Overview

The third edition of this widely acclaimed textbook provides a comprehensive introduction to all aspects of global tectonics, and includes major revisions to reflect the most significant recent advances in the field.
  • A fully revised third edition of this highly acclaimed text written by eminent authors including one of the pioneers of plate tectonic theory
  • Major revisions ...
See more details below
Global Tectonics

Available on NOOK devices and apps  
  • NOOK Devices
  • Samsung Galaxy Tab 4 NOOK 7.0
  • Samsung Galaxy Tab 4 NOOK 10.1
  • NOOK HD Tablet
  • NOOK HD+ Tablet
  • NOOK eReaders
  • NOOK Color
  • NOOK Tablet
  • Tablet/Phone
  • NOOK for Windows 8 Tablet
  • NOOK for iOS
  • NOOK for Android
  • NOOK Kids for iPad
  • PC/Mac
  • NOOK for Windows 8
  • NOOK for PC
  • NOOK for Mac
  • NOOK for Web

Want a NOOK? Explore Now

NOOK Book (eBook)
$64.99
BN.com price
(Save 42%)$113.95 List Price
Note: This NOOK Book can be purchased in bulk. Please email us for more information.

Overview

The third edition of this widely acclaimed textbook provides a comprehensive introduction to all aspects of global tectonics, and includes major revisions to reflect the most significant recent advances in the field.
  • A fully revised third edition of this highly acclaimed text written by eminent authors including one of the pioneers of plate tectonic theory
  • Major revisions to this new edition reflect the most significant recent advances in the field, including new and expanded chapters on Precambrian tectonics and the supercontinent cycle and the implications of plate tectonics for environmental change
  • Combines a historical approach with process science to provide a careful balance between geological and geophysical material in both continental and oceanic regimes
  • Dedicated website available at www.blackwellpublishing.com/kearey/
Read More Show Less

Editorial Reviews

From the Publisher
"Many readers will be familiar with this excellent textbook . . . The subject coverage is more comprehensive than in previous editions with many of the processes and concepts being illustrated with case studies drawn from the recent literature. " (Mar Geophys Res, 2009)

"A massive list of mostly critical references cites the most important works the world over." (CHOICE, November 2009)"An excellent in‑depth overview on one of the most revo­lutionary topics in the earth sciences. … Not only clear and comprehensive, but also pleasant to read. It is a highly recommended must‑have on the bookshelves of earth scien­tists for some time to come." (Geologos, December 2009)

"Global Tectonics will find its place in all well equipped libraries and a personal copy will be of use for any geoscientist who needs a comprehensive overview." (Surveys in Geophysics, September 2009)

"This textbook provides a comprehensive overview of the field of global tectonics. Because the field has changed significantly since the last edition was published, the majority of text and figures in the third edition are new." (Book News, September 2009)

Read More Show Less

Product Details

  • ISBN-13: 9781118688083
  • Publisher: Wiley
  • Publication date: 5/28/2013
  • Sold by: Barnes & Noble
  • Format: eBook
  • Edition number: 3
  • Pages: 496
  • File size: 18 MB
  • Note: This product may take a few minutes to download.

Meet the Author

Phil Kearey was Senior Lecturer in Applied Geophysics in the Department of Earth Sciences at Bristol University, U.K. prior to his premature death in 2003. In his research he used various types of geophysical data, but gravity and magnetic data in particular, to elucidate crustal structure in the eastern Caribbean, Canadian shield and southern England.

Keith Klepeis is a Professor in the Department of Geology at the University of Vermont, U.S.A. He specializes in the areas of structural geology and continental tectonics and has worked extensively on the evolution of orogenic belts and fault systems in New Zealand, Patagonia, West Antarctica, Australia, British Columbia and southeast Alaska.

Fred Vine is an Emeritus Professor in the School of Environmental Sciences at the University of East Anglia, Norwich, U.K. He was made a Fellow of the Royal Society of London and has received numerous awards for work on the interpretation of oceanic magnetic anomalies and ophiolites, fragments of oceanic crust thrust up on land, in terms of sea floor spreading.

Read More Show Less

Table of Contents

Preface.

Acknowledgments.

