Exploiting taxonomic information from metagenomes to infer bacterial bioindicators and environmental quality at salmon aquaculture installations

IF 5.3 3区环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES

Marine pollution bulletin Pub Date : 2025-05-24 DOI:10.1016/j.marpolbul.2025.118173

Verena Rubel , Sabine Filker , Anders Lanzén , Ion Luis Abad , Thorsten Stoeck

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引用次数: 0

Abstract

Environmental DNA (eDNA) metabarcoding has emerged as a powerful method for assessing the environmental impacts of marine Atlantic salmon aquaculture by identifying bacterial bioindicators and inferring biotic indices. However, because this approach relies on the PCR amplification of 16S rRNA gene fragments, it may introduce errors that compromise bioindicator reliability. In contrast, metagenomic analysis which captures the complete set of genetic material directly extracted from environmental samples circumvents biases inherent to PCR amplification. We hypothesized that metagenomic data could offer superior assessments of benthic environmental impacts associated with salmon aquaculture compared to metabarcoding. To test this, we compared bacterial community structures derived from both metabarcoding and metagenomic analyses of 68 sediment samples obtained from aquaculture installation sites characterized by varying degrees of benthic impact as determined by macroinvertebrate inventories. Bacterial bioindicators were identified from each dataset, and Random Forest models were used to predict the degrees of benthic impacts. Metagenomics identified a greater number of bioindicators at both the family and individual sequence variant levels, resulting in higher predictive accuracy for impact assessments. Notably, only a few bioindicators were common to both methods, suggesting that methodological limitations and distorted abundance patterns in metabarcoding data may lead to spurious indicators. These findings highlight both the challenges and potential advantages of employing metagenomics for reliable environmental impact assessments.

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利用宏基因组的分类信息推断鲑鱼养殖设施的细菌生物指标和环境质量

环境DNA元条形码（Environmental DNA metabarcoding, eDNA）通过识别细菌生物指标和推断生物指标，已成为评估大西洋鲑鱼养殖对环境影响的有力方法。然而，由于该方法依赖于16S rRNA基因片段的PCR扩增，因此可能会引入影响生物指标可靠性的错误。相比之下，宏基因组分析直接从环境样本中提取完整的遗传物质，避免了PCR扩增固有的偏见。我们假设，与元条形码相比，宏基因组数据可以更好地评估与鲑鱼养殖相关的底栖生物环境影响。为了验证这一点，我们比较了从水产养殖设施获得的68个沉积物样本的元条形码和宏基因组分析得出的细菌群落结构，这些样本的特征是由大型无脊椎动物清单确定的不同程度的底栖生物影响。从每个数据集中确定细菌生物指标，并使用随机森林模型预测底栖生物的影响程度。宏基因组学在家族和个体序列变异水平上确定了更多的生物指标，从而提高了影响评估的预测准确性。值得注意的是，两种方法中只有少数生物指标是共同的，这表明方法的局限性和元条形码数据中扭曲的丰度模式可能导致虚假指标。这些发现突出了利用宏基因组学进行可靠的环境影响评估的挑战和潜在优势。

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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来源期刊

Marine pollution bulletin 环境科学-海洋与淡水生物学

CiteScore

10.20

自引率

15.50%

发文量

1077

审稿时长

68 days

期刊介绍： Marine Pollution Bulletin is concerned with the rational use of maritime and marine resources in estuaries, the seas and oceans, as well as with documenting marine pollution and introducing new forms of measurement and analysis. A wide range of topics are discussed as news, comment, reviews and research reports, not only on effluent disposal and pollution control, but also on the management, economic aspects and protection of the marine environment in general.