Carla Braitenberg Department of Mathematics and Geosciences

Slides:

Advertisements

Similar presentations

The first 80% of the History of Venus?. Some Geological Conclusions from Magellan Analysis -Volcanism and tectonism are the most abundant geological processes.

Advertisements

THE THEORY OF PLATE TECTONICS. INTRODUCTION u Tectonics- large scale deformational features of the crust u Plate tectonics – Earth’s outer shell divided.

This is a computer model of the thermal structure of a subduction zone (convergence at 6 cm/year) showing how cool rocks of the slab pass to great depths,

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

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

The Earth’s Structure Seismology and the Earth’s Deep Interior The Earth’s Structure from Travel Times Spherically symmetric structure: PREM - Crustal.

Earth’s Interior and Geophysical Properties Chapter 17.

Lecture Outlines Physical Geology, 14/e Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Plummer, Carlson &

Bell Questions 9/21/11 1.What do the strips in the model you made yesterday represent? 2.What are two of the three causes of plate motion? 3.List the three.

4. Formation and Deformation of the Continental Crust

Proterozoic accretionary belts of the Amazonian Craton Umberto G. Cordani Institute of Geosciences University of Sao Paulo, Brazil.

PIVETTA T., BRAITENBERG C. Dipartimento di Geoscienze, Università di Trieste, Italy, THE LITHOSPHERE STRUCTURE BENEATH.

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

PLATE TECTONICS Last chapter in Davis and Reynolds.

Heintz et al lateral resolution : km km T > 40s, long paths T > 15s, shorter paths Surface-wave tomography studies: Vs at 100.

CEE 437 Lecture 1 October 1, 2002 Thomas Doe. Outline Course Introduction Geology and Engineers Brief History of Geology Global Structure Plate Tectonics.

Thermal structure of continental lithosphere from heat flow and seismic constraints: Implications for upper mantle composition and geodynamic models Claire.

Announcements: Final Exam Monday, Dec. 16, 11-1 this room.

CIDER 2011 Research Discussion 1 MULTIDISCIPLINARY.

(Chapter 10 in D & R) Geometry and Kinematics: Plates.

mountains, mountain building, & growth of continents

2) Super Continent cyclisity (?) and Wilson cycle tectonics

Plate Tectonics. Earth’s Lithospheric Crust Divided into large and small crustal plates Makes up the ocean floor and the continental land masses, along.

8 Plate Tectonics 8.1 What Is Plate Tectonics?

BEFORE PANGAEA EPSC 510 // PRESENTATION 1.

TPW unplugged: Absolute plate motions and true polar wander in the absence of hotspot tracks, 320 — 130 Ma Bernhard Steinberger In collaboration with Trond.

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

GLOBAL TOPOGRAPHY. CONTINENTAL & OCEANIC LITHOSPHERE.

Chapter 4. TTG & Genesis of the Early Continental Crust.

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,

The Lithosphere There term lithosphere is in a variety of ways. The most general use is as: The lithosphere is the upper region of the crust and mantle.

What can xenoliths tell us? Roberta L. Rudnick Geochemistry Laboratory Department of Geology University of Maryland Roberta L. Rudnick Geochemistry Laboratory.

Plate Tectonics Before Pangaea  Plate movements since the breakup of Pangaea is well understood, but tectonic movements prior to Pangaea is not as clear.

The India - Eurasia collision, Himalaya and the Tibetan plateau.

Gravity anomalies and flexure at the West Taiwan basin:

Daily Review #1 What happens in radioactive decay? Define half-life.

UNDER THE ALTIPLANO The xenolith sotry. QUESTIONS  When did it get thick and high?  How much magmatic versus thickening?  Mechanism of thickening 

Use of topography in the context of the GOCE satellite mission – some examples Moritz Rexer, Christian Hirt, Sten Claessens, Carla Braitenberg 5 th INTERNATIONAL.

GOCE GRADIENT TENSOR CHARACTERIZATION OF THE COUPLED PARANÁ (SOUTH AMERICA) AND ETENDEKA (AFRICA) MAGMATIC PROVINCES Patrizia Mariani and Carla Braitenberg.

Earth’s Layers G 103. General Information -Iron,Oxyge, Silicon, & Magnesium - Deepest drill 12 km -Radius of Earth 6371 km - How do we know about the.

8 Plate Tectonics 8.1 What Is Plate Tectonics?

Introduction to Plate Tectonics (Continental Drift)

Continental Drift Alfred Wegener proposed theory in 1912 that the continents had moved. All the continents were once one big continent and moved apart.

Crustal Features 8.9B relate plate tectonics to the formation of crustal features.

Geology 6600/7600 Signal Analysis 18 Nov 2015 Last time: Deconvolution in Flexural Isostasy Tharsis loading controversy: Surface loading by volcanic extrusives?

Plate Tectonics Sea-floor Spreading.

Instructions for using this template.

CHAPTER 2 Plate Tectonics and the Ocean Floor (I)

Lecture Outlines Physical Geology, 10/e

GLG101 Physical Geology Spring 2010 Thomas D. Hoisch

Theory of Plate Tectonics

Mountain Building “Tectonic Forces at Work”

Goals (and conclusions)

Nils Holzrichter, Jörg Ebbing

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

A sub-crustal piercing point for North Atlantic reconstructions and tectonic implications Randell Stephenson et al.

