Glacial lake outburst floods enhance benthic microbial productivity in perennially ice-covered Lake Untersee (East Antarctica)

Abstract Benthic ecosystems of perennially ice-covered lakes in Antarctica are highly sensitive to climate-driven changes. Lake Untersee has been in hydrological steady-state for several hundred years with a high pH water column and extremely low levels of dissolved inorganic carbon. Here, we show t...

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Bibliographic Details
Published in:Communications Earth & Environment
Main Authors: Faucher, Benoit, Lacelle, Denis, Marsh, Nicole Britney, Jasperse, Liam, Clark, Ian Douglas, Andersen, Dale Thomas
Other Authors: Natural Sciences and Engineering Research Council of Canada - Alexander Graham Bell Scholarship
Format: Article in Journal/Newspaper
Language:English
Published: Springer Science and Business Media LLC 2021
Subjects:
General Earth and Planetary Sciences
General Environmental Science
Antarctic
East Antarctica
Untersee
Glacial Lake
Antarc*
Antarctica
Online Access:http://dx.doi.org/10.1038/s43247-021-00280-x
https://www.nature.com/articles/s43247-021-00280-x.pdf
https://www.nature.com/articles/s43247-021-00280-x
Description
Summary:Abstract Benthic ecosystems of perennially ice-covered lakes in Antarctica are highly sensitive to climate-driven changes. Lake Untersee has been in hydrological steady-state for several hundred years with a high pH water column and extremely low levels of dissolved inorganic carbon. Here, we show that glacial lake outburst floods can replenish carbon dioxide-depleted lakes with carbon, enhancing phototrophic activity of the benthic ecosystem. In 2019, a glacial lake outburst flood brought 17.5 million m 3 of water to Lake Untersee, the most substantial reported increase for any surface lake in Antarctica. High-resolution grain-size and carbon isotope analyses of microbial mats suggest that glacial lake outburst floods have occurred periodically over the Holocene and help explain the complex patterns of carbon cycling and sequestration observed in the lake. Our findings suggest that periodic flooding events may provide biological stimuli to other carbon dioxide-depleted Antarctic ecosystems and perhaps even icy lakes on early Mars.

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