1. Historical perspective.

1.1 Continental drift.

1.2 Sea floor spreading and the birth of plate tectonics.

1.3 Geosynclinal theory.

1.4 Impact of plate tectonics.

2. The interior of the Earth.

2.1 Earthquake seismology.

2.1.1 Introduction.

2.1.2 Earthquake descriptors.

2.1.3 Seismic waves.

2.1.4 Earthquake location.

2.1.5 Mechanism of earthquakes.

2.1.6 Focal mechanism solutions of earthquakes.

2.1.7 Ambiguity in focal mechanism solutions.

2.1.8 Seismic tomography.

2.2 Velocity structure of the Earth.

2.3 Composition of the Earth.

2.4 The crust.

2.4.1 The continental crust.

2.4.2 Upper continental crust.

2.4.3 Middle and lower continental crust.

2.4.4 The oceanic crust.

2.4.5 Oceanic layer 1.

2.4.6 Oceanic layer 2.

2.4.7 Oceanic layer 3.

2.5 Ophiolites.

2.6 Metamorphism of oceanic crust.

2.7 Differences between continental and oceanic crust.

2.8 The mantle.

2.8.1 Introduction.

2.8.2 Seismic structure of the mantle.

2.8.3 Mantle composition.

2.8.4 The mantle low velocity zone.

2.8.5 The mantle transition zone.

2.8.6 The lower mantle.

2.9 The core.

2.10 Rheology of the crust and mantle.

2.10.1 Introduction.

2.10.2 Brittle deformation.

2.10.3 Ductile deformation.

2.10.4 Lithospheric strength profiles,.

2.10.5 Measuring continental deformation.

2.10.6 Deformation in the mantle.

2.11 Isostasy.

2.11.1 Introduction.

2.11.2 Airy’s hypothesis.

2.11.3 Pratt’s hypothesis.

2.11.4 Flexure of the lithosphere.

2.11.5 Isostatic rebound.

2.11.6 Tests of isostasy.

2.12 Lithosphere and asthenosphere.

2.13 Terrestrial heat flow.

3. Continental drift.

3.1 Introduction.

3.2 Continental reconstructions.

3.2.1 Euler’s theorem.

3.2.2 Geometric reconstructions of continents.

3.2.3 The reconstruction of continents around the Atlantic.

3.2.4 The reconstruction of Gondwana.

3.3 Geologic evidence for continental drift.

3.4 Paleoclimatology.

3.5 Paleontologic evidence for continental drift.

3.6 Paleomagnetism.

3.6.1 Introduction.

3.6.2 Rock magnetism.

3.6.3 Natural remanent magnetization.

3.6.4 The past and present geomagnetic field.

3.6.5 Apparent polar wander curves.

3.6.6 Paleogeographic reconstructions based on paleomagnetism.

4. Sea floor spreading and transform faults.

4.1 Sea floor spreading.

4.1.1 Introduction.

4.1.2 Marine magnetic anomalies.

4.1.3 Geomagnetic reversals.

4.1.4 Sea floor spreading.

4.1.5 The Vine–Matthews hypothesis.

4.1.6 Magnetostratigraphy.

4.1.7 Dating of the ocean floor.

4.2 Transform faults.

4.2.1 Introduction.

4.2.2 Ridge-ridge transform faults.

4.2.3 Ridge jumps and transform fault offsets.

5. The framework of plate tectonics.

5.1 Plates and plate margins.

5.2 Distribution of earthquakes.

5.3 Relative plate motions.

5.4 Absolute plate motions.

5.5 Hotspots.

5.6 True polar wander.

5.7 Cretaceous superplume.

5.8 Direct measurement of relative plate motions.

5.9 Finite plate motions.

5.10 Stability of triple junctions.

5.11 Present day triple junctions.

6. Ocean ridges.

6.1 Ocean ridge topography.

6.2 Broad structure of the upper mantle below ridges.

6.3 Origin of anomalous upper mantle beneath ridges.

6.4 Depth-age relationship of oceanic lithosphere.

6.5 Heat flow and hydrothermal circulation.

6.6 Seismic evidence for an axial magma chamber.

6.7 Along-axis segmentation of oceanic ridges.

6.8 Petrology of ocean ridges.

6.9 Shallow structure of the axial region.

6.10 Origin of the oceanic crust.

6.11 Propagating rifts and microplates.

6.12 Oceanic fracture zones.

7. Continental rifts and rifted margins.

7.1 Introduction.

7.2 General characteristics of narrow rifts.

7.3 General characteristics of wide rifts.

7.4 Volcanic activity.

7.4.1 Large igneous provinces.

7.4.2 Petrogenesis of rift rocks.

7.4.3 Mantle upwelling beneath rifts.

7.5 Rift initiation.

