W. Matthew Burns Peter Copeland Oscar Mancilla Suzanne M. Kay 2006 <p><span>Evidence for a Miocene period of transient shallow subduction under the Neuqu&eacute;n Basin in the Andean backarc, and an intermittent Upper Cretaceous to Holocene frontal arc with a relatively stable magma source and arc-to-trench geometry comes from new&nbsp;</span>⁴⁰<span>Ar/</span>³⁹<span>Ar, major- and trace-element, and Sr, Pb, and Nd isotopic data on magmatic rocks from a transect at &sim;36&deg;&ndash;38&deg;S. Older frontal arc magmas include early Paleogene volcanic rocks erupted after a strong Upper Cretaceous contractional deformation and mid-Eocene lavas erupted from arc centers displaced slightly to the east. Following a gap of some 15 m.y., ca. 26&ndash;20 Ma mafic to acidic arc-like magmas erupted in the extensional Cura Mall&iacute;n intra-arc basin, and alkali olivine basalts with intraplate signatures erupted across the backarc. A major change followed as ca. 20&ndash;15 Ma basaltic andesite&ndash;dacitic magmas with weak arc signatures and 11.7 Ma Cerro Negro andesites with stronger arc signatures erupted in the near to middle backarc. They were followed by ca. 7.2&ndash;4.8 Ma high-K basaltic to dacitic hornblende-bearing magmas with arc-like high field strength element depletion that erupted in the Sierra de Chachahu&eacute;n, some 500 km east of the trench. The chemistry of these Miocene rocks along with the regional deformational pattern support a transient period of shallow subduction that began at ca. 20 Ma and climaxed near 5 Ma. The subsequent widespread eruption of Pliocene to Pleistocene alkaline magmas with an intraplate chemistry in the Payenia large igneous province signaled a thickening mantle wedge above a steepening subduction zone. A pattern of decreasingly arc-like Pliocene to Holocene backarc lavas in the Tromen region culminated with the eruption of a 0.175 &plusmn; 0.025 Ma mafic andesite. The northwest-trending Cortaderas lineament, which generally marks the southern limit of Neogene backarc magmatism, is considered to mark the southern boundary of the transient shallow subduction zone.</span></p> application/pdf 10.1130/2006.2407(02) en Geological Society of America Upper Cretaceous to Holocene magmatism and evidence for transient Miocene shallowing of the Andean subduction zone under the northern Neuquén Basin article