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Wikipedia

Amber

January 26, 2023

For other uses, see Amber (disambiguation).
Not to be confused with Ambergris, i.e. "grey amber".

Amber is fossilized tree resin that has been appreciated for its color and natural beauty since Neolithic times.[1] Much valued from antiquity to the present as a gemstone, amber is made into a variety of decorative objects.[2] Amber is used in jewelry and has been used as a healing agent in folk medicine.

An ant inside Baltic amber
Unpolished amber stones

There are five classes of amber, defined on the basis of their chemical constituents. Because it originates as a soft, sticky tree resin, amber sometimes contains animal and plant material as inclusions.[3] Amber occurring in coal seams is also called resinite, and the term ambrite is applied to that found specifically within New Zealand coal seams.[4]

Etymology

The English word amber derives from Arabic ʿanbar عنبر[5][better source needed] (ultimately from Middle Persian ambar[6]) via Middle Latin ambar and Middle French ambre. The word referred to what is now known as ambergris (ambre gris or "grey amber"), a solid waxy substance derived from the sperm whale. The word, in its sense of "ambergris," was adopted in Middle English in the 14th century.[citation needed]

In the Romance languages, the sense of the word was extended to Baltic amber (fossil resin) from as early as the late 13th century.[citation needed] At first called white or yellow amber (ambre jaune), this meaning was adopted in English by the early 15th century. As the use of ambergris waned, this became the main sense of the word.[5][better source needed]

The two substances ("yellow amber" and "grey amber") conceivably became associated or confused because they both were found washed up on beaches. Ambergris is less dense than water and floats, whereas amber is too dense to float, though less dense than stone.[7]

The classical names for amber, Latin electrum and Ancient Greek ἤλεκτρον (ēlektron), are connected to a term ἠλέκτωρ (ēlektōr) meaning "beaming Sun".[8][9] According to myth, when Phaëton son of Helios (the Sun) was killed, his mourning sisters became poplar trees, and their tears became elektron, amber.[10] The word elektron gave rise to the words electric, electricity, and their relatives because of amber's ability to bear a charge of static electricity.[11]

Pliny the Elder says that the German name of amber was glæsum, "for which reason the Romans, when Germanicus commanded the fleet in those parts, gave to one of these islands the name of Glæsaria, which by the barbarians was known as Austeravia". This is confirmed by the recorded Old High German word glas and by the Old English word glær for "amber" (compare glass). In Middle Low German, amber was known as berne-, barn-, börnstēn (with etymological roots related to "burn" and to "stone"[12]). The Low German term became dominant also in High German by the 18th century, thus modern German Bernstein besides Dutch barnsteen. In the Baltic languages, the Lithuanian term for amber is gintaras and the Latvian dzintars. These words, and the Slavic jantar[13] and Hungarian gyanta ('resin'), are thought[by whom?] to originate from Phoenician jainitar ("sea-resin").[citation needed]

History

Theophrastus discussed amber in the 4th century BCE, as did Pytheas (c. 330 BCE), whose work "On the Ocean" is lost, but was referenced by Pliny, according to whose Natural History (in what is also the earliest known mention of the name Germania):[14]

Pytheas says that the Gutones, a people of Germany, inhabit the shores of an estuary of the Ocean called Mentonomon, their territory extending a distance of six thousand stadia; that, at one day's sail from this territory, is the Isle of Abalus, upon the shores of which, amber is thrown up by the waves in spring, it being an excretion of the sea in a concrete form; as, also, that the inhabitants use this amber by way of fuel, and sell it to their neighbors, the Teutones.

 
Fishing for amber on the coast of Baltic Sea. Winter storms throw out amber nuggets. Close to Gdańsk, Poland.

Earlier Pliny says that Pytheas refers to a large island—three days' sail from the Scythian coast and called Balcia by Xenophon of Lampsacus (author of a fanciful travel book in Greek)—as Basilia—a name generally equated with Abalus.[15] Given the presence of amber, the island could have been Heligoland, Zealand, the shores of Gdańsk Bay, the Sambia Peninsula or the Curonian Lagoon, which were historically the richest sources of amber in northern Europe.[citation needed] It is assumed[by whom?] that there were well-established trade routes for amber connecting the Baltic with the Mediterranean (known as the "Amber Road"). Pliny states explicitly that the Germans exported amber to Pannonia, from where the Veneti distributed it onwards.

The ancient Italic peoples of southern Italy used to work amber; the National Archaeological Museum of Siritide (Museo Archeologico Nazionale della Siritide) at Policoro in the province of Matera (Basilicata) displays important surviving examples. Amber used in antiquity, as at Mycenae and in the prehistory of the Mediterranean, comes from deposits in Sicily.[16]

 
Wood resin, the source of amber

Pliny also cites the opinion of Nicias (c. 470–413 BCE), according to whom amber

is a liquid produced by the rays of the sun; and that these rays, at the moment of the sun's setting, striking with the greatest force upon the surface of the soil, leave upon it an unctuous sweat, which is carried off by the tides of the Ocean, and thrown up upon the shores of Germany.

Besides the fanciful explanations according to which amber is "produced by the Sun", Pliny cites opinions that are well aware of its origin in tree resin, citing the native Latin name of succinum (sūcinum, from sucus "juice").[17] In Book 37, section XI of Natural History, Pliny wrote:

Amber is produced from a marrow discharged by trees belonging to the pine genus, like gum from the cherry, and resin from the ordinary pine. It is a liquid at first, which issues forth in considerable quantities, and is gradually hardened [...] Our forefathers, too, were of opinion that it is the juice of a tree, and for this reason gave it the name of "succinum" and one great proof that it is the produce of a tree of the pine genus, is the fact that it emits a pine-like smell when rubbed, and that it burns, when ignited, with the odour and appearance of torch-pine wood.[18]

He also states that amber is also found in Egypt and India, and he even refers to the electrostatic properties of amber, by saying that "in Syria the women make the whorls of their spindles of this substance, and give it the name of harpax [from ἁρπάζω, "to drag"] from the circumstance that it attracts leaves towards it, chaff, and the light fringe of tissues".

Amber has a long history of use in China, with the first written record from 200 BCE.[19] Early in the 19th century, the first reports of amber found in North America came from discoveries in New Jersey along Crosswicks Creek near Trenton, at Camden, and near Woodbury.[2]

Composition and formation

Amber is heterogeneous in composition, but consists of several resinous bodies more or less soluble in alcohol, ether and chloroform, associated with an insoluble bituminous substance. Amber is a macromolecule by free radical polymerization of several precursors in the labdane family, e.g. communic acid, cummunol, and biformene.[20][21] These labdanes are diterpenes (C20H32) and trienes, equipping the organic skeleton with three alkene groups for polymerization. As amber matures over the years, more polymerization takes place as well as isomerization reactions, crosslinking and cyclization.[22]

Most amber has a hardness between 2.0 and 2.5 on the Mohs scale, a refractive index of 1.5–1.6, a specific gravity between 1.06 and 1.10, and a melting point of 250–300 °C.[23] Heated above 200 °C (392 °F), amber decomposes, yielding an oil of amber, and leaves a black residue which is known as "amber colophony", or "amber pitch"; when dissolved in oil of turpentine or in linseed oil this forms "amber varnish" or "amber lac".[20]

Molecular polymerization, resulting from high pressures and temperatures produced by overlying sediment, transforms the resin first into copal. Sustained heat and pressure drives off terpenes and results in the formation of amber.[24] For this to happen, the resin must be resistant to decay. Many trees produce resin, but in the majority of cases this deposit is broken down by physical and biological processes. Exposure to sunlight, rain, microorganisms, and extreme temperatures tends to disintegrate the resin. For the resin to survive long enough to become amber, it must be resistant to such forces or be produced under conditions that exclude them.[25] Fossil resins from Europe fall into two categories, the Baltic ambers and another that resembles the Agathis group. Fossil resins from the Americas and Africa are closely related to the modern genus Hymenaea,[26] while Baltic ambers are thought to be fossil resins from plants of the family Sciadopityaceae that once lived in north Europe.[27]

 
Baltic amber with inclusions

The abnormal development of resin in living trees (succinosis) can result in the formation of amber.[28] Impurities are quite often present, especially when the resin has dropped onto the ground, so the material may be useless except for varnish-making. Such impure amber is called firniss.[29] Such inclusion of other substances can cause the amber to have an unexpected color. Pyrites may give a bluish color. Bony amber owes its cloudy opacity to numerous tiny bubbles inside the resin.[30] However, so-called black amber is really a kind of jet.[citation needed] In darkly clouded and even opaque amber, inclusions can be imaged using high-energy, high-contrast, high-resolution X-rays.[31]

