DATA REPOSITORY ITEM Ghiglione (2008) - Page 1. Aeromagnetic data have been acquired by Sanders Geophysics Limited for

Similar documents
Seismostratigraphic and structural setting of the Malvinas Basin and its southern margin (Tierra del Fuego Atlantic offshore)

Perspectives from Offshore Argentina & Uruguay

Researchers Target a Continental Transform Fault in Tierra del Fuego

Progression of deformation and sedimentation in the southernmost Andes

Mesozoic-Cenozoic stratigraphy of the Fuegian Andes, Argentina

SpringerBriefs in Earth System Sciences

PETROLEUM GEOLOGY AND HYDROCARBON POTENTIAL OFFSHORE URUGUAY. MSc. Bruno Conti October 20 th 2017, London

Orphan Basin, Offshore Newfoundland: New seismic data and hydrocarbon plays for a dormant Frontier Basin

3D Geometry of the Xade Complex inferred from Gravity and Magnetic Data

Spectral Analysis of Aeromagnetic Anomalies from Parts of Mmaku and its Adjoining Areas in Southeastern, Nigeria

Originally published as:

A geological and geophysical crustal section across the Magallanes Fagnano fault in Tierra del Fuego

A paleomagnetic analysis of the Patagonian Orocline

OBS data from the Møre Margin. Trond Kvarven University of Bergen

Compressional deformation along the Chañarcillo basin west margin: North Chilean Late Jurassic-Early Cretaceous back-arc basin

Shallow-water late middle Eocene crinoids from Tierra del Fuego: a new southern record of a retrograde community structure*

The Sierra Leone-Liberia Emerging Deepwater Province*

Origin and evolution of lago Yehuin (Tierra del Fuego, Argentina): Results from a geophysical survey

Airborne gravity gradiometer surveying of petroleum systems under Lake Tanganyika, Tanzania

Earth Science, (Tarbuck/Lutgens) Chapter 10: Mountain Building

Tectonophysics 476 (2009) Contents lists available at ScienceDirect. Tectonophysics. journal homepage:

Figure 1. Examples of vector displacement diagrams for two and three-plate systems.

Kilometre-Scale Uplift of the Early Cretaceous Rift Section, Camamu Basin, Offshore North-East Brazil*

Structural Styles and Geotectonic Elements in Northwestern Mississippi: Interpreted from Gravity, Magnetic, and Proprietary 2D Seismic Data

Cenozoic contractional tectonics in the Fuegian Andes, southernmost South America: a model for the transference of orogenic shortening to the foreland

Re-Evaluation Of The Extent And Tectonic History Of The Helena Banks Fault Zone, Offshore South Carolina

Horizontal gradient and band-pass filter of aeromagnetic data image the subsurface structure; Example from Esh El Mellaha Area, Gulf of Suez, Egypt.

Integrated Geophysics Corporation

GRAVIMETRIC MAP OF CHILE. Services Mining and Engineering Geophysics Instituto Geográfico Militar

Geology of the Hawaiian Islands

Western Scotia Sea margins: Improved constraints on the opening of the Drake Passage

Blocks offered in Sri Lanka s Second Licensing Round

Summary. Study Area. Data Acquisition

Structural Style and Tectonic Evolution of the Nakhon Basin, Gulf of Thailand

Structure of the western Brooks Range fold and thrust belt, Arctic Alaska

PALEOSEISMIC OBSERVATIONS OF AN ONSHORE TRANSFORM BOUNDARY: THE MAGALLANES-FAGNANO FAULT, TIERRA DEL FUEGO, ARGENTINA

BALOCHISTAN FOLDBELT BASIN

A Tectonostratigraphic History of Orphan Basin, Offshore Newfoundland, Canada

Paleozoic to present-day kinematic evolution of the frontal part of the Andes between parallels 23º and 24º S (Jujuy province, Argentina)

RELINQUISHMENT REPORT. License P1546 Block April 2009

ANOTHER MEXICAN EARTHQUAKE! Magnitude 7.1, Tuesday Sept. 19, 2017

Controls on clastic systems in the Angoche basin, Mozambique: tectonics, contourites and petroleum systems

Structural setting of the Trieste area from gravity modelling

Aeromagnetic map of the Death Valley ground-water model area, Nevada and California

Raster Data Enhancement and Tectonic Element Interpretation in ArcMap

SEISMICITY AND VARIATIONS OF THE CRUSTAL TENSIONAL STATE OF THE RETRO-ARC IN THE SOUTHERN CENTRAL ANDES DURING THE LAST 5 MA ( S)

Contribution Of Potential Field Data In Delineating The Structural-Tectonic Set-Up Of The Eastern Qattara Depression Area, Western Desert, Egypt.

