Mineralogy (धातुशास्त्रम्)

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Mineralogy (Samskrit: धातुशास्त्रम्) or metallurgy discusses the chemistry of Dhatus (minerals), their properties, composition, reactions, combination products namely alloys and their uses. A related topic, mining of metals, involves the chemistry of extraction from ores, smelting and forging activities. History of mining in the Indian subcontinent can be traced back to pre-Harappan period where the evidence of earliest settlements of farming communities using metal implements have been found.[1]

Bharatavarsha is known for its use of gold and silver for jewelry and making ornamental vessels for domestic use with silver. Copper tools, such as axes, sickles are found in many archaeological sites indicating that many farming tribes and agricultural communities were using them. Metallurgy of copper and its alloys (brass and bronze) was highly developed during this period. A remarkable use of brass was made in the constructional work of an unfinished Vihara made near Nalanda (Bihar). Thus many archaeological revelations have unearthed valuable knowledge pertaining to sulbashastra (geology) and dhatushastra (metallurgy) of the ancients.[1]

Introduction

Metals, Minerals and ores are mentioned by the terms dhatu (धातुः) khanija (खानिजम्) and the chemistry involved is termed Khanija-rasayana (खानिजरसायनम्). A mineral is defined in modern terms as follows[2]

"As we knew mineral is a naturally occurring crystalline element or a compound having definite chemical composition, and formed as a product of inorganic processes."

The scientific analysis of the archaeological and literary evidences points to the debunking of the aryan invasion myth in the recent times.[2]

A number of experts have concluded that the collapse of the Harappan civilization was not on account of any 'foreign invasion' but essentially due to repeated floods, tectonic movement leading to the drying up and disappearance of the Sarasvati river, civil war, loss of trade etc.

Just like pottery, metals in antiquity is also linked to the history of a civilization. In the ancient past, the first metals to be utilized were those found in the native or elemental state, and then progressively those metals were used which could be easily extracted or smelted from their ores. The smelting of metals, which were more difficult to extract from ores, was mastered later. Most of the metals and elements indicated in the Periodic Table were in fact identified only in the last few centuries.

Alchemy was one of the chief areas for the exploration of mercurial compounds, as specialists in medicine like Charaka, believed in the search for the ideal rasa or elixir which could prolong life indefinitely. They believed in therapeutic values of organic as well as inorganic materials such as metals and metallic compounds; they also aspired to convert base metals into gold. This alchemical dream was boosted when Nagarjuna claimed (Rasaratnakara - 1.3) that zinc ore roasted thrice with copper converts the latter into 'gold'. However, it was gold-like, brilliant yellow brass that came into existence.[2]

Many textual evidences which speak about gems, minerals and metals include the Rig and Yajurvedic references of antiquity, while early pre-christian era texts such as Kautilya's Arthashastra deal extensively about the ratnas or gems apart from other untraced books like Mahakala or Vyaadi. Rasaratnakara of Nagarjuna traced to 2nd century A.D. and Brhat Samhita of Varahamihira of 5th century throw light on many aspects of ratnapariksha. The pre-modern texts like Vagbhata's Ashtangahridaya, Rasarnava (12th Century A.D.), Ratnapariksha by Buddhabhatta, Rasaratnasamucchaya and Agastimata are exclusive medieval texts which are quite valuable even in present day to adapt and improvise the chemical techniques followed in the present day.

Minerals in Vedas

Naturally Bharat's exploration for minerals and metals used in the past started with the Rigveda, the world's oldest literature. In the Rigveda we find some concern for digging and mines (khanitra), mining treasure (nidhi) and gems (mani, ratna) etc. Conch-shell (sankha) and conchpearl (krshana) were quite popular. Ayas (अयस्) in the Rigveda meant 'metal' in general and not 'iron' in particular which the scholars mention was a later discovery. Ayasi or metallic equipments in the Rigvedic texts were probably made of copper and its alloys such as bronze. Various implements and artefacts made of copper, bronze, and ornaments made of gold and silver are described.[2]

Mention about metalsmith (कार्मारः) is made in Rigveda (9.112.2)

कार्मारो अश्मभिर्द्युभिर्हिरण्यवन्तमिच्छतीन्द्रायेन्दो परि स्रव ॥२॥ (Rig. Veda. 1.191.15)

A furnace, blower and fire - the setup used by a metalsmith has been described. Fire is described as a 'cradle of gems' that melts gold and the blower (ध्मातरी dhmaatari) or metalsmith blows to produce sharp flame in a furnace.

