Glacio-meteorological investigations on Vatnajokull, Iceland, Summer 1996: An overview

J. Oerlemans; H. Björnsson; M. Kuhn; F. Obleitner; F. Palsson; C. J.P.P. Smeets; H. F. Vugts; J. De Wolde

doi:10.1023/A:1001856114941

Glacio-meteorological investigations on Vatnajokull, Iceland, Summer 1996: An overview

J. Oerlemans, H. Björnsson, M. Kuhn, F. Obleitner, F. Palsson, C. J.P.P. Smeets, H. F. Vugts, J. De Wolde

University of Iceland

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

Abstract

We give an overview of a glacio-meteorological experiment carried out in the summer (melt season) of 1996 on the largest European ice cap, Vatnajokull, Iceland (area 8000 km²; altitude range: from sea level to about 2000 m). The main goal was to understand how the energy used in the melting of snow and ice is delivered to the surface. Many meteorological stations were operated simultaneously on the ice cap, at almost all of which profile measurements were made. Cable balloons and radiosondes were used to probe the vertical structure of the boundary layer. It appears that the flow near the surface is katabatic most of the time, with the height of the wind maximum varying between a few metres and a few tens of metres. It is only during the passage of intense storms that the katabatic wind in the melt zone disappears. Global radiation increases significantly with altitude. Surface albedo varies enormously in space and time, with very low values (~ 0.1) being found at many places because of the melt out of volcanic ash layers. If we consider the total melt in the period 22 May-31 August 1996, we conclude that radiation typically provides two-thirds of the melt energy, and turbulent exchange of heat one-third. At locations high on the glacier, turbulent exchange becomes less significant.

Original language	English
Pages (from-to)	3-24
Number of pages	22
Journal	Boundary-Layer Meteorology
Volume	92
Issue number	1
DOIs	https://doi.org/10.1023/A:1001856114941
Publication status	Published - 1999

Bibliographical note

Funding Information: Many persons were involved in the 1996 Vatnajökull experiment. We are grateful to all students, technicians, researchers and, last but not least, the “local people” who provided great help in many difficult situations. The instruments were tested and calibrated at Cabauw, the boundary-layer research facility of the Royal Netherlands Meteorological Institute (KNMI). We thank KNMI for giving us access to this location. The Vatnajökull project has received significant financial support from the Netherlands Foundation for Scientific Research (GOA), the European Union (Framework IV – Environment and Climate, contract EV5V-CT95-0105), the Icelandic Power Company and the Icelandic Research Council.

Other keywords

Ablation
Energy balance
Glacier melt
Ice melt
Katabatic flow
Mass balance

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10.1023/A:1001856114941

Cite this

@article{6939beb71a014c2bb092b6a9e7da8def,

title = "Glacio-meteorological investigations on Vatnajokull, Iceland, Summer 1996: An overview",

abstract = "We give an overview of a glacio-meteorological experiment carried out in the summer (melt season) of 1996 on the largest European ice cap, Vatnajokull, Iceland (area 8000 km2; altitude range: from sea level to about 2000 m). The main goal was to understand how the energy used in the melting of snow and ice is delivered to the surface. Many meteorological stations were operated simultaneously on the ice cap, at almost all of which profile measurements were made. Cable balloons and radiosondes were used to probe the vertical structure of the boundary layer. It appears that the flow near the surface is katabatic most of the time, with the height of the wind maximum varying between a few metres and a few tens of metres. It is only during the passage of intense storms that the katabatic wind in the melt zone disappears. Global radiation increases significantly with altitude. Surface albedo varies enormously in space and time, with very low values (\textasciitilde{} 0.1) being found at many places because of the melt out of volcanic ash layers. If we consider the total melt in the period 22 May-31 August 1996, we conclude that radiation typically provides two-thirds of the melt energy, and turbulent exchange of heat one-third. At locations high on the glacier, turbulent exchange becomes less significant.",

keywords = "Ablation, Energy balance, Glacier melt, Ice melt, Katabatic flow, Mass balance",

author = "J. Oerlemans and H. Bj{\"o}rnsson and M. Kuhn and F. Obleitner and F. Palsson and Smeets, \{C. J.P.P.\} and Vugts, \{H. F.\} and \{De Wolde\}, J.",