Prospectivity of the Equatorial Conjugate Margins of Africa and South America

Fig Available seismic reflection, refraction, and magnetic profiles from 107 the Offshore Indus Basin close to the representative profile GCDH,

Structure of the crust beneath Qamar Basin, Eastern Yemen based on gravity and magnetic modeling

(2) D. Mastellone, M. Fedi, V. Paoletti DISTAR, Department of Earth Sciences, Environment and Resources, University of Naples Federico II, Italy

Deepwater Hydrocarbon Potentialof Orange Basin, South Africa: An Untested Oil Play

Osareni C. Ogiesoba and Angela K. Eluwa. Bureau of Economic Geology, University of Texas at Austin, Burnet Rd., Austin Texas 78759

Mapping Basement Structures in the Peace River Arch of Alberta Using Monogenic Signal Decomposition of Magnetic Data

Depth to basement analysis from gravity field over the Guelb Ahmer horst (Ghadames petroleum province, Southern Tunisia, North Africa)

Deepwater Niger Delta fold-and-thrust belt modeled as a critical-taper wedge: The influence of a weak detachment on styles of fault-related folds

Tectonics and Hydrocarbon System, East Gobi Basin, Mongolia. Gary Prost, ConocoPhillips Canada, Calgary

Chapter 16. Mountain Building. Mountain Building. Mountains and Plate Tectonics. what s the connection?

The seismotectonic significance of the seismic swarm in the Brabant Massif (Belgium)

The Structure of the Earth and Plate Tectonics

Meandering Miocene Deep Sea Channel Systems Offshore Congo, West Africa

Akshaya Kumar*, Ganesh Karri, Manish Kumar Gupta, S.K.Das,V. K. Kulshrestha, Oil India Ltd.

Depositional History and Petroleum Potential of Ombilin Basin, West Sumatra - Indonesia, Based on Surface Geological Data*

Structural geology of the Fuegian Andes and Magallanes fold-and-thrust belt Tierra del Fuego Island

The Structure of the Earth and Plate Tectonics

FALCON AGG inversion to constrain 3D geological models in the Glyde Sub-Basin, Northern Territory

la serena octubre 2015

KEY CHAPTER 12 TAKE-HOME QUIZ INTERNAL STRUCTURES AND PROCESSES Score Part B = / 55 PART B

SouthWest Energy (HK) Ltd.

The Late Tertiary Deep-Water Siliciclastic System of the Levant Margin - An Emerging Play Offshore Israel*

Global Tectonics. Kearey, Philip. Table of Contents ISBN-13: Historical perspective. 2. The interior of the Earth.

454/01 GEOLOGY GL4 INTERPRETING THE GEOLOGICAL RECORD. P.M. THURSDAY, 17 June (2 Hours)

A 3D seismic survey for mapping shallow targets

Cretaceous Tertiary Contraction, Shear and Inversion in the Western Barents Sea

09/06/2017. The orogenic cycle in the Andes: Arc magmatism and delamination as control of the fold and thrust belts

II CENTRAL & NORTH ATLANTIC CONJUGATE MARGINS CONFERENCE

GLG101: What-To-Know List

Basement geometry and sediment thickness of Lago Fagnano (Tierra del Fuego)

SEDIMENTARY ENVIRONMENTS OF THE MIOCENE FILARET FORMATION

A comparison of structural styles and prospectivity along the Atlantic margin from Senegal to Benin. Peter Conn*, Ian Deighton* & Dario Chisari*

Dipartimento di Scienze Biologiche, Geologiche e Ambientali, Sezione di Scienze della Terra, Università di Catania, Italy 2

GEOPHYSICS GRAVITY DATA COVERAGE

Hydrocarbon Potential of the Marginal Fields in Niger Delta Oza Field, a case study*

QUALITATIVE INTERPRETATION OF POTENTIAL FIELD PROFILES: SOUTHERN NECHAKO BASIN

Structural Geology Lab. The Objectives are to gain experience

caribbean basins, tectonics and hydrocarbons university of texas institute for geophysics

GLY 155 Introduction to Physical Geology, W. Altermann. Press & Siever, compressive forces. Compressive forces cause folding and faulting.