यदीमह त्रितो दिव्युप ध्मातेव धमति शिशीते ध्मातरी यथा ॥५॥ (Rig. Veda. 5.9.5)

Shatapatha Brahmana introduces the word "bhastraa" meaning a leather bellow used to blow air into a furnace (1.1.2.7, 1.6.3.16). Yajurveda was the first literature to mention gold (हिरण्यं), "shyaamaayasa (श्यामं)" or "krshnaayasa" which is black metal or iron specifically, loha or red metal copper (लोहं), sisam or lead (सीसं) and trapu or tin (त्रपु) in the Rudrachamaka.

हिरण्यं च मे यश् च मे श्यामं च मे लोहं च मे सीसं च मे त्रपु च मे यज्ञेन कल्पन्ताम् ॥ (Shuk. Yaju. Veda. 18.13)

Metals and Gems

Origin of Metals and Gems

There are many legends about the origin of metals and gems in the vaidika vangmaya. Many puranas discuss about the origin of gold from the semen of Shiva.

Ratnapariksa and Agastimata narrated the legend that gems had been derived from the body of the slain demon Bala: diamond from his bones, pearl from the teeth, ruby from the blood, sapphire from the eyes, emerald from the bile etc. The mythical bird Garuda had taken the green bile of the demon in its mouth and then vomitted it (hence the name Garutmata and Garudodgaara) on a mountain on the sea- coast near a desert 'beyond Barbara country’. Both Ratnapariksha and Agastimata mentioned Garuda as the ruler of the serpents hence called pannagadhipah. Panna also means something fallen down or dropped. Thus, the dropped bile or the green emerald also came to be known as panna.[3]

In his Brhat Samhita, Varahamihira gave a scientific explanation that the gems were caused by the characteristic qualities of the earth.

रत्नानि बलाद्दैत्याद्दधीचितोऽन्ये वदन्ति जातानि । केचिद्भुवः स्वभावाद्वैचित्र्यं प्राहुरुपलानाम् ।। (Brht. Samh. 80.3)

Meaning: Gems, they say, were born of the bones of the daitya Bala; while others state that they were born of Dadichi; yet others say that the wonderful variety of germs is caused by the characteristic qualities of the earth.[4]

Vedic References

Bharatiya literature is replete with many references of metals and minerals used for various

Gem-Minerals

Earliest complete description of the gems is given in texts such as Arthashastra and Brhat Samhita.

वज्रैन्द्रनील-मरकतकर्केतरपद्मरागरुधिरऽख्याः । वैदूर्य[क्.वैडूर्य]पुलकविमलकराजमणिस्फटिकशशिकान्ताः ।।

सौगन्धिक-गोमेदक-शङ्ख-महानील-पुष्परागऽख्याः । ब्रह्ममणि-ज्योतीरस-सस्यक-मुक्ता-प्रवालानि ।। (Brht. Samh. 80.4-5)

Meaning: The following are the gems: Vajra (Diamonds), Indranila (Sapphire), Marakata (Emerald), Arkata (Agate), Padmaraga (Ruby), Rudhira (Blood-stone), Vaidurya (Beryl), Pulaka (Amethyst), Vimalaka, Rajamani, Spatika (Quartz), Shashikanta (moon-gem), Saugandhika, Gomedaka (Zircon), Shankha (Conch Shell), Mahanila (Azure), Pushparaga (Topaz), Brahma-mani, Jyoteerasa, Sasyaka, Mukta (Pearl), Pravala (Coral).[4]

The names of many minerals and elements that we find in European languages were originally derived from Samskrit, having strong etymological roots. A few samskrit origins of minerals are as follows.[3]

