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Obsidian

January 09, 2024

For other uses, see Obsidian (disambiguation).

Obsidian (/əbˈsɪdi.ən, ɒb-/)[5] is a naturally occurring volcanic glass formed when lava extruded from a volcano cools rapidly with minimal crystal growth. It is an igneous rock.[6]

Obsidian
General
CategoryVolcanic glass
Identification
Colorusually black; sometimes green or brown; rarely yellow, orange, red or blue[1]
FractureConchoidal
Mohs scale hardness5–6[2]
LusterVitreous
Specific gravityc. 2.4[3]
Optical propertiesTranslucent
Other characteristicsTexture: Smooth; glassy
References[4]

Obsidian is produced from felsic lava, rich in the lighter elements such as silicon, oxygen, aluminium, sodium, and potassium. It is commonly found within the margins of rhyolitic lava flows known as obsidian flows. These flows have a high content of silica, granting them a high viscosity. The high viscosity inhibits diffusion of atoms through the lava, which inhibits the first step (nucleation) in the formation of mineral crystals. Together with rapid cooling, this results in a natural glass forming from the lava.[7]

Obsidian is hard, brittle, and amorphous; it therefore fractures with sharp edges. In the past, it was used to manufacture cutting and piercing tools, and it has been used experimentally as surgical scalpel blades.[8]

Origin and properties edit

 
Obsidian talus at Obsidian Dome, California
 
Polished snowflake obsidian, formed through the inclusion of cristobalite crystals

The Natural History by the Roman writer Pliny the Elder includes a few sentences about a volcanic glass called obsidian (lapis obsidianus), discovered in Ethiopia by Obsidius, a Roman explorer.[9][10][11][12]

Obsidian is formed from quickly cooled lava, which is the parent material.[13][14][15] Extrusive formation of obsidian may occur when felsic lava cools rapidly at the edges of a felsic lava flow or volcanic dome, or when lava cools during sudden contact with water or air. Intrusive formation of obsidian may occur when felsic lava cools along the edges of a dike.[16][17]

Tektites were once thought by many to be obsidian produced by lunar volcanic eruptions,[18] though few scientists now adhere to this hypothesis.[19]

Obsidian is mineral-like, but not a true mineral because, as a glass, it is not crystalline; in addition, its composition is too variable to be classified as a mineral. It is sometimes classified as a mineraloid.[20] Though obsidian is usually dark in color, similar to mafic rocks such as basalt, the composition of obsidian is extremely felsic. Obsidian consists mainly of SiO2 (silicon dioxide), usually 70% by weight or more. Crystalline rocks with a similar composition include granite and rhyolite. Because obsidian is metastable at the Earth's surface (over time the glass devitrifies, becoming fine-grained mineral crystals), obsidian older than Miocene in age is rare. Exceptionally old obsidians include a Cretaceous welded tuff and a partially devitrified Ordovician perlite.[21] This transformation of obsidian is accelerated by the presence of water. Although newly formed obsidian has a low water content, typically less than 1% water by weight,[22] it becomes progressively hydrated when exposed to groundwater, forming perlite.

Pure obsidian is usually dark in appearance, though the color varies depending on the impurities present. Iron and other transition elements may give the obsidian a dark brown to black color. Most black obsidians contain nanoinclusions of magnetite, an iron oxide.[23] Very few samples of obsidian are nearly colorless. In some stones, the inclusion of small, white, radially clustered crystals (spherulites) of the mineral cristobalite in the black glass produce a blotchy or snowflake pattern (snowflake obsidian). Obsidian may contain patterns of gas bubbles remaining from the lava flow, aligned along layers created as the molten rock was flowing before being cooled. These bubbles can produce interesting effects such as a golden sheen (sheen obsidian). An iridescent, rainbow-like sheen (fire obsidian) is caused by inclusions of magnetite nanoparticles creating thin-film interference.[24] Colorful, striped obsidian (rainbow obsidian) from Mexico contains oriented nanorods of hedenbergite, which cause the rainbow striping effects by thin-film interference.[23]

Occurrence edit

 
Glass Mountain, a large obsidian flow at Medicine Lake Volcano in California

Obsidian is found near volcanoes in locations which have undergone rhyolitic eruptions. It can be found in Argentina, Armenia, Azerbaijan, Australia,[25] Canada, Chile, Georgia, Ecuador, El Salvador, Greece, Guatemala, Hungary, Iceland, Indonesia, Italy, Japan, Kenya, Mexico, New Zealand, Papua New Guinea, Peru, Russia, Scotland, the Canary Islands, Turkey and the United States. Obsidian flows which may be hiked on[clarification needed] are found within the calderas of Newberry Volcano and Medicine Lake Volcano in the Cascade Range of western North America, and at Inyo Craters east of the Sierra Nevada in California. Yellowstone National Park has a mountainside containing obsidian located between Mammoth Hot Springs and the Norris Geyser Basin, and deposits can be found in many other western U.S. states including Arizona, Colorado, New Mexico, Texas, Utah, and Washington,[26] Oregon[27] and Idaho.

