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Aquatic Microbial Ecology


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AME 90:141-156 (2024)  -  DOI: https://doi.org/10.3354/ame02013

Mortality partitioning between viral lysis and microzooplankton grazing in successive phytoplankton blooms using dilution and molecular methods

Kyle M. J. Mayers1,*, Katrine Sandnes Skaar1, Sigrid Mugu1, Elizabeth L. Harvey2, Aud Larsen1

1NORCE Norwegian Research Centre, Bergen 5008, Norway
2Department of Biological Sciences, University of New Hampshire, Durham, NH 03824, USA
*Corresponding author:

ABSTRACT: Phytoplankton play crucial roles in aquatic ecosystems, serving as the foundation of marine food webs and being responsible for ~50% of the world’s oxygen production. Predation by microzooplankton and viral lysis are the major sources of phytoplankton mortality, with the balance between these 2 processes affecting microbial food webs and biogeochemical cycles. However, determining the dominant mortality process in time and space remains an open question. This study investigated microzooplankton grazing and viral lysis rates during a mesocosm experiment in western Norway. High-resolution measurements were determined on phytoplankton groups using flow cytometry to observe changes in mortality rates and carbon flow during phytoplankton blooms. Digital droplet PCR was employed to detect Emiliania huxleyi and Micromonas spp. and associated viruses within environmental samples, to explore its use for determining mortality processes and understanding the impact on the phytoplankton community. The results showed that grazing and viral lysis dominated mortality at different times, with only one significant instance of both processes being observed. Microzooplankton grazing primarily affected picoplankton, while nanoeukaryotes and E. huxleyi were more susceptible to viral lysis. Molecular detection did not always match with abundances or rates determined by flow cytometry; however, it did provide insights into their dynamics throughout the mesocosm. These findings provide insights into the complex interactions between microzooplankton, viruses and phytoplankton communities. Understanding the balance between microzooplankton grazing and viral lysis can contribute to a more comprehensive understanding of carbon flow in aquatic ecosystems, which has significant implications for food webs and biogeochemical cycles.


KEY WORDS: Phytoplankton · Microzooplankton · Virus · Predator-prey · Biogeochemistry · Droplet digital PCR · ddPCR · Coccolithophore


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Cite this article as: Mayers KMJ, Sandnes Skaar K, Mugu S, Harvey EL, Larsen A (2024) Mortality partitioning between viral lysis and microzooplankton grazing in successive phytoplankton blooms using dilution and molecular methods. Aquat Microb Ecol 90:141-156. https://doi.org/10.3354/ame02013

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