Published December 1, 2017
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ANALYSIS OF ISOSTATICALLY-BALANCED CORTICAL MODELS USING MODERN GLOBAL GEOPOTENTIAL MODELS
- 1. National University of Santiago del Estero
- 2. Comisión de Investigaciones Científicas
- 3. Universidad Nacional de La Plata
- 4. Centro Científico Tecnológico - La Plata
Description
Abstract: The knowledge of the Earth's gravity field and its temporal variations is the main goal of the dedicated gravity field missions CHAMP, GRACE and GOCE. Since then, several global geopotential models (GGMs) have been released. This paper uses geoid heights derived from global geopotential models to analyze the cortical features of the Tandilia structure which is assumed to be in isostatic equilibrium. The geoid heights are suitably filtered so that the structure becomes apparent as a residual geoid height. Assuming that the geological structure is in isostatic equilibrium, the residual geoid height can be assimilated and compared to the isostatic geoid height generated from an isostatically compensated crust. The residual geoid height was obtained from the EGM2008 and the EIGEN-6C4 global geopotential models, respectively. The isostatic geoid was computed using the cortical parameters from the global crustal models GEMMA and CRUST 1.0 and from local parameters determined in the area under study. The obtained results make it clear that the isostatic geoid height might become appropriate to validate crustal models if the structures analyzed show evidence of being in isostatic equilibrium.
Translated Descriptions
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This is an automatic machine translation with an accuracy of 90-95%
Translated Description (Arabic)
الملخص: إن معرفة مجال جاذبية الأرض واختلافاته الزمنية هي الهدف الرئيسي لبعثات الجاذبية الميدانية المخصصة CHAMP و GRACE و GOCE. ومنذ ذلك الحين، تم إصدار العديد من النماذج الجيولوجية العالمية (GGMs). تستخدم هذه الورقة ارتفاعات جيولوجية مشتقة من نماذج جيولوجية عالمية لتحليل السمات القشرية لهيكل التانديليا الذي يُفترض أنه في توازن متوازن. يتم ترشيح الارتفاعات الجيولوجية بشكل مناسب بحيث يصبح الهيكل واضحًا كارتفاع جيولوجي متبقي. بافتراض أن البنية الجيولوجية في حالة توازن متساوي التوازن، يمكن استيعاب ارتفاع المستطيل الأرضي المتبقي ومقارنته بارتفاع المستطيل الأرضي المتساوي التوازن الناتج عن قشرة معادلة للتوازن. تم الحصول على ارتفاع المستطيل الأرضي المتبقي من EGM2008 والنماذج الجيولوجية العالمية EIGEN -6C4، على التوالي. تم حساب الشكل الأرضي متساوي التوازن باستخدام المعلمات القشرية من نماذج القشرة الأرضية العالمية GEMMA وCrust 1.0 ومن المعلمات المحلية المحددة في المنطقة قيد الدراسة. توضح النتائج التي تم الحصول عليها أن ارتفاع المستطيل الأرضي المتساوي التوازن قد يصبح مناسبًا للتحقق من النماذج القشرية إذا أظهرت الهياكل التي تم تحليلها دليلًا على أنها في حالة توازن متساوي التوازن.Translated Description (English)
Abstract: The knowledge of the Earth's gravity field and its temporal variations is the main goal of the dedicated gravity field missions CHAMP, GRACE and GOCE. Since then, several global geopotential models (GGMs) have been released. This paper uses geoid heights derived from global geopotential models to analyze the cortical features of the Tandilia structure which is assumed to be in isostatic equilibrium. The geoid heights are suitably filtered so that the structure becomes apparent as a residual geoid height. Assuming that the geological structure is in isostatic equilibrium, the residual geoid height can be assimilated and compared to the isostatic geoid height generated from an isostatically compensated crust. The residual geoid height was obtained from the EGM2008 and the EIGEN-6C4 global geopotential models, respectively. The isostatic geoid was computed using the cortical parameters from the global crustal models GEMMA and CRUST 1.0 and from local parameters determined in the area under study. The obtained results make it clear that the isostatic geoid height might become appropriate to validate crustal models if the structures analyzed show evidence of being in isostatic equilibrium.Translated Description (French)
Résumé : La connaissance du champ de gravité de la Terre et de ses variations temporelles est l'objectif principal des missions de champ de gravité dédiées CHAMP, GRACE et Goce. Après, plusieurs modèles géopotentiels mondiaux (GGM) ont été publiés. This paper uses geoid heights derived from global geopotential models to analyze the cortical features of the Tandilia structure which is assumed to be in isostatic equilibrium. The geoid heights are suitably filtered so that the structure becomes apparent as a residual geoid height. Assuming that the geological structure is in isostatic equilibrium, the residual geoid height can be assimilated and compared to the isostatic geoid height generated from an isostatically compensated crust. The residual geoid height was obtained from the EGM2008 and the EIGEN-6C4 global geopotential models, respectivement. The isostatic geoid was computed using the cortical parameters from the global crustal models GEMMA and CRUST 1.0 and from local parameters determined in the area under study. The obtained results make it clear that the isostatic geoid height might become appropriate to validate crustal models if the structures analyszed show evidence of being in isostatic equilibrium.Translated Description (Spanish)
Abstract: The knowledge of the Earth's gravity field and its temporal variations is the main goal of the dedicated gravity field missions CHAMP, GRACE and goce. Since then, several global geopotential models (GGMs) have been released. This paper uses geoid heights derived from global geopotential models to analyze the cortical features of the Tandilia structure which is assumed to be in isostatic equilibrium. The geoid heights are suitably filtered so that the structure becomes apparent as a residual geoid height. Assuming that the geological structure is in isostatic equilibrium, the residual geoid height can be asimilated and compared to the isostatic geoid height generated from an isostatically compensated crust. The residual geoid height was obtained from the EGM2008 and the EIGEN-6C4 global geopotential models, respectively. The isostatic geoid was computed using the cortical parameters from the global crustal models GEMMA and CRUST 1.0 and from local parameters determined in the area under study. The obtained results make it clear that the isostatic geoid height might become appropriate to validate crustal models if the structures analyzed show evidence of being in isostatic equilibrium.Files
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Additional details
Additional titles
- Translated title (Arabic)
- تحليل النماذج المكانية المتوازنة متوازنة التوازن باستخدام النماذج الجيولوجية العالمية الحديثة
- Translated title (English)
- ANALYSIS OF ISOSTATIC BALANCED SPATIAL MODELS USING MODERN GLOBAL GEOPOTENTIAL MODELS
- Translated title (French)
- ANALYSIS OF ISOSTATICALLY-BALANCED CORTICAL MODELS USING MODERN GLOBAL GEOPOTENTIAL MODELS
- Translated title (Spanish)
- ANALYSIS OF ISOSTATICALLY-BALANCED CORTICAL MODELS USING MODERN GLOBAL GEOPOTENTIAL MODELS
Identifiers
- Other
- https://openalex.org/W2772082154
- DOI
- 10.1590/s1982-21702017000400041
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