Plate Tectonics. 1)The plate tectonic system 2)A theory is born 3) Early evidence for continental drift 4) Continental drift and paleomagnetism

Pre-Feasibility Report

Integrating potential field data with seismic, geochemistry and structural geology. Prepared for: Finding Petroleum

(1) Identify 5 major principles of relative dating? For each principle, describe how you tell what is younger and what is older.

Supplementary Material for Eighty million years of folding migration: new perspective on the Syrian Arc from Levant basin analysis

Research cruise of the R/V Italica in the Ross Sea: The +.th Italian Antarctic Research Expedition (ANTA32/33)

Glacigenic features and Tertiary stratigraphy of the Magellan Strait (Southern Chile)

Copyright McGraw-Hill Education. All rights reserved. No reproduction or distribution without the prior written consent of McGraw-Hill Education

Structure of the Offshore Sinu Accretionary Wedge. Northern Colombia

Introduction to sequence stratigraphy and its application to reservoir geology

A.K. Khanna*, A.K. Verma, R.Dasgupta, & B.R.Bharali, Oil India Limited, Duliajan.

: Morondava Basin, Offshore Madagascar New Long Offset Seismic Data highlights the Petroleum Prospectivity of this Emerging Frontier Basin.

FINAL EXAM Crustal Deformation CONVERGE DIVERGENT PLATES MANTLE PLUMES FLUX BASALTIC GRANITIC

Transcription:

DATA REPOSITORY ITEM Ghiglione (2008) - Page 1 Data repository item 1: Methods and data sources Airborne Magnetic Data Aeromagnetic data have been acquired by Sanders Geophysics Limited for the Servicio Geológico Minero de Argentina (SEGEMAR, 1998). The survey design was based on 0.5 km line spacing on land and 2 km offshore, with lines oriented N- S and with orthogonal tie lines 4 km apart. The flight clearance was 120 m. The magnetic anomalies have been re-calculated using the Definite Geomagnetic Reference Field (DRGF) for the time of the survey, January 1998. A minimum curvature algorithm was used for gridding at 0.1 km spacing using Geosoft Oasis Montaj in the area displayed on figure 5. The initial magnetic image exhibited a remaining nearly N-S trend that was removed. The resulting grid was expanded about 25 km from each border to minimize edge effects and ringing problems when using the digital Fourier transform. The reduction to the pole filter (Blakely, 1995) was applied in the wave number domain, via Fast Fourier Transform. Multichannel Seismic Reflection Profiles Profile TM-08 was acquired in the frame of the TESAC project (Italian Programma Nazionale di Ricerche in Antartide PNRA) on October 1999. The seismic processing applied to the data was carried out at the Istituto Nazionale di Oceanografia e di Geofisica Sperimentale (OGS) by Geletti (2001). Alternative geological interpretations of this seismic profile can be found in Yagupsky (2003) and Tassone et al. (2008).

DR2008154 DATA REPOSITORY ITEM Ghiglione (2008) - Page 2 Punta Cormorán Policarpo Paraconformity REFERENCES San Diego Cape Thrust-fault Strike-slip fault Normal fault Le a M ire it ra St Syncline Anticline Tertiary Aguirre Bay Valentín Bay ISLA DE LOS ESTADOS 20km Sloggett Bay A 66º30 W Late Cretaceous Early Cretaceous Late Jurassic Tobífera Form. 66º00 W 65º30 W 65º00 W B C Figure DR1. Geological and geophysical information from Tierra del Fuego. The tree figures have the same scale and the same georeferenced coast line in continuos red line. A: Geological map of Peninsula Mitre. Stratigraphy and age are from Furque and Camacho (1949), Malumian and Olivero (1989), Olivero et al. (2002, 2003) and Ghiglione and Ramos (2005). For map location, see Figure 3. B: Total Magnetic Intensity (TMI) map from airborne magnetic survey (SEGEMAR, 1998). C: Total Magnetic Intensity Reduced to Pole (TMI/RTP) map processed from B. FIGURE DR 1

