The Sixtymile Formation is a very thin accumulation of sandstone, siltstone, and breccia underlying the

Tapeats Sandstone Except where underlain by the Sixtymile Formation, Cambrian Tapeats Sandstone is typically the lowest geologic unit, about thick, at its maximum, of the 5-member Tonto Group. It is famous for being the highly-resistant mostly-horizontal unit ...

that is exposed in only four places in the Chuar Valley. These exposures occur atop Nankoweap Butte and within Awatubi and Sixtymile Canyons in the eastern Grand Canyon, Arizona. The maximum preserved thickness of the Sixtymile Formation is about . The actual depositional thickness of the Sixtymile Formation is unknown owing to erosion prior to deposition of the Tapeats Sandstone.Dehler, CM, SM Porter, and JM Timmons (2012) ''The Neoproterozoic Earth system revealed from the Chuar Group of Grand Canyon.'', in JM Timmons and KE Karlstrom, eds., pp. 49–72, ''Grand Canyon Geology: Two Billion Years of Earth's History.'' Special Paper no. 489. Geological Society of America, Boulder, Colorado. Sixtymile Formation and the underlying Chuar Group are preserved only in a broad asymmetric fold comprising both units, called the Chuar syncline. The ''Chuar Syncline'' is a doubly plunging fold, which means that along the hingeline within the axis of the syncline, beds in some areas (Nankoweap Canyon) dip toward the south, and in other areas (Lava Chuar Canyon), beds dip toward the north. The Sixtymile Formation, Chuar Group, and ''Chuar Syncline'' is bounded on the east by the Butte fault zone and on all other sides by the overlying Tapeats Sandstone. The hingeline of the ''Chuar Syncline'' parallels the trace of the Butte fault, suggesting a genetic relationship between the syncline and the fault. In descending order, the Sixtymile Formation is underlain by the Chuar Group, Nankoweap Formation, and the

Unkar Group The Unkar Group is a sequence of strata of Proterozoic age that are subdivided into five geologic formations and exposed within the Grand Canyon, Arizona, Southwestern United States. The 5-unit Unkar Group is the basal member of the 8-member Gr ...

. The Unkar Group lies unconformably upon deeply eroded

granite Granite () is a coarse-grained ( phaneritic) intrusive igneous rock composed mostly of quartz, alkali feldspar, and plagioclase. It forms from magma with a high content of silica and alkali metal oxides that slowly cools and solidifies under ...

gneiss Gneiss ( ) is a common and widely distributed type of metamorphic rock. It is formed by high-temperature and high-pressure metamorphic processes acting on formations composed of igneous or sedimentary rocks. Gneiss forms at higher temperatures a ...

es, pegmatites, and

schist Schist ( ) is a medium-grained metamorphic rock showing pronounced schistosity. This means that the rock is composed of mineral grains easily seen with a low-power hand lens, oriented in such a way that the rock is easily split into thin flakes ...

s of the

Vishnu Basement Rocks The Vishnu Basement Rocks is the name recommended for all Early Proterozoic crystalline rocks (metamorphic and igneous) exposed in the Grand Canyon region. They form the crystalline basement rocks that underlie the Bass Limestone of the Unkar ...

. The Nankoweap and Sixtymile formations together with the Chuar and Unkar groups comprise the Grand Canyon Supergroup.

Nomenclature

The Sixtymile Formation of Chuar Group was first recognized by Ford and Breed (1972). It was formally named the ''Sixty Mile Formation'' and was regarded to be the upper formation of Chuar Group of Grand Canyon Supergroup by Ford and Breed (1973). They designated the type locality of the Sixtymile Formation to be outcrops of red to white sandstone and siltstone with chert and interformational breccia exposed by cliffs on the north side of the upper part of Sixtymile Canyon. Later, in 1979, its spelling was changed to ''Sixtymile''. In 2001, Timmons and othersTimmons, J. M., K. E. Karlstrom, C. M. Dehler, J. W. Geissman, and M. T. Heizler. 2001. ''Proterozoic multistage (ca. 1.1 and 0.8 Ga) extension recorded in the Grand Canyon Supergroup and establishment of northwest- and north-trending tectonic grains in the southwestern United States.'' Geological Society of America Bulletin. 11(2): 163–181. reassigned what had been identified as the lowest part of the Sixtymile Formation to the underlying Kwagunt Formation. The age of the Sixtymile Formation was regarded to be Precambrian until 2018, when dating of detrital zircons from it determined it to be Cambrian in age and, as a result, it is assigned to the lowermost formation of the Tonto Group.

