International audienceThe volume of glaciers in Iceland (∼3,400 k m 3 in 2019) corresponds to about 9 mm of potential global sea level rise. In this study, observations from 98.7% of glacier covered areas in Iceland (in 2019) are used to construct a record of mass change of Icelandic glaciers since the end of the 19th century i.e. the end of the Little Ice Age (LIA) in Iceland. Glaciological ( in situ ) mass-balance measurements have been conducted on Vatnajökull, Langjökull, and Hofsjökull since the glaciological years 1991/92, 1996/97, and 1987/88, respectively. Geodetic mass balance for multiple glaciers and many periods has been estimated from reconstructed surface maps, published maps, aerial photographs, declassified spy satellite ima...
The reological properties of the crust and the upper mantle beneath Iceland make the earth surface s...
The temperate outlet glaciers of SE-Vatnajökull are sensitive to climate change, and provide importa...
ABSTRACTGlaciers and ice caps around the world are changing quickly, with surge-type behaviour super...
International audienceThe volume of glaciers in Iceland (∼3,400 k m 3 in 2019) corresponds to about ...
The volume of glaciers in Iceland (∼3,400 km3 in 2019) corresponds to about 9 mm of potential global...
International audienceIn total, Icelandic ice caps contain 3600 km^3 of ice, which if melted would r...
In total, Icelandic ice caps contain 3,600 km3 of ice, which if melted would3 raise sea level by 1 c...
Abstract. Area and volume changes and the average geodetic mass balance of the non-surging outlet gl...
International audienceWe describe the mass balance of Langjökull ice cap, Iceland, (∼920 km²), ∼190 ...
International audienceWe apply swath processing to CryoSat-2 interferometric mode data acquired over...
ABSTRACT The geometry of the surface and bed of Langjökull, Iceland, was constructed from GPS and ra...
International audienceThe Little Ice Age maximum extent of glaciers in Iceland was reached about 189...
Mýrdalsjökull is the fourth largest Icelandic ice cap (∼480 km² in 2019), located in the South of Ic...
In 2000, Iceland’s glaciers covered 11,079 km2, or 10.7 % of its contiguous area. There are 269 name...
Le bilan de masse des glaciers est fortement lié au climat. Aux hautes latitudes, l'accumulation de ...
The reological properties of the crust and the upper mantle beneath Iceland make the earth surface s...
The temperate outlet glaciers of SE-Vatnajökull are sensitive to climate change, and provide importa...
ABSTRACTGlaciers and ice caps around the world are changing quickly, with surge-type behaviour super...
International audienceThe volume of glaciers in Iceland (∼3,400 k m 3 in 2019) corresponds to about ...
The volume of glaciers in Iceland (∼3,400 km3 in 2019) corresponds to about 9 mm of potential global...
International audienceIn total, Icelandic ice caps contain 3600 km^3 of ice, which if melted would r...
In total, Icelandic ice caps contain 3,600 km3 of ice, which if melted would3 raise sea level by 1 c...
Abstract. Area and volume changes and the average geodetic mass balance of the non-surging outlet gl...
International audienceWe describe the mass balance of Langjökull ice cap, Iceland, (∼920 km²), ∼190 ...
International audienceWe apply swath processing to CryoSat-2 interferometric mode data acquired over...
ABSTRACT The geometry of the surface and bed of Langjökull, Iceland, was constructed from GPS and ra...
International audienceThe Little Ice Age maximum extent of glaciers in Iceland was reached about 189...
Mýrdalsjökull is the fourth largest Icelandic ice cap (∼480 km² in 2019), located in the South of Ic...
In 2000, Iceland’s glaciers covered 11,079 km2, or 10.7 % of its contiguous area. There are 269 name...
Le bilan de masse des glaciers est fortement lié au climat. Aux hautes latitudes, l'accumulation de ...
The reological properties of the crust and the upper mantle beneath Iceland make the earth surface s...
The temperate outlet glaciers of SE-Vatnajökull are sensitive to climate change, and provide importa...
ABSTRACTGlaciers and ice caps around the world are changing quickly, with surge-type behaviour super...