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A blueprint for life on MARS

Published: 7 July 2022

Lost Hammer Spring, in Nunavut in Canada’s High Arctic, is one of the coldest and saltiest terrestrial springs discovered to date. The water which travels up through 600 metres of permafrost to the surface is extremely salty (~24% salinity), perennially at sub-zero temperatures (~−5 °C) and contains almost no oxygen (<1ppm dissolved oxygen). The very high salt concentrations keep the Lost Hammer spring from freezing, thus maintaining a liquid water habitat even at sub-zero temperatures. These conditions are analogous to those found in certain areas on Mars, where widespread salt deposits and possible cold salt springs have been observed. And while earlier studies have found evidence of microbes in this kind of Mars-like environment – this is one of a very few studies to find microbes alive and active.

To gain insight into the kind of life forms that could exist on Mars, a McGill University research team, led by Lyle Whyte of the Department of Natural Resource Sciences, has used state-of-the-art genomic tools and single cell microbiology methods to identify and characterize a novel, and more importantly, an active microbial community in this unique spring. Finding the microbes and then sequencing their DNA and mRNA was no easy task.

Read more about this research in McGill News.

More coverage:

Eye on the Arctic

Global News

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