There are Mantle Plumes originating from the CMB!.

Slides:

Advertisements

Similar presentations

Lithospheric Plates The lithosphere can be defined thermally by an isotherm at the base of the lithosphere which should be around 1350 o C. Mantle rocks.

Advertisements

Earth Science 10.1 Volcanoes and Plate Tectonics

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.

The main physical features of the Earth. 1 Atlantic Ocean Indian Ocean Pacific Ocean Southern Ocean North America South America Africa Europe Asia Oceania.

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

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

Plate tectonics: Earth structure and plate geometry I Important: This chapter follows mainly on chapter 2 in Fowler’s textbook. Plate tectonics - a theory.

Shake, Rattle, and Roll the Earth

Have plumes been detected seismologically? Maeve O’Shea University of Durham October 2004.

Predicting Global Perovskite to Post-Perovskite Phase Boundary Don Helmberger, Daoyuan Sun, Xiaodong Song, Steve Grand, Sidio Ni, and Mike Gurnis.

Seismological Tests (and Implications) of Post-Perovskite Presence in the Deep Mantle In collaboration with Ed Garnero, Alex Hutko John Hernlund In collaboration.

Lecture-10 1 Lecture #10- Subduction Zones. Lecture-10 2 Subduction Zones F When two tectonic plates converge often one will get buried or subducted beneath.

Plate Tectonics. What is Plate Tectonics? According to the plate tectonics theory, the uppermost mantle, along with the overlying crust, behaves as a.

Chapter 17 Earth’s Interior and Geophysical Properties

Seismic Profiles of Earth’s Interior

3D seismic imaging of the earth’s mantle Barbara Romanowicz Department of Earth and Planetary Science U.C. Berkeley.

Dynamic Earth Class February 2006.

Computer Aided Tomography Tomos: cut (Gr.) Extensively used to find 3D structure from surface measurements (X-ray, sound, seismic waves)

Seismic evidence for present- day plume upwelling at the core-mantle boundary Sebastian Rost Edward J. Garnero Quentin Williams Michael Manga University.

Earth Science Regents Review

Mount Erebus(photo NASA) The role of mantle plumes in the Earth's heat budget Chapman Conference, August 2005 Guust Nolet With thanks to: Raffaella Montelli.

Structure and dynamics of earth’s lower mantle Edward J. Garnero and Allen K. McNamara Presented by: David de Vlieg Folkert van Straaten.

Understanding Earth Fifth Edition Chapter 14: EXPLORING EARTH’S INTERIOR Copyright © 2007 by W. H. Freeman and Company Grotzinger Jordan Press Siever.

Dynamic Earth Topics: -Earth’s Interior -Continental Drift -Seafloor spreading -Plate Tectonics -Earthquakes & Epicenters.

Introduction to Volcanoes! 8SCIENCE ECUADOR PASTO INDONESIA MEXICO COSTA RICA.

Chapter 12 Earth’s Interior

Large Low Shear Velocity Provinces in the lowermost mantle, and Plume Generation Zones at their margins Bernhard Steinberger Collaborators: Kevin Burke.

By Mildred $100 Page 5Page 10Page 11Tectonics 1Tectonics 2 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400.

Geological data, geophysics and modelling of the mantle Yanick Ricard & Joerg Schmalzl " Geophysical observations; Introduction " Geochemical measurements.

Chapter 8 Volcanoes Section 1, Why Volcanoes Form

Seismological observations Earth’s deep interior, and their geodynamical and mineral physical interpretation Arwen Deuss, Jennifer Andrews University of.

Section 19.2– Seismic Waves and the Earth’s Interior

G. Marquart Gravity Effect of Plumes Geodynamik Workshop, Hamburg, Modeling Gravity Anomalies Caused by Mantle Plumes Gabriele Marquart Mantle.

Why do migrating TJs suddenly start erupting large volumes of MORB?

Global seismic tomography and its CIDER applications Adam M. Dziewonski KITP, July 14, 2008.

Earthquakes and the Interior  Earthquakes are definitely a geologic hazard for people living in earthquake regions, but the seismic waves generated by.

Seismological studies on mantle upwelling in NE Japan: Implications for the genesis of arc magmas Junichi Nakajima & Akira Hasegawa Research Center for.

EVIDENCE THAT RIDGES ARE FED FROM THE TRANSITION ZONE BUT NOT AS CONTINUOUS UPWELLING SHEETS. WHEN A TZ UPWELLING COMES UP DIRECTLY UNDER A RIDGE IT IS.

Vocabulary Review Resource. Study Buddy Cards This page is where your study buddy cards will be placed. Study buddy cards are for you and a friend or.

The Galapagos Hotspot: A plate vs plume controversy

Hindsight Heresy. Examples of “Hindsight Heresy” in which a hypothesis is constructed after looking at a data set, and then using the same data to support.

Chapter 12: Earth’s Interior

Constraints on the observation of mantle plumes using global seismology Arwen Deuss University of Cambridge, UK.

1/24/09 Updated 12/23/09 What about Hawaii? Don L. Anderson.

EXPLORING EARTH’S INTERIOR Chapter 14. Seismic rays are refracted away from the normal as they penetrate the earth, which causes them to bend, because.

Section 1: Volcanoes and Plate Tectonics

What the Hell is Hawaii? George Baker Louis Dyer Timothy Emkes Matthew Haythornthwaite Cameron Lalley Devon Platt William Priest Alistair Stewart (Foulger,

Structure of Earth as imaged by seismic waves

VOLCANOES & IGNEOUS ACTIVITY CHAPTER 10. Section 10.1.

