Add to ORKGPhytoplankton growth and stoichiometry depend on the availability of multiple nutrients. We use a mathematical model of phytoplankton with flexible stoichiometry to explain patterns of phytoplankton composition in chemostat experiments and nutrient drawdown dynamics that are found in the field. Exponential growth and equilibrium represent two distinct phases, each amenable to mathematical analysis. In a chemostat at a fixed dilution (growth) rate, phytoplankton stoichiometry matches the nutrient supply stoichiometry over a wide range at low growth rates and over a narrow range at high growth rates. In a chemostat with a fixed nutrient supply stoichiometry, phyto-plankton stoichiometry varies with dilution rate nonlinearly, between the suppl...
The elemental composition of phytoplankton is a critical factor for primary production and nutrient ...
Nutrient availability and temperature are important drivers of phytoplankton growth and stoichiometr...
Nutrients such as nitrogen and phosphorus are required for the growth and survival of all organisms,...
Abstract Because phytoplankton live at the interface between the abiotic and the biotic compartments...
<p>(A) Klausmeier et al. <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.01077...
The elemental ratios of marine phytoplankton emerge from complex interactions between the biotic and...
International audienceA central concept for understanding the mechanisms linking diversity and prima...
Models of multiple potentially limiting nutrients currently employ either multiplicative or threshol...
Aims: We describe the different nutrients that phytoplankton require, their variation among phytopla...
Phytoplanktons are globally important organisms, responsible for up to 50 % of the world's prim...
AbstractCurrent parameterization of several important physiological rates using rectangular hyperbol...
We try to answer the question of to what extent details in nutrient uptake and phytoplankton physiol...
The elemental composition of phytoplankton is a critical factor for primary production and nutrient ...
Nutrient availability and temperature are important drivers of phytoplankton growth and stoichiometr...
Nutrients such as nitrogen and phosphorus are required for the growth and survival of all organisms,...
Abstract Because phytoplankton live at the interface between the abiotic and the biotic compartments...
<p>(A) Klausmeier et al. <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.01077...
The elemental ratios of marine phytoplankton emerge from complex interactions between the biotic and...
International audienceA central concept for understanding the mechanisms linking diversity and prima...
Models of multiple potentially limiting nutrients currently employ either multiplicative or threshol...
Aims: We describe the different nutrients that phytoplankton require, their variation among phytopla...
Phytoplanktons are globally important organisms, responsible for up to 50 % of the world's prim...
AbstractCurrent parameterization of several important physiological rates using rectangular hyperbol...
We try to answer the question of to what extent details in nutrient uptake and phytoplankton physiol...
The elemental composition of phytoplankton is a critical factor for primary production and nutrient ...
Nutrient availability and temperature are important drivers of phytoplankton growth and stoichiometr...
Nutrients such as nitrogen and phosphorus are required for the growth and survival of all organisms,...