Uncharted Territories · Ideas & Institutions
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What was the first metal humans used? What did the first metals have in common? What metal promoted the first intercontinental trade? How did this lead to the first civilizations? How did its replacement ushered a radically new world? ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ ͏ | | ---|---|--- | | | Forwarded this email? Subscribe here for more --- --- | | This post may be too long for email.| Open on Substack ---|---|--- # How Ancient Metals Started Civilization | | Tomas Pueyo --- | Dec 5 --- | --- --- | | | --- | | --- | | --- | | --- | | READ IN APP --- _What was the first metal humans used? You probably won 't guess it. What did the first metals have in common? It will blow your mind. What metal promoted the first intercontinental trade? How did this lead to the first civilizations? How did its replacement ushered a radically new world? The stages of human civilization after the Stone Age are the Copper Age, Bronze Age, Iron Age… Why these materials? Why did the Copper Age come first? Why did the Iron Age come later? What came after that? Why did we discover some metals before others? What did each enable? How did the order of metals we discovered influence human history?_ _These are the questions we 're going to answer today: How metals shaped our early civilization--because they determined the types of tools humans could use, and the civilizations we could build with them._ # The Earliest Metals: the Natives of Group 11 Ready for the first metal humans discovered and used? **Gold**!¹ Whaaaat! OK here's another _crazy_ fact: The first three metals that humans discovered were gold, silver, and copper, probably in this order, and here's how they appear in the Periodic Table. | | ---|---|--- _Gold, silver, and copper belong to Group 11, the 11th column in the periodic table. The arrow shows the most likely order of discovery._ After your head explodes, you should put it back together and wonder: IS THAT A COINCIDENCE?? I think not. I can hear your brain gears turning: _What do they have in common? How did that make them the first metals? How did that determine the history of humans?_ And then: _Oh God, is Tomas going to mix history, geography, physics, geology, and chemistryagain?_ Why yes, yes I am. But fear not, for I will hold your hand through these scary landscapes and by the end of this article, not only will you better understand the history of humanity, but you'll also learn some physical and chemical properties of crucial metals for humanity: gold, silver, copper, lead, tin, bronze, iron, and steel. What the first three have in common--gold, silver, and copper--is that all are native metals: You can find them in their pure form in nature! ### Gold | | ---|---|--- _Gold figure pendant made by the Tairona people in north Colombia, 10th-16th century. Source: Metropolitan Museum of Art._ How come primitive tribes carried gold as jewelry and not other metals? Here's a clue: | | ---|---|--- _Early depiction of Taino panning for gold for the Spaniards.Source._ Here's another one: | | ---|---|--- Yes, ancient humans just stumbled upon gold! What a crazy gift from nature! A metal that is valuable because it's malleable, doesn't oxidize, is found in nuggets, with a distinctive shiny yellow color to make it easy to find, and with a heavy weight to help separate it from rocks in a pan! _How is that possible?_ you wonder. In the Earth's crust, liquid magma separates materials through different temperatures and pressures. Since gold is so stable, it doesn't mix well with other materials, and when liquid with a high concentration of gold solidifies, gold veins appear. | | ---|---|--- _Native gold in a quartz matrix. If such a piece was left to be weathered for hundreds of thousands of years, the quartz would disappear, and only the gold would remain, as a nugget._ Once rocks with gold veins are pushed to the surface, erosion carries the other elements away, which are: * Easier to mix with common elements like water, oxygen, silicon… * Lighter, so easier to carry away. This leaves behind the gold, which is inert and heavy. This is why people find gold nuggets in small mountain streams: Gold doesn't travel too far, but it can be carried downstream by violent torrents that erode the materials around it. It tends to accumulate in quiet spots in rivers that follow turbulent sections. So that's why we had gold first. What about silver? ### Silver | | ---|---|--- The first difference between gold and silver is that silver _tarnishes_. | | ---|---|--- _Silver can bind to oxygen, but it likes sulfur even more. Small quantities of sulfur, even in the air, will form silver sulfides, which are duller and darker than pure silver._ This made it less common than gold early on, because it bonds very easily with sulfur. To form in its pure metallic form, it needs to be in an environment completely devoid of sulfur, or with agents that take the sulfur out and precipitate the silver back into its pure form.