TY - JOUR
T1 - Glacial geological studies of surge-type glaciers in Iceland - Research status and future challenges
AU - Ingólfsson, Ólafur
AU - Benediktsson, Ívar Örn
AU - Schomacker, Anders
AU - Kjær, Kurt H.
AU - Brynjólfsson, Skafti
AU - Jónsson, Sverrir A.
AU - Korsgaard, Niels Jákup
AU - Johnson, Mark D.
N1 - Funding Information:
Our glacial geological studies at Icelandic surge-type glaciers over the past decade have been financially supported by the Iceland Research Fund (Rannís; grants no. 060239021 , 110237021 , 060560006 , 050226031 ), the Swedish National Research Council (VR; grant no. 2002-4753 ), Danish Council for Independant Research (grant no. 0602-02526B ), Centre for GeoGenetics supported by Danish National Research Foundation (grant no. DNRF94 ), the Carlsberg Foundation, Denmark (grants no. 2008-01-0376 , 2009-01-0069 ), Energy Research Fund of Landsvirkjun, Iceland (grants no. 10-2009 , 01-2010 , AVF-01-2011 ), the Royal Physiographic Society in Lund (Sweden), the Crafoord Foundation (Sweden), the University of Iceland Research Fund , Geological Survey of Sweden (SGU), which are gratefully acknowledged. Oddur Sigurðsson, Icelandic Meteorological Office, generously gave us access to his archive of photographs of surge-type Icelandic glaciers. The journals reviewers, Harold Lovell and John Menzies, are thanked for their constructive comments and suggestions.
Publisher Copyright:
© 2015 Elsevier B.V.
PY - 2016/1/31
Y1 - 2016/1/31
N2 - Surging glaciers are potential analogues for land-terminating palaeo-ice streams and surging ice sheet lobes, and research on surge-type glaciers is important for understanding the causal mechanisms of modern and past ice sheet instabilities. The geomorphic signatures left by the Icelandic surge-type glaciers vary and range from glaciotectonic end moraines formed by folding and thrusting, crevasse-squeeze ridges, concertina eskers, drumlins and fluted forefields, to extensive dead-ice fields and even drift sheets where fast ice-flow indicators are largely missing. We outline some outstanding research questions and review case studies from the surge-type outlets of Brúarjökull, Eyjabakkajökull and Tungnaárjökull (Vatnajökull ice cap), Múlajökull and Sátujökull (Hofsjökull ice cap), Hagafellsjökull and Sudurjökull (Langjökull ice cap), Kaldalónsjökull, Leirufjardarjökull and Reykjarfjardarjökull (Drangajökull ice cap), as well as the surge-type cirque glaciers in northern Iceland. We review the current understanding of how rapid ice flow is sustained throughout the surge, the processes that control the development of the surge-type glacier landsystem and the geological evidence of surges found in sediments and landforms. We also examine if it is possible to reconstruct past surge flow rates from glacial landforms and sediments and scale-up present-day surge processes, landforms and landsystems as modern analogues to past ice streams. Finally, we also examine if there is a climate/mass-balance control on surge initiation, duration and frequency.
AB - Surging glaciers are potential analogues for land-terminating palaeo-ice streams and surging ice sheet lobes, and research on surge-type glaciers is important for understanding the causal mechanisms of modern and past ice sheet instabilities. The geomorphic signatures left by the Icelandic surge-type glaciers vary and range from glaciotectonic end moraines formed by folding and thrusting, crevasse-squeeze ridges, concertina eskers, drumlins and fluted forefields, to extensive dead-ice fields and even drift sheets where fast ice-flow indicators are largely missing. We outline some outstanding research questions and review case studies from the surge-type outlets of Brúarjökull, Eyjabakkajökull and Tungnaárjökull (Vatnajökull ice cap), Múlajökull and Sátujökull (Hofsjökull ice cap), Hagafellsjökull and Sudurjökull (Langjökull ice cap), Kaldalónsjökull, Leirufjardarjökull and Reykjarfjardarjökull (Drangajökull ice cap), as well as the surge-type cirque glaciers in northern Iceland. We review the current understanding of how rapid ice flow is sustained throughout the surge, the processes that control the development of the surge-type glacier landsystem and the geological evidence of surges found in sediments and landforms. We also examine if it is possible to reconstruct past surge flow rates from glacial landforms and sediments and scale-up present-day surge processes, landforms and landsystems as modern analogues to past ice streams. Finally, we also examine if there is a climate/mass-balance control on surge initiation, duration and frequency.
KW - Glacial geology
KW - Glaciotectonism
KW - Iceland
KW - Landsystem model
KW - Surge-type glacier
UR - http://www.scopus.com/inward/record.url?scp=84947747246&partnerID=8YFLogxK
U2 - 10.1016/j.earscirev.2015.11.008
DO - 10.1016/j.earscirev.2015.11.008
M3 - Article
AN - SCOPUS:84947747246
SN - 0012-8252
VL - 152
SP - 37
EP - 69
JO - Earth-Science Reviews
JF - Earth-Science Reviews
ER -