Description

The Sixtymile Formation is typically subdivided into three informal members. They are (1) a lower red siltstone, sandstone, and breccia member; (2) a middle cherty quartzite member; and (3) an upper breccia-bearing sandstone and conglomerate member. The lower member, which is to thick, consists of beds of a heterogeneous mixture of laminated hematitic sandstone; thin-bedded micaceous sandstone containing rock fragments; monomict and polymict breccia; crudely bedded sandstone; and thin-bedded soft sandy siltstone. Individual beds are discontinuous and local in extent and often grade into each other. Blocks of dolomite from the underlying Walcott Member often occur in the lower member.Elston, DP (1989) ''Middle and late Proterozoic Grand Canyon Supergroup, Arizona.'' In DP Elston, GH Billingsley, and RA Young, RA., eds., pp. 94–105, ''Geology of the Grand Canyon, Northern Arizona (with Colorado River Guides).'' American Geophysical Union Fieldtrip Guidebook T115/315 for International Geologic Congress, 28th. American Geophysical Union, Washington DC. 239 pp. The Middle Member. which is about thick, of the Sixtymile Formation consists of thin bedded, finely laminated, very fine grained cherty quartzite. The laminated quartzite of the Middle Member is folded on a moderately large scale. The thin beds and laminations of it are crinkled in a manner that reflects slumping of the member toward the axis of the ''Chuar Syncline''. Chert is common to abundant within the Middle Member. The middle of this member contains numerous thin discontinuous beds of chalky-white chert. The lower part of the Middle Member is purplish red, which grades upward to a creamy, mottled-and-streaked red. This member is resistant to erosion and characteristically forms cliffs. This member forms small hills within its upper contact on either side of the ''Chuar Syncline''. The upper contact of the Middle Member with the overlying Upper Member is sharp and unconformable. The basal sandstones of the Upper Member cut about into the beds of the middle member. In inaccessible exposures, conglomerate of the Upper Member appears to unconformably overly the middle member. The Upper Member of the Sixtymile Formation, which is about , consists of fine-grained fluvial and fanglomeratic sandstone that grades abruptly into sandy conglomerate toward the axis of the syncline. It is only preserved in a narrow trough-shaped area in the center of the ''Chuar Syncline''. The sandstone is pale red to brown, and contains scattered rock fragments. These rock fragments include chalky-white chert derived from the middle member. Some of the sandstone exhibits fluvial crossbedding and is fanglomeratic. Massive weathering maroon conglomerate is present in the lower part of the Upper Member. It grades laterally into the sandstone.

Contacts

The basal contact of the Walcott Member with the overlying Sixtymile Formation is conformable. Typically, the contact between the underlying black shale typical of the Walcott and overlying basal red sandstones of the Sixtymile Formation consists of a interval that is gradational in nature. The transition beds and the basal laminated red sandstone of the Sixtymile Formation lack any fragmental or exotic debris, unlike the overlying strata. These field relations thus indicate that deposition was continuous across the Chuar Group–Sixtymile boundary. The upper contact of the Sixtymile Formation is a disconformity that laterally becomes an angular unconformity. Within the center of the ''Chuar Syncline'', this upper contact is a disconformity. Away from the center, the strata of the Sixtymile Formation, an angular discordance between the formations of 6° to 10° can be seen. This unconformity has an irregular hilly surface. In case of the Sixtymile Formation, a small amount of relief, to , in the Sixtymile Canyon area was the result of resistance to erosion of the Middle Member of the Sixtymile Formation (fig. 4). Local erosion removed all of the Upper Member of the Sixtymile from all but the central part of the Chuar syncline prior to the deposition of the Tapeats Sandstone

Fossils

No fossils have been reported from the Sixtymile Formation.

Depositional environment

The strata of the Sixtymile Formation records the accumulation of sediments adjacent to an

active fault An active fault is a fault that is likely to become the source of another earthquake sometime in the future. Geologists commonly consider faults to be active if there has been movement observed or evidence of seismic activity during the last 10,0 ...

scarp. The sandstones and siltstones of the Lower Member are inferred to have accumulated within a lake occupying a basin formed by subsidence of the ''Chuar Syncline''. The

breccia Breccia () is a rock composed of large angular broken fragments of minerals or rocks cemented together by a fine-grained matrix. The word has its origins in the Italian language, in which it means "rubble". A breccia may have a variety of ...

s and blocks of

dolomite Dolomite may refer to: *Dolomite (mineral), a carbonate mineral *Dolomite (rock), also known as dolostone, a sedimentary carbonate rock *Dolomite, Alabama, United States, an unincorporated community *Dolomite, California, United States, an unincor ...

are regarded to be landslide deposits created by the collapse of an active fault scarp associated with the Butte fault zone. The sediments of the Middle Member are inferred to have accumulated in standing water, presumably a lake along the axis of the Chuar syncline as indicated by its very fine grain size, the thin regular bedding, and its bedded

chert Chert () is a hard, fine-grained sedimentary rock composed of microcrystalline or cryptocrystalline quartz, the mineral form of silicon dioxide (SiO2). Chert is characteristically of biological origin, but may also occur inorganically as a ...

