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Title: Petrifaction  
Author: World Heritage Encyclopedia
Language: English
Subject: Fossil, The Book of Healing, Picture of the day/December 15, 2006, POTD column/December 15, 2006, POTD row/December 15, 2006
Collection: Botany, Fossilization, Fossils, Sedimentary Rocks, Taphonomy
Publisher: World Heritage Encyclopedia


In permineralization and replacement. These processes create replicas of the original specimen that are similar down to the microscopic level, and require a minimum of about 10,000 years to take place.[1]


  • Processes 1
    • Permineralization 1.1
      • Silicification 1.1.1
      • Pyritization 1.1.2
    • Replacement 1.2
  • Uses 2
    • Architecture 2.1
  • Artificial petrification 3
  • See also 4
  • References 5



One of the processes involved in petrification is permineralization. The fossils created through this process tend to contain a large amount of the original material of the specimen. This process occurs when groundwater containing dissolved minerals (most commonly

  1. ^ Cedric Mims (21 October 2014). When We Die: The Science, Culture, and Rituals of Death. St. Martin's. p. 190.  
  2. ^ Babcock, Loren. "Permineralization". Access Science Encyclopedia. McGraw-Hill. Retrieved 29 March 2012. 
  3. ^ a b c Perkins, Rogers. "Fossilization: How Do Fossils Form". Fossil Museum. Retrieved Feb 15, 2012. 
  4. ^ Sigleo, Anne (1978). Organic geochemistry of silicified wood, Petrified Forest National Park, Arizona. Arizona. pp. 1397–1405. 
  5. ^ Mustoe, G (2008). Mineralogy and geochemistry of late Eocene silicified wood from Florissant Fossil Beds National Monument, Colorado. Geological Society of America. pp. 127–140. 
  6. ^ Leo, R.F.; Barghoorn, E.S. (1976). Silicification of Wood. Harvard University. p. 27. 
  7. ^ Viney, Mike. "Permineralization". The Petrified Wood Museum. 
  8. ^ "How Does Wood Petrify". National Computational Science in Educati. National Computational Science in Educati. Retrieved 4 April 2012. 
  9. ^ Kirby, Doug; Ken Smith; Mike Wilkins. "Petrified Wood Gas Station". Roadside America. Retrieved 3 April 2012. 
  10. ^ Saltarelli, Mary G. (June 2009). "Irreplaceable Works of Art". Texas Co-op Power Magazine (June 2009). Retrieved 3 April 2012. 
  11. ^ Kuban, Glen J. "Dinosaur Valley State Park". Retrieved 3 April 2012. 
  12. ^ "Agate House". U.S. Department of the Interior. National Park Service. Retrieved 4 April 2012. 
  13. ^
  14. ^ Orlandini, G.E.; Tempestini R; Lippi D; Paternostro F; Zecchi-Orlandini S; Villari N. (Jan–March 2007). "Bodies of stone: Girolamo Segato (1792-1836)". Italian Journal of Anatomy and Embryology 112 (1): 13–18.  
  15. ^
  16. ^


See also

Recently, at the Girolamo Segato claimed to have supposedly "petrified" human remains. His methods were lost, but the bulk of his "pieces" are on display at the Museum of the Department of Anatomy in Florence, Italy.[14] More recent attempts have been both successful and documented, but should be considered as semi-petrification or incomplete petrification or at least some novel type of wood composite as the wood material remains to a certain degree: the constituents of wood (cellulose, lignins, lignans, oleoresins, etc.) have not been replaced by silicate, but have been infiltrated by specially formulated acidic solutions of aluminosilicate salts that gel in contact with wood matter and create a matrix of silicates within the wood after being left to react slowly for a given period of time in the solution or heat cured for faster results : Hamilton Hicks of Greenwich, Connecticut, patented his "recipe" for rapid artificial petrification of wood under US patent 4,612,050.[15] Hicks' recipe consists of highly mineralized water and a sodium silicate solution combined with a dilute acid with a pH of 4.0-5.5. Samples of wood are then penetrated with this mineral solution through repeated submersions and applications of the solution. Wood treated in this fashion is according to the claims in the patent incapable of being burned and acquires the features of petrified wood. Some uses of this product as suggested by Hicks include use by horse breeders who desire fireproof stables constructed of nontoxic material that would also be resistant to chewing of the wood by horses.[16]

