Tin sources and trade during antiquity

Last updated

Tin is an essential metal in the creation of tin-bronzes, and its acquisition was an important part of ancient cultures from the Bronze Age onward. Its use began in the Middle East and the Balkans around 3000 BC. Tin is a relatively rare element in the Earth's crust, with about two parts per million (ppm), compared to iron with 50,000 ppm, copper with 70 ppm, lead with 16 ppm, arsenic with 5 ppm, silver with 0.1 ppm, and gold with 0.005 ppm. [1] Ancient sources of tin were therefore rare, and the metal usually had to be traded over very long distances to meet demand in areas which lacked tin deposits.

Contents

Known sources of tin in ancient times include the southeastern tin belt that runs from Yunnan in China to the Malay Peninsula; Cornwall and Devon in Britain; Brittany in France; the border between Germany and the Czech Republic; Spain; Portugal; Italy; and central and South Africa. [2] [3] Syria and Egypt have been suggested as minor sources of tin, but the archaeological evidence is inconclusive.

Map of bronze-age tin finds: major and minor tin deposits from Europe to Central Asia, and selected objects. Map of bronze-age tin finds. Objects in the eastern Mediterranean and the Near East, and major and minor tin deposits.png
Map of bronze-age tin finds: major and minor tin deposits from Europe to Central Asia, and selected objects.

Early use

Cassiterite and quartz crystals Cassiterite - Mt Bischoff mine, Waratah, Tasmania, Australia.jpg
Cassiterite and quartz crystals

Tin extraction and use can be dated to the beginning of the Bronze Age around 3000 BC, during which copper objects formed from polymetallic ores had different physical properties. [4] The earliest bronze objects had tin or arsenic content of less than 2% and are therefore believed to be the result of unintentional alloying due to trace metal content in copper ores such as tennantite, which contains arsenic. [5] The addition of a second metal to copper increases its hardness, lowers the melting temperature, and improves the casting process by producing a more fluid melt that cools to a denser, less spongy metal. [6] This was an important innovation that allowed for the much more complex shapes cast in closed molds of the Bronze Age. Arsenical bronze objects appear first in the Middle East where arsenic is commonly found in association with copper ore, but the health risks were quickly realized and the quest for sources of the much less hazardous tin ores began early in the Bronze Age. [7] This created the demand for rare tin metal and formed a trade network that linked the distant sources of tin to the markets of Bronze Age cultures.

Cassiterite (SnO2), oxidized tin, most likely was the original source of tin in ancient times. Other forms of tin ores are less abundant sulfides such as stannite that require a more involved smelting process. Cassiterite often accumulates in alluvial channels as placer deposits due to the fact that it is harder, heavier, and more chemically resistant than the granite in which it typically forms. [8] These deposits can be easily seen in river banks, because cassiterite is usually black or purple or otherwise dark, a feature exploited by early Bronze Age prospectors. It is likely that the earliest deposits were alluvial and perhaps exploited by the same methods used for panning gold in placer deposits.

Archaeological importance

The importance of tin to the success of Bronze Age cultures and the scarcity of the resource offers a glimpse into that time period's trade and cultural interactions, and has therefore been the focus of intense archaeological studies. However, a number of problems have plagued the study of ancient tin such as the limited archaeological remains of placer mining, the destruction of ancient mines by modern mining operations, and the poor preservation of pure tin objects due to tin disease or tin pest . These problems are compounded by the difficulty in provenancing tin objects and ores to their geological deposits using isotopic or trace element analyses. Current archaeological debate is concerned with the origins of tin in the earliest Bronze Age cultures of the Near East. [8] [9] [10] [11] [3] [12]

Ancient sources

Europe

Giant, ceremonial dirk of the Plougrescant-Ommerschans type, Plougrescant, France, 1500-1300 BC. Sword bronze age (2nd version).jpg
Giant, ceremonial dirk of the Plougrescant-Ommerschans type, Plougrescant, France, 1500–1300 BC.
Wheelpit at a medieval tin mine in Dartmoor, United Kingdom Huntingdon wheelpit2.jpg
Wheelpit at a medieval tin mine in Dartmoor, United Kingdom

