The Coupled Effect of Light and Iron on the Photogranulation Phenomenon

Abstract: Cyanobacteria occasionally self-immobilize and form spherical aggregates. This photogranulation phenomenon is central for oxygenic photogranules, which present potential for aeration-free and net-autotrophic wastewater treatment. Light and iron are tightly coupled via photochemical cycling of Fe, suggesting that phototrophic systems continually respond to their combined effects. Thus far, photogranulation has not been investigated from this important aspect. Here, we studied the effects of light intensity on t… Show more

“…This finding aligns with previous hydrostatic photogranules studies, indicating that cyanobacteria granulate more effectively under the limitation of both EPS and Fe bound with EPS. 3,12,38 Conversely, the PN/PS ratio of spherical photogranules was much higher than that of disk photogranules. The PN/PS ratio, indicating the proportion of hydrophobic to hydrophilic polymers in EPS, can offer insights into the settleability of granules.…”

Water quality indicators influencing the formation and morphology of hydrostatically-formed photogranules

“…This finding aligns with previous hydrostatic photogranules studies, indicating that cyanobacteria granulate more effectively under the limitation of both EPS and Fe bound with EPS. 3,12,38 Conversely, the PN/PS ratio of spherical photogranules was much higher than that of disk photogranules. The PN/PS ratio, indicating the proportion of hydrophobic to hydrophilic polymers in EPS, can offer insights into the settleability of granules.…”

Water quality indicators influencing the formation and morphology of hydrostatically-formed photogranules

Performance prediction of sludge volume index of oxygenic photogranule based wastewater treatment system using machine learning algorithms