Which barcode to decipher freshwater microalgal assemblages? Tests on mock communities

IF 0.9 4区环境科学与生态学 Q4 LIMNOLOGY

Annales De Limnologie-international Journal of Limnology Pub Date : 2023-01-01 DOI:10.1051/limn/2023008

Alexis Canino, Clarisse Lemonnier, Benjamin Alric, Agnès Bouchez, Isabelle Domaizon, Christophe Laplace-Treyture, Frédéric Rimet

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引用次数: 0

Abstract

DNA metabarcoding can be a promising alternative to microscopy for analysing phytoplankton, a key ecological indicator for freshwater ecosystems. The aim of this study was to evaluate the performance of different barcodes and associated primer pairs to assess microalgal diversity with DNA metabarcoding using a single barcode targeting all microalgae. We investigated barcodes in 16S and 23S rRNA genes, encoding for prokaryotic ribosomal sub-units, that are present in Cyanobacteria as well as in chloroplasts. In silico PCR tests were carried out on eight 16S and five 23S primer pairs using the Phytool reference library. Two and three pairs were selected for 16S and 23S, respectively, to perform an in vitro metabarcoding test based on a mock community made of DNA extracts of 10 microalgae strains. The 23S pairs enabled to detect all species, whereas 16S ones failed in the detection of some of them. One pair was selected for each genetic marker, based on its efficiency and specificity towards microalgae ( e.g. not heterotrophic bacteria). Another mock community covering a larger diversity (18 microalgae strains) was used to test the efficiency of the selected pairs and their ability to estimate relative abundances. The 23S pair performed better than the 16S one for detecting target species with also more accuracy to assess their relative abundances. We conclude that the 23S primer pair ECLA23S_F1/ECLA23S_R1 appears as a good candidate to decipher freshwater phytoplankton communities. As a next step, it will be necessary to confirm these results on a large diversity of natural communities.

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用哪个条形码来破译淡水微藻组合?模拟社区测试

作为淡水生态系统的关键生态指标，DNA元条形码可以作为显微镜分析浮游植物的一种有希望的替代方法。本研究的目的是评估不同条形码和相关引物对的性能，使用单一条形码针对所有微藻，利用DNA元条形码评估微藻多样性。我们研究了编码原核核糖体亚基的16S和23S rRNA基因的条形码，这些基因存在于蓝藻和叶绿体中。利用Phytool参考文库对8对16S引物和5对23S引物进行PCR检测。选取2对和3对分别用于16S和23S，以10个微藻菌株的DNA提取物组成模拟群落，进行体外元条形码测试。23S对能够检测到所有的物种，而16S对不能检测到某些物种。根据其对微藻(如非异养细菌)的效率和特异性，为每个遗传标记选择一对。另一个覆盖更大多样性(18个微藻菌株)的模拟群落用于测试所选对的效率及其估计相对丰度的能力。23S序列比16S序列对目标物种的检测效果更好，对目标物种相对丰度的评估也更准确。我们得出结论，23S引物对ECLA23S_F1/ECLA23S_R1似乎是淡水浮游植物群落的良好候选者。下一步，有必要在大量自然群落的多样性上证实这些结果。

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

Annales De Limnologie-international Journal of Limnology 地学-湖沼学

CiteScore

2.20

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Annales de Limnologie - International Journal of Limnology publishes papers on the ecology of freshwater systems, ranging from studies of aquatic organisms, physical and chemical works which relate to the biological environment, to ecological applications and frameworks for water management directives. Main topics: Ecology of freshwater systems ; biodiversity, taxonomy, distribution patterns in space and time, biology of animals and plants ; experimental and conceptual studies which integrate laboratory and/or field work on physiology, population dynamics, biogeochemistry and nutrient dynamics, management, mathematical modelling ; techniques for sampling and chemical analyses, ecological applications, procedures which provide frameworks for environmental legislation.