Victoria Island, Bouguer anomaly map and free air anomaly map

First unified complete Bouguer anomaly map of AlpArray area compiled from terrestrial gravity data is in preparation. The following steps to calculate the first version of the map were performed: 1. unification of different spatial, height and gravity systems, 2. getting available detailed (mainly LiDAR-based) elevation models and their transformation from physical to ellipsoidal heights, 3. calculation of mass corrections (gravity effect of the topography between the surface and ellipsoid level) with density 2 670 kg/m3, 4. calculation of bathymetric corrections for water masses below the ellipsoid (correction density -1&#160;640 kg/m3), 5. calculation of lake correction for great alpine lakes (correction density -1&#160;670 kg/m3), 6. calculation of the final complete Bouguer anomalies based on normal field (Somigliana formula with GRS80 parameters, free-air correction using Taylor series expansion to the 2nd order) and particular corrections including also the atmospheric correction.The quality control of input data was performed based on the height differences between the point data and particular elevation models. Several thousand points with height residuals higher than chosen threshold (&#177;50 m) were excluded. The available detailed local elevation models (resolution 10 &#8211; 20 m) were compared with global model MERIT (resolution 25 m).The most significant methodological innovation is the ellipsoidal heights concept using straightforward calculation of mass/bathymetric corrections in respect to the ellipsoid instead of using the geophysical indirect effect computation. Our specially developed program Toposk was used for mass/bathymetric correction calculation (the standard distance of 166.7 km was used for the first version of the map) as well as for the calculation of lake corrections. Mass corrections amount to hundreds of mGal, while the lake corrections reach more than 5 mGal locally. Atmospheric effect taking into account topography was also calculated and compared with standard atmospheric correction.&#160;

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Preliminary Study of Probolinggo Active Fault in East Java Based on Gravity Method

IOP Conference Series Earth and Environmental Science ◽

10.1088/1755-1315/936/1/012025 ◽

2021 ◽

Vol 936 (1) ◽

pp. 012025

Author(s):

Juan Pandu Gya Nur Rochman ◽

M.Singgih Purwanto ◽

Anik Hilyah ◽

F M. Haris Miftakhul ◽

Mohamad Setyo Ari Nuswantara ◽

...

Keyword(s):

Bouguer Anomaly ◽

Normal Fault ◽

Observation Point ◽

Gravity Method ◽

Subsurface Structures ◽

The North ◽

Free Air ◽

Anomaly Map ◽

Free Air Anomaly ◽

Gravity Acceleration

Abstract The Gravity Method based on TOPEX satellite data is a one of geophysical method which from satellite observations. The gravity method investigate the gravitational field from one to another observation point. The principle of this method has the ability to distinguish the mass material density from its environment, so that the subsurface structure can be identified. In this research, gravity method is used to identify subsurface structures that are suspected of Probolinggo Fault and identify the rock lithology. From TOPEX we get free air anomaly and then applied the correction process to obtain Complete Bouguer Anomaly (CBA) value. The CBA value is processed interpolation to create CBA map, and then the map is filtered by butterworth to obtain regional and residual maps. The value of high gravity acceleration is 0.076 - 19.74 mGal indicating compact rocks. Meanwhile, based on the residual anomaly map, the value of smaller gravity acceleration is -0.92 - 0.9 mGal indicates lower compacting rocks with smaller mass. The gravity acceleration contrast on the residual anomaly, on the north side of fault line (0.12 mGal to 0.45 mGal) and on the south side (-0.92 mGal to -0.043 mGal), is interpreted as normal fault. Furthermore, 3D modelling shows density value less than 2 gr/cm3 we can interpret as pyroclastic fall, in between 2 gr/cm3 until 2.4 gr/cm3 is sandstone and more than 2.4 gr/cm3 is igneous rock such as andesit. 2D slicing modelling show presence the shear fault, so we can suspect this area have oblique fault with west-east direction.

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BOUGUER ANOMALY MAP OF CANADA

Cartographica The International Journal for Geographic Information and Geovisualization ◽

10.3138/u018-7wn6-6826-0446 ◽

1977 ◽

Vol 14 (1) ◽

pp. 59-66

Author(s):

DEZSÖ NAGY

Keyword(s):

Bouguer Anomaly ◽

Anomaly Map ◽

Bouguer Anomaly Map

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Tectonic insight and 3-D modelling of the Lusi (Java, Indonesia) mud edifice through gravity analyses

Geophysical Journal International ◽

10.1093/gji/ggab020 ◽

2021 ◽

Vol 225 (2) ◽

pp. 984-997

Author(s):

Álvaro Osorio Riffo ◽

Guillaume Mauri ◽

Adriano Mazzini ◽

Stephen A Miller

Keyword(s):

Risk Mitigation ◽

Bouguer Anomaly ◽

Geological Model ◽

Resource Exploitation ◽

Subsurface Structures ◽

Central Java ◽

Geostatistical Interpolation ◽

Gravity Response ◽

Anomaly Map ◽

Bouguer Anomaly Map

SUMMARY Lusi is a sediment-hosted hydrothermal system located near Sidoarjo in Central Java, Indonesia, and has erupted continuously since May 2006. This mud eruption extends over a surface of ∼7 km2, and is framed by high containment dams. The present study investigates the geometry of the subsurface structures using a detailed gravimetric model to visualize in 3-D the Lusi system and surrounding lithologies. The obtained residual Bouguer anomaly map, simulated through geostatistical interpolation methods, supports the results of previous deformation studies. The negative gravity anomaly zones identified at Lusi are interpreted as fractured areas through which fluids can ascend towards the surface. A 3-D detailed geological model of the area was constructed with Geomodeller™ to highlight the main features. This model relies on the structures’ density contrasts, the interpreted residual Bouguer anomaly map, and geological data from previous authors. 3-D algorithms were used to calculate the gravity response of the model and validate it by inverse methods. The final output is a gravity constrained 3-D geological model of the Lusi mud edifice. These results provide essential details on the Lusi subsurface and may be useful for possible future geothermal resource exploitation and for the risk mitigation plans related to the maintenance of the man-made framing embankment.

