Everything Everywhere Daily: History, Science, Geography & More - The Element Iodine: Its Discovery, Health Benefits, and Why It’s in Salt
Episode Date: March 30, 2026Iodine is far more important than you might think. It was discovered accidentally, yet it can be found almost everywhere. It’s something so small you only need a trace of it, yet without it, entire... populations can suffer devastating health consequences. It has been used as a medicine and a disinfectant, and is even a critical chemical in the production of many of the electronic devices that we use today. Learn more about iodine and why this element matters so much on this episode of Everything Everywhere Daily. Sponsors Quince Go to quince.com/daily for 365-day returns, plus free shipping on your order! Mint Mobile Save 50% on Unlimited premium wireless plans starting at $15/month at MintMobile.com/EED Audible Listen to Project Hail Mary Audible.com/hailmary Fast Growing Trees Get 20% off your first purchase when using the code DAILY at checkout at fastgrowingtrees.com/daily ButcherBox Get your choice between chicken breast or top sirloin for a year OR ground beef for life, PLUS $20 off when you go to ButcherBox.com/everything Subscribe to the podcast! https://everything-everywhere.com/everything-everywhere-daily-podcast/ -------------------------------- Executive Producer: Charles Daniel Associate Producers: Austin Oetken & Cameron Kieffer Become a supporter on Patreon: https://www.patreon.com/everythingeverywhere Discord Server: https://discord.gg/Ds7Rx7jvPJ Instagram: https://www.instagram.com/everythingeverywhere/ Facebook Group: https://www.facebook.com/groups/everythingeverywheredaily Twitter: https://twitter.com/everywheretrip Website: https://everything-everywhere.com/ Disce aliquid novi cotidie Learn more about your ad choices. Visit megaphone.fm/adchoices
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The element to iodine is far more important than you might think. It was discovered accidentally,
yet it can be found almost anywhere. It's something so small you only need to trace amount of it,
yet without it, entire populations can suffer devastating health consequences. It's been used as a
medicine and a disinfectant, and it's even a critical chemical in the production of many of the
electronic devices that we use today. Learn more about iodine and why this element matters so much
on this episode of Everything Everywhere Daily.
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Iodine might seem like a rather odd element to be doing an episode on, but as you'll soon see,
if it wasn't for iodine, you and I wouldn't be here. The story of
begins in 1811 in Paris during the Napoleonic Wars in the workshop of a saltpeter manufacturer
named Bernard Courtois. Salt Peter, or potassium nitrate, was essential for making gunpowder,
and France needed enormous quantities of it to fuel Napoleon's military campaigns.
Cortois produced saltpetre by extracting it from seaweed ash collected along the Brittany coast.
One day, while cleaning his copper vats with sulfuric acid, he added too much acid and noticed something
remarkable. A cloud of violet vapor rose from the mixture and condensed on cooler surfaces
as dark metallic-looking crystals. Cortois was struck by the novelty of the substance,
but lacked the resources to investigate it fully. He shared samples with colleagues and a few
chemists, and within two years, the great French chemist Joseph Louis Gailusac and the English
chemist Humphrey Davy had each independently confirmed that this violet-colored substance
was a new element.
Galusac named it IOD, from the Greek word Iodis, meaning violet-colored.
And the English adapted this to iodine.
Iodine is the 61st most abundant element in the earth's crust,
making it relatively rare compared to many other elements, but not extremely rare.
It belongs to the halogen group, the same chemical family as fluorine, chlorine, and bromine,
and shares their tendency to form ionic salts and readily,
reacts with other substances. In nature, iodine does not appear in its pure elemental form. Instead,
it's almost always found as iodine ions chemically bonded to other elements. The oceans are the
largest reservoir of iodine on earth. Over billions of years, rainwater has slowly leached iodine
from inland rocks and soils, carrying it through rivers and streams into the sea. As a result,
seawater contains a modest but consistent concentration of iodine.
and marine organisms, seawweeds, fish, shellfish, and sea vegetables have evolved to concentrate
iodine in their tissues at levels far higher than the surrounding water.
This is precisely why Bernard Courtois was able to extract so much iodine from seaweed ash
in the first place.
The distribution of iodine on land, however, is very uneven.
Coastal regions and floodplains that receive regular deposits of marine sediment
tend to have iodine-rich soils, while mountainous inland areas, particularly those shaped by
ancient glaciers, which stripped away the top soil, are severely iodine deficient.
