Tracing fluorescent dissolved organic matter (fDOM) characteristics and water quality parameters: Insights from an urban industrial river to marine zone.

IF 2.5 4区 环境科学与生态学 Q3 ENGINEERING, ENVIRONMENTAL
Md Abid Azad Sakib, Osman Miah, Nahin Mostofa Niloy, Md Morshedul Haque, Mashura Shammi, Shafi Mohammad Tareq
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引用次数: 0

Abstract

This study aims to identify continuous water quality changes and identify fluorescence properties from urban rivers to marine zones. Various types of natural and anthropogenic sources derived dissolved organic matter (DOM) have been identified in this study. These include soil-derived DOM, plant remnants, and soluble particles produced when organic material partially decomposes and is released by microorganisms, such as bacteria, algae, and plants. DOM was characterized using a three-dimensional excitation-emission matrix (3DEEM), parallel factor analysis (PARAFAC), and water quality parameters from the Buriganga River, Dhaka to Patenga Seaport, Chittagong, along with the Shitalakshya River, a small portion of the Padma River, and the Meghna River. To better understand the data analysis, the study area was divided into three central regions: urban industrial rivers, industrial estuarine rivers, and marine zones. In the urban industrial river, 3DEEM and PARAFAC identified five fluorophores (peaks: A, C, M, T, and Tuv) with five components: detergent-like, fulvic-like, tryptophan or protein-like, fulvic-like (C-type), and protein-like, which might originate from the industrial activities and sewage pollution. In the industrial estuarine river zone, three fluorophores have been identified (peaks: A, C, Tuv) with two known components, namely, fulvic acid (A-type) and fulvic acid (C-type), with an unknown photoproduct at Ex/Em = 295/368 (peak Tuv). Components in the industrial river zone may originate from terrestrial sources, indicating vegetation along the river. In the marine zone, four fluorophores have been identified (peaks: Tuv, A, T, C) with two components, that is, protein- or tryptophan-like and humic acid-like from coral origin. The intensities of both fulvic-like and protein-like substances were high in urban industrial river water owing to industrial activity and sewage pollution. SUVA254 suggests high aromaticity in all three regions, whereas the optical properties suggest that terrestrial and microbial components are present in the urban industrial and estuarine rivers. This further indicates that urban industrial river water quality is highly polluted. The lowest degradation potential index (DPI) in the marine zone might result from the presence of the highest number of dissolved solids in the water, and the highest DPI of industrial estuarine rivers explains the comparatively high presence of terrestrial-derived humic (A)- and humic (C)-like components in the ratio to the unknown photoproduct of mid-wavelength. PRACTITIONER POINTS: This study's uniqueness is a 220-km cruise from an urban river to a coastal seaport to analyze fluorescence properties. The study found that most water parameters were within the DoE standards, except for DO, which was consistently low. 3DEEM-PARAFAC identified five fluorophores linked to detergent, fulvic, and protein-like substances from sewage and industrial sources. Our study concludes that microbial and terrestrial sources dominate dissolved organic matter in urban, estuarine, and marine regions.

追踪荧光溶解有机物(fDOM)特征和水质参数:从城市工业河流到海洋区域的启示。
本研究旨在确定从城市河流到海洋区域的持续水质变化,并确定荧光特性。本研究确定了各类自然和人为来源的溶解有机物(DOM)。其中包括源自土壤的 DOM、植物残留物,以及有机物质部分分解后由微生物(如细菌、藻类和植物)释放时产生的可溶性颗粒。使用三维激发-发射矩阵 (3DEEM)、并行因子分析 (PARAFAC) 和水质参数对达卡的布里甘加河(Buriganga River)、吉大港的帕坦加海港(Patenga Seaport)以及希塔拉克什亚河(Shitalakshya River)、帕德玛河(Padma River)的一小部分和梅格纳河(Meghna River)的 DOM 进行了表征。为了更好地理解数据分析,研究区域被划分为三个中心区域:城市工业河流、工业河口河流和海洋区域。在城市工业河流中,3DEEM 和 PARAFAC 确定了五种荧光团(峰值:A、C、M、T 和 Tuv),五种成分:洗涤剂样、富勒烯样、色氨酸或蛋白质样、富勒烯样(C 型)和蛋白质样,这些荧光团可能来自工业活动和污水污染。在河口工业区,发现了三种荧光团(峰值:A、C、Tuv),其中有两种已知成分,即富勒酸(A 型)和富勒酸(C 型),还有一种未知的光产物,其 Ex/Em = 295/368(峰值 Tuv)。工业河流区的成分可能来自陆地,表明沿河植被。在海洋区,确定了四种荧光团(峰值:Tuv、A、T、C),其中有两种成分,即来自珊瑚的蛋白质或色氨酸类和腐殖酸类。在城市工业河水中,由于工业活动和污水污染,腐植酸类和蛋白质类物质的强度都很高。SUVA254 表明这三个区域的芳香度都很高,而光学特性则表明城市工业河水和河口河水中存在陆地和微生物成分。这进一步表明,城市工业河流的水质受到了严重污染。海洋区的降解潜能指数(DPI)最低,可能是因为水中存在最多的溶解固体,而工业河口河流的降解潜能指数(DPI)最高,说明陆地衍生的腐殖质(A)和腐殖质(C)类成分与中波未知光产物的比例相对较高。实践点:本研究的独特之处在于从城市河流到沿海海港的 220 公里航程中分析荧光特性。研究发现,除溶解氧持续偏低外,大多数水体参数都符合 DoE 标准。3DEEM-PARAFAC 确定了五种荧光团,它们与来自污水和工业源的洗涤剂、富勒烯和蛋白质类物质有关。我们的研究得出结论,在城市、河口和海洋地区,微生物和陆地来源是溶解有机物的主要来源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Water Environment Research
Water Environment Research 环境科学-工程:环境
CiteScore
6.30
自引率
0.00%
发文量
138
审稿时长
11 months
期刊介绍: Published since 1928, Water Environment Research (WER) is an international multidisciplinary water resource management journal for the dissemination of fundamental and applied research in all scientific and technical areas related to water quality and resource recovery. WER''s goal is to foster communication and interdisciplinary research between water sciences and related fields such as environmental toxicology, agriculture, public and occupational health, microbiology, and ecology. In addition to original research articles, short communications, case studies, reviews, and perspectives are encouraged.
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