The level of the Grímsvötn subglacial lake, Vatnajökull, Iceland, monitored with SPOT5 images

Etienne Berthier; H. Björnsson; K. L. Feigl; M. Llubes; F. Rémy; Finnur Pálsson

doi:10.1016/j.epsl.2005.12.027

The level of the Grímsvötn subglacial lake, Vatnajökull, Iceland, monitored with SPOT5 images

Etienne Berthier
, H. Björnsson
, K. L. Feigl
, M. Llubes
, F. Rémy
, Finnur Pálsson

University of Iceland

Research output: Contribution to journal › Article › peer-review

Abstract

We describe the vertical displacement field of an ice shelf floating on a subglacial lake, Grímsvötn, located underneath the Vatnajökull ice cap (Iceland). The uplift is measured using the correlation of two satellite optical SPOT5 images acquired 5 days apart with similar, non-vertical incidence angles. This is the first time correlation of optical images has been used to measure vertical displacements. Our technique is suitable for mapping short-term elevation changes of glaciers. If the surface features are preserved, vertical displacements can be measured every 25 m with an accuracy of about 0.5 m. The uplift map of Grímsvötn shows that 10.9 (±1) km² of ice was floating between 11 and 16 August 2004. The ice shelf rose by 1.7 (±0.6) m indicating that the volume of liquid water in the lake increased by 0.018 (±0.007) km³. Our field observations show that surface melting due to meteorological processes contributed 70% of the accumulated water, hence, the rest originated from ice melted by the subglacial geothermal activity. The power required to melt 0.005 km³ (water equivalent) of basal ice in 5 days is 4000 MW. The applicability of the technique can be extended to volcanology and seismology, and even landslides or subsidence, when finer-resolution optical images become available. Applied to two pairs of images, it could solve for the 3-dimensional displacements of the Earth's surface.

Original language	English
Pages (from-to)	293-302
Number of pages	10
Journal	Earth and Planetary Science Letters
Volume	243
Issue number	1-2
DOIs	https://doi.org/10.1016/j.epsl.2005.12.027
Publication status	Published - 15 Mar 2006

Bibliographical note

Funding Information: Hélène Vadon (CNES, Toulouse) provided useful help concerning the SPOT5 geometry. We thank Jørgen Dall (EMI, Technical University of Denmark) and Eyjólfur Magnússon for processing and providing the EMISAR 1998 DEM. SPOT5 images were acquired thanks to the ISIS program (copyright CNES). This work was supported by the French embassy in Iceland, the University of Iceland Research Fund, the Science Fund of Iceland (Rannís) and the Icelandic Road Authority Research Fund. GMT software [32] illustrated the article. The first author gratefully acknowledges a thesis fellowship from the French Government.

Other keywords

Geothermal activity
Iceland
Image correlation
SPOT5
Subglacial hydrology

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10.1016/j.epsl.2005.12.027

Cite this

@article{12461e822f04473eb5818542d2e76647,

title = "The level of the Gr{\'i}msv{\"o}tn subglacial lake, Vatnaj{\"o}kull, Iceland, monitored with SPOT5 images",

abstract = "We describe the vertical displacement field of an ice shelf floating on a subglacial lake, Gr{\'i}msv{\"o}tn, located underneath the Vatnaj{\"o}kull ice cap (Iceland). The uplift is measured using the correlation of two satellite optical SPOT5 images acquired 5 days apart with similar, non-vertical incidence angles. This is the first time correlation of optical images has been used to measure vertical displacements. Our technique is suitable for mapping short-term elevation changes of glaciers. If the surface features are preserved, vertical displacements can be measured every 25 m with an accuracy of about 0.5 m. The uplift map of Gr{\'i}msv{\"o}tn shows that 10.9 (±1) km2 of ice was floating between 11 and 16 August 2004. The ice shelf rose by 1.7 (±0.6) m indicating that the volume of liquid water in the lake increased by 0.018 (±0.007) km3. Our field observations show that surface melting due to meteorological processes contributed 70\% of the accumulated water, hence, the rest originated from ice melted by the subglacial geothermal activity. The power required to melt 0.005 km3 (water equivalent) of basal ice in 5 days is 4000 MW. The applicability of the technique can be extended to volcanology and seismology, and even landslides or subsidence, when finer-resolution optical images become available. Applied to two pairs of images, it could solve for the 3-dimensional displacements of the Earth's surface.",

keywords = "Geothermal activity, Iceland, Image correlation, SPOT5, Subglacial hydrology",

author = "Etienne Berthier and H. Bj{\"o}rnsson and Feigl, \{K. L.\} and M. Llubes and F. R{\'e}my and Finnur P{\'a}lsson",