There are only four major deposit areas in the central Mediterranean: Lipari, Pantelleria, Palmarola and Monte Arci (Sardinia).[28]

Ancient sources in the Aegean were Milos and Gyali.[29]

Acıgöl town and the Göllü Dağ volcano were the most important sources in central Anatolia, one of the more important source areas in the prehistoric Near East.[30][31][32]

Prehistoric and historical use edit

 
Obsidian arrowhead

The first known archaeological evidence of usage was in Kariandusi (Kenya) and other sites of the Acheulian age (beginning 1.5 million years BP) dated 700,000 BC, although only very few objects have been found at these sites relative to the Neolithic.[33][34][35][36][37] Manufacture of obsidian bladelets at Lipari had reached a high level of sophistication by the late Neolithic, and was traded as far as Sicily, the southern Po river valley, and Croatia.[38] Obsidian bladelets were used in ritual circumcisions and cutting of umbilical cords of newborns.[39] Anatolian sources of obsidian are known to have been the material used in the Levant and modern-day Iraqi Kurdistan from a time beginning sometime about 12,500 BC.[40] Obsidian artifacts are common at Tell Brak, one of the earliest Mesopotamian urban centers, dating to the late fifth millennium BC.[41] Obsidian was valued in Stone Age cultures because, like flint, it could be fractured to produce sharp blades or arrowheads in a process called knapping. Like all glass and some other naturally occurring rocks, obsidian breaks with a characteristic conchoidal fracture. It was also polished to create early mirrors. Modern archaeologists have developed a relative dating system, obsidian hydration dating, to calculate the age of obsidian artifacts.

Europe edit

Obsidian artifacts first appeared in the European continent in Central Europe in the Middle Paleolithic and had become common by the Upper Paleolithic, although there are exceptions to this. Obsidian played an important role in the transmission of Neolithic knowledge and experiences. The material was mainly used for production of chipped tools which were very sharp due to its nature. Artifacts made of obsidian can be found in many Neolithic cultures across Europe. The source of obsidian for cultures inhabiting the territory of and around Greece was the island of Milos; the Starčevo–Körös–Criș culture obtained obsidian from sources in Hungary and Slovakia, while the Cardium-Impresso cultural complex acquired obsidian from the island outcrops of the central Mediterranean. Through trade, these artifacts ended up in lands thousands of kilometers away from the original source; this indicates that they were a highly valued commodity.[42] John Dee had a mirror, made of obsidian, which was brought from Mexico to Europe between 1527 and 1530 after Hernando Cortés's conquest of the region.[43]

Middle East and Asia edit

 
Obsidian tools from Tilkitepe, Turkey, 5th millennium BC. Museum of Anatolian Civilizations

In the Ubaid in the 5th millennium BC, blades were manufactured from obsidian extracted from outcrops located in modern-day Turkey.[44] Ancient Egyptians used obsidian imported from the eastern Mediterranean and southern Red Sea regions. In the eastern Mediterranean area the material was used to make tools, mirrors and decorative objects.[45]

The use of obsidian tools was present in Japan near areas of volcanic activity.[46][47] Obsidian was mined during the Jōmon period.

Obsidian has also been found in Gilat, a site in the western Negev in Israel. Eight obsidian artifacts dating to the Chalcolithic Age found at this site were traced to obsidian sources in Anatolia. Neutron activation analysis (NAA) on the obsidian found at this site helped to reveal trade routes and exchange networks previously unknown.[48]

Americas edit

See also: Obsidian use in Mesoamerica
 
Obsidian worked into plates and other wares by Victor Lopez Pelcastre of Nopalillo, Epazoyucan, Hidalgo. On display at the Museo de Arte Popular, Mexico City.

Lithic analysis helps to understand pre-Hispanic groups in Mesoamerica. A careful analysis of obsidian in a culture or place can be of considerable use to reconstruct commerce, production, and distribution, and thereby understand economic, social and political aspects of a civilization. This is the case in Yaxchilán, a Maya city where even warfare implications have been studied linked with obsidian use and its debris.[49] Another example is the archeological recovery at coastal Chumash sites in California, indicating considerable trade with the distant site of Casa Diablo, California in the Sierra Nevada Mountains.[50]

 
Raw obsidian and obsidian blades from the Mayan site of Takalik Abaj

Pre-Columbian Mesoamericans' use of obsidian was extensive and sophisticated; including carved and worked obsidian for tools and decorative objects. Mesoamericans also made a type of sword with obsidian blades mounted in a wooden body. Called a macuahuitl, the weapon could inflict terrible injuries, combining the sharp cutting edge of an obsidian blade with the ragged cut of a serrated weapon. The polearm version of this weapon was called tepoztopilli.

