Accretion of Granite-Rhyolite Province (1.55-1.35 Ga ) resulting in the Nd line Terranes stitched together by the emplacement of anorogentic granites (1.48-1.35.

Slides:

Advertisements

Similar presentations

SPP 1257 Modelling of the Dynamic Earth from an Integrative Analysis of Potential Fields, Seismic Tomography and other Geophysical Data M. Kaban, A. Baranov.

Advertisements

Department of Industry and Resources Geological Survey of Western Australia Tectonic evolution and mineralization of the Australian Proterozoic Ian M.

Potential Field Interpretation of the Capricorn Orogen JAMES GOODWIN Worms, forward modelling and 3D inversion.

Fourier law Conservation of energy The geotherm

Problem 1 The corrections can be larger than the anomaly Stat.Time T Dist. (m) Elev. (m) Reading (dial units) Base reading at time T Drift corr’d anom.

Accretionary growth of Paleoproterozoic Fennoscandia: results from deep seismic experiments BABEL, FIRE and SVEKALAPKO Annakaisa Korja University of Helsinki.

Metamorphic core complexEarth *Geological context: syn to post-orogenic extension -interpreted as MCC for the first time in 1980 in the « Basin.

Mechanisms of crustal subsidence  Sedimentary basins  Isostasy  Basins due to stretching  Basins due to cooling  Basins due to convergence  Basins.

Selective Survival of Crust Paul Morgan Department of Geology Northern Arizona University Flagstaff, Arizona, USA Penrose Conference Lander, WY;

Earth’s Interior and Geophysical Properties Chapter 17.

Earth’s Interior and Geophysical Properties Physical Geology 11/e, Chapter 17.

Annihilators at Mars: Are there alternative but reasonable magnetization distributions in the Martian crust that explain the MGS magnetic field observations?

Ester Aranzana 13 de Enero de  Rock core (Fe-FeS)  No internal magnetic field, no dynamo action but it has one in the past mini-magnetospheres.

European Repeat Station Workshop Bucharest May 2007 UK repeat station programme Tom Shanahan and Susan Macmillan.

MT TA in region of cryptic accretion, cryptic rifting, potential superplumes and weak plumes in the cratonic core Adam Schultz in collaboration with Dhananjay.

The Geomagnetic Field Problem The mechanism for generating the geomagnetic field remains one of the central unsolved problems in geoscience. National (U.S.)

Chapter 17 Earth’s Interior and Geophysical Properties

Proterozoic Evolution of the Western Margin of the Wyoming Craton: Implications for the Tectonic and Magmatic Evolution of the Northern Rockies Southwest.

Global Distribution of Crustal Material Inferred by Seismology Nozomu Takeuchi (ERI, Univ of Tokyo) (1)Importance of Directional Measurements from geophysicists’

Transits and Starspots Jeremy Tregloan-Reed Ph.D. Research Student Supervisor: John Southworth.

Crustal-scale Deformation and Late Archean Terrane Suturing Keith Benn University of Ottawa Southeastern Superior Province Canada.

Validation Plot for the ECMWF Nino3.4 Forecast. Validation Plot for 2008 Forecast (All Cool ENSO composite) Modified Flow (cfs)

GG 450 April 15, 2008 Refraction Applications. While refraction is used for engineering studies such as depth to basement and depth to the water table,

Impacts of Climate Change on Physical Systems PPT

J. Ebbing & N. Holzrichter – University of Kiel Johannes Bouman – DGFI Munich Ronny Stolz – IPHT Jena SPP Dynamic EarthPotsdam, 03/04 July 2014 Swarm &

Heat flow and heat production in the Canadian Shield Jean-Claude Mareschal, GEOTOP-UQAM-McGill, with a little help from my friends… Claude Jaupart, Clement.

Walter D. Mooney, Ph.D. US Geological Survey Menlo Park, California USA Lecture #10: Lithosphere of Young Mountain Belts IPRCC and SINOPROBE.

Influence of Magma on Rift Evolution: A Modeler’s Perspective Mark D. Behn Department of Geology & Geophysics, Woods Hole Oceanographic Institution Roger.

David Foster - University of Florida Paul Mueller - University of Florida David Mogk - Montana State University David Foster - University of Florida Paul.

GOCE OBSERVATIONS FOR DETECTING UNKNOWN TECTONIC FEATURES BRAITENBERG C. (1), MARIANI P. (1), REGUZZONI M. (2), USSAMI N. (3) (1)Department of Geosciences,

Integrated and Comparative Geophysical Studies of Crustal Structure of Pull-apart Basins: The Salton Trough and Death Valley, California Regions.