 
Amber from Bitterfeld

Extraction and processing

Distribution and mining

 
Open cast amber mine "Primorskoje" in Jantarny, Kaliningrad Oblast, Russia
 
Extracting Baltic amber from Holocene deposits, Gdańsk, Poland

Amber is globally distributed, mainly in rocks of Cretaceous age or younger. Historically, the coast west of Königsberg in Prussia was the world's leading source of amber. The first mentions of amber deposits there date back to the 12th century.[32] About 90% of the world's extractable amber is still located in that area, which was annexed by the Russian Soviet Federative Socialist Republic of the USSR in 1946, becoming the Kaliningrad Oblast.[33]

Pieces of amber torn from the seafloor are cast up by the waves and collected by hand, dredging, or diving. Elsewhere, amber is mined, both in open works and underground galleries. Then nodules of blue earth have to be removed and an opaque crust must be cleaned off, which can be done in revolving barrels containing sand and water. Erosion removes this crust from sea-worn amber.[30] Dominican amber is mined through bell pitting, which is dangerous because of the risk of tunnel collapse.[34]

An important source of amber is Kachin State in northern Myanmar, which has been a major source of amber in China for at least 1,800 years. Contemporary mining of this deposit has attracted attention for unsafe working conditions and its role in funding internal conflict in the country.[35] Amber from the Rivne Oblast of Ukraine, referred to as Rovno amber, is mined illegally by organised crime groups, who deforest the surrounding areas and pump water into the sediments to extract the amber, causing severe environmental deterioration.[36]

Treatment

The Vienna amber factories, which use pale amber to manufacture pipes and other smoking tools, turn it on a lathe and polish it with whitening and water or with rotten stone and oil. The final luster is given by polishing with flannel.[30]

When gradually heated in an oil bath, amber "becomes soft and flexible. Two pieces of amber may be united by smearing the surfaces with linseed oil, heating them, and then pressing them together while hot. Cloudy amber may be clarified in an oil bath, as the oil fills the numerous pores that cause the turbidity. Small fragments, formerly thrown away or used only for varnish are now used on a large scale in the formation of "ambroid" or "pressed amber".[30] The pieces are carefully heated with exclusion of air and then compressed into a uniform mass by intense hydraulic pressure, the softened amber being forced through holes in a metal plate. The product is extensively used for the production of cheap jewelry and articles for smoking. This pressed amber yields brilliant interference colors in polarized light."[37]

Amber has often been imitated by other resins like copal and kauri gum, as well as by celluloid and even glass. Baltic amber is sometimes colored artificially but also called "true amber".[30]

Appearance

 
Unique colors of Baltic amber. Polished stones.

Amber occurs in a range of different colors. As well as the usual yellow-orange-brown that is associated with the color "amber", amber can range from a whitish color through a pale lemon yellow, to brown and almost black. Other uncommon colors include red amber (sometimes known as "cherry amber"), green amber, and even blue amber, which is rare and highly sought after.[38]

Yellow amber is a hard fossil resin from evergreen trees, and despite the name it can be translucent, yellow, orange, or brown colored. Known to the Iranians by the Pahlavi compound word kah-ruba (from kah "straw" plus rubay "attract, snatch", referring to its electrical properties[11]), which entered Arabic as kahraba' or kahraba (which later became the Arabic word for electricity, كهرباء kahrabā'), it too was called amber in Europe (Old French and Middle English ambre). Found along the southern shore of the Baltic Sea, yellow amber reached the Middle East and western Europe via trade. Its coastal acquisition may have been one reason yellow amber came to be designated by the same term as ambergris. Moreover, like ambergris, the resin could be burned as an incense. The resin's most popular use was, however, for ornamentation—easily cut and polished, it could be transformed into beautiful jewelry. Much of the most highly prized amber is transparent, in contrast to the very common cloudy amber and opaque amber. Opaque amber contains numerous minute bubbles. This kind of amber is known as "bony amber".[39]

 
Blue amber from Dominican Republic

Although all Dominican amber is fluorescent, the rarest Dominican amber is blue amber. It turns blue in natural sunlight and any other partially or wholly ultraviolet light source. In long-wave UV light it has a very strong reflection, almost white. Only about 100 kg (220 lb) is found per year, which makes it valuable and expensive.[40]

Sometimes amber retains the form of drops and stalactites, just as it exuded from the ducts and receptacles of the injured trees.[30] It is thought that, in addition to exuding onto the surface of the tree, amber resin also originally flowed into hollow cavities or cracks within trees, thereby leading to the development of large lumps of amber of irregular form.

Classification

Amber can be classified into several forms. Most fundamentally, there are two types of plant resin with the potential for fossilization. Terpenoids, produced by conifers and angiosperms, consist of ring structures formed of isoprene (C5H8) units.[1] Phenolic resins are today only produced by angiosperms, and tend to serve functional uses. The extinct medullosans produced a third type of resin, which is often found as amber within their veins.[1] The composition of resins is highly variable; each species produces a unique blend of chemicals which can be identified by the use of pyrolysisgas chromatographymass spectrometry.[1] The overall chemical and structural composition is used to divide ambers into five classes.[41][42] There is also a separate classification of amber gemstones, according to the way of production.[citation needed]

Class I

This class is by far the most abundant. It comprises labdatriene carboxylic acids such as communic or ozic acids.[41] It is further split into three sub-classes. Classes Ia and Ib utilize regular labdanoid diterpenes (e.g. communic acid, communol, biformenes), while Ic uses enantio labdanoids (ozic acid, ozol, enantio biformenes).[43]

Class Ia includes Succinite (= 'normal' Baltic amber) and Glessite.[42] They have a communic acid base, and they also include much succinic acid.[41] Baltic amber yields on dry distillation succinic acid, the proportion varying from about 3% to 8%, and being greatest in the pale opaque or bony varieties. The aromatic and irritating fumes emitted by burning amber are mainly from this acid. Baltic amber is distinguished by its yield of succinic acid, hence the name succinite. Succinite has a hardness between 2 and 3, which is greater than many other fossil resins. Its specific gravity varies from 1.05 to 1.10.[20] It can be distinguished from other ambers via infrared spectroscopy through a specific carbonyl absorption peak. Infrared spectroscopy can detect the relative age of an amber sample. Succinic acid may not be an original component of amber but rather a degradation product of abietic acid.[44]

Class Ib ambers are based on communic acid; however, they lack succinic acid.[41]

Class Ic is mainly based on enantio-labdatrienonic acids, such as ozic and zanzibaric acids.[41] Its most familiar representative is Dominican amber,.[1] which is mostly transparent and often contains a higher number of fossil inclusions. This has enabled the detailed reconstruction of the ecosystem of a long-vanished tropical forest.[45] Resin from the extinct species Hymenaea protera is the source of Dominican amber and probably of most amber found in the tropics. It is not "succinite" but "retinite".[46]

Class II

These ambers are formed from resins with a sesquiterpenoid base, such as cadinene.[41]

Class III

These ambers are polystyrenes.[41]

Class IV

Class IV is something of a catch-all: its ambers are not polymerized, but mainly consist of cedrene-based sesquiterpenoids.[41]

Class V

Class V resins are considered to be produced by a pine or pine relative. They comprise a mixture of diterpinoid resins and n-alkyl compounds. Their main variety is Highgate copalite.[42]

Geological record

 
Typical amber specimen with a number of indistinct inclusions

The oldest amber recovered dates to the late Carboniferous period (320 million years ago).[1][47] Its chemical composition makes it difficult to match the amber to its producers – it is most similar to the resins produced by flowering plants; however, there are no flowering plant fossils known from before the Cretaceous, and they were not common until the Late Cretaceous. Amber becomes abundant long after the Carboniferous, in the Early Cretaceous, 150 million years ago,[1] when it is found in association with insects. The oldest amber with arthropod inclusions comes from the Late Triassic (late Carnian c. 230 Ma) of Italy, where four microscopic (0.2–0.1 mm) mites, Triasacarus, Ampezzoa, Minyacarus and Cheirolepidoptus, and a poorly preserved nematoceran fly were found in millimetre-sized droplets of amber.[48][49] The oldest amber with significant numbers of arthropod inclusions comes from Lebanon. This amber, referred to as Lebanese amber, is roughly 125–135 million years old, is considered of high scientific value, providing evidence of some of the oldest sampled ecosystems.[50]

In Lebanon, more than 450 outcrops of Lower Cretaceous amber were discovered by Dany Azar,[51] a Lebanese paleontologist and entomologist. Among these outcrops, 20 have yielded biological inclusions comprising the oldest representatives of several recent families of terrestrial arthropods. Even older Jurassic amber has been found recently in Lebanon as well. Many remarkable insects and spiders were recently discovered in the amber of Jordan including the oldest zorapterans, clerid beetles, umenocoleid roaches, and achiliid planthoppers.[50]

 
A snail and a few insects trapped within Burmese amber

Burmese amber from the Hukawng Valley in northern Myanmar is the only commercially exploited Cretaceous amber. Uranium–lead dating of zircon crystals associated with the deposit have given an estimated depositional age of approximately 99 million years ago. Over 1,300 species have been described from the amber, with over 300 in 2019 alone.