Europe has very few sources of tin. Therefore, throughout ancient times it was imported long distances from the known tin mining districts of antiquity. These were the Ore Mountains (Erzgebirge) along the modern border between Germany and the Czech Republic, the Iberian Peninsula, Brittany in modern France, and Cornwall and Devon in southwestern Britain. [13] [14] There are several smaller sources of tin in the Balkans [15] and another minor source of tin is known to exist at Monte Valerio in Tuscany, Italy. The Tuscan source was exploited by Etruscan miners around 800 BC, but it was not a significant source of tin for the rest of the Mediterranean. [16] Even at that time, the Etruscans themselves had to import additional tin from the northwest of the Iberian Peninsula, and later from Cornwall. [17]

It has been claimed that tin was first mined in Europe around 2500 BC in the Erzgebirge, and knowledge of tin bronze and tin extraction techniques spread from there to Brittany and Cornwall around 2000 BC and from northwestern Europe to northwestern Spain and Portugal around the same time. [18] However, the only Bronze Age object from Central Europe whose tin has been scientifically provenanced is the Nebra sky disk, and its tin (and gold, though not its copper), is shown by tin isotopes to have come from Cornwall. [19] In addition, a rare find of a pure tin ingot in Scandinavia was provenanced to Cornwall. [20] Available evidence, though very limited, thus points to Cornwall as the sole early source of tin in Central and Northern Europe.

Cornwall and Devon were important sources of tin for Europe and the Mediterranean throughout ancient times and may have been the earliest sources of tin in Western Europe, with evidence for trade to the Eastern Mediterranean by the Late Bronze Age. [21] Within recorded history, Cornwall and Devon only dominated the European market for tin from late Roman times, starting around the 3rd century AD, as many Spanish tin mines were exhausted. [22] Cornwall maintained its importance as a source of tin throughout medieval times and into the modern period. [23]

Brittany – opposite Cornwall on the Celtic Sea – has significant sources of tin which show evidence of being extensively exploited after the Roman conquest of Gaul during the 50s BC and onwards. [24] Brittany remained a significant source of tin throughout the medieval period.

A group of 52 bronze artifacts from the late Bronze Age Balkans has been shown to have tin of multiple origins, based on the correlation of tin isotope differences with the different find locations of the artifacts. While the locations of these separate tin sources are uncertain, the larger Serbian group of artifacts is inferred to be derived from tin sources in western Serbia (e.g. Mount Cer), while the smaller group, largely from western Romania, is inferred to have western Romanian origins. [25]

Iberian tin was widely traded across the Mediterranean during the Bronze Age, and extensively exploited during Roman times. But Iberian tin deposits were largely forgotten throughout the medieval period, were not rediscovered until the 18th century, and only re-gained importance during the mid-19th century. [26]

Asia

Western Asia has very little tin ore; the few sources that have recently been found are too insignificant to have played a major role during most of ancient history. [4] However, it is possible that they were exploited at the start of the Bronze Age and are responsible for the development of early bronze manufacturing technology. [27] [3] Kestel, in Southern Turkey, is the site of an ancient cassiterite mine that was used from 3250 to 1800 BC. It contains miles of tunnels, some only large enough for a child. A grave with children who were probably workers has been found. It was abandoned, with crucibles and other tools left at the site.

While there are a few sources of cassiterite in Central Asia, namely in Uzbekistan, Tajikistan, and Afghanistan, that show signs of having been exploited starting around 2000 BC, [28] archaeologists disagree about whether they were significant sources of tin for the earliest Bronze Age cultures of the Middle East. [29] [27] [30] [31]

In Northern Asia the only tin deposits considered exploitable by ancient peoples occur in the far eastern region of Siberia. [32] This source of tin appears to have been exploited by the Eurasian Steppe people known as the Seima-Turbino culture around 2000 BC as well as by northern Chinese cultures around the same time. [33]

Eastern Asia has a number of small cassiterite deposits along the Yellow River which were exploited by the earliest Chinese Bronze Age culture of Erlitou and the Shang dynasty (2500 to 1800 BC). However, the richest deposits for the region, and indeed the world, lie in Southeastern Asia, stretching from Yunnan in China to the Malay Peninsula. The deposits in Yunnan were not mined until around 700 BC, but by the Han dynasty had become the main source of tin in China according to historical texts of the Han, Jin, Tang, and Song dynasties. [34] Other cultures of Southeast Asia exploited the abundant cassiterite resources sometime between the third and second millennia BC, but due to the lack of archaeological work in the region little else is known about tin exploitation during ancient times in that part of the world.

