A lake of melted ice is pictured at the bottom of the Rhone Glacier in Furka, Switzerland, September 13, 2018. Show moreShow less
Hannes Peter of the Alpine and Polar Environment Research Center (Alpole) from the Ecole Polytechnique Federale de Lausanne (EPFL) stores samples of microorganisms near the Rhone Glacier in Furka, Switzerland, September 13, 2018. Show moreShow less
Hannes Peter of the Alpine and Polar Environment Research Center (Alpole) from the Ecole Polytechnique Federale de Lausanne (EPFL) and a colleague perform analyses after collecting microorganisms from a stream to extract their DNA to better understand how they have adapted to their extreme environment, near the Rhone Glacier in Furka, Switzerland, September 13, 2018. Show moreShow less
Hannes Peter of the Alpine and Polar Environment Research Center (Alpole) from the Ecole Polytechnique Federale de Lausanne (EPFL) collects microorganisms from a stream to extract their DNA to better understand how they have adapted to their extreme environment, near the Rhone Glacier in Furka, Switzerland, September 13, 2018. Show moreShow less
Hannes Peter of the Alpine and Polar Environment Research Center (Alpole) from the Ecole Polytechnique Federale de Lausanne (EPFL) collects microorganisms from a stream to extract their DNA to better understand how they have adapted to their extreme environment, near the Rhone Glacier in Furka, Switzerland, September 13, 2018. Show moreShow less
A tourist takes a picture in the Ice Cave at the Rhone Glacier in Furka, Switzerland, September 13, 2018. Show moreShow less
A woman poses for a picture outside the Ice Cave at the Rhone Glacier in Furka, Switzerland, September 13, 2018. Show moreShow less