The mass balance of a glacier is a complex consequence of the combination of atmospheric variables that control it. However, the understanding of past, present, and future glacier states is often predicated on very simplified representations of the mass balance–climate relationship. Here, a full surface energy and mass balance (SEMB) model is developed to explore the relationship between glacier equilibrium-line altitudes (ELAs) and climate at a regional scale. This model is applied to central Asia because of the diverse climate regimes and glacier history. The model captures the pattern in ELAs well; the seasonal cycle in energy balance terms are comparable to studies on individual glaciers in central Asia, and the proportionality factor r...
Some recent studies revealed that Himalayan glaciers were shrinking at an accelerated rate since the...
International audienceThe Indian and East Asian summer monsoons shape the melt and accumulation patt...
Several studies identified heterogeneous glacier mass changes in western High Mountain Asia over the...
Due to a lack of in situ measurements, model-based studies of glacier mass balance in the Tibetan Pl...
Glaciers in High Mountain Asia (HMA) provide an important water resource for communities downstream,...
There is strong variation in glacier mass balances in High Mountain Asia. Particularly interesting i...
The Tibetan Plateau is the source region of five of the largest Asian rivers. The large amount of ic...
Mass balance of glaciers in High Mountain Asia (HMA) varies substantially across the region. While t...
The Lewis Glacier on Mt. Kenya is one of the best studied tropical glaciers and has experienced cons...
International audienceThis study investigates the physical basis of temperature-index models for thr...
International audienceA distributed energy balance model was applied to Zongo Glacier, Bolivia (16°S...
Three glaciers in southern Norway, with very different massbalance characteristics, are studied wit...
The sensitivity of the mass balance of the Greenland ice sheet to climate change is studied with an...
Presently available information on the glacier equilibrium line altitude (ELA) is being collected an...
Some recent studies revealed that Himalayan glaciers were shrinking at an accelerated rate since the...
International audienceThe Indian and East Asian summer monsoons shape the melt and accumulation patt...
Several studies identified heterogeneous glacier mass changes in western High Mountain Asia over the...
Due to a lack of in situ measurements, model-based studies of glacier mass balance in the Tibetan Pl...
Glaciers in High Mountain Asia (HMA) provide an important water resource for communities downstream,...
There is strong variation in glacier mass balances in High Mountain Asia. Particularly interesting i...
The Tibetan Plateau is the source region of five of the largest Asian rivers. The large amount of ic...
Mass balance of glaciers in High Mountain Asia (HMA) varies substantially across the region. While t...
The Lewis Glacier on Mt. Kenya is one of the best studied tropical glaciers and has experienced cons...
International audienceThis study investigates the physical basis of temperature-index models for thr...
International audienceA distributed energy balance model was applied to Zongo Glacier, Bolivia (16°S...
Three glaciers in southern Norway, with very different massbalance characteristics, are studied wit...
The sensitivity of the mass balance of the Greenland ice sheet to climate change is studied with an...
Presently available information on the glacier equilibrium line altitude (ELA) is being collected an...
Some recent studies revealed that Himalayan glaciers were shrinking at an accelerated rate since the...
International audienceThe Indian and East Asian summer monsoons shape the melt and accumulation patt...
Several studies identified heterogeneous glacier mass changes in western High Mountain Asia over the...