Imai Akio, Matsushige Kazuo, Nagai Takashi
National Institute for Environmental Studies, 16-2 Onogawa, Tsukuba, 305-0053 Ibaraki, Japan.
Water Res. 2003 Oct;37(17):4284-94. doi: 10.1016/S0043-1354(03)00310-5.
Dissolved organic matter (DOM) in water samples from the shallow eutrophic Lake Kasumigaura, the second largest lake in Japan, was fractionated and characterized by using resin adsorbents into 5 classes: aquatic humic substances (AHS), hydrophobic neutrals, hydrophilic acids (HiA), bases (BaS) and hydrophilic neutrals (HiN). Subsequently, the trihalomethane formation potential (THMFP), ultraviolet absorbance to dissolved organic carbon (UV:DOC) ratio, and molecular size distribution of the DOM, AHS and hydrophilic fractions (HiF) (HiF=HiA+BaS+HiN) were examined. The THMFP of HiF, normalized on a DOC basis, was found to be comparable to that of AHS (0.176 microM THM mg C(-1) vs. 0.195 microM THM mg C(-1), respectively). The importance of HiF over AHS as a THM precursor became more pronounced when THMFP was evaluated in terms of concentration. In this case, the THMFP of HiF was much greater than that of AHS (0.374 microM THM l(-1) vs. 0.229 microM THM l(-1), respectively). Molecular size distributions all exhibited a narrow size range and relatively low molecular weights. The weight-averaged molecular weights of DOM, AHS and HiF were 780, 957 and 606 g M(-1), respectively.
从日本第二大湖泊霞浦浅富营养化湖采集的水样中的溶解有机物(DOM),通过使用树脂吸附剂被分离并表征为5类:水生腐殖质(AHS)、疏水中性物、亲水酸(HiA)、碱(BaS)和亲水中性物(HiN)。随后,研究了三卤甲烷生成潜力(THMFP)、溶解有机碳的紫外吸光度与溶解有机碳的比率(UV:DOC)以及DOM、AHS和亲水组分(HiF)(HiF = HiA + BaS + HiN)的分子大小分布。基于DOC归一化的HiF的THMFP被发现与AHS的相当(分别为0.176 μM THM mg C⁻¹和0.195 μM THM mg C⁻¹)。当从浓度方面评估THMFP时,HiF作为THM前体相对于AHS的重要性变得更加明显。在这种情况下,HiF的THMFP远大于AHS的(分别为0.374 μM THM l⁻¹和0.229 μM THM l⁻¹)。分子大小分布均呈现出较窄的大小范围和相对较低的分子量。DOM、AHS和HiF的重均分子量分别为780、957和606 g M⁻¹。
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