Plate Tectonics Earth Science Chapter 9. Continental Drift  scientific theory proposing the slow, steady movement of Earth’s continents  Alfred Wegener:

TEMPERATURE  The deeper you go, the hotter it gets. & Celsius 4,000° C 4,000 km 2,000 km & kilometers 5,000° C 6,000 km F F mi.

Seismic Waves Surface Waves Seismic Waves are shock waves given off by earthquakes. There are 2 types: 1. Body Waves originate from the focus (F) travel.

Lecture Outlines Physical Geology, 12/e Plummer & Carlson Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

Chapter 9 Plate Boundaries.

The slowing factor s is 4, and the correlation includes all 12 harmonic degrees.

Please label the following layers..

EXPLORING EARTH’S INTERIOR

Chapter 8 Volcanoes Section 1, Why Volcanoes Form

Lithosphere Delamination and Small-Scale Convection Beneath California Imaged with High Resolution Rayleigh Wave Tomography Donald W. Forsyth and Yingjie.

effects of volcanic activity

Quiz #3 Due Wednesday before Midnight

Crust and mantle are solid rock not liquid

Geology – the study of the Earth and its processes

The Big Crack Up!.

Geology – the study of the Earth and its processes

Geology – the study of the Earth and its processes

Geology – the study of the Earth and its processes

5% of all known volcanoes in the world are not located close to a plate margin. These are known as intraplate volcanoes and occur as a result of mantle.

INSIDE EARTH: CHAPTER 3- VOLCANOES

Presentation transcript:

There are Mantle Plumes originating from the CMB!

Higher temperatures than surrounding mantle material Topographic swells Volcanism with different isotopic signatures than those observed at mid- ocean ridges

Higher temperatures of the rising plume material should lead to a reduction of the velocity of seismic waves. Plumes should be visible as columnar low-velocity anomalies. Rost et al. 2005

1. Mantle Tomography Montelli et al. 2004: Finite-Frequency Tomography Reveals a Variety of Plumes in the Mantle; Science, vol. 303, Finite-frequency tomography –Using of short period and long period P-wave data –Calculation of the fractional perturbation of the compressional velocity

Vertical average of the P velocity anomaly for the lowest part of the mantle ( km depth) Montelli et al. 2004

All anomalies are present between 2800 and 1800 km. 1.There are low velocity zones corresponding to hot spots at the earth surface 2.There are low velocity zones which are not corresponding to hot spots at the earth surface. Montelli et al. 2004

Azores and Canary are separated plumes down to 1450 km. They merge together, bend in eastward direction and reach the CMB at 30 o N and 10 o W Farther south, the Cape Verde plume joins this superplume at 1900 km depth.

Ascension and St. Helena merge at about 1000 km depth. Montelli et al. 2004

The images of Tahiti and Samoa plumes also show low velocity anomalies down to large depth in the mantle (2800 km). Cook island merges with Tahiti at about 1450 km depth. Montelli et al. 2004

The associated anomaly that corresponds with the Hawaii plume is somewhat surprising. Expectation: –should go down to the CMB but this is not the case Because: –Due to the distance of Hawaii from the circum-Pacific seismicity. –Seismic rays from the Tonga subduction zone to North American stations pass southeast of the suspected plume location near the CMB –In this case only a very wide plume would be resolved (radius >300 km). –In a separate calculation using only low-frequency data (sense a wider region around the ray – Hawaii plume extends down to the CMB

Montelli et al. 2004

Ascension, Azores, Canary, Easter, Samoa and Tahiti hotspots all have well-resolved deep-roots near the CMB

Garnero, E. J. (2004): GEOPHYSICS: A New Paradigm for Earth's Core- Mantle Boundary; Science, Vol no. 5672, pp Rost, S., Garnero, E. J., Williams, Q., & Manga, M. (2005): Seismological constraints on a possible plume root at the core−mantle boundary; Nature 435, Strong Anisotropy regions in the D”-layer below or close to hot spot locations

Large T and ρ contrasts Discontinuous increase in wave velocity (particular S-waves) along the D”-layer in several region of the earth (Central America) – associated with subduction zones In other regions strong reduction of velocity near the top of D” were observed (South Atlantic) Magnitude and sign of the velocity discontinuity may act as an information for the degree of partial melting in the D”-layer. Ritter 1999

Central America: –the deepest mantle contains a high-velocity D'' reflector –scatters of pockets of ultralow velocities and strong anisotropy. Central Pacific (D” underlies surface hotspot volcanism): –D'' anisotropy and ultralow-velocity zones (possible plume genesis) South Atlantic and southern Africa: –a large-scale low-velocity structure with sharp edges extends upward into the lower mantle 2. Strong Anisotropy regions in the D”-layer below or close to hot spot locations Garnero et al. 2004

2. Strong Anisotropy regions in the D”-layer below or close to hot spot locations Observation of strong Anisotropy regions in the D”- layer below or close to hot spot locations. Regions with decrease in wave velocity – hotter than those regions with higher velocity Those “hot” regions seems to be elevated with respect to the colder regions Rost et al. 2005

Discontinuous reflectors Vertical boundaries between low velocity structures and neighboring mantle –Beneath southern Africa features extending up to 1000 km above the CMB Garnero 2006 IRIS 5-year Proposal

These features may be related to ultra low velocity zones exhibiting partial melt of the lower mantle. These melt bubbles may become instable an could rise upward through the mantle. Montelli et al. 2004

Regions of ULVZ material below plumes could be partly molten material and thus the root of plumes originating from the CMB. Example central Pacific: –Strong wave velocity anisotropy at the D” (Fouch et al. 2001) –strong lateral and depth variation in the D” anisotropy distribution –Especially beneath Hawaii

Shallow Mantle Plumes Montelli et al. 2004