Estimating a combined Moho model for marine areas via satellite altimetric - gravity and seismic crustal models

Isostasy is a key concept in geoscience in interpreting the state of mass balance between the Earth’s lithosphere and viscous asthenosphere. A more satisfactory test of isostasy is to determine the depth to and density contrast between crust and mantle at the Moho discontinuity (Moho). Generally, th...

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Published in:Studia Geophysica et Geodaetica
Main Authors: Abrehdary, Majid, Sjöberg , Lars E.
Format: Article in Journal/Newspaper
Language:unknown
Subjects:
Vening Meinesz-Moritz
satellite altimetry
Moho depth
Moho density contrast
uncertainty
Kolbeinsey
Kolbeinsey Ridge
Iceland
Online Access:https://kramerius.lib.cas.cz/view/uuid:3e69ac06-6956-4dac-88bf-d5b60a4407ed
https://doi.org/10.1007/s11200-019-1067-0
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author Abrehdary, Majid
Sjöberg , Lars E.
author_facet Abrehdary, Majid
Sjöberg , Lars E.
author_sort Abrehdary, Majid
collection Czech Academy of Sciences: dKNAV
container_issue 1
container_start_page 1
container_title Studia Geophysica et Geodaetica
container_volume 64
description Isostasy is a key concept in geoscience in interpreting the state of mass balance between the Earth’s lithosphere and viscous asthenosphere. A more satisfactory test of isostasy is to determine the depth to and density contrast between crust and mantle at the Moho discontinuity (Moho). Generally, the Moho can be mapped by seismic information, but the limited coverage of such data over large portions of the world (in particular at seas) and economic considerations make a combined gravimetric-seismic method a more realistic approach. The determination of a high-resolution of the Moho constituents for marine areas requires the combination of gravimetric and seismic data to diminish substantially the seismic data gaps. In this study, we estimate the Moho constituents globally for ocean regions to a resolution of 1° × 1° by applying the Vening Meinesz-Moritz method from gravimetric data and combine it with estimates derived from seismic data in a new model named COMHV19. The data files of GMG14 satellite altimetry-derived marine gravity field, the Earth2014 Earth topographic/bathymetric model, CRUST1.0 and CRUST19 crustal seismic models are used in a least-squares procedure. The numerical computations show that the Moho depths range from 7.3 km (in Kolbeinsey Ridge) to 52.6 km (in the Gulf of Bothnia) with a global average of 16.4 km and standard deviation of the order of 7.5 km. Estimated Moho density contrasts vary between 20 kg m-3 (north of Iceland) to 570 kg m-3 (in Baltic Sea), with a global average of 313.7 kg m-3 and standard deviation of the order of 77.4 kg m-3. When comparing the computed Moho depths with current knowledge of crustal structure, they are generally found to be in good agreement with other crustal models. However, in certain regions, such as oceanic spreading ridges and hot spots, we generally obtain thinner crust than proposed by other models, which is likely the result of improvements in the new model. We also see evidence for thickening of oceanic crust with increasing age. Hence, the new ...
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Kolbeinsey
genre_facet Iceland
Kolbeinsey
geographic Kolbeinsey
Kolbeinsey Ridge
geographic_facet Kolbeinsey
Kolbeinsey Ridge
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spelling ftczechacademysc:oai:kramerius.lib.cas.cz:uuid:3e69ac06-6956-4dac-88bf-d5b60a4407ed 2025-01-16T22:41:04+00:00 Estimating a combined Moho model for marine areas via satellite altimetric - gravity and seismic crustal models Abrehdary, Majid Sjöberg , Lars E. 1-25 média svazek https://kramerius.lib.cas.cz/view/uuid:3e69ac06-6956-4dac-88bf-d5b60a4407ed https://doi.org/10.1007/s11200-019-1067-0 unknown https://kramerius.lib.cas.cz/view/uuid:3e69ac06-6956-4dac-88bf-d5b60a4407ed doi:10.1007/s11200-019-1067-0 policy:private Vening Meinesz-Moritz satellite altimetry Moho depth Moho density contrast uncertainty model:article ftczechacademysc https://doi.org/10.1007/s11200-019-1067-0 2024-02-19T22:57:32Z Isostasy is a key concept in geoscience in interpreting the state of mass balance between the Earth’s lithosphere and viscous asthenosphere. A more satisfactory test of isostasy is to determine the depth to and density contrast between crust and mantle at the Moho discontinuity (Moho). Generally, the Moho can be mapped by seismic information, but the limited coverage of such data over large portions of the world (in particular at seas) and economic considerations make a combined gravimetric-seismic method a more realistic approach. The determination of a high-resolution of the Moho constituents for marine areas requires the combination of gravimetric and seismic data to diminish substantially the seismic data gaps. In this study, we estimate the Moho constituents globally for ocean regions to a resolution of 1° × 1° by applying the Vening Meinesz-Moritz method from gravimetric data and combine it with estimates derived from seismic data in a new model named COMHV19. The data files of GMG14 satellite altimetry-derived marine gravity field, the Earth2014 Earth topographic/bathymetric model, CRUST1.0 and CRUST19 crustal seismic models are used in a least-squares procedure. The numerical computations show that the Moho depths range from 7.3 km (in Kolbeinsey Ridge) to 52.6 km (in the Gulf of Bothnia) with a global average of 16.4 km and standard deviation of the order of 7.5 km. Estimated Moho density contrasts vary between 20 kg m-3 (north of Iceland) to 570 kg m-3 (in Baltic Sea), with a global average of 313.7 kg m-3 and standard deviation of the order of 77.4 kg m-3. When comparing the computed Moho depths with current knowledge of crustal structure, they are generally found to be in good agreement with other crustal models. However, in certain regions, such as oceanic spreading ridges and hot spots, we generally obtain thinner crust than proposed by other models, which is likely the result of improvements in the new model. We also see evidence for thickening of oceanic crust with increasing age. Hence, the new ... Article in Journal/Newspaper Iceland Kolbeinsey Czech Academy of Sciences: dKNAV Kolbeinsey ENVELOPE(-18.687,-18.687,67.149,67.149) Kolbeinsey Ridge ENVELOPE(-16.917,-16.917,68.833,68.833) Studia Geophysica et Geodaetica 64 1 1 25
spellingShingle Vening Meinesz-Moritz
satellite altimetry
Moho depth
Moho density contrast
uncertainty
Abrehdary, Majid
Sjöberg , Lars E.
Estimating a combined Moho model for marine areas via satellite altimetric - gravity and seismic crustal models
title Estimating a combined Moho model for marine areas via satellite altimetric - gravity and seismic crustal models
title_full Estimating a combined Moho model for marine areas via satellite altimetric - gravity and seismic crustal models
title_fullStr Estimating a combined Moho model for marine areas via satellite altimetric - gravity and seismic crustal models
title_full_unstemmed Estimating a combined Moho model for marine areas via satellite altimetric - gravity and seismic crustal models
title_short Estimating a combined Moho model for marine areas via satellite altimetric - gravity and seismic crustal models
title_sort estimating a combined moho model for marine areas via satellite altimetric - gravity and seismic crustal models
topic Vening Meinesz-Moritz
satellite altimetry
Moho depth
Moho density contrast
uncertainty
topic_facet Vening Meinesz-Moritz
satellite altimetry
Moho depth
Moho density contrast
uncertainty
url https://kramerius.lib.cas.cz/view/uuid:3e69ac06-6956-4dac-88bf-d5b60a4407ed
https://doi.org/10.1007/s11200-019-1067-0

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