Litcius/Paper detail

Mapping the biological activities of filamentous oxygenic photogranules

Hicham Ouazaite, Kim Milferstedt, Jérôme Hamelin, Elie Desmond‐Le Quéméner

2020Biotechnology and Bioengineering18 citationsDOIOpen Access PDF

Abstract

Abstract Oxygenic photogranules have been suggested as alternatives to activated sludge in wastewater treatment. Challenging for modeling photogranule‐based processes is the heterogeneity of photogranule morphologies, resulting in different activities by photogranule type. The measurement of microscale‐activities of filamentous photogranules is particularly difficult because of their labile interfaces. We present here an experimental and modeling approach to quantify phototrophic O 2 production, heterotrophic O 2 consumption, and O 2 diffusion in filamentous photogranules. We used planar optodes for the acquisition of spatio‐temporal oxygen distributions combined with two‐dimensional mathematical modeling. Light penetration into the photogranule was the factor controlling photogranule activities. The spatial distribution of heterotrophs and phototrophs had less impact. The photosynthetic response of filaments to light was detectable within seconds, emphasizing the need to analyze dynamics of light exposure of individual photogranules in photobioreactors. Studying other recurring photogranule morphologies will eventually enable the description of photogranule‐based processes as the interplay of interacting photogranule populations.

Topics & Concepts

PhototrophPhotobioreactorMicroscale chemistryHeterotrophBiological systemPhotosynthesisBiochemical engineeringBiologyEcologyEnvironmental scienceBotanyBiomass (ecology)BacteriaMathematics educationEngineeringGeneticsMathematicsMicrobial Fuel Cells and BioremediationWastewater Treatment and Nitrogen RemovalAnalytical Chemistry and Sensors