Tin was used in the Indian subcontinent starting between 1500 and 1000 BC. [35] [36] While India does have some small scattered deposits of tin, they were not a major source of tin for Indian Bronze Age cultures as shown by their dependence on imported tin.

Africa

While rich veins of tin are known to exist in Central and South Africa, whether these were exploited during ancient times is still debated ( Dayton 2003 , p. 165). However, the Bantu culture of Zimbabwe are known to have actively mined, smelted and traded tin between the 11th and 15th centuries AD. [37]

Americas

Tin deposits exist in many parts of South America, with minor deposits in southern Peru, Colombia, Brazil, and northwestern Argentina, and major deposits of exploitable cassiterite in northern Bolivia. These deposits were exploited as early as 1000 AD in the manufacture of tin bronze by Andean cultures, including the later Inca Empire, which considered tin bronze the "imperial alloy". In North America, the only known exploitable source of tin during ancient times is located in the Zacatecas tin province of north central Mexico which supplied west Mexican cultures with enough tin for bronze production. [38]

Australia

The tin belt of Southeast Asia extends all the way down to Tasmania, but metals were not exploited in Australia until the arrival of Europeans in the 1780s.

Trade

Due to the scattered nature of tin deposits around the world and its essential nature for the creation of tin bronze, tin trade played an important role in the development of cultures throughout ancient times. Archaeologists have reconstructed parts of the extensive trade networks of ancient cultures from the Bronze Age to modern times using historical texts, archaeological excavations, and trace element and lead isotope analysis to determine the origins of tin objects around the world. [39] [40] [30]

Mediterranean

The earliest sources of tin in the Early Bronze Age in the Near East are still unknown and the subject of much debate in archaeology. [10] [29] [30] [27] [8] [31] [41] ) Possibilities include minor now-depleted sources in the Near East, trade from Central Asia, [3] Sub-Saharan Africa, [29] Europe, or elsewhere.

It is possible that as early as 2500 BC, the Ore Mountains had begun exporting tin, using the well established Baltic amber trade route to supply Scandinavia as well as the Mediterranean with tin. [42] By 2000 BC, the extraction of tin in Britain, France, Spain, and Portugal had begun and tin was traded to the Mediterranean sporadically from all these sources. Evidence of tin trade in the Mediterranean can be seen in a number of Bronze Age shipwrecks containing tin ingots such as the Uluburun off the coast of Turkey dated 1300 BC which carried over 300 copper bars weighing 10 tons, and approximately 40 tin bars weighing 1 ton. [43] Evidence of direct tin trade between Europe and the Eastern Mediterranean has been demonstrated through the analysis of tin ingots dated to the 13th-12th centuries BC from sites in Israel, Turkey and modern-day Greece; tin ingots from Israel, for example, have been found to share chemical composition with tin from Cornwall and Devon (Great Britain). [21]

While Sardinia does not appear to have much in terms of significant sources of tin, it does have rich copper and other mineral wealth and served as a centre for metals trade during the Bronze Age and likely actively imported tin from the Iberian Peninsula for export to the rest of the Mediterranean. [44]

Map of Europe based on Strabo's geography, showing the Cassiterides just off the northwest tip of Iberia Map of Europe according to Strabo.jpg
Map of Europe based on Strabo's geography, showing the Cassiterides just off the northwest tip of Iberia

By classical Greek times, the tin sources were well established. Greece and the Western Mediterranean appear to have traded their tin from European sources, while the Middle East acquired their tin from Central Asian sources through the Silk Road. [45] For example, Iron Age Greece had access to tin from Iberia by way of the Phoenicians who traded extensively there, from the Erzgebirge by way of the Baltic Amber Road overland route, or from Brittany and Cornwall through overland routes from their colony at Massalia (modern day Marseilles) established in the 6th century BC. [8] In 450 BC, Herodotus described tin as coming from Northern European islands named the Cassiterides along the extreme borders of the world, suggesting very long-distance trade, likely from Britain, northwestern Iberia, or Brittany, supplying tin to Greece and other Mediterranean cultures. [14] The idea that the Phoenicians went to Cornwall for its tin and supplied it to the whole of the Mediterranean has no archaeological basis and is largely considered a myth. [46]

