Timing of the magmatism of the paleo-Pacific border of Gondwana: U-Pb geochronology of Late Paleozoic to Early Mesozoic igneous rocks of the north Chilean Andes between 20° and 31°S

Indexación: Web of Science; ScieloABSTRACT. U-Pb zircon geochronological data provide record of about 130 Ma of igneous activity in the Andes of northern Chile, which extended episodically from the latest Early Carboniferous to Early Jurassic (328-194 Ma). The overall U-Pb data show that volcanism and plutonism were essentially synchronous and major episodes of igneous activity developed during the Late Carboniferous to Mid-Permian (310 to 260 Ma) and from Late Permian to Late Triassic (255-205 Ma), with less prominent episodes in the mid-Carboniferous (330 to 320 Ma), and Early Jurassic (200-190 Ma). Thus, from the Carboniferous to the Early Triassic dominantly silicic magmatism developed along the Chilean segment of the southwestern border of Gondwana supercontinent. Further magmatism developed during the Mid-Late Triassic (250-194 Ma) was bimodal and synchronous with rift-related, continental and/or marine sedimentary strata related to the early stages of break-up of Gondwana. Most of the silicic volcanic rocks of the Precordillera and Domeyko Cordillera of northern Chile (21°30' to 25°30'S) are older than the silicic rocks assigned to the Choiyoi succession in Argentina, being instead equivalent in age to Carboniferous to Early Permian marine sedimentary sequences present in the eastern Argentinean foreland. On the other hand, silicic volcanic successions exposed in the easternmost part of northern Chile are equivalent in age to the Choiyoi succession of the San Rafael Block of Argentina. An eastward expansion or migration of the volcanism during the Mid-Permian to Early Triassic is inferred, interpretation that is consistent with expansion of the volcanism at that time in Argentina. The timing of the Late Paleozoic to Early Jurassic magmatism is coincident with that of the Andes of Perú and of western Argentina according to the available U-Pb data, revealing a rather consistent evolution in time of the magmatism along the southwestern, paleo-Pacific border of Gondwana. Keywords: Geochronology, U-Pb, Andes, Gondwana, Choiyoi, Paleozoic, Carboniferous, Triassic. RESUMEN. Los datos de U-Pb en circón registran aproximadamente 130 Ma de actividad ígnea en los Andes del norte de Chile, la que se extendió episódicamente desde el Carbonífero temprano hasta el Jurásico temprano (328-194 Ma). Los datos globales de U-Pb indican que el volcanismo y plutonismo fueron esencialmente sincrónicos con episodios mayores desde el Carbonífero tardío al Pérmico Medio (310-260 Ma) y durante el Pérmico Tardío a Triásico Tardío (255-205 Ma) y episodios menos prominentes durante el Carbonífero medio (330-320 Ma) y el Jurásico Temprano (200-190 Ma). Desde el Carbonífero hasta el Triásico Temprano se desarrolló magmatismo predominantemente félsico a lo largo del borde suroccidental del supercontinente de Gondwana, mientras que durante el Triásico medio a tardío (250-194 Ma) se desarrolló magmatismo bimodal sincrónico con estratos sedimentarios continentales y/o marinos relacionados con extensión (rift), durante las etapas tempranas de la desintegración de Gondwana. La mayor parte de las rocas volcánicas silíceas de la precordillera y la cordillera de Domeyko en el norte de Chile (21°30' a 25°30'S) son más antiguas que las rocas silíceas asignadas a la sucesión Choiyoi en Argentina, y son, en cambio, equivalentes en edad con las secuencias sedimentarias marinas del Carbonífero al Pérmico temprano presentes en el antepaís argentino al oriente. Por otra parte, las sucesiones volcánicas félsicas expuestas en la parte más oriental del norte de Chile, de la cordillera de Domeyko y de la cordillera Frontal al sur de 25°S son equivalentes en edad a la sucesión Choiyoi de Argentina. Se infiere una migración o expansión del volcanismo hacia el este durante el Pérmico Medio a Triásico Temprano, interpretación que es consistente con la expansión del volcanismo en Argentina durante ese período. La temporalidad del magmatismo del Paleozoico tardío a Mesozoico temprano es coincidente con la de los Andes de Perú y del oeste de Argentina, de acuerdo a los datos U-Pb disponibles, lo que revela una evolución temporal del magmatismo concordante a lo largo del borde suroeste del Gondwana. Palabras clave: Geocronología, U-Pb, Andes, Gondwana, Choiyoi, Paleozoico, Carbonífero, Triásico

