The Emperor Seamounts: Southward Motion of the Hawaiian Hotspot Plume in Earth's Mantle

The Hawaiian-Emperor hotspot track has a prominent bend, which has served as the basis for the theory that the Hawaiian hotspot, fixed in the deep mantle, traced a change in plate motion. However, paleomagnetic and radiometric age data from samples recovered by ocean drilling define an age-progressive paleolatitude history, indicating that the Emperor Seamount trend was principally formed by the rapid motion (over 40 millimeters per year) of the Hawaiian hotspot plume during Late Cretaceous to early-Tertiary times (81 to 47 million years ago). Evidence for motion of the Hawaiian plume affects models of mantle convection and plate tectonics, changing our understanding of terrestrial dynamics.

[1]  M. Fisk,et al.  Isotopic evidence for Late Cretaceous plume–ridge interaction at the Hawaiian hotspot , 2000, Nature.

[2]  R. Voo,et al.  Evidence for late Paleozoic and Mesozoic non-dipole fields provides an explanation for the Pangea reconstruction problems , 2001 .

[3]  M. Richards,et al.  Plate motion changes, the Hawaiian-Emperor bend, and the apparent success and failure of geodynamic models , 1996 .

[4]  John A. Tarduno,et al.  Proceedings of the Ocean Drilling Program, 197 Initial Reports , 2002 .

[5]  A. Cox Latitude Dependence of the Angular Dispersion of the Geomagnetic Field , 1970 .

[6]  M. A. Reynolds,et al.  Isotope Anomalies in Rare Gases , 1971 .

[7]  Michael Le Bars,et al.  How to anchor hotspots in a convecting mantle , 2002 .

[8]  Donald M. Hussong,et al.  The Eastern Pacific Ocean and Hawaii , 1989 .

[9]  P. Molnar,et al.  Relative motions of hotspots in the Pacific, Atlantic and Indian Oceans since late Cretaceous time , 1987, Nature.

[10]  W. J. Morgan,et al.  Convection Plumes in the Lower Mantle , 1971, Nature.

[11]  J. Stock,et al.  Fast Paleogene Motion of the Pacific Hotspots from Revised Global Plate Circuit Constraints , 2000 .

[12]  A. Smith,et al.  Plate motions and the geomagnetic field — II. Jurassic to Tertiary , 1984 .

[13]  R. Fisher Dispersion on a sphere , 1953, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.

[14]  J. Tarduno,et al.  Stability of the Earth with respect to the spin axis for the last 130 million years , 2001 .

[15]  M. McElhinny,et al.  Reversals of the Earth's magnetic field and temporal variations of the dynamo families , 1991 .

[16]  P. Molnar,et al.  Relative Motion of Hot Spots in the Mantle , 1973, Nature.

[17]  J. Tarduno,et al.  Paleomagnetic evidence for motion of the Hawaiian hotspot during formation of the Emperor seamounts , 1997 .

[18]  J. Tarduno Absolute inclination values from deep sea sediments: A reexamination of the Cretaceous Pacific record , 1990 .

[19]  I. Norton Plate motions in the North Pacific: The 43 Ma nonevent , 1995 .

[20]  J. Tarduno,et al.  Large-scale motion between Pacific and Atlantic hotspots , 1995, Nature.

[21]  J. Tuzo Wilson A possible origin of the Hawaiian Islands , 1963 .

[22]  D. Kent,et al.  Are the Pacific and Indo–Atlantic hotspots fixed? Testing the plate circuit through Antarctica , 1999 .

[23]  A. Reid,et al.  Analysis of palaeomagnetic inclination data , 1982 .

[24]  F. Anselmetti,et al.  Proceedings of the Ocean Drilling Program. Initial Reports , 2002 .

[25]  Hans-Peter Bunge,et al.  Mesozoic plate-motion history below the northeast Pacific Ocean from seismic images of the subducted Farallon slab , 2000, Nature.

[26]  C. Ebinger,et al.  Cenozoic magmatism throughout east Africa resulting from impact of a single plume , 1998, Nature.

[27]  R. Dietmar Müller,et al.  Digital isochrons of the world's ocean floor , 1997 .

[28]  A. Toomre,et al.  Some remarks on polar wandering , 1969 .

[29]  P. Camps,et al.  Comment on ''Stability of the Earth with respect to the spin axis for the last 130 million years'' by J.A. Tarduno and A.Y. Smirnov (Earth Planet. Sci. Lett. 184 (2001) 549^553) , 2002 .

[30]  J. Tarduno,et al.  A Late Cretaceous pole for the Pacific plate: implications for apparent and true polar wander and the drift of hotspots , 2003 .

[31]  M. Manga,et al.  The influence of a chemical boundary layer on the fixity, spacing and lifetime of mantle plumes , 2002, Nature.

[32]  M. Gurnis,et al.  The history and dynamics of global plate motions , 2000 .