7.6 Strain localization and delocalization processes.

7.6.1 Introduction.

7.6.2 Lithospheric stretching.

7.6.3 Buoyancy forces and lower crustal flow.

7.6.4 Lithospheric flexure.

7.6.5 Strain-induced weakening.

7.6.6 Rheological stratification of the lithosphere.

7.6.7 Magma-assisted rifting.

7.7 Rifted continental margins.

7.7.1 Volcanic margins.

7.7.2 Nonvolcanic margins.

7.7.3 The evolution of rifted margins.

7.8 Case studies: the transition from rift to rifted margin.

7.8.1 The East African Rift system.

7.8.2 The Woodlark Rift.

7.9 The Wilson cycle.

8. Continental transforms and strike-slip faults.

8.1 Introduction.

8.2 Fault styles and physiography.

8.3 The deep structure of continental transforms.

8.3.1 The Dead Sea Transform.

8.3.2 The San Andreas Fault.

8.3.3 The Alpine Fault.

8.4 Transform continental margins.

8.5 Continuous versus discontinuous deformation.

8.5.1 Introduction.

8.5.2 Relative plate motions and surface velocity fields.

8.5.3 Model sensitivities.

8.6 Strain localization and delocalization mechanisms.

8.6.1 Introduction.

8.6.2 Lithospheric heterogeneity.

8.6.3 Strain-softening feedbacks.

8.7 Measuring the strength of transforms.

9. Subduction zones.

9.1 Ocean trenches.

9.2 General morphology of island arc systems.

9.3 Gravity anomalies of subduction zones.

9.4 Structure of subduction zones from earthquakes.

9.5 Thermal structure of the downgoing slab.

9.6 Variations in subduction zone characteristics.

9.7 Accretionary prisms.

9.8 Volcanic and plutonic activity.

9.9 Metamorphism at convergent margins.

9.10 Backarc basins.

10. Orogenic belts.

10.1 Introduction.

10.2 Ocean-continent convergence.

10.2.1 Introduction.

10.2.2 Seismicity, plate motions and subduction geometry.

10.2.3 General geology of the central and southern Andes.

10.2.4 Deep structure of the central Andes.

10.2.5 Mechanisms of noncollisional orogenesis.

10.3 Compressional sedimentary basins.

10.3.1 Introduction.

10.3.2 Foreland basins.

10.3.3 Basin inversion.

10.3.4 Modes of shortening in foreland fold-thrust belts.

10.4 Continent-continent collision.

10.4.1 Introduction.

10.4.2 Relative plate motions and collisional history.

10.4.3 Surface velocity fields and seismicity.

10.4.4 General geology of the Himalayan-Tibetan orogen.

10.4.5 Deep structure.

10.4.6 Mechanisms of continental collision.

10.5 Arc-continent collision.

10.6 Terrane accretion and continental growth.

10.6.1 Terrane analysis.

10.6.2 Structure of accretionary orogens.

10.6.3 Mechanisms of terrane accretion.

11. Precambrian tectonics and the supercontinent cycle.

11.1 Introduction.

11.2 Precambrian heat flow.

11.3 Archean tectonics.

11.3.1 General characteristics of cratonic mantle lithosphere.

11.3.2 General geology of Archean cratons.

11.3.3 The formation of Archean lithosphere.

11.3.4 Crustal structure.

11.3.5 Horizontal and vertical tectonics.

11.4 Proterozoic tectonics.

11.4.1 General geology of Proterozoic crust.

11.4.2 Continental growth and craton stabilization.

11.4.3 Proterozoic plate tectonics.

11.5 The supercontinent cycle.

11.5.1 Introduction.

11.5.2 Pre-Mesozoic reconstructions.

11.5.3 A Late Proterozoic supercontinent.

11.5.4 Earlier supercontinents.

11.5.5 Gondwana-Pangea assembly and dispersal.

12. The mechanism of plate tectonics.

12.1 Introduction.

12.2 Contracting Earth hypothesis.

12.3 Expanding Earth hypothesis.

12.3.1 Calculation of the ancient moment of inertia of the Earth.

12.3.2 Calculation of the ancient radius of the Earth.

12.4 Implications of heat flow.

12.5 Convection in the mantle.

12.5.1 The convection process.

12.5.2 Feasibility of mantle convection.

12.5.3 The vertical extent of convection.

12.6 The forces acting on plates.

12.7 Driving mechanism of plate tectonics.

