Earth:Franciscan Assemblage

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Short description: A late Mesozoic terrane of heterogeneous rocks in the California Coast Ranges
Franciscan Assemblage
Stratigraphic range: Late Jurassic to Late Cretaceous
Glen Canyon Park Chert Outcrop.jpg
Roadcut showing Franciscan chert in Glen Canyon Park, San Francisco
Typevaried; primarily metamorphic (low grade), but also sedimentary, igneous and high-grade metamorphic
Underliesvarious
Overliesbasement; Coast Range Ophiolite in some areas
Lithology
Primaryschist (incl. serpentinite), sandstone, basalt
Othershale
Location
RegionCalifornia Coast Ranges, northern Transverse Ranges
CountryUnited States
Type section
Named forSan Francisco , California

Franciscan Assemblage or Franciscan Complex is a geologic term for a late Mesozoic terrane of heterogeneous rocks found throughout the California Coast Ranges, and particularly on the San Francisco Peninsula. It was named by geologist Andrew Lawson, who also named the San Andreas fault that defines the western extent of the assemblage.[1]

Easily identified by its red-green color (sometimes dark blue) and folded, twisted appearance, the assemblage is usually characterized as being primarily metamorphic in nature. Its most well-known rocks are serpentine and blueschists. However, the assemblage contains a wide range of different rocks in different stages of the rock cycle. A single outcrop may contain basalt, chert, and other rocks in addition to schist.

The outcrops of the formation have a very large range, extending from Douglas County, Oregon to Santa Barbara County, California.[2] Franciscan-like formations may be as far south as Santa Catalina Island. The formation lends its name to the term describing high-pressure regional metamorphic facies, the Franciscan facies series.[3]

Description

Diagram showing depositional setting of the Franciscan Assemblage and the contemporaneous Great Valley Sequence.[4]

These rocks - which are also known as the Franciscan Complex, Formation, Series, or Group - include mafic volcanic rocks (basalt), many of which are altered to greenstone, radiolarian cherts, greywacke sandstones, limestones, serpentinites, shales, and high-pressure metamorphic rocks, such as blueschist. Although most of the Franciscan is Late Jurassic through Cretaceous in age (150-66 Ma),[5] some Franciscan rocks as young as Miocene (15 Ma), and as old as early Jurassic (180-190 Ma) age are known.[6] Following deposition, these rocks were then faulted, folded and mixed in a seemingly chaotic manner.[7] Due to the lack of continuous exposures and the complex folding and faulting, it is impossible to use conventional methods to estimate the thickness of the assemblage. However, various arguments can be made that at least 50,000 feet (15,240 m) of sediment are present.[8]

Geologic history

Geologic map showing distribution of Franciscan Assemblage (light blue). Modified from Irwin (1990).[9]

Franciscan rocks are thought to have formed prior to creation of the San Andreas Fault when an ancient deep-sea trench existed along the California continental margin. This trench, most of which is no longer evident, resulted from subduction of oceanic crust of the Farallon tectonic plate beneath continental crust of the North American Plate. As oceanic crust descended beneath the continent, volcanic rocks, mainly basalt, making up the lower plate, and marine sediments deposited on top of it were scraped off and accreted (i.e., added) to the leading edge of the overriding plate. This resulted in widespread deformation with development of thrust faults and folding. Ophiolite (which weathers to serpentine), and rocks altered by high-pressure metamorphism (such as blueschist) were emplaced during this episode. Deformation and emplacement continued during subsequent creation of the San Andreas fault to result in a complex chaotic assemblage of diverse rock types that some refer to as a mélange.[10]

Fossils

Franciscan sediments contain a sparse, but diverse assemblage of fossils. The most abundant fossils by far are microfossils, particularly in the cherts, which contain single-celled organisms called radiolarians that have exoskeletons of silica. There are also in some of the shales microfossils of planktonic foraminifera that have exoskeletons of carbonate. These microfossils, by and large, indicate deposition in an open-water setting where deep-water conditions exist.[11] Vertebrate fossils in the Franciscan are extremely rare, but include three Mesozoic marine reptiles that are shown in the table below.[12] Again, these indicate an open-water, and therefore deep-marine setting. Although rare, a few shallow-marine fossils have been found as well, and include extinct oysters (Inoceramus) and clams (Buchia).[11] Microfossils in the Calera Limestone member of the Franciscan exposed at the Permanente and Pacifica cement quarries also indicate a shallow-marine setting, with deposition on top of a seamount in the tropical Pacific Ocean and subsequent transport and accretion by the Pacific Plate onto the California continental margin.[13] Thus, even though most of the Franciscan appears to have been deposited in a deep-water setting, it is a complex and diverse assemblage of rocks, and shallow-water settings, though not the norm, existed as well.

Mesozoic Vertebrate Fossils of the Franciscan Assemblage
Genus Species Notes
Ichthyosaurus californicus[14] Name means "fish-lizard of California ." Found in 1935 in Stanislaus County in a piece of Franciscan chert from the Coast Ranges washed into the Great Valley.
franciscanus[14] Name means "fish-lizard of the Franciscan." Found in 1940 in San Joaquin County in a piece of Franciscan chert from the Coast Ranges washed into the Great Valley.
Plesiosaurus hesternus[14] Name means "one who is near to being a lizard of the West coast." Found in 1949 in San Luis Obispo County in a limestone concretion in Franciscan-Knoxville shales.