LA-ICP-MS zircon U-Pb geochronology to constrain the age of post-Neocomian continental deposits of the Cerrillos Formation, Atacama Region , northern Chile: tectonic and metallogenic implications Geocronología U-Pb en circón por LA-ICP-MS para circunscribir la edad de depósitos continentales post-neocomianos de la Formacion Cerrillos, Región de Atacama, norte de Chile: implicancias tectónicas y metalogénicas

New U-Pb zircon dating of volcamc intercalations in the lower conglomeratic part of the Cerrillos Formation shows that its deposition extended in time at least from 110.7±1.7 to 99.7±1.6 Ma. The significantly younger U-Pb zircon age of 69.5±1.0 Ma obtained for the upper volcamc part of the Cerrillos Formation suggests recurrence of volcanism in the Late Cretaceous instead of continual volcanic activity. A minimum late Maastrichtian age for the Cerrillos Formation and its initial deformation was determined by the U-Pb zircon age range from 66.9±1.0 to 65.2±1.0 Ma for the lower part of the unconformably overlying Hornitos Formation. The new U-Pb data for the Cerrillos and Hornitos formations poses questions about the Campanian-Maastrichtian age range currently ascribed to the latter. The lower part of the Cerrillos Formation represents a major change in the sedimentary regime from previous marine carbonate sedimentation in a back-arc basin until the late Aptian to subsequent coarse alluvial sedimentation and volcanism since the early Albian. The lower part of the Cerrillos Formation is interpreted as the development of coalescent alluvial fans thinning inland, accompanied by volcanism. These developed as the result of transpressive deformation and uplift of the area of the current Coastal Cordillera by late Aptian, leading to subsequent active erosion and sedimentation inland, along with the eastward shift of the magmatic foci in the Región . Amineralizing period of Cu-Au porphyries overlaps in time with the deposition of the Cerrillos Formation in northern Chile; marking also a significant change in the metallogeny of the Andes of northern Chile.<br>Nuevas dataciones U-Pb obtenidas para intercalaciones volcánicas en la parte inferior conglomerádica de la Formacion Cerrillos muestran que su depositacion se extendió en el tiempo al menos desde 110,7±1,7 hasta 99,7±1,6 Ma. La edad U-Pb significativamente más joven de 69,5±1,0 Ma obtenida para la parte superior volcánica de la Formacion Cerrillos, sugiere la recurrencia del volcanismo en el Cretácico Tardío, más que la continuidad de la actividad volcánica. Una edad mínima Maastrichtiano tardío para la Formacion Cerrillos y su primera etapa de deformacion se determinó por el rango de edades U-Pb de 66,9±1,0 a 65,2±1,0 Ma para la parte inferior de la suprayacente, discordante Formacion Hornitos. LosdatosU-Pb para laFormacion Hornitosplanteaninterrogantesrespecto al rango Campaniano-Maastrichtiano actualmente asignado a esta unidad. La parte inferior de la Formacion Cerrillos representa un cambio mayor en el régimen sedimentario desde la sedimentacion previa calcarea marina en una cuenca de trasarco hasta el Aptiano tardío a una subsecuente sedimentacion aluvial gruesa y volcanismo a partir del Albiano temprano. La parte inferior de la Formacion Cerrillos se interpreta como conos aluviales coalescentes que se adelgazan hacia el interior continental acompañados de volcanismo. Su desarrollo estuvo ligado a la deformacion transpresiva y alzamiento del area de la actual Cordillera de la Costa en el Aptiano tardío, lo que condujo a su erosion y sedimentacion hacia el interior continental, junto con la migracion hacia el este del eje magmático en la Región . Un período de mineralizacion de pórfidos de Cu-Au se traslapa en el tiempo con la depositacion de la Formacion Cerrillos y marca también un cambio importante en la metalogénesis de Los Andes del norte de Chile

Spatial coincidence and similar geochemistry of Late Triassic and Eocene-Oligocene magmatism in the Andes of northern Chile: evidence from the MMH porphyry type Cu-Mo deposit, Chuquicamata district

