A large part of present-day sea-level change is formed by the melt of glaciers and ice caps (GIC). This study focuses on the uncertainties in the calculation of the GIC contribution on a century timescale. The model used is based on volume-area scaling, 5 combined with the mass balance sensitivity of the GIC. We assess different aspects that contribute to the uncertainty in the prediction of the contribution of GIC to future sea-level rise, such as (1) the volume-area scaling method (scaling constant), (2) the choice of glacier inventory, (3) the imbalance of glaciers with climate, (4) the mass balance sensitivity, and (5) the climate models. Additionally, a comparison of the model 10 results to the 20th century GIC contribution is presente...
Sea-level change (SLC) is a much-studied topic in the area of climate research, integrating a range ...
Glaciers distinct from the Greenland and Antarctic ice sheets cover an area of approximately 706,000...
ABSTRACT. Volume–area scaling is a common tool for deriving future volume evolutions of valley glaci...
iii Melting mountain glaciers and ice caps (MG&IC) are the second largest contributor to rising ...
Projections of sea-level rise from mountain glaciers and ice caps for the next century and beyond sh...
Projections of sea‐level rise from mountain glaciers and ice caps for the next century and beyond sh...
Most glaciers and ice caps (GIC) are out of balance with the current climate. To return to equilibri...
Glacier mass loss is recognized as a major contributor to current sea level rise. However, large unc...
Observations of sea-level changes in the 20th century show a rise of 1 to 2 mm year−1, with accelera...
One of the most easily measured dimensions of a glacier, the accumulation area, is linked to future ...
The mean sea level has been projected to rise in the 21st century as a result of global warming. Suc...
In this study, a new estimate of the contribution of glaciers and ice caps to the sea-level rise ove...
The land ice contribution to global mean sea level rise has not yet been predicted1 using ice sheet ...
The IPCC Third Assessment Report (TAR) developed a formula for the global meltwater contribution to ...
Sea-level change (SLC) is a much-studied topic in the area of climate research, integrating a range ...
Sea-level change (SLC) is a much-studied topic in the area of climate research, integrating a range ...
Glaciers distinct from the Greenland and Antarctic ice sheets cover an area of approximately 706,000...
ABSTRACT. Volume–area scaling is a common tool for deriving future volume evolutions of valley glaci...
iii Melting mountain glaciers and ice caps (MG&IC) are the second largest contributor to rising ...
Projections of sea-level rise from mountain glaciers and ice caps for the next century and beyond sh...
Projections of sea‐level rise from mountain glaciers and ice caps for the next century and beyond sh...
Most glaciers and ice caps (GIC) are out of balance with the current climate. To return to equilibri...
Glacier mass loss is recognized as a major contributor to current sea level rise. However, large unc...
Observations of sea-level changes in the 20th century show a rise of 1 to 2 mm year−1, with accelera...
One of the most easily measured dimensions of a glacier, the accumulation area, is linked to future ...
The mean sea level has been projected to rise in the 21st century as a result of global warming. Suc...
In this study, a new estimate of the contribution of glaciers and ice caps to the sea-level rise ove...
The land ice contribution to global mean sea level rise has not yet been predicted1 using ice sheet ...
The IPCC Third Assessment Report (TAR) developed a formula for the global meltwater contribution to ...
Sea-level change (SLC) is a much-studied topic in the area of climate research, integrating a range ...
Sea-level change (SLC) is a much-studied topic in the area of climate research, integrating a range ...
Glaciers distinct from the Greenland and Antarctic ice sheets cover an area of approximately 706,000...
ABSTRACT. Volume–area scaling is a common tool for deriving future volume evolutions of valley glaci...