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 Group of the Grand Canyon Supergroup and the Tapeats Sandstone of the Tonto Group. These basement rocks have also been called either the Vishnu Complex or Vishnu Metamorphic Complex. These Early Proterozoic crystalline rocks consist of metamorphic rocks that are collectively known as the Granite Gorge Metamorphic Suite; sections of the Vishnu Basement Rocks contain Early Paleoproterozoic granite, granitic pegmatite, aplite, and granodiorite that have intruded these metamorphic rocks, and also, intrusive Early Paleoproterozoic ultramafic rocks.[2][3]
Vishnu Basement Rocks | |
---|---|
Stratigraphic range: Early Paleoproterozoic ~ | |
Type | Geological formation |
Sub-units | Granite Gorge Metamorphic Suite Zoroaster Plutonic Complex |
Underlies | Unkar Group and, as part of the Great Unconformity, the Tapeats Sandstone |
Thickness | unknown |
Lithology | |
Primary | schist and granite |
Other | granodiorite, tonalite, pegmatite, and ultramafic rocks |
Location | |
Region | Arizona – (Grand Canyon) |
Country | United States |
Type section | |
Named for | "Vishnu's Temple" butte |
Named by | Charles Doolittle Walcott[1] |
Year defined | 1894 |
The term Zoroaster Plutonic Complex is used for all Paleoproterozoic granitic and grandioritic plutonic rocks in the Grand Canyon. Specific names have been assigned to individual plutons and dike swarms because the plutons and swarms differ greatly in their age, origin, and tectonic significance. The oldest of these plutonic complexes, Elves Chasm Gneiss, likely represent a small fragment of basement upon which the metavolcanic rocks that comprise the Granite Gorge Metamorphic Suite accumulated. The remainder of the Early Paleoproterozoic granites, granitic pegmatites, aplites, and granodiorites – are parts of either younger plutons or dike swarms, that have intruded the Granite Gorge Metamorphic Suite, either contemporaneously with, or after they were metamorphosed.[4][5]
It was named after a natural rock structure in the Colorado River valley which was named "Temple of Vishnu" from its appearance.[6]
Granite Gorge Metamorphic Suite
The Granite Gorge Metamorphic Suite consists of lithologic units, the Brahma, Rama, and Vishnu schists, that have been mapped within the Upper, Middle, and Lower Granite Gorges of the Grand Canyon. The Vishnu Schist consists of quartz-mica schist, pelitic schist, and meta-arenites. They exhibit relict sedimentary structures and textures that demonstrate that they are metamorphosed submarine sedimentary rocks. The Brahma Schist consists of amphibolite, hornblende-biotite-plagioclase schist, biotite-plagioclase schist, orthoamphibole-bearing schist and gneiss, and metamorphosed sulfide deposits. As inferred from relict structures and textures, the Brahma Schist is composed of mafic to felsic-composition metavolcanic rocks. The Rama Schist consists of massive, fine-grained quartzofeldspathic schist and gneiss that likely are probable felsic metavolcanic rocks. On the basis of the presence of relict pillow structures, interlayering of metavolcanic strata, and the large volumes of metavolcanic rocks, the Brahma and Rama schists are interpreted to consist of metamorphosed, volcanic island-arc and associated submarine volcanic rocks. These metavolcanic rocks are locally overlain by the metamorphosed submarine sedimentary rocks of the Vishnu Schist that are interpreted to have accumulated in oceanic trenches. These metasedimentary rocks were originally composed of particles of quartz, clay, and volcanic rock fragments that have become metamorphosed into various schists. The Vishnu Schist exhibits relict graded bedding and structures indicative of turbidite deposits that accumulated in oceanic trenches and other relatively deep-marine settings. The Brahma Schist has been dated to about 1.75 billion years ago. The felsic metavolcanic rocks that comprise the Rama Schist have yielded an age of 1.742 billion years ago.[3][4][5]
Early Paleoproterozoic basement
The oldest rocks that are part of the Vishnu Basement Rocks is the Elves Chasm pluton. It consists of metamorphosed mafic (hornblende-biotite tonalite) and intermediate-composition plutonic rocks (quartz diorite). Within it, there are tabular amphibolite bodies that might be dikes, that have been dated at about 1.84 billion years ago. It is regarded to be an older granodioritic pluton that was exposed by erosion prior to being buried by the original volcanic and submarine sedimentary rocks of the Granite Gorge Metamorphic Suite. The Elves Chasm pluton is likely part of the basement rocks on which the original volcanic rocks and sediments of the Granite Gorge Metamorphic Suite were deposited.[3][4][7]
The highly tectonized contact between Elves Chasm pluton and the Granite Gorge Metamorphic Suite is exposed near Waltenberg Canyon, in 115-Mile Canyon, near Blacktail Canyon, and in the Middle Granite Gorge. This contact is characterized by a high-grade orthoamphibole-bearing gneiss. This gneiss is interpreted to be a highly metamorphosed and sheared paleosol and associated regolith that originally consisted of several meters of weathered rock debris eroded from older plutonic rocks.[3][4][5]
Younger intrusive igneous rocks