The MMH porphyry type copper-molybdenum deposit in northern Chile is the newest mine in the Chuquicamata District, one of largest copper concentrations on Earth. Mineralized Eocene-Oligocene porphyry intrusions are hosted by essentially barren Triassic granodiorites. Despite a century of exploitation, geologists still have problems in the mine distinguishing the Triassic granodiorite from the most important ore-carrying Eocene porphyries in the district. To resolve the problem, internally consistent high-quality geochemical analyses of the Triassic and Tertiary intrusives were carried out: explaining the confusion, they show that the rock units in question are nearly identical in composition and thus respond equally to hydrothermal alteration. In detail, the only difference in terms of chemical composition is that the main Eocene-Oligocene porphyries carry relatively less Fe and Ni. Unexpectedly, the mineralized Eocene-Oligocene porphyries have consistently less U and Th than other Tertiary intrusions in the district, a characteristic that may be valuable in exploration. The supergiant copper-molybdenum deposits in the Central Andes were formed within a narrow interval between 45 and 31 Ma, close to 7% of the 200 My duration of "Andean" magmatism, which resulted from subduction of oceanic lithosphere under South America since the Jurassic. Although recent work has shown that subduction was active on the margin since Paleozoic times, pre-Andean (pre-Jurassic) "Gondwanan" magmatism is often described as being very different, having involved crustal melting and the generation of massive peraluminous rhyolites and granites. This study shows that the indistinguishable Late Triassic and Eocene-Oligocene intrusions occupy the same narrow NS geographic belt in northern Chile. If it is accepted that magma character may determine the potential to generate economic Cu-Mo deposits, then Late Triassic volcano-plutonic centres in the same location in the South American margin could have contained valuable ore deposits, although their preservation will depend on the level attained by pre-mid Jurassic erosion. Both Late Triassic and Eocene-Oligocene magmatic events occurred during the waning stages of vigorous volcano-plutonic cycles, and both preceded apparent gaps in igneous activity (Rhaetian and post-Oligocene), abrupt lateral shifts of the volcanic front and radical changes in the character of the magmas generated. Both Late Triassic and Eocene-Oligocene intrusions were emplaced along the same narrow strip of crust; it is probable that they both exploited the same deep crustal structures. The Eocene-Oligocene magmatic front was controlled by an orogen-parallel shear system caused by oblique subduction; it is possible that Late Triassic magmatism along the same belt had a similar setting. The identified Rhaetian gap in subduction and magmatism may have widespread implications.CODELCO's Gerencia de Recursos Mineros y Desarrollo Distrital MZGeoscience Inc. of Halifax, Canad

Fission track thermochronology of Neogene plutons in the Principal Andean Cordillera of central Chile (33-35°S): Implications for tectonic evolution and porphyry Cu-Mo mineralization Termocronología mediante trazas de fision de plutones neógenos en la Cordillera Principal Andina de Chile central (33-35°S): Implicancias para la evolución tectónica y mineralización de pórfidos de Cu-Mo

