A new approach to West Antarctic Ice Sheet evolution using blue-ice moraines on nunataks
Lead Research Organisation:
University of Edinburgh
Department Name: Sch of Geosciences
Abstract
Did the West Antarctic Ice Sheet (WAIS) survive the last interglacial? We propose to use nunataks as dipsticks of ice-sheet elevation change to help answer this question. There are currently two conflicting hypotheses.
Hypothesis 1: A dynamic WAIS. The hypothesis is that the WAIS disappeared under last-interglacial conditions ~125,000 years ago when climatic and oceanic conditions were slightly warmer than those of the present day.
Hypothesis 2: A stable WAIS. The WAIS may have varied in elevation but that it persisted as a coherent ice sheet during the last interglacial.
The co-existence of two opposing hypotheses implies that we have much to learn about the principal controls on ice-sheet stability. This uncertainty undermines confidence in our ability to predict the future of the WAIS and its effect on global sea-level change.
Important research on the WAIS relies on satellite observations which monitor changes in velocity and elevation over recent decades, while predictions of future changes rely on ice-sheet models. Both approaches would be enhanced if we knew what happened to the WAIS during the last glacial cycle. The longer term perspective tells of the trajectory of change upon which decadal changes are superimposed. Further, a history of elevation changes during a glacial cycle provides data with which to constrain and improve ice-sheet models.
Here we propose to test the two hypotheses using moraines that form on nunataks in blue-ice areas. Blue-ice areas result from strong downslope winds which are often funnelled in the vicinity of nunataks and ablate the ice surface. In response the ice flows into such ablation areas, sometimes bringing basal debris to the surface which is then deposited at the ice margin. Relict moraines occur on certain nunatak slopes above the present ice surfaces and are over 400,000 years old, suggesting that there is the potential to obtain a long record of ice elevation change.
This project brings together glaciologists, geomorphologists and geophysicists to work in the Heritage Range, a group of nunataks which protrude through the central WAIS dome. We will test predictions of the two competing hypotheses firstly by examining the processes of blue-ice moraine formation today using field survey and radar, and secondly by establishing the form and sediment characteristics of the moraines and their age. The latter will employ exposure-age dating, a technique that measures the time a rock has been at the surface and exposed to cosmic rays. By using more than one isotope we can establish times when a rock surface may have been buried by ice and thus there is the potential to reconstruct a rich history of ice elevation changes. In this way we will assess if the WAIS remained intact, or disappeared during the last interglacial. Our hope is that the approach could be extended to other nunataks in Antarctica and provide widely dispersed evidence of elevation changes in predicting the future response of the WAIS to a changing climate.
Hypothesis 1: A dynamic WAIS. The hypothesis is that the WAIS disappeared under last-interglacial conditions ~125,000 years ago when climatic and oceanic conditions were slightly warmer than those of the present day.
Hypothesis 2: A stable WAIS. The WAIS may have varied in elevation but that it persisted as a coherent ice sheet during the last interglacial.
The co-existence of two opposing hypotheses implies that we have much to learn about the principal controls on ice-sheet stability. This uncertainty undermines confidence in our ability to predict the future of the WAIS and its effect on global sea-level change.
Important research on the WAIS relies on satellite observations which monitor changes in velocity and elevation over recent decades, while predictions of future changes rely on ice-sheet models. Both approaches would be enhanced if we knew what happened to the WAIS during the last glacial cycle. The longer term perspective tells of the trajectory of change upon which decadal changes are superimposed. Further, a history of elevation changes during a glacial cycle provides data with which to constrain and improve ice-sheet models.
Here we propose to test the two hypotheses using moraines that form on nunataks in blue-ice areas. Blue-ice areas result from strong downslope winds which are often funnelled in the vicinity of nunataks and ablate the ice surface. In response the ice flows into such ablation areas, sometimes bringing basal debris to the surface which is then deposited at the ice margin. Relict moraines occur on certain nunatak slopes above the present ice surfaces and are over 400,000 years old, suggesting that there is the potential to obtain a long record of ice elevation change.