12.7.1 Mantle drag mechanism.

12.7.2 Edge-force mechanism.

12.8 Evidence for convection in the mantle.

12.8.1 Introduction.

12.8.2 Seismic tomography.

12.8.3 Superswells.

12.8.4 The D” layer.

12.9 The nature of convection in the mantle.

12.10 Plumes.

12.11 The mechanism of the supercontinent cycle.

13. Implications of plate tectonics.

13.1 Environmental change.

13.1.1 Changes in sea level and sea water chemistry.

13.1.2 Changes in oceanic circulation and the Earth’s climate.

13.1.3 Land areas and climate.

13.2 Economic geology.

13.2.1 Introduction.

13.2.2 Autochthonous and allochthonous mineral deposits.

13.2.3 Deposits of sedimentary basins.

13.2.4 Deposits related to climate.

13.2.5 Geothermal power.

13.3 Natural hazards.

Review questions.

Appendix: The geological timescale and stratigraphic column.

References.

Index

Read More Show Less

Customer Reviews

Be the first to write a review
( 0 )
Rating Distribution

5 Star

(0)

4 Star

(0)

3 Star

(0)

2 Star

(0)

1 Star

(0)

Your Rating:

Your Name: Create a Pen Name or

Barnes & Noble.com Review Rules

Our reader reviews allow you to share your comments on titles you liked, or didn't, with others. By submitting an online review, you are representing to Barnes & Noble.com that all information contained in your review is original and accurate in all respects, and that the submission of such content by you and the posting of such content by Barnes & Noble.com does not and will not violate the rights of any third party. Please follow the rules below to help ensure that your review can be posted.

Reviews by Our Customers Under the Age of 13

We highly value and respect everyone's opinion concerning the titles we offer. However, we cannot allow persons under the age of 13 to have accounts at BN.com or to post customer reviews. Please see our Terms of Use for more details.

What to exclude from your review:

Please do not write about reviews, commentary, or information posted on the product page. If you see any errors in the information on the product page, please send us an email.

Reviews should not contain any of the following:

  • - HTML tags, profanity, obscenities, vulgarities, or comments that defame anyone
  • - Time-sensitive information such as tour dates, signings, lectures, etc.
  • - Single-word reviews. Other people will read your review to discover why you liked or didn't like the title. Be descriptive.
  • - Comments focusing on the author or that may ruin the ending for others
  • - Phone numbers, addresses, URLs
  • - Pricing and availability information or alternative ordering information
  • - Advertisements or commercial solicitation

Reminder:

  • - By submitting a review, you grant to Barnes & Noble.com and its sublicensees the royalty-free, perpetual, irrevocable right and license to use the review in accordance with the Barnes & Noble.com Terms of Use.
  • - Barnes & Noble.com reserves the right not to post any review -- particularly those that do not follow the terms and conditions of these Rules. Barnes & Noble.com also reserves the right to remove any review at any time without notice.
  • - See Terms of Use for other conditions and disclaimers.
Search for Products You'd Like to Recommend

Recommend other products that relate to your review. Just search for them below and share!

Create a Pen Name

Your Pen Name is your unique identity on BN.com. It will appear on the reviews you write and other website activities. Your Pen Name cannot be edited, changed or deleted once submitted.

 
Your Pen Name can be any combination of alphanumeric characters (plus - and _), and must be at least two characters long.

Continue Anonymously

    If you find inappropriate content, please report it to Barnes & Noble
    Why is this product inappropriate?
    Comments (optional)