. The Upper Member consists of fine-grained fluvial and fanglomeratic sandstone and conglomerate that were deposited by a stream that once flowed along the trough of the ''Chuar Syncline''. The Sixtymile Formation provides dramatic evidence of active faulting along the Butte fault system.

Age

In 2000, the radiometric dating of volcanic ash within the uppermost Walcott Member of the Chuar Group, below the base of the Sixtymile Formation provided a maximum age for its deposition. The U-Pb date of seven zircon fractions, including four single grains, yielded a date of 742±6 million years ago. Thus, the Sixtymile Formation accumulated after 742±6 Ma.Karlstrom, KE, SA Bowring, CM Dehler, AH Knoll, SM Porter, DJ Des Marais, AB Weil, ZD Sharp, JW Geissman, MB Elrick, JM Timmons, LJ Crossey, and KL Davidek (2000) ''Chuar Group of the Grand Canyon: Record of breakup of Rodinia, associated change in the global carbon cycle, and ecosystem expansion by 740 Ma.'' Geology. 28(7):619–622. However, in 2018, the dating of detrital zircons by Karl KarlstromKarlstrom, KE, Hagadorn, J, Gehrels, G, Matthews, W, Schmitz, MD, Madronich, L, Mulder, J, Pecha, M, Giesler, D and Crossey, L (2018
''Cambrian Sauk transgression in the Grand Canyon region redefined by detrital zircons.''
Nature Geoscience. 11(6):438–443. established that the Sixtymile Formation as being Cambrian in age, between 520 and 509 million years old. Thus, the Sixtymile Formation accumulated in lacustrine, fluvial, and shallow marine environment and are preserved within narrow, fault-controlled basins contemporaneous with the accumulation strata of the lower Tonto Group in the western Grand Canyon and Lake Mead regions.Santucci VL and Tweet JS (ed). 2020. ''Grand Canyon National Park: Centennial paleontological resource inventory (non-sensitive version).'' Natural Resource Report. NPS/GRCA/NRR—2020/2103. National Park Service. Fort Collins, Colorado. p. 601.Karlstrom, KE, Mohr, MT, Schmitz, MD, Sundberg, FA, Rowland, SM, Blakey, R, Foster, JR, Crossey, LJ, Dehler, CM and Hagadorn, JW (2020) ''Redefining the Tonto Group of Grand Canyon and recalibrating the Cambrian time scale.'' Geology. 48(5):425–430. As a result, the Sixtymile Formation can be considered a member of the Tonto Group.Karlstrom, KE and Crossey, LJ (2019) ''Classic Rock Tours 3. Grand Canyon Geology, One Hundred and Fifty Years after John Wesley Powell: A Geology Guide for Visiting the South Rim of Grand Canyon National Park.'' Geoscience Canada. 46(4):163–193.

References

Popular Publications

* Blakey, Ron and Wayne Ranney, ''Ancient Landscapes of the Colorado Plateau,'' Grand Canyon Association (publisher), 2008, 176 pages, * Chronic, Halka. ''Roadside Geology of Arizona,'' Mountain Press Publishing Co., 1983, 23rd printing, pp. 229–232, * Lucchitta, Ivo, ''Hiking Arizona's Geology,'' 2001, Mountaineers's Books,

External links

* Anonymous (2006aa
''Sixtymile Formation''
U.S. Geological Survey, Reston, Virginia. * Anonymous (2006bb

U.S. Geological Survey, Reston, Virginia. * Mathis, A., and C. Bowman (2007
''The Grand Age of Rocks: The Numeric Ages for Rocks Exposed within Grand Canyon''Grand Canyon National Park, Arizona
National Park Service, Grand Canyon National Park, Arizona. * Timmons, M. K. Karlstrom, and C. Dehler (1999

ttp://www.gcrg.org/bqr/pdf/12-1.pdf Boatman's Quarterly Review. vol. 12, no. 1 pp. 29–32. * Timmons, S. S. (2003
''Learning to Read the Pages of a Book'' (Grand Canyon Geology Training Manual)
National Park Service, Grand Canyon National Park, Arizona. {{Geology of the Grand Canyon area Geologic formations of Arizona Natural history of the Grand Canyon Cambrian Arizona Cambrian System of North America