info:eu-repo/semantics/article
Planktonic eukaryote molecular diversity: Discrimination of minerotrophic and ombrotrophic peatland pools in Tierra del Fuego (Argentina)
Date
2014-11Registration in:
Lara Pandis, Enrique Miguel; Seppey, Christophe V. W.; Gonzalez Garraza, Gabriela Carolina; Singer, David; Quiroga, María Victoria; et al.; Planktonic eukaryote molecular diversity: Discrimination of minerotrophic and ombrotrophic peatland pools in Tierra del Fuego (Argentina); Oxford University Press; Journal of Plankton Research; 37; 3; 11-2014; 645-655
0142-7873
CONICET Digital
CONICET
Author
Lara Pandis, Enrique Miguel
Seppey, Christophe V. W.
Gonzalez Garraza, Gabriela Carolina
Singer, David
Quiroga, María Victoria
Mataloni, Maria Gabriela
Abstract
We investigated the composition of the smallest size fraction (<3 μm) of eukaryotic plankton communities of five pools located in the Rancho Hambre peat bog in Argentinean Tierra del Fuego with an IlluminaHiSeq massive sequencing approach applied to the v9 region of the eukaryotic SSU rRNA gene. Communities were generally dominated by chrysophytes, with a good representation of Perkinsea and Cercozoa clade NC-10. A community composition analysis performed using GUniFraC separated minerotrophic and ombrotrophic sites, reflecting perfectly the classification of the sites based on environmental data. However, this separation disappeared when more weight was given to abundant phylotypes, suggesting that subordinate phylotypes were responsible for site discrimination. The 5% best indicators for, respectively, minerotrophic and ombrotrophic environments were searched using an IndVal analysis. Among these, autotrophic taxa were more common in minerotrophic environments, whereas mixotrophic taxa represented best ombrotrophic water bodies. However, the ecological traits of many taxa have still not been determined, and still needs to be investigated for a better understanding of freshwater systems ecology.