Picuris orogeny
The Picuris orogeny was an orogenic event in what is now the Southwestern United States from 1.43 to 1.3 billion years ago in the Calymmian Period of the Mesoproterozoic. The event is named for the Picuris Mountains in northern New Mexico and interpreted either as the suturing of the Granite-Rhyolite crustal province to the southern margin of the proto-North American continent Laurentia or as the final suturing of the Mazatzal crustal province onto Laurentia. According to the former hypothesis, this was the second in a series of orogenies within a long-lived convergent boundary along southern Laurentia that ended with the ca. 1200–1000 Mya Grenville orogeny during the final assembly of the supercontinent Rodinia, which ended an 800-million-year episode of convergent boundary tectonism.
Description
Age and isotope data show that southern North America is composed of a series of northeast-trending provinces representing island arc terranes accreted onto the 1800 Mya core of Laurentia. These are the Yavapai province, the Mazatzal province, the Granite-Rhyolite province, and the Llano-Grenville province. Each is interpreted as juvenile crust of an island arc, together with smaller amounts of reworked older crust, that accreted to Laurentia in an orogenic pulse accompanied by pluton emplacement. The plutons sutured new and existing orogens together and helped convert the juvenile terranes to mature crust. The orogen pulses are identified as the Yavapai orogeny at 1710–1680 Mya, the Mazatzal orogeny at 1650–1600 Ga, the Picuris orogeny at 1450–1300 Mya, and the Grenville orogeny at 1.30–0.95 Mya.Some of the orogens were accompanied by slab rollback. This created short-lived extensional basins that accumulated sand and high-silica volcanic debris to form Proterozoic quartzite-rhyolite successions. Subsequent convergent tectonics closed the basis and thrust imbricated the successions.
The northeast-trending provinces are truncated by Neoproterozoic passive margins that indicate the orogenic system once extended much further. This part of the basis for the AUSWUS reconstruction of Rodinia, which places Australia adjacent to the southwestern US from 1800 to 1000 Mya. Other supporting evidence includes correspondence of 1450 and 1000 Ga paleomagnetic poles between Australia and Laurentia. The northeastern extension of the orogenic belt would then correspond to the Gothian orogeny in Baltica and the southwestern extension to the Albany-Fraser orogeny. The close correspondence of detrital zircon ages and Hf isotope isotopes between the Mazazatl province and Australia supports this reconstruction. However, the placement of Australia has been disputed on the basis of paleomagnetic data. The SWEAT reconstruction places East Antarctica on the southwest extension of the Yavapai Province.
Early evidence for a major tectonic event at around 1400 Mya was the presence of numerous batholiths of the age in the southwestern United States. These constitute over 20% of the entire exposed Precambrian surface in New Mexico and the Rocky Mountains. Much of the mid-continent from eastern New Mexico to the northeast is underlain by the 1450-1350 Granite-Rhyolite crustal province. However, this was long assumed to be an anorogenic event, possibly due to basaltic underplating. Direct evidence for uplift in the form of sedimentation was lacking until detrital zircon geochronology established that some formations of the Vadito and Hondo Groups, long assumed to be Statherian in age, were actually Calymmian.
Relationship to Mazatzal Orogeny
A number of quartzite-rhyolite successions previously associated with the Mazatal orogeny have been shown to contain both Paleoproterozoic and Mesoproterozoic formations, based on detrital zircon geochronology. The younger formations define the Picuris orogeny at 1450–1300 Mya. This has raised the question of whether the Mazatzal origeny was actually distinct from the Picuris orogeny.Silver estimated the timing of the Mazatzal orogeny as between 1715 Mya and 1650 Mya. The end of the event was based on the U-Pb age of a post-tectonic granite located near Young, Arizona and folded rocks of the Alder Group In contrast, Livingston's work in the Upper Salt River Canyon utilized Rb-Sr dating techniques to estimated the timing of the Mazatzal orogeny between 1425-1380 +/-100 Mya.
Further mapping in the 1970s and 1980s showed that the Mazatzal Group rested entirely an angular unconformity with sheeted dikes of the 1729 Mya Payson ophiolite and pre-1700 Mya Alder Group. Workers were unable to identify any ash layers directly within the Mazatzal Group needed to constrain the actual timing of folding and thrusting attributed to the Mazatzal orogeny. It was ultimately recognized that the granite near Young, Arizona, dated by Silver in 1965 was the best post-tectonic timing relationship between the pre-1700 Ma, deformed Alder Group and granite near Young. Redating of the granite in the late 1980s confirmed its age and the timing relationship between the folded Alder Group and granite. However, this assumed that the deformation of the pre-1700 Ma Alder Group also included the northwest-directed folding and thrusting in the Mazatzal Group. This discounted the significance of the obvious angular unconformity at the base of the Mazatzal Group.
New mapping and utilization of detrital zircon geochronology during the 2010s were able to constrain the age of the youngest sediments above the Mazatzal Group involved in the classic deformation of the Mazatzal orogeny. Detrital zircons from the Hopi Springs Shale in the northern Mazatzal Mountains yielded a maximum depositional age of 1571 Mya. Similar sediments collected from a shale folded in the core of the Four Peaks synform yielded a MDA of 1580 Mya. In the Upper Salt River Canyon, overlying the White Ledge Formation, sediments from the conformably overlying Yankee Joe and Blackjack Formations yielded MDA of ca. 1470 Mya. The entire sediment sequence of Redmond, White Ledge, Yankee Joe, and Blackjack Formations were deformed sometime after 1470 Mya. The event buried the section to 6-10 km deep before it was intruded by the 1450 Ma Ruin Granite.
These timings are contemporaneous with the timing of deformation of the Picuris orogeny defined in north-central New Mexico.. However, there are indications of three distinct orogenic episodes at the Black Canyon of the Gunnison, with an exhumation surface separating Yavapai and Mazatzal events. There is evidence from southern New Mexico of a collision between 1675 and 1655 Ma followed by crustal melting. The Sandia, Manzano, and Los Pinos Mountains of central New Mexico contain 1.65-1.66 Ga plutons which are interpreted as a magmatic arc system in which plutons were intruding their own volcanic edifices and were also intruding developing syn-contractional, arc-related sedimentary basins. These are distinct from 1453-1456 plutons emplaced syntectonically during the Picuris orogeny.The orogenies may be distinct but with the Picuris orogeny badly overprinting the earlier Mazatzal orogeny.