Fluorescence Properties of the Air- and Freeze-Drying Treatment on Size-Fractioned Sediment Organic Matter

Cheng-Wen Chuang,Yung-Yu Liu,Chi-Ying Hsieh,Ting-Chien Chen,Wei-Shiang Huang

doi:10.3390/app11178220

Cheng-Wen Chuang, Yung-Yu Liu + Show 3 more

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https://doi.org/10.3390/app11178220

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Abstract

Sediment humic substance (SHS) is a highly heterogeneous and complex organic mixture with a broad molecular weight range. It is the significant component that associates distribution, transport, and biotoxicity of pollutants in a river environment. Air- and freeze-drying sediment pre-treatment may cause different biological activity and may result in different chemical quantities and sediment organic matter. This study collected sediments that received livestock wastewater discharge. The sediments were air- (AD) and freeze-dried (FD). The dried sediment organic matter was extracted with an alkaline solution and separated into three size-fractioned SHS samples. Size-fractioning is an effective method used to differentiate materials, on a molecular level. The bulk solution (<0.45 μm) was designated as BHS, and size-fractioned solutions were identified as LHS (<1 kDa), MHS (1–10 kDa), and HHS (10 kDa–0.45 μm). The AD SHS had a lower dissolved organic carbon (DOC) concentration than the FD SHS for the bulk and individual size-fractioned SHS, but the AD and FD SHS had a similar distribution of organic carbon in the size-fractioned SHS. The AD SHS had higher aromaticity (SUVA254) and an extent of humification (HIX) than the FD SHS. In addition, the high molecular weight SHS (HHS) had a higher SUVA254 but lower HIX than the MHS and LHS. The HHS had significantly lower fulvic acid but had higher humic acid-like substances than the MHS and LHS. This is possibly the reason the LHS had a higher humification degree but lower aromaticity than HHS. The size-fractioned SHS and optical indicators distinguished the difference between the chemical properties when air- or freeze-dried, due to the different degree of biological activities.

Highlights

Sediment dissolved organic matter (DOM) plays an essential role in the global biogeochemical cycling of carbon and nutrients [1,2]
The FD organic matter (OM) and total organic carbon (TOC) concentrations were higher than the AD but insignificantly different (p = 0.62 and 0.51, respectively)
In this study, sediment humic substance (SHS) was extracted from surface sediment that contained organic matter discharged from livestock wastewater

Summary

Introduction

Sediment dissolved organic matter (DOM) plays an essential role in the global biogeochemical cycling of carbon and nutrients [1,2]. The chemical structure and composition of SHS and the molecular weight are significant properties that associate pollutants distribution, transport, and biotoxicity in an aquatic environment [6,7,8,9,10]. The properties provide the particular sorption sites for hydrophobic organic compounds and heavy metals [6,8,9,11,12,13,14]. Other studies reported low molecular weight DOM having significant sorption capacity for organic pollutants and heavy metals [15,16,17,18]. The chemical structure and composition of SHS and DOM might be the significant factor that influences the pollutants distribution, transport, and binding capacity [3,6,18,19,20,21]

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