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Tektites (from grc, τηκτός , meaning 'molten') are gravel-sized bodies composed of black, green, brown or grey natural
glass Glass is a non-Crystallinity, crystalline, often transparency and translucency, transparent, amorphous solid that has widespread practical, technological, and decorative use in, for example, window panes, tableware, and optics. Glass is most ...
formed from terrestrial debris ejected during meteorite impacts. The term was coined by Austrian geologist Franz Eduard Suess (1867–1941), son of Eduard Suess. They generally range in size from millimetres to centimetres. Millimetre-scale tektites are known as microtektites.French, B. M. (1998) ''Traces of Catastrophe: A Handbook of Shock-Metamorphic Effects in Terrestrial Meteorite Impact Structures.'' LPI Contribution No. 954. Lunar and Planetary Institute, Houston, Texas. 120 pp.McCall, G. J. H. (2001) ''Tektites in the Geological Record: Showers of Glass from the Sky.'' The Geological Society Publishing House, Bath, United Kingdom. 256 pp. Montanari, A., and C. Koeberl (2000) ''Impact Stratigraphy. The Italian Record.'' Lecture Notes in Earth Sciences Series no. 93. Springer-Verlag, New York, New York. 364 pp. Tektites are characterized by: # a fairly homogeneous composition # an extremely low content of water and other volatiles # an abundance of lechatelierite # a general lack of microscopic crystals known as microlites and chemical relation to the local
bedrock In geology, bedrock is solid rock that lies under loose material ( regolith) within the crust of Earth or another terrestrial planet. Definition Bedrock is the solid rock that underlies looser surface material. An exposed portion of be ...
or local
sediment Sediment is a naturally occurring material that is broken down by processes of weathering and erosion, and is subsequently transported by the action of wind, water, or ice or by the force of gravity acting on the particles. For example, sa ...
s # their distribution within geographically extensive strewn fields


Characteristics

Although tektites are superficially similar to some terrestrial
volcanic A volcano is a rupture in the crust of a planetary-mass object, such as Earth, that allows hot lava, volcanic ash, and gases to escape from a magma chamber below the surface. On Earth, volcanoes are most often found where tectonic plates ...
glasses ( obsidians), they have unusual distinctive physical characteristics that distinguish them from such glasses. First, they are completely glassy and lack any microlites or phenocrysts, unlike terrestrial volcanic glasses. Second, although high in
silica Silicon dioxide, also known as silica, is an oxide of silicon with the chemical formula , most commonly found in nature as quartz and in various living organisms. In many parts of the world, silica is the major constituent of sand. Silica is o ...
(>65 wt%), the bulk chemical and isotopic composition of tektites is closer to those of
shale Shale is a fine-grained, clastic sedimentary rock formed from mud that is a mix of flakes of clay minerals (hydrous aluminium phyllosilicates, e.g. kaolin, Al2 Si2 O5( OH)4) and tiny fragments (silt-sized particles) of other minerals, especia ...
s and similar
sedimentary rock Sedimentary rocks are types of rock that are formed by the accumulation or deposition of mineral or organic particles at Earth's surface, followed by cementation. Sedimentation is the collective name for processes that cause these particle ...
s and quite different from the bulk chemical and isotopic composition of terrestrial volcanic glasses. Third, tektites contain virtually no water (<0.02 wt%), unlike terrestrial volcanic glasses. Fourth, the flow-banding within tektites often contains particles and bands of lechatelierite, which are not found in terrestrial volcanic glasses. Finally, a few tektites contain partly melted inclusions of shocked and unshocked mineral grains, i.e.
quartz Quartz is a hard, crystalline mineral composed of silica ( silicon dioxide). The atoms are linked in a continuous framework of SiO4 silicon-oxygen tetrahedra, with each oxygen being shared between two tetrahedra, giving an overall chemical ...
,
apatite Apatite is a group of phosphate minerals, usually hydroxyapatite, fluorapatite and chlorapatite, with high concentrations of OH−, F− and Cl− ions, respectively, in the crystal. The formula of the admixture of the three most common ...
, and zircon, as well as coesite. The difference in water content can be used to distinguish tektites from terrestrial volcanic glasses. When heated to their melting point, terrestrial volcanic glasses turn into a foamy glass because of their content of water and other volatiles. Unlike terrestrial volcanic glass, a tektite produces only a few bubbles at most when heated to its melting point, because of its much lower water and other volatiles content.O'Keefe, J. A., (1978) ''Tektites and Their Origin.'' Developments in petrology vol. 4. Elsevier Scientific Publishing Company, New York, New York. 254 pp.