Artificial petrification

Petrified wood has also been used in construction. The Petrified Wood Gas Station, located in Lamar, Colorado, was built in 1932 and consists of walls and floors constructed from pieces of petrified wood over 175 million years old. The structure, built by W.G. Brown, has since been converted to office space and a used car dealership.[9] Glen Rose, Texas provides even more examples of the use of fossilized wood in architecture. Beginning in the 1920s, the farmers of Somervell County, Texas began uncovering 115 million year old petrified trees. Local craftsmen and masons then built over 65 structures from this petrified wood, 45 of which were still standing as of June 2009. These structures include gas stations, flowerbeds, cottages, restaurants, fountains and gateposts.[10] Glen Rose, Texas is also been noted for Dinosaur Valley State Park and the Glen Rose Formation, where fossilized dinosaur footprints from the Cretaceous period, dating back about 110 million years, can be viewed.[11] Another example of the use of petrified wood in construction is the Agate House Pueblo in the Petrified Forest National Park in Arizona. Built by ancestral Pueblo people about 990 years ago, this eight-room building was constructed almost entirely out of petrified wood and is believed to have served as either a family home or ceremonial center.[12]


Not only are the fossils produced through the process of petrification used for paleontological study, but they have also been used as both decorative and informative pieces. Petrified wood is used in several ways. Slabs of petrified wood can be crafted into tabletops, or the slabs themselves are sometimes displayed in a decorative fashion. Also, larger pieces of the wood have been carved into sinks and basins. Other large pieces can also be crafted into chairs and stools. Petrified wood and other petrified organisms have also been used in jewelry, sculpture, clock-making, ashtrays and fruit bowls, and landscape and garden decorations.


Replacement, the second process involved in petrification, occurs when water containing dissolved minerals dissolves the original solid material of an organism, which is then replaced by minerals. This can take place extremely slowly, replicating the microscopic structure of the organism. The slower the rate of the process, the better defined the microscopic structure will be. The minerals commonly involved in replacement are calcite, silica, pyrite, and hematite.[3] It is rare to find organisms preserved by replacement alone (as opposed to in combination with permineralization), but these fossils present significant importance to paleontologists because these fossils tend to be very detailed.[8]


[3] Pyritization is a process similar to silicification, but instead involves the deposition of iron and sulfur in the pores and cavities of an organism. Pyritization can result in both solid fossils as well as preserved soft tissues. In marine environments, pyritization occurs when organisms are buried in sediments containing a high concentration of iron sulfides. Organisms release sulfide, which reacts with dissolved iron in the surrounding water, when they decay. This reaction between iron and sulfides forms


Silicification is the process in which organic matter becomes saturated with silica. A common source of silica is volcanic material. Studies have shown that in this process, most of the original organic matter is destroyed.[4][5] Silicification most often occurs in two environments-either the specimen is buried in sediments of deltas and floodplains or organisms are buried in volcanic ash. Water must be present for silicification to occur because it reduces the amount of oxygen present and therefore reduces the deterioration of the organism by fungi, maintains organism shape, and allows for the transportation and deposition of silica. The process begins when a specimen is permeated with an aqueous silica solution. The cell walls of the specimen are progressively dissolved and silica is deposited into the empty spaces. In wood samples, as the process proceeds, cellulose and lignin, two components of wood, are degraded and replaced with silica. The specimen is transformed to stone (a process called lithification) as water is lost. For silicification to occur, the geothermic conditions must include a neutral to slightly acidic pH[6] and a temperature and pressure similar to shallow-depth sedimentary environments; under these conditions, silicification can occur in 50,000 years or less.[7]

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