note = "Funding Information: H{\'e}l{\`e}ne Vadon (CNES, Toulouse) provided useful help concerning the SPOT5 geometry. We thank J{\o}rgen Dall (EMI, Technical University of Denmark) and Eyj{\'o}lfur Magn{\'u}sson for processing and providing the EMISAR 1998 DEM. SPOT5 images were acquired thanks to the ISIS program (copyright CNES). This work was supported by the French embassy in Iceland, the University of Iceland Research Fund, the Science Fund of Iceland (Rann{\'i}s) and the Icelandic Road Authority Research Fund. GMT software [32] illustrated the article. The first author gratefully acknowledges a thesis fellowship from the French Government.",

year = "2006",

month = mar,

day = "15",

doi = "10.1016/j.epsl.2005.12.027",

language = "English",

volume = "243",

pages = "293--302",

journal = "Earth and Planetary Science Letters",

issn = "0012-821X",

publisher = "Elsevier B.V.",

number = "1-2",

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TY - JOUR

T1 - The level of the Grímsvötn subglacial lake, Vatnajökull, Iceland, monitored with SPOT5 images

AU - Berthier, Etienne

AU - Björnsson, H.

AU - Feigl, K. L.

AU - Llubes, M.

AU - Rémy, F.

AU - Pálsson, Finnur

N1 - Funding Information: Hélène Vadon (CNES, Toulouse) provided useful help concerning the SPOT5 geometry. We thank Jørgen Dall (EMI, Technical University of Denmark) and Eyjólfur Magnússon for processing and providing the EMISAR 1998 DEM. SPOT5 images were acquired thanks to the ISIS program (copyright CNES). This work was supported by the French embassy in Iceland, the University of Iceland Research Fund, the Science Fund of Iceland (Rannís) and the Icelandic Road Authority Research Fund. GMT software [32] illustrated the article. The first author gratefully acknowledges a thesis fellowship from the French Government.

PY - 2006/3/15

Y1 - 2006/3/15

N2 - We describe the vertical displacement field of an ice shelf floating on a subglacial lake, Grímsvötn, located underneath the Vatnajökull ice cap (Iceland). The uplift is measured using the correlation of two satellite optical SPOT5 images acquired 5 days apart with similar, non-vertical incidence angles. This is the first time correlation of optical images has been used to measure vertical displacements. Our technique is suitable for mapping short-term elevation changes of glaciers. If the surface features are preserved, vertical displacements can be measured every 25 m with an accuracy of about 0.5 m. The uplift map of Grímsvötn shows that 10.9 (±1) km2 of ice was floating between 11 and 16 August 2004. The ice shelf rose by 1.7 (±0.6) m indicating that the volume of liquid water in the lake increased by 0.018 (±0.007) km3. Our field observations show that surface melting due to meteorological processes contributed 70% of the accumulated water, hence, the rest originated from ice melted by the subglacial geothermal activity. The power required to melt 0.005 km3 (water equivalent) of basal ice in 5 days is 4000 MW. The applicability of the technique can be extended to volcanology and seismology, and even landslides or subsidence, when finer-resolution optical images become available. Applied to two pairs of images, it could solve for the 3-dimensional displacements of the Earth's surface.

AB - We describe the vertical displacement field of an ice shelf floating on a subglacial lake, Grímsvötn, located underneath the Vatnajökull ice cap (Iceland). The uplift is measured using the correlation of two satellite optical SPOT5 images acquired 5 days apart with similar, non-vertical incidence angles. This is the first time correlation of optical images has been used to measure vertical displacements. Our technique is suitable for mapping short-term elevation changes of glaciers. If the surface features are preserved, vertical displacements can be measured every 25 m with an accuracy of about 0.5 m. The uplift map of Grímsvötn shows that 10.9 (±1) km2 of ice was floating between 11 and 16 August 2004. The ice shelf rose by 1.7 (±0.6) m indicating that the volume of liquid water in the lake increased by 0.018 (±0.007) km3. Our field observations show that surface melting due to meteorological processes contributed 70% of the accumulated water, hence, the rest originated from ice melted by the subglacial geothermal activity. The power required to melt 0.005 km3 (water equivalent) of basal ice in 5 days is 4000 MW. The applicability of the technique can be extended to volcanology and seismology, and even landslides or subsidence, when finer-resolution optical images become available. Applied to two pairs of images, it could solve for the 3-dimensional displacements of the Earth's surface.

KW - Geothermal activity

KW - Iceland

KW - Image correlation

KW - SPOT5

KW - Subglacial hydrology

UR - https://www.scopus.com/pages/publications/33344466769

U2 - 10.1016/j.epsl.2005.12.027

DO - 10.1016/j.epsl.2005.12.027

M3 - Article

SN - 0012-821X

VL - 243

SP - 293

EP - 302

JO - Earth and Planetary Science Letters

JF - Earth and Planetary Science Letters

IS - 1-2

ER -

The level of the Grímsvötn subglacial lake, Vatnajökull, Iceland, monitored with SPOT5 images

Abstract

Bibliographical note

Other keywords

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