Major tectonic systems operating during the past 200 My

Slides:

Advertisements

Similar presentations

Theory of Plate Tectonics

Advertisements

Plate Tectonics Earth layers History of plate tectonics Plate movement and margins Passive margins, spreading margins, and the Ring of Fire Ocean floor.

Types of plate boundaries

Continental Drift.

Plate Tectonics Chapter 2. Scientific Method 1. Observation (fact) –This is a repeatable measurement or experiment 2. Hypothesis –One or more possible.

Plate Tectonics and the Ocean Floor.

Latest Precambrian / Early Paleozoic Supercontinent Rodinia, centered about the south pole, breaks apart. North America (Laurentia), Baltica, and Siberia.

Plate techtonics and ocean bathymetry. Historical context Alfred Wegener first suggested in 1915 that continents can move over time. *Based on visual.

03.05.a1 Ocean-Ocean Convergent Boundary One plate moves down = subduction Two oceanic plates move toward one another Trench and island arc.

PLATE TECTONICS. The theory is that the earth’s surface is covered by a number of relatively thin plates which move over the material below. Plate Tectonics.

Mountain building & the evolution of continents

 Dispersion of the Gondwana continents  Closing of Tethys Ocean  Pacific System: rimmed by subduction zones East Pacific Rise moving towards the Americas.

Development of Continental Drift Frank Taylor (1910) Alfred Wegener (1912) Die Entstehung Der Kontinente Und Ozeane.

Plate tectonics: The Key to understanding mountain formation.

Lesson 14: Plate Tectonics II Geological Oceanography.

8 Plate Tectonics 8.1 What Is Plate Tectonics?

Lecture 4 Outline: Plate Tectonics – Mechanisms and Margins Learning Objectives: What are the types of plate boundaries? What processes occur at different.

Chapter 20 Mountain Building and the Evolution of Continents

Global distribution of heat text. Spectra of incoming vs. outgoing radiation text.

Tectonic boundaries and hot spots. A useful reference dynamicearth/sitemap.html

Plate Tectonics and Western North America. Magnetic Stripes off Pacific Coast.

UpdatedCreated by C. Ippolito April 2009 Plate Tectonics theory that describes the formation, movement, and interactions of lithosphere sections that move.

EVOLUTION/HISTORY OF THE CONTINENTS Chapter 10. Spreading center (divergent boundary) Subduction margin (convergent boundary) Transform fault Island arc.

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

Pacific Northwest Geology. Northwest Geology Starting points We’re interpreting events & conditions in the past using available evidence – the rock record.

Plate Tectonics. accepted by the vast majority of scientists accepted by the vast majority of scientists Earth’s interior is made up of two layers: the.

Plate Tectonics. Objectives 1. Know the different tectonic plates 2. Understand how the tectonic plates move 3. Understand what happens at the different.

Plate Tectonics Wrap-Up

Continental Drift and Plate Tectonics. Global Problems in Geology Distribution of Continents Mid-ocean Ridges Trenches Orogenic Belts Deformation Metamorphism.

Supercontinent cyclisity?

SGES 1302 INTRODUCTION TO EARTH SYSTEM

+ Plate Tectonics. + Aim & Learning Target Aim: How can we describe what causes the movement of the plates? Learning Target: I can describe what causes.

GEO-4840 TECTONICS-S05 PART 1: LECTURES [ Wed (16) ] 19/1 - 09/3 PART 2: STUDENT PROJECTS [ Presentations ] 13/4 PART 3: FIELD TEACHING [ Corsica.

READING ASSIGNMENTS - Revised 26 Oct., 2003

Plate Tectonics Mountain building process Where is the process found?  The converging/destructive plate margin  oceanic crust vis-à-vis oceanic crust.

How are oceans formed? Continents and ocean basins exist on lithospheric plates that move relative to each Other. Between their margins, new land is always.

The Earth’s Oceans and Plate Tectonics Oceanography Unit #1.

Plate Tectonics Notes Notes

Essay Question Outline (any blue Underline words are links please click on them to discover or review) Plate Tectonics Isostasy Continental Drift Sea.

The Problem with Continental Drift While Wegener was able to find evidence of continental drift, there were 2 major problems with his ideas: – Wegener.

Divergent Boundaries (aka constructive boundaries) Rising convection currents force 2 plates apart Release of pressure on asthenosphere causes it to.

PLATE TECTONICS A Summary & Review GEOL 1033 Lecture ppt file ) (Lesson 21)

Plate Tectonics Plate Boundaries Causes of Plate Tectonics.

Continental Drift and Plate Tectonics

PLATE TECTONICS THE DIFFERENT TYPES OF PLATE BOUNDARIES.

Plate Tectonics. Plate Boundaries Causes of Plate Tectonics.

+ Unit 4: Lesson 2: Theory of Plate Tectonics. + REVIEW What layer of the Earth is broken into tectonic plates? What layer of the Earth has convection.

CHAPTER 9 PLATE TECTONICS.

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

8 Plate Tectonics 8.1 What Is Plate Tectonics?

Plate Tectonics and Landforms

Continental Margins. Most People’s Impression  Ocean is a big, bathtub-like basin.  Shallowest on edges, deepest in middle.  Not at all true!

Chapter 9 Plate Boundaries.

Geological Oceanography Plate Tectonics Part 2. Plate Tectonics How do we know that there are plates and that they move? –Earth’s lithosphere is broken.

Plate Tectonics Chapter 9. Theory of Plate Tectonics Plate Tectonics Plate Boundaries Causes of Plate Tectonics.

PHYSICAL GEOLOGY OF CANADA. Introduction to Plate Tectonics.

continental drift review

Plate Tectonics Movement of the Crust.