² These are uncommon, but they exist, and form silver in small wires, sheets, and nuggets. Given its rarity, early on it was just decorative, until we discovered how to get more of it from ore. We'll see later when that happened. So gold and silver were, paradoxically given their actual scarcity, some of the earliest metals to be discovered and used by humans. And what did they do with them at the time? Gold has always been the perfect store of value, because it's available, yet very scarce, it's durable (it doesn't oxidize), malleable (you can shape it easily, so you can easily mint it into coins, and it's divisible), portable (valuable enough that it contains lots of value per gram, so you can carry lots of value with you), fungible (two pieces are the same), and it looks beautiful, with its shiny yellow color… The other reason why it was so valuable depended on _how many hours of work did it take to produce one kg?_ The more work it took, the more value a metal could store, and gold was still very rare in native form. However, gold is too heavy and malleable to be a tool or a weapon, so people had no actual use for it except as a store of value… That's why gold was used as jewelry and for other decorative items: a perfect way to display your wealth. | | ---|---|--- _Varna Necropolis tomb, from ~4500 BC. All the metallic stuff is from native gold._ Silver is similar, but early on it was much less abundant, and less durable because it oxidizes lightly, so it was much less widespread as a decorative element. ### Copper Like gold and silver, copper also exists in native form. | | ---|---|--- _Native copper_ But we said before that native silver was rarer than gold because it binds to other elements more than gold. Well, copper binds to other elements even more than gold. | | ---|---|--- So we ended up in a situation where, although copper is much more common as an element than silver, and silver more common than gold, their _native form_ is the opposite, so the order of human usage and discovery was the exact opposite! In other words, gold was the first metal to be known and used _precisely because it 's so noble_: Since it doesn't interact with other elements, it accumulated in nuggets that could be easily identified. Meanwhile, not only is copper rarer than gold or silver in native form, but it's also much lighter³ and harder than the others, which meant it was more coveted for tools and weapons. So when we stumbled upon a way to make more copper instead of picking it up from the ground, we paid attention. # The Origins of Smelting Most metals react too much with other elements to remain in native form. They aren't pure. They might mix with oxygen and form oxides, sulfur to make sulfides, silicon and oxygen to make silicates… Some of them are pretty nice, like malachite. | | ---|---|--- _Malachite is a mix of copper (Cu), carbonate (carbon and oxygen forming CO 32-) and hydroxide (oxygen and hydrogen forming OH-), Cu2CO3(OH)2_ So people used these pretty materials among other things as pigments, some of which they used to decorate their pottery. They already had kilns, big ovens that could reach high temperatures to turn clay into pottery, tiles, and bricks. | | ---|---|--- _Charcoal kilns in California_ When they added these pigments, they might have seen copper form! Copper melts at 1,085ºC, which is higher than fire pits (400-600ºC), but a temperature some prehistoric kilns could reach. Under these temperatures, the carbon from the wood (for fuel) would bond to the oxygen, hydrogen, and other elements in the ore, and extract them. Liquid copper would be released. | | ---|---|--- _Azurite is very similar to malachite, except it has two copper atoms and two carbonates, Cu 3(CO3)2(OH)2_ Maybe ore like malachite or azurite found itself in kilns as a pigment, or maybe for some other reason, or maybe it was another type of copper ore. In fact, all of the above probably happened in different places at different times. The result was ground-breaking, though: For the first time, humans could _make metal_. And this metal was extremely useful, because it's hard enough to work as a tool like simple hoes or sickles, it could be shaped into pipes and cauldrons, it can have an edge to become a knife, sword, or arrowhead… So the discovery of copper dramatically improved agriculture, cooking, and violence, which led to a population boom and the ability to wage war. Copper is also reasonably stable (because it's in the Group 11 we saw before, along with silver and gold), so it could work as money, enabling more trade, wealth accumulation, and the payment of wages necessary to wage war at scale. In other words, copper made kingdoms possible. That's why it's called the Copper Age. But before we could move into the next age, we needed another couple of metals. # The Bronze Age: Group 14 Lead and tin were the next two elements to be discovered. | | ---|---|--- _Lead and tin belong to Group 14, the 14th column in the periodic table_ > _From Pliny 's writings it appears that the Romans in his time did not realize the distinction between Tin and Lead._--Stannum Tin Why were these the next metals? How come they were the first non-native metals to be discovered? Because you can make them _in a normal fire pit!