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  • Over the last four episodes, we've examined some of the stories that make up the idea

  • of a “revolutionin knowledge-making in Europe.

  • But we can't understand this idea fully, without unpacking another onethe so called

  • Age of Exploration.

  • This encompasses a lot of events that happened from 1400 through the 1600s and were driven

  • in part by new ideas about knowledge-making.

  • And the span of history that we've been taught as theAge of Explorationmight

  • be better described as an exchangethe greatest exchange of people, plants, animals, diseases,

  • and ideas that the world has ever seen.

  • [Intro Music Plays]

  • Why did European explorers seek out the New

  • World after 1400?

  • And why didn't they do it earlier?

  • Well for one thing, medieval European states had been too small and poor to support large

  • navies.

  • For another, they didn't have the technologies that other Eurasian cultures had.

  • By 1400, the compass and gunpowder had both made it from China to Europe, changing armies

  • and navies across the continent.

  • In time, political power became more centralized, and states started to compete for things like

  • land and precious metals, and for valuable trade routes to the rich empires of China and India.

  • By the late 1400s, two European states in

  • particular began to use their massive naval might to search out trade advantages.

  • In 1488, Portuguese explorers became the first Europeans to sail along the coast of sub-Saharan

  • Africa.

  • And in 1497, Portuguese explorer Vasco da Gama sailed to the Indian Ocean from Europe

  • by way of Africa's Cape of Good Hope.

  • Interesting thing is, Portuguese ships were smaller than Chinese ships at the time.

  • Chinese explorer Zheng He, for example, explored parts of Asia and Africa from 1405 to 1433,

  • with huge, four-tiered ships carrying hundreds of sailors.

  • But there was also a philosophical difference in exploration between the two states: most

  • people living around the Indian Ocean respected overlapping political boundaries.

  • But European states didn't recognize other states' claims to their own territories.

  • So it's not that the Europeans had the best ships; the difference was in how they used

  • them.

  • The most famous European explorer, of course, set sail on behalf of Spain inyou know

  • the year—1492, changing the world forever.

  • In fact, historians call the widespread movement of people, plants, animals, germs, ideas,

  • and technologies between the Americas and Eurasia after 1492 “the Columbian Exchange.”

  • You can learn more about Christopher Columbus in a lot of other places.

  • For us, what matters is how knowledge moved due to the Columbian Exchange.

  • Now, what role did scientific thought play in these voyages?

  • Not much.

  • Gunpowder and the compass were not new in 1400.

  • Centralized states were not new.

  • These were just relatively new to Europe.

  • It seems that, in this case, technology and politics spurred science.

  • The discipline of geography, for example, became important when it came to settling

  • political disputes about who had claimed what already-inhabited land.

  • The Portuguese crown spent tons of resources on making maps of lands that were new to them.

  • And the Spanish government in Seville sponsored the House of Trade in 1503 to make master-maps.

  • In Spain, Philip II founded the Academy of Mathematics in Madrid in 1582, where young

  • nobles could learn cosmography, navigation, military engineering, and what were called

  • the occult sciences”: kinda like "The Citadel" from Game of Thrones crossed with Hogwarts from Harry Potter.

  • And, in the 1570s, Philip II sent out a scientific expedition to the Americas under Francisco

  • Hernández to collect geographical, botanical, and medical information.

  • The later colonial powersthe English, Dutch, and Frenchfollowed the Portuguese and Spanish

  • pattern of state support for science, focused on geography and botany.

  • Science became a tool of empire.

  • But let's be real: thevoyages of discoveryweren't full of scientists boldly creating

  • knowledge.

  • These weren't nerds like Galileo and Copernicus obsessing over truth.

  • These voyages were about exploitation.

  • European powers -used knowledge creation as another tool to fight proxy wars between each

  • other.

  • By 1800, Europeans controlled 35% of land and resources on earth.

  • It was as though not one but five Roman Empires had set off on a quest for world domination.

  • So, what kinds of things were exchanged as Europeans sailed farther?

  • For one, European explorers looked for new plant specimens that might have agricultural

  • and medical uses.

  • They were also interested in animals, but plants were more important.

  • Few animal species in the Americas had been domesticated.

