Using ground gravity to improve ice mass change estimation from GOCE gravity gradients in mid-west Greenland
Vertical gravity gradient anomalies from the Gravity and steady-state Ocean Circulation Explorer (GOCE) DIR-3 model have been used to determine gravity anomalies in mid-west Greenland by using Least-Squares Collocation (LSC) and the Reduced Point Mass (RPM) method. The two methods give nearly identi...
| Main Authors: | , |
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| Format: | Article in Journal/Newspaper |
| Language: | unknown |
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| Online Access: | https://kramerius.lib.cas.cz/view/uuid:afcd7648-c22b-4885-a105-f6ab30015b8e |
| _version_ | 1821520961234534400 |
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| author | Tscherning, Carl Christian Herceg, Matija |
| author_facet | Tscherning, Carl Christian Herceg, Matija |
| author_sort | Tscherning, Carl Christian |
| collection | Czech Academy of Sciences: dKNAV |
| description | Vertical gravity gradient anomalies from the Gravity and steady-state Ocean Circulation Explorer (GOCE) DIR-3 model have been used to determine gravity anomalies in mid-west Greenland by using Least-Squares Collocation (LSC) and the Reduced Point Mass (RPM) method. The two methods give nearly identical results. However, compared to LSC, the RPM method needs less computational time as the number of equations to be solved in LSC equals the number of observations. The advantage of the LSC, however, is the acquired error estimates. The observation periods are winter 2009 and summer 2012. In order to enhance the accuracy of the calculated gravity anomalies, ground gravity data from West Greenland is used over locations where the gravity change resulting from ice mass changes is negligible, i.e. over solid rock. In the period considered, the gravity anomaly change due to changes in ice mass varies from −5 mGal to 4 mGal. It is negative over the outlet glacier Jacobshavn Isbræ, where the mass loss corresponds to a gravity change of approximately −4 mGal. When using only GOCE vertical gravity gradients, the error estimates range from 5 mGal at the coast to 17 mGal over the ice sheet. Introducing the ground gravity data from West Greenland in the prediction reduces the errors to range from 2 to 10 mGal. Carl Christian Tscherning, Matija Herceg. Obsahuje bibliografii |
| format | Article in Journal/Newspaper |
| genre | glacier Greenland Ice Sheet |
| genre_facet | glacier Greenland Ice Sheet |
| geographic | Greenland |
| geographic_facet | Greenland |
| id | ftczechacademysc:oai:kramerius.lib.cas.cz:uuid:afcd7648-c22b-4885-a105-f6ab30015b8e |
| institution | Open Polar |
| language | unknown |
| op_collection_id | ftczechacademysc |
| op_relation | https://kramerius.lib.cas.cz/view/uuid:afcd7648-c22b-4885-a105-f6ab30015b8e issn:0039-3169 |
| op_rights | policy:private |
| record_format | openpolar |
| spelling | ftczechacademysc:oai:kramerius.lib.cas.cz:uuid:afcd7648-c22b-4885-a105-f6ab30015b8e 2025-01-16T22:02:17+00:00 Using ground gravity to improve ice mass change estimation from GOCE gravity gradients in mid-west Greenland Tscherning, Carl Christian Herceg, Matija print média svazek https://kramerius.lib.cas.cz/view/uuid:afcd7648-c22b-4885-a105-f6ab30015b8e unknown https://kramerius.lib.cas.cz/view/uuid:afcd7648-c22b-4885-a105-f6ab30015b8e issn:0039-3169 policy:private GOCE gradients ice-mass least-squares collocation reduced point mass 7 550 model:article ftczechacademysc 2024-02-19T22:57:32Z Vertical gravity gradient anomalies from the Gravity and steady-state Ocean Circulation Explorer (GOCE) DIR-3 model have been used to determine gravity anomalies in mid-west Greenland by using Least-Squares Collocation (LSC) and the Reduced Point Mass (RPM) method. The two methods give nearly identical results. However, compared to LSC, the RPM method needs less computational time as the number of equations to be solved in LSC equals the number of observations. The advantage of the LSC, however, is the acquired error estimates. The observation periods are winter 2009 and summer 2012. In order to enhance the accuracy of the calculated gravity anomalies, ground gravity data from West Greenland is used over locations where the gravity change resulting from ice mass changes is negligible, i.e. over solid rock. In the period considered, the gravity anomaly change due to changes in ice mass varies from −5 mGal to 4 mGal. It is negative over the outlet glacier Jacobshavn Isbræ, where the mass loss corresponds to a gravity change of approximately −4 mGal. When using only GOCE vertical gravity gradients, the error estimates range from 5 mGal at the coast to 17 mGal over the ice sheet. Introducing the ground gravity data from West Greenland in the prediction reduces the errors to range from 2 to 10 mGal. Carl Christian Tscherning, Matija Herceg. Obsahuje bibliografii Article in Journal/Newspaper glacier Greenland Ice Sheet Czech Academy of Sciences: dKNAV Greenland |
| spellingShingle | GOCE gradients ice-mass least-squares collocation reduced point mass 7 550 Tscherning, Carl Christian Herceg, Matija Using ground gravity to improve ice mass change estimation from GOCE gravity gradients in mid-west Greenland |
| title | Using ground gravity to improve ice mass change estimation from GOCE gravity gradients in mid-west Greenland |
| title_full | Using ground gravity to improve ice mass change estimation from GOCE gravity gradients in mid-west Greenland |
| title_fullStr | Using ground gravity to improve ice mass change estimation from GOCE gravity gradients in mid-west Greenland |
| title_full_unstemmed | Using ground gravity to improve ice mass change estimation from GOCE gravity gradients in mid-west Greenland |
| title_short | Using ground gravity to improve ice mass change estimation from GOCE gravity gradients in mid-west Greenland |
| title_sort | using ground gravity to improve ice mass change estimation from goce gravity gradients in mid-west greenland |
| topic | GOCE gradients ice-mass least-squares collocation reduced point mass 7 550 |
| topic_facet | GOCE gradients ice-mass least-squares collocation reduced point mass 7 550 |
| url | https://kramerius.lib.cas.cz/view/uuid:afcd7648-c22b-4885-a105-f6ab30015b8e |