Lijuan He Institute of Geology and Geophysics, CAS, Beijing,

Science Highlights of the RCL Initiative

Lecture 7 Mapping the Ocean Floor Earth’s Internal Structure

Warm-Up: March 18, 2016 Write down everything you know about plate tectonics.

Length scale of heterogeneity

HISTORY OF THE CONTINENTS

Anisotropy layering in the craton

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

Moho line, Lithosphere, Aesthenosphere,

Continental Crust Objectives:

USArray and the Great Plains

Place these notes into your Geology Notebooks.

Presentation transcript:

Geological implications from complete Gondwana GOCE-products reconstructions Carla Braitenberg Department of Mathematics and Geosciences University of Trieste (Italy)

Contents Continent wide Earth exploration with GOCE gravity Positive gravity anomalies to identify crustal densification Cratons and deep mantle control of tectonic activity Gondwana reconstructions of mantle tomography and GOCE gravity

Data and tools GOCE gravity and gradients – TIM R5 (Pail et al 2011) GUT: GOCE User Toolbox Global topo-reduction available in SH (e.g. Hirt et al., 2012) Seismic tomography of the mantle (Simmons et al., 2012). Already demonstrated: Resolution and precision of GOCE adequate for geologic lineaments (Alvarez et al.,2014 Tectonophysics; Braitenberg et al., 2014 IAG Symposia; 2014 J. Applied Geoinformatics)

Geologic units and gravity Identify Productive lineaments Geological Map GOCE Bouguer map Braitenberg, 2014

Crust densification - gravity highs Biunivocal relation between crustal densification and positive gravity anomaly Crustal scale geodynamic event lead to increased density: Magmatism Metamorphism Crustal scale positive gravity anomaly observed

Example Crustal scale geodynamic event (e.g. Ediacaran 2500km extension) with Ultra High Pressure Metamorphism is claimed from interpolation of single rock samples No gravity signal observed: interpolation must be questioned Gravity signal is observed: Interpolation strongly supported Ganade de Araujo et al., 2014, Nature Comunications

Cratons are stable platforms Oldest basement with ages between Archean (3.8-2.5 Ga) and Mesoproterozoic (1.6-1.0Ga) define Cratons Identify craton: age > 1Ga. Not affected by younger tectonic events. Underlain by relatively high velocity to great depths (300km) Flexure studies: high flexural rigidity Density: probably decreased with respect to younger lithosphere (Artemieva, 2009)

Basement age of the continental crust Mooney, 2009.

Increased velocity stacked and averaged layers 185km-355km

Hypothesis testing Gravity or gradient from GOCE has been demonstrated to distinguish crustal scale events that produced magmatic alteration or metamorphism Cratons stable, least effected by events -> gravity and gradient should positively correlate with craton outlines -> gravity should anticorrelate with mantle velocities -> gravity should be subdued over cratons

Gondwana reconstruction Assemble cratonic units to form Gondwana Rotations based on paleomagnetic observations on continent, ocean spreading reconstructions We refer to models of Torsvik et al., 2009 Hypothesis: continental fragments can be rotated together with mantle to a depth of 350 km. This is certainly valid for cratons. Rotate gravity field and seismic tomography models

Gondwana assemblement Vp variations averaged 185 to 355km depth

GOCE FA residual with Vp 185 to 355km depth Isolines: 0.8 B, 1 Y, 1.2 Gr, 1.3 W, 1.6 B % average variation Vp

GOCE FA Res variations with deep Vp anomalies Isolines: 0.5 Br, 1.2 Y, 1.3 W % average variation Vp

GOCE FA Res variations with deep Vp anomalies Isolines: 0.5 Br, 1 Y, 1.2 W, 2 Gr % average variation Vp

GOCE FA Res variations with deep Vp anomalies Isolines: 1.2 Y, 1.3 W, 1.6 Gr % average variation Vp

Observational Results 1/2 Cratons defined from rock age maps correlate to increased velocity up to 355 km or more. Average increase up to 2% lateral increase with respect to depth average Outlines of cratons defined by increased velocity, e.g. 0.5% outline, downscale gravity values largely. North America: negative gravity modelled from Vs variations (Forte et al., 2010)

Observational Result 2/2 Absence of high velocity root coincides with increased gravity, defined by 0.5% isoline, partially SAM-AFR conjugate passive margins with magmatism or underplating Andean orogen Exception to rule: Zimbabwe Greenstone belt – gravity high crosses high velocity root

Conjecture on magmatic events Border of high velocity lithosphere roots appear as gravity highs due to metamorphic events and magmatism Cratons with lithosphere roots have little large scale positive gravity lineaments due to stability through Earth history Exception: event that is older than craton consolidation. Older events, unique to early Earth evolution Greenstone belts

Discussion It seems: Cratons focus deformation, magmatism, subduction, rifting, along the borders Possible cause: mantle flow- cratonic roots channeling (Tirone et al., 2009,G3) Could be first order physical process conditioning crustal evolution.

Conclusion Correlation found: often the positive gravity variations positioned outboard of deep lithosphere roots Cratons have preferentially low gravity Before GOCE this study was not possible due to lack of resolution and precision of global fields. Possibly demonstrates conditioning of mantle flow through cratonic root.

Thank you for the attention!