Apatite fission track data for Miocene plutons of the western slope of the Principal Andean Cordillera in central Chile (33-35°S) define a distinct episode of enhanced crustal cooling through the temperature range of the apatite partial annealing zone (~125-60°C) from about 6 to 3 Ma. This cooling episode is compatible with accelerated exhumation of the plutons at the time of Pliocene compressive tectonism, and mass wasting on the western slope of the Principal Andean Cordillera in central Chile. The timing coincides with the southward migration of the subducting Juan Fernández Ridge and the development of progressive subduction flattening northward of 33°S. It also corresponds to the time of active magmatic-hydrothermal processes and rapid unroofing of the world class Río Blanco-Los Bronces and El Teniente porphyry Cu-Mo deposits. Zircon fission track ages coincide with previous 40Ar/39Ar dates of the intrusions, and with some of the apatite fission track ages, being coherent with igneous-linked, rapid cooling following magmatic intrusion. The thermochronologic data are consistent with a maximum of about 8 km for Neogene exhumation of the plutons.Los datos de trazas de fision en apatita de plutones miocenos del flanco oeste de la Cordillera Principal de Chile central (33-35°S) definen un episodio distintivo de enfriamiento acelerado a través del rango de temperatura de la zona de acortamiento parcial de trazas en apatita (~125-60°C) entre los 6 a 3 Ma. Este episodio de enfriamiento es compatible con exhumación rápida de los plutones al tiempo del tectonismo compresivo plioceno y remociones en masa en el flanco oeste de la Cordillera Principal en Chile central. El período de tiempo coincide con la migración hacia el sur de la subducción de la Dorsal de Juan Fernández y con el desarrollo de un aplanamiento progresivo de la subducción hacia el norte de los 33°S. También corresponde al tiempo de actividad magmático-hidrotermal y rápido desenterramiento de los pórfidos de Cu-Mo de clase mundial de Río Blanco-Los Bronces y El Teniente. Las edades de circones por trazas de fision coinciden con datos geocronológicos 40Ar/39Ar previos a las intrusiones y con algunas de las edades de trazas de fision en apatitas, siendo coherentes con el enfriamiento rápido relacionado con procesos ígneos después de la intrusion magmática. Los datos son consistentes con un maximo de aproximadamente 8 km para la exhumación neógena de los plutones

Potential mineral resources of the Chilean offshore: an overview

The seabed included in the Chilean Exclusive Economic Zone (EEZ) has proper conditions to originate and host different ore deposits, but its geological knowledge is scarce and scattered. The existent studies are very limited in terms of geochemical and mineralogical analyses. The most significant non-energetic mineral resources off Chile correspond to Fe-Mn nodules and crusts, phosphorite deposits, gold and titanium placer deposits and massive sulfide deposits. Fe-Mn nodule sites occur in abyssal plains and seamounts, and around volcanic islands, at depths from 2,890 to 4,332 m, and can contain important concentrations of Cu and Ni (up to 1.38% Cu+Ni) and Co (up to 0.53%). Co-rich Fe-Mn crust occurrences have been reported around the Rapanui and Salas y Gomez islands, with Cu+Ni contents up to 0.3%. Phosphorite sites occur in Holocene sedimentary beds of the continental shelf off Peru and northern Chile, with P2O5 average content of 22.6%. Gold placer deposits are found in beaches and channels of southern Chile and may extend offshore probably in submarine canyons. Titanium placer deposits have been evaluated in different beaches of Chile and could also be continued offshore. Platinum anomalies have been found in channels and bays of southernmost Chile. No samples of Volcanogenic Massive Sulfide (VMS) mineralization arc known in the Chilean EEZ to date. However, samples of hydrothermal vents, with potential for polymetallic VMS type mineralization, have been recovered around the Rapanui Island, and several seamount and volcanic island chains indicate favorable conditions for formation and preservation of these ore-deposits. The available geological information on the seabed of the Chilean EEZ is insufficient to estimate the real potential of its non-energetic mineral resources.AMTC (CONICYT/PIA Project

Metallogeny, structural evolution, post-mineral cover distribution and exploration in concealed areas of the northern Chilean Andes

