Abstract

AbstractDwelling in a variety of aquatic habitats, one of the most abundant groups of microcrustaceans, ostracodes, are widely used indicator organisms in paleolimnological research. Typically, they are identified via traditional methods using morphological features but this may be excessively time‐consuming and prone to inter‐investigator variation. DNA barcoding and metabarcoding have become important tools for specimen identification, with a great impact in the field of taxonomy, (paleo‐)ecology and evolution. Despite its potential, metabarcoding has been rarely used to analyze the community structure of ostracodes. Here, we evaluate the performance of a metabarcoding approach for ostracode identification in surface sediment samples collected from Lake Nam Co on the Tibetan Plateau. We tested six different primer pairs amplifying fragments of three different genes, and compared their success in inferring ostracode communities, coupled with morphological identification of ostracodes from the same sediment samples. In total, depending on the primer pair used, seven to nineteen ostracode amplicon sequence variants (ASVs) were identified. Via microscopy, eight morphospecies were identified. We found considerable differences between primer pairs in yielding ostracode sequences via metabarcoding. In general, the highest proportions of ostracode reads and ASVs were found with primers amplifying fragments of the 18S rRNA gene, whereas primers for COI gene had the highest in silico amplification success and highest sequencing depth per sample but only contained <1% of ostracode sequences. As a consequence, the metabarcoding results with 18S rRNA gene were more consistent with the morphological data compared to those obtained with COI or mitochondrial 16S rRNA primers. No significant effects of treatment with different sediment quantities for DNA extraction (10 g vs. 0.5 g) were found on ostracode ASVs community composition. These results indicate that DNA metabarcoding can serve as an efficient tool for ostracode‐based environmental reconstructions but requires an informed decision on primers and target gene, as well as extending the barcoding database for improved accuracy.

Highlights

  • Ostracodes (Crustacea, Ostracoda) are small aquatic crustaceans inhabiting all types of waterbodies from freshwater, brackish to marine environments

  • Sediment samples were collected in Nam Co, a lake located in the monsoon-­influenced transition zone between semi-­humid and semi-­arid areas of the Tibetan Plateau

  • For cytochrome oxidase subunit 1 (COI) data set, an amplicon sequence variants (ASVs) was annotated as an Ostracoda, when the sequence similarity and coverage against the reference sequence in the database was higher than 80% and 98%, respectively

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Summary

| INTRODUCTION

Ostracodes (Crustacea, Ostracoda) are small aquatic crustaceans (mostly 0.5–­1.5 mm in size) inhabiting all types of waterbodies from freshwater, brackish to marine environments Because of their abundance in the aquatic ecosystems and sensitivity to the changes in environmental conditions such as temperature or conductivity (Meisch, 2000), these organisms are suitable bioindicators (Echeverría Galindo et al, 2019; Pérez et al, 2013). Their low-­magnesium calcite valves preserve well in sediments, Ostracoda displays one of the oldest continuous fossil records among arthropods (Griffith & Holmes, 2000). The aims of this study were to (1) evaluate the success of various metabarcoding markers (commonly used for invertebrates and newly designed) with a specific focus on identifying ostracodes from lake sediment samples (sedDNA metabarcoding), (2) test the effect of sample mass (0.5 vs. 10 g) as a determinant of ostracode community composition, and (3) compare the metabarcoding results with the morphologically identified ostracodes data from the same sediment samples

| METHODS
Findings
| DISCUSSION

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