Baltic amber is found as irregular nodules in marine glauconitic sand, known as blue earth, occurring in Upper Eocene strata of Sambia in Prussia.[20] It appears to have been partly derived from older Eocene deposits and it occurs also as a derivative phase in later formations, such as glacial drift. Relics of an abundant flora occur as inclusions trapped within the amber while the resin was yet fresh, suggesting relations with the flora of eastern Asia and the southern part of North America. Heinrich Göppert named the common amber-yielding pine of the Baltic forests Pinites succiniter, but as the wood does not seem to differ from that of the existing genus it has been also called Pinus succinifera. It is improbable that the production of amber was limited to a single species; and indeed a large number of conifers belonging to different genera are represented in the amber-flora.[30]

Paleontological significance

Amber is a unique preservational mode, preserving otherwise unfossilizable parts of organisms; as such it is helpful in the reconstruction of ecosystems as well as organisms;[52] the chemical composition of the resin, however, is of limited utility in reconstructing the phylogenetic affinity of the resin producer.[1]Amber sometimes contains animals or plant matter that became caught in the resin as it was secreted. Insects, spiders and even their webs, annelids, frogs,[53] crustaceans, bacteria and amoebae,[54] marine microfossils,[55] wood, flowers and fruit, hair, feathers[3] and other small organisms have been recovered in Cretaceous ambers (deposited c. 130 million years ago).[1]

 
Skeleton of the frog Electrorana preserved in mid-Cretaceous Burmese amber.

The preservation of prehistoric organisms in amber forms a key plot point in Michael Crichton's 1990 novel Jurassic Park and the 1993 movie adaptation by Steven Spielberg.[56] In the story, scientists are able to extract the preserved blood of dinosaurs from prehistoric mosquitoes trapped in amber, from which they genetically clone living dinosaurs. Scientifically this is as yet impossible, since no amber with fossilized mosquitoes has ever yielded preserved blood.[57] Amber is, however, conducive to preserving DNA, since it dehydrates and thus stabilizes organisms trapped inside. One projection in 1999 estimated that DNA trapped in amber could last up to 100 million years, far beyond most estimates of around 1 million years in the most ideal conditions,[58] although a later 2013 study was unable to extract DNA from insects trapped in much more recent Holocene copal.[59] In 1938, 12-year-old David Attenborough (brother of Richard who played John Hammond in Jurassic Park) was given a piece of amber containing prehistoric creatures from his adoptive sister; it would be the focus of his 2004 BBC documentary The Amber Time Machine.[60]

Use

Amber has been used since prehistory (Solutrean) in the manufacture of jewelry and ornaments, and also in folk medicine.

Jewelry

 
Pendants made of amber. The oval pendant is 52 by 32 mm (2 by 1+14 in).
 
Amber necklace from 2000 to 1000 BCE

Amber has been used as jewelry since the Stone Age, from 13,000 years ago.[1] Amber ornaments have been found in Mycenaean tombs and elsewhere across Europe.[61] To this day it is used in the manufacture of smoking and glassblowing mouthpieces.[62][63] Amber's place in culture and tradition lends it a tourism value; Palanga Amber Museum is dedicated to the fossilized resin.[64]

Historical medicinal uses

Amber has long been used in folk medicine for its purported healing properties.[65] Amber and extracts were used from the time of Hippocrates in ancient Greece for a wide variety of treatments through the Middle Ages and up until the early twentieth century.[66] Traditional Chinese medicine uses amber to "tranquilize the mind".[67]

Amber necklaces are a traditional European remedy for colic or teething pain with purported analgesic properties of succinic acid, although there is no evidence that this is an effective remedy or delivery method.[65][68][69] The American Academy of Pediatrics and the FDA have warned strongly against their use, as they present both a choking and a strangulation hazard.[68][70]

Scent of amber and amber perfumery

In ancient China, it was customary to burn amber during large festivities. If amber is heated under the right conditions, oil of amber is produced, and in past times this was combined carefully with nitric acid to create "artificial musk" – a resin with a peculiar musky odor.[71] Although when burned, amber does give off a characteristic "pinewood" fragrance, modern products, such as perfume, do not normally use actual amber because fossilized amber produces very little scent. In perfumery, scents referred to as "amber" are often created and patented[72][73] to emulate the opulent golden warmth of the fossil.[74]

The scent of amber was originally derived from emulating the scent of ambergris and/or the plant resin labdanum, but since sperm whales are endangered, the scent of amber is now largely derived from labdanum.[75] The term "amber" is loosely used to describe a scent that is warm, musky, rich and honey-like, and also somewhat earthy. Benzoin is usually part of the recipe. Vanilla and cloves are sometimes used to enhance the aroma. "Amber" perfumes may be created using combinations of labdanum, benzoin resin, copal (a type of tree resin used in incense manufacture), vanilla, Dammara resin and/or synthetic materials.[71]

Imitation substances

Young resins used as imitations:[76]

Plastics used as imitations:[77]

  • Stained glass (inorganic material) and other ceramic materials
  • Celluloid
  • Cellulose nitrate (first obtained in 1833[78]) — a product of treatment of cellulose with nitration mixture.[79]
  • Acetylcellulose (not in the use at present)
  • Galalith or "artificial horn" (condensation product of casein and formaldehyde), other trade names: Alladinite, Erinoid, Lactoid.[78]
  • Casein — a conjugated protein forming from the casein precursor – caseinogen.[80]
  • Resolane (phenolic resins or phenoplasts, not in the use at present)
  • Bakelite resine (resol, phenolic resins), product from Africa are known under the misleading name "African amber".
  • Carbamide resins — melamine, formaldehyde and urea-formaldehyde resins.[79]
  • Epoxy novolac (phenolic resins), unofficial name "antique amber", not in the use at present
  • Polyesters (Polish amber imitation) with styrene. For example, unsaturated polyester resins (polymals) are produced by Chemical Industrial Works "Organika" in Sarzyna, Poland; estomal are produced by Laminopol firm. Polybern or sticked amber is artificial resins the curled chips are obtained, whereas in the case of amber – small scraps. "African amber" (polyester, synacryl is then probably other name of the same resine) are produced by Reichhold firm; Styresol trade mark or alkid resin (used in Russia, Reichhold, Inc. patent, 1948.[81]
  • Polyethylene
  • Epoxy resins
  • Polystyrene and polystyrene-like polymers (vinyl polymers).[82]
  • The resins of acrylic type (vinyl polymers[82]), especially polymethyl methacrylate PMMA (trade mark Plexiglass, metaplex).