The early Roman world was mainly supplied with tin from its Iberian provinces of Gallaecia and Lusitania and to a lesser extent Tuscany. Pliny mentions that in 80 BC, a senatorial decree halted all mining on the Italian Peninsula, stopping any tin mining activity in Tuscany and increasing Roman dependence on tin from Brittany, Iberia, and Cornwall. After the Roman conquest of Gaul, Brittany's tin deposits saw intensified exploitation after the first century BC. [24] With the exhaustion of the Iberian tin mines, Cornwall became a major supplier of tin for the Romans after the 3rd century AD. [23]

Throughout the medieval period, demand for tin increased as pewter gained popularity. Brittany and Cornwall remained the major producers and exporters of tin throughout the Mediterranean through to modern times. [23]

Asia

A Shang dynasty bronze gefuding gui vessel Gefuding Gui.jpg
A Shang dynasty bronze gefuding gui vessel

Near Eastern development of bronze technology spread across Central Asia by way of the Eurasian Steppes, and with it came the knowledge and technology for tin prospection and extraction. By 2000 to 1500 BC Uzbekistan, Afghanistan, and Tajikistan appear to have exploited their sources of tin, carrying the resources east and west along the Silk Road crossing Central Asia. [28] This trade link likely followed an existing trade route of lapis lazuli, a highly prized semi-precious blue gemstone, and chlorite vessels decorated with turquoise from Central Asia that have been found as far west as Egypt and that date to the same period. [47]

In China, early tin was extracted along the Yellow River in Erlitou and Shang times between 2500 and 1800 BC. By Han and later times, China imported its tin from what is today Yunnan province. This has remained China's main source of tin throughout history and into modern times. [48]

It is unlikely that Southeast Asian tin from Indochina was widely traded around the world in ancient times as the area was only opened up to Indian, Muslim, and European traders around 800 AD. [49]

Indo–Roman trade relations are well known from historical texts such as Pliny's Natural History (book VI, 26), and tin is mentioned as one of the resources being exported from Rome to South Arabia, Somaliland, and India. [50] [32]

See also

Related Research Articles

<span class="mw-page-title-main">Bronze</span> Alloy of copper and tin

Bronze is an alloy consisting primarily of copper, commonly with about 12–12.5% tin and often with the addition of other metals and sometimes non-metals, such as phosphorus, or metalloids such as arsenic or silicon. These additions produce a range of alloys that may be harder than copper alone, or have other useful properties, such as strength, ductility, or machinability.

<span class="mw-page-title-main">Bronze Age</span> Historical period (c. 3300–1200 BC)

The Bronze Age is a historical period lasting from approximately 3300 to 1200 BC. It is characterized by the use of bronze, the use of writing in some areas, and other features of early urban civilization. The Bronze Age is the middle principal period of the three-age system, between the Stone and Iron Ages. This system was proposed in 1836 by Christian Jürgensen Thomsen for classifying and studying ancient societies and history. Worldwide, the Bronze Age generally followed the Neolithic period, with the Chalcolithic serving as a transition.

<span class="mw-page-title-main">Tin</span> Chemical element, symbol Sn and atomic number 50

Tin is a chemical element; it has symbol Sn and atomic number 50. A silvery-colored metal, tin is soft enough to be cut with little force, and a bar of tin can be bent by hand with little effort. When bent, the so-called "tin cry" can be heard as a result of twinning in tin crystals.

<span class="mw-page-title-main">Cassiterite</span> Tin oxide mineral, SnO₂

Cassiterite is a tin oxide mineral, SnO2. It is generally opaque, but it is translucent in thin crystals. Its luster and multiple crystal faces produce a desirable gem. Cassiterite was the chief tin ore throughout ancient history and remains the most important source of tin today.

<span class="mw-page-title-main">Gournia</span> Minoan archaeological site in Crete, Greece


Gournia is the site of a Minoan palace complex in the Lasithi regional unit on the island of Crete, Greece, excavated in the early 20th century by the American archaeologist, Harriet Boyd-Hawes. The sites of Gournia, Pachyammos, Vasiliki, Monasteraki, Vraika and Kavusi all lie within a three mile radius and the site of Pseira is not far away. The original name for the site is unknown. The modern local name comes from the many stone troughs, Greek γουρνιά, visible on site.

<span class="mw-page-title-main">Uluburun shipwreck</span> 14th-century BCE Mediterranean shipwreck

The Uluburun Shipwreck is a Late Bronze Age shipwreck dated to the late 14th century BC, discovered close to the east shore of Uluburun, Turkey, in the Mediterranean Sea. The shipwreck was discovered in the summer of 1982 by Mehmed Çakir, a local sponge diver from Yalıkavak, a village near Bodrum.

