Resolving Microzooplankton Functional Groups In A Size-Structured Planktonic Model

Darcy Taniguchi1, Stephanie Dutkiewicz2, Michael J Follows2, Oliver Jahn3 and Susanne Menden-Deuer4, (1)MIT, Earth, Atmospheric, and Planetary Sciences, Cambridge, MA, United States, (2)Massachusetts Institute of Technology, Department of Earth, Atmospheric and Planetary Science, Cambridge, MA, United States, (3)MIT, Cambridge, MA, United States, (4)University of Rhode Island, Graduate School of Oceanography, Narragansett, RI, United States
Abstract:
Microzooplankton are important marine grazers, often consuming a large fraction of primary productivity. They consist of a great diversity of organisms with different behaviors, characteristics, and rates. This functional diversity, and its consequences, are not currently reflected in large-scale ocean ecological simulations. How should these organisms be represented, and what are the implications for their biogeography? We develop a size-structured, trait-based model to characterize a diversity of microzooplankton functional groups. We compile and examine size-based laboratory data on the traits, revealing some patterns with size and functional group that we interpret with mechanistic theory. Fitting the model to the data provides parameterizations of key rates and properties, which we employ in a numerical ocean model. The diversity of grazing preference, rates, and trophic strategies enables the coexistence of different functional groups of micro-grazers under various environmental conditions, and the model produces testable predictions of the biogeography.