See also

References

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  2. ^ a b "Amber" (2004). In Maxine N. Lurie and Marc Mappen (eds.) Encyclopedia of New Jersey, Rutgers University Press, ISBN 0813533252.
  3. ^ a b St. Fleur, Nicholas (8 December 2016). "That Thing With Feathers Trapped in Amber? It Was a Dinosaur Tail". The New York Times. from the original on 8 December 2016.
  4. ^ Poinar GO, Poinar R. (1995) The quest for life in amber. Basic Books, ISBN 0-201-48928-7, p. 133
  5. ^ a b Harper, Douglas. "amber". Online Etymology Dictionary. and "amber". Oxford English Dictionary (Online ed.). Oxford University Press. (Subscription or participating institution membership required.)
  6. ^ A Concise Pahlavi Dictionary, D N MacKenzie, Oxford University Press, 1971 3 December 2012 at the Wayback Machine, ISBN 0 19 713559 5
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  8. ^ Homeric (Iliad 6.513, 19.398). The feminine ἠλεκτρίς being later used as a name of the Moon. King, Rev. C.W. (1867). The Natural History of Gems or Decorative Stones. Cambridge (UK). p. 315. from the original on 29 September 2007.
  9. ^ The derivation of the modern term "electric" from the Greek word for amber dates to the 1600 (Latin electricus "amber-like", in De Magnete by William Gilbert). Heilbron, J.L. (1979). Electricity in the 17th and 18th Centuries: A Study of Early Modern Physics. University of California Press. p. 169. ISBN 978-0-520-03478-5.. The word "electron" (for the fundamental particle) was coined in 1891 by the Irish physicist George Stoney whilst analyzing elementary charges for the first time. Aber, Susie Ward. . Emporia State University. Archived from the original on 28 April 2007. Retrieved 11 May 2007..
  10. ^ Michael R. Collings, Gemlore: An Introduction to Precious and Semi-Precious Stones, 2009, p. 20
  11. ^ a b "Electric." Online Etymological Dictionary. Retrieved 6 September 2018.
  12. ^ "Bernstein - Wiktionary". en.wiktionary.org. Archived from the original on 26 March 2018. Retrieved 7 May 2018.
  13. ^ "янтарь – Викисловарь". ru.wiktionary.org. Archived from the original on 19 June 2017. Retrieved 7 May 2018.
  14. ^ Natural History 37.11 24 September 2015 at the Wayback Machine.
  15. ^ Natural History IV.27.13 or IV.13.95 in the Loeb edition.
  16. ^ Cultraro, Massimo (1 January 2007). "Evidence of amber in Bronze Age Sicily: local sources and the Balkan Mycenaean connection, in between the Aegean and the Baltic seas Prehistory across borders". Proceedings of the International Conference (Zagreb 2005): 377–389 – via ResearchGate.
  17. ^ Compare succinic acid as well as succinite, a term given to a particular type of amber by James Dwight Dana
  18. ^ Pliny the Elder. Natural History. p. Book 37.XI.
  19. ^ Chen, Dian; Zeng, Qingshuo; Yuan, Ye; Cui, Benxin; Luo, Wugan (November 2019). "Baltic amber or Burmese amber: FTIR studies on amber artifacts of Eastern Han Dynasty unearthed from Nanyang". Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy. 222: 117270. Bibcode:2019AcSpA.22217270C. doi:10.1016/j.saa.2019.117270. PMID 31226615. S2CID 195261188.
  20. ^ a b c d Rudler 1911, p. 792.
  21. ^ Manuel Villanueva-García, Antonio Martínez-Richa, and Juvencio Robles Assignment of vibrational spectra of labdatriene derivatives and ambers: A combined experimental and density functional theoretical study 12 April 2006 at the Wayback Machine Arkivoc (EJ-1567C) pp. 449–458
  22. ^ Moldoveanu, S.C. (1998). Analytical pyrolysis of natural organic polymers. Elsevier.
  23. ^ Poinar, George O.; Poinar, Hendrik N.; Cano, Raul J. (1994). "DNA from Amber Inclusions". Ancient DNA. New York, NY: Springer New York. pp. 92–103. doi:10.1007/978-1-4612-4318-2_6. ISBN 978-0-387-94308-4.
  24. ^ Rice, Patty C. (2006). Amber: Golden Gem of the Ages. 4th Ed. AuthorHouse. ISBN 978-1-4259-3849-9.
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  •   This article incorporates text from a publication now in the public domainRudler, Frederick William (1911). "Amber". In Chisholm, Hugh (ed.). Encyclopædia Britannica. Vol. 1 (11th ed.). Cambridge University Press. pp. 792–794.

Bibliography

  • Bogdasarov, Albert; Bogdasarov, Maksim (2013). "Forgery and simulations from amber" [Подделки и имитация янтаря]. In Kostjashova, Z. V. (ed.). Янтарь и его имитации Материалы международной научно-практической конференции 27 июня 2013 года [Amber and its imitations] (in Russian). Kaliningrad: Kaliningrad Amber Museum, Ministry of Culture (Kaliningrad region, Russia). p. 113. ISBN 978-5-903920-26-6.
  • Matushevskaya, Aniela (2013). "Natural and artificial resins – chosen aspects of structure and properties". In Kostjashova, Z. V. (ed.). Янтарь и его имитации Материалы международной научно-практической конференции 27 июня 2013 года [Amber and its imitations] (in Russian). Kaliningrad: Kaliningrad Amber Museum, Ministry of Culture (Kaliningrad region, Russia). p. 113. ISBN 978-5-903920-26-6.
  • Wagner-Wysiecka, Eva (2013). "Amber imitations through the eyes of a chemist" [Имитация янтаря глазами химика]. In Kostjashova, Z. V. (ed.). Янтарь и его имитации Материалы международной научно-практической конференции 27 июня 2013 года [Amber and its imitations] (in Russian). Kaliningrad: Kaliningrad Amber Museum, Ministry of Culture (Kaliningrad region, Russia). p. 113. ISBN 978-5-903920-26-6.

External links

 
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Amber (category)
  • Farlang many full text historical references on Amber Theophrastus, George Frederick Kunz, and special on Baltic amber.
  • International Paleoentomological Society: Scientific Articles on amber and its inclusions
  • Webmineral on Amber Physical properties and mineralogical information
  • Mindat Amber Image and locality information on amber
  • NY Times 40 million year old extinct bee in Dominican amber