<span class="mw-page-title-main">Tennantite</span> Copper arsenic sulfosalt mineral

Tennantite is a copper arsenic sulfosalt mineral with an ideal formula Cu12As4S13. Due to variable substitution of the copper by iron and zinc the formula is Cu6[Cu4(Fe,Zn)2]As4S13. It is gray-black, steel-gray, iron-gray or black in color. A closely related mineral, tetrahedrite (Cu12Sb4S13) has antimony substituting for arsenic and the two form a solid solution series. The two have very similar properties and is often difficult to distinguish between tennantite and tetrahedrite. Iron, zinc, and silver substitute up to about 15% for the copper site.

Kestel is an archaeological site in the Taurus Mountains in Turkey, with important finds related to the study of Tin sources and trade in ancient times.

<span class="mw-page-title-main">Mining in Cornwall and Devon</span> Mining in the English counties of Cornwall and Devon

Mining in Cornwall and Devon, in the southwest of Britain, is thought to have begun in the early-middle Bronze Age with the exploitation of cassiterite. Tin, and later copper, were the most commonly extracted metals. Some tin mining continued long after the mining of other metals had become unprofitable, but ended in the late 20th century. In 2021, it was announced that a new mine was extracting battery-grade lithium carbonate, more than 20 years after the closure of the last South Crofty tin mine in Cornwall in 1998.

<span class="mw-page-title-main">Arsenical bronze</span> Alloy

Arsenical bronze is an alloy in which arsenic, as opposed to or in addition to tin or other constituent metals, is combined with copper to make bronze. The use of arsenic with copper, either as the secondary constituent or with another component such as tin, results in a stronger final product and better casting behavior.

The European Bronze Age is characterized by bronze artifacts and the use of bronze implements. The regional Bronze Age succeeds the Neolithic and Copper Age and is followed by the Iron Age. It starts with the Aegean Bronze Age in 3200 BC and spans the entire 2nd millennium BC, lasting until c. 800 BC in central Europe.

<span class="mw-page-title-main">Bronze Age Britain</span> Period of British history from c. 2500 until c. 800 BC

Bronze Age Britain is an era of British history that spanned from c. 2500–2000 BC until c. 800 BC. Lasting for approximately 1,700 years, it was preceded by the era of Neolithic Britain and was in turn followed by the period of Iron Age Britain. Being categorised as the Bronze Age, it was marked by the use of copper and then bronze by the prehistoric Britons, who used such metals to fashion tools. Great Britain in the Bronze Age also saw the widespread adoption of agriculture.

<span class="mw-page-title-main">Tin mining in Britain</span> Economic activity

Tin mining in Britain took place from prehistoric times, during Bronze Age Britain, until the 20th century. Mention of tin mining in Britain was made by many Classical writers. Tin is necessary to smelt bronze, an alloy that played a vital cultural role during the Bronze Age. As South-West Britain was one of the few parts of Anglian stage England to escape glaciation, tin ore was readily available on the surface. Originally it is likely that cassiterite alluvial deposits in the gravels of streams were exploited but later underground working took place. Shallow cuttings were then used to extract ore. In the 19th century advances in mining engineering enabled the exploitation of much deeper mines. In a few cases these mines even extended both to multiple levels and workings below the seabed.

<span class="mw-page-title-main">Oxhide ingot</span> Mediterranean Late Bronze Age metal slabs

Oxhide ingots are heavy (20–30 kg) metal slabs, usually of copper but sometimes of tin, produced and widely distributed during the Mediterranean Late Bronze Age (LBA). Their shape resembles the hide of an ox with a protruding handle in each of the ingot’s four corners. Early thought was that each ingot was equivalent to the value of one ox. However, the similarity in shape is simply a coincidence. The ingots' producers probably designed these protrusions to make the ingots easily transportable overland on the backs of pack animals. Complete or partial oxhide ingots have been discovered in Sardinia, Crete, Peloponnese, Cyprus, Cannatello in Sicily, Boğazköy in Turkey, Qantir in Egypt, and Sozopol in Bulgaria. Archaeologists have recovered many oxhide ingots from two shipwrecks off the coast of Turkey.

