During the implemented period (7 months), AlgaeSphere successfully carried out key foundational activities. A major field sampling campaign was organized in collaboration with local stakeholders, resulting in the collection of rice plants and associated rhizosphere material. These samples enabled the establishment of a controlled laboratory microcosm system to test the effect of algal inoculation on rice seedlings under reproducible conditions.
The project generated two valuable biological resources: (1) a collection of approximately 50 axenic algal isolates representing diverse morphotypes, and (2) a large rhizosphere bacterial isolate library built using high-throughput community-based culturing approaches. In parallel, experimental workflows were optimized for algal isolation, DNA extraction, sample preservation, and plant phenotyping. Microcosm endpoint samples were stored for future sequencing-based analysis of microbial community composition.
Although the fellowship ended early due to the researcher’s recruitment into a permanent academic position at the host institution, the work performed established the experimental and biological foundation needed to complete the remaining analyses and develop synthetic algal–bacterial communities in follow-up research.