On the basis of rock type, type of intrusion, chemistry, and age of rocks, two main groups of younger Early Paleoproterozoic igneous intrusive (plutonic) rocks have been distinguished within the Vishnu Basement Rocks. One group, which dates between 1.74 and 1.71 billion years ago, consists of large plutons such as the Zoroaster pluton, the Ruby pluton, and the Diamond Creek pluton. There is no noticeable baking and metamorphism of the country rock adjacent to them. Because of this, they were likely shallowly emplaced beneath the volcanic arc in which the metavolcanics and metasediments of the Granite Gorge Metamorphic Suite accumulated. In addition, these intrusive rocks have undergone all the deformation that has also affected their adjacent country rock. This further indicates that they are just slightly younger than the metavolcanic and metasedimentary rocks they intrude. This and their calc-alkaline granitic composition, which is similar to plutons forming in modern 'subduction zone related' volcanic arcs, indicates that they are remnants of early volcanic arc systems associated with Early Paleoproterozoic subduction zones. Comparable volcanic arc systems, which are associated with subduction zones, are active today in the Aleutian Islands and Indonesia (e.g., Sumatra and Java).[3][4]
The second group of younger Early Paleoproterozoic igneous intrusive rocks is quite different in style, age, and significance. These igneous intrusive rocks consist of granitic and pegmatitic dike swarms, i.e. the Cottonwood, Cremation, Sapphire, and Garnet pegmatite complexes, that cut the Granite Gorge Metamorphic Suite from east to west. They formed as granite magma, and related pegmatite fluids, filled crack-systems as magma migrated through the crust. The chemical composition of the granite and pegmatite comprising these dike swarms is indicative of the partial melting of the metasedimentary and metavolcanic rocks of the Granite Gorge Metamorphic Suite both in-place and at greater depth, in the crust. These dikes exhibit a wide variability in the degree that they have been deformed from straight and nearly undeformed – to varying degrees of folding, stretching, and shearing. The variable degree of the deformation of these structures is interpreted to indicate that these dike swarms were emplaced during a period of significant mountain building and crustal thickening that was possibly associated with continental collision.[3][4]
Ultramafic rocks
Also present within the Vishnu Basement Rocks, are thin, discontinuous, and unnamed lenses of ultramafic rocks. They are found in several places within the Inner Gorge, such as at River Miles 81, 83, and 91; Salt Creek; Granite Park; and Diamond Creek. These ultramafic rocks occur typically as tectonic fault-bounded slivers, which are often associated with tectonic shear zones and exhibit coarse-grained relict cumulate textures. These rocks are interpreted to be the tectonically dismembered parts of the bases of large 1.74 and 1.71 billion years ago plutons that have intruded the Granite Gorge Metamorphic Suite. This interpretation is based upon the abundance of phlogopite and geochemistry of light rare-earth elements that imply a geochemical contribution from subducting slab material. The composition of these ultramafic rocks is consistent with their origin by simple fractional crystallization within a pluton.[4][8]
Upper contact
The upper contact of the Vishnu Basement Rocks is a major unconformity between it and either the Tonto Group or Unkar Group that resulted from uplift and the deep erosion, by at least 25 kilometres (16 mi), of the Vishnu Basement Rocks and any overlying strata. In the case of the unconformity between the Vishnu Basement Rocks and the Unkar Group, studies of the underlying Vishnu Basement Rocks indicate they were uplifted from a depth of about 25 kilometres (16 mi) to a depth of about 10 kilometres (6.2 mi), between 1.75 and 1.66 billion years ago, and from a depth of about 10 kilometres (6.2 mi) to the weathered surface on which the Bass Formation of the Unkar Group accumulated – between 1.66 and 1.25 billion years ago.[9][10]
References
- See:
- Walcott, Charles D. (1883) "Pre-Carboniferous strata in the Grand Cañon of the Colorado, Arizona," American Journal of Science, 3rd series, 26 : 437–42, 484.
- Walcott, Charles Doolittle (1894) "Pre-Cambrian igneous rocks of the Unkar terrane Grand Canyon of the Colorado, Arizona, with notes on the petrographic character of the lavas, by Joseph Paxson Iddings," Fourteenth Annual Report of the United States Geological Survey … , Part 2, pp. 497–519, 520–24. Reprinted as a pamphlet: Walcott, Charles Doolittle, "Pre-Cambrian igneous rocks of the Unkar terrane Grand Canyon of the Colorado, Arizona, with notes on the petrographic character of the lavas, by Joseph Paxson Iddings," (Washington, D.C.: U.S. Government Printing Office, 1895); see p. 507.
- Noble, L. F., "The Shinumo Quadrangle, Grand Canyon District, Arizona," Bulletin 549, United States Geological Survey, Dept. of the Interior, (Washington, D.C.: Government Printing Office, 1914), pp. 11–96 [32]. From p. 32: "Proterozoic Rocks. Archean System. Vishnu schist. Name." The name Vishnu terrane has been given by Walcott1 to the fundamental crystalline complex of the Grand Canyon region that underlies the unaltered sedimentary rocks of Algonkian age … The type of locality is on [the] Colorado River, 30 miles east of the mouth of Shinumo Creek, at the base of one of the great buttes called "Vishnu's Temple," from which Walcott derived the name."