Classification

On the basis of morphology and physical characteristics, tektites have traditionally been divided into four groups. Those found on land have traditionally been subdivided into three groups: (1) splash-form (normal) tektites, (2) aerodynamically shaped tektites, and (3) Muong Nong-type (layered) tektites. Splash-form and aerodynamically shaped tektites are only differentiated on the basis of their appearance and some of their physical characteristics. Splash-form tektites are centimeter-sized tektites that are shaped like spheres, ellipsoids, teardrops, dumbbells, and other forms characteristic of isolated molten bodies. They are regarded as having formed from the solidification of rotating liquids, and not atmospheric ablation. Aerodynamically shaped tektites, which are mainly part of the Australasian strewn field, are splash-form tektites (buttons) which display a secondary ring or flange. The secondary ring or flange is argued as having been produced during the high-speed re-entry and ablation of a solidified splash-form tektite into the atmosphere. Muong Nong tektites are typically larger, greater than 10 cm in size and 24 kg in weight, irregular, and layered tektites. They have a chunky, blocky appearance, exhibit a layered structure with abundant vesicles, and contain mineral inclusions, such as zircon, baddeleyite, chromite,
rutile Rutile is an oxide mineral composed of titanium dioxide (TiO2), the most common natural form of TiO2. Rarer polymorphs of TiO2 are known, including anatase, akaogiite, and brookite. Rutile has one of the highest refractive indices at visible wa ...
,
corundum Corundum is a crystalline form of aluminium oxide () typically containing traces of iron, titanium, vanadium and chromium. It is a rock-forming mineral. It is a naturally transparent material, but can have different colors depending on the ...
, cristobalite, and coesite. Microtektites, the fourth group of tektites, are less than 1 mm in size. They exhibit a variety of shapes ranging from spherical to dumbbell, disc, oval, and teardrop. Their colors range from colorless and transparent to yellowish and pale brown. They frequently contain bubbles and lechatelierite inclusions. Microtektites are typically found in deep-sea sediments that are of the same ages as those of the four known strewn fields. Microtektites of the Australasian strewn field have also been found on land within Chinese loess deposits, and in sediment-filled joints and decimeter-sized weathering pits developed within glacially eroded granite outcrops of the Victoria Land Transantarctic Mountains, Antarctica.Chunlai, L., O. Ziyuang, and L. Dongsheng (1993) ''Microtektites and glassy microspherules in loess: Their discoveries and implications.'' Science in China, Series B. 36(9):1141–1152.Folco, L., M. D’Orazio, M. Tiepolo, S. Tonarini, L. Ottolini, N. Perchiazzi, P. Rochette, and B.P. Glass (2009) ''Transantarctic Mountain microtektites: Geochemical affinity with Australasian microtektites.'' Geochimica et Cosmochimica Acta. 73(12):3694–3722.