This project brings together glaciologists, geomorphologists and geophysicists to work in the Heritage Range, a group of nunataks which protrude through the central WAIS dome. We will test predictions of the two competing hypotheses firstly by examining the processes of blue-ice moraine formation today using field survey and radar, and secondly by establishing the form and sediment characteristics of the moraines and their age. The latter will employ exposure-age dating, a technique that measures the time a rock has been at the surface and exposed to cosmic rays. By using more than one isotope we can establish times when a rock surface may have been buried by ice and thus there is the potential to reconstruct a rich history of ice elevation changes. In this way we will assess if the WAIS remained intact, or disappeared during the last interglacial. Our hope is that the approach could be extended to other nunataks in Antarctica and provide widely dispersed evidence of elevation changes in predicting the future response of the WAIS to a changing climate.
Planned Impact
Who might benefit from this research?
- Academia (international), glaciology, climate change, geodesy, eustatic sea level, Antarctic biology, exposure-age dating.
- Business, especially insurance and marine engineering and renewables
- Public sector: environmental agencies (EPA, SEPA, SNH).
- Agencies dealing with adaptation (UKCCIP, SNIFFER, SCCIP, UK Adaptation Sub-Committee on Climate Change, Edinburgh Climate Change Centre)
- Third Sector
- Schools
- The public
How might they benefit?
Cultural.
The behaviour of the Antarctic Ice Sheet is a popular subject with the general public and also with journalists. It is a good way of engaging wider society in the science of climate change and its link to human prosperity and well being. It is an especially stimulating topic for schools.
Environmental.
The research has a bearing on predictions of sea level rise in the next 100 years or so. Evidence of either a dynamic response to glacial cycles or a more modest one can be used to constrain and improve sea-level predictions. The future behaviour of the West Antarctic Ice Sheet is the least certain element in predictions of the rate and magnitude of sea-level rise. Reducing this uncertainty is important for environmental agencies dealing with coastal flooding, and for the Third sector dealing with environmental issues.
Commercial and Economic.
The offshore oil and gas, offshore wind, tidal, fishing, nuclear power and insurance industries all have a direct stake in the future rate and magnitude of sea-level rise.
Influencing public policy and legislation.
The future rise in sea level is of direct relevance for policy makers dealing with adaptation and issues such as coastal flooding.
- Academia (international), glaciology, climate change, geodesy, eustatic sea level, Antarctic biology, exposure-age dating.
- Business, especially insurance and marine engineering and renewables
- Public sector: environmental agencies (EPA, SEPA, SNH).
- Agencies dealing with adaptation (UKCCIP, SNIFFER, SCCIP, UK Adaptation Sub-Committee on Climate Change, Edinburgh Climate Change Centre)
- Third Sector
- Schools
- The public
How might they benefit?
Cultural.
The behaviour of the Antarctic Ice Sheet is a popular subject with the general public and also with journalists. It is a good way of engaging wider society in the science of climate change and its link to human prosperity and well being. It is an especially stimulating topic for schools.
Environmental.
The research has a bearing on predictions of sea level rise in the next 100 years or so. Evidence of either a dynamic response to glacial cycles or a more modest one can be used to constrain and improve sea-level predictions. The future behaviour of the West Antarctic Ice Sheet is the least certain element in predictions of the rate and magnitude of sea-level rise. Reducing this uncertainty is important for environmental agencies dealing with coastal flooding, and for the Third sector dealing with environmental issues.
Commercial and Economic.
The offshore oil and gas, offshore wind, tidal, fishing, nuclear power and insurance industries all have a direct stake in the future rate and magnitude of sea-level rise.
Influencing public policy and legislation.
The future rise in sea level is of direct relevance for policy makers dealing with adaptation and issues such as coastal flooding.
Organisations
Publications
Hein A
(2014)
Geological scatter of cosmogenic-nuclide exposure ages in the Shackleton Range, Antarctica: Implications for glacial history
in Quaternary Geochronology
Hein AS
(2016)
Mid-Holocene pulse of thinning in the Weddell Sea sector of the West Antarctic ice sheet.
in Nature communications
Hein AS
(2016)
Evidence for the stability of the West Antarctic Ice Sheet divide for 1.4 million years.
