4.8 Article

Spectroscopic fingerprints profiling the polysaccharide/protein/humic architecture of stratified extracellular polymeric substances (EPS) in activated sludge

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WATER RESEARCH
卷 235, 期 -, 页码 -

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PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.watres.2023.119866

关键词

Extracellular polymeric substances; Activated sludge; Ultraviolet-visible spectra; Fluorescence excitation-emission matrix; Organic component characteristics; Statistical analysis

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This study utilized spectroscopic fingerprinting techniques to explore the characteristics of EPS and revealed the interactions between chemical composition and wavelength-specific fluorescence responses. The differences in primary, secondary, and tertiary structures across the EPS layers were confirmed by various spectroscopic methods.
Extracellular polymeric substances (EPS), with a stratified structure including tightly-bound EPS (TB-EPS), loosely-bound EPS (LB-EPS), and soluble EPS (S-EPS) surrounding the microbial cells, are known to vitally affect the physicochemical and biological functions of activated sludge in wastewater treatment. Polysaccharides (PS), proteins (PN), and humic acids (HA) are key components of EPS but their roles in constructing the multi-layer architecture are still unclear. This study explored the EPS characteristics in relation to the components using spectroscopic fingerprinting techniques. Ultraviolet-visible (UV-vis) spectra demonstrated stark difference be-tween TB-EPS and other EPS. Fluorescence excitation-emission matrix (FEEM) and apparent quantum yield revealed further detailed differences. Fluorescence quotient analysis highlighted the dominance of TB-EPS, LB -EPS, and S-EPS in the excitation/emission wavelength (Ex/Em) region of Em = 350-400 nm, Em > 400 nm, and low-Stokes shift band (Em -Ex < 25 nm), respectively. Wavelength-wise prediction of the FEEM intensity was achieved through multiple linear regression against the chemical composition and variance partitioning analysis witnessed binary interactions of PSxHA and PSxPN in S-EPS, PNxHA and PSxPN in LB-EPS, and ternary interaction of PSxPNxHA in TB-EPS as well as the wavelength-specific fluorescence responses of these in-teractions. Further, X-ray photoelectron spectroscopy, infrared spectra, and circular dichroism spectra corrob-orated the differences in primary, secondary, and tertiary structures across the EPS layers. Ultrahigh-performance liquid chromatography-mass spectrometry detected molecular fragments confirming the multi-component hybridization among PS, PN, and HA. This study demonstrates a spectroscopic approach to sensi-tively fingerprint the fine structure of EPS, which has the potential for rapid monitoring of EPS and related sludge properties in wastewater treatment systems.

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