Plankton biodiversity and species co-occurrence based on environmental DNA – a multiple marker study

Sirje Sildever, P. Laas, N. Kolesova, I. Lips, U. Lips, S. Nagai
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引用次数: 7

Abstract

Metabarcoding in combination with high-throughput sequencing (HTS) allows simultaneous detection of multiple taxa by targeting single or several taxonomically informative gene regions from environmental DNA samples. In this study, a multiple-marker HTS approach was applied to investigate the plankton diversity and seasonal succession in the Baltic Sea from winter to autumn. Four different markers targeting the 16S, 18S, and 28S ribosomal RNA genes were employed, including a marker for more efficient dinoflagellate detection. Typical seasonal changes were observed in phyto- and bacterioplankton communities. In phytoplankton, the appearance patterns of selected common, dominant, or harmful species followed the patterns also confirmed based on 20 years of phytoplankton monitoring data. In the case of zooplankton, both macro- and microzooplankton species were detected. However, no seasonal patterns were detected in their appearance. In total, 15 and 2 new zoo- and phytoplankton species were detected from the Baltic Sea. HTS approach was especially useful for detecting microzooplankton species as well as for investigating the co-occurrence and potential interactions of different taxa. The results of this study further exemplify the efficiency of metabarcoding for biodiversity monitoring and the advantage of employing multiple markers through the detection of species not identifiable based on a single marker survey and/or by traditional morphology-based methods.
基于环境DNA的浮游生物多样性与物种共生的多标记研究
元条形码与高通量测序(HTS)相结合,可以通过针对环境DNA样本中单个或多个分类信息丰富的基因区域同时检测多个分类群。本研究采用多标记HTS方法对波罗的海冬季至秋季浮游生物多样性和季节演替进行了研究。采用了针对16S、18S和28S核糖体RNA基因的四种不同标记,包括一种更有效地检测鞭毛虫的标记。浮游植物和细菌群落呈现典型的季节变化。在浮游植物中,选定的常见种、优势种和有害种的出现模式遵循了20年浮游植物监测数据所证实的模式。在浮游动物的情况下,发现了大型和小型浮游动物物种。然而,在它们的外观上没有发现季节性的模式。在波罗的海共发现了15种新的动物和2种新的浮游植物。HTS方法对微小浮游动物种类的检测以及不同分类群的共生和潜在相互作用的研究尤其有用。本研究的结果进一步证明了元条形码在生物多样性监测中的有效性,以及通过使用多个标记来检测基于单一标记调查和/或传统基于形态学的方法无法识别的物种的优势。
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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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