Obsidian mirrors were used by some Aztec priests to conjure visions and make prophecies. They were connected with Tezcatlipoca, god of obsidian and sorcery, whose name can be translated from the Nahuatl language as 'Smoking Mirror'.[43]

 
Obsidian imported from Milos, found in Minoan Crete

Indigenous people traded obsidian throughout the Americas. Each volcano and in some cases each volcanic eruption produces a distinguishable type of obsidian allowing archaeologists to use methods such as non-destructive energy dispersive X-ray fluorescence to select minor element compositions from both the artifact and geological sample to trace the origins of a particular artifact.[51] Similar tracing techniques have also allowed obsidian in Greece to be identified as coming from Milos, Nisyros or Gyali, islands in the Aegean Sea. Obsidian cores and blades were traded great distances inland from the coast.[52]

In Chile obsidian tools from Chaitén Volcano have been found as far away as in Chan-Chan 400 km (250 mi) north of the volcano, and also in sites 400 km south of it.[53][54]

Oceania edit

The Lapita culture, active across a large area of the Pacific Ocean around 1000 BC, made widespread use of obsidian tools and engaged in long distance obsidian trading. The complexity of the production technique for these tools, and the care taken in their storage, may indicate that beyond their practical use they were associated with prestige or high status.[55]

Obsidian was also used on Rapa Nui (Easter Island) for edged tools such as Mataia and the pupils of the eyes of their Moai (statues), which were encircled by rings of bird bone.[56] Obsidian was used to inscribe the Rongorongo glyphs.

Current use edit

Obsidian can be used to make extremely sharp knives, and obsidian blades are a type of glass knife made using naturally occurring obsidian instead of manufactured glass. Obsidian is used by some surgeons for scalpel blades, although this is not approved by the US Food and Drug Administration (FDA) for use on humans.[57] Well-crafted obsidian blades, like any glass knife, can have a cutting edge many times sharper than high-quality steel surgical scalpels: the cutting edge of the blade is only about three nanometers thick.[58] All metal knives have a jagged, irregular blade when viewed under a strong enough microscope; however, obsidian blades are still smooth, even when examined under an electron microscope.[59] One study found that obsidian incisions produced fewer inflammatory cells and less granulation tissue in a group of rats after seven days but the differences disappeared after twenty-one days.[60] Don Crabtree has produced surgical obsidian blades and written articles on the subject.[58] Obsidian scalpels may be purchased for surgical use on research animals.[61]

The major disadvantage of obsidian blades is their brittleness compared to those made of metal,[62] thus limiting the surgical applications for obsidian blades to a variety of specialized uses where this is not a concern.[58]

 
Pig carved in snowflake obsidian, 10 centimeters (4 in) long. The markings are spherulites.

Obsidian is also used for ornamental purposes and as a gemstone.[63] It presents a different appearance depending on how it is cut: in one direction it is jet black, while in another it is glistening gray. "Apache tears" are small rounded obsidian nuggets often embedded within a grayish-white perlite matrix.

Plinths for audio turntables have been made of obsidian since the 1970s, such as the grayish-black SH-10B3 plinth by Technics.

See also edit

References edit

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  39. ^ Brown, Keri A.; Tykot, Robert H. (August 2018). "Obsidian in the Tavoliere, Southeastern Italy — A regional study". Journal of Archaeological Science: Reports. 20: 284–292. doi:10.1016/j.jasrep.2018.04.035. S2CID 134356403.
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External links edit

 
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Obsidian (category)
  • USGS definition of obsidian

