Apparent and true polar wander and the geometry of the geomagnetic field over the last 200 Myr
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[1] D. Kent,et al. A Jurassic to recent chronology , 1986 .
[2] A. Bonneville,et al. How many Pacific hotspots are fed by deep-mantle plumes? , 2001 .
[3] Sager,et al. Late cretaceous polar wander of the pacific plate: evidence of a rapid true polar wander event , 2000, Science.
[4] R. Voo. Phanerozoic paleomagnetic poles from Europe and North America and comparisons with continental reconstructions , 1990 .
[5] J. Besse,et al. Paleogeographic maps of the continents bordering the Indian Ocean since the Early Jurassic , 1988 .
[6] G. McKenzie. Gondwana six : structure, tectonics, and geophysics , 1987 .
[7] J. Peirce. The northward motion of India since the Late Cretaceous , 1978 .
[8] G. Acton,et al. Paleomagnetic Tests of Pacific Plate Reconstructions and Implications for Motion Between Hotspots , 1994, Science.
[9] J. Royer,et al. Revised plate motions relative to the hotspots from combined Atlantic and Indian Ocean hotspot tracks , 1993 .
[10] R. C. Bailey. Comment on ``The combined analysis of remagnetization circles and direct observations in paleomagnetism'' by P.L. McFadden and M.W. McElhinny , 1990 .
[11] J. Besse,et al. Revised and synthetic apparent polar wander paths of the African, Eurasian, North American and Indian Plates, and true polar wander since 200 Ma , 1991 .
[12] Michael W. McElhinny,et al. The time-averaged paleomagnetic field 0–5 Ma , 1996 .
[13] P. Molnar,et al. Relative Motion of Hot Spots in the Mantle , 1973, Nature.
[14] D. Kent,et al. The Paleomagnetic Field from Equatorial Deep-Sea Sediments: Axial Symmetry and Polarity Asymmetry , 1988, Science.
[15] M. McElhinny,et al. The combined analysis of remagnetization circles and direct observations in palaeomagnetism , 1988 .
[16] J. Besse,et al. North American Jurassic apparent polar wander: the anwser from other continents? , 1994 .
[17] D. Kent,et al. Are the Pacific and Indo–Atlantic hotspots fixed? Testing the plate circuit through Antarctica , 1999 .
[18] D. Kent,et al. Paleomagnetism of Leg 115 Sediments: Implications for Neogene Magnetostratigraphy and Paleolatitude of the Réunion Hotspot , 1990 .
[19] David A. Schneider,et al. The time‐averaged paleomagnetic field , 1990 .
[20] Catherine Constable,et al. The time‐averaged geomagnetic field: global and regional biases for 0–5 Ma , 1997 .
[21] J. Andrews. True polar wander: An analysis of Cenozoic and Mesozoic paleomagnetic poles , 1985 .
[22] G. Davies,et al. Ocean bathymetry and mantle convection: 1. Large‐scale flow and hotspots , 1988 .
[23] G. Hulot,et al. Influence of core flows on the decade variations of the polar motion , 1996 .
[24] William W. Sager,et al. Mid‐Cretaceous to early Tertiary apparent polar wander path of the Pacific Plate , 1988 .
[25] R. Müller,et al. The tectonic evolution of the South Atlantic from Late Jurassic to present , 1991 .
[26] Vincent Courtillot,et al. How complex is the time-averaged geomagnetic field over the past 5 Myr? , 1998 .
[27] A. Smith,et al. Plate motions and the geomagnetic field - I. Quaternary and late Tertiary , 1983 .
[28] J. Tarduno,et al. Paleomagnetic evidence for motion of the Hawaiian hotspot during formation of the Emperor seamounts , 1997 .
[29] S. P. Srivastava,et al. Plate kinematics of the North Atlantic , 1986 .
[30] Richards,et al. Time scales and heterogeneous structure in geodynamic earth models , 1998, Science.
