How important is it to update the existing environmental quality standard for nickel? An example based on the UK†

IF 3.5 Q3 ENGINEERING, ENVIRONMENTAL
Adam Peters, Graham Merrington and Elizabeth Middleton
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Abstract

In Europe the Environmental Quality Standard (EQS) for nickel in freshwaters was set in 2013 based on the best available evidence at the time. Since then, additional information about the toxicity of nickel to aquatic organisms and the effects of water chemistry conditions on nickel bioavailability have become available, and there is much more information available about the water chemistry conditions that affect nickel toxicity in freshwaters. This study has taken the updated information about nickel ecotoxicity and bioavailability and evaluates how this could potentially affect the EQS for nickel if it was to be updated. Although the sensitivity of freshwaters to nickel based on the update is very similar to the EQS on a site-specific basis, the thresholds derived are slightly lower. A broader range of water chemistry conditions can be covered by the update than are currently covered by the existing EQS. An updated standard of 2.9 μg L−1 bioavailable nickel could be derived based on the UK dataset evaluated here, which is slightly lower than the existing EQS of 4 μg L−1 bioavailable nickel. Consequently, a slightly higher number of potential compliance failures would be expected based on the update. A simple and practical approach toward the incorporation of local nickel background concentrations into the compliance assessment process for sites that fail the bioavailability based EQS is also proposed. Initial assessments suggest that compliance with the existing EQS could potentially result in more than 5% of species in freshwater aquatic ecosystems being affected, but that with the exception of a very small number of cases the proportion of potentially affected species would be less than 8% of species in the ecosystem. In regions where the existing EQS is not fully implemented, particularly through limited consideration of bioavailability, the adoption of the updated standard is likely to be less beneficial than focusing on better implementation of the existing EQS. However, in regions where the existing EQS has been implemented extensively for some time the updated standard offers a refinement in terms of the coverage of a higher proportion of surface waters and a slightly higher level of protection for sensitive species than the existing EQS.

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Abstract Image

更新现有的镍环境质量标准有多重要?以英国为例
在欧洲,淡水中镍的环境质量标准(EQS)是根据当时可获得的最佳证据于2013年制定的。此后,有关镍对水生生物的毒性以及水化学条件对镍生物利用率的影响的更多信息陆续公布,有关影响淡水中镍毒性的水化学条件的信息也大大增加。本研究采用了有关镍生态毒性和生物利用率的最新信息,并评估了如果对镍的环境质量标准进行更新,这些信息可能会对其产生何种潜在影响。尽管根据更新得出的淡水对镍的敏感性与特定地点的环境质量标准非常相似,但得出的阈值略低。与现有的环境质量标准相比,更新后的标准可涵盖更广泛的水化学条件。根据此处评估的英国数据集,可得出 2.9 μg L-1 生物可利用镍的更新标准,该标准略低于现有的 4 μg L-1 生物可利用镍的环境质量标准。因此,根据更新结果,预计潜在的不达标情况会略有增加。此外,还提出了一种简单实用的方法,将当地镍本底浓度纳入达标评估流程,用于评估未通过基于生物利用率的环境质量标准的地点。初步评估表明,遵守现有的 EQS 可能会导致淡水水生生态系统中 5% 以上的物种受到影响,但除了极少数情况外,可能受影响物种的比例将低于生态系统中物种的 8% 。在现有环境质量标准未得到充分实施的地区,特别是对生物利用率考虑有限的地区,采用最新标准可能不如集中精力更好地实施现有环境质量标准更有利。然而,在现有 EQS 已广泛实施一段时间的地区,更新的标准在覆盖更多地表水以及对敏感物种的保护水平略高于现有 EQS 方面提供了改进。
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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CiteScore
1.90
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