Occurrence

Most tektites have been found within four geographically extensive strewn fields: the Australasian, Central European, Ivory Coast, and North American. As summarized by Koeberl,Koeberl , C. (1994) ''Tektite origin by hypervelocity asteroidal or cometary impact: Target rocks, source craters, and mechanisms.'' in B.O. Dressler, R.A.F.Grieve, and V.L. Sharpton, eds., pp. 133–152, Large meteorite impacts and planetary evolution. Special Paper no. 293. Geological Society of America, Boulder, Colorado. the tektites within each strewn field are related to each other with respect to the criteria of petrological, physical, and chemical properties, as well as their age. In addition, three of the four strewn fields have been clearly linked with impact craters using those same criteria. Recognized types of tektites, grouped according to their known strewn fields, their associated craters, and ages are: * Australasian strewnfield (The impact crater was located in 2019 after a decades-long search. Approximate age: 0.77–0.78 million years): ** Australites ( Australia, dark, mostly black); **
Indochinite An Indochinite is a type of tektite. Tektites were ejected into the Earth's upper atmosphere by a meteorite impact and subsequently cooled to form the distinctive glass-like structure. Indochinites are distinctly dark black in contrast to the green ...
s ( South East Asia, dark, mostly black); **
Philippinite Philippinites, or rizalites are tektites found in the Philippines. They are considered to be about 710,000 years old on the average and generally ranging in size from millimeters to centimeters. Their age corresponds with the age of other tektites ...
s (
Philippines The Philippines (; fil, Pilipinas, links=no), officially the Republic of the Philippines ( fil, Republika ng Pilipinas, links=no), * bik, Republika kan Filipinas * ceb, Republika sa Pilipinas * cbk, República de Filipinas * hil, Republ ...
, black). * Central European strewnfield ( Nördlinger Ries impact crater (24 km),
Germany Germany, officially the Federal Republic of Germany (FRG),, is a country in Central Europe. It is the most populous member state of the European Union. Germany lies between the Baltic and North Sea to the north and the Alps to the sou ...
, age: 15 million years): ** Moldavites (Czech Republic, green). * Ivory Coast strewnfield ( Lake Bosumtwi impact crater (10 km), Ghana, age: 1 million years): ** Ivorites (Ivory Coast, black). * North American tektite strewn field ( Chesapeake Bay impact crater (40 km), United States – age: 34 million years): **
Bediasite Bediasite is a form or type of tektite, which is a body of natural glass formed from earth debris during meteorite impact events. It originates in an area in the eastern part of the U.S. state of Texas centered on the small town of Bedias which is ...
s (Texas – black to dark brown, some with metallic finish); **
Georgiaite Georgiaite is a rare form of tektite found only in the state of Georgia in the southeastern United States. These tektites are found in part of the North American strewn field coming from what is believed to be the Chesapeake Bay impact crater in th ...
s (Georgia – green). Comparing the number of known impact craters versus the number of known strewn fields, Artemieva considered essential factors such as the crater must exceed a certain diameter to produce distal ejecta, and that the event must be relatively recent. Limiting to diameters 10 km or more and younger than 50 Ma, the study yielded a list of 13 candidate craters, of which the youngest eight are given below. Preliminary papers in the late 1970s suggested either Zhamanshin or Elgygytgyn as the source of the Australasian strewnfield. Povenmire and others have proposed the existence of an additional tektite strewn field, the Central American strewn field. Evidence for this reported tektite strewn field consists of tektites recovered from western
Belize Belize (; bzj, Bileez) is a Caribbean and Central American country on the northeastern coast of Central America. It is bordered by Mexico to the north, the Caribbean Sea to the east, and Guatemala to the west and south. It also shares a wa ...
in the area of the villages of Bullet Tree Falls, Santa Familia, and Billy White. This area lies about 55 km east-southeast of Tikal, where 13 tektites, two of which were dated as being 820,000 years old, of unknown origin were found. A limited amount of evidence is interpreted as indicating that the proposed Central American strewn field likely covers Belize, Honduras, Guatemala,
Nicaragua Nicaragua (; ), officially the Republic of Nicaragua (), is the largest Sovereign state, country in Central America, bordered by Honduras to the north, the Caribbean Sea, Caribbean to the east, Costa Rica to the south, and the Pacific Ocean to ...
, and possibly parts of southern
Mexico Mexico ( Spanish: México), officially the United Mexican States, is a country in the southern portion of North America. It is bordered to the north by the United States; to the south and west by the Pacific Ocean; to the southeast by Guate ...
. The hypothesized Pantasma Impact Crater in northern Nicaragua might be the source of these tektites.H. Povenmire, R. S. Harris, and J. H. Cornec (2011)
The New Central American Tektite and Strewn Field.
42nd Lunar and Planetary Science Conference, Houston, Texas. abstract no. 1224.
H. Povenmire, B. Burrer, J. H. Cornec, and R. S. Harris (2012)
The New Central American Tektite Strewn Field Update.
43rd Lunar and Planetary Science Conference, Houston, Texas. abstract no. 1260.
Senftle, F. E., A. N. Thorpe, J. R. Grant, A. Hildebrand, H. Moholy-Nagy, B. J. Evans, and L. May (2000) ''Magnetic measurements of glass from Tikal, Guatemala: Possible tektites.'' Journal of Geophysical Research. 105(B8):18921-18926.


