Microbial plankton play a critical role in global biogeochemical cycling, and while a vast amount of genomics data has been collected from microbial communities throughout the ocean, there remains a gap in connecting this data to ecosystems and biogeochemical cycles. One key question is how different genotypes influence an organism's environmental impact? Here, we scientists and designers have collaborated to develop an interactive visual tool that helps to better understand the relationships between microbial ecosystems and global biogeochemical cycling. The tool is an agent-based simulation model created in Processing programming environment based on seasonal abundance data collected from Narragansett Bay. The interactive visual story features three main narratives. First, is the role of genetic data in understanding the metabolic footprint of organisms and in turn the microbial loop in the ocean and global carbon cycle. Second, is the relationship between the relative abundance of organisms, the connections between these organisms, and seasonal changes in the ocean environment. The third is the links between phytoplankton, heterotrophic bacteria, and phages in relation to the ocean carbon cycle. We modeled each organism with unique properties that reflect their biological identities and interspecies relationships. Carbon is represented as a currency that is traded between organisms and their environment, changing form as it passes through each phase in the cycle. Users interact with the simulated ecosystem by adding organisms and altering environmental conditions. As the simulation plays out based on the agents' hardcoded properties and behaviors users discover inter-species interactions and observe direct associations between carbon sequestration and specific microbial communities. The gamification of these interactions encourages experimentation on the user's side and inculcates a deeper understanding of complex biological systems and their roles in global clim...