Plate tectonics and convection in the Earth´s mantle: toward a numerical simulation

Author

Moresi, Louis ; Gurnis, Michael ; Zhong, Shijie

Author_Institution

CSIRO, Canberra, ACT, Australia

Volume

2

Issue

3

fYear

2000

Firstpage

22

Lastpage

33

Abstract

Numerical models of mantle convection are starting to reproduce many of the essential features of continental drift and plate tectonics. The authors show how such methods can integrate a wide variety of geophysical and geological observations. The goal is to combine the Stokes and energy equations with a realistic rheology, thereby letting us understand the complex dynamic coupling that occurs in the mantle and that gives rise to plate tectonics and other surface features. This approach holds great promise because it makes a tremendous amount of data relevant to understanding Earth´s dynamics. The challenge is that the computational models must be inherently realistic, particularly when predicting observed geography or plate history, so that the models can be connected with observations. The authors view this as one of the most exciting future directions of computational geodynamics

Keywords

Earth mantle; computational fluid dynamics; convection; differential equations; finite element analysis; geophysical fluid dynamics; geophysics computing; tectonics; Earth mantle; Stokes equation; complex dynamic coupling; computational geodynamics; computational models; continental drift; energy equation; geological observations; geophysical observations; mantle convection; numerical models; numerical simulation; plate tectonics; realistic rheology; Computational modeling; Earth; Equations; Geodynamics; Geography; Geology; History; Numerical models; Predictive models; Rheology;

fLanguage

English

Journal_Title

Computing in Science & Engineering

Publisher

ieee

ISSN

1521-9615

Type

jour

DOI

10.1109/5992.841793

Filename

841793