基于形态分类学和元条形码的综合硅藻组合分析如何对溪流的生态评估做出最大贡献?

Panayiota Pissaridou, M. Cantonati, A. Bouchez, I. Tziortzis, G. Dörflinger, M. Vasquez
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引用次数: 2

摘要

环境条件,如营养物浓度、盐度、海拔等,塑造了周围植物生物膜的硅藻组合。这些组合对环境变化反应迅速,这使硅藻成为有价值的生物指标。因此,淡水生物监测计划目前使用硅藻指数(例如欧盟水框架指令- WFD)。迄今为止,基于显微镜的评估需要在物种水平上进行硅藻鉴定的高分类学专业知识。高通量技术现在提供了具有成本效益的鉴定方法,是生物评估的有前途的补充或替代工具。在拥有许多特有物种的东地中海国家塞浦路斯河流WFD监测网络中,首次评估了元条形码方法的适用性,并将结果与形态分类分析获得的结果进行了比较。利用最新的分类概念、文献和在线资源,在显微镜下进行形态分类鉴定。同时,DNA元条形码包括rbcL 312 bp条形码的使用、高通量测序和生物信息学分析。利用IPS指数计算生态状况。结果表明,形态分类学评分与分子IPS评分呈正相关。两种方法之间的差异与两种技术的局限性有关。本研究证实,腐臭瘘管可能在观察到的关键差异中起关键作用,因为它对IPS评分有负面影响,而显微镜方法经常忽略它。重要的是,DNA条形码参考数据库中的空白导致IPS分数的正面高估。总之,我们得出结论,DNA元条形码抵消了淡水生态质量评价的形态分类学方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
How can integrated morphotaxonomy- and metabarcoding-based diatom assemblage analyses best contribute to the ecological assessment of streams?
Environmental conditions, such as nutrient concentrations, salinity, elevation etc., shape diatom assemblages of periphytic biofilms. These assemblages respond rapidly to environmental changes, a fact which makes diatoms valuable bioindicators. Hence, freshwater biomonitoring programmes currently use diatom indices (e.g. EU Water Framework Directive - WFD). To date, microscopy-based assessments require high taxonomic expertise for diatom identification at the species level. High-throughput technologies now provide cost-effective identification approaches that are promising, complementary or alternative tools for bioassessment. The suitability of the metabarcoding method is evaluated for the first time in the Cyprus streams WFD monitoring network, an eastern Mediterranean country with many endemic species and results are compared to the results acquired from the morphotaxonomic analysis. Morphotaxonomic identification was conducted microscopically, using the most updated taxonomic concepts, literature and online resources. At the same time, DNA metabarcoding involved the use of the rbcL 312 bp barcode, high-throughput sequencing and bioinformatic analysis. The ecological status was calculated using the IPS Index. Results show a positive correlation between morpho-taxonomic and molecular IPS scores. Discrepancies between the two methodologies are related to the limitations of both techniques. This study confirmed that Fistulifera saprophila can have a crucial role in key differences observed, as it negatively influences IPS scores and microscopy methods frequently overlook it. Importantly, gaps in the DNA barcoding reference databases lead to a positive overestimation in IPS scores. Overall, we conclude that DNA metabarcoding offsets the morphotaxonomic methodology for the ecological quality assessment of freshwaters.
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来源期刊
Metabarcoding and Metagenomics
Metabarcoding and Metagenomics Agricultural and Biological Sciences-Animal Science and Zoology
CiteScore
5.40
自引率
0.00%
发文量
25
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