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Deep sequencing uncovers protistan plankton diversity in the Portuguese Ria Formosa solar saltern ponds
Filker, S.; Gimmler, A.; Dunthorn, M.; Mahé, F.; Stoeck, T. (2015). Deep sequencing uncovers protistan plankton diversity in the Portuguese Ria Formosa solar saltern ponds. Extremophiles 19(2): 283-295. https://dx.doi.org/10.1007/s00792-014-0713-2
In: Extremophiles. Springer: Tokyo. ISSN 1431-0651; e-ISSN 1433-4909, more
Peer reviewed article  

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Keywords
    Marine Sciences
    Marine Sciences > Biodiversity
    Marine Sciences > Marine Genomics
    Scientific Community
    Scientific Publication
    Marine/Coastal
Author keywords
    Hypersaline; Novel diversity; Protistan plankton; Salt gradient; Solarsaltern

Project Top | Authors 
  • Association of European marine biological laboratories, more

Authors  Top 
  • Filker, S.
  • Gimmler, A.
  • Dunthorn, M.
  • Mahé, F.
  • Stoeck, T.

Abstract
    We used high-throughput sequencing to unravel the genetic diversity of protistan (including fungal) plankton in hypersaline ponds of the Ria Formosa solar saltern works in Portugal. From three ponds of different salinity (4, 12 and 38 %), we obtained ca. 105,000 amplicons (V4 region of the SSU rDNA). The genetic diversity we found was higher than what has been described from solar saltern ponds thus far by microscopy or molecular studies. The obtained operational taxonomic units (OTUs) could be assigned to 14 high-rank taxonomic groups and blasted to 120 eukaryotic families. The novelty of this genetic diversity was extremely high, with 27 % of all OTUs having a sequence divergence of more than 10 % to deposited sequences of described taxa. The highest degree of novelty was found at intermediate salinity of 12 % within the ciliates, which traditionally are considered as the best known and described taxon group within the kingdom Protista. Further substantial novelty was detected within the stramenopiles and the chlorophytes. Analyses of community structures suggest a transition boundary for protistan plankton between 4 and 12 % salinity, suggesting different haloadaptation strategies in individual evolutionary lineages as a result of environmental filtering. Our study makes evident the gaps in our knowledge not only of protistan and fungal plankton diversity in hypersaline environments, but also in their ecology and their strategies to cope with these environmental conditions. It substantiates that specific future research needs to fill these gaps.

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