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Diatom resting stages in surface sediments: a pilot study comparing Next Generation Sequencing and Serial Dilution Cultures
Piredda, R.; Sarno, D.; Lange, C.B.; Tomasino, M.P.; Zingone, A.; Montresor, M. (2017). Diatom resting stages in surface sediments: a pilot study comparing Next Generation Sequencing and Serial Dilution Cultures. Cryptogam., Algol. 38(1): 31-46.
In: Cryptogamie. Algologie. ADAC: Paris. ISSN 0181-1568; e-ISSN 1776-0984, meer
Peer reviewed article  

Beschikbaar in  Auteurs 

    Exploitable Scientific Result
    Marine Sciences
    Marine Sciences > Biodiversity
    Scientific Community
    Scientific Publication
Author keywords
    Diatoms; hTS; metabarcoding; V4; 18S rDNA; resting stages; SDC;sediments; lTeR-MC; Gulf of Naples

Project Top | Auteurs 
  • Association of European marine biological laboratories, meer

Auteurs  Top 
  • Piredda, R.
  • Sarno, D., meer
  • Lange, C.B.
  • Tomasino, M.P.
  • Zingone, A., meer
  • Montresor, M., meer

    Several diatom species produce resting stages as part of their life cycle. These resting stages accumulate in the sediments where they can remain for a long time before being re-suspended in the water column and switching to active growth. Until now, the abundance and diversity of viable diatom resting stages have been assessed using the Serial Dilution Culture (SDC) method. In the present study, surface sediment samples from the Gulf of Naples were used to compare results obtained with the SDC method with those provided by HTS metabarcoding based on DNA extracted from the same sediment sample; the marker used was the V4 region of 18S rDNA. HTS metabarcoding showed a marked dominance of polar centric diatoms, among which Chaetoceros species were the most represented, in terms of both sequence and ribotype number. Almost all the most abundant ribotypes identified with metabarcoding matched records of species observed in SDCs. In some cases, however, this marker region could not distinguish between morphologically and phylogenetically distinct species, e.g., Skeletonema pseudocostatum and S. tropicum. As expected, molecular analysis provided a higher number of ribotypes as compared to the number of taxa recorded by SDC. Despite the well-known biases of both methodologies for quantitative assessments, our results show that DNA metabarcoding via HTS sequencing is a promising approach to explore the diversity of diatom resting stages. This study also confirms the importance of curated reference sequences to fully interpret the diversity stored in environmental sediment samples.

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