  1. Corundum is derived from "कुरुविन्दः । kuruvinda", meaning that which abrades.
  2. Sulphur was derived from "शुल्वारी । Shulvari" meaning that which is enemy (अरिः) of, or reacts with, copper (शुल्वा। Shulva).
  3. Beryllium is derived from mineral Beryl. Beryl is derived from the term वैदूर्यम् । Vaidurya or the South Indian term "Veluriya". Panini mentions in his Ashtadhyayi (4.3.84) that the mineral came from Vidura (विदूर) locality in South India (hence termed Vaidurya), identified as Salem district, supported by evidence that mines of Coimbatore used to supply beryl for its export to the Romans. Outside India, Veluriya was called Beryllos (Greek) and Beryllus (Latin) from which the English term Beryl and Beryllium came forth.
  4. Emerald - 'मरकतम् । Marakata' in Samskrit gave rise to smaragdos in Greek, smaragdus in Latin, esmeralda in Spanish and emerald in English. Emerald has few more name - equivalents in Sanskrit: Harinmani (green gem), Garudodgdra, Garutmata, Panna etc.

The identity of vaidurya with beryl is well- established. It was known to be quite different from cat’s eye. Kautilya listed beryl vaidurya and cat’s eye marjdraksaka as distinctly separate gems (AS 2.11.30 and 39).

Gem categories of Importance in the Ancient India[3]
Name

English

Name

Samskrit

Colour Reasons for non-white

colour

Diamond Vajra (वज्रः) Colourless Blue due to boron, yellow/green due to nitrogen
Corundrum Kuruvinda (कुरुविन्दः) Colourless Pure Al2O3 is colourless
Ruby Padmaraga (पद्मरागम्) Red Cr3+ (Chromium ion) replaces Al3+ (Aluminium ion). Transition involving ligandfield effect.
Sapphire Indranila (इन्द्रनीलः) Blue Four different mechanisms including charge transfer, combination of Fe (Iron) and Ti (Titanium)
Chrysoberyl/Cat's eye Marjarakshaka / Lasunia Green/ Yellow Green due to Cr and yellow due to Fe substituting in BeAl2O4 structure
Spinel/Balas-ruby Balasuryaka Rose-red Pure spinel Mg Al2O4 is colourless. Cr3+substitution makes it rose-red. Fe and Mg may further alter the colour.
Topaz Pushparaga (पुष्परागः) Yellow Pure topaz is colourless [Al (F,0H)]2 SiO4. Yellow colour is due to impurities - ferrous oxide, lime and alkali. Dichromic is blue.
Beryl Vaidurya (वैडूर्यम्) Faint Green, Water colour Pure beryl Be3Al2Si6O18 is colourless. Faint green due to substituting Cr3+. This is allochromatic effect - transition involving ligand field.
Emerald Marakata (मरकतक) Panna Deep grass green This is beryl containing more Cr3+ imparting green colour. Dichroic, the second blueish colour is due to iron.
Aquamarine Paribhadra Faint blue to bluish green Bluish tinge due to iron.
Zircon Gomedhaka (गोमेदकः) Cow-flesh color Pure zircon ZrSiO4 is colourless. Reddish-yellow colour of Hyacinth is due to Fe3+ decolourised on reduction to Fe2+.
Garnet Tamrya or Tamdi Various colors Family of minerals M2+3 M3+2(SiO4)3. Colour depends upon chemical composition. Hessonite is confused with Hyacinth. Colour due to iron.
Tourmaline Vaikranta Various colors H9Al3(B.OH)2 Si4O19 pure tourmaline is light coloured. Fe2+ and Cr3+ make it dark green. Mg makes it brown and Mn dark red.
Quartz Sphatika (स्फटिकः) Colourless Pure SiO2 is colourless. Yellow citrine due to iron green chrysoprase due to nickel, violet amethyst due to manganese etc.
Agate Akik Light colour Hydrated SiO2 is colourless. Hydrated ferric oxide as impurity makes it brown or yellow.
Carnelian Rudhirakhya (रुधिर) Red Heating causes dehydration and ferric oxide gives red colour to carnelian.
Olivine/ Chrysolite/ Peridot Puttika / Jabarjad Bottle green Pure Mg2SiO4 is colourless Replacement of part of MgO by ferrous oxide makes it yellowish green. Mn2+ Ni2+ further change the colour.
Orthoclase/Feldspar

Moonstone

Sunstone

Moonstone (शशिकान्तः । Chandrakanta) Sunstone (Suryakanta) Opalescent play of

colour

Interference of light from thin layers.
Jade Pitu White green black Green due to Mn and Cr and Fe2+. Black due to Fe3+
Pearl Mukta (मुक्ता) Usually white Iron, manganese etc.possibly complexed with organic matter, so that the colour is perishable on heating.
Coral Pravala (प्रवाला) / Vidruma red, black Iron, manganese etc.possibly complexed with organic matter, so that the colour is perishable on heating.

