Nature Reviews Microbiology, 5 November 2025
This review summarizes the harmful impacts of snow and ice loss on microbial communities uniquely adapted to thrive in these cold environments, posing downstream risks to food and income security, water availability, and human health. In the cryosphere, microbes grow in pools or streams of water across glacial, permafrost and sea ice habitats. The combination of subzero temperatures and high salinities leads to special species that flourish in their extreme environment; however, that means when temperatures become more moderate and ice melts, more common species can outcompete them and cold-adapted species must acclimate. Microbes draw down many key nutrients, and often trap that organic matter in a frozen state until it is released when thawed. Loss of these specially-adapted nutrient stores alters the landscape’s biogeochemistry and the timing of seasonal cycles, with far-reaching consequences ranging from pervasive growth of harmful algae blooms in Arctic seas, to microbial growth darkening the surface of glaciers and increasing melting and ice loss.
ICIMOD, April 24, 2026 2026 marks the fourth consecutive year of below-average snow conditions in…
Ocean Science, 20 Apr 2026 Global warming and increased freshwater input from melting ice are…
Science, 23 Apr 2026 Specially-adapted species living in glacier regions face rapid snowpack and ice…
Science Advances, 24 Apr 2026 Observations from the grounding zone beneath the Ross Ice Shelf…
The Hindu Kush Himalaya faces rising climate extremes that threaten mountain communities, demanding a shift…
Philosophical Transactions of the Royal Society, 23 April 2026 Observations suggest we are currently tracking…