January 26, 2023
amber, other, uses, disambiguation, confused, with, gris, grey, amber, fossilized, tree, resin, that, been, appreciated, color, natural, beauty, since, neolithic, times, much, valued, from, antiquity, present, gemstone, amber, made, into, variety, decorative, . For other uses see Amber disambiguation Not to be confused with Ambergris i e grey amber Amber is fossilized tree resin that has been appreciated for its color and natural beauty since Neolithic times 1 Much valued from antiquity to the present as a gemstone amber is made into a variety of decorative objects 2 Amber is used in jewelry and has been used as a healing agent in folk medicine An ant inside Baltic amber Unpolished amber stones There are five classes of amber defined on the basis of their chemical constituents Because it originates as a soft sticky tree resin amber sometimes contains animal and plant material as inclusions 3 Amber occurring in coal seams is also called resinite and the term ambrite is applied to that found specifically within New Zealand coal seams 4 Contents 1 Etymology 2 History 3 Composition and formation 4 Extraction and processing 4 1 Distribution and mining 4 2 Treatment 5 Appearance 6 Classification 6 1 Class I 6 2 Class II 6 3 Class III 6 4 Class IV 6 5 Class V 7 Geological record 7 1 Paleontological significance 8 Use 8 1 Jewelry 8 2 Historical medicinal uses 8 3 Scent of amber and amber perfumery 9 Imitation substances 10 See also 11 References 12 Bibliography 13 External linksEtymology EditThe English word amber derives from Arabic ʿanbar عنبر 5 better source needed ultimately from Middle Persian ambar 6 via Middle Latin ambar and Middle French ambre The word referred to what is now known as ambergris ambre gris or grey amber a solid waxy substance derived from the sperm whale The word in its sense of ambergris was adopted in Middle English in the 14th century citation needed In the Romance languages the sense of the word was extended to Baltic amber fossil resin from as early as the late 13th century citation needed At first called white or yellow amber ambre jaune this meaning was adopted in English by the early 15th century As the use of ambergris waned this became the main sense of the word 5 better source needed The two substances yellow amber and grey amber conceivably became associated or confused because they both were found washed up on beaches Ambergris is less dense than water and floats whereas amber is too dense to float though less dense than stone 7 The classical names for amber Latin electrum and Ancient Greek ἤlektron elektron are connected to a term ἠlektwr elektōr meaning beaming Sun 8 9 According to myth when Phaeton son of Helios the Sun was killed his mourning sisters became poplar trees and their tears became elektron amber 10 The word elektron gave rise to the words electric electricity and their relatives because of amber s ability to bear a charge of static electricity 11 Pliny the Elder says that the German name of amber was glaesum for which reason the Romans when Germanicus commanded the fleet in those parts gave to one of these islands the name of Glaesaria which by the barbarians was known as Austeravia This is confirmed by the recorded Old High German word glas and by the Old English word glaer for amber compare glass In Middle Low German amber was known as berne barn bornsten with etymological roots related to burn and to stone 12 The Low German term became dominant also in High German by the 18th century thus modern German Bernstein besides Dutch barnsteen In the Baltic languages the Lithuanian term for amber is gintaras and the Latvian dzintars These words and the Slavic jantar 13 and Hungarian gyanta resin are thought by whom to originate from Phoenician jainitar sea resin citation needed History EditTheophrastus discussed amber in the 4th century BCE as did Pytheas c 330 BCE whose work On the Ocean is lost but was referenced by Pliny according to whose Natural History in what is also the earliest known mention of the name Germania 14 Pytheas says that the Gutones a people of Germany inhabit the shores of an estuary of the Ocean called Mentonomon their territory extending a distance of six thousand stadia that at one day s sail from this territory is the Isle of Abalus upon the shores of which amber is thrown up by the waves in spring it being an excretion of the sea in a concrete form as also that the inhabitants use this amber by way of fuel and sell it to their neighbors the Teutones Fishing for amber on the coast of Baltic Sea Winter storms throw out amber nuggets Close to Gdansk Poland Earlier Pliny says that Pytheas refers to a large island three days sail from the Scythian coast and called Balcia by Xenophon of Lampsacus author of a fanciful travel book in Greek as Basilia a name generally equated with Abalus 15 Given the presence of amber the island could have been Heligoland Zealand the shores of Gdansk Bay the Sambia Peninsula or the Curonian Lagoon which were historically the richest sources of amber in northern Europe citation needed It is assumed by whom that there were well established trade routes for amber connecting the Baltic with the Mediterranean known as the Amber Road Pliny states explicitly that the Germans exported amber to Pannonia from where the Veneti distributed it onwards The ancient Italic peoples of southern Italy used to work amber the National Archaeological Museum of Siritide Museo Archeologico Nazionale della Siritide at Policoro in the province of Matera Basilicata displays important surviving examples Amber used in antiquity as at Mycenae and in the prehistory of the Mediterranean comes from deposits in Sicily 16 Wood resin the source of amberPliny also cites the opinion of Nicias c 470 413 BCE according to whom amberis a liquid produced by the rays of the sun and that these rays at the moment of the sun s setting striking with the greatest force upon the surface of the soil leave upon it an unctuous sweat which is carried off by the tides of the Ocean and thrown up upon the shores of Germany Besides the fanciful explanations according to which amber is produced by the Sun Pliny cites opinions that are well aware of its origin in tree resin citing the native Latin name of succinum sucinum from sucus juice 17 In Book 37 section XI of Natural History Pliny wrote Amber is produced from a marrow discharged by trees belonging to the pine genus like gum from the cherry and resin from the ordinary pine It is a liquid at first which issues forth in considerable quantities and is gradually hardened Our forefathers too were of opinion that it is the juice of a tree and for this reason gave it the name of succinum and one great proof that it is the produce of a tree of the pine genus is the fact that it emits a pine like smell when rubbed and that it burns when ignited with the odour and appearance of torch pine wood 18 He also states that amber is also found in Egypt and India and he even refers to the electrostatic properties of amber by saying that in Syria the women make the whorls of their spindles of this substance and give it the name of harpax from ἁrpazw to drag from the circumstance that it attracts leaves towards it chaff and the light fringe of tissues Amber has a long history of use in China with the first written record from 200 BCE 19 Early in the 19th century the first reports of amber found in North America came from discoveries in New Jersey along Crosswicks Creek near Trenton at Camden and near Woodbury 2 Composition and formation EditAmber is heterogeneous in composition but consists of several resinous bodies more or less soluble in alcohol ether and chloroform associated with an insoluble bituminous substance Amber is a macromolecule by free radical polymerization of several precursors in the labdane family e g communic acid cummunol and biformene 20 21 These labdanes are diterpenes C20H32 and trienes equipping the organic skeleton with three alkene groups for polymerization As amber matures over the years more polymerization takes place as well as isomerization reactions crosslinking and cyclization 22 Most amber has a hardness between 2 0 and 2 5 on the Mohs scale a refractive index of 1 5 1 6 a specific gravity between 1 06 and 1 10 and a melting point of 250 300 C 23 Heated above 200 C 392 F amber decomposes yielding an oil of amber and leaves a black residue which is known as amber colophony or amber pitch when dissolved in oil of turpentine or in linseed oil this forms amber varnish or amber lac 20 Molecular polymerization resulting from high pressures and temperatures produced by overlying sediment transforms the resin first into copal Sustained heat and pressure drives off terpenes and results in the formation of amber 24 For this to happen the resin must be resistant to decay Many trees produce resin but in the majority of cases this deposit is broken down by physical and biological processes Exposure to sunlight rain microorganisms and extreme temperatures tends to disintegrate the resin For the resin to survive long enough to become amber it must be resistant to such forces or be produced under conditions that exclude them 25 Fossil resins from Europe fall into two categories the Baltic ambers and another that resembles the Agathis group Fossil resins from the Americas and Africa are closely related to the modern genus Hymenaea 26 while Baltic ambers are thought to be fossil resins from plants of the family Sciadopityaceae that once lived in north Europe 27 Baltic amber with inclusionsThe abnormal development of resin in living trees succinosis can result in the formation of amber 28 Impurities are quite often present especially when the resin has dropped onto the ground so the material may be useless except for varnish making Such impure amber is called firniss 29 Such inclusion of other substances can cause the amber to have an unexpected color Pyrites may give a bluish color Bony amber owes its cloudy opacity to numerous tiny bubbles inside the resin 30 However so called black amber is really a kind of jet citation needed In darkly clouded and even opaque amber inclusions can be imaged using high energy high contrast high resolution X rays 31 Amber from BitterfeldExtraction and processing EditDistribution and mining Edit Open cast amber mine Primorskoje in Jantarny Kaliningrad Oblast Russia Extracting Baltic amber from Holocene deposits Gdansk PolandAmber is globally distributed mainly in rocks of Cretaceous age or younger Historically the coast west of Konigsberg in Prussia was the world s leading source of amber The first mentions of amber deposits there