note = "Funding Information: Many persons were involved in the 1996 Vatnaj{\"o}kull experiment. We are grateful to all students, technicians, researchers and, last but not least, the “local people” who provided great help in many difficult situations. The instruments were tested and calibrated at Cabauw, the boundary-layer research facility of the Royal Netherlands Meteorological Institute (KNMI). We thank KNMI for giving us access to this location. The Vatnaj{\"o}kull project has received significant financial support from the Netherlands Foundation for Scientific Research (GOA), the European Union (Framework IV – Environment and Climate, contract EV5V-CT95-0105), the Icelandic Power Company and the Icelandic Research Council.",

year = "1999",

doi = "10.1023/A:1001856114941",

language = "English",

volume = "92",

pages = "3--24",

journal = "Boundary-Layer Meteorology",

issn = "0006-8314",

publisher = "Springer Netherlands",

number = "1",

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T1 - Glacio-meteorological investigations on Vatnajokull, Iceland, Summer 1996

T2 - An overview

AU - Oerlemans, J.

AU - Björnsson, H.

AU - Kuhn, M.

AU - Obleitner, F.

AU - Palsson, F.

AU - Smeets, C. J.P.P.

AU - Vugts, H. F.

AU - De Wolde, J.

N1 - Funding Information: Many persons were involved in the 1996 Vatnajökull experiment. We are grateful to all students, technicians, researchers and, last but not least, the “local people” who provided great help in many difficult situations. The instruments were tested and calibrated at Cabauw, the boundary-layer research facility of the Royal Netherlands Meteorological Institute (KNMI). We thank KNMI for giving us access to this location. The Vatnajökull project has received significant financial support from the Netherlands Foundation for Scientific Research (GOA), the European Union (Framework IV – Environment and Climate, contract EV5V-CT95-0105), the Icelandic Power Company and the Icelandic Research Council.

PY - 1999

Y1 - 1999

N2 - We give an overview of a glacio-meteorological experiment carried out in the summer (melt season) of 1996 on the largest European ice cap, Vatnajokull, Iceland (area 8000 km2; altitude range: from sea level to about 2000 m). The main goal was to understand how the energy used in the melting of snow and ice is delivered to the surface. Many meteorological stations were operated simultaneously on the ice cap, at almost all of which profile measurements were made. Cable balloons and radiosondes were used to probe the vertical structure of the boundary layer. It appears that the flow near the surface is katabatic most of the time, with the height of the wind maximum varying between a few metres and a few tens of metres. It is only during the passage of intense storms that the katabatic wind in the melt zone disappears. Global radiation increases significantly with altitude. Surface albedo varies enormously in space and time, with very low values (~ 0.1) being found at many places because of the melt out of volcanic ash layers. If we consider the total melt in the period 22 May-31 August 1996, we conclude that radiation typically provides two-thirds of the melt energy, and turbulent exchange of heat one-third. At locations high on the glacier, turbulent exchange becomes less significant.

AB - We give an overview of a glacio-meteorological experiment carried out in the summer (melt season) of 1996 on the largest European ice cap, Vatnajokull, Iceland (area 8000 km2; altitude range: from sea level to about 2000 m). The main goal was to understand how the energy used in the melting of snow and ice is delivered to the surface. Many meteorological stations were operated simultaneously on the ice cap, at almost all of which profile measurements were made. Cable balloons and radiosondes were used to probe the vertical structure of the boundary layer. It appears that the flow near the surface is katabatic most of the time, with the height of the wind maximum varying between a few metres and a few tens of metres. It is only during the passage of intense storms that the katabatic wind in the melt zone disappears. Global radiation increases significantly with altitude. Surface albedo varies enormously in space and time, with very low values (~ 0.1) being found at many places because of the melt out of volcanic ash layers. If we consider the total melt in the period 22 May-31 August 1996, we conclude that radiation typically provides two-thirds of the melt energy, and turbulent exchange of heat one-third. At locations high on the glacier, turbulent exchange becomes less significant.

KW - Ablation

KW - Energy balance

KW - Glacier melt

KW - Ice melt

KW - Katabatic flow

KW - Mass balance

UR - https://www.scopus.com/pages/publications/0344183118

U2 - 10.1023/A:1001856114941

DO - 10.1023/A:1001856114941

M3 - Article

SN - 0006-8314

VL - 92

SP - 3

EP - 24

JO - Boundary-Layer Meteorology

JF - Boundary-Layer Meteorology

IS - 1

ER -

Glacio-meteorological investigations on Vatnajokull, Iceland, Summer 1996: An overview

Abstract

Bibliographical note

Other keywords

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