DATA REPOSITORY ITEM Ghiglione (2008) - Page 3 SSE NNW late Paleoceneearly Eocene sequences 2 m 3 m A Policarpo Paraconformity Maastrichtian-Danian Policarpo Formation B basal Middle Eocene Río Bueno Formation Figure DR2. A: Wedge-shaped late Paleocene-early Eocene sequences at Noguera Point. See Figure 4B for location. B: Policarpo Paraconformtity between the basal middle Eocene Río Bueno Formation to the left (north) and the maastrichtian - danian Policarpo Formation to the right (south) in Punta Cormorán. The hiatus represents at least 11 Ma. See Figures 3 and DR1A for location. Stratigraphy and age are from Furque and Camacho (1949), Malumian and Olivero, (1989) and Olivero et al. (2002, 2003). FIGURE DR 2

DATA REPOSITORY ITEM Ghiglione (2008) - Page 4 Figure DR3. A: Extensional faults at Punta Noguera. Cliff height is about 40 m. See Figure 4B for location. Stratigraphy and age are from Furque and Camacho (1949), Malumian and Olivero, (1989) and Olivero et al. (2002, 2003). FIGURE DR 3

FIGURE DR 4 A E B 10 m N synrift Fig. 3 Photo seam S Río Bueno basal carbonates C N Photo seam synrift W Figs. DR4B, C Río Bueno Unconformity Figure DR4. A: Late Paleocene-early Eocene synrift sequences at Leticia River outlet. At least two main synsedimentary normal faults can be recognized. The carbonatic Río Bueno Formation (basal middle Eocene) is unconformably covering the early Eocene normal faults. See Figure 4B for location. B, C: Rotational onlap of synrift sequences from Fig. DR4A, in concordance with a N-NW deeping rotational normal fault active during sedimentation as shown in Fig. 4C. Stratigraphy and age are from Furque and Camacho (1949), Malumian and Olivero, (1989) and Olivero et al. (2002, 2003). S DATA REPOSITORY ITEM Ghiglione (2008) - Page 5

DATA REPOSITORY ITEM Ghiglione (2008) - Page 6 Data repository item references Blakely, R.J., 1995, Potential Theory in Gravity and Magnetic Applications: Cambridge University Press, 424 pp. Lodolo, E., Menichetti, M., Bartole, R., Ben-Avraham, Z., Tassone, A., Lippai, H., 2003, Magallanes Fagnano continental transform fault Tierra del Fuego, Southernmost South America: Tectonics, vol. 22, p. 1076. Furque, G., Camacho, H.H., 1949, El Cretácico superior de la costa Atlántica de Tierra del Fuego: Revista de la Asociación Geológica Argentina, vol. 4, p. 263-297. Geletti, R, 2001, Elaborazione delle linee sismiche multicanale acquisite nella campagna TESAC 1999: Istituto Nazionale di Oceanografia e di Geofisica Sperimentale Openfile Report 90GS/11GDL. Malumián, N., Olivero, E.B., 1998, La Formación Río Bueno, relaciones estratigráficas y edad, Eoceno inferior, Isla Grande de Tierra del Fuego, Argentina: X Congreso Latinoamericano de Geologóa, Buenos Aires, p. 120-124. Olivero, E.B., Malumian, N., Palamarczuk, S., 2003. Stratigraphy of the Upper Cretaceous-Paleocene from Thetis Bay, Fuegian Andes, Argentina: tectonic and paleobiologic events: Revista Geológica de Chile, vol. 30, p. 245-263. Olivero, E.B., Malumian, N., Palamarczuk, S., Scasso, R.A., 2002, El Cretácico superior-paleogeno del área del Río Bueno, costa atlántica de la Isla Grande de Tierra del Fuego: Revista de la Asociación Geológica Argentina, vol. 57, p. 199-218. SEGEMAR. 1998. Levantamiento geofísico aéreo: Magnetometría aérea de Tierra del Fuego, Proyecto Pasma. Hojas 5566-1 and 5566-2. Buenos Aires. Tassone, A., Lodolo, E., Menichetti, M., Yagupsky, D., Caffau, M. and Vilas, J.F., 2008, Seismostratigraphic and structural setting of the Malvinas Basin and its southern margin (Tierra del Fuego Atlantic offshore): Geologica Acta, Vol.6, Nº 1, 55-67 Yagupsky D. L., 2003, Estudio sismoestratigráfico y estructural del sector meridional de las cuencas de Magallanes y Malvinas [Graduate thesis]: Buenos Aires, Universidad de Buenos Aires, 111 p.

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback