Sources of solutes and carbon cycling in perennially ice-covered Lake Untersee, Antarctica

Nicole B Marsh,Denis Lacelle,Ian D Clark,Dale T Andersen,Liam Jasperse,Sarina Cotroneo,Benoit Faucher

doi:10.1038/s41598-020-69116-6

Nicole B Marsh, Denis Lacelle + Show 5 more

Open Access

https://doi.org/10.1038/s41598-020-69116-6

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Abstract

Perennially ice-covered lakes that host benthic microbial ecosystems are present in many regions of Antarctica. Lake Untersee is an ultra-oligotrophic lake that is substantially different from any other lakes on the continent as it does not develop a seasonal moat and therefore shares similarities to sub-glacial lakes where they are sealed to the atmosphere. Here, we determine the source of major solutes and carbon to Lake Untersee, evaluate the carbon cycling and assess the metabolic functioning of microbial mats using an isotope geochemistry approach. The findings suggest that the glacial meltwater recharging the closed-basin and well-sealed Lake Untersee largely determines the major solute chemistry of the oxic water column with plagioclase and alumino-silicate weathering contributing < 5% of the Ca2+–Na+ solutes to the lake. The TIC concentration in the lake is very low and is sourced from melting of glacial ice and direct release of occluded CO2 gases into the water column. The comparison of δ13CTIC of the oxic lake waters with the δ13C in the top microbial mat layer show no fractionation due to non-discriminating photosynthetic fixation of HCO3– in the high pH and carbon-starved water. The 14C results indicate that phototrophs are also fixing respired CO2 from heterotrophic metabolism of the underlying microbial mats layers. The findings provide insights into the development of collaboration in carbon partitioning within the microbial mats to support their growth in a carbon-starved ecosystem.

Highlights

Numerous perennially ice-covered lakes have been inventoried in Antarctica, including in the McMurdo Dry Valleys (MDV), Bunger Hills, Vestfold Hills, Schirmacher Oasis, and Soya Coast[1,2]
In the absence of large metazoans, photosynthetic microbial mats cover the floor of the lake from just below the ice cover to depths exceeding 130 m, including the formation of small cupsate pinnacles and large conical structures growing in a light and nutrients-starved waters; to date, Untersee is the only freshwater lake hosting the formation of modern large conical stromatolites[12,15]
The nearby Core Epica in western Dronning Maud Land (DML) is characterized by a similar Na-SO4 facies but with solute concentration 3–4 orders of magnitude lower than in the lake[28]

Summary

Introduction

Numerous perennially ice-covered lakes have been inventoried in Antarctica, including in the McMurdo Dry Valleys (MDV), Bunger Hills, Vestfold Hills, Schirmacher Oasis, and Soya Coast[1,2]. These lakes have varied chemistries as a result of source water and Holocene history of the lakes, but many are oligotrophic and support benthic cyanobacterial mats and heterotrophic bacterial c ommunities[3,4,5]. Lake Untersee developed at 12–10 ka BP and measures 2.5 km wide

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