January 09, 2024
obsidian, other, uses, disambiguation, naturally, occurring, volcanic, glass, formed, when, lava, extruded, from, volcano, cools, rapidly, with, minimal, crystal, growth, igneous, rock, generalcategoryvolcanic, glassidentificationcolorusually, black, sometimes. For other uses see Obsidian disambiguation Obsidian e b ˈ s ɪ d i en ɒ b 5 is a naturally occurring volcanic glass formed when lava extruded from a volcano cools rapidly with minimal crystal growth It is an igneous rock 6 ObsidianGeneralCategoryVolcanic glassIdentificationColorusually black sometimes green or brown rarely yellow orange red or blue 1 FractureConchoidalMohs scale hardness5 6 2 LusterVitreousSpecific gravityc 2 4 3 Optical propertiesTranslucentOther characteristicsTexture Smooth glassyReferences 4 Obsidian is produced from felsic lava rich in the lighter elements such as silicon oxygen aluminium sodium and potassium It is commonly found within the margins of rhyolitic lava flows known as obsidian flows These flows have a high content of silica granting them a high viscosity The high viscosity inhibits diffusion of atoms through the lava which inhibits the first step nucleation in the formation of mineral crystals Together with rapid cooling this results in a natural glass forming from the lava 7 Obsidian is hard brittle and amorphous it therefore fractures with sharp edges In the past it was used to manufacture cutting and piercing tools and it has been used experimentally as surgical scalpel blades 8 Contents 1 Origin and properties 2 Occurrence 3 Prehistoric and historical use 3 1 Europe 3 2 Middle East and Asia 3 3 Americas 3 4 Oceania 4 Current use 5 See also 6 References 7 External linksOrigin and properties edit nbsp Obsidian talus at Obsidian Dome California nbsp Polished snowflake obsidian formed through the inclusion of cristobalite crystalsThe Natural History by the Roman writer Pliny the Elder includes a few sentences about a volcanic glass called obsidian lapis obsidianus discovered in Ethiopia by Obsidius a Roman explorer 9 10 11 12 Obsidian is formed from quickly cooled lava which is the parent material 13 14 15 Extrusive formation of obsidian may occur when felsic lava cools rapidly at the edges of a felsic lava flow or volcanic dome or when lava cools during sudden contact with water or air Intrusive formation of obsidian may occur when felsic lava cools along the edges of a dike 16 17 Tektites were once thought by many to be obsidian produced by lunar volcanic eruptions 18 though few scientists now adhere to this hypothesis 19 Obsidian is mineral like but not a true mineral because as a glass it is not crystalline in addition its composition is too variable to be classified as a mineral It is sometimes classified as a mineraloid 20 Though obsidian is usually dark in color similar to mafic rocks such as basalt the composition of obsidian is extremely felsic Obsidian consists mainly of SiO2 silicon dioxide usually 70 by weight or more Crystalline rocks with a similar composition include granite and rhyolite Because obsidian is metastable at the Earth s surface over time the glass devitrifies becoming fine grained mineral crystals obsidian older than Miocene in age is rare Exceptionally old obsidians include a Cretaceous welded tuff and a partially devitrified Ordovician perlite 21 This transformation of obsidian is accelerated by the presence of water Although newly formed obsidian has a low water content typically less than 1 water by weight 22 it becomes progressively hydrated when exposed to groundwater forming perlite Pure obsidian is usually dark in appearance though the color varies depending on the impurities present Iron and other transition elements may give the obsidian a dark brown to black color Most black obsidians contain nanoinclusions of magnetite an iron oxide 23 Very few samples of obsidian are nearly colorless In some stones the inclusion of small white radially clustered crystals spherulites of the mineral cristobalite in the black glass produce a blotchy or snowflake pattern snowflake obsidian Obsidian may contain patterns of gas bubbles remaining from the lava flow aligned along layers created as the molten rock was flowing before being cooled These bubbles can produce interesting effects such as a golden sheen sheen obsidian An iridescent rainbow like sheen fire obsidian is caused by inclusions of magnetite nanoparticles creating thin film interference 24 Colorful striped obsidian rainbow obsidian from Mexico contains oriented nanorods of hedenbergite which cause the rainbow striping effects by thin film interference 23 Occurrence edit nbsp Glass Mountain a large obsidian flow at Medicine Lake Volcano in CaliforniaObsidian is found near volcanoes in locations which have undergone rhyolitic eruptions It can be found