California Geologic History Part I: Pre-San Andreas Fault System.

Geophysics/Tectonics Brief Review of the Universe GLY 325.

GP33A-06 / Fall AGU Meeting, San Francisco, December 2004 Magnetic signals generated by the ocean circulation and their variability. Manoj,

Chronology of geomagnetic field reversals magnetic anomaly “number” Ocean floor age, millions of years (Ma), determined largely from deep sea drilling.

C.M. Rodrigue, 2014 Geography, CSULB Mars: First Order Landscapes Geography 441/541 S/14 Dr. Christine M. Rodrigue.

Anthony Piro (UCSB) Advisor: Lars Bildsten Burst Oscillations and Nonradial Modes of Neutron Stars Piro & Bildsten 2004, 2005a, 2005b, 2005c (submitted)

1 LARGE IGNEOUS PROVINCES: Results of Delamination? Don L. Anderson Caltech.

Grenville Iapetus Peri-Gondwanan Taconic/Acadian Atlantic Alleghanian

The CleverMag algorithm Get the maximum from geophysical data using a user-constrained oriented interpolation algorithm. 1.

Colloquium Prague, April, A Numerical Approach to Model the Accretion of Icelandic Crust Gabriele Marquart and Harro Schmeling.

Low-altitude magnetic field measurements by MESSENGER reveal Mercury’s ancient crustal field Catherine Johnson et al

“ ” “ ” “ ” Christman, et al., 2009 “ ”

Characterizing the magnetic fields of Mars: What do the tell us about the history of Mars? Michael Purucker, Raytheon Planetary Geodyn. Laboratory,

GEO 5/6690 Geodynamics 24 Oct 2014 © A.R. Lowry 2014 Read for Wed 29 Oct: T&S Last Time: Brittle-field rheology The “Seismogenic Zone” is observed.

New bathymetric data (Marion Dufresne July 2008).

Adding “Time” to the Earthscope Image: Petrologic Analysis, Structural Analysis, and Monazite Geochronology of the Proterozoic Crust M. Williams, M. Jercinovic,

Compare and Contrast.

Temperature in the Crust Lijuan He Institute of Geology and Geophysics, Chinese Academy of Sciences.

Applying Statistical Seismology to Image the Physical Properties of the Crust Egill Hauksson, Caltech, Pasadena, CA Presented at Statsei9 in Potsdam,

Geology 5660/6660 Applied Geophysics 30 Mar 2016

Gravity modeling as guidance for salt interpretation: a case study from the Western Gulf of Mexico Irina Filina* (formerly at Hess Corporation, currently.

Simon C.O. Glover, Ralf Klessen

New interpretation of the old ∆z magnetic anomaly map of hungary

Estimating susceptibility and magnetization within the Earth’s terrestrial crust Michael Purucker (SGT at GSFC/NASA, USA) and Suzanne McEnroe (NTNU, Norway)

Goals (and conclusions)

CCFS-Macquarie University, University of WA, Geological Survey WA

Global crustal models for magnetic applications

Hire Toyota Innova in Delhi for Outstation Tour

Tips Need to Consider When Organizing a College Event

Archean continental terranes commonly have deep keels, but the whole upper mantle of western North America shows very slow seismic velocities.

ماجستير إدارة المعارض من بريطانيا

Validation Plot for the ECMWF Nino3.4 Forecast

Rock Forming Mineral Granite Basalt Grains Texture

USArray and the Great Plains

Chapter 11.3b Mountain Formation.

Phil Thurston Laurentian University

Fig. 2 Marine magnetic map of San Pablo Bay.

Presentation transcript:

Accretion of Granite-Rhyolite Province ( Ga ) resulting in the Nd line Terranes stitched together by the emplacement of anorogentic granites ( Ga) – generation of TIKL? Whitmeyer and Karlstrom, 2007

Long wavelength magnetization Change in magnetization aligns with Nd- line Warm colors  high susceptibility Cool colors  low susceptibility Short wavelength magnetic anomalies Do magnetic highs mark locations of intrusive events that modified the crust? Abrupt transition from high to low anomaly marks the TIKL Previous Geophysical Observations (Ravat, 2007 ) (Ravat et al., 2009) Full-spectrum magnetic anomaly map Depth integrated magnetic contrasts Warm colors  high susceptibility Cool colors  low susceptibility

Crustal modification

OIINK Crustal Thickness