Geochemistry indices and biotests as useful tools in the assessment of the degree of sediment contamination by metals

IF 0.4 Q4 ENVIRONMENTAL SCIENCES
Tomasz Koniarz, M. Tarnawski, A. Baran
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Abstract

Ecological and geochemical indicators have been widely accepted as tools with the potential for rapid risk assessment of metal contamination of bottom sediments. In this study, we propose a selection of such indicators to characterize the potential ecological risks stemming from metal contamination of the bottom sediments of the Chechło reservoir (S Poland). The Chechło reservoir is located in an area formerly occupied by zinc and lead ore mining and processing industry. High amounts of metals, especially zinc (39.37–4772.00 mg/kg d.m.), cadmium (0.37–21.13 mg/kg d.m.) and lead (4.50–434.49 mg/kg d.m.) have been found in the bottom sediments. Both geochemical (CD – contamination degree) and ecological indices (mean PECQ) were indicative of bottom sediment contamination and their potential toxicity to living organisms. Most of the bottom sediment samples (71%) examined were toxic for Heterocypris incongruens, while only 9% of the samples were toxic to Sinapis alba. However, no significant correlations between the metal content and the response of the test organisms were observed. Correlation and principal component analyses (PCA) showed that silt and clay fractions were the key factors influencing the metal content in the sediments. Our study makes a contribution to building evidence of the need to integrate several indices for the assessment of environmental risks related to the presence of metals in bottom sediments rather than relying on a single one.
地球化学指数和生物试验是评价沉积物受金属污染程度的有用工具
生态和地球化学指标已被广泛接受为具有快速评估底部沉积物金属污染风险潜力的工具。在这项研究中,我们提出了这些指标的选择,以表征Chechło水库(波兰南部)底部沉积物金属污染的潜在生态风险。Chechło水库位于以前锌矿和铅矿开采和加工工业占据的地区。在底部沉积物中发现了大量的金属,特别是锌(39.37-4772.00毫克/千克迪米)、镉(0.37-21.13毫克/千克迪米)和铅(4.50-434.49毫克/千克迪米)。地球化学指标(CD污染程度)和生态指标(平均PECQ)均反映了底泥污染及其对生物的潜在毒性。大多数(71%)检测的底泥样品对异角异虾有毒,而只有9%的样品对白鲟有毒。然而,没有观察到金属含量与试验生物体的反应之间的显著相关性。相关分析和主成分分析表明,粉土组分和粘土组分是影响沉积物中金属含量的关键因素。我们的研究有助于建立证据,证明需要综合几个指标来评估与底部沉积物中金属存在有关的环境风险,而不是依赖单一指标。
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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