Scientists Rank World’s Most Important, Most Threatened Mountain Water Towers

09.12.2019  | Beate Kittl/Universität Utrecht/National Geographic | News WSL 

 

Scientists from around the world – including Switzerland – have assessed the planet’s 78 mountain glacier–based water systems and, for the first time, ranked them in order of their importance to adjacent lowland communities, and evaluated their vulnerability to future environmental and socioeconomic changes. These systems, known as mountain water towers, store and transport water via glaciers, snow packs, lakes and streams, thereby supplying invaluable water resources to 1.9 billion people globally—roughly a quarter of the world’s population.

The research, published in the prestigious scientific journal Nature, provides evidence that global water towers are at risk, in many cases critically, due to the threats of climate change, growing populations, mismanagement of water resources, and other geopolitical factors. Further, the authors conclude that it is essential to develop international, mountain-specific conservation and climate change adaptation policies and strategies to safeguard both ecosystems and people downstream. In Switzerland, researchers of the Swiss Federal Institute for Forest, Snow and Landscape Research WSL and the University of Zurich participated in the study.

European Alps under high demand

Globally, the most relied-upon mountain system is the Indus water tower in Asia, according to their research. The Indus water tower—made up of vast areas of the Himalayan mountain range and covering portions of Afghanistan, China, India and Pakistan—is also one of the most vulnerable. High-ranking water tower systems on other continents are the southern Andes, the Rocky Mountains and the European Alps.

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Melting ice from the Khumbu glacier runs down the mountain at Everest Base Camp, Nepal in the Ganges-Bramaputra water tower. The region is expected to see a 1.6 degree C temperature rise by 2050. New research supported by National Geographic and Rolex’s Perpetual Planet partnership highlights the importance and vulnerability of the world’s glacier-based water systems. Learn more at natgeo.com/PerpetualPlanet. Photo by Brittany Mumma, National Geographic.
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The summit of Bhulan Peak is reflected on the Rupal River, Pakistan. This region is part of the Indus water tower, which, according to research supported by the National Geographic and Rolex Perpetual Planet partnership, is the most relied-upon glacier-based water system in the world. Learn more at natgeo.com/PerpetualPlanet. Photo by Tommy Heinrich, National Geographic
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View over the Shimshal Pamir region of Pakistan. This region is part of the Indus water tower, which, according to research supported by the National Geographic and Rolex Perpetual Planet partnership, is the most relied-upon glacier-based water systems in the world. Learn more at natgeo.com/PerpetualPlanet. Photo by Matthew Paley, National Geographic.
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Farmers tend to their fields high in the Peruvian Andes. New research supported by National Geographic and Rolex’s Perpetual Planet partnership highlights the importance and vulnerability of the world’s glacier-based water systems, including the northern Andes, where mountain-derived water is critically required for irrigating crops. Learn more at natgeo.com/PerpetualPlanet. Photo by Lynn Johnson, National Geographic.
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Glaciers covering the Adela and Cerro Torre massifs are reflected in the Laguna Torre, a glacial lake in Los Glacieres National Park. The South Chile water tower is the most relied-upon water tower in South America, according to new research supported by National Geographic and Rolex’s Perpetual Planet partnership. Learn more at natgeo.com/PerpetualPlanet. Photo by Beth Wald, National Geographic.
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The Mistaya River courses through Mistaya Canyon in Canada’s Rocky Mountains. This region is one of the most relied-upon water towers in North America, according to new research supported by National Geographic and Rolex’s Perpetual Planet partnership highlighting the importance and vulnerability of the world’s glacier-based water systems. Learn more at natgeo.com/PerpetualPlanet. Photo by Gordon Wiltsie, National Geographic.
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View down a glacial valley towards the small mountain town of Val-d’Isere in the French Alps. This region’s water tower is one of the most relied-upon in Europe, according to new research supported by National Geographic and Rolex’s Perpetual Planet partnership highlighting the importance and vulnerability of the world’s glacier-based water systems. Photo by Keith Ladzinski, National Geographic.
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Martigny is one of many towns located in the valleys of the Swiss Alps. This region’s water tower is one of the most relied-upon in Europe according to new research supported by National Geographic and Rolex’s Perpetual Planet partnership. Learn more at natgeo.com/PerpetualPlanet. Photo by Melissa Farlow, National Geographic.
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The village of Khumjung, Nepal, beneath Khumbu Yui Lha, one of the high mountains of the Eastern Himalaya. New research supported by National Geographic and Rolex’s Perpetual Planet partnership highlights the importance and vulnerability of the world’s glacier-based water systems, including this region’s Ganges-Bramaputra water tower, that communities like this rely upon. Learn more at natgeo.com/PerpetualPlanet. Photo by Brittany Mumma, National Geographic.
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Irrigation sluices like this one are used by farmers in the Marjah district of Afghanistan. Many in the region rely on water from nearby glaciers for agriculture and more, but increasingly those resources are at risk. This region’s Helmand water tower is the most vulnerable in the world. Learn more about the threats facing the world’s water towers by visiting natgeo.com/PerpetualPlanet. Photo by David Guttenfelder/AP, National Geographic.

To determine the importance of these 78 water towers, researchers analyzed the various factors that determine how reliant downstream communities are upon the supplies of water from these systems. They also assessed the vulnerability of water resources, as well as the people and ecosystems that depend on them, based on predictions of future climate and socioeconomic changes.

Of the 78 global water towers identified, the following are the five most relied-upon systems by continent:

  • Asia: Indus, Tarim, Amu Darya, Syr Darya, Ganges-Brahmaputra
  • Europe: Rhône, Po, Rhine, Black Sea North Coast, Caspian Sea Coast
  • North America: Fraser, Columbia and Northwest United States, Pacific and Arctic Coast, Saskatchewan-Nelson, North America-Colorado
  • South America: South Chile, South Argentina, Negro, La Puna region, North Chile

 

The study, which was authored by 32 scientists from around the world, was led by Prof. Walter Immerzeel and Dr. Arthur Lutz of Utrecht University, longtime researchers of water and climate change in high mountain Asia.

“What is unique about our study is that we have assessed the water towers’ importance, not only by looking at how much water they store and provide, but also how much mountain water is needed downstream and how vulnerable these systems and communities are to a number of likely changes in the next few decades,” said Immerzeel. Lutz added, “By assessing all glacial water towers on Earth, we identified the key basins that should be on top of regional and global political agendas.”

This research was supported by National Geographic and Rolex as part of their Perpetual Planet partnership, which aims to shine a light on the challenges facing the Earth’s critical life-support systems, support science and exploration of these systems, and empower leaders around the world to develop solutions to protect the planet.

"Mountains are iconic and sacred places around the world, but the critical role they play in sustaining life on Earth is not well understood," said Jonathan Baillie, executive vice president and chief scientist at the National Geographic Society. "This research will help decision-makers, on global and local levels, prioritize where action should be taken to protect mountain systems, the resources they provide, and the people who depend on them.”

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