#Virus control
This exciting new research explores the influence of #virus #infection in changing the balance of organic matter degradation between #bacteria and #eukaryotes in #marine #carboncycling during #phytoplankton blooms.
Based on #mesocosm studies, this research demonstrates how #viruses infecting different #microorganisms change community dynamics and the release and potential fate of marine carbon from primary production.
Learn more in this new research in Nature Communications on:
https://www.nature.com/articles/s41467-023-36049-3
#microbiology #ecology #MicrobialEcology
This exciting new research explores the influence of #virus #infection in changing the balance of organic matter degradation between #bacteria and #eukaryotes in #marine #carboncycling during #phytoplankton blooms.
Based on #mesocosm studies, this research demonstrates how #viruses infecting different #microorganisms change community dynamics and the release and potential fate of marine carbon from primary production.
Learn more in this new research in Nature Communications on:
https://www.nature.com/articles/s41467-023-36049-3
#microbiology #ecology #MicrobialEcology
Viral infection switches the balance between bacterial and eukaryotic recyclers of organic matter during coccolithophore blooms - Nature Communications
Algal blooms are hotspots of marine primary production that play central roles in microbial ecology and global elemental cycling.Nature