Ice sheets are important components of the Earth system that are expected to respond strongly to anthropogenic forcing of climate. The aim of this work is to use numerical climate and ice sheet modelling to identify and understand the millennial-scale interaction between the Antarctic and Greenland Ice Sheets (AIS and GIS) and global climate. An initial modelling effort evaluated the response of ice shelves and ice sheets to future CO2 emission scenarios by quantifying the duration and magnitude of summer melt periods. A temperature threshold based on positive degree days was applied to bias-corrected University of Victoria Earth System Climate Model (UVic ESCM) output spanning 1000 years into the future. The simulations indicated that an i...
Anthropogenic climate change is causing disruptions in the Earth system with negative ramifications ...
A new Earth system model of intermediate complexity, LOVECLIM, has been developed in order to study ...
Government policies currently commit us to surface warming of three to four degrees Celsius above pr...
Ice sheets are important components of the Earth system that are expected to respond strongly to ant...
Calculations were performed with the Earth system model of intermediate complexity LOVECLIM to study...
The future evolution of global ice sheets under anthropogenic greenhouse forcing and its impact on t...
Calculations were performed with the Earth system model of intermediate complexity LOVECLIM to study...
New calculations were performed to investigate the combined response of the Greenland and Antarctic ...
Several multi-century and multi-millennia simulations have been performed with a complex Earth Syste...
The Greenland Ice Sheet is the world’s second largest ice sheet, storing an equivalent of 7.3 meters...
Ice thickness and bedrock topography are essential boundary conditions for numerical modelling of th...
The Antarctic Ice Sheet will play a crucial role in the evolution of global mean sea-level as the cl...
Projections of future global sea level depend on reliable estimates of changes in the size of polar ...
Government policies currently commit us to surface warming of three to four degrees Celsius above pr...
The Greenland ice sheet (GrIS) is an important component of the climate system and is a key contribu...
Anthropogenic climate change is causing disruptions in the Earth system with negative ramifications ...
A new Earth system model of intermediate complexity, LOVECLIM, has been developed in order to study ...
Government policies currently commit us to surface warming of three to four degrees Celsius above pr...
Ice sheets are important components of the Earth system that are expected to respond strongly to ant...
Calculations were performed with the Earth system model of intermediate complexity LOVECLIM to study...
The future evolution of global ice sheets under anthropogenic greenhouse forcing and its impact on t...
Calculations were performed with the Earth system model of intermediate complexity LOVECLIM to study...
New calculations were performed to investigate the combined response of the Greenland and Antarctic ...
Several multi-century and multi-millennia simulations have been performed with a complex Earth Syste...
The Greenland Ice Sheet is the world’s second largest ice sheet, storing an equivalent of 7.3 meters...
Ice thickness and bedrock topography are essential boundary conditions for numerical modelling of th...
The Antarctic Ice Sheet will play a crucial role in the evolution of global mean sea-level as the cl...
Projections of future global sea level depend on reliable estimates of changes in the size of polar ...
Government policies currently commit us to surface warming of three to four degrees Celsius above pr...
The Greenland ice sheet (GrIS) is an important component of the climate system and is a key contribu...
Anthropogenic climate change is causing disruptions in the Earth system with negative ramifications ...
A new Earth system model of intermediate complexity, LOVECLIM, has been developed in order to study ...
Government policies currently commit us to surface warming of three to four degrees Celsius above pr...