A hydrogeological conceptual model of aquifers in catchments headed by temperate glaciers
A hydrogeological conceptual model of aquifers in catchments headed by temperate glaciers
For reliable forecasting of the evolution of critical water resources, as well as of potential flood and landslide hazards and their response to climate change, it is necessary to improve the understanding and quantification of unknown aquifer systems in glacierized catchments. We focus on four southeastern outlet glaciers of the main Icelandic ice cap, Vatnajökull. A multidisciplinary approach is carried out, including the acquisition of new in situ data to characterize aquifers and their groundwater dynamics. Moreover, the recharge to aquifers from glacial melt and effective rainfall is estimated. From a detailed analysis of all available data and the determination of the dynamic characteristics of the aquifers, a hydrogeological conceptual model of glacierized catchments is constructed: (i) two distinct aquifers, their hydraulic conductivities and their hydrodynamic responses to climate forcing are identified; (ii) a comprehensive water balance for the whole catchment is obtained; (iii) the subglacial recharge to the aquifers is shown to be 4 times higher than in the proglacial area; and (v) the importance of the impact of the glacial melt recharge on the groundwater system is demonstrated. Thus, we highlight the major role that the groundwater component has in the hydrodynamic functioning of glacierized catchments.
3475-3494
Vincent, Aude
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Daigre, Clemence
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Fischer, Ophelie
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Adalgeirsdottir, Guthfinna
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Violette, Sophie
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Hart, Jane
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Gudmundsson, Snavarr
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Palsson, Finnur
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31 July 2024
Vincent, Aude
476696a5-1a76-4c1c-a402-46b8f13d1d0c
Daigre, Clemence
233e87eb-77d1-4a2f-86c9-f10e6adf2db6
Fischer, Ophelie
72890458-0c7a-46c1-8026-2717ab68c34d
Adalgeirsdottir, Guthfinna
75fd0f12-fcd7-4c30-9340-5f9cdc802430
Violette, Sophie
eba43f7a-fb87-4377-b1e5-3bf8d84f167e
Hart, Jane
e949a885-7b26-4544-9e15-32ba6f87e49a
Gudmundsson, Snavarr
2fc302ca-30ed-4cac-847f-e4ba770dc1f7
Palsson, Finnur
b438777f-211a-40d1-a99a-8f570c709a4b
Vincent, Aude, Daigre, Clemence, Fischer, Ophelie, Adalgeirsdottir, Guthfinna, Violette, Sophie, Hart, Jane, Gudmundsson, Snavarr and Palsson, Finnur
(2024)
A hydrogeological conceptual model of aquifers in catchments headed by temperate glaciers.
Hydrology and Earth System Sciences, 28, .
(doi:10.5194/hess-28-3475-2024).
Abstract
For reliable forecasting of the evolution of critical water resources, as well as of potential flood and landslide hazards and their response to climate change, it is necessary to improve the understanding and quantification of unknown aquifer systems in glacierized catchments. We focus on four southeastern outlet glaciers of the main Icelandic ice cap, Vatnajökull. A multidisciplinary approach is carried out, including the acquisition of new in situ data to characterize aquifers and their groundwater dynamics. Moreover, the recharge to aquifers from glacial melt and effective rainfall is estimated. From a detailed analysis of all available data and the determination of the dynamic characteristics of the aquifers, a hydrogeological conceptual model of glacierized catchments is constructed: (i) two distinct aquifers, their hydraulic conductivities and their hydrodynamic responses to climate forcing are identified; (ii) a comprehensive water balance for the whole catchment is obtained; (iii) the subglacial recharge to the aquifers is shown to be 4 times higher than in the proglacial area; and (v) the importance of the impact of the glacial melt recharge on the groundwater system is demonstrated. Thus, we highlight the major role that the groundwater component has in the hydrodynamic functioning of glacierized catchments.
Text
hess-28-3475-2024
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Accepted/In Press date: 13 June 2024
Published date: 31 July 2024
Identifiers
Local EPrints ID: 498349
URI: http://eprints.soton.ac.uk/id/eprint/498349
ISSN: 1607-7938
PURE UUID: 9dd17f48-06cd-42be-bc3f-31d523e90169
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Date deposited: 17 Feb 2025 17:37
Last modified: 22 Aug 2025 01:35
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Author:
Aude Vincent
Author:
Clemence Daigre
Author:
Ophelie Fischer
Author:
Guthfinna Adalgeirsdottir
Author:
Sophie Violette
Author:
Snavarr Gudmundsson
Author:
Finnur Palsson
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