Age

The ages of tektites from the four strewnfields have been determined using
radiometric dating Radiometric dating, radioactive dating or radioisotope dating is a technique which is used to date materials such as rocks or carbon, in which trace radioactive impurities were selectively incorporated when they were formed. The method compares t ...
methods. The age of moldavites, a type of tektite found in the
Czech Republic The Czech Republic, or simply Czechia, is a landlocked country in Central Europe. Historically known as Bohemia, it is bordered by Austria to the south, Germany to the west, Poland to the northeast, and Slovakia to the southeast. Th ...
, was determined to be 14 million years, which agrees well with the age determined for the Nördlinger Ries crater (a few hundred kilometers away in Germany) by radiometric dating of Suevite (an impact
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 d ...
found at the crater). Similar agreements exist between tektites from the North American strewnfield and the Chesapeake Bay impact crater and between tektites from the Ivory Coast strewnfield and the Lake Bosumtwi Crater. Ages of tektites have usually been determined by either the K-Ar method, fission-track dating, the Ar-Ar technique, or combination of these techniques. Tektites in geological and archaeological deposits have been used as age markers of stratified deposits, but this practice is controversial.


Origins


Terrestrial source theory

The overwhelming consensus of Earth and planetary scientists is that tektites consist of terrestrial debris that was ejected during the formation of an impact crater. During the extreme conditions created by a hypervelocity meteorite impact, near-surface terrestrial sediments and rocks were either melted, vaporized, or some combination of these, and ejected from an impact crater. After ejection from the impact crater, the material formed millimeter- to centimeter-sized bodies of molten material, which as they re-entered the atmosphere, rapidly cooled to form tektites that fell to Earth to create a layer of distal ejecta hundreds or thousands of kilometers away from the impact site.Faul, Henry. (1966) ''Tektites are terrestrial.'' Science. 152(3727):1341–1345. doi = 10.1126/science.152.3727.1341Koeberl, C. (1986) ''Geochemistry of tektites and impact glasses.'' Annual Review of Earth and Planetary Sciences. 14:323–350.Koeberl, C. (1990) ''The geochemistry of tektites: An overview.'' Tectonophysics. 171:405–422. doi = 10.1016/0040-1951(90)90113-M The terrestrial source for tektites is supported by well-documented evidence. The chemical and isotopic composition of tektites indicates that they are derived from the melting of
silica Silicon dioxide, also known as silica, is an oxide of silicon with the chemical formula , most commonly found in nature as quartz and in various living organisms. In many parts of the world, silica is the major constituent of sand. Silica is o ...
-rich crustal and
sedimentary rock Sedimentary rocks are types of rock that are formed by the accumulation or deposition of mineral or organic particles at Earth's surface, followed by cementation. Sedimentation is the collective name for processes that cause these particle ...
s, which are not found on the Moon. In addition, some tektites contain relict mineral inclusions (
quartz Quartz is a hard, crystalline mineral composed of silica ( silicon dioxide). The atoms are linked in a continuous framework of SiO4 silicon-oxygen tetrahedra, with each oxygen being shared between two tetrahedra, giving an overall chemical ...
, zircon,
rutile Rutile is an oxide mineral composed of titanium dioxide (TiO2), the most common natural form of TiO2. Rarer polymorphs of TiO2 are known, including anatase, akaogiite, and brookite. Rutile has one of the highest refractive indices at visible wa ...
, chromite, and monazite) that are characteristic of terrestrial sediments and crustal and sedimentary source rocks. Also, three of the four tektite strewnfields have been linked by their age and chemical and isotopic composition to known impact craters. A number of different geochemical studies of tektites from the Australasian strewnfield concluded that these tektites consist of melted
Jurassic The Jurassic ( ) is a Geological period, geologic period and System (stratigraphy), stratigraphic system that spanned from the end of the Triassic Period million years ago (Mya) to the beginning of the Cretaceous Period, approximately Mya. The J ...
sediments, or sedimentary rocks that were weathered and deposited about 167
Mya Mya may refer to: Brands and product names * Mya (program), an intelligent personal assistant created by Motorola * Mya (TV channel), an Italian Television channel * Midwest Young Artists, a comprehensive youth music program Codes * Burmese ...
. Their geochemistry suggests that the source of Australasian tektites is a single sedimentary
formation Formation may refer to: Linguistics * Back-formation, the process of creating a new lexeme by removing or affixes * Word formation, the creation of a new word by adding affixes Mathematics and science * Cave formation or speleothem, a secondary ...
with a narrow range of stratigraphic ages close to 170 Mya, more or less. This effectively refutes multiple impact hypotheses. Although the formation and widespread distribution of tektites is widely accepted to require the intense (superheated) melting of near-surface sediments and rocks at the impact site and the following high-velocity ejection of this material from the impact crater, the exact processes involved remain poorly understood. One possible mechanism for the formation of tektites is by the jetting of highly shocked and superheated melt during the initial contact/compression stage of impact crater formation. Alternatively, various mechanisms involving the dispersal of shock-melted material by an expanding vapor plume, which is created by a hypervelocity impact, have been used to explain the formation of tektites. Any mechanism by which tektites are created must explain chemical data that suggest that parent material from which tektites were created came from near-surface rocks and sediments at an impact site. In addition, the scarcity of known strewn fields relative to the number of identified impact craters indicate that very special and rarely met circumstances are required for tektites to be created by a meteorite impact.


