Characterization and spatial distribution of microplastics in Surma river, Bangladesh: Assessing water and sediment dynamics.

IF 2.5 4区 环境科学与生态学 Q3 ENGINEERING, ENVIRONMENTAL
Saif Izlal, Fahim Mahafuz Ruhad, Tariqul Islam, Md Hafizur Rahman, Hafsa Akter Tania
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引用次数: 0

Abstract

Microplastics (MPs), or tiny pieces of plastic, have become a major global environmental problem because of their ubiquitous availability and possible risks to aquatic ecosystems. Surma is one of the vital rivers in Bangladesh located in the northeast part, with higher chances of MP pollution due to different anthropogenic reasons. In this instance, we carried out the investigation on the abundance, distribution, and characteristics of MPs in the sediment and surface water of the river. Samples were collected from 15 major locations of the Surma river flowing through Sylhet municipality. MPs particles were isolated from sediments and water samples utilizing techniques like sieve analysis, wet peroxide oxidation, density separation, and filtration and then characterized using a stereomicroscope. The abundance of MPs recorded 8 to 18 items/L in water samples (mean ± SD: 12.33 ± 2.98 items/L) and 360 to 1120 items/kg in sediment samples (mean ± SD: 522.67 ± 197.84 items/kg). The prominent size, shape, and color of MPs isolated from sediments were 1-2 mm sizes (24.49%), fragments (47.71%), and black (30.65%). However, for water samples, 1-2 mm sizes (37.22%), fiber shapes (48.48%), and transparent colors (38.46%) were dominant features. Conspicuously, in both sediment and water samples, there was a higher prevalence of smaller sized particles, posing a significant threat to the ecosystem. This heightened risk stems from the increased likelihood of ingestion by microorganisms, as well as the larger surface area of these particles, which may serve as vectors for other pollutants like organic pollutants and heavy metals. A greater abundance of fibers suggests an increased presence of lightweight particles in the water and sediment. Furthermore, the transparent color of the MPs in water might be impacted by prolonged weathering in the river, while the presence of black-colored MPs in sediment points to the existence of plastic pellets originating from industrial and diverse sources. Future studies should concentrate on long-term and broad monitoring, ecological effects, and practical mitigation techniques for MPs, providing essential baseline data to guide the formulation of policies in developing nations. PRACTITIONER POINTS: 12.33 items/L in surface water and 522.67 items/kg in sediment were observed. High correlation indicates a single MP source in mainstream water, differing from sediment. Fiber shapes, black, and transparent colored MPs are dominant. Higher prevalence of smaller sized MPs, posing a significant threat to the aquatic ecosystem.

孟加拉国苏尔玛河中微塑料的特征和空间分布:评估水和沉积物动力学
微塑料(MPs),即微小的塑料碎片,由于其无处不在以及可能对水生生态系统造成的风险,已成为一个主要的全球环境问题。苏尔玛河是孟加拉国重要的河流之一,位于孟加拉国东北部,由于各种人为原因,该河流受到微塑料污染的几率较高。为此,我们对河流沉积物和地表水中 MP 的丰度、分布和特征进行了调查。我们从流经锡尔赫特市的苏尔玛河的 15 个主要地点采集了样本。利用筛分分析、湿过氧化物氧化、密度分离和过滤等技术从沉积物和水样中分离出 MPs 颗粒,然后使用体视显微镜对其进行表征。水样中 MPs 的丰度为 8 至 18 个/升(平均值±标准偏差:12.33 ± 2.98 个/升),沉积物样本中 MPs 的丰度为 360 至 1120 个/千克(平均值±标准偏差:522.67 ± 197.84 个/千克)。从沉积物中分离出的多孔质微粒的主要大小、形状和颜色为 1-2 毫米大小(24.49%)、碎片(47.71%)和黑色(30.65%)。而在水样中,1-2 毫米大小(37.22%)、纤维状(48.48%)和透明色(38.46%)是主要特征。值得注意的是,在沉积物和水样中,较小尺寸的颗粒较多,这对生态系统构成了重大威胁。风险增加的原因是微生物摄入的可能性增加,以及这些颗粒的表面积较大,可能成为有机污染物和重金属等其他污染物的载体。纤维越多,说明水和沉积物中的轻质颗粒越多。此外,水中 MPs 的透明色可能受到河流长期风化的影响,而沉积物中黑色 MPs 的存在则表明存在来自工业和各种来源的塑料颗粒。未来的研究应集中于对 MPs 的长期和广泛监测、生态效应和实用减缓技术,为指导发展中国家制定政策提供重要的基准数据。实践者观点:在地表水中观察到 12.33 个项目/升,在沉积物中观察到 522.67 个项目/千克。高相关性表明主流水中的 MP 来源单一,与沉积物不同。纤维状、黑色和透明色的 MPs 占主导地位。体积较小的 MPs 较多,对水生生态系统构成严重威胁。
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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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