New avenues for potentially seeking microbial responses to climate change beneath Antarctic ice shelves.
Aitana Llorenç-VicedoMonica Lluesma GomezOle ZeisingThomas KleinerJohannes FreitagFrancisco Martinez-HernandezFrank WilhelmsManuel Martinez-GarciaPublished in: mSphere (2024)
Several efforts have been undertaken to predict the response of microbes under climate change, mainly based on short-term microcosm experiments under forced conditions. A common concern is that manipulative experiments cannot properly simulate the response of microbes to climate change, which is a long-term evolutionary process. In this proof-of-concept study with a limited sample size, we demonstrate a novel approach yet to be fully explored in science for accessing genetic information from putative past marine microbes preserved under Antarctic ice shelves before the industrial revolution. This potentially allows us estimating evolutionary changes as exemplified in our study. We advocate for gathering a more comprehensive Antarctic marine ice core data sets across various periods and sites. Such a data set would enable the establishment of a robust baseline, facilitating a better assessment of the potential effects of climate change on key genetic signatures of microbes.