Water or sediment? Assessing seasonal microplastic accumulation from wastewater treatment works

IF 1.5 Q4 WATER RESOURCES H2Open Journal Pub Date : 2023-03-27 DOI:10.2166/h2oj.2023.017
T. Dalu, Nelisiwe Ngomane, F. Dondofema, Ross N. Cuthbert
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引用次数: 2

Abstract

Microplastics have become a major environmental concern around the world due to their potential impact on ecosystem functioning and biota. Microplastics enter freshwater systems through a variety of sources, with wastewater treatment work discharges being the most important source. The study aimed to determine the seasonal (i.e., hot–wet, cool–dry) variation in water and sediment microplastic abundances up- and down-stream of wastewater treatment works across two subtropical river systems (i.e., Crocodile and Luvuvhu) in South Africa. Overall, we found that microplastic type and distribution often did not show clear seasonal and site variation, hence microplastics were widespread across the studied systems and microplastic concentrations did not relate clearly to wastewater treatment works as further indicated by microplastic risk assessments which indicated high pollution loads upstream. The non-metric multidimensional scaling ordination based on microplastic densities for water and sediment discriminated slightly among systems, with major overlaps across the different locations and seasons. As a result, the current research indicates that seasonal context influences differences in microplastic concentrations, with the hot–wet season being associated with the high pollution loads, particularly within the sediments where this was more pronounced indicating the sink-source effect which is linked to sediments and not water.
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水还是沉淀物?评估污水处理厂的季节性微塑料累积
由于微塑料对生态系统功能和生物群的潜在影响,它们已成为全球主要的环境问题。微塑料通过各种来源进入淡水系统,废水处理工作排放是最重要的来源。该研究旨在确定南非两个亚热带河流系统(即鳄鱼河和Luvuvhu河)废水处理厂上下游的水和沉积物微塑料丰度的季节性(即热湿、冷干)变化。总体而言,我们发现微塑料的类型和分布通常没有明显的季节和地点变化,因此微塑料在研究系统中广泛存在,微塑料浓度与废水处理工程没有明显关系,正如微塑料风险评估进一步表明的那样,上游的污染负荷很高。基于水和沉积物微塑性密度的非度量多维尺度排序在不同系统之间略有区别,在不同地点和季节之间存在主要重叠。因此,目前的研究表明,季节性环境影响微塑料浓度的差异,湿热季节与高污染负荷有关,特别是在沉积物中,这种情况更为明显,表明与沉积物而不是水有关的汇源效应。
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来源期刊
H2Open Journal
H2Open Journal Environmental Science-Environmental Science (miscellaneous)
CiteScore
3.30
自引率
4.80%
发文量
47
审稿时长
24 weeks
期刊最新文献
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