in Argentina Armenia Azerbaijan Australia 25 Canada Chile Georgia Ecuador El Salvador Greece Guatemala Hungary Iceland Indonesia Italy Japan Kenya Mexico New Zealand Papua New Guinea Peru Russia Scotland the Canary Islands Turkey and the United States Obsidian flows which may be hiked on clarification needed are found within the calderas of Newberry Volcano and Medicine Lake Volcano in the Cascade Range of western North America and at Inyo Craters east of the Sierra Nevada in California Yellowstone National Park has a mountainside containing obsidian located between Mammoth Hot Springs and the Norris Geyser Basin and deposits can be found in many other western U S states including Arizona Colorado New Mexico Texas Utah and Washington 26 Oregon 27 and Idaho There are only four major deposit areas in the central Mediterranean Lipari Pantelleria Palmarola and Monte Arci Sardinia 28 Ancient sources in the Aegean were Milos and Gyali 29 Acigol town and the Gollu Dag volcano were the most important sources in central Anatolia one of the more important source areas in the prehistoric Near East 30 31 32 Prehistoric and historical use edit nbsp Obsidian arrowheadThe first known archaeological evidence of usage was in Kariandusi Kenya and other sites of the Acheulian age beginning 1 5 million years BP dated 700 000 BC although only very few objects have been found at these sites relative to the Neolithic 33 34 35 36 37 Manufacture of obsidian bladelets at Lipari had reached a high level of sophistication by the late Neolithic and was traded as far as Sicily the southern Po river valley and Croatia 38 Obsidian bladelets were used in ritual circumcisions and cutting of umbilical cords of newborns 39 Anatolian sources of obsidian are known to have been the material used in the Levant and modern day Iraqi Kurdistan from a time beginning sometime about 12 500 BC 40 Obsidian artifacts are common at Tell Brak one of the earliest Mesopotamian urban centers dating to the late fifth millennium BC 41 Obsidian was valued in Stone Age cultures because like flint it could be fractured to produce sharp blades or arrowheads in a process called knapping Like all glass and some other naturally occurring rocks obsidian breaks with a characteristic conchoidal fracture It was also polished to create early mirrors Modern archaeologists have developed a relative dating system obsidian hydration dating to calculate the age of obsidian artifacts Europe edit Obsidian artifacts first appeared in the European continent in Central Europe in the Middle Paleolithic and had become common by the Upper Paleolithic although there are exceptions to this Obsidian played an important role in the transmission of Neolithic knowledge and experiences The material was mainly used for production of chipped tools which were very sharp due to its nature Artifacts made of obsidian can be found in many Neolithic cultures across Europe The source of obsidian for cultures inhabiting the territory of and around Greece was the island of Milos the Starcevo Koros Criș culture obtained obsidian from sources in Hungary and Slovakia while the Cardium Impresso cultural complex acquired obsidian from the island outcrops of the central Mediterranean Through trade these artifacts ended up in lands thousands of kilometers away from the original source this indicates that they were a highly valued commodity 42 John Dee had a mirror made of obsidian which was brought from Mexico to Europe between 1527 and 1530 after Hernando Cortes s conquest of the region 43 Middle East and Asia edit nbsp Obsidian tools from Tilkitepe Turkey 5th millennium BC Museum of Anatolian CivilizationsIn the Ubaid in the 5th millennium BC blades were manufactured from obsidian extracted from outcrops located in modern day Turkey 44 Ancient Egyptians used obsidian imported from the eastern Mediterranean and southern Red Sea regions In the eastern Mediterranean area the material was used to make tools mirrors and decorative objects 45 The use of obsidian tools was present in Japan near areas of volcanic activity 46 47 Obsidian was mined during the Jōmon period Obsidian has also been found in Gilat a site in the western Negev in Israel Eight obsidian artifacts dating to the Chalcolithic Age found at this site were traced to obsidian sources in Anatolia Neutron activation analysis NAA on the obsidian found at this site helped to reveal trade routes and exchange networks previously unknown 48 Americas edit See also Obsidian use in Mesoamerica nbsp Obsidian worked into plates and other wares by Victor Lopez Pelcastre of Nopalillo Epazoyucan Hidalgo On display at the Museo de Arte Popular Mexico City Lithic analysis helps to understand pre Hispanic groups in Mesoamerica A careful analysis of obsidian in a culture or place can be of considerable