date back to the 12th century 32 About 90 of the world s extractable amber is still located in that area which was annexed by the Russian Soviet Federative Socialist Republic of the USSR in 1946 becoming the Kaliningrad Oblast 33 Pieces of amber torn from the seafloor are cast up by the waves and collected by hand dredging or diving Elsewhere amber is mined both in open works and underground galleries Then nodules of blue earth have to be removed and an opaque crust must be cleaned off which can be done in revolving barrels containing sand and water Erosion removes this crust from sea worn amber 30 Dominican amber is mined through bell pitting which is dangerous because of the risk of tunnel collapse 34 An important source of amber is Kachin State in northern Myanmar which has been a major source of amber in China for at least 1 800 years Contemporary mining of this deposit has attracted attention for unsafe working conditions and its role in funding internal conflict in the country 35 Amber from the Rivne Oblast of Ukraine referred to as Rovno amber is mined illegally by organised crime groups who deforest the surrounding areas and pump water into the sediments to extract the amber causing severe environmental deterioration 36 Treatment Edit The Vienna amber factories which use pale amber to manufacture pipes and other smoking tools turn it on a lathe and polish it with whitening and water or with rotten stone and oil The final luster is given by polishing with flannel 30 When gradually heated in an oil bath amber becomes soft and flexible Two pieces of amber may be united by smearing the surfaces with linseed oil heating them and then pressing them together while hot Cloudy amber may be clarified in an oil bath as the oil fills the numerous pores that cause the turbidity Small fragments formerly thrown away or used only for varnish are now used on a large scale in the formation of ambroid or pressed amber 30 The pieces are carefully heated with exclusion of air and then compressed into a uniform mass by intense hydraulic pressure the softened amber being forced through holes in a metal plate The product is extensively used for the production of cheap jewelry and articles for smoking This pressed amber yields brilliant interference colors in polarized light 37 Amber has often been imitated by other resins like copal and kauri gum as well as by celluloid and even glass Baltic amber is sometimes colored artificially but also called true amber 30 Appearance Edit Unique colors of Baltic amber Polished stones Amber occurs in a range of different colors As well as the usual yellow orange brown that is associated with the color amber amber can range from a whitish color through a pale lemon yellow to brown and almost black Other uncommon colors include red amber sometimes known as cherry amber green amber and even blue amber which is rare and highly sought after 38 Yellow amber is a hard fossil resin from evergreen trees and despite the name it can be translucent yellow orange or brown colored Known to the Iranians by the Pahlavi compound word kah ruba from kah straw plus rubay attract snatch referring to its electrical properties 11 which entered Arabic as kahraba or kahraba which later became the Arabic word for electricity كهرباء kahraba it too was called amber in Europe Old French and Middle English ambre Found along the southern shore of the Baltic Sea yellow amber reached the Middle East and western Europe via trade Its coastal acquisition may have been one reason yellow amber came to be designated by the same term as ambergris Moreover like ambergris the resin could be burned as an incense The resin s most popular use was however for ornamentation easily cut and polished it could be transformed into beautiful jewelry Much of the most highly prized amber is transparent in contrast to the very common cloudy amber and opaque amber Opaque amber contains numerous minute bubbles This kind of amber is known as bony amber 39 Blue amber from Dominican Republic Although all Dominican amber is fluorescent the rarest Dominican amber is blue amber It turns blue in natural sunlight and any other partially or wholly ultraviolet light source In long wave UV light it has a very strong reflection almost white Only about 100 kg 220 lb is found per year which makes it valuable and expensive 40 Sometimes amber retains the form of drops and stalactites just as it exuded from the ducts and receptacles of the injured trees 30 It is thought that in addition to exuding onto the surface of the tree amber resin also originally flowed into hollow cavities or cracks within trees thereby leading to the development of large lumps of amber of irregular form Classification EditAmber can be classified into several forms Most fundamentally there are two types of plant resin with the potential for fossilization Terpenoids produced by conifers and angiosperms consist of ring structures formed of isoprene C5H8 units 1 Phenolic resins are today only produced by angiosperms and tend to serve functional uses The extinct medullosans produced a third type of resin which is often found as amber within their veins 1 The composition of resins is highly variable each species produces a unique blend of chemicals which can be identified by the use of pyrolysis gas chromatography mass spectrometry 1 The overall chemical and structural composition is used to divide ambers into five classes 41 42 There is also a separate classification of amber gemstones according to the way of production citation needed Class I Edit This class is by far the most abundant It comprises labdatriene carboxylic acids such as communic or ozic acids 41 It is further split into three sub classes Classes Ia and Ib utilize regular labdanoid diterpenes e g communic acid communol biformenes while Ic uses enantio labdanoids ozic acid ozol enantio biformenes 43 Class Ia includes Succinite normal Baltic amber and Glessite 42 They have a communic acid base and they also include much succinic acid 41 Baltic amber yields on dry distillation succinic acid the proportion varying from about 3 to 8 and being greatest in the pale opaque or bony varieties The aromatic and irritating fumes emitted by burning amber are mainly from this acid Baltic amber is distinguished by its yield of succinic acid hence the name succinite Succinite has a hardness between 2 and 3 which is greater than many other fossil resins Its specific gravity varies from 1 05 to 1 10 20 It can be distinguished from other ambers via infrared spectroscopy through a specific carbonyl absorption peak Infrared spectroscopy can detect the relative age of an amber sample Succinic acid may not be an original component of amber but rather a degradation product of abietic acid 44 Class Ib ambers are based on communic acid however they lack succinic acid 41 Class Ic is mainly based on enantio labdatrienonic acids such as ozic and zanzibaric acids 41 Its most familiar representative is Dominican amber 1 which is mostly transparent and often contains a higher number of fossil inclusions This has enabled the detailed reconstruction of the ecosystem of a long vanished tropical forest 45 Resin from the extinct species Hymenaea protera is the source of Dominican amber and probably of most amber found in the tropics It is not succinite but retinite 46 Class II Edit These ambers are formed from resins with a sesquiterpenoid base such as cadinene 41 Class III Edit These ambers are polystyrenes 41 Class IV Edit Class IV is something of a catch all its ambers are not polymerized but mainly consist of cedrene based sesquiterpenoids 41 Class V Edit Class V resins are considered to be produced by a pine or pine relative They comprise a mixture of diterpinoid resins and n alkyl compounds Their main variety is Highgate copalite 42 Geological record Edit Typical amber specimen with a number of indistinct inclusions The oldest amber recovered dates to the late Carboniferous period 320 million years ago 1 47 Its chemical composition makes it difficult to match the amber to its producers it is most similar to the resins produced by flowering plants however there are no flowering plant fossils known from before the Cretaceous and they were not common until the Late Cretaceous Amber becomes abundant long after the Carboniferous in the Early Cretaceous 150 million years ago 1 when it is found in association with insects The oldest amber with arthropod inclusions comes from the Late Triassic late Carnian c 230 Ma of Italy where four microscopic 0 2 0 1 mm mites Triasacarus Ampezzoa Minyacarus and Cheirolepidoptus and a poorly preserved nematoceran fly were found in millimetre sized droplets of amber 48 49 The oldest amber with significant numbers of arthropod inclusions comes from Lebanon This amber referred to as Lebanese amber is roughly 125 135 million years old is considered of high scientific value providing evidence of some of the oldest sampled ecosystems 50 In Lebanon more than 450 outcrops of Lower Cretaceous amber were discovered by Dany Azar 51 a Lebanese paleontologist and entomologist Among these outcrops 20 have yielded biological inclusions comprising the oldest representatives of several recent families of terrestrial arthropods Even older Jurassic amber has been found recently in Lebanon as well Many remarkable insects and spiders were recently discovered in the amber of Jordan including the oldest zorapterans clerid beetles umenocoleid roaches and achiliid planthoppers 50 A snail and a few insects trapped within Burmese amber Burmese amber from the Hukawng Valley in northern Myanmar is the only commercially exploited Cretaceous amber Uranium lead dating of zircon crystals associated with the deposit have given an estimated depositional age of approximately 99 million years ago Over 1 300 species have been described from the amber with over 300 in 2019 alone Baltic amber is found as irregular nodules in marine glauconitic sand known as blue earth occurring in Upper Eocene strata of Sambia in Prussia 20 It appears to have been partly derived from older Eocene deposits and it occurs also as a derivative phase in later formations such as glacial drift Relics of an abundant flora occur as inclusions trapped within the amber while the resin was yet fresh suggesting relations with the flora of eastern Asia and the southern part of North America Heinrich Goppert named the common amber yielding pine of the Baltic forests Pinites succiniter but as the wood does not seem to differ from that of the existing genus it has been also called Pinus succinifera It is improbable that the production of amber was limited to