symbiodinium phylotypes It was found that molecular insignis) isolated from Okinawa (Japan) 410 years patterns, that is, glycans, differ among Symbiodi- ago (Belda-Baillie et al, 2002) This Aiptasia nium strains (Wood-Charlson et al, 2006; Logan originally harbored a clade B Symbiodinium (Genet al., 2010), suggesting that the combination of cell- Bank accession number AF289267; Belda-Baillie surface molecules on the host and symbiont could et al, 2002). Infection was determined by examination in a separate container with fresh seawater to avoid counting the Symbiodinium cells in the media. Mf1.05b CS-164 CCMP2470 CCMP2462 CCMP2459 CCMP2458 CCMP2464 CCMP2457 CCMP2467 CCMP2465 M2456 Zs(H412) L2469 L830 L1633
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