Drivers of Variation of the Zebrafish Egg Microbiome

Microbiomes are integral to the fitness of many animals, yet little is known about early-life microbiome assembly. What is known largely comes from studies in non-model organisms, where it is difficult to distinguish host genetics from the environment as drivers of microbiome assembly. Here, we used a popular vertebrate model, zebrafish (Danio rerio), to address the major drivers of environmental assembly in 124 individuals. We surveyed the egg microbiome from fertilization to hatching using 16S rRNA gene sequencing and investigated development stage and parentage as potential drivers of microbiome variation. Phylogenetic diversity of the egg microbiome decreased during development, suggesting that environmental filtering may be a major driver of community assembly. Parentage also had an influence on microbiome assembly; eggs derived from the same clutch were often more similar in microbiome composition compared to eggs derived from different clutches. The effect of parentage on microbiome similarity decreased over development, suggesting that parents may be an initial source of egg microbiome members. The egg microbiome undergoes dramatic compositional shifts during development. Understanding the drivers of this variation is important to consider, especially given the role of the microbiome in health and development, and that early exposure to microbes may shape later animal development. Our findings suggest that parents may serve as an important source of microbial symbionts to their offspring, even in an animal that does not provide parental care, such as laboratory zebrafish, and that the developing egg may play an increasingly important role in driving microbiome variation across individuals.