Cryobiology

Microscopic Life Inhabiting Glacial Habitats On The Tibetan Plateau

By Keith Cowing

Press Release

KeAi Communications Co., Ltd.

June 10, 2025

Filed under Analog, arctic, CHina, cryobiology, cryoconite, extremophile, glacier, Habitable Zone, ice, ice planet, KeAi Communications Co., Ltd., microbiology, polar, snow, Third Pole, Tibet, Tibetan Plateau

Microscopic Life Inhabiting Glacial Habitats On The Tibetan Plateau — The Tibetan Plateau is a region of stunning beauty, and as this true-color Terra MODIS image from December 14, 2002, shows, is graced with hundreds of lakes that sparkle like emeralds and sapphires against the delicate tan and peach colors of the land. The plateau´s elevation averages 4,880 meters (16,010 feet) above sea level, and is bounded by mountain ranges to the north—the Kunlun—and the south—the Himalayas. Four of the largest Asian rivers originate in Tibet: the Chang (Yangtze), the Mekong, the Thanlwin, and the Brahmaputra. larger image — NASA

Glaciers are important regulators of the Earth’s climate system, affecting the hydrological cycle, energy balance and the development of downstream ecosystems. Other than the polar regions, the Tibetan Plateau stands as the region with the largest glacier area, earning it monikers such as “Water Tower of Asia” and “the Third Polar Region”. In spite of its great importance, however, human activities have caused increased glacier retreat, potentially impacting downstream environmental balance.

“Glaciers contain a variety of habitats including ice, snow, cryoconite, and deglaciated soil that harbor rich microbial communities — the main bearers of glacial life activities,” says Sang Ba, corresponding author of a new review on the topic published in Water Biology and Security. “We wanted to open a microbial perspective-driven window for researchers to protect the glacial habitats of the Tibetan Plateau.”

To that end, they have synthesized studies on the interactions between microbial communities and the intra- and extra-glacial ecosystems of the Tibetan Plateau., and found that exogenous microorganisms can be deposited on the glacier by atmospheric circulation.

“The special geo-climatic characteristics of glaciers may have prompted these microorganisms to adapt to this extreme environment through evolution and cooperation. These microorganisms are involved in the cycling of biogenic elements in glaciers, providing feedback to the Earth’s ecosystem,” explains Ba.

However, increased environmental pollution may affect the glacier microorganisms. Some pollutants synergize with climate warming to accelerate glacial melting, with meltwater carrying microorganisms, nutrients, and pollutants into downstream ecosystems, which may have far-reaching impacts on downstream ecosystems and the global climate.

“Reducing source pollution, strengthening international cooperation, implementing long-term monitoring, developing predictive models, and tapping into special microorganisms are the way forward in guarding the clean land of the Tibetan Plateau glaciers in the future,” says Ba.

Glacial microbial-environmental interactions on the Tibetan Plateau: A review, Water Biology and Security

Astrobiology,

Keith Cowing

Explorers Club Fellow, ex-NASA Space Station Payload manager/space biologist, Away Teams, Journalist, Lapsed climber, Synaesthete, Na’Vi-Jedi-Freman-Buddhist-mix, ASL, Devon Island and Everest Base Camp veteran, (he/him) 🖖🏻

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