Background: Plant-associated microbiomes, which are shaped by host and environmental factors, support their hosts by providing nutrients and attenuating abiotic and biotic stresses. Although host genetic factors involved in plant growth and immunity are known to shape compositions of microbial communities, the effects of host evolution on microbial communities are not well understood. Results: We show evidence that both host speciation and domestication shape seed bacterial and fungal community structures. Genome types of rice contributed to compositional variations of both communities, showing a significant phylosymbiosis with microbial composition. Following the domestication, abundance inequality of bacterial and fungal communities also commonly increased. However, composition of bacterial community was relatively conserved, whereas fungal membership was dramatically changed. These domestication effects were further corroborated when analyzed by a random forest model. With these changes, hub taxa of inter-kingdom networks were also shifted from fungi to bacteria by domestication. Furthermore, maternal inheritance of microbiota was revealed as a major path of microbial transmission across generations. Conclusions: Our findings show that evolutionary processes stochastically affect overall composition of microbial communities, whereas dramatic changes in environments during domestication contribute to assembly of microbiotas in deterministic ways in rice seed. This study further provides new insights on host evolution and microbiome, the starting point of the holobiome of plants, microbial communities, and surrounding environments. Background The evolution of life on Earth is driven by natural selection, biased mutation, genetic drift, genetic hitchhiking, and gene flow. Regardless of plants, animals, or microorganisms, it has been ongoing for millions of years. Unlike the majority of organisms, crop plants have undergone a distinct evolutionary process called domestication. Plant domestication began~12,000 years ago and 353 food crop plants including rice, wheat, barley, potato, and tomato have undergone domestication [1]. Most crop plants have been selected and been bred for better yield and quality by anthropogenic intervention. In rice, the evolution spans about 15 million years [2]. In the genus Oryza, there are 22 wild relatives which are distributed in Asia, Africa, Australia, and America (Fig. 1). Polyploidization and other evolutionary events contribute to speciation of Oryza species [3]. With the speciation, 8000-9000 years ago, O. sativa subsp. japonica, O. sativa subsp. indica, and O. glaberrima were domesticated from the wild relatives, O. rufipogon, O. nivara, and O. barthii, respectively [2]. These domesticated rice species have been further diversified by breeding to acquire desirable agronomic traits. The phenotypes of the humans, animals, and plants are determined not only by their own genetic makeups but by their associated microbial communities. Hostassociated microbial communities show signi...
