3D Seismic Density Models of the Earth’s Crust and Structural Diagrams of Tectonic Zoning of the Middle Urals
—For the territory of the Middle Urals segment, a high-resolution grid density model of the upper part of the lithosphere was constructed (grid step is 500 m) to the depth of 80 km – the first regional level of isostatic compensation. The spatial framework of density sections serves as the basis for...
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| Published in | Russian geology and geophysics Vol. 65; no. 10; pp. 1240 - 1251 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
01.10.2024
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| Online Access | Get full text |
| ISSN | 1068-7971 |
| DOI | 10.2113/RGG20244731 |
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| Abstract | —For the territory of the Middle Urals segment, a high-resolution grid density model of the upper part of the lithosphere was constructed (grid step is 500 m) to the depth of 80 km – the first regional level of isostatic compensation. The spatial framework of density sections serves as the basis for a three-dimensional (3D) interpolated density model – an initial approximation model. The corrections to the density model of the initial approximation are found from the solution of the linear inverse gravimetry problem of practically meaningful correctness sets of density equivalents. The fairly thin horizontal layers of the grid density model are selected as such sets. The method and technology to calculate 3D density distribution with reference to 2D data along reference seismic sections are embedded in the methodology for quantitative interpretation of potential fields with the construction of 3D geophysical models. The relief of the internal boundary surfaces of the upper, middle and lower crust is compared to the structural scheme of tectonic zoning along the surface of the basement. To construct tectonic schemes, lithostatic pressure anomalies are also used; they are calculated from a general integral characteristic – the mass of density columns from the Earth’s surface to a given depth. Anomalies of lithostatic pressure for each layer of a 3D grid density model are proportional to excessive density within the layer, so that a density model is easily converted into a lithostatic model. 3D anomalies of lithostatic pressure clearly configure the block structure of the earth’s crust at different depth sections. In the projection at the surface of the middle and lower crust, the contours of lithostatic anomalies correspond to the tectonic zoning scheme of the basement, built based on potential fields. A comparison of ‘block diagrams’ of density and lithostatic models is used to identify structural elements of different order of deep tectonic zoning at different depth sections. |
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| AbstractList | —For the territory of the Middle Urals segment, a high-resolution grid density model of the upper part of the lithosphere was constructed (grid step is 500 m) to the depth of 80 km – the first regional level of isostatic compensation. The spatial framework of density sections serves as the basis for a three-dimensional (3D) interpolated density model – an initial approximation model. The corrections to the density model of the initial approximation are found from the solution of the linear inverse gravimetry problem of practically meaningful correctness sets of density equivalents. The fairly thin horizontal layers of the grid density model are selected as such sets. The method and technology to calculate 3D density distribution with reference to 2D data along reference seismic sections are embedded in the methodology for quantitative interpretation of potential fields with the construction of 3D geophysical models. The relief of the internal boundary surfaces of the upper, middle and lower crust is compared to the structural scheme of tectonic zoning along the surface of the basement. To construct tectonic schemes, lithostatic pressure anomalies are also used; they are calculated from a general integral characteristic – the mass of density columns from the Earth’s surface to a given depth. Anomalies of lithostatic pressure for each layer of a 3D grid density model are proportional to excessive density within the layer, so that a density model is easily converted into a lithostatic model. 3D anomalies of lithostatic pressure clearly configure the block structure of the earth’s crust at different depth sections. In the projection at the surface of the middle and lower crust, the contours of lithostatic anomalies correspond to the tectonic zoning scheme of the basement, built based on potential fields. A comparison of ‘block diagrams’ of density and lithostatic models is used to identify structural elements of different order of deep tectonic zoning at different depth sections. |
| Author | Byzov, D.D. Tsidaev, A.G. Martyshko, P.S. Ladovskii, I.V. |
| Author_xml | – sequence: 1 givenname: D.D. surname: Byzov fullname: Byzov, D.D. – sequence: 2 givenname: P.S. surname: Martyshko fullname: Martyshko, P.S. – sequence: 3 givenname: I.V. surname: Ladovskii fullname: Ladovskii, I.V. – sequence: 4 givenname: A.G. surname: Tsidaev fullname: Tsidaev, A.G. |
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| Cites_doi | 10.1016/S0040-1951(97)00048-6 10.1016/0012-821X(90)90069-A 10.3390/math9222966 10.5800/GT-2020-11-3-0491 10.1134/S1069351316060057 10.1134/S1819714023080183 10.1016/j.rgg.2011.08.007 10.1134/S1069351316050128 10.1134/S1028334X16120199 10.2113/RGG20214417 10.1134/S1069351323020088 10.1063/1.4992204 10.1134/S1819714022020075 10.1007/s00190-020-01398-0 10.1134/S0016852116020047 10.3390/geosciences10050199 10.1134/S1069351322030041 |
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| References | 2024122609082193600_r13 Volvovsky (2024122609082193600_r29) 1973 Pavlenkova (2024122609082193600_r22) 2016; 52 Kukkonen (2024122609082193600_r6) 1997; 276 Sharov (2024122609082193600_r24) 2020; 11 Martyshko (2024122609082193600_r15) 2022; 58 Sobolev (2024122609082193600_r27) 1986 Romanyuk (2024122609082193600_r23) 1995 Belousov (2024122609082193600_r1) 1989 Martyshko (2024122609082193600_r10) 2005; 27 Ladovskii (2024122609082193600_r9) 2023; 59 Zingerle (2024122609082193600_r30) 2020; 94 Pavlenkova (2024122609082193600_r19) 1978; 2 Pavlenkova (2024122609082193600_r21) 1991; 5 Martyshko (2024122609082193600_r12) 2016; 471 Muravina (2024122609082193600_r17) 2024; 17 Druzhinin (2024122609082193600_r4) 2014 Sobolev (2024122609082193600_r26) 1969 Martyshko (2024122609082193600_r14) 2021; 9 Khutorskoi (2024122609082193600_r5) 2016; 50 Ladovskii (2024122609082193600_r7) 2017; 53 Martyshko (2024122609082193600_r11) 2011 Cermak (2024122609082193600_r3) 1990; 99 Tikhonov (2024122609082193600_r28) 1999 Ladovskii (2024122609082193600_r8) 2020; 10 Novoselitskii (2024122609082193600_r18) 1965; 5 Pavlenkova (2024122609082193600_r20) 2011; 52 Nurmukhamedov (2024122609082193600_r25) 2022 Byzov (2024122609082193600_r2) 2015 Martyshko (2024122609082193600_r16) 2023; 64 |
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