December 22, 2024

GeoPicture of the week: Biggest crystals in the world

Known as Cueva de los Cristales (Cave of Crystals), this hidden chamber in Mexico holds some of the largest natural crystals ever discovered. The translucent pillars, some as long as telephone poles and as wide as tree trunks, make for an eerie underground landscape, seemingly crafted by giants. But there’s no magic involved, just some very particular geology.

The chamber contains giant selenite crystals (gypsum, CaSO4 · 2 H2O), some of the largest natural crystals ever found on Earth. It’s a unique place — let’s have a look at how these colossal crystals came to be and what makes them so unique.

GeoPicture Of The Week: Biggest Crystals In The World
Gypsum crystals of the Naica cave. Note person for scale. Image credits: Alexander Van Driessche

In April 2000, two miners drilling into the Naica Mountain in Chihuahua, Mexico, stumbled upon an unexpected chamber. They were working at the Naica Mine, known for its rich silver and lead deposits. The mine had long been a place of interest for miners and geologists, but no one anticipated finding anything like the Cueva de los Cristales.

As the miners entered the cave, they were greeted by a surreal sight: enormous, translucent beams of gypsum, some reaching over 30 feet (9 meters) in length and weighing over 10 tons. For a single crystal, that’s absolutely enormous — but there were dozens of these crystals. They stretched in all directions, creating a maze of white pillars.

The Science Behind the Giant Crystals

Crystals like those in Cueva de los Cristales form when hot, mineral-rich water fills underground cavities and remains undisturbed for a very long time. In the case of this cave, the water was filled with a mineral called gypsum.

Because the temperature stayed consistently hot (around 136°F or 58°C) for hundreds of thousands of years, the gypsum slowly turned into selenite crystals. With no disturbances, the crystals kept growing, eventually reaching gigantic sizes. It’s like making rock candy, but instead of days or weeks, these crystals took thousands of years to grow to their full, incredible size.

GeoPicture Of The Week: Biggest Crystals In The World
Image credits: Paul Williams / Flickr (CC BY 2.0).

The extraordinary size of the crystals in Cueva de los Cristales results from a unique set of geological conditions. The chemistry has to be just right — in this case, the key ingredient for these crystals is gypsum (calcium sulfate dihydrate). Then, you need constant high humidity, and the cave has near 100% humidity. Lastly, you need to maintain a constant temperature of around 136°F (58°C).

In these conditions, gypsum slowly crystallized from the saturated water. Because the temperature remained stable for hundreds of thousands of years, the crystals had time to grow to their gargantuan size.

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A cave sealed in time

The Cave of Crystals is essentially a horseshoe-shaped cavity in limestone, its floor covered by giant crystals beaming upwards.

It wasn’t easy to explore the cave. The Naica Mine is filled with interconnected chambers, some flooded, others dry, but all part of a complex subterranean network. The Cueva de los Cristales was sealed off and filled with hot water that protected and preserved its pristine environment.

GeoPicture Of The Week: Biggest Crystals In The World
A geological depiction of the Ceva de los Cristales. Image via Wiki Commons.

It wasn’t until the water was drained that the cave could be explored. The sudden discovery left scientists and explorers racing against time. Once the water was pumped out, the cave began to dry and cool, threatening the delicate balance that allowed the crystals to form. Without the constant heat and humidity, the selenite crystals risked deteriorating or cracking.

Even without water, the cave was extremely hot, with temperatures reaching 58 °C (136 °F) and 90 to 99 percent humidity. That’s comparable to the hottest temperature recorded on our planet. Without proper protection, people can only endure a few minutes in these conditions. Specialized suits with cooling systems are necessary for anyone venturing inside, making exploration both dangerous and challenging.

However, even with these tools, you can’t explore the cave anymore as it’s been re-flooded.

The Challenge of Preservation

The discovery of Cueva de los Cristales raised a pressing question: How do you preserve something so delicate and extreme? Once exposed to air and light, the crystals became vulnerable to changes in temperature, moisture, and even bacteria introduced by human presence.

Scientists debated the best approach to protect the cave. Should they leave the cave open for study, or reseal it and allow water to flood back in to preserve the crystals? The mining company and the Mexican government ultimately decided to let the water return, hoping to maintain the environment that created these colossal formations.

But before the cave was resealed, researchers took as much data as possible. Detailed scans, photographs, and samples were collected to study the crystals’ structure, growth, and composition. This research provides insights not just into the cave itself but also into other extreme environments on Earth and even other planets.

Scientific Studies on the Cave

GeoPicture Of The Week: Biggest Crystals In The World
Image credits: La Venta / Flickr (CC BY 2.0).

The discovery of Cueva de los Cristales offered scientists a rare chance to study some of the largest crystals ever found and the extreme conditions that allowed them to form. In 2006, a team led by Paolo Forti from the University of Bologna explored the cave using custom-designed refrigerated suits, created in collaboration with Ferrino and La Venta. These suits, fitted with cooling tubes connected to a backpack of ice water, allowed researchers to survive the cave’s intense heat for about 30 minutes at a time.

Key studies revealed the slow and ancient growth of these crystals. Using uranium-thorium dating, Stein-Erik Lauritzen from the University of Bergen determined that the crystals were up to 500,000 years old. A separate study led by A.E.S. Van Driessche measured the crystals’ incredibly slow growth rate at about 1.4 × 10⁻⁵ nm/s. That’s around one nanometer per second, so it takes a million seconds for the crystals to grow by one millimeter, and a billion seconds (or 31 years) to grow by one meter. This is the slowest directly measured normal growth rate for any crystal growth process. Researchers estimate it took some crystals nearly 1 million years to reach their massive size.

Explorations also investigated possible ancient microbial life within the crystals. Penelope Boston from the New Mexico Institute of Mining and Technology discovered bacteria trapped in fluid inclusions inside the crystals, reanimating microbes isolated for tens of thousands of years. These extremophiles may offer clues to potential life on other planets with similar harsh conditions.

The Legacy of Cueva de los Cristales

Although Cueva de los Cristales is no longer accessible, its legacy endures. The data collected during its brief exposure continues to fuel scientific discovery and inspire wonder. The crystals stand as a testament to nature’s capacity for patience and grandeur — the result of perfect conditions sustained over geological timescales.