Weitz Group @ Georgia Tech Theoretical Ecology and Quantitative Biology



An empirical model of carbon flow through marine viruses and microzooplankton grazers

TitleAn empirical model of carbon flow through marine viruses and microzooplankton grazers
Publication TypeJournal Article
Year of Publication2019
AuthorsTalmy D, Beckett SJ, Taniguchi DAA, Brussaard CPD, Weitz JS, Follows MJ
JournalEnvironmental Microbiology
Abstract

Summary Viruses and microzooplankton grazers represent major sources of mortality for marine phytoplankton and bacteria, redirecting the flow of organic material throughout the world's oceans. Here, we investigate the use of nonlinear population models of interactions between phytoplankton, viruses, and grazers as a means to quantitatively constrain the flow of carbon through marine microbial ecosystems. We augment population models with a synthesis of laboratory-based estimates of prey, predator, and viral life history traits that constrain transfer efficiencies. We then apply the model framework to estimate loss rates in the California Current Ecosystem (CCE). With our empirically parameterized model we estimate that, of the total losses mediated by viruses and microzooplankton grazing at the focal CCE site, 22±3%, 46±27%, 3±2% and 29±20% were directed to grazers, sloppy feeding (as well as excretion and respiration), viruses, and viral lysate, respectively. We identify opportunities to leverage ecosystem models and conventional mortality assays to further constrain the quantitative rates of critical ecosystem processes. This article is protected by copyright. All rights reserved.

URLhttps://onlinelibrary.wiley.com/doi/abs/10.1111/1462-2920.14626
DOI10.1111/1462-2920.14626