Polvadera Group

The Polvadera Group is a group of geologic formations exposed in and around the Jemez Mountains of northern New Mexico. Radiometric dating gives it an age of 13 to 2.2 million years, corresponding to the Miocene through early Quaternary.

Geology
The Jemez Mountains lie on the intersection of the western margin of the Rio Grande Rift and the Jemez Lineament. Here magma produced from the fertile rock of an ancient subduction zone has repeatedly found its way to the surface along faults produced by rifting. This has produced a long-lived volcanic field, with the earliest eruptions beginning at least 13 million years ago in both the northern (Polvadera Group) and southern (Keres Group) portions of the volcanic field. High-silica eruptions of the Tewa Group began about 1.85 million years ago and continued almost to the present day.

The Polvadera Group is a sequence of basalt, andesite, dacite, and rhyolite flows that underlie part of the central and most of the northern Jemez Mountains. It overlaps the Keres Group to the south and has a maximum thickness of about 1100 meters. It overlies the Abiquiu Formation and Santa Fe Group and is overlain by the Tewa Group.

Formations
From oldest to youngest, the formations recognized within the Polvadera Group are the Lobato Formation, the La Grulla Formation, the Tschicoma Formation, and the El Rechuelos Rhyolite.

The Lobato Formation is a sequence of mostly tholeiitic basalt flows that underlies the mesas fringing the northern and northeastern sides of the Jemez Mountains. Major flows include the basalts of Clara Peak, Lobato Mesa, Polvadera Mesa, Escoba Mesa, and Cerro Pedernal. The formation was named for Lobato Mesa (36.126°N, -106.309°W), where the formation is particularly thick and extensive, by H. T. U. Smith in 1938. The formation has a maximum thickness of 180 meters and is a succession of numerous flows ranging from 6 meters to 15 meters in thickness. The flows are mostly olivine-augite basalts, but hypersthene-, pigeonite-, and titaniferous augite-bearing basalts are also found. The formation was erupted between 14 and 7 million years ago, peaking between 10.8 million and 7.8 Mya.

The Lobato Formation is separated from the underlying Abiquiu Formation and Santa Fe Group by an erosional surface locally veneered by boulders and cobbles of Precambrian basement. The formation in turn is overlain by dacites and quartz latites of the Tschicoma Formation. The earliest flows mapped as Lobato Formation are interbedded with Santa Fe Group sediments and have been dated at 14.1 + 0.3 Mya.

The El Rechuelos Rhyolite is named for El Rechuelos, a small steep drainage on the western side of Polvadera Peak (36.064°N, -106.446°W). It was originally defined as a set of five small rhyolite domes and a small pumice cone in the northern Jemez Mountains. These rest on dacites of the Tschicoma Formation and are overlain by Bandelier Tuff. Petrological and radiometric age measurements have shown that only two of the domes, plus a vent discovered later, properly belong to the El Rechuelos Rhyolite and have an age of 2 million years. The remaining rhyolite domes are much older and resemble units of the Keres Group to the south.

The ages and chemistries point to five distinct batches of magma for the El Rechuelos Rhyolite as originally defined. The Early Rhyolite has an 40Ar/39 age of 7.10 + 0.04 Ma and is characterized by phenocrysts of plagioclase, quartz, biotite, and sanidine; the Intermediate Rhyolite has an age of 7.05 + 0.24 Ma and is characterized by phenocrysts of plagioclase, sanidine, and biotite; the Pumice Ring Rhyolite has an age of 5.61 + 0.48 and is characterized by plagioclase, biotite, quartz, and amphibole phenocrysts in a finely crystalline groundmass; the El Rechuelos Rhyolite (sensu stricto) is 2.23 +0.15 Ma old and is sparsely porphyritic rhyolite glass; and the Young Rhyolite is 1.19 + 0.01 Ma old and has phenocrysts of sanidine, quartz, plagioclase, and sparse fayalite. All have a total rock composition characteristic of rhyolite. The Young Rhyolite appears to be part of the Bandelier Tuff.

The El Rechuelos Rhyolite has geochemistry consistent with an origin in a lower crustal magma chamber generated from a mantle‐derived mafic magma, probably the nearby Lobato Basalt, by fractional crystallization with limited assimilation (less than six percent) of lower crust. This system was likely distinct from the Bandelier Tuff magma system.

History of investigation
The group was first defined by Bailey, Smith, and Ross in 1969 as part of their work establishing the stratigraphy of the Jemez Mountains. The group was named for Polvadera Peak, which is a major eruptive center for the group and the second highest peak in the Jemez Mountains (36.06°N, -106.405°W). They included in the group the Lobato Basalt, the Tschicoma Formation, and the El Rechuelos Rhyolite. Bruce M. Loeffler and coinvestigators narrowed the definition of the El Rechuelos Rhyolite in 1988, and Shari A. Kelley and coinvestigators defined the La Grulla Formation in 2013.

The division of the precaldera formations of the Jemez Mountains into the Polvadera and Keres Groups, based largely on geography, has been criticized as artificial, and the Polvadera Group itself includes formations of disparate origins and ages. Fraser Goff and his coinvestigators abandoned the Polvadera Group in their 2011 mapping of the Valles Caldera, assigning its formations to the Keres Group, as did Shari A. Kelley and coinvestigators in their 2013 study.

Cultural significance
Obsidian obtained from the Polvadera Group has been found in Paleoindian archaeological sites as far east as Oklahoma.