Bacterial Associations with Diatoms Influence Host Health in a Xenic Model System

Diatoms are photosynthetic unicellular eukaryotes found ubiquitously in aquatic systems. Microorganisms such as bacteria are frequently found attached to diatoms and may influence the fitness of their host. The most commonly used model organisms in studies of diatom-bacterial associations are Alteromonas and Marinobacter. Some strains of Alteromonas are capable of parasitism, producing chitinases or having algicidal interactions; some strains of Marinobacter are capable of mutualism, providing its host with vital nutrients. In this study, multiple strains of Alteromonas and Marinobacter were isolated from the centric diatom Chaetoceros sp KBDT20. Isolates were added back in varying concentration to cultures of their original xenic diatom host, and to cultures of a smaller, xenic naïve host, Chaetoceros sp. KBDT32. The growth rate of the diatom host was monitored using flow cytometry to assess the impact of the added bacterial isolates on host health. Our results suggest that all strains of Alteromonas tested have an antagonistic relationship with both the original as well as the naïve host while all strains of Marinobacter tested have a synergistic relationship with both diatom cultures. The functional basis for these relationships is being explored by supplementing xenic diatom cultures with materials essential for diatom growth that may be contributed by bacteria, such as B-vitamins and bioavailable trace metals. The colonization rates and competitive interactions between bacteria are investigated through surface colonization studies. The goal of this study is to better inform our understanding of how bacterial associates of diatom populations may contribute to their health, success, or failure in aquatic systems.