Economic importance

Although no significant accumulations of oil or gas have been found in the Franciscan, other opportunities have been exploited over the years. During the 19th century when gold mining was one of the main industries in California, cinnabar associated with serpentine in the Franciscan was mined for quicksilver (mercury) needed to process gold ore and gold-bearing gravels. Some of the more important mines were those at New Idria and New Almaden, the Sulphur Bank Mine at Clearlake Oaks, and the Knoxville Mine (cf. McLaughlin Mine) and others at Knoxville. The Franciscan also contains large bodies of limestone pure enough for making cement, and the Permanente Quarry near Cupertino, California is a giant open-pit mine in a body of Franciscan limestone that supplied most of the cement for building the Shasta Dam across the Sacramento River.[15] The Rockaway Beach Quarry at Pacifica is another example of a major limestone quarry in the Franciscan.

See also

  • Earth:Farallon Plate – Ancient oceanic plate that has mostly subducted under the North American Plate
  • Earth:Great Valley Sequence – Group of late Mesozoic formations in the Central Valley of California
  • Earth:Subduction – A geological process at convergent tectonic plate boundaries where one plate moves under the other

Notes

  1. Bailey, Irwin and Jones (1964), p. 15-17.
  2. Oregon Coast Range simplified geologic map
  3. Tulane University - Regional Metamorphism
  4. diagram is modified from figure 3.11, p. 74 in Irwin (1990).
  5. Bailey, Irwin and Jones (1964), p. 142-146; Blome and Irwin (1983), p. 77-89..
  6. McLaughlin (1982), p. 595-605.
  7. Bailey, Irwin and Jones (1964), p. 21-114.
  8. Bailey, Irwin and Jones (1964), p. 20.
  9. map is modified from figure 3.3, p. 62-63 in Irwin (1990).
  10. Wentworth et al. (1984), p. 163-173; Irwin (1990), p. 61-82.
  11. 11.0 11.1 Bailey, Irwin and Jones (1965), p. 115-123; Blome and Irwin (1983), p. 77-89.
  12. Hilton (2003), p. 223-225.
  13. Tarduno et al. (1985), p. 345-347.
  14. 14.0 14.1 14.2 Hilton (2003), "Appendix: Summary of the Mesozoic Reptilian Fossils of California," p. 272-273.
  15. Austin, Donna (26 June 2009). "Kaiser dug for cement and hit aluminum foil". http://cupertino-news.com/?p=184. Retrieved 14 June 2013.  Also see the following online anonymous article "Henry Kaiser’s Legacy Woven into Rich California Tapestry". 26 November 2009. http://www.kaiserpermanentehistory.org/tag/hoover-dam/. Retrieved 14 June 2013. 

References

  • Bailey, E.H.; Irwin, W.P.; Jones, D.L. (1964). "Franciscan and related rocks and their significance in the geology of western California". California Div. Mines and Geology Bull. 183: 177 p. 
  • Blome, C.D.; Irwin, W.P. (1983). "Tectonic significance of late Paleozoic to Jurassic radiolarians from the North Fork terrane, Klamath Mountains, California". in Stevens, C.H.. Pre-Jurassic rocks in western North America suspect terranes. Pacific Section of the Society of Paleontologists and Mineralogists. pp. 77–89. 
  • Hilton, Richard P. (2003). Dinosaurs and Other Mesozoic Reptiles of California. Berkeley. University of California Press. 356 p. 
  • Irwin, William P. (1990). "Geology and plate-tectonic development". in Robert E. Wallace. The San Andreas Fault System, California. U.S. Geological Survey Professional Paper 1515. pp. 61–82. https://pubs.usgs.gov/pp/1990/1515/. 
  • McLaughlin, R.J., Kling, S.A., Poore, R.Z., McDougall, K. and Beutner, E.C. (1982). "Post-middle Miocene accretion of Franciscan rocks, northwestern California". Geological Society of America Bulletin 93: 595–605. doi:10.1130/0016-7606(1982)93<595:pmaofr>2.0.co;2. 
  • Tarduno, John A., McWilliams, M., Debiche, M.G., Sliter, W.V., and Blake, M.C. (1985). "Franciscan Complex Calera limestones: accreted remnants of Farallon Plate oceanic plateaus". Nature 317. doi:10.1038/317345a0. http://www.nature.com/nature/journal/v317/n6035/pdf/317345a0.pdf. Retrieved 2013-06-14. 
  • Wentworth, C. M.; Blake, M. C. Jr.; Jones, D. L.; Walter, A. W.; Zoback, M. D. (1984). "Tectonic wedging associated with emplacement of the Franciscan assemblage, California Coast Ranges". in Blake, M.C.. Franciscan geology of northern California. Pacific Section, Society of Economic Paleontologists and Mineralogists. Field Trip Guidebook 43, p. 163–173. 

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