Litcius/Paper detail

Diversity of Growth Rates Maximizes Phytoplankton Productivity in an Eddying Ocean

Mara Freilich, Glenn R. Flierl, Amala Mahadevan

2022Geophysical Research Letters31 citationsDOIOpen Access PDF

Abstract

Abstract In the subtropical gyres, phytoplankton rely on eddies for transporting nutrients from depth to the euphotic zone. But, what controls the rate of nutrient supply for new production? We show that vertical nutrient flux both depends on the vertical motion within the eddying flow and varies nonlinearly with the phytoplankton growth rate. Flux is maximized when the growth rate matches the inverse of the decorrelation timescale for vertical motion. Using a three‐dimensional ocean model and a linear nutrient uptake model, we find that phytoplankton productivity is maximized for a growth rate of 1/3 day −1 , which corresponds to the timescale of submesoscale dynamics. Variability in the frequency of vertical motion across different physical features of the flow favors phytoplankton production with different growth rates. Such a growth‐transport feedback can generate diversity in the phytoplankton community structure at submesoscales and higher net productivity in the presence of community diversity.

Topics & Concepts

PhytoplanktonProductivityDiversity (politics)Primary productivityOceanographyEnvironmental scienceBiologyEcologyEconomicsGeologyEcosystemPolitical scienceNutrientEconomic growthLawMarine and coastal ecosystemsMarine Biology and Ecology ResearchIsotope Analysis in Ecology