Litcius/Paper detail

Quantifying nitrogen fixation by heterotrophic bacteria in sinking marine particles

Subhendu Chakraborty, Ken H. Andersen, André Visser, Keisuke Inomura, Michael J. Follows, Lasse Riemann

2021Nature Communications73 citationsDOIOpen Access PDF

Abstract

Nitrogen ([Formula: see text]) fixation by heterotrophic bacteria associated with sinking particles contributes to marine N cycling, but a mechanistic understanding of its regulation and significance are not available. Here we develop a mathematical model for unicellular heterotrophic bacteria growing on sinking marine particles. These bacteria can fix [Formula: see text] under suitable environmental conditions. We find that the interactive effects of polysaccharide and polypeptide concentrations, sinking speed of particles, and surrounding [Formula: see text] and [Formula: see text] concentrations determine the [Formula: see text] fixation rate inside particles. [Formula: see text] fixation inside sinking particles is mainly fueled by [Formula: see text] respiration rather than [Formula: see text] respiration. Our model suggests that anaerobic processes, including heterotrophic [Formula: see text] fixation, can take place in anoxic microenvironments inside sinking particles even in fully oxygenated marine waters. The modelled [Formula: see text] fixation rates are similar to bulk rates measured in the aphotic ocean, and our study consequently suggests that particle-associated heterotrophic [Formula: see text] fixation contributes significantly to oceanic [Formula: see text] fixation.

Topics & Concepts

Nitrogen fixationHeterotrophBacteriaMarine bacteriophageNitrogenBiologyEnvironmental scienceEcologyOceanographyChemistryGeologyGeneticsOrganic chemistryMicrobial Community Ecology and PhysiologyMarine and coastal ecosystemsMethane Hydrates and Related Phenomena