Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
6348212 | Global and Planetary Change | 2014 | 12 Pages |
Abstract
Compilation of modern and historical length change records for Franz Josef and Fox Glaciers demonstrates that these glaciers have lost ~Â 3Â km in length and at least 3-4Â km2 in area since the 1800s, with the greatest overall loss occurring between 1934 and 1983. Within this dramatic and ongoing retreat, both glaciers have experienced periods of re-advance. The record from Franz Josef Glacier is the most detailed, and shows major advances from 1946 to 1951 (340Â m), 1965-1967 (400Â m), 1983-1999 (1420Â m) and 2004-2008 (280Â m). At Fox Glacier the record is similar, with advances recorded during 1964-1968 (60Â m), 1985-1999 (710Â m) and 2004-2008 (290Â m). Apart from the latest advance event, the magnitude of advance has been greater at Franz Josef Glacier, suggesting a higher length sensitivity. Analysis of the relationship between glacier length and a reconstructed annual equilibrium line altitude (ELA) record shows that the glaciers react very quickly to ELA variations - with the greatest correlation at 3-4Â years' lag. The present (2014) retreat is the fastest retreat in the records of both glaciers. While decadal length fluctuations have been linked to hemispheric ocean-atmosphere variability, the overall reduction in length is a clear sign of twentieth century warming. However, documenting glacier length changes can be challenging; especially when increased surface debris-cover makes identification of the 'true' terminus a convoluted process.
Keywords
Related Topics
Physical Sciences and Engineering
Earth and Planetary Sciences
Earth-Surface Processes
Authors
Heather Purdie, Brian Anderson, Trevor Chinn, Ian Owens, Andrew Mackintosh, Wendy Lawson,