  • Americans did carefully manage things like ducks and vultures.

  • But Europeans were amazed that Americans got anything done without cows and horses.

  • On the flip side, edible plant diversity in the Americas matched, if not blew away, that

  • of Eurasia.

  • It was wondrous.

  • Take us there, ThoughtBubble.

  • Can you imagine a world without corn, potatoes,

  • tomatoes, bell peppers, chili peppers, beans, tobacco, pumpkins, chocolate, avocadoes, vanilla,

  • peanuts, pecans, cashews…?

  • I can go on.

  • But really, no hot sauce!?

  • No chocolate?

  • No tacos?

  • No tomato sauce?

  • What did Eurasians eat before the Columbian Exchange?

  • It doesn't even matter.

  • In fact, there was so much knowledge about plants coming back to European capitals that

  • old ideas about living things quickly started to lookold.

  • A few keen observers started to compare different plants, part by part.

  • The name to remember is Swedish natural philosopher Carl Linnaeus, who came up with a rational

  • system for classifying plants based on their sex parts.

  • We'll come back to him.

  • How did plant specimens travel from the New World to Europe?

  • At first, the English, French, and Dutch relied on the Spanish and Portuguese for access.

  • They quickly realized that it would be more economical to set up their own exploratory

  • operations, and then their own colonies, including slave-powered mines and plantations.

  • For example, a Puritancompany of adventurerscalled the Providence Island Company left

  • England in 1633 for the eastern coast of what is now Honduras and Nicaragua.

  • They went with a specific plan to find useful plants that they could sell or turn into new

  • products.

  • The Puritans traded with the local people, the Miskitu, who helped them identify the

  • local flora.

  • But they never made a lot of money, so the Puritans turned from botany topiracy.

  • They even got local Miskitu excited about piracy!

  • They ended up stealing a bunch of enslaved Africans from their Spanish rivals and then

  • executing Spanish soldiers who surrendered after a failed attack.

  • So the Spanish sent an armada of eleven ships and took over the Providence Island Company's

  • operation.

  • You know, typical science problems!

  • Thanks Thoughtbubble. In the end, empire turned out to be very uneconomical

  • for the states themselves.

  • European corporationssome of which are still aroundmade a lot of money, but only

  • because the states paid major costs to set up colonies.

  • These costs included both the capital for ships, supplies, and sailors, as well as the

  • costs of fighting battles with other states and subduing native populations.

  • One consequence of discovering whole continents full of new plants and animals was a new sense

  • in Europe of, well, newnessnovelty, curiosity, wonder.

  • As more people learned about the New World, they wanted to make more sense of it.

  • So exploration led to the development of museums and the practice of scientific collecting.

  • Early museums were not like the ones we have today.

  • They were special rooms curated by nobles called wunderkammern orcabinets of curiosity.”

  • The ideal cabinet of curiosity had one of everything.

  • There was a divided focus between cataloging the natural, the human, and theabominations

  • of nature such as dragons and mermaids.

  • Wunderkammern brought order to an explosion of new knowledge.

  • But the order they imposed was highly individual.

  • For example, you could often find a rhino horn next to the horn of a supposedunicorn,”

  • or narwhal.

  • And every gentleman worth his salt had a crocodile mounted on his ceiling!

  • But other results of the Columbian Exchange were not at all fun or wondrous.

  • In addition to the intentional violence perpetrated against native populations, disease played

  • a major role in changing who lived there.

  • Human immune systems are adaptive: they learn over time how to better respond to threats

  • from dangerous microbes.

  • Which is amazing!

  • But the populations of Eurasia and Africa had been mostly separated from those of the

  • Americas and Australia for thousands of years.

  • By a stroke of extremely bad luck, this meant that the populations of the Americas had no

  • natural protection against smallpox.

  • As more Americans came in contact with more Eurasians, smallpox ran rampant, killing one

  • out of every two people who caught it.

  • This led to social breakdowns and meant that native groups were less able to fight off

  • European invaders.

  • In some regions, populations fell by 75%.

  • And smallpox was only the most deadly among a number of diseases.

  • Eurasians had developed some immunity to the plague, measles, typhus, and tuberculosis.

