Press Release - Previous rapid thinning of Pine Island Glacier sheds light on future Antarctic ice loss
Issue date: 20 Feb 2014
New research, published this week in Science, suggests that the largest single contributor to global sea level rise, a glacier of the West Antarctic Ice Sheet, may continue thinning for decades to come. Geologists from the UK, USA and Germany found that Pine Island Glacier (PIG), which is rapidly accelerating, thinning and retreating, has thinned rapidly before. The team say their findings demonstrate the potential for current ice loss to continue for several decades yet.
After two decades of rapid ice loss, concerns are arising over how much more ice will be lost to the ocean in the future. Model projections of the future of PIG contain large uncertainties, leaving questions about the rate, timing and persistence of future sea level rise. Rocks exposed by retreating or thinning glaciers provide evidence of past ice sheet change, which helps scientists to predict possible future change. The geologists used highly sensitive dating techniques, pioneered by one of the team, to track the thinning of PIG through time, and to show that the past thinning lasted for several decades.
Lead author Joanne Johnson from the British Antarctic Survey (BAS) said:
“Our geological data show us the history of Pine Island Glacier in greater detail than ever before. The fact that it thinned so rapidly in the past demonstrates how sensitive it is to environmental change; small changes can produce dramatic and long-lasting results. Based on what we know, we can expect the rapid ice loss to continue for a long time yet, especially if ocean-driven melting of the ice shelf in front of Pine Island Glacier continues at current rates.”
Professor Mike Bentley, a co-leader of the project based at Durham University said:
“This paper is part of a wide range of international scientific efforts to understand the behaviour of this important glacier. The results we’re publishing are the product of long days spent sampling rocks from mountains in Antarctica, coupled to some exceptionally precise and time-consuming laboratory analyses. The results are clear in showing a remarkably abrupt thinning of the glacier 8000 years ago.”
This work was funded by the Natural Environment Research Council and Lamont-Doherty Earth Observatory, USA (through a Marie Tharp fellowship awarded to Joanne Johnson). Logistic support was provided by the Alfred Wegener Institute.
Issued by the British Antarctic Survey Press Office.
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Notes for editors
The paper: Rapid thinning of Pine Island Glacier in the early Holocene by J. S. Johnson, M. J. Bentley, J. A. Smith, R. C. Finkel, D. H. Rood, K. Gohl, G. Balco, R. D. Larter, J. M. Schaefer is published in Science on Thursday 20 February 2014. View the paper at http://www.sciencemag.org/lookup/doi/10.1126/science.1247385
Images are available on request.
This work forms part of the British Antarctic Survey programme ‘Polar Science for Planet Earth’, funded by the Natural Environment Research Council, and was made possible by a Marie Tharp Fellowship in Earth Environmental, and Ocean Sciences at Columbia University Earth Institute/Lamont-Doherty Earth Observatory, awarded to J. S. Johnson. The fieldwork was supported by the research programme PACES, Topic 3 ‘Lessons from the Past’ of the Alfred Wegener Institute (AWI). Samples were collected from the Hudson Mountains during a field campaign undertaken in 2010 using helicopter support from AWI research vessel Polarstern.
Author contact details
Professor Mike Bentley, Durham University, Tel: +44 (0)191 334 1859; mobile: +44 (0)7825 823 954; email: firstname.lastname@example.org
Dr Joanne Johnson, British Antarctic Survey; please contact Rachel Law to arrange interviews
Dr Rob Larter, British Antarctic Survey, Tel: +44 (0)1223 221 573; mobile: +44 (0)7814 649 317; email: email@example.com
Dr Joerg Schaefer, Lamont-Doherty Earth Observatory, Tel: +1 845 365 8756; email: firstname.lastname@example.org
Dr James Smith, British Antarctic Survey, Tel: +44 (0)1223 221 229; mobile: +44 (0) 7766 075 631; email: email@example.com
Dr Dylan Rood, Scottish Universities Environmental Research Centre, Tel: +44 (0)1355 270188; email: Dylan.Rood@glasgow.ac.uk
Dr Greg Balco, Berkeley Geochronology Center, Tel: +1 510-644-9200
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