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Temporal changes of genetic structure and diversity in a marine diatom genus discovered via metabarcoding
Ruggiero, M.V.; Kooistra, W.H.C.F.; Piredda, R.; Sarno, D.; Zampicinini, G.; Zingone, A.; Montresor, M. (2022). Temporal changes of genetic structure and diversity in a marine diatom genus discovered via metabarcoding. Environmental DNA 4(4): 763-775. https://dx.doi.org/10.1002/edn3.288
In: Environmental DNA. John Wiley & Sons: Hoboken. e-ISSN 2637-4943, meer
Peer reviewed article  

Beschikbaar in  Auteurs 

Trefwoorden
    Scientific Publication
    Bacillariophyceae [WoRMS]; Pseudo-nitzschia H. Peragallo in H. Peragallo & M. Peragallo, 1900 [WoRMS]
    Marien/Kust
Author keywords
    diatoms, genetic diversity, metabarcoding, Pseudo- nitzschia, temporal differentiation, V4-18s

Auteurs  Top 
  • Ruggiero, M.V.
  • Kooistra, W.H.C.F.
  • Piredda, R.
  • Sarno, D., meer
  • Zampicinini, G.
  • Zingone, A., meer
  • Montresor, M., meer

Abstract
    Diatoms’ bloom dynamics, with seasonal cycling of waxes and wanes of cell abundance, imply frequent bottleneck and expansion events that can leave signatures in the genetic structure and diversity of populations. We explored changes in genetic diversity and structure within multiple species of the planktonic marine diatom genus Pseudo-nitzschia living in sympatry in the Gulf of Naples (Tyrrhenian Sea, Italy) over 48 sampling dates (from 2011 to 2013) by means of metabarcode data. The genus Pseudo-nitzschia includes complexes of cryptic species along with morphologically distinguishable ones. We assessed the resolution power of the hypervariable V4 region of the 18S rDNA in delimiting species using different algorithms and a set of reference sequences. We measured intra-specific genetic diversity and differentiation among species over three annual cycles. Between-species divergence was higher in the Ppseudodelicatissima complex, while signs of incomplete lineage sorting and/or introgression were detected in the Pdelicatissima complex. Most of the species showed significant population differentiation over time, due to changes in haplotypic composition over the three years. Some haplotypes were lost and new ones appeared, with high polymorphism in species of the Pdelicatissima complex. We hypothesize that the observed temporal changes in genetic structure result from frequent founder events linked to a population dynamic characterized by cyclical alternation of clonal expansions and bottlenecks and discuss possible factors affecting the microevolutionary pathways in these planktonic diatoms.

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