<span class="mw-page-title-main">Roman metallurgy</span> Production and usage of metal in ancient Rome

Metals and metal working had been known to the people of modern Italy since the Bronze Age. By 53 BC, Rome had expanded to control an immense expanse of the Mediterranean. This included Italy and its islands, Spain, Macedonia, Africa, Asia Minor, Syria and Greece; by the end of the Emperor Trajan's reign, the Roman Empire had grown further to encompass parts of Britain, Egypt, all of modern Germany west of the Rhine, Dacia, Noricum, Judea, Armenia, Illyria, and Thrace. As the empire grew, so did its need for metals.

<span class="mw-page-title-main">Apliki</span> Village in Nicosia District, Cyprus

Apliki is a small village in the Nicosia District of Cyprus, located 2.5km North-East of Palaichori Oreinis and is at an altitude of 720 meters above sea level.

Gerd Weisgerber was an eminent German professor of mining archaeology. He was one of the first mining archaeologists of the world, who set standards in this scientific discipline. As a scientist from the German Mining Museum, he focused his research mainly on Western Asia, especially on Oman, Jordan, Palestine, and Iran.

Tin mining began early in the Bronze Age, as bronze is a copper-tin alloy. Tin is a relatively rare element in the Earth's crust, with approximately 2 ppm, compared to iron with 50,000 ppm.

<span class="mw-page-title-main">Ictis</span>

Ictis, or Iktin, is or was an island described as a tin trading centre in the Bibliotheca historica of the Sicilian-Greek historian Diodorus Siculus, writing in the first century BC.

<span class="mw-page-title-main">Cornish Bronze Age</span> Period of Cornish history from c. 2400 until c. 800 BCE

The Cornish Bronze Age is an era of the prehistory of Cornwall that spanned the period from c. 2400 BCE to c. 800 BCE. It was preceded by the Cornish Neolithic, and followed by the Cornish Iron Age. It is characterized by the introduction and widespread use of copper and copper-alloy (bronze) weapons and tools.

References

  1. Valera & Valera 2003, p. 10.
  2. Wertime 1979, p. 1.
  3. 1 2 3 4 Muhly 1979.
  4. 1 2 Cierny & Weisgerber 2003, p. 23.
  5. Penhallurick 1986, p. 4.
  6. Penhallurick 1986, pp. 4–5.
  7. Charles 1979, p. 30.
  8. 1 2 3 4 Penhallurick 1986.
  9. Cierny & Weisgerber 2003.
  10. 1 2 Dayton 1971.
  11. Giumlia-Mair 2003.
  12. Muhly 1985.
  13. Benvenuti et al. 2003, p. 56.
  14. 1 2 Valera & Valera 2003, p. 11.
  15. Mason et al. 2016, p. 110.
  16. Benvenuti et al. 2003.
  17. Penhallurick 1986, p. 80.
  18. Penhallurick 1986, p. 93.
  19. Haustein, Gillis & Pernicka 2010.
  20. Ling et al. 2014.
  21. 1 2 Pernicka et al. 2019.
  22. Gerrard 2000, p. 21.
  23. 1 2 3 Gerrard 2000.
  24. 1 2 Penhallurick 1986, pp. 86–91.
  25. Mason et al. 2016, p. 116.
  26. Penhallurick 1986, pp. 100–101.
  27. 1 2 3 Muhly 1973.
  28. 1 2 Cierny & Weisgerber 2003, p. 28.
  29. 1 2 3 Dayton 2003.
  30. 1 2 3 Maddin 1998.
  31. 1 2 Stech & Pigott 1986.
  32. 1 2 Dayton 2003, p. 165.
  33. Penhallurick 1986, p. 35.
  34. Murowchick 1991, pp. 76–77.
  35. Hedge 1979, p. 39.
  36. Chakrabarti & Lahiri 1996.
  37. Penhallurick 1986, p. 11.
  38. Lechtman 1996, p. 478.
  39. Valera & Valera 2003.
  40. Rovia & Montero 2003.
  41. Kalyanaraman 2010.
  42. Penhallurick 1986, pp. 75–77.
  43. Pulak 2001.
  44. Lo Schiavo 2003.
  45. Muhly 1979, p. 45.
  46. Penhallurick 1986, p. 123.
  47. Giumlia-Mair 2003, p. 93.
  48. Murowchick 1991.
  49. Penhallurick 1986, p. 51.
  50. Penhallurick 1986, p. 53.

Cited works

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.