a single species and indeed a large number of conifers belonging to different genera are represented in the amber flora 30 Paleontological significance Edit Amber is a unique preservational mode preserving otherwise unfossilizable parts of organisms as such it is helpful in the reconstruction of ecosystems as well as organisms 52 the chemical composition of the resin however is of limited utility in reconstructing the phylogenetic affinity of the resin producer 1 Amber sometimes contains animals or plant matter that became caught in the resin as it was secreted Insects spiders and even their webs annelids frogs 53 crustaceans bacteria and amoebae 54 marine microfossils 55 wood flowers and fruit hair feathers 3 and other small organisms have been recovered in Cretaceous ambers deposited c 130 million years ago 1 Skeleton of the frog Electrorana preserved in mid Cretaceous Burmese amber The preservation of prehistoric organisms in amber forms a key plot point in Michael Crichton s 1990 novel Jurassic Park and the 1993 movie adaptation by Steven Spielberg 56 In the story scientists are able to extract the preserved blood of dinosaurs from prehistoric mosquitoes trapped in amber from which they genetically clone living dinosaurs Scientifically this is as yet impossible since no amber with fossilized mosquitoes has ever yielded preserved blood 57 Amber is however conducive to preserving DNA since it dehydrates and thus stabilizes organisms trapped inside One projection in 1999 estimated that DNA trapped in amber could last up to 100 million years far beyond most estimates of around 1 million years in the most ideal conditions 58 although a later 2013 study was unable to extract DNA from insects trapped in much more recent Holocene copal 59 In 1938 12 year old David Attenborough brother of Richard who played John Hammond in Jurassic Park was given a piece of amber containing prehistoric creatures from his adoptive sister it would be the focus of his 2004 BBC documentary The Amber Time Machine 60 Use Edit Solutrean amber from Altamira in the Museum de Toulouse Amber has been used since prehistory Solutrean in the manufacture of jewelry and ornaments and also in folk medicine Jewelry Edit Pendants made of amber The oval pendant is 52 by 32 mm 2 by 1 1 4 in Amber necklace from 2000 to 1000 BCE Amber has been used as jewelry since the Stone Age from 13 000 years ago 1 Amber ornaments have been found in Mycenaean tombs and elsewhere across Europe 61 To this day it is used in the manufacture of smoking and glassblowing mouthpieces 62 63 Amber s place in culture and tradition lends it a tourism value Palanga Amber Museum is dedicated to the fossilized resin 64 Historical medicinal uses Edit Amber has long been used in folk medicine for its purported healing properties 65 Amber and extracts were used from the time of Hippocrates in ancient Greece for a wide variety of treatments through the Middle Ages and up until the early twentieth century 66 Traditional Chinese medicine uses amber to tranquilize the mind 67 Amber necklaces are a traditional European remedy for colic or teething pain with purported analgesic properties of succinic acid although there is no evidence that this is an effective remedy or delivery method 65 68 69 The American Academy of Pediatrics and the FDA have warned strongly against their use as they present both a choking and a strangulation hazard 68 70 Scent of amber and amber perfumery Edit In ancient China it was customary to burn amber during large festivities If amber is heated under the right conditions oil of amber is produced and in past times this was combined carefully with nitric acid to create artificial musk a resin with a peculiar musky odor 71 Although when burned amber does give off a characteristic pinewood fragrance modern products such as perfume do not normally use actual amber because fossilized amber produces very little scent In perfumery scents referred to as amber are often created and patented 72 73 to emulate the opulent golden warmth of the fossil 74 The scent of amber was originally derived from emulating the scent of ambergris and or the plant resin labdanum but since sperm whales are endangered the scent of amber is now largely derived from labdanum 75 The term amber is loosely used to describe a scent that is warm musky rich and honey like and also somewhat earthy Benzoin is usually part of the recipe Vanilla and cloves are sometimes used to enhance the aroma Amber perfumes may be created using combinations of labdanum benzoin resin copal a type of tree resin used in incense manufacture vanilla Dammara resin and or synthetic materials 71 Imitation substances EditYoung resins used as imitations 76 Kauri resin from Agathis australis trees in New Zealand The copals subfossil resins The African and American Colombia copals from Leguminosae trees family genus Hymenaea Amber of the Dominican or Mexican type Class I of fossil resins Copals from Manilia Indonesia and from New Zealand from trees of the genus Agathis family Araucariaceae Other fossil resins burmite in Burma rumenite in Romania and simetite in Sicily Other natural resins cellulose or chitin etc Plastics used as imitations 77 Stained glass inorganic material and other ceramic materials Celluloid Cellulose nitrate first obtained in 1833 78 a product of treatment of cellulose with nitration mixture 79 Acetylcellulose not in the use at present Galalith or artificial horn condensation product of casein and formaldehyde other trade names Alladinite Erinoid Lactoid 78 Casein a conjugated protein forming from the casein precursor caseinogen 80 Resolane phenolic resins or phenoplasts not in the use at present Bakelite resine resol phenolic resins product from Africa are known under the misleading name African amber Carbamide resins melamine formaldehyde and urea formaldehyde resins 79 Epoxy novolac phenolic resins unofficial name antique amber not in the use at present Polyesters Polish amber imitation with styrene For example unsaturated polyester resins polymals are produced by Chemical Industrial Works Organika in Sarzyna Poland estomal are produced by Laminopol firm Polybern or sticked amber is artificial resins the curled chips are obtained whereas in the case of amber small scraps African amber polyester synacryl is then probably other name of the same resine are produced by Reichhold firm Styresol trade mark or alkid resin used in Russia Reichhold Inc patent 1948 81 Polyethylene Epoxy resins Polystyrene and polystyrene like polymers vinyl polymers 82 The resins of acrylic type vinyl polymers 82 especially polymethyl methacrylate PMMA trade mark Plexiglass metaplex See also EditAmmolite List of types of amber Petrified wood Pearl Poly methyl methacrylate Precious coralReferences Edit a b c d e f g h i j Grimaldi D 2009 Pushing Back Amber Production Science 326 5949 51 2 Bibcode 2009Sci 326 51G doi 10 1126 science 1179328 PMID 19797645 S2CID 206522565 a b Amber 2004 In Maxine N Lurie and Marc Mappen eds Encyclopedia of New Jersey Rutgers University Press ISBN 0813533252 a b St Fleur Nicholas 8 December 2016 That Thing With Feathers Trapped in Amber It Was a Dinosaur Tail The New York Times Archived from the original on 8 December 2016 Poinar GO Poinar R 1995 The quest for life in amber Basic Books ISBN 0 201 48928 7 p 133 a b Harper Douglas amber Online Etymology Dictionary and amber Oxford English Dictionary Online ed Oxford University Press Subscription or participating institution membership required A Concise Pahlavi Dictionary D N MacKenzie Oxford University Press 1971 Archived 3 December 2012 at the Wayback Machine ISBN 0 19 713559 5 see Abu Zaid al Hassan from Siraf amp Sulaiman the Merchant 851 Silsilat al Tawarikh travels in Asia clarification needed Homeric Iliad 6 513 19 398 The feminine ἠlektris being later used as a name of the Moon King Rev C W 1867 The Natural History of Gems or Decorative Stones Cambridge UK p 315 Archived from the original on 29 September 2007 The derivation of the modern term electric from the Greek word for amber dates to the 1600 Latin electricus amber like in De Magnete by William Gilbert Heilbron J L 1979 Electricity in the 17th and 18th Centuries A Study of Early Modern Physics University of California Press p 169 ISBN 978 0 520 03478 5 The word electron for the fundamental particle was coined in 1891 by the Irish physicist George Stoney whilst analyzing elementary charges for the first time Aber Susie Ward Welcome to the World of Amber Emporia State University Archived from the original on 28 April 2007 Retrieved 11 May 2007 Michael R Collings Gemlore An Introduction to Precious and Semi Precious Stones 2009 p 20 a b Electric Online Etymological Dictionary Retrieved 6 September 2018 Bernstein Wiktionary en wiktionary org Archived from the original on 26 March 2018 Retrieved 7 May 2018 yantar Vikislovar ru wiktionary org Archived from the original on 19 June 2017 Retrieved 7 May 2018 Natural History 37 11 Archived 24 September 2015 at the Wayback Machine Natural History IV 27 13 or IV 13 95 in the Loeb edition Cultraro Massimo 1 January 2007 Evidence of amber in Bronze Age Sicily local sources and the Balkan Mycenaean connection in between the Aegean and the Baltic seas Prehistory across borders Proceedings of the International Conference Zagreb 2005 377 389 via ResearchGate Compare succinic acid as well as succinite a term given to a particular type of amber by James Dwight Dana Pliny the Elder Natural History p Book 37 XI Chen Dian Zeng Qingshuo Yuan Ye Cui Benxin Luo Wugan November 2019 Baltic amber or Burmese amber FTIR studies on amber artifacts of Eastern Han Dynasty unearthed from Nanyang Spectrochimica Acta Part A Molecular and Biomolecular Spectroscopy 222 117270 Bibcode 2019AcSpA 22217270C doi 10 1016 j saa 2019 117270 PMID 31226615 S2CID 195261188 a b c d Rudler 1911 p 792 Manuel Villanueva Garcia Antonio Martinez Richa and Juvencio Robles Assignment of vibrational spectra of labdatriene derivatives and ambers A combined experimental and density functional theoretical study Archived 12 April 2006 at the Wayback Machine Arkivoc EJ 1567C pp 449 458 Moldoveanu S C 1998 Analytical pyrolysis of natural organic polymers Elsevier Poinar George O Poinar Hendrik N Cano Raul J 1994 DNA from Amber Inclusions Ancient DNA New York NY Springer New York pp 92 103 doi 10 1007 978 1 4612 4318 2 6 ISBN 978 0 387 94308 4 Rice Patty C 2006 Amber Golden Gem of the Ages 4th Ed AuthorHouse ISBN 978 1 4259 3849 9 Poinar George O 1992 Life in amber Stanford Calif Stanford University Press p 12 ISBN 0804720010 Lambert JB Poinar GO Jr 2002 Amber the