Plate Tectonics and Seafloor Spreading

9-3 Theory of Plate Tectonics

HISTORY OF THE CONTINENTS

Plate Tectonics.

Plate Tectonics II Geological Oceanography

Plate Interactions How do tectonic plates interact with one another?

9.3 Actions at Plate Boundaries

Lesson 14: Plate Tectonics II Geological Oceanography

Development of Continental Drift

Plate Tectonics II Geological Oceanography

Plate Tectonics & Major Geological Events

Presentation transcript:

Major tectonic systems operating during the past 200 My I. Fragmentation of the Gondwana super-continent Creation of new Oceans Atlantic Indian circum-Antarctic formation of passive margins Closing of Tethys Ocean: complex Mediterranean – Middle East interactions major continental collisions in central Asia Australian-SE Asian collisions

# 18 42.7 Ma Middle Eocene Indian Pacific connection Drake Passage

#13 35.5 Ma Early Oligocene Indian Pacific connection Drake Passage

#6, 20.5 Ma Early Miocene Indian Pacific connection Drake Passage

Drake Passage Indian Pacific connection

circum-Antarctic Current Formation of Circum-Antarctic Current >> isolation of Antarctica >> formation of ice sheet circum-Antarctic Current

Formation of North Atlantic Deep water (thermo-haline convection system)

Formation of continental passive margins continental shelf

continental passive margins Sedimentation on subsiding continental shelf thinned continental crust oceanic crust

Major tectonic systems operating during the past 200 My I. Fragmentation of the Gondwana super-continent Creation of new Oceans Atlantic Indian circum-Antarctic formation of passive margins Closing of Tethys Ocean: complex Mediterranean – Middle East interactions major continental collisions in central Asia Australian-SE Asian collisions

Complex intra-continental Mediterranean-central Asian “plate boundary” Earthquake depth 0-33 km 33-70 70-300 300-700 Indonesian (Sunda-Banda) island arc

Topography for previous slide: note complex topography of Mediterranean-central Asian “plate boundary”.

India moving northwards

Himalayan evolution

Indention of India into Asia The named dashed and dotted lines represent boundaries between terranes successively accreted to Asia. The accretion increases in age to the north: Indus Tsangbo, 40 Ma Banggong,160 Ma Jinsha, 200 Ma Kunlun, 255 Ma Tienshan, late Paleozoic The indentation has moved these sutures northwards The dotted areas show the regions of shearing that accomodated the northward indentation of India

Tibetan plateau models

Region of theTibetan Plateau Ignore white rectangle. The blue line shows the approximate location of the section shown in the third slide after this one.

A recently published geological cross section See the section line (blue line) on the map shown in the third preceding slide. From Yin, A. and T.M. Harrison, 2000, Geologic Evolution of the Himalayan-Tibetan Orogen, Ann. Rev. Earth Planet. Sci., v.28, 211-280.

Central Asian active tectonics

Major tectonic systems operating during the past 200 My II. Pacific System East Pacific Rise (EPR) moving towards the Americas and away from Asia Hot spot tracks Rimmed by subduction zones Western Pacific Subducting old oceanic lithosphere Formation of back-arc basins and island arcs Eastern Pacific Subducting young oceanic lithosphere Andean type mountain building Collision and accretion of exotic terranes Collision of EPR with North America

East Pacific Rise

Major tectonic systems operating during the past 200 My II. Pacific System East Pacific Rise (EPR) moving towards the Americas and away from Asia Hot spot tracks Rimmed by subduction zones Western Pacific Subducting old oceanic lithosphere Formation of back-arc basins and island arcs Eastern Pacific Subducting young oceanic lithosphere Andean type mountain building Collision and accretion of exotic terranes Collision of EPR with North America

Northwestern Pacific Subduction zones: seismicity Ryukyu island arc Kurile-Kamchatka island arc Aleutian Island arc N. Honshu subduction zone Izu-Bonin-Marianas island arc Earthquake depth 0-33 km 33-70 70-300 300-700

Northwestern Pacific Subduction zones: bathymetry

Southwestern Pacific Subduction zones: seismicity New Britain Island arc Southwestern Pacific Subduction zones: seismicity Vanuatu island arc Tonga island arc Kermadec island arc Earthquake depth 0-33 km 33-70 70-300 300-700 New Zealand

Southwestern Pacific Subduction zones: bathymetry

Major tectonic systems operating during the past 200 My II. Pacific System East Pacific Rise (EPR) moving towards the Americas and away from Asia Hot spot tracks Rimmed by subduction zones Western Pacific Subducting old oceanic lithosphere Formation of back-arc basins and island arcs Eastern Pacific Subducting young oceanic lithosphere Andean type mountain building Collision and accretion of exotic terranes Collision of EPR with North America

Major tectonic systems operating during the past 200 My II. Pacific System East Pacific Rise (EPR) moving towards the Americas and away from Asia Rimmed by subduction zones Western Pacific Subducting old oceanic lithosphere Formation of back-arc basins and island arcs Eastern Pacific Subducting young oceanic lithosphere Andean type mountain building Collision and accretion of exotic terranes Collision of EPR with North America Hot spot tracks

Eastern Pacific

South American Plate Nazca Plate 8 cm/yr

Central Andes cross section South America Plate

Major tectonic systems operating during the past 200 My II. Pacific System East Pacific Rise (EPR) moving towards the Americas and away from Asia Rimmed by subduction zones Western Pacific Subducting old oceanic lithosphere Formation of back-arc basins and island arcs Hot spot tracks Eastern Pacific Subducting young oceanic lithosphere Andean type mountain building Collision and accretion of exotic terranes Collision of EPR with North America Continued in western_usa.ppt