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Ruiz-Martinez, V.-C., Osete, M.L., Vegas, R., Nunez-Aguilar, J.I., Urrutia-Fucugauchi, J. and Tarling, D.H. (2000). Palaeomagnetism of late Miocene to Quaternary volcanics from the eastern segment of the Trans-Mexican volcanic belt. Tectonophysics 318(1-4): 217-233. doi: 10.1016/S0040-1951(99)00313-3. |
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A systematic palaeomagnetic study in the eastern part of the Trans-Mexican Volcanic Belt includes 39 Miocene, Pliocene and Quaternary volcanic rocks in the southeastern Mexico Basin (Sierra Nevada and Sierra de Rio Frio), the Altiplano area, and the Palma Sola Massif. A total of 430 samples have been selectively demagnetized using mostly alternating field demagnetizing methods, supplemented by thermal analyses. Most characteristic remanences are carried by low-Ti titanomagnetites, with occasional titanohematites or slightly maghemitized low-Ti titanomagnetites, of similar direction. Seven sites were discarded because they presented intermediate directions, hydrothermal alteration or were remagnetized by lightning strikes. The mean directions of 32 sites, together with 24 sites from Sierra de las Cruces in the western Mexico basin, indicate rocks older than 2Ma are rotated some 10 degrees counterclockwise with respect to Quaternary rocks, whereas there is no rotational difference between Miocene and Pliocene rocks. Statistical analyses between different regrouped populations confirm that the rotational pattern is due to the age of the volcanics rocks but not to their spatial distribution. The Quaternary mean direction from the three Mexico Basin ranges is consistent with the geographical reference pole. In contrast, the Pliocene mean direction from volcanic rocks of the Altiplano area and the Sierra de Las Cruces is slightly rotated some 10 degrees westwards with respect to the reference direction from North America. No significant rotations have been observed in the eastern TMVB (from the western Mexico Basin to the border of the Altiplano), between late Miocene and late Pliocene time. It suggests that a very small, counterclockwise vertical-axis rotation may have been taken place in this segment of the TMVB between late Pliocene and Quaternary times. Comparisons of these results with a summary of the available palaeomagnetic data in the area indicate that the previously reported Quaternary rotations are of questionable reliability, and that the large counterclockwise rotations, reported in Cretaceous to Miocene rocks, probably took place before the late Miocene. These new palaeomagnetic data support the idea that the eastern TMVB since the late Miocene, has been a zone of extension with a little, left-lateral shear component. |
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Keywords
alkalic composition, Altiplano, andesites, basaltic composition, basalts, block structures, calc-alkalic composition, Cenozoic, demagnetization, fault zones, faults, igneous rocks, lamprophyres, magnetization, Mexican volcanic belt, Mexico, Miocene, Neogene, ocean, floors, oxides, paleogeography, paleomagnetism, Palma Sola Massif, plate rotation, plate tectonics, Pliocene, plutonic rocks, Quaternary, Sierra de Las Cruces, Sierra de Rio Frio, systems, tectonics, Tertiary, thermal demagnetization, titanomaghemite, titanomagnetite, trenches, upper Miocene, Valley of Mexico, volcanic rocks, volcanism, 18, Solid-earth geophysics |
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Publisher
Elsevier Science
P.O. Box 211
1000 AE Amsterdam
The Netherlands
(+31) 20 485 3757
(+31) 20 485 3432
nlinfo-f@elsevier.com |
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