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Holocene Ice‐Flow Speedup in the Vicinity of the South Pole
Author(s) -
Lilien David A.,
Fudge T. J.,
Koutnik Michelle R.,
Conway Howard,
Osterberg Erich C.,
Ferris David G.,
Waddington Edwin D.,
Stevens C. Max
Publication year - 2018
Publication title -
geophysical research letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.007
H-Index - 273
eISSN - 1944-8007
pISSN - 0094-8276
DOI - 10.1029/2018gl078253
Subject(s) - geology , holocene , ice sheet , ice stream , ice core , thinning , speedup , flow (mathematics) , geomorphology , climatology , oceanography , sea ice , geometry , cryosphere , geography , computer science , forestry , operating system , mathematics
The South Pole Ice Core (SPICEcore) was drilled at least 180 km from an ice‐flow divide. Thus, the annual‐equivalent layer thicknesses in the core are affected by spatial variations in accumulation upstream in addition to temporal variations in regional accumulation. We use a new method to compare the SPICEcore accumulation record, derived by correcting measured layer thicknesses for thinning, with an accumulation record derived from new GPS and radar measurements upstream. When ice speeds are modeled as increasing by 15% since 10 ka, the upstream accumulation explains 77% of the variance in the SPICEcore‐derived accumulation (versus 22% without speedup). This result demonstrates that the ice‐flow direction and spatial pattern of accumulation were stable throughout the Holocene. The 15% speedup in turn suggests a slight (3–4%) steepening or thickening of the ice‐sheet interior and provides a new constraint on the evolution of the East Antarctic Ice Sheet following the glacial termination.