It is generally assumed that the dissolved fraction of a toxic substance in surface water is mainly responsible for toxicity to aquatic organisms. However, toxic compounds are often adsorbed or chemically bound to suspended particles in the water column, depending upon the physico-chemical conditions. In the present study potential adverse effects to filter feeding organisms by metal contaminated particles were investigated. In our hypotheses the adsorbed metals might desorb in the gastrointestinal tract-due to different physico-chemical conditions-and exert toxic effects. Clay and sand particles, algae and organic material (peat) were artificially contaminated with cadmium and zinc. The contaminated materials were resuspended in standard conditions and toxicity was measured for the water flea Daphnia magna (mortality at 48 hours). As a reference, supernatant solutions were used containing the same concentration of dissolved metal as the suspensions. It was also established that the test concentrations of solid material (250 and 500 mg/l uncontaminated particles) did not cause any mortality within 48 hours. Daphnids are filter feedersthey filtrate large amounts of surrounding water, redrawing particles as a food source. Results strongly indicate that contaminated particles threaten the health of these particle-feeding organisms. Compared to the reference severe acute toxic effects were seen and cadmium accumulation was increased when contaminated solid material was present. Results were essentially the same for the different materials used in the experiments, except for sand contaminated with cadmium. This shows that mineral as well as organic materials can contribute to the particle bound toxicity. Different results were obtained when a static set up was used instead of a flow through set up, illustrating that the route of administration is important to make particles available and thus to evaluate their toxicity. Contaminated particles clearly have toxic potency, not only because they are a continuous source of dissolved xenobiotics, but also because the particle bound fraction can become available within the body of particle feeding organisms. This could lead to unexpected high tissue concentrations. More insight is needed to predict the bioavailability of adsorbed pollutants. Results of this study already indicate that suspended solids should be considered as a separate compartment in risk evaluation of chemicals, effluents or natural surface waters.

译文

通常认为,有毒物质在地表水中的溶解部分是造成对水生生物毒性的主要原因。但是,取决于理化条件,有毒化合物通常会吸附或化学结合到水柱中的悬浮颗粒上。在本研究中,研究了被金属污染的颗粒对滤食生物的潜在不利影响。在我们的假设中,由于不同的理化条件,吸附的金属可能会在胃肠道中解吸,并产生毒性作用。粘土和沙粒,藻类和有机材料(豌豆)被镉和锌人工污染。将受污染的材料重新悬浮在标准条件下,并测量水蚤蚤的毒性(48小时死亡率)。作为参考,使用含有与悬浮液相同浓度的溶解金属的上清液。还确定了固体物质(250和500 mg / l的未污染颗粒)的测试浓度在48小时内没有引起任何死亡。水蚤是滤食性动物,它们过滤大量周围的水,重新吸收颗粒作为食物来源。结果强烈表明,受污染的颗粒威胁着这些以颗粒为食的生物的健康。与参考样品相比,当存在被污染的固体物质时,可以看到严重的急性毒性作用,并且镉的积累增加。实验中使用的不同材料的结果基本相同,除了被镉污染的沙子。这表明矿物质以及有机物质都可以促进颗粒结合的毒性。当使用静态装置代替流通装置时,获得了不同的结果,说明给药途径对于使颗粒可用并评估其毒性很重要。污染的颗粒显然具有毒性,这不仅是因为它们是溶解的异种生物的连续来源,而且还因为颗粒结合的级分可以在颗粒喂养生物体内获得。这可能会导致意想不到的高组织浓度。需要更多的见识来预测吸附的污染物的生物利用度。这项研究的结果已经表明,在评估化学品,废水或天然地表水的风险时,应将悬浮固体视为一个单独的区域。

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