[31] Allan Cox,et al. Relative Motions Between Oceanic and Continental Plates in the Pacific Basin , 1986 .
[32] J. Briden,et al. Recurrent Continental Drift of Gondwanaland , 1967, Nature.
[33] P. Camps,et al. Evidence for a 20° tilting of the Earth’s rotation axis 110 million years ago , 2000 .
[34] B. Clement,et al. Inclination shallowing in deep sea sediments from the North Atlantic , 1988 .
[35] 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 .
[36] J. Peirce. Assessing the reliability of DSDP paleolatitudes , 1976 .
[37] J. E. Everett,et al. The fit of the continents around the Atlantic , 1965, Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences.
[38] Patrice Weber,et al. Intermittent layered convection in a model mantle with an endothermic phase change at 670 km , 1991, Nature.
[39] Catherine Constable,et al. Statistics of the geomagnetic secular variation for the past 5 m.y. , 1988 .
[40] A. Smith,et al. Plate motions and the geomagnetic field — II. Jurassic to Tertiary , 1984 .
[41] Robert L. Parker,et al. A theory of ideal bodies for seamount magnetism , 1991 .
[42] W. Roest,et al. Fracture zones in the North Atlantic from combined Geosat and Seasat data , 1992 .
[43] Gauthier Hulot,et al. Long‐term geometry of the geomagnetic field for the last five million years: An updated secular variation database , 1994 .
[44] S. May,et al. North American Jurassic Apparent Polar Wander: Implications for plate motion, paleogeography and Cordilleran tectonics , 1986 .
[45] S. Cande. A Palaeomagnetic Pole from Late Cretaceous Marine Magnetic Anomalies in the Pacific , 1976 .
[46] E. Irving,et al. Apparent polar wander paths carboniferous through cenozoic and the assembly of Gondwana , 1982 .
[47] J. Besse,et al. New Mesozoic apparent polar wander path for south China: Tectonic consequences , 2001 .
[48] R. Parker,et al. The application of inverse theory to seamount magnetism , 1987 .
[49] P. Molnar,et al. Relative motions of hotspots in the Pacific, Atlantic and Indian Oceans since late Cretaceous time , 1987, Nature.
[50] R. Voo. Paleomagnetism of the Atlantic, Tethys and Iapetus Oceans: References , 1993 .
[51] S. Cande,et al. Skewness of marine magnetic anomalies created between 85 and 40 Ma in the Indian Ocean , 1994 .
[52] P. Tapponnier,et al. Paleontological view of the ages of the Deccan Traps, the Cretaceous/Tertiary boundary, and the India-Asia collision , 1989 .
[53] I. Norton. Plate motions in the North Pacific: The 43 Ma nonevent , 1995 .
[54] B. Steinberger,et al. Changes of the Earth's rotation axis owing to advection of mantle density heterogeneities , 1997, Nature.
[55] Late cretaceous true polar wander: not so fast. , 2000, Science.
[56] W. J. Morgan. Hotspot Tracks and the Early Rifting of the Atlantic , 1983 .
[57] J. Tarduno,et al. Large-scale motion between Pacific and Atlantic hotspots , 1995, Nature.
[58] D. Sandwell,et al. Evolution of the eastern Indian Ocean since the Late Cretaceous: Constraints from Geosat altimetry , 1989 .
[59] J. LaBrecque,et al. The magnetostratigraphy of Leg 73 sediments , 1983 .
[60] X. Pichon,et al. The rotation of Arabia and the Levant fault system , 1988 .
[61] R. Enkin,et al. Paleomagnetic constraints on the geodynamic history of the major blocks of China from the Permian to the present , 1992 .
[62] Hubert Staudigel,et al. Testing the fixed hotspot hypothesis using Ar-40/Ar-39 age progressions along seamount trails. , 2001 .
[63] A. Cox,et al. Paleolatitudes Determined From Paleomagnetic Data From Vertical Cores (Paper 3R1307) , 1984 .
