Microplastics pollution in tropical estuary (Muttukadu Backwater), Southeast Coast of India: Occurrence, distribution characteristics, potential sources and ecological risk assessment

IF 5.4 Q2 ENGINEERING, ENVIRONMENTAL
Velmurugan P. M , Krishnan Vijayaprabhakaran , Devika P. T , Anbuselvan N , Venkatesan S , Mohammad Suhail Meer
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Abstract

Around the world, microplastic pollution is pervasive and is regarded as the biggest threat to all ecosystems. We conducted the present study to determine the prevalence of microplastics (MPs), their polymer hazard risk (PHI), and any potential sources of these particles in the estuary of Muttukadu Backwater, Southeast Coast of India. Microplastics were extricated from surface water and sediment by the wet peroxide method, identified by a stereo zoom microscope (SM), and characterized by ATR-FTIR and SEM-EDS analysis. The average microplastic abundance in sediment and surface water was 815±158 particles Kg−1 and 195±38 particles m−3, respectively. The most common microplastics based on shapes were fibers and fragments in both sediment and surface water, with blue and green-colored microplastics being the most frequently observed colors. Type II polymer particles (<3.00 mm–1.00 mm) are dominant particles in sediment (36 %), and type I (5.00 mm–3.00 mm) particles dominate in surface water samples (49 %). Energy dispersive X-ray spectrometer (EDS) results showed that the following chemical elements, such as O, C, Cl, Fe, Na, Al, K, Ca, and Si, as well as the order of the trace metal Pb > Cr > Ni > Co > As > Cu > Cd > Zn, are observed by microplastics of all sediment sampling location. The pollution load index (PI), polymer hazard index (PHI), and potential ecological risk (PER) index models revealed varying level of risk. The polymer hazard index (PHI) reveals that both water and sediments are moderate to highly MP contamination. The hazards of polymers such as polyethylene, polystyrene, polyester, and polyamide significantly contributed to hazard level IV. Inadequate plastic waste management, human habitation and tourism, rapid industrialization, and coastal construction are the main sources of microplastic contamination in the study area. The proper guidelines, potential policies, and technological interventions are much needed to reduce the microplastic contamination along Southeast Coast of India.

Abstract Image

印度东南海岸热带河口(Muttukadu Backwater)的微塑料污染:出现、分布特征、潜在来源和生态风险评估
在世界各地,微塑料污染无处不在,被认为是对所有生态系统的最大威胁。我们进行了本研究,以确定印度东南海岸 Muttukadu Backwater 河口微塑料(MPs)的普遍性、其聚合物危害风险(PHI)以及这些微粒的潜在来源。采用湿过氧化物法从地表水和沉积物中提取微塑料,用立体变焦显微镜(SM)进行识别,并通过 ATR-FTIR 和 SEM-EDS 分析进行表征。沉积物和地表水中微塑料的平均丰度分别为 815±158 粒 Kg-1 和 195±38 粒 m-3。从形状上看,沉积物和地表水中最常见的微塑料是纤维和碎片,最常观察到的微塑料颜色是蓝色和绿色。第二类聚合物颗粒(3.00 毫米-1.00 毫米)是沉积物中的主要颗粒(36%),而第一类颗粒(5.00 毫米-3.00 毫米)则是地表水样本中的主要颗粒(49%)。能量色散 X 射线光谱仪(EDS)结果表明,所有沉积物采样地点的微塑料中均可观察到以下化学元素,如 O、C、Cl、Fe、Na、Al、K、Ca 和 Si,以及痕量金属 Pb > Cr > Ni > Co > As > Cu > Cd > Zn 的排列顺序。污染负荷指数(PI)、聚合物危害指数(PHI)和潜在生态风险指数(PER)模型显示了不同程度的风险。聚合物危害指数(PHI)显示,水和沉积物都受到中度到高度 MP 污染。聚乙烯、聚苯乙烯、聚酯和聚酰胺等聚合物的危害极大地导致了危害等级 IV。塑料废物管理不足、人类居住和旅游、快速工业化和沿海建设是研究区域微塑料污染的主要来源。要减少印度东南沿海的微塑料污染,亟需制定适当的指导方针、潜在的政策和技术干预措施。
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
Journal of hazardous materials advances
Journal of hazardous materials advances Environmental Engineering
CiteScore
4.80
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