Mineral exploration of prospective areas concealed by extensive post-mineralization cover is growing, being very complex and expensive. The projection of rich and giant Paleocene to early Oligocene porphyry-Cu-Mo belts in northernmost Chilean Andes (17.5-19.5 degrees S) has major exploration potential, but only a few minor deposits have been reported to date, due to the fact that the area is largely covered by post-mineral strata. We integrate the Cenozoic stratigraphic, structural and metallogenic evolution of this sector, in order to identify the most promising regions related to lesser post-mineral cover and the projection of different metallogenic belts. The Paleocene to early Eocene metallogenic belt extends along the Precordillera, with ca. 30 km wide, and includes porphyry-Cu prospects and small Cu (+/- Mo-Au-Ag) vein and breccia-pipe deposits. Geochronological data indicate an age of 55.5 Ma for an intrusion related to one deposit and ages from 69.5 to 54.5 Ma for hydrothermal alteration in one porphyry-Cu prospect and largest known Cu deposits. The middle Eocene to early Oligocene porphyry belt, in the Western Cordillera farther east, is associated with 46-44 Ma intrusions. It is estimated to be 40-km wide, but is largely concealed by thick post-mineral cover. The youngest Miocene to early Pliocene metallogenic belt, also in the Western Cordillera, is well-exposed and includes Au-Ag epithermal and polymetallic veins and manto-type deposits. The Oligocene-Holocene cover consists of a succession of continental sedimentary and volcanic rocks that overall increase in thickness from 0 to 5000 m, from west to east. These strata are subhorizontal in the west and folded-faulted towards the east. Miocene gentle anticlines and monocline flexures extend along strike for 30-60 km in the Precordillera and were generated by propagation of high-angle east dipping blind reverse faults with at least 300-900 m of Oligocene bedrock offset. The thickness of cover exceeds 2000 m in the eastern Central Depression, whereas it is generally less than 1000 m in the Precordillera along the Paleocene to early Eocene porphyry-Cu belt and it can reach locally up to 5000 m in the Western Cordillera, above the middle Eocene to early Oligocene belt. In the studied Andean segment, the Miocene to early Pliocene metallogenic belt is superimposed on the Paleocene to Oligocene belts in a 40-50 km wide zone. This overlap may be explained by an accentuated migration of the magmatic front, from east to west, since ca. 25 Ma, as a consequence of subduction slab steepening after a period of magmatic lull and flat subduction from ca. 30-35 to 25 Ma. The identified areas of lesser cover thickness are prone to exploration for concealed deposits, especially along the projection of major porphyry-Cu-Mo belts. (C) 2017 Elsevier B.V. All rights reserved.Chilean "Servicio Nacional de Geologia y Mineria" (SERNAGEOMIN) / French "Institut de Recherche pour le Developpement" (IRD) / Advanced Mining Technology Center (AMTC) of the "Universidad de Chile"/ CONICYT, FB080

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Fil: Donnari, Eva I. Secretaría de Minería. Dirección Nacional del Servicio Geológico; Argentina.Fil: Peralta, E.H. Secretaría de Minería. Dirección Nacional del Servicio Geológico; Argentina.Fil: Segal, S.J. Secretaría de Minería. Dirección Nacional del Servicio Geológico; Argentina.Fil: Zanettini, J.C.M. Secretaría de Minería. Dirección Nacional del Servicio Geológico; Argentina.Fil: Maksaev, V. Servicio Nacional de Geología y Minería; Chile.Fil: Mpodozis, C. Servicio Nacional de Geología y Minería; Chile.Si bien en el mapa no está indicado, se ingresa este trabajo como el número XXI de la colección Anales del SEGEMAR, ya que está es la forma en que aparece en un catálogo del organismo.El mapa metalogénico de la frontera Argentino-Chilena ha sido ejecutado por la Dirección Nacional del Servicio Geológico (Argentina) y el Servicio Nacional de Geología y Minería (Chile), en virtud del convenio de cooperación científica y tecnológica en geología y minería establecido entre la Secretaría de Minería de la República Argentina y el Ministerio de Minería de la República de Chile en diciembre de 1993. El propósito del mismo es representar las expresiones minerales metalíferas y el ambiente geológico en el que se emplazan, en ambos lados de la frontera, con el fin de visualizar áreas que por su características pueden ser de interés prospectivo. Fue elaborado con criterio no interpretativo, prescindiendo de consideraciones genéticas, y es por lo tanto un mapa mineral-depósito cuya propuesta es señalar donde se han concentrado los minerales económicos y, por comparación, donde pueden hallarse depósitos aún no descubiertos. Se indica una geología simplificada, limitada a grandes unidades litológicas reunidas por su relación preferencial con las principales manifestaciones minerales conocidas en ambos países. En tal sentido las unidades antedichas son rocas portadoras y no necesariamente coetáneas con los procesos mineralizantes. El mapa considera una faja territorial a ambos lados de la frontera, de 120 a 280 Km de ancho y extendida, en sentido norte-sur, desde la latitud del punto tripartito cerro Zapaleri hasta el paralelo 34 º de latitud sur. La base geológica-minera y geográfica del mismo han sido las publicaciones de Aparicio (1975), Méndez et aL (1979 y 1989), Secretaría de Minería (1993), SERNAGEOMIN (1982), Ulriksen (1990), Universidad de San Juan (1983) e información inédita de las delegaciones Tucumán, La Rioja y San Juan de la Secretaría de Minería de Argentina