use to reconstruct commerce production and distribution and thereby understand economic social and political aspects of a civilization This is the case in Yaxchilan a Maya city where even warfare implications have been studied linked with obsidian use and its debris 49 Another example is the archeological recovery at coastal Chumash sites in California indicating considerable trade with the distant site of Casa Diablo California in the Sierra Nevada Mountains 50 nbsp Raw obsidian and obsidian blades from the Mayan site of Takalik AbajPre Columbian Mesoamericans use of obsidian was extensive and sophisticated including carved and worked obsidian for tools and decorative objects Mesoamericans also made a type of sword with obsidian blades mounted in a wooden body Called a macuahuitl the weapon could inflict terrible injuries combining the sharp cutting edge of an obsidian blade with the ragged cut of a serrated weapon The polearm version of this weapon was called tepoztopilli Obsidian mirrors were used by some Aztec priests to conjure visions and make prophecies They were connected with Tezcatlipoca god of obsidian and sorcery whose name can be translated from the Nahuatl language as Smoking Mirror 43 nbsp Obsidian imported from Milos found in Minoan CreteIndigenous people traded obsidian throughout the Americas Each volcano and in some cases each volcanic eruption produces a distinguishable type of obsidian allowing archaeologists to use methods such as non destructive energy dispersive X ray fluorescence to select minor element compositions from both the artifact and geological sample to trace the origins of a particular artifact 51 Similar tracing techniques have also allowed obsidian in Greece to be identified as coming from Milos Nisyros or Gyali islands in the Aegean Sea Obsidian cores and blades were traded great distances inland from the coast 52 In Chile obsidian tools from Chaiten Volcano have been found as far away as in Chan Chan 400 km 250 mi north of the volcano and also in sites 400 km south of it 53 54 Oceania edit The Lapita culture active across a large area of the Pacific Ocean around 1000 BC made widespread use of obsidian tools and engaged in long distance obsidian trading The complexity of the production technique for these tools and the care taken in their storage may indicate that beyond their practical use they were associated with prestige or high status 55 Obsidian was also used on Rapa Nui Easter Island for edged tools such as Mataia and the pupils of the eyes of their Moai statues which were encircled by rings of bird bone 56 Obsidian was used to inscribe the Rongorongo glyphs Current use editObsidian can be used to make extremely sharp knives and obsidian blades are a type of glass knife made using naturally occurring obsidian instead of manufactured glass Obsidian is used by some surgeons for scalpel blades although this is not approved by the US Food and Drug Administration FDA for use on humans 57 Well crafted obsidian blades like any glass knife can have a cutting edge many times sharper than high quality steel surgical scalpels the cutting edge of the blade is only about three nanometers thick 58 All metal knives have a jagged irregular blade when viewed under a strong enough microscope however obsidian blades are still smooth even when examined under an electron microscope 59 One study found that obsidian incisions produced fewer inflammatory cells and less granulation tissue in a group of rats after seven days but the differences disappeared after twenty one days 60 Don Crabtree has produced surgical obsidian blades and written articles on the subject 58 Obsidian scalpels may be purchased for surgical use on research animals 61 The major disadvantage of obsidian blades is their brittleness compared to those made of metal 62 thus limiting the surgical applications for obsidian blades to a variety of specialized uses where this is not a concern 58 nbsp Pig carved in snowflake obsidian 10 centimeters 4 in long The markings are spherulites Obsidian is also used for ornamental purposes and as a gemstone 63 It presents a different appearance depending on how it is cut in one direction it is jet black while in another it is glistening gray Apache tears are small rounded obsidian nuggets often embedded within a grayish white perlite matrix Plinths for audio turntables have been made of obsidian since the 1970s such as the grayish black SH 10B3 plinth by Technics See also editApache tears Popular term for pebbles of obsidian Helenite Artificial glass made from volcanic ash Hyaloclastite Volcaniclastic accumulation or breccia and tachylite volcanic glasses with basaltic composition Knapping Shaping of conchoidal fracturing stone to manufacture stone tools Libyan desert glass Desert glass found in Libya and Egypt Mayor