The Himalayas, the Alps, the Andes, and the Great Lakes region of North America, all are areas
where iodine-poor soil yields iodine-poor crops and livestock.
This geographic imbalance has had enormous consequences for human health throughout history.
More on that in a bit.
Concentrated deposits of iodine compounds are only found in a handful of places around the world.
Chile is by far the largest producer of iodine, thanks to vast deposits of caliche ore in the Atacama
desert, which contain iodate minerals.
Japan and the United States are also significant producers obtaining iodine from ancient seawater
trapped in rock formations, which are pumped to the surface and processed.
These three countries together account for the overwhelming majority of the world's iodine supply.
Iodine and its compounds have found their way into a surprisingly wide range of industrial applications.
In the chemical industry, iodine serves as a catalyst in the production of a host of everyday plastics and synthesized fibers.
Iodine compounds are used in the production of certain pharmaceuticals, dyes, and specialty chemicals.
One of the most important uses of iodine is the manufacturing,
of polarizing films for liquid crystal displays.
The thin layers in LCD screens used in televisions, computer monitors, and smartphones
all rely on iodine-treated polyvinyl alcohol films to control light polarization.
As global demand for flat panel displays exploded over the last several decades,
this application became one of the dominant drivers of iodine consumption worldwide.
Iodine also plays a critical role in animal feed supplements,
Livestock raised far from sea are vulnerable to the same iodine deficiencies as humans,
and the agriculture industry adds iodine compounds to feeds to ensure the health and productivity of cattle,
pigs, and poultry. Photography once relied heavily on silver iodine, a light-sensitive material,
though the digital revolution is dramatically reduced demand for it. Iodine is also used in the
manufacturer of certain inks, colorants, and as a stabilizing agent in some industrial processes.
One of the most widely known uses of iodine outside of medicine is as an antiseptic and disinfectant,
and understanding why it works in this capacity also helps explains why it can be toxic in large amounts.
Elemental iodine and its compounds are powerfully reactive, as are all halogen elements on the periodic table.
When iodine contacts a microorganism, it penetrates the cell and disrupts the organism's internal chemistry,
particularly attacking proteins, nucleic acids, and fatty acids in the cell membrane.
This broad, non-selective chemical aggression is what makes iodine such an effective killer of bacteria, viruses, fungi, and protozoa.
Tincture of iodine, which is iodine dissolved in alcohol, was one of the earliest antiseptics used in surgery and wound care.
Its use became widespread in the later half of the 19th century as the germ theory of disease took hold.
Provedone iodine, a modern formulation that slowly releases iodine and is less irritating to tissue,
remains a standard surgical scrub and wound antiseptic used in hospitals around the world today.
Iodine tablets are also used to purify drinking water in wilderness survival situations or humanitarian emergencies,
killing pathogens reliably even in cloudy or cold water.
But now we get to the ultimate paradox of iodine.
iodine is a disinfectant that kills cells that it comes in contact with.
Yet this same substance is also vital for human life.
The human body contains only 15 to 20 milligrams of iodine in total,
but that tiny amount performs a function of outsized importance.
It is the essential ingredient in the production of thyroid hormones.
The thyroid gland, a butterfly-shaped organ at the base of the throat,
produces two primary hormones, thyroxine and tri-iodothyronine, which regulates metabolism throughout the body.
These hormones govern the rate at which cells consume energy, influence heart rate and body temperature,
regulate the creation of proteins, and are critically involved in the development and function of the brain and nervous system.
Iodine is a structural component for both hormones.
In fact, the numbers in their names refer directly to the number of iodine atoms in each molecule.
Without adequate dietary iodine, the thyroid cannot produce sufficient hormones with serious
and widespread consequences. The most obvious outward sign of iodine deficiency is goiter,
an abnormal enlargement of the thyroid gland. When the body does not receive enough iodine,
the thyroid gland cannot synthesize sufficient thyroid hormones. The pituitary gland,
sensing this shortage, responds by releasing increasing amounts of thyroid,
stimulating hormone to push the thyroid to work harder. Under this constant hormonal pressure,
the thyroid tissue proliferates and the gland grows larger and larger, sometimes to an extraordinary
and visually dramatic degree. A severe goiter can reach the size of a grapefruit or even larger,
creating a visible bulge on the front of the neck that's not merely cosmetic but can cause
difficulty swallowing, breathing, and speaking. Goiters were historically common in inland
mountainous regions throughout the world. In parts of the Alps, the Andes, and Central Africa,
goyters were so common that they were simply considered a normal part of life. Some historians have
speculated that the swollen necks depicted in certain medieval and Renaissance artworks reflect this
widespread condition. In the 19th century, before the cause was understood, goyter was sometimes
called Derbyshire Neck in England, Himalayan disease, or mountain sickness,
reflecting its geographic clustering in iodine poor upland regions.