[64] Yan Chen,et al. Resolving the problem of shallow magnetizations of Tertiary age in Asia: insights from paleomagnetic data from the Qiangtang, Kunlun, and Qaidam blocks (Tibet, China), and a new hypothesis , 1999 .
[65] B. Steinberger,et al. Advection of plumes in mantle flow: implications for hotspot motion, mantle viscosity and plume distribution , 1998 .
[66] G. Acton,et al. Determining palaeomagnetic poles and anomalous skewness from marine magnetic anomaly skewness data from a single plate , 1992 .
[67] Hans Schouten,et al. Filtering marine magnetic anomalies , 1972 .
[68] V. Courtillot,et al. 11. PALEOMAGNETISM OF LEG 115 BASEMENT ROCKS AND LATITUDINAL EVOLUTION OF THE REUNION HOTSPOT1 , 1990 .
[69] M. Richards,et al. Polar wandering in mantle convection models , 1999 .
[70] R. Hargraves. Paleomagnetism of mesozoic kimberlites in southern Africa and the cretaceous apparent polar wander curve for Africa , 1989 .
[71] David J. Stevenson,et al. Effects of multiple phase transitions in a three-dimensional spherical model of convection in Earth's mantle , 1994 .
[72] M. McElhinny. The Earth's Magnetic Field , 2000 .
[73] S. Cande,et al. Palaeomagaetic Poles from Marine Magnetic Anomalies , 1976 .
[74] J. Royer,et al. Evolution of the Southwest Indian Ridge from the Late Cretaceous (anomaly 34) to the Middle Eocene (anomaly 20) , 1988 .
[75] A. Cox,et al. Plate Tectonics: How It Works , 1986 .
[76] G. S. Watson,et al. Statistical analysis of palaeomagnetic inclination data , 1996 .
[77] D. Coupland,et al. Long‐term nondipole components in the geomagnetic field during the last 130 m.y. , 1980 .
[78] J. Royer,et al. A global isochron chart , 1992 .
[79] R. Gordon,et al. A Maastrichtian palaeomagnetic pole for the Pacific plate from a skewness analysis of marine magnetic anomaly 32 , 1999 .
[80] J. Sibuet,et al. Paleomagnetic implications on the evolution of the tethys belt from the atlantic ocean to the pamirs since the triassic , 1986 .
[81] M. McElhinny,et al. Classification of the reversal test in palaeomagnetism , 1990 .
[82] R. Gordon. Late Cretaceous apparent polar wander of the Pacific Plate: Evidence for a rapid shift of the Pacific hotspots with respect to the spin axis , 1983 .
[83] A. Cox,et al. Calculating palaeomagnetic poles for oceanic plates , 1980 .
[84] D. Evans. True polar wander, a supercontinental legacy , 1998 .
[85] J. Tarduno,et al. Stability of the Earth with respect to the spin axis for the last 130 million years , 2001 .
[86] M. Richards,et al. A geodynamic model of mantle density heterogeneity , 1993 .
[87] P. Tackley,et al. Mantle convection and plate tectonics: toward an integrated physical and chemical theory , 2000, Science.
[88] A. Kerr,et al. The north Atlantic igneous province , 2013 .
[89] J. Tarduno. Absolute inclination values from deep sea sediments: A reexamination of the Cretaceous Pacific record , 1990 .
[90] J. Besse,et al. Paleomagnetism and age determinations of the Deccan Traps (India): Results of a Nagpur‐Bombay Traverse and review of earlier work , 1991 .
[91] J. Achache,et al. India–Eurasia collision chronology has implications for crustal shortening and driving mechanism of plates , 1984, Nature.
[92] R. Wilson. Permanent Aspects of the Earth's Non‐dipole Magnetic Field over Upper Tertiary Times , 1970 .
[93] J. Besse. Cinématique des plaques et dérive des pôles magnétiques : évolution de la Téthys, collisions continentales et couplage noyau-manteau , 1986 .