Nonterrestrial source theories

Tektite about 3cm long, mass 11 grams Though the meteorite impact theory of tektite formation is widely accepted, there has been considerable controversy about their origin in the past. As early as 1897, the Dutch geologist Rogier Diederik Marius Verbeek (1845–1926) suggested an extraterrestrial origin for tektites: he proposed that they fell to Earth from the Moon.As early as 1893, the Australian geologist Victor Franz Paul Streich (? – 1905) suggested in a private letter to the German geologist Alfred Wilhelm Stelzner that the tektites of Australia had an extraterrestrial origin. See: * From p. 112: " "55B. Obsidian-bombs. Found between Everard Range and Fraser Range." Most decidedly not of cosmic origin, as suggested by you .e., Streichin your private letter to me. At least so far there are no vitreous masses known to me of meteoric origin." * From p. 300: ''"Wieder Andere sind der Meinung, dass das Räthsel nur dadurch gelöst werden könne, dass man den "Bomben", obwohl sie eine von jenen aller anderen bekannten Aërolithen sehr abweichende Beschaffenheit zeigen, trotzdem einen kosmischen Ursprung zuschreibe."'' (Again, others are of the opinion that the puzzle can be solved only by ascribing to the "bombs" a cosmic origin, although they show a nature that deviates greatly from those of all other known aeroliths.) Verbeek's proposal of an extraterrestrial origin for tektites was soon seconded by the German geologist Franz E. Suess.See: * * Subsequently, it was argued that tektites consist of material that was ejected from the
Moon The Moon is Earth's only natural satellite. It is the fifth largest satellite in the Solar System and the largest and most massive relative to its parent planet, with a diameter about one-quarter that of Earth (comparable to the width ...
by major hydrogen-driven lunar volcanic eruptions and then drifted through space to later fall to Earth as tektites. The major proponents of the lunar origin of tektites include
NASA The National Aeronautics and Space Administration (NASA ) is an independent agency of the US federal government responsible for the civil space program, aeronautics research, and space research. NASA was established in 1958, succeedi ...
scientist John A. O'Keefe, NASA aerodynamicist
Dean R. Chapman Dean Roden Chapman (8 March 1922 – 4 October 1995) was a mechanical engineer at the National Aeronautics and Space Administration (NASA) and at Stanford University. Biography He played basketball for the oft-maligned Caltech Beavers men's basket ...
, meteorite and tektite collector Darryl Futrell, and long-time tektite researcher Hal Povenmire.Povenmire, H. (2000) ''Tektites: A Cosmic Enigma.'' Florida Fireball Network, Indian Harbour Beach, Florida. 209 pp. From the 1950s to the 1990s, O'Keefe argued for the lunar origin of tektites based upon their chemical, i.e. rare-earth, isotopic, and bulk, composition and physical properties. Chapman used complex orbital computer models and extensive wind tunnel tests to argue that the so-called Australasian tektites originated from the Rosse ejecta ray of the large crater Tycho on the Moon's near side.Chapman, D. R. (1971) ''Australasian tektite geographic pattern, crater and ray of origin, and theory of tektite events.'' Journal of Geophysical Research. 76(26):6309–6338. O'Keefe, Povenmire, and Futrell claimed on the basis of behavior of glass melts that the homogenization, which is called "fining", of silica melts that characterize tektites could not be explained by the terrestrial-impact theory. They also argued that the terrestrial-impact theory could not explain the vesicles and extremely low water and other volatile content of tektites. Futrell also reported the presence of microscopic internal features within tektites, which argued for a volcanic origin.Futrell, D. (1999) ''The lunar origin of tektites; space science sheds new light on an old controversy.'' Rock & Gem. 29(2–3):40–45.Futrell, D., and L. Varricho (2002) ''An argument against the terrestrial origin of tektites. Meteorite.'' Meteorite. 8(4):34–35. At one time, theories advocating the lunar origin of tektites enjoyed considerable support as part of a spirited controversy about the origin of tektites that occurred during the 1960s. Starting with the publication of research concerning lunar samples returned from the Moon, the consensus of Earth and planetary scientists shifted in favor of theories advocating a terrestrial impact versus lunar volcanic origin. For example, one problem with the lunar origin theory is that the arguments for it that are based upon the behavior of glass melts use data from pressures and temperatures that are vastly uncharacteristic of and unrelated to the extreme conditions of hypervelocity impacts.Artemieva N. A. (2002) ''Tektite origin in oblique impact: Numerical modeling.'' in C. Koeberl C. and J. Plado J., eds, pp. 257–276, Impacts in Precambrian shields. Springer-Verlag, Berlin.Artemieva, N., E. Pierazzo, and D. Stoffler (2002) ''Numerical modeling of tektite origin in oblique impacts: Implication to Ries-Moldavites strewn field.'' Bulletin of the Czech Geological Survey. 77(4):303–311. In addition, various studies have shown that hypervelocity impacts are likely quite capable of producing low- volatile melts with extremely low water content. The consensus of Earth and planetary scientists regards the chemical, i.e. rare-earth, isotopic, and bulk composition evidence as decisively demonstrating that tektites are derived from terrestrial crustal rock, i.e. sedimentary rocks, that are unlike any known lunar crust.Heidea, K., and G. Heideb (2011) ''Vitreous state in nature—Origin and properties.'' Chemie der Erde. 71(4):305–335.