Island Tuhua New Zealand shield volcano a source of Maori obsidian tools Obsidian hydration dating Geochemical dating method Stone tool Any tool partially or entirely made out of stone Vitrophyre Glassy volcanic rock Yaxchilan Lintel 24 Ancient Maya limestone carving from Yaxchilan in modern Chiapas Mexico Ancient carving showing a Maya bloodlet ritual involving a rope with obsidian shards References edit King Hobart M Obsidian Geology com Retrieved 3 February 2023 Peter Roger Stuart Moorey 1999 Ancient Mesopotamian Materials and Industries the archaeological evidence Eisenbrauns pp 108 ISBN 978 1 57506 042 2 Ericson J E Makishima A Mackenzie J D Berger R January 1975 Chemical and physical properties of obsidian a naturally occurring sic glass Journal of Non Crystalline Solids 17 1 129 142 Bibcode 1975JNCS 17 129E doi 10 1016 0022 3093 75 90120 9 Obsidian Mindat org obsidian Dictionary com Unabridged Online n d Rafferty John P 2012 Rocks 1st ed New York NY Britannica Educational Pub in association with Rosen Educational Services p 97 ISBN 9781615304929 Raymond Loren A 1995 Petrology the study of igneous sedimentary metamorphic rocks Dubuque IA Wm C Brown p 27 ISBN 0697001903 Brian Cotterell Johan Kamminga 1992 Mechanics of pre industrial technology an introduction to the mechanics of ancient and traditional material culture Cambridge University Press pp 127 ISBN 978 0 521 42871 2 Retrieved 9 September 2011 Dictionary of Greek and Roman Biography and Mythology vol III p 2 Obsidius obsidian The Concise Oxford Dictionary of English Etymology Oxford University Press 1996 Retrieved 2011 11 20 D Harper obsidian Etymology online 2012 06 17 M H Manser The Facts On File Dictionary of Allusions Infobase Publishing 2008 ISBN 0816071055 M E Malainey A Consumer s Guide to Archaeological Science Analytical Techniques Springer 2010 ISBN 1441957030 P L Barnes Svarney T E Svarney 2004 The Handy Geology Answer Book Visible Ink Press p 123 ISBN 978 1578591565 M Martini M Milazzo M Piacentini Societa Italiana di Fisica 2004 Physics Methods in Archaeometry Vol 154 IOS Press ISBN 978 1586034245 Putnam William C 1938 The Mono Craters California Geographical Review 28 1 68 82 doi 10 2307 210567 JSTOR 210567 S2CID 163772761 Binder Didier Gratuze Bernard Mouralis Damase Balkan Atli Nur 1 December 2011 New investigations of the Golludag obsidian lava flows system a multi disciplinary approach Journal of Archaeological Science 38 12 3174 3184 doi 10 1016 j jas 2011 05 014 O Keefe John A 1978 The Tektite Problem Scientific American Munn amp Company 239 2 116 127 Bibcode 1978SciAm 239b 116O doi 10 1038 scientificamerican0878 116 JSTOR 24960359 Sevigny Melissa L 2016 Under desert skies how Tucson mapped the way to the Moon and planets Tucson Sentinel Peak p 93 ISBN 9781941451045 Pan Ming Huang Yuncong Li Malcolm E Sumner eds 2012 Handbook of Soil Sciences Properties and Processes Second ed Boca Raton CRC Press pp 20 24 ISBN 978 1 4398 0306 6 Marshall Royal R 1 October 1961 Devitrification of Natural Glass GSA Bulletin 72 10 1493 1520 Bibcode 1961GSAB 72 1493M doi 10 1130 0016 7606 1961 72 1493 DONG 2 0 CO 2 Perlite Mineral Deposit Profiles B C Geological Survey Archived from the original on 2008 05 09 Retrieved 2007 11 20 a b Ma Chi Rossman George 2013 Nanomineralogy of Gemstones From Genesis to Discovery PDF Mineralogical Magazine 77 5 1661 doi 10 1180 minmag 2013 077 5 13 hdl 10174 9676 Retrieved May 1 2019 Nadin E 2007 The secret lives of minerals PDF Engineering amp Science 1 10 20 Bonetti R Di Cesare P Guglielmetti A Malerba F Migliorini E Oddone M Bird J R Torrence R Bultitude R J 25 November 1998 Fission track dating of obsidian source samples from the Willaumez Peninsula Papua New Guinea and eastern Australia PDF Records of the Australian Museum 50 3 277 84 doi 10 3853 j 0067 1975 50 1998 1286 Washington Obsidian Source Map Archived 2015 08 21 at the Wayback Machine Obsidianlab com Retrieved on 2011 11 20 Oregon Obsidian Sources Sourcecatalog com 2011 11 15 Retrieved on 2011 11 20 Iain Morley and Colin Renfrew The Archaeology of Measurement Comprehending Heaven Earth and Time in Ancient Societies Cambridge University Press 2010 ISBN 0521119901 E Blake A B Knapp 2005 The Archaeology Of Mediterranean Prehistory John Wiley amp Sons ISBN 978 0631232681 Prince Mikasa no Miya Takahito Essays on Anatolian Archaeology Otto Harrassowitz Verlag 1993 ISBN 3447033959 L Romano 6 ICAANE Otto Harrassowitz Verlag 2010 Volume 3 of Proceedings of the 6th International Congress of the Archaeology of the Ancient Near East 5 10 May 2009 ISBN 3447062177 P R S Moorey Ancient Mesopotamian Materials and Industries The Archaeological Evidence Eisenbrauns 1999 ISBN 1575060426 Bunny Sarah 18 April 1985 Ancient trade routes for obsidian New Scientist Schmandt Besserat D 1979 Early technologies