Evaluating the tolerance of harmful algal bloom communities to copper

IF 7.6 2区环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES

Environmental Pollution Pub Date : 2025-01-22 DOI:10.1016/j.envpol.2025.125691

Ashley V. Hennessey, Michael B. McDonald, Peyton P. Johnson, Matthew F. Gladfelter, Kate L. Merrill, Suzanne E. Tenison, Sathya S. Ganegoda, Tham C. Hoang, H. Allen Torbert, Benjamin H. Beck, Alan E. Wilson

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Abstract

Harmful algal blooms (HABs) cause severe economic and environmental impacts, including hypoxic events and the production of toxins and off-flavor compounds. Chemical treatments, such as copper sulfate pentahydrate (CuSO₄·5H₂O), are often used to mitigate the damaging effects of algal blooms. However, treatment effects are usually short-lived leading to waterbodies requiring repeated CuSO₄·5H₂O applications to control persistent algal blooms, particularly in highly eutrophic systems, such as aquaculture ponds or small agricultural impoundments. We hypothesized phytoplankton communities routinely treated with Cu develop community tolerance to treatment, making algal blooms more difficult to manage over time. Pollution-induced community tolerance is a method for measuring how a community can withstand selective pressures to a toxicant. To test whether phytoplankton develop community tolerance to algaecidal treatment, the toxic effects of Cu were evaluated at a standard dose (1.37 mg/L CuSO₄·5H₂O or 0.35 mg/L total Cu) and a low dose (0.69 mg/L CuSO₄·5H₂O or 0.17 mg/L total Cu) relative to untreated controls. Treatments were applied once to 1,300 L mesocosm enclosures installed in a productive aquaculture pond and monitored for 28 days Acute toxicity bioassays measured photosynthetic efficiency across a wide range of Cu concentrations (0.05 to 300 mg/L). The PICT bioassay results were used to generate dose-response curves for median effective concentrations (EC50s) to assess phytoplankton community tolerance to Cu toxicity. The results of this study showed that both doses of Cu led to over 99% removal of cyanobacteria in the first seven days and maintained a reduction in cyanobacterial abundance by at least 70% throughout the experiment. After three days of exposure, the phytoplankton communities in the standard and low-dose treatments exhibited a 12.4x and 5.2x increase in Cu community tolerance, respectively, compared to controls. This increase in community tolerance was driven by Cu-tolerant chlorophyte species. These findings suggest that, while community tolerance to Cu may alter the perceived effectiveness of treatment over time, it can promote a beneficial shift from cyanobacteria to chlorophyte species, ultimately contributing to a more sustainable system.

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评价有害藻华群落对铜的耐受性

有害藻华（HAB）会造成严重的经济和环境影响，包括缺氧事件、毒素和异味化合物的产生。化学处理方法（如五水硫酸铜（CuSO4-5H2O））通常用于减轻藻华的破坏性影响。然而，处理效果通常很短暂，导致水体需要反复施用 CuSO4-5H2O 来控制持续的藻华，尤其是在高富营养化系统中，如水产养殖池塘或小型农业蓄水池。我们假设，经常使用 Cu 处理的浮游植物群落会对处理产生群落耐受性，从而使藻华随着时间的推移变得更加难以控制。污染引起的群落耐受性是一种衡量群落如何承受有毒物质选择性压力的方法。为了测试浮游植物是否会对灭藻处理产生群落耐受性，我们评估了标准剂量（1.37 毫克/升 CuSO4-5H2O 或 0.35 毫克/升总铜）和低剂量（0.69 毫克/升 CuSO4-5H2O 或 0.17 毫克/升总铜）相对于未处理对照组的铜毒性效应。在一个高产水产养殖池塘中安装的 1,300 升中层围栏中施用一次处理，并监测 28 天急性毒性生物测定在广泛的铜浓度范围（0.05 至 300 毫克/升）内测量光合效率。PICT 生物测定结果用于生成中位有效浓度（EC50）的剂量反应曲线，以评估浮游植物群落对铜毒性的耐受性。研究结果表明，两种剂量的铜都能在头七天内清除 99% 以上的蓝藻，并在整个实验过程中使蓝藻数量至少减少 70%。暴露三天后，与对照组相比，标准处理和低剂量处理中浮游植物群落对铜的耐受性分别提高了 12.4 倍和 5.2 倍。群落耐受性的提高是由耐受铜的叶绿体物种驱动的。这些研究结果表明，虽然随着时间的推移，群落对铜的耐受性可能会改变对处理效果的感知，但它能促进蓝藻向叶绿藻物种的有益转变，最终有助于建立一个更可持续的系统。

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来源期刊

Environmental Pollution 环境科学-环境科学

CiteScore

16.00

自引率

6.70%

发文量

2082

审稿时长

2.9 months

期刊介绍： Environmental Pollution is an international peer-reviewed journal that publishes high-quality research papers and review articles covering all aspects of environmental pollution and its impacts on ecosystems and human health. Subject areas include, but are not limited to: • Sources and occurrences of pollutants that are clearly defined and measured in environmental compartments, food and food-related items, and human bodies; • Interlinks between contaminant exposure and biological, ecological, and human health effects, including those of climate change; • Contaminants of emerging concerns (including but not limited to antibiotic resistant microorganisms or genes, microplastics/nanoplastics, electronic wastes, light, and noise) and/or their biological, ecological, or human health effects; • Laboratory and field studies on the remediation/mitigation of environmental pollution via new techniques and with clear links to biological, ecological, or human health effects; • Modeling of pollution processes, patterns, or trends that is of clear environmental and/or human health interest; • New techniques that measure and examine environmental occurrences, transport, behavior, and effects of pollutants within the environment or the laboratory, provided that they can be clearly used to address problems within regional or global environmental compartments.