organic gemstone Accounts of Chemical Research 35 8 628 36 doi 10 1021 ar0001970 PMID 12186567 Wolfe A P Tappert R Muehlenbachs K Boudreau M McKellar R C Basinger J F Garrett A 30 June 2009 A new proposal concerning the botanical origin of Baltic amber Proceedings of the Royal Society B Biological Sciences 276 1672 3403 3412 doi 10 1098 rspb 2009 0806 PMC 2817186 PMID 19570786 Sherborn Charles Davies 1892 Natural Science A Monthly Review of Scientific Progress Volume 1 Braswell Tripp Pearlie 2013 Real Diamonds amp Precious Stones of the Bible Bloomington Xlibris Corporation p 70 ISBN 9781479796441 a b c d e f g Rudler 1911 p 793 Amos Jonathan 1 April 2008 BBC News Secret dino bugs revealed 1 April 2008 BBC News Archived from the original on 28 August 2010 The History of Russian Amber Part 1 The Beginning Archived 15 March 2018 at the Wayback Machine Leta st Amber Trade and the Environment in the Kaliningrad Oblast Archived 6 July 2012 at the Wayback Machine Gurukul ucc american edu Retrieved on 19 September 2012 Wichard Wilfred and Weitschat Wolfgang 2004 Im Bernsteinwald Gerstenberg Verlag Hildesheim ISBN 3 8067 2551 9 Hunt Katie 20 September 2020 Blood amber may be a portal into dinosaur times but the fossils are an ethical minefield for palaeontologists CNN Retrieved 20 September 2020 The Dramatic Impact of Illegal Amber Mining in Ukraine s Wild West National Geographic News 31 January 2017 Retrieved 22 September 2020 Project Gutenberg January 2021 The Project Gutenberg Encyclopedia Prabhat Prakashan Amber Natural Organic Amber Gemstone amp Jewelry Information GemSelect www gemselect com Archived from the original on 28 August 2017 Retrieved 28 August 2017 Amber 1999 In G W Bowersock Peter Brown Oleg Grabar eds Late Antiquity A Guide to the Postclassical World Harvard University Press ISBN 0674511735 Manuel A Iturralde Vennet 2001 Geology of the Amber Bearing Deposits of the Greater Antilles PDF Caribbean Journal of Science 37 3 141 167 Archived from the original PDF on 11 May 2011 a b c d e f g h Anderson K Winans R Botto R 1992 The nature and fate of natural resins in the geosphere II Identification classification and nomenclature of resinites Organic Geochemistry 18 6 829 841 doi 10 1016 0146 6380 92 90051 X a b c Anderson K Botto R 1993 The nature and fate of natural resins in the geosphere III Re evaluation of the structure and composition of Highgate Copalite and Glessite Organic Geochemistry 20 7 1027 doi 10 1016 0146 6380 93 90111 N Anderson Ken B 1996 New Evidence Concerning the Structure Composition and Maturation of Class I Polylabdanoid Resinites Amber Resinite and Fossil Resins ACS Symposium Series Vol 617 pp 105 129 doi 10 1021 bk 1995 0617 ch006 ISBN 978 0 8412 3336 2 Shashoua Yvonne 2007 Degradation and inhibitive conservation of Baltic amber in museum collections PDF Department of Conservation The National Museum of Denmark Archived from the original PDF on 11 May 2011 George Poinar Jr and Roberta Poinar 1999 The Amber Forest A Reconstruction of a Vanished World Princeton University Press ISBN 0 691 02888 5 Grimaldi D A 1996 Amber Window to the Past American Museum of Natural History New York ISBN 0810919664 Bray P S Anderson K B 2009 Identification of Carboniferous 320 Million Years Old Class Ic Amber Science 326 5949 132 134 Bibcode 2009Sci 326 132B doi 10 1126 science 1177539 PMID 19797659 S2CID 128461248 Schmidt A R Jancke S Lindquist E E Ragazzi E Roghi G Nascimbene P C Schmidt K Wappler T Grimaldi D A 2012 Arthropods in amber from the Triassic Period Proceedings of the National Academy of Sciences 109 37 14796 801 Bibcode 2012PNAS 10914796S doi 10 1073 pnas 1208464109 PMC 3443139 PMID 22927387 Sidorchuk Ekaterina A Schmidt Alexander R Ragazzi Eugenio Roghi Guido Lindquist Evert E February 2015 Plant feeding mite diversity in Triassic amber Acari Tetrapodili Journal of Systematic Palaeontology 13 2 129 151 doi 10 1080 14772019 2013 867373 ISSN 1477 2019 S2CID 85055941 a b Poinar P O Jr and R K Milki 2001 Lebanese Amber The Oldest Insect Ecosystem in Fossilized Resin Oregon State University Press Corvallis ISBN 0 87071 533 X Azar Dany 2012 Lebanese amber a Guinness Book of Records Annales Universitatis Paedagogicae Cracoviensis 111 44 60 BBC Radio 4 Amber Archived 12 February 2006 at the Wayback Machine Db bbc co uk 16 February 2005 Retrieved on 23 April 2011 Scientist Frog could be 25 million years old NBC News 16 February 2007 Waggoner Benjamin M 13 July 1996 Bacteria and protists from Middle Cretaceous amber of Ellsworth County Kansas PaleoBios 17 1 20 26 Archived from the original on 8 August 2007 Girard V Schmidt A Saint Martin S Struwe S Perrichot V Saint Martin J Grosheny D Breton G Neraudeau D 2008 Evidence for marine microfossils from amber Proceedings of the National Academy of Sciences of the United States of America 105 45 17426 17429 Bibcode 2008PNAS 10517426G doi 10 1073 pnas 0804980105 PMC 2582268 PMID 18981417 Don Shay amp Jody Duncan 1993 The Making of Jurassic Park p 4 Joseph Stromberg 14 October 2013 A Fossilized Blood Engorged Mosquito is Found for the First Time Ever Smithsonian Magazine Retrieved 7 July 2018 J L Bada X S Wang H Hamilton 1999 Preservation of key biomolecules in the fossil record Current knowledge and future challenges Philos Trans R Soc Lond B Vol 354 pp 77 87 a href Template Cite news html title Template Cite news cite news a CS1 maint multiple names authors list link News Staff Extracting Dinosaur DNA from Amber Fossils Impossible Scientists Say SciNews Retrieved 23 August 2018 Jewel of the Earth PBS Archived from the original on 3 June 2021 Retrieved 2 July 2021 Curt W Beck Anthony Harding and Helen Hughes Brock Amber in the Mycenaean World The Annual of the British School at Athens vol 69 November 1974 pp 145 172 DOI 10 1017 S0068245400005505Archived 5 November 2013 at the Wayback Machine Interview with expert pipe maker Baldo Baldi Accessed 10 12 09 Pipesandtobaccos com 11 February 2000 Archived from the original on 16 February 2006 Maker of amber mouthpiece for glass blowing pipes Accessed 10 12 09 Steinertindustries com 7 May 2007 Archived from the original on 16 July 2011 Schuler C J 2022 Along the Amber Route St Petersburg to Venice Sandstone Press p 71 ISBN 978 1 912240 92 0 With more than a quarter of a million pieces this is thought to be the world s largest collection of amber a b Lisa Markman 2009 Teething Facts and Fiction PDF Pediatr Rev 30 8 e59 e64 CiteSeerX 10 1 1 695 5675 doi 10 1542 pir 30 8 e59 PMID 19648257 Archived from the original PDF on 10 May 2013 Riddle John M 1973 AMBER in ancient Pharmacy The Transmission of Information About a Single Drug A Case Study Pharmacy in History 15 1 3 17 via JSTOR Zhu Zhenhua Chen Chenkai Zhu Yue Shang Erxin Zhao Ming Guo Sheng Guo Jianming Qian Dawei Tang Zhishu Yan Hui Duan Jinao 2019 Exploratory Cortex Metabolic Profiling Revealed the Sedative Effect of Amber in Pentylenetetrazole Induced Epilepsy Like Mice Molecules 24 3 460 doi 10 3390 molecules24030460 ISSN 1420 3049 PMC 6384605 PMID 30696059 a b Teething Necklaces and Beads A Caution for Parents HealthyChildren org Retrieved 21 December 2018 Amber Waves of Woo Science Based Medicine 11 April 2014 Retrieved 21 December 2018 Health Center for Devices and Radiological Safety Communications FDA Warns Against Use of Teething Necklaces Bracelets and Other Jewelry Marketed for Relieving Teething Pain or Providing Sensory Stimulation FDA Safety Communication www fda gov Retrieved 21 December 2018 a b Amber as an aphrodisiac Aphrodisiacs info com Archived from the original on 17 January 2013 Retrieved 19 September 2012 Thermer Ernst T Saturated indane derivatives and processes for producing same U S Patent 3 703 479 U S Patent 3 681 464 issue date 1972 Perfume compositions and perfume articles containing one isomer of an octahydrotetramethyl acetonaphthone John B Hall Rumson James Milton Sanders Eatontown U S Patent 3 929 677 Publication Date 30 December 1975 Sorcery of Scent Amber A perfume myth Archived 14 January 2010 at the Wayback Machine Sorceryofscent blogspot com 30 July 2008 Retrieved on 23 April 2011 Gomes Paula B Mata Vera G Rodrigues A E 2005 Characterization of the Portuguese Grown Cistus ladanifer Essential Oil PDF Journal of Essential Oil Research 17 2 160 165 CiteSeerX 10 1 1 694 8772 doi 10 1080 10412905 2005 9698864 S2CID 96688538 Archived from the original PDF on 24 March 2012 Matushevskaya 2013 pp 11 13 Matushevskaya 2013 pp 13 19 a b Wagner Wysiecka 2013 p 30 a b Bogdasarov amp Bogdasarov 2013 p 38 Bogdasarov amp Bogdasarov 2013 p 37 Wagner Wysiecka 2013 p 31 a b Wagner Wysiecka 2013 p 32 This article incorporates text from a publication now in the public domain Rudler Frederick William 1911 Amber In Chisholm Hugh ed Encyclopaedia Britannica Vol 1 11th ed Cambridge University Press pp 792 794 Bibliography EditBogdasarov Albert Bogdasarov Maksim 2013 Forgery and simulations from amber Poddelki i imitaciya yantarya In Kostjashova Z V ed Yantar i ego imitacii Materialy mezhdunarodnoj nauchno prakticheskoj konferencii 27 iyunya 2013 goda Amber and its imitations in Russian Kaliningrad Kaliningrad Amber Museum Ministry of Culture Kaliningrad region Russia p 113 ISBN 978 5 903920 26 6 Matushevskaya Aniela 2013 Natural and artificial resins chosen aspects of structure and properties In Kostjashova Z V ed Yantar i ego imitacii Materialy mezhdunarodnoj nauchno prakticheskoj konferencii 27 iyunya 2013 goda Amber and its imitations in Russian Kaliningrad Kaliningrad Amber Museum Ministry of Culture Kaliningrad region Russia p 113 ISBN 978 5 903920 26 6 Wagner Wysiecka Eva 2013 Amber imitations through the eyes of a chemist Imitaciya yantarya glazami himika In Kostjashova Z V ed Yantar i ego imitacii Materialy mezhdunarodnoj nauchno prakticheskoj konferencii 27 iyunya 2013 goda Amber and its imitations in Russian Kaliningrad Kaliningrad Amber Museum Ministry of Culture Kaliningrad region Russia p 113 ISBN 978 5 903920 26 6 External links Edit Wikimedia Commons has media related to Amber category Farlang many full text historical references on Amber Theophrastus George Frederick Kunz and special on Baltic amber IPS Publications on amber inclusions International Paleoentomological Society Scientific Articles on amber and its inclusions Webmineral on Amber Physical properties and mineralogical information Mindat Amber Image and locality information on amber NY Times 40 million year old extinct bee in Dominican amber Retrieved from https en wikipedia org w index php title Amber amp oldid 1133464776, wikipedia, wiki, book, books, library,

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