Different styles of subglacial soft bed hydrology: examples from Breiðamerkurjökull and Fjallsjökull, Iceland
Different styles of subglacial soft bed hydrology: examples from Breiðamerkurjökull and Fjallsjökull, Iceland
Glacier behaviour and its response to climate change is partially controlled by the flow of water at the base of the glacier. The subglacial hydrology associated with soft -bedded glaciers is particularly poorly understood, even though numerous modern and palaeo-glaciers flow over unconsolidated sediments. We have investigated glacier dynamics at two adjacent soft-bedded Icelandic glaciers via a study of surface velocity. This included short-term changes in surface velocity using a custom-built low cost GNSS system, as well as with Sentinel-1 velocity data. In addition, we have used PlanetScope scenes to investigate the occurrence of sediment plumes in a glacial lagoon as a proxy for meltwater discharge, and modelled the hydrology associated with the lake. Our results show that at Fjallsjökull and Breiðamerkurjökull West there is a pattern of winter speed-up events associated with warmer days (termed winter events) and similar events in spring. At Breiðamerkurjökull East and Central, there are fewer winter speed-up events and a distinct spring event. We suggest there are at least two different styles of soft-bedded glacier behaviour related to subglacial meltwater storage. At Fjallsjökull and Breiðamerkurjökull West we propose there is a multichannel distributed subglacial hydrological system, whereby during summer, excess meltwater is stored within the subglacial hydrological system and the till, which is partly released throughout the year resulting in speed-up events. In contrast, at Breiðamerkurjökull East and Central, it is proposed there is a summer channelised drainage, caused by a combination of the presence of the deep proglacial lagoon and high meltwater flux and subglacial transmissivity. As a consequence of this, subglacial meltwater storage is limited, resulting in fewer winter speed-up events and a distinct spring event. Thus, we suggest that these different subglacial hydrological systems associated with soft-bedded glaciers can be distinguished via distinct variations in their seasonal velocity.
Hart, Jane K.
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Martinez, Kirk
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Baurley, Nathaniel Ross
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Robson, Benjamin A.
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Andrews, Amelia
2013a43c-bf6e-4125-8b98-84ecd75f19d7
9 February 2025
Hart, Jane K.
e949a885-7b26-4544-9e15-32ba6f87e49a
Martinez, Kirk
5f711898-20fc-410e-a007-837d8c57cb18
Baurley, Nathaniel Ross
d567850b-2030-4d33-8d1d-5fcad6e60417
Robson, Benjamin A.
4be6df34-5fe8-4342-874f-64c38d9efc01
Andrews, Amelia
2013a43c-bf6e-4125-8b98-84ecd75f19d7
Hart, Jane K., Martinez, Kirk, Baurley, Nathaniel Ross, Robson, Benjamin A. and Andrews, Amelia
(2025)
Different styles of subglacial soft bed hydrology: examples from Breiðamerkurjökull and Fjallsjökull, Iceland.
Earth Surface Processes and Landforms, 50 (2), [e70014].
(doi:10.1002/esp.70014).
Abstract
Glacier behaviour and its response to climate change is partially controlled by the flow of water at the base of the glacier. The subglacial hydrology associated with soft -bedded glaciers is particularly poorly understood, even though numerous modern and palaeo-glaciers flow over unconsolidated sediments. We have investigated glacier dynamics at two adjacent soft-bedded Icelandic glaciers via a study of surface velocity. This included short-term changes in surface velocity using a custom-built low cost GNSS system, as well as with Sentinel-1 velocity data. In addition, we have used PlanetScope scenes to investigate the occurrence of sediment plumes in a glacial lagoon as a proxy for meltwater discharge, and modelled the hydrology associated with the lake. Our results show that at Fjallsjökull and Breiðamerkurjökull West there is a pattern of winter speed-up events associated with warmer days (termed winter events) and similar events in spring. At Breiðamerkurjökull East and Central, there are fewer winter speed-up events and a distinct spring event. We suggest there are at least two different styles of soft-bedded glacier behaviour related to subglacial meltwater storage. At Fjallsjökull and Breiðamerkurjökull West we propose there is a multichannel distributed subglacial hydrological system, whereby during summer, excess meltwater is stored within the subglacial hydrological system and the till, which is partly released throughout the year resulting in speed-up events. In contrast, at Breiðamerkurjökull East and Central, it is proposed there is a summer channelised drainage, caused by a combination of the presence of the deep proglacial lagoon and high meltwater flux and subglacial transmissivity. As a consequence of this, subglacial meltwater storage is limited, resulting in fewer winter speed-up events and a distinct spring event. Thus, we suggest that these different subglacial hydrological systems associated with soft-bedded glaciers can be distinguished via distinct variations in their seasonal velocity.
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Earth Surf Processes Landf - 2025 - Hart - Different styles of subglacial soft bed hydrology Examples from Brei amerkurj
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Accepted/In Press date: 2 February 2025
Published date: 9 February 2025
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Local EPrints ID: 498720
URI: http://eprints.soton.ac.uk/id/eprint/498720
ISSN: 0197-9337
PURE UUID: 6f4c7422-b8cb-4d26-a5ed-a3086a2c14f9
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Date deposited: 25 Feb 2025 18:11
Last modified: 17 Oct 2025 02:13
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Author:
Kirk Martinez
Author:
Benjamin A. Robson
Author:
Amelia Andrews
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