Jakobshavn Regional View of Three Simulated Greenland Ice Sheet Response Scenarios: 2008 - 2300

  • Released Wednesday, June 19, 2019
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The Greenland Ice Sheet holds enough water to raise the world’s sea level by over 7 meters (23 feet). Rising atmosphere and ocean temperatures have led to an ice loss equivalent to over a centimeter increase in global mean sea-level between 1991 and 2015. Large outlet glaciers, rivers of ice moving to the sea, drain the ice from the interior of Greenland and cause the outer margins of the ice sheet to recede. Improvements in measuring the ice thickness in ice sheets is enabling better simulation of the flow in outlet glaciers, which is key to predicting the retreat of ice sheets into the future.

Recently, a simulation of the effects of outlet glacier flow on ice sheet thickness coupled with improved data and comprehensive climate modeling for differing future climate scenarios has been used to estimate Greenland’s contribution to sea-level over the next millennium. Greenland could contribute 5–34 cm (2-13 inches) to sea-level by 2100 and 11–162 cm (4-64 inches) by 2200, with outlet glaciers contributing 19–40 % of the total mass loss. The analysis shows that uncertainties in projecting mass loss are dominated by uncertainties in climate scenarios and surface processes, followed by ice dynamics. Uncertainties in ocean conditions play a minor role, particularly in the long term. Greenland will very likely become ice-free within a millennium without significant reductions in greenhouse gas emissions.

Three visualizations of the evolution of the Jakobshavn region of the Greenland Ice Sheet between 2008 and 2300 based on three different climate scenarios are shown below. Each scenario is described briefly in the caption under each visualization. Each of the three visualizations are provided with a date, colorbar and a distance scale as well as without. The regions shown in a violet color are exposed areas of the Greenland bed that were covered by the ice sheet in 2008.

The data sets used for these animations are the control (“CTRL”) simulations and were produced with the open-source Parallel Ice Sheet Model (www.pism-docs.org). All data sets for this study are publicly available at https://arcticdata.io (doi:10.18739/A2Z60C21V).

An image of the Jakobshavn region in the year 2300 using RPC 2.6 scenario without the date, colorbar and distance scale.

An image of the Jakobshavn region in the year 2300 using RPC 2.6 scenario without the date, colorbar and distance scale.

An image of the Jakobshavn region in the year 2300 using RPC 4.5 scenario without the date, colorbar and distance scale.

An image of the Jakobshavn region in the year 2300 using RPC 4.5 scenario without the date, colorbar and distance scale.

An image of the Jakobshavn region in the year 2300 using RPC 8.5 scenario without the date, colorbar and distance scale.

An image of the Jakobshavn region in the year 2300 using RPC 8.5 scenario without the date, colorbar and distance scale.



Credits

Please give credit for this item to:
NASA's Scientific Visualization Studio

Release date

This page was originally published on Wednesday, June 19, 2019.
This page was last updated on Sunday, December 15, 2024 at 12:08 AM EST.


Related papers

Aschwanden, A., Fahnestock, M., Truffer, M., Brinkerhoff, D., Hock, R., Khroulev, C., Mottram, R., Khan, S., Contribution of the Greenland Ice Sheet to sea-level over the next millennium, Science Advances, https://doi.org/10.18739/A2Z60C21V

Aschwanden, A., Fahnestock, M., Truffer, M., Brinkerhoff, D., Hock, R., Khroulev, C., Mottram, R., Khan, S., Contribution of the Greenland Ice Sheet to sea-level over the next millennium, Science Advances, https://doi.org/10.18739/A2Z60C21V


Datasets used

  • Contribution of the Greenland Ice Sheet to sea-level over the next millennium using Large Ensemble Simulations

    ID: 1048
    Type: Analysis Collected by: Arctic Data Center

Note: While we identify the data sets used on this page, we do not store any further details, nor the data sets themselves on our site.