But Goiter is only the most visible sign of iodine deficiency.
The broader consequences are perhaps even more serious.
In pregnant women, iodine deficiency impairs the neurological development of the fetus,
leading to a form of intellectual disability known historically as cretanism,
a term now replaced by the more clinical phrase, iodine deficiency disorder.
Children born to severely iodine deficient mothers may have stunted growth, deafness, and significant cognitive impairment.
Even mild to moderate iodine deficiency in children has been linked to lower IQ scores and reduced school performance.
The World Health Organization has identified iodine deficiency as the leading preventable cause of intellectual disability in the world.
The recognition that Goiter was caused by iodine deficiency, a connection that became firmly established in the early 20th century, led to one of the most successful public health campaigns in human history.
The iodization of table salt.
The idea was straightforward and rather elegant.
Salt is consumed by virtually everyone in roughly predictable daily amounts.
It's produced at a small number of centralized facilities, making it easy to fortify uniformly, and it's cheap.
By adding a tiny quantity of potassium iodine or potassium iodate to table salt,
governments could ensure that even people living far from the sea in iodine-poor regions
would receive enough iodine through their ordinary diet.
Switzerland was among the first countries to introduce iodized salt on a national scale beginning
in 1922, after surveys revealed that Goiter and Cretanism were rampant in the Alpine cantons.
The results were dramatic. Rates of Goiter fell precipitously within a single generation.
The United States followed in 1924, and over the subsequent decades, country after country, adopted
salt iodization programs. Today, the World Health Organization estimates that approximately
88% of the world's population has access to iodized salt, and global levels of iodine
deficiency disorder have been substantially reduced, although they've not been totally eliminated.
populations in parts of sub-Saharan Africa and South Asia, as well as some isolated rural communities, still remain at risk.
It's worth noting that not all salt is iodized. Sea salt, kosher salt, and many artisanal salts sold in the United States and elsewhere do not contain added iodine.
As consumer interest in specialty salts has grown and people have moved away from standard table salt, some nutritionists have expressed concern that iodine intake may be declining in certain.
certain populations. The apparent paradox of iodine, that being how can the same substance be a
vital nutrient, a powerful germ killer, and a potential poison can all be explained by the
foundational principle of toxicology. The dose makes the poison. Nearly every substance known to
science is harmful at some dose and beneficial or neutral at lower doses. Water, oxygen, and vitamins
A&D can all be lethal in large enough amounts. In the bloodstream and thyroid gland, iodine
exists primarily as iodine ions, a relatively mild, chemically stable form that the body
actively transports, stores, and incorporates into hormone molecules in tightly regulated
amounts. The body requires only about 150 micrograms of iodine per day for an adult,
an amount so small that it would be virtually invisible to the naked eye.
Elemental iodine, the dark crystalline form, is a different matter. In this form, iodine is highly reactive.
When applied to a wound or a contaminated water supply, that reactivity is an asset. It kills pathogens,
indiscriminately and quickly. But when ingested in significant quantities, elemental iodine exerts
that same chemical effect on the tissues of the human body. It can irritate and burn the mouth, throat,
esophagus and stomach. Iodine is a reminder that some of the most important things in our lives
are the ones we never notice. Iodine is invisible in our food, required only in the tiniest amounts,
yet its absence can affect entire populations, and its presence in fortified table salt
has quietly improved the health of millions of people. It's proof that sometimes, the smallest
things can have the biggest impact. The executive producer of Everything Everywhere
Daily is Charles Daniel. The associate producers are Austin Otkin and Cameron Kiefer.
I have a small correction that many of you pointed out. In the previous episode on the decision
to drop the atomic bomb, I erroneously said that the bomb was used in Hiroshima on January 6th,
when it was obviously August 6th. August was clearly in the script, and I have no idea how
January came out of my mouth, but it did. Today's review comes from listener Jack 3P
from Apple Podcasts in the United Kingdom.
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