Paleomagnetism and magnetic fabrics from the Springdale and Wigwam Redbeds of Newfoundland and their implications for the Silurian paleolatitude controversy

Stamatakos, John; Lessard, Angela M.; Pluijm, Ben A. van der; Voo, Rob Van der

doi:10.1016/0012-821x(95)00053-f

Cited by 17 publications

(8 citation statements)

References 30 publications

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Section: Discussionmentioning

confidence: 82%

“…Similar type of behaviour has been reported by Hodych & Hayatsu (1988) on the basis of their palaeomagnetic results from Jurassic red beds. Contrary to these views some of the researchers (Tucker 1979;Stamatakos et al 1995;Tan et al 2007) have observed that fine-grained magnetic minerals, which carry magnetically hard component and distributed spectra of unblocking temperatures, have accurately recorded magnetic field directions without any inclination error. However, higher degree of inclination shallowing have been observed by them in the coarse-grained sediments, which carry magnetically soft NRM component and discrete unblocking spectra.…”

Section: Inclination Shallowing In Sandstone and Mudstone Layersmentioning

confidence: 91%

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Inclination variation in the Late Jurassic to Eocene red beds from southeast Asia: lithological to locality scale approach

Sato

Yang

Tong

et al. 2011

Geophysical Journal International

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S U M M A R YShallow palaeomagnetic inclinations have been frequently reported from the red beds of central and southeast Asia. To trace the origin of this phenomenon, inclination variation in southeast Asia is examined on lithological to locality scale. Lithological aspect of this variation has been studied using the Early Cretaceous Bailong and Cangxi formations of the Bazhong area (32.1 • N, 106.7 • E), the northern Sichuan Basin. Samples from 36 sites, consisting 18 pairs of successive sandstones and mudstones layers, were collected for this purpose from a synclinal structure. Stepwise thermal demagnetization of most samples revealed the presence of stable characteristic remanent magnetization, which is generally unblocked by 680 • C. Positive fold and reversal tests suggest a primary origin for this component, yielding the Early Cretaceous palaeomagnetic direction of declination/inclination = 20.9 • /26.5 • (ks = 37.2, α 95 = 4.4 • , N = 30). 10 pairs of sandstone and mudstone layers show almost identical inclinations (I sandstones = 23.3 • ± 3.7 • and I mudstones = 24.7 • ± 2.4 • ), but 27 • shallower than that expected from the Eurasian apparent polar wander paths (APWPs), indicating that no lithological variation in inclination has occurred. Location-wise variation in inclination shallowing is examined through palaeomagnetic data from Late Jurassic to Eocene red beds distributed around southeast Asia. Based on these investigations, no inclination shallowing is observed in the eastern part of the South China Block (SCB), whereas large degree of shallowing is observed in the Sichuan and Xining-Ninhe basins. Variation in inclination shallowing from one sedimentary basin to another could probably be caused by changes in the depositional environment. The eastern part of the SCB, where no inclination shallowing have been observed, is characterized by Basin and Range type tectono-geological setting. In contrast, the foreland basins are bounded to the north by east-west striking high altitude orogenic belt. Swift development of these basins as a result of flexural subsidence is the most likely reason for inclination shallowing.

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Section: Discussionmentioning

confidence: 82%

Section: Inclination Shallowing In Sandstone and Mudstone Layersmentioning

confidence: 91%

Inclination variation in the Late Jurassic to Eocene red beds from southeast Asia: lithological to locality scale approach

Sato

Yang

Tong

et al. 2011

Geophysical Journal International

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“…Studies by Anson and Stamatakos et al [1994] have criticized Hodych and Buchan's approach, since they believe that AIR inadequately determines the magnetic fabric in all the remanence-carrying hematite grains. Stamatakos et al [1995] have subsequently provided detailed evidence that the anomalously shallow inclinations in the Silurian redbeds from Newfoundland are due to magnetic overprints dominating the remanence in coarse-grained sandstones.…”

Section: Introductionmentioning

confidence: 99%

A successful rock magnetic technique for correctng paleomagnetic inclination shallowing: Case study of the Nacimiento Formation, New Mexico

Kodama¹

1997

J. Geophys. Res.

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Abstract. The accuracy of an inclination shallowing correction technique was tested on the remanence of the Paleocene Nacimiento Formation. The correction assumes that changes in paleomagnetic inclination during deformation will be directly related to changes in remanence anisotropy. The remanence anisotropy is also a function of the magnetic anisotropy of the individual magnetic grains. The Nacimiemo Formation was selected for this test because its inclination is shallow by 7 ø to 8 ø and previous paleomagnetic studies indicate that it has a primary remanence with a well-constrained age and that magnetic overprints are minimal. Tectonics are an unlikely explanation for its shallow inclination. These conditions allow the inclination-corrected remanence to be compared to a well-defined paleomagneti½ pole to determine the accuracy of the technique. The characteristic remanence from 20 Nacimiento sites was isolated by alternating field and thermal demagnetization and was corrected using the anisotropy of anhysteretic remanence measured for three to five samples per site. Individual particle anisotropy was determined by drying a magnetic separate/epoxy mixture in a 35-50 mT magnetic field. Laboratory compaction of disaggregated Nacimiento material was also used to yield an effective individual magnetic particle anisotropy. The two techniques resulted in similar values for individual particle anisotropy and similar inclination shallowing corrections. Both corrections were successful, and the inclination-corrected formation mean direction was indistinguishable from the direction predicted by North America's Paleocene paleopole. The inclination shallowing correction technique reported here shotfid be applied routinely in paleomagneti½ studies, provided that the remanence is a primary depositional remanence that has been affected only by syndepositional or early postdepositional processes (e.g., compaction).

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“…u Smethurst and McEnroe (2003),. v Stamatakos et al (1995),. w. Johnson and Van der Voo (1985), x Thompson et al (2010),.…”

mentioning

confidence: 97%

A plate tectonic scenario for the Iapetus and Rheic oceans

2016

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Paleomagnetism and magnetic fabrics from the Springdale and Wigwam Redbeds of Newfoundland and their implications for the Silurian paleolatitude controversy

Cited by 17 publications

References 30 publications

Inclination variation in the Late Jurassic to Eocene red beds from southeast Asia: lithological to locality scale approach

Inclination variation in the Late Jurassic to Eocene red beds from southeast Asia: lithological to locality scale approach

A successful rock magnetic technique for correctng paleomagnetic inclination shallowing: Case study of the Nacimiento Formation, New Mexico

A plate tectonic scenario for the Iapetus and Rheic oceans

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