Litcius/Paper detail

Understanding the ionic hydrogel-forming property of extracellular polymeric substances: Differences in lipopolysaccharides between flocculent and granular sludge

Ji Li, Xiaodi Hao, Mark C.M. van Loosdrecht, Yuemei Lin

2024Water Research12 citationsDOIOpen Access PDF

Abstract

• Differences in LPS altered hydrogel-forming of EPS with calcium ions. • LPS constituted about 25 % and 15 % of the EPS from flocs and granules, respectively. • LPS in flocs exhibited a lower molecular weight of glycans and unsaturated lipids. • Invert structures of LPS-calcium in flocs contributed to fluid-like EPS-calcium hydrogels. • Bilaminar multilayers of LPS-calcium in granules displayed solid self-standing hydrogels. An interesting and potential property of extracellular polymeric substances (EPS) is the hydrogel formation with calcium ions. Aiming at understanding the significant difference in the hydrogel formed between EPS from flocculent and granular sludge, a targeted investigation of the lipopolysaccharides (LPS), one of the important EPS components, was performed. LPS was isolated from the EPS of flocculent and granular sludge, and both the glycan and the lipid A parts of LPS were characterized and compared. The morphology of LPS-calcium (LPS-Ca) aggregates were visualized by the polymyxin B-based fluorescent probe. The LPS constituted about 25 % and 15 % of the EPS from flocculent and granular sludge, respectively. The flocculent sludge LPS showed a lower amount of glycans, shorter glycan chain length, lower molecular weight, and higher possibility of containing unsaturated lipids than the granular sludge EPS. The flocculent sludge LPS-Ca aggregates demonstrated invert structures with the water phase in between, contributing to the fluid-like property of the respect EPS-Ca. In contrast, with the remarkably different chemical structure, LPS-Ca aggregates from granular sludge displayed bilaminar multilayered morphology, contributing to the solid, self-standing hydrogel of EPS-Ca.

Topics & Concepts

Extracellular polymeric substanceChemistryChemical engineeringExtracellularFlocculationIonic bondingExtracellular polysaccharidePulp and paper industryMicrobiologyPolysaccharideBiochemistryBacteriaOrganic chemistryBiologyBiofilmIonEngineeringGeneticsHydrogels: synthesis, properties, applicationsWastewater Treatment and Nitrogen Removal