The Marquenas Formation is a geological formation that crops out in the Picuris Mountains of northern New Mexico . Detrital zircon geochronology gives it a maximum age of 1435 million years, corresponding to the Calymmian period .
7-464: The Marquenas Formation was first believed to be over 80% quartzite, with the rest mostly metaconglomerate . The metaconglomerate lenses are found throughout the formation but particularly towards its top, and it was designated the Marquenas Quartzite. However, Bauer and Williams noted that the unit is about equally divided between quartzite and metaconglomerate, which led them to redesignate it as
14-669: A maximum age of 1435 Mya, much younger than the Vadito Group. The provenance of the quartzite clasts in the Marquenas Formation remain uncertain, since they contain no aluminum silicate minerals and little crossbedding, but both are present in the Ortega Formation , the most likely local source rock. One possibility is that the clasts were derived from quartzite units of the Manzano Group to the south. A metamorphosed tuff bed in
21-414: Is a rock type which originated from conglomerate after undergoing metamorphism . Conglomerate is easily identifiable by the pebbles or larger clasts in a matrix of sand , silt , or clay . Metaconglomerate looks similar to conglomerate, although sometimes the clasts are deformed. The cement matrix of conglomerate is not as durable as the grains, and hence when broken, conglomerate breaks around
28-685: The Pilar Formation yields an age of 1488 ± 6 Mya , and the Piedra Lumbre Formation likewise contains zircons dated to 1425 Mya. This suggests that the Pilar Formation and Piedra Lumbre Formation should be removed from the Hondo Group , and grouped with the Marquenas Formation as sediments deposited by the Picuris orogeny . The beds were originally assigned to the lower conglomerate member of
35-504: The Vadito Formation by Arthur Montgomery in 1953, who estimated the thickness as up to 600 meters. P.E. Long broke the beds out as the Marquenas Quartzite in 1976 and named them after Cerro de las Marquenas. Paul W. Bauer and Michael L. Williams redesignated the unit as the Marquenas Formation in their sweeping revision of the stratigraphy of Precambrian rocks in northern New Mexico in 1989. Metaconglomerate Metaconglomerate
42-643: The Marquenas Formation. It can be divided into a lower, highly strained, poorly sorted boulder conglomerate; a middle quartzite member; and an upper, highly strained, pebble-to-cobble conglomerate. Cross stratification shows that the layering is overturned, and this supported the interpretation of the formation as part of the Vadito Group , likely correlating with the Big Rock Formation of the Tusas Mountains . However, detrital zircon geochronology establishes
49-454: The grains. Metaconglomerate, however, breaks through the grains, as the cement has recrystallized and may be as durable as the clasts. Foliated metaconglomerate is created under the same metamorphic conditions that produce slate or phyllite , but with the parent rock ( protolith ) being conglomerate, rather than clay. The metaconglomerates of the Jack Hills of Western Australia are
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