TY - JOUR T1 - Adaptation, Specialization, and Coevolution within Phytobiomes JF - bioRxiv DO - 10.1101/120493 SP - 120493 AU - David A. Baltrus Y1 - 2017/01/01 UR - http://biorxiv.org/content/early/2017/03/24/120493.abstract N2 - Growth patterns of individual plants and evolutionary trajectories of plant communities are intimately linked with and are critically affected by host-associated microbiomes. Research across systems has begun to shed light on how these phytobiomes are established and under laboratory and natural conditions, and have cultivated hope that a better understanding of the governing principles for host-microbe interactions can guide attempts to engineer microbiomes to boost agricultural yields. One important, yet relatively understudied, parameter in regards to phytobiome membership is the degree to which specialization and coevolution between plant species and microbial strains structures these communities. In this article, I provide an broad overview about current knowledge concerning mechanisms enabling adaptation and specialization of phytobiome communties to host plants as well as the potential for plants themselves to recruit and cultivate interactions with beneficial microbes. I further explore the possibility of host-beneficial microbe coevolution and suggest interactions that could promote the evolution of such close-knit partnerships. It is my hope that this overview will encourage future experiments that can begin to fill in this black box of ecological and evolutionary interactions across phytobiomes. ER -