Due to climate change, worldwide glaciers are rapidly declining. The trend will continue into the future, with consequences for sea level, water availability and tourism. Here, we assess the future evolution of all glaciers in Scandinavia and Iceland until 2100 using the coupled surface mass-balance ice-flow model GloGEMflow. The model is initialised with three distinct past climate data products (E-OBS, ERA-I, ERA-5), while future climate is prescribed by both global and regional climate models (GCMs and RCMs), in order to analyze their impact on glacier evolution. By 2100, we project Scandinavian glaciers to lose between 67 ± 18% and 90 ± 7% of their present-day (2018) volume under a low (RCP2.6) and a high (RCP8.5) emission scenario, res...
Icelandic glaciers have been losing mass since the Little Ice Age in the mid-to-late 1800s, with hig...
Glaciers in the European Alps play an important role in the hydrological cycle, act as a source for...
The volume of glaciers in Iceland (∼3,400 km3 in 2019) corresponds to about 9 mm of potential global...
Abstract Due to climate change, worldwide glaciers are rapidly declining. The trend will continue in...
As a direct consequence of climate change, glaciers worldwide are rapidly losing mass. This trend is...
International audienceThe Little Ice Age maximum extent of glaciers in Iceland was reached about 189...
Abstract Projected climate warming and wettening will have a major impact on the state of glaciers a...
Glacier mass loss is a key contributor to sea-level change slope instability in high-mountain region...
International audienceThe volume of glaciers in Iceland (∼3,400 k m 3 in 2019) corresponds to about ...
The anticipated retreat of glaciers around the globe will pose far-reaching challenges to the manage...
The Tenth Symposium on Polar Science/Ordinary sessions: [OM] Polar Meteorology and Glaciology, Wed. ...
A dynamic glacier flowline model is coupled to a degree-day mass balance model with the purpose of m...
Icelandic glaciers have been losing mass since the Little Ice Age in the mid-to-late 1800s, with hig...
Glaciers in the European Alps play an important role in the hydrological cycle, act as a source for...
The volume of glaciers in Iceland (∼3,400 km3 in 2019) corresponds to about 9 mm of potential global...
Abstract Due to climate change, worldwide glaciers are rapidly declining. The trend will continue in...
As a direct consequence of climate change, glaciers worldwide are rapidly losing mass. This trend is...
International audienceThe Little Ice Age maximum extent of glaciers in Iceland was reached about 189...
Abstract Projected climate warming and wettening will have a major impact on the state of glaciers a...
Glacier mass loss is a key contributor to sea-level change slope instability in high-mountain region...
International audienceThe volume of glaciers in Iceland (∼3,400 k m 3 in 2019) corresponds to about ...
The anticipated retreat of glaciers around the globe will pose far-reaching challenges to the manage...
The Tenth Symposium on Polar Science/Ordinary sessions: [OM] Polar Meteorology and Glaciology, Wed. ...
A dynamic glacier flowline model is coupled to a degree-day mass balance model with the purpose of m...
Icelandic glaciers have been losing mass since the Little Ice Age in the mid-to-late 1800s, with hig...
Glaciers in the European Alps play an important role in the hydrological cycle, act as a source for...
The volume of glaciers in Iceland (∼3,400 km3 in 2019) corresponds to about 9 mm of potential global...