See also

* Darwin glass * Edeowie glass * Fulgurite * Impact event * Impact crater * Libyan desert glass


References


Notes


Literature


Books

* Barnes, V., and M. Barnes (1973) ''Tektites.'' Dowden, Hutchinson, & Ross, Inc., New York, New York. 444 pp.  * Bouska, Vladimir (1994). ''Moldavites: The Czech Tektites.'' Stylizace, Prague, Czechoslovakia. 69 pp. * Heinen, Guy (1998) ''Tektites – Witnesses Of Cosmic Catastrophes.'' Guy Heinen, Luxembourg. 222 pp. * McCall, G.J.H. (2001) ''Tektites in the Geological Record.'' The Geological Society of London, London, United Kingdom. 256 pp.  * McNamara, K., and A. Bevan (1991) ''Tektites,'' 2nd ed. Western Australian Museum, Perth, Western Australia, Australia. 28 pp. * O'Keefe, J. A. (1976) ''Tektites And Their Origin.'' Elsevier Scientific Publishing Company, Amsterdam, Netherlands. 266 pp.  * Povenmire, Hal (2003) ''Tektites: A Cosmic Enigma.'' Florida Fireball Network, Indian Harbour Beach, Florida. 209 pp.


External links

*Faul, Henry. (1966
''The Virgil E. Barnes Tektite Collection Tektite Information Page.''Texas Natural Science Center
University of Texas, Austin, Texas. * Anonymous (ndb

the Meteorite Exchange. * Anonymous (ndc

Adventures in Research: A History of Ames Research Center 1940–1965, NASA History Program Office. * Jakiel, R. (1997

Georgia Mineral Society. * Ralph, J., and I. Chau (2012

Mindat.org. * Schneider, D.M. (2002
''Tektites.''
The Meteoritical Society. * Weir, D. (2012
''Tektites and Other Impact-Related Material.''
Meteorite Studies Collection Classification. * Whymark, A. (nd
''Introduction to Tektites.''
Tektites.co.uk. {{Authority control Amorphous solids Glass in nature Impact event minerals