Abstract

The basal metazoan phylum, Porifera (sponges), is increasingly used as a model to investigate ecological and evolutionary features of microbe-animal symbioses. However, sponges often host complex microbiomes, which has hampered our understanding of their interactions with their microbial symbionts. Here, we describe the discovery and characterisation of the simplest sponge holobiont reported to date, consisting of the deep-sea glass sponge Aphrocalistes beatrix and two newly described microbial symbionts: an autotrophic ammonia-oxidising archaeon and a bacterial heterotroph. Omics analyses and metabolic modelling revealed the dependency of the ammonia-oxidising archaea on sponge-derived ammonia to drive primary production, which in turn supports the bacterium's growth by providing the dicarboxylate fumarate. Furthermore, virus-mediated archaeal lysis appears crucial to overcome the bacterium's vitamin B12 auxotrophy. These findings reveal that the exchange of vitamin B12 and dicarboxylate may be evolutionarily conserved features of symbiosis as they can also be found in interactions between free-living marine bacteria, and between microbes and plants or diatoms.

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