- Anonymous (nd) Vishnu Basement Rocks. U. S. Geological Survey, Reston, Virginia.
- Karlstrom, KE, BR Ilg, Bradley, D Hawkins, ML Williams, G Dumond, KK. Mahan, and SA Bowring, Samuel (2012) Vishnu basement rocks of the Upper Granite Gorge: Continent formation 1.84 to 1.66 billion years ago. In JM Timmons and KE Karlstrom, eds., pp. 7–24, Grand Canyon geology: Two billion years of earth's history. Special Paper no 294, Geological Society of America, Boulder, Colorado.
- Karlstrom, KE, BR Ilg, ML Williams, DP Hawkins, SA Bowring, and SJ Seaman (2003) Paleoproterozoic rocks of the Granite Gorges. In SS Beus and M Morales, eds., pp. 9–38, Grand Canyon Geology, 2nd ed. Oxford University Press, New York.
- Ilg, BR, KE Karlstrom, and ML Williams (1996) Tectonic evolution of Paleoproterozoic rocks in the Grand Canyon – Insights into middle-crustal processes. Geological Society of America Bulletin. 108(9):1149–66.
- Dutton, Clarence E. (1882). The Tertiary History of the Grand Cañon District. Tertiary history of the Grand Canyon Districtwith atlas. Washington, DC, USA: Government Printing Office. p. 148. ISBN 9780879050313. From p. 148: "The finest butte of the chasm is situated near the upper end of the Kaibab division; but it is not visible from Point Sublime. It is more than 5,000 feet high, and has a surprising resemblance to an Oriental pagoda. We named it Vishnu's temple."
- Hawkins, DP, SA Bowring, BR Ilg, KE Karlstrom, and ML Williams (1996) U-Pb geochronologic constraints on the Paleoproterozoic crustal evolution of the Upper Granite Gorge, Grand Canyon, Arizona. Geological Society of America Bulletin. 108(9):1167–81.
- Seaman, SJ, KE Karlstrom, ML Williams, and AJ Petruski (1997) Proterozoic Ultramafic Bodies in the Grand Canyon. Geological Society of America, Abstracts with Programs. 29(6):A-89.
- Timmons, JM, KE Karlstrom, MT Heizler, SA Bowring, GE Gehrels, and LJ Crossey (2005) Tectonic inferences from the ca. 1254–1100 Ma Unkar Group and Nankoweap Formation, Grand Canyon: Intracratonic deformation and basin formation during protracted Grenville orogenesis. Geological Society of America Bulletin. 117(11/12):1573–95.
- Timmons, JM, J. Bloch, K. Fletcher, KE Karlstrom, M Heizler, and LJ Crossey (2012) The Grand Canyon Unkar Group: Mesoproterozoic basin formation in the continental interior during supercontinent assembly. In JM Timmons and KE Karlstrom, eds., pp. 25–47, Grand Canyon geology: Two billion years of earth's history. Special Paper no 294, Geological Society of America, Boulder, Colorado.
External links
- Anonymous (nd) Vishnu Basement Rocks. U. S. Geological Survey, Reston, Virginia.
- Babcock, R.S., E.H. Brown, M.D. Clark and D.E. Livingston (1979). Geology of the Older Precambrian Rocks of the Grand Canyon: Part I. Petrology and Structure of the Vishnu Complex. Part II. The Zoroaster Plutonic Complex and Related Rocks. Part III. Petrology of Mafic Schists and Amphibolites. Precambrian Research, 8, pp. 219–302.
- Babcock, R.S. (1990). The Precambrian Crystalline Core (of the Grand Canyon). In S.S. Beus and M. Morales, eds., Grand Canyon Geology (1st ed.), pp. 11–28. Oxford University Press/Museum of Northern Arizona.
- Billingsley, G.H., W.J. Breed, M.D. Clark, P.W. Huntoon and others (1976). Geologic Map of the Grand Canyon National Park, Arizona. Museum of Northern Arizona and Grand Canyon Natural History Association.
- Billingsley, GH (2000) Geologic Map of the Grand Canyon 30' by 60' Quadrangle, Coconino and Mohave Counties, Northwestern Arizona. Geologic Investigation Series no. I-2688, 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.
- Noble, FL (1914) Geologic Map and Section of the Shinumo Quadrangle, Arizona. National Geologic Map Database, U.S. Geological Survey, Reston, Virginia.
- Share, J (2102a) The Great Unconformity of the Grand Canyon and the Late Proterozoic-Cambrian Time Interval: Part I – Defining It. last accessed September 22, 2013.
- Share, J (2102a) The Great Unconformity and the Late Proterozoic-Cambrian Time Interval: Part II – The Rifting of Rodinia and the "Snowball Earth" Glaciations That Followed. last accessed September 22, 2013.
- Timmons, JM, MK Karlstrom, and C Dehler (1999) Grand Canyon Supergroup Six Unconformities Make One Great Unconformity A Record of Supercontinent Assembly and Disassembly. 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.