The Origin, Evolution, and Environmental Impact of Oceanic Large Igneous Provinces
Paleomagnetism of igneous rocks from the Shatsky Rise: Implications for paleolatitude and oceanic plateau volcanism
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Published:May 01, 2015
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William W. Sager, Margaret Pueringer, Claire Carvallo, Masahiro Ooga, Bernard Housen, Masako Tominaga, 2015. "Paleomagnetism of igneous rocks from the Shatsky Rise: Implications for paleolatitude and oceanic plateau volcanism", The Origin, Evolution, and Environmental Impact of Oceanic Large Igneous Provinces, Clive R. Neal, William W. Sager, Takashi Sano, Elisabetta Erba
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The eruptive history of the Shatsky Rise, a large oceanic plateau in the northwestern Pacific Ocean, is poorly understood. Although it has been concluded that the Shatsky Rise volcanic edifices erupted rapidly, there are few solid chronological data to support this conclusion. Similarly, the Shatsky Rise is thought to have formed near the equator, but paleolatitude data from the plateau are few, making it difficult to assess its plate tectonic drift with time. To understand the formation history of this oceanic plateau, paleomagnetic measurements were conducted on a total of 362 basaltic lava samples cored from the Shatsky Rise at 4 sites (U1346, U1347, U1349, and U1350) during Integrated Ocean Drilling Program Expedition 324. Examining changes in paleomagnetic inclinations, we gain a better understanding of eruptive rates by comparison of observed shifts in inclination with expected paleosecular variation. At three sites (U1346, U1347, and U1349) little change in paleomagnetic directions was observed, implying that the cored sections were mostly erupted rapidly over periods of <~100–200 yr. Only Site U1350 displayed directional changes consistent with significant paleosecular variation, implying emplacement over a period of ~1000 yr. The paleomagnetic data are consistent with the idea that the Shatsky Rise igneous sections were mostly emplaced rapidly, but there were some time gaps and some fl ank locations built up more slowly. Because paleosecular variation was inadequately sampled at all the Shatsky Rise sites, paleolatitudes have large uncertainties, and because of the equatorial location, magnetic polarity is also uncertain. All sites yield low paleolatitudes and indicate that the Shatsky Rise stayed near the equator during its formation. Given that the locus of magmatism moved northward relative to the Pacific plate while staying near the equator, the Pacific plate must have drifted southward relative to the spin axis during the emplacement of the plateau.
- alternating field demagnetization
- basalts
- bottom features
- demagnetization
- depth
- emplacement
- eruptions
- Expedition 324
- igneous rocks
- Integrated Ocean Drilling Program
- IODP Site U1346
- IODP Site U1347
- IODP Site U1348
- IODP Site U1349
- IODP Site U1350
- large igneous provinces
- lava flows
- Leg 191
- Leg 198
- magmatism
- magnetic field
- magnetic hysteresis
- magnetic inclination
- magnetic minerals
- magnetic properties
- magnetic susceptibility
- magnetization
- magnetometers
- mineral assemblages
- movement
- North Pacific
- Northwest Pacific
- Ocean Drilling Program
- ocean floors
- ODP Site 1179
- ODP Site 1213
- Pacific Ocean
- Pacific Plate
- paleogeography
- paleolatitude
- paleomagnetism
- plate tectonics
- polar wandering
- pole positions
- principal components analysis
- reconstruction
- reversals
- secular variations
- Shatsky Rise
- statistical analysis
- thermal demagnetization
- volcanic rocks
- volcanism
- West Pacific
- Ori Massif
- Shirshov Massif
- Tamu Massif