Evaluating the performance of DNA metabarcoding for assessment of zooplankton communities in Western Lake Superior using multiple markers.

Christy Meredith, Joel Hoffman, Anett Trebitz, Erik Pilgrim, Sarah Okum, John Martinson, Ellen S Cameron
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引用次数: 7

Abstract

For DNA metabarcoding to attain its potential as a community assessment tool, we need to better understand its performance versus traditional morphological identification and work to address any remaining performance gaps in incorporating DNA metabarcoding into community assessments. Using fragments of the 18S nuclear and 16S mitochondrial rRNA genes and two fragments of the mitochondrial COI marker, we examined the use of DNA metabarcoding and traditional morphological identification for understanding the diversity and composition of crustacean zooplankton at 42 sites across western Lake Superior. We identified 51 zooplankton taxa (genus or species, depending on the finest resolution of the taxon across all identification methods), of which 17 were identified using only morphological traits, 13 using only DNA and 21 using both methods. The taxa found using only DNA metabarcoding included four species and one genus-level identification not previously known to occur in Lake Superior, the presence of which still needs to be confirmed. A substantial portion of taxa that were identified to genus or species by morphological identification, but not identified using DNA metabarcoding, had zero ("no record") or ≤ 2 ("underrepresented records") reference barcodes in the BOLD or NCBI databases (63% for COI, 80% for 16S, 74% for 18S). The two COI marker fragments identified the most genus- and species-level taxa, whereas 18S was the only marker whose family-level percent sequence abundance patterns showed high correlation to composition patterns from morphological identification, based on a NMDS analysis of Bray-Curtis similarities. Multiple replicates were collected at a subset of sites and an occupancy analysis was performed, which indicated that rare taxa were more likely to be detected using DNA metabarcoding than traditional morphology. Our results support that DNA metabarcoding can augment morphological identification for estimating zooplankton diversity and composition of zooplankton over space and time, but may require use of multiple markers. Further addition of taxa to reference DNA databases will improve our ability to use DNA metabarcoding to identify zooplankton and other invertebrates in aquatic surveys.

Abstract Image

利用多标记评价DNA元条形码在苏必利尔湖浮游动物群落评价中的应用效果。
为了实现DNA元条形码作为社区评估工具的潜力,我们需要更好地了解其与传统形态学鉴定的性能,并努力解决将DNA元条形码纳入社区评估的任何剩余性能差距。利用18S核和16S线粒体rRNA基因片段以及线粒体COI标记的两个片段,利用DNA元条形码和传统形态学鉴定方法,研究了苏伯利尔湖西部42个地点甲壳类浮游动物的多样性和组成。我们鉴定了51个浮游动物分类群(属或种,取决于分类群在所有鉴定方法中的最佳分辨率),其中17个仅使用形态特征鉴定,13个仅使用DNA鉴定,21个同时使用两种方法鉴定。仅使用DNA元条形码发现的分类群包括四个物种和一个属水平的鉴定,这是以前在苏必利尔湖未发现的,其存在仍有待证实。在BOLD或NCBI数据库(COI为63%,16S为80%,18S为74%)中,通过形态鉴定鉴定为属或种但未使用DNA元条形码鉴定的分类群中,有相当一部分参考条形码为零(“无记录”)或≤2(“未代表记录”)。基于Bray-Curtis相似性的NMDS分析,两个COI标记片段鉴定的属级和种级分类群最多,而18S是唯一一个科级序列丰度与形态学鉴定的组成模式高度相关的标记。结果表明,与传统形态学方法相比,DNA元条形码技术更容易检测到稀有类群。我们的研究结果支持DNA元条形码可以增加浮游动物多样性和浮游动物组成随时间和空间的形态鉴定,但可能需要使用多个标记。进一步将分类群添加到参考DNA数据库将提高我们在水生调查中使用DNA元条形码识别浮游动物和其他无脊椎动物的能力。
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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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