  • Africans had some immunity to malaria and yellow fever.

  • But the Americans had no immunity to these diseases.

  • One notable disease that may have crossed the other waywe aren't sureis syphilis,

  • which first appeared in Europe three years after the beginning of the Columbian Exchange.

  • The exchange of diseases also led to the exchange of medical practices.

  • In Boston, in the early 1700s, the influential Puritan minister Cotton Mather learned the

  • practice of variolation from his slave Onesimus, who later bought his freedom.

  • Variolation is a way of protecting someone against smallpox by deliberately infecting

  • them with material from another person who had survived the disease.

  • This is different from vaccination, which uses a similar but milder virus to trick the

  • body into fighting smallpox.

  • Cotton Mather found the variolation worked, and he actually tried to implement a variolation

  • campaign in Boston that was inspired by his former slave, but most of Bostonites were

  • not simply having it.

  • In addition to the fact that intentionally injecting someone with powdered scabs was

  • counterintuitive, most white people at the time wouldn't trust the medical knowledge

  • of an African.

  • Now, alongside trade wars, genocide, and disease, another specter haunts the story of the Columbian

  • Exchange.

  • In fact, the economic metaphor ofexchangesounds ridiculous when you consider that the

  • Europeanexplorerscolonized populations they encountered in the Americas by force

  • and enslaved Africans and brought them to the Americas to labor.

  • There's a lot to say about colonization and the slave trade.

  • In terms of knowledge production, these practices embodied Francis Bacon's philosophy of instrumentalizing,

  • or exploiting, “nature”: the new world and its peoples were resources to be used

  • for the betterment of humankind, in this case, meaning Christian humankind.

  • Colonization and slavery also produced a series of questions that natural philosophers would

  • obsess over for centuries: were native Americans morenaturalthan other peoples because

  • they didn't have the same technologies?

  • Did they provide a simplified and therefore useful model of how societies function in

  • general?

  • These questions sprung from a deep misreading of indigenous cultures, but at least they

  • inspired a few philosophers to question the naturalness of European ways of living.

  • Questions also arose for the life sciences: were the Americans, Africans, and Eurasians

  • descended from the same ancestor, or had there been multiple acts of genesis?

  • Was the bible literally true?

  • It didn't say anything about a new world!

  • And questions about the Columbian exchange still haunt historians of science.

  • How did people in theNew Worldunderstand the arrival of Eurasians?

  • What kinds of knowledge did they make?

  • What counts as science?

  • Only recently have some historians started to recognize the skills and technical knowledge

  • of indigenous and enslaved peoples.

  • This is an active area of research today, and one we'll return to.

  • Alongside thenew sciencecreated by the thinkers of the Scientific Revolution,

  • the Age of Exploration created a new sense of the new in Europe.

  • It revealed a new world to explore, to map, to find tomatoes and chocolate in, as well

  • as to conquer and to enslave.

  • No document captures this shift better than the Nova Reperta, or New Discoveries of 1600.

  • This series of engravings, based on designs by the Flemish painter Jan van der Straet,

  • showed symbols of the Americas and the voyages of exploration alongside stuff that was simply

  • newor stuff that actually had been around in Europe for a while but suddenly felt

  • new, such as the compass, the mechanical clock, and gunpowder.

  • Next timewe'll meet a humble farmer named Ike who reimagined physics.

  • Crash Course History of Science is filmed in the Dr. Cheryl C. Kinney studio in Missoula,

  • Montana and it's made with the help of all this nice people and our animation team is

  • Thought Cafe.

  • Crash Course is a Complexly production.

  • If you wanna keep imagining the world complexly with us, you can check out some of our other

  • channels like Scishow, Eons, and Sexplanations.

  • And, if you'd like to keep Crash Course free for everybody, forever, you can support

  • the series at Patreon; a crowdfunding platform that allows you to support the content you

  • love.

  • Thank you to all of our patrons for making Crash Course possible with their continued

  • support.

Over the last four episodes, we've examined some of the stories that make up the idea

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コロンブス取引所。科学のクラッシュコースの歴史 #16 (The Columbian Exchange: Crash Course History of Science #16)

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    林宜悉 に公開 2021 年 01 月 14 日
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