Diversity of Heterotrophic Protists from Extremely Hypersaline Habitats

Diversity of Heterotrophic Protists from Extremely Hypersaline Habitats

Heterotrophic protists (protozoa) are a diverse but understudied component of the biota of extremely hypersaline environments, with few data on molecular diversity within halophile ‘species’, and almost nothing known of their biogeographic distribution. We have garnered SSU rRNA gene sequences for s...

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Bibliographic Details
Published in:Protist Vol. 166; no. 4; pp. 422 - 437
Main Authors: Park, Jong Soo, Simpson, Alastair G.B.
Format: Journal Article
Language:English
Published: Germany Elsevier GmbH 01-09-2015
Subjects:
Alveolates
Biodiversity
Diversity
DNA, Protozoan - genetics
Ecosystem
Eukaryota - classification
Eukaryota - cytology
halophiles
Heterolobosea
microbial eukaryotes
molecular phylogeny
Phylogeny
protozoa
RNA, Ribosomal, 18S - genetics
Salinity
Stramenopiles
Australia
North America
ANE, Europe
halophiles
protozoa
Diversity
microbial eukaryotes
molecular phylogeny
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Summary:Heterotrophic protists (protozoa) are a diverse but understudied component of the biota of extremely hypersaline environments, with few data on molecular diversity within halophile ‘species’, and almost nothing known of their biogeographic distribution. We have garnered SSU rRNA gene sequences for several clades of halophilic protozoa from enrichments from waters of >12.5% salinity from Australia, North America, and Europe (6 geographic sites, 25 distinct samples). The small stramenopile Halocafeteria was found at all sites, but phylogenies did not show clear geographic clustering. The ciliate Trimyema was recorded from 6 non-European samples. Phylogenies confirmed a monophyletic halophilic Trimyema group that included possible south-eastern Australian, Western Australian and North American clusters. Several halophilic Heterolobosea were detected, demonstrating that Pleurostomum contains at least three relatively distinct clades, and increasing known continental ranges for Tulamoeba peronaphora and Euplaesiobystra hypersalinica. The unclassified flagellate Palustrimonas, found in one Australian sample, proves to be a novel deep-branching alveolate. These results are consistent with a global distribution of halophilic protozoa groups (∼morphospecies), but the Trimyema case suggests that is worth testing whether larger forms exhibit biogeographic phylogenetic substructure. The molecular detection/characterization of halophilic protozoa is still far from complete at the clade level, let alone the ‘species level’.
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ISSN:1434-4610
1618-0941
DOI:10.1016/j.protis.2015.06.001