Using ground-penetrating radar to image previous years' summer surfaces for mass-balance measurements
In traditional mass-balance measurements one estimates winter snow accumulation by identifying the depth to the previous summer's snow or ice surface using a snow probe. This is labor-intensive and unreliable for inhomogeneous summer surfaces. Another method is to image internal reflection hori...
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| Format: | Article in Journal/Newspaper |
| Language: | English |
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1997
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| Online Access: | https://research.ulapland.fi/fi/publications/58f9785d-5894-405b-98e8-1eebb45d39ed |
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ftulaplandcdispu:oai:lacris.ulapland.fi:publications/58f9785d-5894-405b-98e8-1eebb45d39ed |
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openpolar |
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ftulaplandcdispu:oai:lacris.ulapland.fi:publications/58f9785d-5894-405b-98e8-1eebb45d39ed 2024-06-23T07:45:37+00:00 Using ground-penetrating radar to image previous years' summer surfaces for mass-balance measurements Kohler, J. Moore, John Kennett, M. Engeset, R. Elvehøy, H. 1997 https://research.ulapland.fi/fi/publications/58f9785d-5894-405b-98e8-1eebb45d39ed eng eng https://research.ulapland.fi/fi/publications/58f9785d-5894-405b-98e8-1eebb45d39ed info:eu-repo/semantics/restrictedAccess Kohler , J , Moore , J , Kennett , M , Engeset , R & Elvehøy , H 1997 , ' Using ground-penetrating radar to image previous years' summer surfaces for mass-balance measurements ' , Annals of Glaciology , vol. 24 , pp. 355-360 . /dk/atira/pure/person/fieldofscience2010/1/17/1 name=Geosciences article 1997 ftulaplandcdispu 2024-05-27T23:39:57Z In traditional mass-balance measurements one estimates winter snow accumulation by identifying the depth to the previous summer's snow or ice surface using a snow probe. This is labor-intensive and unreliable for inhomogeneous summer surfaces. Another method is to image internal reflection horizons using a ground-penetrating radar (GPR), which has advantages in speed and areal coverage over traditional probing. However, to obtain quantitative mass-balance measurements from GPR images one needs to convert the time scale to a depth scale, not a straightforward problem. We compare a GPR section with dielectric profiles and visual stratigraphy of three snow cores, manual probings, and previous mass-balance measurements. We relate changes in snow-core dielectric properties to changes in density and to the travel times of reflecting horizons in the GPR section, and correlate some of these reflecting horizons with previous summer surfaces. We conclude that GPR can be used as a complementary tool in mass-balance measurements, giving a wide areal survey of winter accumulation and net balance for preceding years. However, proper calibration is essential for identifying specific surfaces in the radar data. Article in Journal/Newspaper Annals of Glaciology LaCRIS - University of Lapland Current Research System |
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Open Polar |
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LaCRIS - University of Lapland Current Research System |
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ftulaplandcdispu |
| language |
English |
| topic |
/dk/atira/pure/person/fieldofscience2010/1/17/1 name=Geosciences |
| spellingShingle |
/dk/atira/pure/person/fieldofscience2010/1/17/1 name=Geosciences Kohler, J. Moore, John Kennett, M. Engeset, R. Elvehøy, H. Using ground-penetrating radar to image previous years' summer surfaces for mass-balance measurements |
| topic_facet |
/dk/atira/pure/person/fieldofscience2010/1/17/1 name=Geosciences |
| description |
In traditional mass-balance measurements one estimates winter snow accumulation by identifying the depth to the previous summer's snow or ice surface using a snow probe. This is labor-intensive and unreliable for inhomogeneous summer surfaces. Another method is to image internal reflection horizons using a ground-penetrating radar (GPR), which has advantages in speed and areal coverage over traditional probing. However, to obtain quantitative mass-balance measurements from GPR images one needs to convert the time scale to a depth scale, not a straightforward problem. We compare a GPR section with dielectric profiles and visual stratigraphy of three snow cores, manual probings, and previous mass-balance measurements. We relate changes in snow-core dielectric properties to changes in density and to the travel times of reflecting horizons in the GPR section, and correlate some of these reflecting horizons with previous summer surfaces. We conclude that GPR can be used as a complementary tool in mass-balance measurements, giving a wide areal survey of winter accumulation and net balance for preceding years. However, proper calibration is essential for identifying specific surfaces in the radar data. |
| format |
Article in Journal/Newspaper |
| author |
Kohler, J. Moore, John Kennett, M. Engeset, R. Elvehøy, H. |
| author_facet |
Kohler, J. Moore, John Kennett, M. Engeset, R. Elvehøy, H. |
| author_sort |
Kohler, J. |
| title |
Using ground-penetrating radar to image previous years' summer surfaces for mass-balance measurements |
| title_short |
Using ground-penetrating radar to image previous years' summer surfaces for mass-balance measurements |
| title_full |
Using ground-penetrating radar to image previous years' summer surfaces for mass-balance measurements |
| title_fullStr |
Using ground-penetrating radar to image previous years' summer surfaces for mass-balance measurements |
| title_full_unstemmed |
Using ground-penetrating radar to image previous years' summer surfaces for mass-balance measurements |
| title_sort |
using ground-penetrating radar to image previous years' summer surfaces for mass-balance measurements |
| publishDate |
1997 |
| url |
https://research.ulapland.fi/fi/publications/58f9785d-5894-405b-98e8-1eebb45d39ed |
| genre |
Annals of Glaciology |
| genre_facet |
Annals of Glaciology |
| op_source |
Kohler , J , Moore , J , Kennett , M , Engeset , R & Elvehøy , H 1997 , ' Using ground-penetrating radar to image previous years' summer surfaces for mass-balance measurements ' , Annals of Glaciology , vol. 24 , pp. 355-360 . |
| op_relation |
https://research.ulapland.fi/fi/publications/58f9785d-5894-405b-98e8-1eebb45d39ed |
| op_rights |
info:eu-repo/semantics/restrictedAccess |
| _version_ |
1802641538702901248 |