Novel nitrifying symbiont lineages are vertically inherited and widespread in marine sponges

Ammonia-oxidising archaea and nitrite-oxidising bacteria are common members of marine sponge microbiomes. They derive energy for carbon fixation and growth from nitrification - the oxidation of ammonia to nitrite and further to nitrate - and are proposed to play essential roles in the carbon and nitrogen cycling of sponge holobionts. In this study, we characterise two novel nitrifying symbiont lineages, ‘ Ca . Nitrosokoinonia’ and ‘ Ca . Nitrosymbion’ in the marine sponge Coscinoderma matthewsi using a combination of molecular tools, single-cell imaging techniques, and physiological rate measurements. Both represent a new genus in the ammonia-oxidising archaeal class Nitrososphaeria and the nitrite-oxidising bacterial order Nitrospirales , respectively. Furthermore, we show that larvae of this viviparous sponge are densely colonised by representatives of ‘ Ca . Nitrosokoinonia’ and ‘ Ca . Nitrosymbion’ indicating vertical transmission. In adults, the representatives of both symbiont genera are located extracellularly in the mesohyl. Comparative metagenome analyses and physiological data suggest that ammonia-oxidising archaeal symbionts of the genus Ca . Nitrosokoinonia strongly rely on endogenously produced nitrogenous compounds (i.e., ammonium, urea, nitriles/cyanides, and creatinine) rather than on exogenous ammonium sources taken up by the sponge. Additionally, the nitrite-oxidising bacterial symbionts Ca . Nitrosymbion may reciprocally support the ammonia-oxidisers with ammonia via the utilisation of sponge-derived urea and cyanate. Interestingly, comparative analyses of published environmental 16S rRNA amplicon data revealed that ‘ Ca . Nitrosokoinonia’ and ‘ Ca . Nitrosymbion’ are widely distributed and predominantly associated with marine sponges and corals, suggesting a broad relevance of our findings. ### Competing Interest Statement The authors have declared no competing interest.