Summer abundance and activities of bacteria in the freshwater lakes of Schirmacher Oasis, Antarctica

Abstract

Bacterial biomass and heterotrophic potential (using 14C-labeled glucose, glutamic acid and sodium acetate) of water, ice and sediment microbial populations were studied from different lakes of the Schirmacher Oasis, Antarctica. Epifluorescence counts of total bacteria in these lakes were observed to be lower by a factor when compared to some of the ultraoligotrophic Antarctic lakes. Biovolumes of bacteria from different samples did not show significant variations, suggesting that regulatory factors were oligotrophy and low temperatures rather than microzoan grazing. Microbial uptake rates of glutamic acid were generally the fastest, followed by glucose and/or sodium acetate in the lakewater samples. The mean values of Vmax cell−1 for glutamic acid, sodium acetate and glucose were 3.81, 0.91 and 0.71 pgCh−1. Results of this study are potentially useful in recognizing the relative abundance and activity of limnetic microbial populations in the Schirmacher Oasis during summer — the active period of microbial growth — and for comparing their activities with other ecosystems elsewhere in continental Antarctica.