An empirical model of the phytoplankton chlorophyll : carbon ratio‐the conversion factor between productivity and growth rate

Abstract

We present an empirical model that describes the ratio of phytoplankton chlorophyll a to carbon, Chl: C, as a function of temperature, daily irradiance, and nutrient‐limited growth rate. Our model is based on 219 published measurements of algal cultures exposed to light‐limited or nutrient‐limited growth conditions. We illustrate an approach for using this estimator of Chl: C to calculate phytoplankton population growth rate from measured primary productivity. This adaptive Chl: C model gives rise to interactive light‐nutrient effects in which growth efficiency increases with nutrient availability under low‐light conditions. One implication of this interaction is the enhancement of phytoplankton growth efficiency, in addition to enhancement of biomass yield, as a response to eutrophication.