| Literature DB >> 24784898 |
Yi-Lung Yeh1, Kuei-Jyum Yeh2, Liang-Fong Hsu3, Wu-Chou Yu4, Ming-His Lee5, Ting-Chien Chen6.
Abstract
Humic substance (HS) in sediment can affect hydrophobic organic compound distribution, transportation, bioavailability, and toxicity. This study investigated the HS (BKHS) extracted from sediment and separated it into low molecular humic (LMHS, <1kDa) and high molecular humic substances (HMHS, 1kDa-0.45μm). Nonylphenol (NP), octylphenol (OP), and bisphenol A (BPA) have a significant sorption capacity for HMHS and BKHS solutions. They are xenoestrogenic endocrine-disrupting compounds that are widely produced and discharged to the environment. The log KHS values of the BKHS and HMHS solutions were between 4.74-5.09Lkg-C(-1) and 4.57-5.09Lkg-C(-1), respectively. However, the three compounds were not sorbed by the LMHS solution. The average values of SUVA254 for HMHS and LMHS were 4.29 and 1.31Lm(-1)mg-C(-1) and the average values of A250-400 for HMHS and LMHS were 18.1 and 4.51nmcm(-1), respectively. The HMHS peak position in the fluorescence excitation/emission matrix at longer wavelengths corresponded to the peak position of LMHS, which indicates that the HMHS had a higher degree of humification than the LMHS. The results suggested that the KHS value's dominant factor was the degree of HS humification.Entities:
Keywords: Excitation–emission matrix (EEM); Fluorescence quenching; Humic substances; Phenolic xenoestrogens; UV/vis indicators
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Year: 2014 PMID: 24784898 DOI: 10.1016/j.jhazmat.2014.03.057
Source DB: PubMed Journal: J Hazard Mater ISSN: 0304-3894 Impact factor: 10.588