Functional Metabolic Diversity of Bacterioplankton in Maritime Antarctic Lakes.

Antonio Picazo,Juan Antonio Villaescusa,Carlos Rochera,Antonio Quesada,Antonio Camacho,Javier Miralles-Lorenzo

doi:10.3390/microorganisms9102077

Antonio Picazo, Juan Antonio Villaescusa + Show 4 more

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https://doi.org/10.3390/microorganisms9102077

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Abstract

A summer survey was conducted on the bacterioplankton communities of seven lakes from Byers Peninsula (Maritime Antarctica), differing in trophic and morphological characteristics. Predictions of the metabolic capabilities of these communities were performed with FAPROTAX using 16S rRNA sequencing data. The versatility for metabolizing carbon sources was also assessed in three of the lakes using Biolog Ecoplates. Relevant differences among lakes and within lake depths were observed. A total of 23 metabolic activities associated to the main biogeochemical cycles were foreseen, namely, carbon (11), nitrogen (4), sulfur (5), iron (2), and hydrogen (1). The aerobic metabolisms dominated, although anaerobic respiration was also relevant near the lakes’ bottom as well as in shallow eutrophic lakes with higher nutrient and organic matter contents. Capacity for using carbon sources further than those derived from the fresh autochthonous primary production was detected. Clustering of the lakes based on metabolic capabilities of their microbial communities was determined by their trophic status, with functional diversity increasing with trophic status. Data were also examined using a co-occurrence network approach, indicating that the lakes and their catchments have to be perceived as connected and interacting macrosystems, where either stochastic or deterministic mechanisms for the assembling of communities may occur depending on the lake’s isolation. The hydrological processes within catchments and the potential metabolic plasticity of these biological communities must be considered for future climate scenarios in the region, which may extend the growing season and increase biomass circulation.

Highlights

The diversity and distribution of planktonic microbial assemblages in maritime Antarctic lakes have been widely studied during the last decades [1,2,3,4,5]
Lakes Turbio and Somero were disposed in a weakly connected central sub-network and showed the lowest stability among the bacterioplankton assemblages of the studied lakes, with a low number of connection degrees that mainly showed exclusionary relationships. Our results provide both a functional annotation, conducted with data of sequencing of bacterial 16S rRNA genes previously obtained in some lakes from Byers Peninsula [4], and a community level physiological profile of the differential utilization of carbon sources by these microbial communities
Former limnological studies conducted in Byers Peninsula show the occurrence of a gradual nutrient enrichment in lakes as they are closer to the sea [33,35], which in part determines the structure of bacterioplankton communities [4,36]

Summary

Introduction

The diversity and distribution of planktonic microbial assemblages in maritime Antarctic lakes have been widely studied during the last decades [1,2,3,4,5]. The study of the structure and composition of the microbial community in aquatic ecosystems has been classically used as a first approach for their characterization. This type of approach may not be enough to understand how the composition of the microbial community affects ecosystem functioning [12,13].

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