in Nature communications
Hillenbrand C
(2014)
Reconstruction of changes in the Weddell Sea sector of the Antarctic Ice Sheet since the Last Glacial Maximum
in Quaternary Science Reviews
Marrero S
(2016)
Cosmogenic nuclide systematics and the CRONUScalc program
in Quaternary Geochronology
Marrero S
(2016)
CRONUS-Earth cosmogenic 36Cl calibration
in Quaternary Geochronology
Mills S
(2019)
Testing and application of a model for snow redistribution (Snow_Blow) in the Ellsworth Mountains, Antarctica
in Journal of Glaciology
Mudd S
(2016)
The CAIRN method: automated, reproducible calculation of catchment-averaged denudation rates from cosmogenic nuclide concentrations
in Earth Surface Dynamics
Sugden D
(2018)
The pre-glacial landscape of Antarctica
in Scottish Geographical Journal
Description | Blue-ice moraines in the Ellsworth Mountains are equilibrium forms reflecting the interplay between glacier flow and ablation (loss of ice by sublimation). Study of their evolution over time suggests the main West Antarctic Ice Sheet divide survived intact for over 1.4 million years, ie throughout the warmest Pleistocene interglacials. The result provides an insight into the behaviour of the ice sheet during climates warmer than present and is consistent with two possibilities. The first possibility is that the whole West Antarctic Ice Sheet survived intact and is perhaps a less serious risk in a warming world. The second and more likely possibility, because it is supported by biological and sea-level evidence, is that a regional ice sheet survived on the the Ellsworth-Whitworth mountain upland, whilst the marine component of the ice sheet disappeared, at least during the warmest interglacials. In the latter case glaciological modelling shows that sea level rise was around 3 m above present. The implication for the future is that a warmer world is likely to undermine the the ice sheet and could contribute to sea-level rise of around 3 m in a matter of centuries. We have also established that the Weddell Sea sector of the West Antarctic Ice Sheet (WAIS) behaves differently from the melting Pacific-facing sector. Ice thickness remained stable until 9ka during a period of wholesale warming of the globe that commenced at 19ka. The increase in temperature increased snowfall and the ice mass of the WAIS. The ice thickness sharply decreased between 6 and 3ka due to the retreat of the grounding line, a good example of marine instability, a mechanism that threatens the Pacific sector. There has been no appreciable thinning in the last 3ka and may well have been thickening in the same time period. |
Exploitation Route | The analysis of blue-ice moraines, when reliant on detailed field mapping and multi-isotope analysis, opens up an effective way of establishing Antarctic Ice Sheet stability. The choice of other locations and strategies will narrow the uncertainty about the behaviour of the Antarctic Ice Sheet in the future. |
Sectors | Construction Energy Environment Security and Diplomacy |
URL | http://www.ed.ac.uk/schools-departments/geosciences |
Description | WE have given lectures and displays to young audiences, for example to Schools at Dynamic Earth in Edinburgh |
First Year Of Impact | 2014 |
Sector | Education |
Impact Types | Societal |
Description | schools and professional bodies |
Geographic Reach | National |
Policy Influence Type | Influenced training of practitioners or researchers |
Impact | Lectures and talks illustrating the importance of global climate change to teachers and professional bodies (many including climate change sceptics). Chaired a conference on Climate Change at the Royal Society of Edinburgh, 2016 with speakers from each of the three the IPCC reports. |
Title | UAVs and SfM photography to characterise surface sediments in remote locations |
Description | A method of characterising the sediment size, shape and orientation over several square km. Particularly useful in remote locations. UAV for overview and SfM photography in sample areas. |
Type Of Material | Technology assay or reagent |
Year Produced | 2015 |
Provided To Others? | Yes |
Impact | Our paper on a blue-ice moraine in Antarctica has high citations |
Description | International Geoscience conferences |
Form Of Engagement Activity | A talk or presentation |
Part Of Official Scheme? | No |
Geographic Reach | International |
Primary Audience | Professional Practitioners |
Results and Impact | 25 presentations, posters to AGU, EGU, Int. Glac. Soc., INQUA, Cosmogenic conferences |
Year(s) Of Engagement Activity | 2013,2015,2016 |
Description | Seminars to external universities |
Form Of Engagement Activity | A talk or presentation |
Part Of Official Scheme? | No |
Geographic Reach | International |
Primary Audience | Professional Practitioners |
Results and Impact | Ten invited seminars to other universities in Europe and UK |
Year(s) Of Engagement Activity | 2013,2014,2015,2016 |
Description | school visits |
Form Of Engagement Activity | A talk or presentation |
Part Of Official Scheme? | No |
Geographic Reach | National |
Primary Audience | Schools |
Results and Impact | Visits and talks to eight schools in London, Edinburgh, Macclesfield and Edinburgh |
Year(s) Of Engagement Activity | 2014,2015,2016 |