_ ### Lead Lead is very common in the Earth's crust, but it's not a very stable element. It frequently bonds with sulfur to form galena. | | ---|---|--- _Galena is PbS, one lead atom and one sulfur._ Lead melts at 327°C. A wood fire easily reaches 600-800°C. When galena found itself in a fire pit, it became lead!⁴ My guess is that humans discovered this thousands of times over their history, much before they discovered how to smelt copper. It might have kick-started the technology of smelting. | | ---|---|--- _Made with Gemini 's nano-banana_ But lead is not very useful because it's heavy and way too soft. It couldn't work as a tool or as a hand-held weapon. Instead, we used it to cast figurines and amulets, for cosmetics. Later, for early plumbing. | | ---|---|--- _Roman lead pipe_ Lead is the heaviest stable element that exists, and this weight was handy for other uses. One was as a weight or a token, super useful for accounting and hence management. The other was as bullets for slings. | | ---|---|--- _Roman sling bullets_ However, galena frequently has another metal in it: _silver_. As we learned to smelt lead, we learned to extract silver. Soon, the value of silver in galena passed the value of lead. This probably had a couple of consequences: 1. After we discovered the process of cupellation to separate lead from silver, the latter became more widespread. This allowed it to become a currency, and to facilitate international trade. 2. Because silver justified the smelting of galena, lead became a dirt cheap byproduct that could be used for anything worth using it for. In fact, more than a byproduct, it was a _waste product_. Because it was so cheap and malleable, it was used for plumbing and cooking vessels in Ancient Rome (and as an additive in wine!), and led to the theory that lead poisoning was one of the causes of the fall of Rome.⁵ One of the reasons that definitely contributed to the fall of Rome was the exhaustion of silver mines. Like for Chinese empires. Back to lead. Given its early use, maybe it was the first metal humans worked with heat, and maybe that gave birth to metallurgy, which eventually led us to copper. We don't know yet. What we do know is that another metal with some similarities to lead was the ticket to the Bronze Age. ### Tin Tin is a puny thing. Like lead, tin is malleable, reacts readily with other materials, and has an even lower melting point, at 232ºC. But tin is more brittle than lead, and much less common in the crust (generally in the form of cassiterite), so I assume random discoveries of the metal would have been uncommon, and when they happened, not found very useful. Tin did not lead to the emergence of metallurgy. | | ---|---|--- _Cassiterite_ But in some copper mines, tin can be found in the same place as copper. Both metals would go into kilns at the same time, forming bronze by accident. And bronze is _very_ useful. | | ---|---|--- _Bronze is an alloy of copper, usually with ~12% tin_ Compared to copper: * Bronze is much stronger and harder. It doesn't bend or deform as easily, enabling better weapons and armor. While copper axes dulled immediately and blades bent instead of cutting, bronze weapons endured in battle, providing an incontestable advantage to those who weaponized it. Tools lasted much longer, increasing food production. * Bronze melts at lower temperatures, 950-1000ºC instead of 1085ºC, and is very fluid, making it very easy to work. Mass standardization by pouring it into molds became possible. * Oxidized bronze is stable and protects the metal underneath. Copper oxide is flaky. That means bronze weapons and tools lasted longer. * Bronze springs back, while copper doesn't and fatigues early. Bronze is useful for gears and springs, enabling mechanisms, while copper was worthless for that. Hinges, nails, clamps, joinery elements, valves, fittings for boats and wagons… all became possible with bronze. In agriculture, bronze allowed us to cut trees for farmland, break heavy soils with stronger plows than wooden ones, use tools for much longer, and create irrigation systems. Militarily, bronze