Paleolatitude of the Southern Kerguelen Plateau Inferred from the Paleomagnetic Study of Late Cretaceous Basalts

Inokuchi, H.; Heider, F.

doi:10.2973/odp.proc.sr.120.129.1992

Cited by 9 publications

(17 citation statements)

References 17 publications

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“…This result is supported by one lava £ow of similar age at Site 748 which yields a paleolatitude of 44.5 ‡S. The paleomagnetic samples from the two £ows at Site 750 had unstable magnetizations and no paleolatitude was determined [20].…”

Section: Previous Paleomagnetic Investigationssupporting

confidence: 66%

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Paleolatitudes of the Kerguelen hotspot: new paleomagnetic results and dynamic modeling

Antretter¹,

Steinberger

Heider³

et al. 2002

Earth and Planetary Science Letters

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The Kerguelen Plateau, a Large Igneous Province in the southern Indian Ocean, was formed as a product of the Kerguelen hotspot in several eruptive phases during the last 120 Myr. We obtained new paleolatitudes for the central and northern Kerguelen Plateau from paleomagnetic investigations on basalts, which were drilled during ODP Leg 183 to the Kerguelen Plateau^Broken Ridge. The paleolatitudes coincide with paleolatitudes from previous investigations at the Kerguelen Plateau and Ninetyeast Ridge (the track of the Kerguelen hotspot) and indicate a difference between paleolatitudes and present position at 49 ‡S of the Kerguelen hotspot. We show that true polar wander, the global motion between the mantle and the rotation axis, cannot explain this difference in latitudes. We present numerical model results of plume conduit motion in a large-scale mantle flow and the resulting surface hotspot motion. A large number of models all predict southward motion between 3 ‡ and 10 ‡ for the Kerguelen hotspot during the last 100 Myr, which is consistent with our paleomagnetic results. ß

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Section: Previous Paleomagnetic Investigationssupporting

confidence: 66%

“…The mean inclination from 13 lava £ows of Site 747 is 351 ‡ which is 11 ‡ shallower than the inclinations at Sites 748 and 749 [20]. This shallow inclination is most likely due to northward tilting of the basement at Site 747.…”

Section: Previous Paleomagnetic Investigationsmentioning

confidence: 86%

Paleolatitudes of the Kerguelen hotspot: new paleomagnetic results and dynamic modeling

Antretter¹,

Steinberger

Heider³

et al. 2002

Earth and Planetary Science Letters

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“…[27^29]). The major problem for the Kerguelen plume source theory is that plate reconstruction models based on a ¢xed hotspot reference frame [28] [3,15,17,38,42,55,70].…”

Section: Hotspots and Volcanic Features Of The Indian Oceanmentioning

confidence: 99%

Geodynamic implications of moving Indian Ocean hotspots

O’Neill

Müller

Steinberger

2003

Earth and Planetary Science Letters

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The reconstructed positions of many of the Indian Ocean intraplate volcanic features are inconsistent with the present positions of the hotspots to which they have been ascribed. The discrepancy can be explained by the past motion of the hotspots themselves, and in the errors introduced in an absolute plate model based on fixed hotspots. Previous models for the motion of hotspots in the Indian Ocean (e.g. [Steinberger and O'Connell, in press]. We find a motion of V7 ‡ south for the Kerguelen plume, similar to previous models [Antretter et al., op. cit.]. This motion alleviates the discrepancies in the position of the Kerguelen plume and its purported involvement in the formation of the Ninetyeast Ridge, Rajmahal Traps, Bunbury basalts and assorted volcanics of the Western Australian margin. We find a motion of 5 ‡ north and 7 ‡ south for the Reunion and Marion plumes, respectively. The motion of the Reunion hotspot is consistent with paleolatitude estimates. The apparent fixity of the Marion hotspot [Torsvik et al., Earth Planet. Sci. Lett. 164 (1998) 221^232] is not well-constrained, but may be due to the combination of hotspot motion and true polar wander acting in opposing directions. We present revised absolute finite rotations for the Indian plate for the last 65 Ma based on the motion of these hotspots, which place India farther north in the past than for fixed hotspot models. ß

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“…Solid squares for Suiko and Detroit Seamounts indicate total number of flow units, including volcaniclastic units. Kerguelen-Ninetyeast Ridge data from ODP Legs 120 (Inokuchi and Heider, 1992), 121 (Klootwijk et al, 1991), and 183 (Antretter et al, 2002). Pacific atolls/guyots data from ODP Legs 143 (Tarduno and Sager, 1995) and 144 (Nakanishi and Gee, 1995).…”

Section: Site U1377mentioning

confidence: 99%