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The University of Massachusetts Amherst

Toward mountains without permanent snow and ice


M. Huss

B. Bookhagen

C. Huggel

D. Jacobsen

R.S. Bradley

J.J. Clague

M. Vuille

W. Buytaert

D.R. Cayan

G. Greenwood

B.G. Mark

A.M. Milner

R. Weingartner

M. Winder

+9 more
Publication Type:
Journal Article
Year of Publication:
Secondary Title:
Earth's Future


The cryosphere in mountain regions is rapidly declining, a trend that is expected to acceler- ate over the next several decades due to anthropogenic climate change. A cascade of effects will result, extending from mountains to lowlands with associated impacts on human livelihood, economy, and ecosystems. With rising air temperatures and increased radiative forcing, glaciers will become smaller and, in some cases, disappear, the area of frozen ground will diminish, the ratio of snow to rainfall will decrease, and the timing and magnitude of both maximum and minimum streamflow will change. These changes will affect erosion rates, sediment, and nutrient flux, and the biogeochemistry of rivers and proglacial lakes, all of which influence water quality, aquatic habitat, and biotic communities. Changes in the length of the growing season will allow low-elevation plants and animals to expand their ranges upward. Slope failures due to thawing alpine permafrost, and outburst floods from glacier- and moraine-dammed lakes will threaten downstream populations. Societies even well beyond the mountains depend on meltwater from glaciers and snow for drinking water supplies, irrigation, mining, hydropower, agriculture, and recre- ation. Here, we review and, where possible, quantify the impacts of anticipated climate change on the alpine cryosphere, hydrosphere, and biosphere, and consider the implications for adaptation to a future of mountains without permanent snow and ice.