Modern microbialites harbor an undescribed diversity of chromerid algae

Chromerid algae and the heterotrophic colpodellids together make up the chrompodellids, which are the closest known relatives to apicomplexan parasites [1]. As apicomplexans are prolific parasites of animals, including humans, their adaptation to parasitism from algal ancestors has garnered significant interest, and chromerids were instrumental in elucidating that evolution [2-5]. But the chromerids were also the first new algal group discovered in 100 years [2], and because so much attention has focused on comparisons with apicomplexans, the ecology of chromerid algae has remained surprisingly mysterious. They have predominately been considered to live only in association with corals, initially as intracellular coral symbionts. To test for a wider distribution of chromerids in nature, we have used plastid metagenomic binning combined with re-analysis of 18S rRNA metabarcoding data, which both support an expanded biogeographic range and ecological niche of chromerid algae by showing they are consistent associates of modern microbialites across the globe. Specifically, a broad and undescribed diversity of chromerid lineages is found in marine and also freshwater microbialites. This includes the recovery of a near-complete V. brassicaformis plastid genome and a second incomplete plastid genome from a new chromerid lineage from Highborne Cay thrombolites. This is the first concrete evidence that this under-sampled algal lineage lives outside some association with coral, including freshwater habitats, and sheds new light on the diversity and ecological range of the most recently discovered algal lineage.