Vol 3 Malibu Ca Undena Publications ISBN 0890030316 Merrick H V Brown F H Nash W P 1994 Society Culture and Technology in Africa Import Vol 11 Univ Museum Pubns ISBN 1931707057 J D Fage The Cambridge history of Africa From c 1600 to c 1790 Part 1050 Cambridge University Press 1979 ISBN 0521215927 National Museum of Kenya Kariandusi Archived 2007 10 24 at the Wayback Machine Retrieved 2012 06 30 Martinelli Maria Clara Tykot Robert H Vianello Andrea 20 April 2019 Lipari Aeolian islands obsidian in the late Neolithic Artifacts supply and function Open Archaeology 5 1 46 64 doi 10 1515 opar 2019 0005 S2CID 150094926 Brown Keri A Tykot Robert H August 2018 Obsidian in the Tavoliere Southeastern Italy A regional study Journal of Archaeological Science Reports 20 284 292 doi 10 1016 j jasrep 2018 04 035 S2CID 134356403 A M Pollard Carl Heron 2008 Archaeological Chemistry Royal Society of Chemistry ISBN 978 0854042623 Oates J McMahon A Karsgaard P Quntar S A Ur J 2 January 2015 Early Mesopotamian urbanism a new view from the north PDF Antiquity 81 313 585 600 doi 10 1017 S0003598X00095600 S2CID 3803714 Tripkovic Boban 2003 The Quality and Value In Neolithic Europe An Alternative View on Obsidian Artifacts South Eastern Europe Proceedings of the ESF Workshop Sofia 103 119 123 Retrieved 21 June 2019 a b John Dee s spirit mirror The British Library 2020 04 01 Archived from the original on 2020 04 01 Retrieved 2020 04 01 John Noble Wilford 2010 04 05 In Syria a Prologue for Cities The New York Times George Robert Rapp 2002 Archaeomineralogy Springer ISBN 978 3540425793 Obsidian Oki Islands UNESCO Global Geopark Izuho Masami Sato Hiroyumi 2007 Archaeological obsidian studies in Hokkaido Japan Retrospect and prospects Indo Pacific Prehistory Association Bulletin 27 doi 10 7152 bippa v27i0 11982 Retrieved 2 March 2022 Yellin Joseph Levy Thomas E Rowan Yorke M 1996 New Evidence on Prehistoric Trade Routes The Obsidian Evidence from Gilat Israel Journal of Field Archaeology 23 3 361 68 doi 10 1179 009346996791973873 Brokmann Carlos Tipologia y analisis de la obsidiana de Yaxchilan Chiapas Coleccion Cientifica no 422 INAH 2000 C Michael Hogan 2008 Morro Creek A Burnham ed Megalithic co uk Retrieved on 2011 11 20 Panich Lee Michelini Antonio Shackley M 2012 12 01 Obsidian Sources of Northern Baja California The Known and the Unknown Faculty Publications Stark Barbara L Boxt Matthew A Gasco Janine Gonzalez Lauck Rebecca B Hedgepeth Balkin Jessica D Joyce Arthur A King Stacie M Knight Charles L F Kruger Robert 2016 03 01 Economic growth in Mesoamerica Obsidian consumption in the coastal lowlands Journal of Anthropological Archaeology 41 263 282 doi 10 1016 j jaa 2016 01 008 ISSN 0278 4165 Mario Pino Quivido amp Rayen Navarro 2005 Geoarqueologia del sitio arcaico Chan Chan 18 costa de Valdivia Discriminacion de ambientes de ocupacion humana y su relacion con la transgresion marina del Holoceno Medio Revista Geologica de Chile 32 doi 10 4067 S0716 02082005000100004 Naranjo Jose A Stern Charles R 2004 Holocene tephrochronology of the southernmost part 42 30 45 S of the Andean Southern Volcanic Zone Revista Geologica de Chile 31 2 225 40 doi 10 4067 S0716 02082004000200003 OCLC 61022562 Specht Jim 2018 Research issues in the circum New Guinea islands In Cochrane Ethan E Hunt Terry L eds The Oxford Handbook of Prehistoric Oceania Oxford University Press p 100 ISBN 978 0 19 992507 0 Eric Kjellgren JoAnne Van Tilburg Adrienne Lois Kaeppler 2001 Splendid Isolation Art of Easter Island Metropolitan Museum of Art pp 39 ISBN 978 1 58839 011 0 Shadbolt Peter 2015 04 02 CNN Health How Stone Age blades are still cutting it in modern surgery CNN Retrieved 2023 09 07 a b c Buck BA March 1982 Ancient Technology in Contemporary Surgery The Western Journal of Medicine 136 3 265 269 PMC 1273673 PMID 7046256 Haviland W A Prins H E L Walrath D McBride B 2010 Anthropology The Human Challenge 13 ed Cengage Learning p 196 ISBN 9780495810841 Retrieved 27 September 2012 Disa J J Vossoughi J Goldberg N H October 1993 A comparison of obsidian and surgical steel scalpel wound healing in rats Plastic and Reconstructive Surgery 92 5 884 887 doi 10 1097 00006534 199392050 00015 PMID 8415970 Fine Science Tools FST FST product catalog FST Retrieved 7 September 2012 Fine Science Tools Obsidian Scalpels https www finescience com en US Products Scalpels Blades Micro Knives Obsidian Scalpels Manutchehr Danai Mohsen 2013 03 09 Dictionary of Gems and Gemology Springer Science amp Business Media ISBN 9783662042885 External links edit nbsp Wikimedia Commons has media related to Obsidian category USGS definition of obsidian Retrieved from https en wikipedia org w index php title Obsidian amp oldid 1193829890, wikipedia, wiki, book, books, library,

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