Jan-Niklas Macher, Alejandro Martínez, Sude Çakir, Pierre-Etienne Cholley, Eleni Christoforou, Marco Curini Galletti, Lotte van Galen, Marta García-Cobo, Ulf Jondelius, Daphne de Jong, Francesca Leasi, Michael Lemke, Iñigo Rubio Lopez, Nuria Sánchez, Martin Vinther Sørensen, M. Antonio Todaro, Willem Renema, Diego Fontaneto
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引用次数: 0
Abstract
Molecular techniques like metabarcoding, while promising for exploring diversity of communities, are often impeded by the lack of reference DNA sequences available for taxonomic annotation. Our study explores the benefits of combining targeted DNA barcoding and morphological taxonomy to improve metabarcoding efficiency, using beach meiofauna as a case study. Beaches are globally important ecosystems and are inhabited by meiofauna, microscopic animals living in the interstitial space between the sand grains, which play a key role in coastal biodiversity and ecosystem dynamics. However, research on meiofauna faces challenges due to limited taxonomic expertise and sparse sampling. We generated 775 new cytochrome c oxidase I DNA barcodes from meiofauna specimens collected along the Netherlands' west coast and combined them with the NCBI GenBank database. We analysed alpha and beta diversity in 561 metabarcoding samples from 24 North Sea beaches, a region extensively studied for meiofauna, using both the enriched reference database and the NCBI database without the additional reference barcodes. Our results show a 2.5-fold increase in sequence annotation and a doubling of species-level Operational Taxonomic Units (OTUs) identification when annotating the metabarcoding data with the enhanced database. Additionally, our analyses revealed a bell-shaped curve of OTU richness across the intertidal zone, aligning more closely with morphological analysis patterns, and more defined community dissimilarity patterns between supralittoral and intertidal sites. Our research highlights the importance of expanding molecular reference databases and combining morphological taxonomy with molecular techniques for biodiversity assessments, ultimately improving our understanding of coastal ecosystems.
元条码等分子技术虽然有望探索群落的多样性,但往往因缺乏可用于分类注释的参考 DNA 序列而受阻。我们的研究以海滩小型底栖生物为例,探讨了将有针对性的 DNA 条形码和形态学分类相结合以提高元标码效率的益处。海滩是全球重要的生态系统,生活着小型底栖生物(生活在沙粒间隙中的微小动物),它们在沿海生物多样性和生态系统动态中发挥着关键作用。然而,由于分类学专业知识有限和取样稀少,对小型底栖动物的研究面临挑战。我们从荷兰西海岸采集的小型底栖生物标本中生成了 775 个新的细胞色素 c 氧化酶 I DNA 条形码,并将其与 NCBI GenBank 数据库相结合。我们分析了来自 24 个北海海滩的 561 个代谢条码样本中的α和β多样性,该地区的小型底栖生物已被广泛研究,我们同时使用了丰富的参考数据库和不含额外参考条码的 NCBI 数据库。我们的结果表明,使用增强型数据库注释元条码数据时,序列注释量增加了 2.5 倍,物种级的操作分类单元(OTUs)鉴定量增加了一倍。此外,我们的分析揭示了整个潮间带 OTU 丰富度的钟形曲线,与形态分析模式更加吻合,而且滨上和潮间带之间的群落差异模式更加明确。我们的研究强调了扩大分子参考数据库以及将形态分类学与分子技术结合起来进行生物多样性评估的重要性,从而最终提高我们对沿海生态系统的认识。
期刊介绍:
Molecular Ecology Resources promotes the creation of comprehensive resources for the scientific community, encompassing computer programs, statistical and molecular advancements, and a diverse array of molecular tools. Serving as a conduit for disseminating these resources, the journal targets a broad audience of researchers in the fields of evolution, ecology, and conservation. Articles in Molecular Ecology Resources are crafted to support investigations tackling significant questions within these disciplines.
In addition to original resource articles, Molecular Ecology Resources features Reviews, Opinions, and Comments relevant to the field. The journal also periodically releases Special Issues focusing on resource development within specific areas.