Meltwater flow through a rapidly deglaciating glacier and foreland catchment system: Virkisjökull, SE Iceland

Abstract Virkisjökull is a rapidly retreating glacier in south-east Iceland. A proglacial lake has formed in the last ten years underlain by buried ice. In this study we estimate water velocities through the glacier, proglacial foreland and proglacial river using tracer tests and continuous meltwate...

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Published inHydrology Research Vol. 48; no. 6; pp. 1666 - 1681
Main Authors Flett, Verity, Maurice, Louise, Finlayson, Andrew, Black, Andrew R., MacDonald, Alan M., Everest, Jez, Kirkbride, Martin P.
Format Journal Article
LanguageEnglish
Published London IWA Publishing 01.12.2017
Subjects
buried ice
Catchment area
Catchments
Deglaciation
dye tracing
Experiments
Glacier melting
Glacier retreat
Glacier velocities
Glaciers
Ground ice
Ground penetrating radar
Hydrology
Ice
iceland
Lake ice
Lakes
Low flow
Meltwater
Morphology
Outlets
Permeability
Profiles
proglacial area
Radar
Rivers
Studies
Testing
Tracers
Velocity
virkisjökull
Iceland
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Summary:Abstract Virkisjökull is a rapidly retreating glacier in south-east Iceland. A proglacial lake has formed in the last ten years underlain by buried ice. In this study we estimate water velocities through the glacier, proglacial foreland and proglacial river using tracer tests and continuous meltwater flow measurements. Tracer testing from a glacial moulin to the glacier outlet in September 2013 demonstrated a rapid velocity of 0.58 m s−1. This was comparable to the velocity within the proglacial river, also estimated from tracer testing. A subsequent tracer test from the same glacial moulin under low flow conditions in May 2014 demonstrated a slower velocity of 0.07 m s−1. The glacier outlet river sinks back into the buried ice, and a tracer test from this sink point through the proglacial foreland to the meltwater river beyond the lake indicated a velocity of 0.03 m s−1, suggesting that an ice conduit system within the buried ice is transferring water rapidly beneath the lake. Ground penetrating radar profiles confirm the presence of this buried conduit system. This study provides an example of rapid deglaciation being associated with extensive conduit systems that enable rapid meltwater transfer from glaciers through the proglacial area to meltwater rivers.
ISSN:0029-1277
1998-9563
2224-7955
DOI:10.2166/nh.2017.205