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Geophysical perspective on the structural interference zone along the Neoproterozoic Brasília and Ribeira fold belts in West Gondwana

Brazilian Journal of Geology ◽

10.1590/2317-4889201720160144 ◽

2017 ◽

Vol 47 (1) ◽

pp. 3-19

Author(s):

João Gabriel Motta ◽

Norberto Morales ◽

Walter Malagutti Filho

Keyword(s):

Bouguer Anomaly ◽

Shear Zones ◽

Magnetic Data ◽

Gravity Modeling ◽

West Gondwana ◽

Fold And Thrust Belt ◽

Fold Belts ◽

Thrust Sheets ◽

Anomaly Map ◽

Bouguer Anomaly Map

ABSTRACT: The Brasília and Ribeira fold belts have been established in south-southwestern São Francisco Craton during the Brasiliano-Pan African orogeny (0.9-0.5 Ga - Tonian to Cambrian), and played an important role in West Gondwana continent assembly. The region is given by a complex regional fold and thrust belt superposed by shearing during the orogeny late times, with superposing stress fields forming a structural interference zone. These thrust sheets encompasses assemblies from lower- to upper-crust from different major tectonic blocks (Paranapanema, São Francisco), and newly created metamorphic rocks. Re-evaluation of ground gravity datasets in a geologically constrained approach including seismology (CRUST1 model) and magnetic data (EMAG2 model) unveiled details on the deep- crust settings, and the overall geometry of the structural interference zone. The Simple Bouguer Anomaly map shows heterogeneous density distribution in the area, highlighting the presence of high-density, high metamorphic grade rocks along the Alterosa suture zone in the Socorro-Guaxupé Nappe, lying amid a series of metasedimentary thrust scales in a regional nappe system with important verticalization along regional shear zones. Forward gravity modeling favors interpretations of structural interference up North into Guaxupé Nappe. Comparison to geotectonic models shows similarities with modern accretionary belts, renewing the discussion.

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Geometrical Characterisation of the Mamfe Basin, Cameroon, from the Earth, Gravitational Model (EGM 2008)

Earth Science Research ◽

10.5539/esr.v7n1p94 ◽

2018 ◽

Vol 7 (1) ◽

pp. 94

Author(s):

Anatole Eugene Djieto Lordon ◽

Mbohlieu YOSSA ◽

Christopher M Agyingi ◽

Yves Shandini ◽

Thierry Stephane Kuisseu

Keyword(s):

Average Length ◽

Gravity Data ◽

Bouguer Anomaly ◽

Igneous Rocks ◽

Average Depth ◽

The Earth ◽

Gravitational Model ◽

Petroleum Generation ◽

Anomaly Map ◽

Bouguer Anomaly Map

Gravimetric studies using the ETOPO1-corrected high resolution satellite-based EGM2008 gravity data was used to define the surface extent, depth to basement and shape of the Mamfe basin. The Bouguer anomaly map was produced in Surfer 11.0. The Fast Fourier Transformed data was analyzed by spectral analysis to remove the effect of the regional bodies in the study area. The residual anomaly map obtained was compared with the known geology of the study area, and this showed that the gravity highs correspond to the metamorphic and igneous rocks while the gravity lows match with Cretaceous sediments. Three profiles were drawn on the residual anomaly map along which 2D models of the Mamfe basin were drawn. The modeling was completed in Grav2dc v2.06 software which uses the Talwini’s algorithm and the resulting models gave the depth to basement and the shape of the basement along the profiles. After processing and interpretation, it was deduced that the Mamfe basin has an average length and width of 77.6 km and 29.2 km respectively, an average depth to basement of 5 km and an overall U-shape basement. These dimensions (especially the depth) theoretically create the depth and temperature conditions for petroleum generation.

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New Bouguer Anomaly Map for the Territory of the Slovenia

Remote Sensing ◽

10.3390/rs13224510 ◽

2021 ◽

Vol 13 (22) ◽

pp. 4510

Author(s):

Klemen Medved ◽

Oleg Odalović ◽

Božo Koler

Keyword(s):

Gravity Anomaly ◽

Significant Influence ◽

Bouguer Anomaly ◽

High Quality ◽

Digital Terrain ◽

Terrain Models ◽

Gravimetric Data ◽

The Republic ◽

Anomaly Map ◽

Bouguer Anomaly Map

The existing Bouguer anomaly map, which covers the territory of the Republic of Slovenia is a few decades old. Since then, quite a few new gravimetric measurements (data) for the territory of Slovenia as well as high quality digital terrain models that are needed for creating such a map have been made available. The methodology and standards for creating gravity anomaly maps are also changing. Thus, the national Bouguer anomaly map was updated. There were some gross errors detected in the set of old gravimetric data. Additionally, the influence of new updated gravimetric data was analyzed. The comparison of the various maps and the analysis of the influence of input gravimetric data indicates that the new gravimetric data of Slovenia has a significant influence on the creation of the gravimetric anomaly maps for Slovenia (even over 30 mGals at some points).

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