Phylogenetic relationship between birds and their magneto-microbiome

Animals from a wide taxonomic range can sense earths magnetic field, however the underlying mechanism remains one of sensory-biology greatest mysteries. One hypothesis suggests that Magnetotactic bacteria (MTB) serve as the underlying mechanism. This hypothesis predicts that MTB will be detected in animal microbiomes and might show a phylogenetic relationship with their hosts. We examined the phylogenetic relationship between various MTB species across 4,048 avian species using databases of MTB genetic presence across the tree of life and an avian phylogenetic tree. We documented 12 genera of MTB in association with 185 avian species. Three genera, Magnetospirillum, Magnetovibrio and Solidesulfovibrio, were found at relative high prevalence of positive samples (84%, 33%, 12% respectively). Further, Magnetospirillum showed a significant phylogenetic relationship with avian species in general and specifically within Psittaciformes, and Passeriformes. Our results demonstrate the power of harnessing the newly published MTB-database, with specific host-related queries. This analysis, to the best of our knowledge has never been done, and could be replicated across the animal kingdom. The relationship detected suggests an evolutionary and ecological relationship between MTB and avian hosts. These results are consistent with the symbiotic magnetic sensing hypothesis and highlights the potential role of microbiome in sensory physiology.