| Автор | Cameron, K. L. |
| Автор | Nimz, G. J. |
| Автор | Kuentz, D. |
| Автор | Niemeyer, S. |
| Автор | Gunn, S. |
| Дата выпуска | 1989 |
| dc.description | Mid‐Cenozoic orogenic andesites and ignimbrites of western Mexico, southwestern New Mexico, and Arizona are commonly capped by basaltic andesites, most from 29–20 Ma. We refer to these mafic lavas as the Southern Cordilleran Basaltic Andesite (SCORBA) suite, and they may constitute the most extensive Cenozoic basaltic suite in North America. The SCORBA suite has trace element and isotopic characteristics of orogenic (arc) rocks (e.g., Ba/Nb>40), and silica content (53–56% SiO<sub>2</sub>) like the Grande Ronde Basalt, which represents about 80% of the volume of the Columbia River Group. Geochemical and isotopic data are presented on SCORBA lavas and rare mafic lavas (PRE‐SCORBA) interlayered with older ignimbrites from a 700‐km‐long NE‐SW transect of southern Chihuahua, Mexico. SCORBA and PRE‐SCORBA lavas with relatively low K/P (<7) and differing Ba/Nb (50 versus 18) have similar isotopic compositions, arguing against their isotopic signatures being controlled by crustal assimilation. Along the entire length of the transect, the basaltic rocks have ε<sub>Nd</sub> and <sup>87</sup>Sr/<sup>86</sup>Sr near bulk Earth and <sup>206</sup>Pb/<sup>204</sup>Pb and <sup>207</sup>Pb/<sup>204</sup>Pb ratios that lie along a 1.7 Ga pseudoisochron. The Pb isotopic variation is geographically controlled, becoming more radiogenic from east to west, reflecting mixing in mantle source regions. The eastern mantle source has low <sup>206</sup>Pb/<sup>204</sup>Pb and is a mixture of an enriched, enriched‐mantle‐like (EMI) component with one or more depleted components, which could include an intraplate component with relatively high Nb/Y (>0.8). The western mantle source contains less of the intraplate component and is more oceanic in character. Overprinting both the eastern and western sources is a Cenozoic subduction component that is responsible for the western radiogenic Pb, and this component fades out inland to the east. This transect crosses the inferred position of the Mojave‐Sonora megashear, previously proposed to be a major lithospheric boundary, separating Proterozoic basement to the east from Phanerozoic basement to the west at the latitude of the transect. Most chemical changes near the inferred position of the megashear are subtle, and they may be gradational rather than abrupt. The uniformity of Sr and Nd isotopic compositions across the inferred position of the megashear indicates that one or more of the following statements is true: (1) Phanerozoic and Proterozoic subcontinental lithospheres are essentially indistinguishable in Sr and Nd compositions in southern Chihuahua, (2) the megashear is not a lithospheric boundary separating Phanerozoic and Proterozoic crust in the vicinity of the transect, or (3) the isotopic signatures were acquired in the asthenosphere rather than in subcontinental lithosphere. The principal difference between the SCORBA suite and the earlier mid‐Cenozoic andesite to rhyolite orogenic suite is average SiO<sub>2</sub> content. This difference reflects regional stress regimes at the time of eruption and magmatic plumbing. SCORBA was erupted in a more extensional tectonic environment than the orogenic suite. SCORBA magmas reached the surface more quickly and directly than most PRE‐SCORBA basaltic magmas, and the suite experienced less differentiation. Although the tectonic setting of SCORBA was more extensional than the orogenic suite, it was less extensional than that of true flood basalts because SCORBA was erupted from central vents rather than major fissures. The SCORBA suite closely resembles the Grande Ronde Basalt in average SiO<sub>2</sub> content, large ion lithophile/Nb ratios, voluminous nature, and Sr and Nd isotopic compositions. Furthermore, SCORBA west of the megashear and the Grande Ronde have similar Pb isotopic ratios. Voluminous continental basalts include a spectrum of compositions from intraplate tholeiites to rocks with more orogenic affinities. The common feature that they share is eruption in an extensional tectonic environment, be it intraplate, back arc, or perhaps intra‐arc. The Grande Ronde is intermediate in the compositional spectrum, but SCORBA is at or near the orogenic extreme. |
| Формат | application.pdf |
| Копирайт | Copyright 1989 by the American Geophysical Union. |
| Тема | Magmatism Associated With Lithospheric Extension |
| Тема | EXPLORATION GEOPHYSICS |
| Тема | Continental structures |
| Тема | Continental structures |
| Тема | MINERALOGY AND PETROLOGY |
| Тема | Mineralogy, Petrology, and Rock Chemistry: Isotope composition |
| Тема | Mineralogy, Petrology, and Rock Chemistry: Igneous petrology |
| Тема | Mineralogy, Petrology, and Rock Chemistry: Minor and trace element composition |
| Тема | STRUCTURAL GEOLOGY |
| Тема | Continental neotectonics |
| Тема | TECTONOPHYSICS |
| Тема | Continental neotectonics |
| Тема | Continental tectonics: extensional |
| Тема | Continental tectonics: general |
| Тема | GEOGRAPHIC LOCATION |
| Тема | Information Related to Geographic Region: North America |
| Тема | INFORMATION RELATED TO GEOLOGIC TIME |
| Тема | Cenozoic |
| Название | Southern Cordilleran basaltic andesite suite, southern Chihuahua, Mexico: A link between Tertiary continental arc and flood basalt magmatism in North America |
| Тип | article |
| DOI | 10.1029/JB094iB06p07817 |
| Electronic ISSN | 2156-2202 |
| Print ISSN | 0148-0227 |
| Журнал | Journal of Geophysical Research: Solid Earth |
| Том | 94 |
| Первая страница | 7817 |
| Последняя страница | 7840 |
| Выпуск | B6 |
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