测定奥兰治-森夸河流域沉积物、水和鱼类中的微塑料含量

IF 11.4 1区 环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL Water Research Pub Date : 2024-09-11 DOI:10.1016/j.watres.2024.122394
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引用次数: 0

摘要

越来越多的人认识到,微塑料对各个系统的环境构成了重大威胁。鉴于人类和生物多样性对健康、正常运作的淡水生态系统的严重依赖,淡水中普遍存在的微塑料令人严重关切。对潜在风险的认识促使跨界奥兰治-森奎河委员会(ORASECOM)在 2021 年第三次联合流域调查(JBS3)中,对整个南部非洲的河流沉积物、地表水和鱼类中的微垃圾(主要是微塑料)进行取样。其目的是首次对全流域各部分的微垃圾污染情况进行估计,为进一步监测设定基线。调查显示,河流沉积物(0 - 4000 微粒.kg-1 干重(dw))和河水(1.00 ± 0.71 - 69.75 ± 68.55 SD items.L-1)中的微垃圾丰度在不同采样点之间差异很大,两者之间没有相关性。鱼类体内微垃圾的丰度较低(平均为 0.7 ± 0.4 项/个体-1)。路径分辨率分析表明,每个地点的河道沉积物和河水中的微尘浓度与直接上游的土地使用情况并不相关,尽管微尘丰度的变化确实隔离了一些污染热点。从采样点附近的 9 个测量站收集到的排水数据证实,在研究期间,该水系的流量普遍较低,大流量出现在大约 5 个月前的夏季。整个集水区的河流流量存在一定差异,这可能是微垃圾迁移的一个驱动因素。这一点在沉积物和水样的聚合物成分中很明显。根据每个测量站的平均排水量和河水中测得的微尘浓度,估算出的微尘负荷从 889 微粒/秒-1 到 1,790 万微粒/秒-1 不等,其中大量微尘可能最终进入奥兰治河河口附近的泥带。这项评估首次揭示了奥兰治河-仙曲河流域多个分区的微垃圾特征和分布情况。总体而言,评估结果强调了在流域范围内对各分区进行持续监测的必要性,以提高我们对微塑料进入河流系统及其内部途径的了解。
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Determination of microplastics in sediment, water, and fish across the Orange-Senqu River basin

Microplastics are increasingly recognised as posing a significant environmental threat across systems. Their pervasive presence in freshwater poses a serious concern, given the heavy reliance of both humans and biodiversity on healthy, functioning freshwater ecosystems. Acknowledgment of the potential risks led the transboundary Orange-Senqu River Commission (ORASECOM) to include sampling for microlitter (primarily microplastics) in riverine sediment, surface water, and fishes, across Southern Africa as part of the third Joint Basin Survey (JBS3) in 2021. The aim was to establish a first, basin-wide estimate of microlitter contamination across compartments, setting a baseline for further monitoring. The survey showed that the abundance of microlitter in riverine sediment (0 – 4000 particles.kg-1 dry weight (dw)) and riverine water (1.00 ± 0.71 – 69.75 ± 68.55 SD items.L-1) varied considerably between sample sites, with no correlation between the two. The abundance of microlitter in fishes was low (average of 0.7 ± 0.4 items.individual-1). Course resolution analyses suggested that microlitter concentrations in riverine sediment and riverine water at each site did not correlate with land use directly upstream, though variation in microlitter abundance did isolate some hotspots of contamination. Discharge data collected from nine gauging stations near sampling sites confirmed that low flows prevailed in the system during the study, with high flows occurring approximately 5 months prior during the summer months. There is some variation in river flow across the catchment which is a likely driver of microlitter transport. This was evident in the polymer composition for sediment and water samples. Based on the average discharge at each gauging station and microlitter concentrations measured in riverine water, the estimated microlitter load ranged from ∼889 particles.s-1 to ∼17.9 million particles.s-1, with a substantial amount ending likely up in the mudbelt adjacent to the Orange River mouth. This assessment provides a first insight into the characterisation and distribution of microlitter in multiple compartments across the Orange-Senqu River basin. Overall, the findings highlight the need for continued monitoring across compartments at catchment scales to improve our understanding of microplastic pathways into and within riverine systems.

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来源期刊
Water Research
Water Research 环境科学-工程:环境
CiteScore
20.80
自引率
9.40%
发文量
1307
审稿时长
38 days
期刊介绍: Water Research, along with its open access companion journal Water Research X, serves as a platform for publishing original research papers covering various aspects of the science and technology related to the anthropogenic water cycle, water quality, and its management worldwide. The audience targeted by the journal comprises biologists, chemical engineers, chemists, civil engineers, environmental engineers, limnologists, and microbiologists. The scope of the journal include: •Treatment processes for water and wastewaters (municipal, agricultural, industrial, and on-site treatment), including resource recovery and residuals management; •Urban hydrology including sewer systems, stormwater management, and green infrastructure; •Drinking water treatment and distribution; •Potable and non-potable water reuse; •Sanitation, public health, and risk assessment; •Anaerobic digestion, solid and hazardous waste management, including source characterization and the effects and control of leachates and gaseous emissions; •Contaminants (chemical, microbial, anthropogenic particles such as nanoparticles or microplastics) and related water quality sensing, monitoring, fate, and assessment; •Anthropogenic impacts on inland, tidal, coastal and urban waters, focusing on surface and ground waters, and point and non-point sources of pollution; •Environmental restoration, linked to surface water, groundwater and groundwater remediation; •Analysis of the interfaces between sediments and water, and between water and atmosphere, focusing specifically on anthropogenic impacts; •Mathematical modelling, systems analysis, machine learning, and beneficial use of big data related to the anthropogenic water cycle; •Socio-economic, policy, and regulations studies.
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