enabled long, sharp swords, spears able to pierce shields, durable armor, standardized weaponry for entire armies, and so professional warrior classes, territorial expansion, centralization of force… The birth of empires. In urbanism, it enabled large architecture, as bronze tools were able to cut stone and wood in a way that copper couldn't. Palaces, temples, huge stone monuments, and even big buildings were impossible before the Bronze Age. Transportation was also much easier, because without tools to work stone, you couldn't have stone roads. Copper also doesn't produce durable axles, properly drilled wheel hubs, rim bands for wooden wheels, pins, clamps, and rivets that hold under impact… All key technologies for wheeled carts. So no roads and no wheeled carts without bronze. And we know how crucial transportation technologies were to the formation of empires. This is an even better example: Without bronze, you don't have seafaring ships. Stone and copper tools can't cut cedar or oak into planks, so the size of ships was limited to the diameter of trees. But bronze tools could, so suddenly ships became much bigger. This is when civilization starts expanding in the Mediterranean. There are no Phoenician, Greek, or Roman civilizations without bronze. These ships also allowed water transportation, which was the only way to transport heavy goods like wood, copper… or tin. And tin had to be transported from afar, because it's quite scarce. | | ---|---|--- _This shows the copper and tin mines around 3,000 BC. Note how much more common copper was than tin. Note how tin was so common in Central Asia. The lines show the fastest way to go from mines to high-quality agricultural land.Source: The Dawn of Civilization: Metal Trade and the Rise of Hierarchy, Fluckiger et al, 2024._ Since bronze became vital for development and survival in war, tin became survival. So trade became survival. The scarcity of tin drove trade. And with it… cities and kingdoms. OK hear me out, because this is nuts: This paper from 2024 argues that the first civilizations emerged not where farming was most productive, but… Where trade between farms and mines could be controlled! The scientists looked at where the most fertile land was, for agriculture. They looked at where the mines of copper and tin were. Then, the cheapest paths from one to the other. Finally, which of these paths had the fewest alternatives. The idea was: _Farmers need tin and copper for bronze tools (and weapons). They will buy these minerals from the mines, so the paths between them become juicy places to make money. If people on those roads tried to abuse their power by robbing or taxing too much, trade would just move elsewhere … Unless it simply couldn't. These spots were the most likely to have strong cities and states_. And that's indeed what they found! | | ---|---|--- _Mesopotamia, Anatolia, and the valleys of the Danube, Dnieper, Nile, Indus, Ganges, Yellow, and Yangtze were the best places for civilizations to emerge, not just as trade routes between mines and agriculture, but also as choke points for that trade. The best spots were in Mesopotamia and Anatolia, where some of the earliest and strongest civilizations emerged._ So although lead and tin are not great metals per se, their early discovery thanks to their low melting point ushered us into a golden age of civilization, maybe by showing us how to smelt ore, by providing the silver we needed to power our economies, and by allowing bronze, which allowed us to get beautiful architecture, better agriculture, stronger armies, faster transportation, international trade, and the emergence of cities, kingdoms, and empires. The next and final step in this evolution was propelled by iron. # The Iron Age During the Bronze Age, very little iron was used because we didn't know how to make it. So the only iron we had came from meteorites, like in Tutankhamun's dagger. | | ---|---|--- Why wasn't iron used early? Mainly because its melting point is much higher than copper, at 1,538ºC vs 1,084ºC. Copper could be smelted with much earlier kilns. But between 1,500 and 1,200 BC, the Hittites in Anatolia (modern-day Turkey) started building bigger furnaces that reached higher temperatures. Metallurgists likely discovered it accidentally while smelting copper, using iron-rich rocks to help the copper melt. Eventually, they realized the "waste" material left behind could be forged into a new metal. Soon after, iron spread widely. But why did it spread? Iron is harder to smelt, you also can't work iron cold, and it's actually softer than bronze! What's the point, then? A tip comes from _when_ iron became widespread. --- | | | Like --- | | Comment --- | | Restack --- (C) 2025 Tomas Pueyo 548 Market Street PMB 72296, San Francisco, CA 94104 Unsubscribe