A few non-gem minerals of commercial importance in ancient India:

adrija (bitumen), abhraka (mica), kajjali (cinnabar), karpurarasa (calomel), kamksi (alum), kasisa (green vitriol or ferrous sulphate), kharpara (zinc ore), gandhaka (sulphur), gandhara (red lead), chulika lavana (sal ammoniac), tankana (borax), tala (orpiment), tutthaka (blue vitriol), nilanjana (stibnite), makaradhvaja (mercuric sulphide), manahsila (realgar) maksika (pyrite), swarnamakshika (chalcopyrite), mrddarasrnga (anglesite or litharge), rasaka (calamine), rasakarpura (mercuric chloride), rasasindura (mercuric sulphide), rasanjana (stibnite), varatika (marine nodule), vahnimrttika (fire-clay), vimalaka (pyrite), kamsya vimala (arsenopyrite), silajatu (bitumen), sarjika mrttika (river-bed alkaline reh), sasyaka (blue vitriol), sisaja (red lead), suvarcika (borax), srotanjana or sohta (carrollite), haritala (orpiment) etc.

The commonly used eight metals in antiquity are gold, silver, copper, iron, tin, lead, zinc and mercury.[5]

The Ores of Metals

The present section reviews the important metals and interesting point about their role with respect to the world metal usage.

Gold and Silver

Early reference to gold is to be found in the Rigveda samhita. The noble metals, gold and silver, are found in the native state, and were used to make jewellery and sheet metal due to the great ductility and lustre of the pure metals. In ancient times, gold was collected by panning alluvial sands from placer deposits. However, India has the distinction that the deepest ancient mines in the world for gold come from the Maski region of Karnataka with carbon dates from the middle of the first millennium BC. Interestingly, as far as silver production goes, the Aravalli region in North-West India ranks amongst the few major ancient silver producing sites in the world.

  • Oldest literary reference to usage of Gold and Silver in Rigveda
  • World's deepest gold mines are found in Karnataka state of India

Copper

Early copper artifacts are reported from the pre-Indus valley sites of Baluchistan, the northwestern part of Indian subcontinent. Evidence of ancient mining of copper ores was from the Khetri region of Rajasthan in India dating to about 3rd-2nd millennium BC. Huge quantities of copper objects such as blades, arrow-heads, fish hooks were found from the sites of Pre-harappan excavations. It may be asserted based on evidence that copper metallurgy was developed indigenously in the Indian subcontinent well before 4000 BC.[2][5]

  • Ores of copper as pyrites was identified far before any other nation.
  • Oldest reference of use of indigenous copper metullurgy is found in Indian civilization

Mercury

Mercury is a metal that has been of great alchemical importance in ancient times. Rasashastra was highly developed using mercurial compounds.

  • Vermilion or Cinnabar, mercuric sulphide, is used to make the red/maroon mark on the forehead as described in ancient texts of Sanatana Dharma

Iron

Lead

References

  1. 1.0 1.1 Singh. R. D, (1997) History of Technology in India, Vol. 1, From Antiquity to c. 1200 A.D. by A. K. Bag. New Delhi: Indian National Science Academy. (Chapter Mining: Page 48 - )
  2. 2.0 2.1 2.2 2.3 2.4 Minerals and Their Exploitation in Ancient and Pre-modern India by Prof. A. K. Biswas
  3. 3.0 3.1 3.2 Biswas, Arun Kumar. (1997) History of Technology in India, Vol. 1, From Antiquity to c. 1200 A.D. by A. K. Bag. New Delhi: Indian National Science Academy. (Chapter Mining: Page 225 - 255)
  4. 4.0 4.1 Sastri, V. Subrahmanya and Bhat. M. Ramakrishna, (1946) Varahamihira's Brihat Samhita with an English Translation and Notes. Bangalore City: V. B. Soobbiah and Sons (Page 628 - 629)
  5. 5.0 5.1 Srinivasan, Sharada and Ranganathan, Srinivasa. (2013) Minerals and Metals Heritage of India. Bangalore:National Institute of Advanced Studies.