Microbial Mortality Rates in Support of Model Development in Three Distinct Ocean Regimes

Paige Elizabeth Connell1, Alyssa G Gellene1, Victoria Campbell2, Sarah K Hu1, Kevin R Arrigo3 and David A Caron1, (1)University of Southern California, Biological Sciences, Los Angeles, CA, United States, (2)University of Washington, Seattle, WA, United States, (3)Stanford University, Earth System Science, Stanford, CA, United States
Abstract:
Quantitative assessments of trophic interactions have become increasingly important in plankton research with the recognition that delicate balances between predators and prey strongly influence biogeochemical cycles. As the modeling community continues to increase the complexity of ecosystem models in order to improve their predictive power, understanding the balances of production and loss across spatial and seasonal scales is critical. We measured the growth and mortality rates of the total phytoplankton community and key picophytoplankton groups (Synechococcus, Prochlorococcus, and photosynthetic picoeukaryotes) using a modified dilution method, as well as bacterial mortality rates via FLB (fluorescently-labeled bacteria) disappearance incubations. Community composition was assessed using microscopy and flow cytometry. Measurements were conducted in three climatic regions: coastal waters of the Southern California Bight, The Chukchi Sea, and the North Pacific Subtropical Gyre. Local seasonal variability was also assessed quarterly (January, April, July, October) in the Bight. These measurements provided insight into the relative turnover rates of key microbial groups and the microbial population dynamics of disparate ocean regimes. This study will aid our ability to construct predictive ecosystem models through the application of community composition and rate data to model parameterization.