[♪ INTRO] Our planet is full of very weird places, like toxic lakes and undergroundÂ
caves crawling with strange life. And then there are some placesÂ
that seem pretty ordinary, they’re just…weirdly small. Like, a miniature desert, or a teensy volcano. But when you look a little closer, there’s a lot more to these tinyÂ
geological misfits than meets the eye. Our first stop is Canada’s YukonÂ
Territory, right next to Alaska. The Yukon is full of evergreen forests andÂ
rivers fed by melting snow and glaciers. It’s mostly green, cold, and full of water. But it also happens to be home to a dry,Â
sandy patch of land called Carcross Desert. The whole thing covers lessÂ
than 3 square kilometers, which is why it’s sometimes referredÂ
to as the smallest desert in the world. Like, you could walk acrossÂ
it in less than 20 minutes. And right on the other side, you’ll findÂ
more mountains, lakes, and evergreen trees, just like the rest of southwestern Yukon. But as random as CarcrossÂ
Desert seems, it is no accident. It’s the product of thousands ofÂ
years of geological evolution. During the last ice age, the wholeÂ
region was covered by glaciers, sometimes over a kilometer deep. And as they retreated, theÂ
glaciers gouged the landscape and filled valleys with meltwater,Â
turning them into lakes. Like, the spot where Carcross Desert isÂ
now used to be under 120 meters of water! But over time, the water levelsÂ
dropped and those lakes shrank. Now, each spring, when the waterÂ
level from nearby lakes is low, wind from the mountains picks up exposedÂ
sand and dumps it on Carcross Desert, constantly replenishing its supply. But the catch about the so-calledÂ
smallest desert in the world is… that it’s not technically a desert. Typically for something to be considered a desert, it has to get less than 250Â
millimeters of rain a year. Now, Carcross is a fairly dryÂ
place, because it sits in the so-called rain shadow of nearby mountains. Meaning that when clouds full ofÂ
water roll in from the Pacific, they run into the mountains and dump mostÂ
of their rain before they get to Carcross. But Carcross Desert still getsÂ
about 280 millimeters a year. So scientifically, it is consideredÂ
a dune system rather than a desert. That might seem like aÂ
technicality, but the truth is, Carcross Desert is really not that desert-like. One main giveaway beingÂ
that its plants and animals don’t have much in commonÂ
with true desert species. But while these species make itÂ
clear that Carcross is not a desert, they also tell us something else about Carcross. See, they have a lot in common withÂ
another ecosystem, in Mongolia. That’s because they evolved back before the Bering Strait separated Asia and North America. Back then, Yukon had a dry climate much closer to the one in parts of Mongolia and Russia today. And Carcross Desert ties this patch ofÂ
the Yukon to its distant geological past. So while it might not be the smallestÂ
desert, it’s still a very special place. A few thousand kilometers down theÂ
West Coast, in northern California, there’s a circle of peaksÂ
called the Sutter Buttes. And they’re also sometimes calledÂ
the world’s smallest mountain range. To be fair—they are pretty puny. They sit in a ring that's just 18Â
kilometers in diameter at its widest point. And they’re only about 600 meters high. In comparison, the mountainÂ
ranges on either side of them run for hundreds of kilometersÂ
parallel to the coast, and their peaks reach thousandsÂ
of meters into the sky. But while the Sutter Buttes are definitely small, they are not actually a mountain range. And they have a completely different historyÂ
from the real mountain ranges around them. For example, the Sierra Nevadas onÂ
the east and the Pacific Coast Ranges to the west both formed when tectonicÂ
plates slid one over the other, causing parts of the crust toÂ
crumple or rise into the air. Meanwhile, the Sutter Buttes, whichÂ
sit right between these two ranges, are actually just… theÂ
remnants of an extinct volcano. This volcano is sort of randomlyÂ
located in a wide river valley that actually used to be aÂ
sea for millions of years. The valley is full of layersÂ
of sediment that washed in from the surrounding mountains overÂ
time and eventually turned into rock. And then, at some point, magmaÂ
started to push up against the ground at the location of the Sutter Buttes. Some of this magma snaked up throughÂ
the rock and oozed out the surface to form steep features known as volcanic domes. Then, a little over a million and a halfÂ
years ago, the first domes started erupting. There was round after round of these eruptions, and some of them were so violent thatÂ
they broke the rock off the domes. Those broken pieces then slid down theÂ
domes and piled up in a ring around them. And this happened over and over again until there was a sort of apronÂ
of debris surrounding the core. The raised valley floorÂ
between the volcanic core and the apron has eroded awayÂ
faster than the volcanic rock, leaving behind a low-lying areaÂ
that geologists call the moat. But aside from a little erosion today, theÂ
Sutter Buttes don’t look all that different from how they looked at the end of all those eruptions. And these well preservedÂ
remains have made it possible to piece together most of their origin story. But one question that’sÂ
still not easy to answer is why the Sutter Buttes formed where they did. Like, why is there one lone volcano inÂ
the middle of the Sacramento River Valley? And no one really knows, butÂ
geologists do have one idea. An important clue is that studiesÂ
have detected a narrow strip running parallel to the coast that seemsÂ
to have a stronger gravitational and magnetic field than the surrounding areas. And geologists think that it could be a signÂ
of an old fault line that has been buried. If that hypothesis is right,Â
that fault could explain how magma from deep underground rose upÂ
in that spot to form the Sutter Buttes. The case is not closed yet, butÂ
what all of this does tell is that, while the Sutter Buttes don’t have theÂ
honor of world’s smallest mountain range, they are pretty exceptional in their own right. In the outskirts of Puebla, Mexico, liesÂ
a rocky dome called Cuexcomate that has sometimes been called theÂ
world’s smallest volcano. Above ground, it stands about 8.4 meters tall,w hich makes it about the sameÂ
height as a three-story building. At the top, it’s got a large craterÂ
that goes 4 meters below ground. And people of the area have assumedÂ
it was a volcano for centuries. The local government claims thatÂ
it formed around 1000 years ago and was active at least twice before going quiet. But while scientific recordsÂ
don’t go back that far, there is one thing that modernÂ
science can tell us about Cuexcomate: It’s… not a wee little volcano. It’s a giant geyser. Now, geysers are oftenÂ
related to volcanic activity, but they’re a completely different phenomenon. They form in places whereÂ
groundwater flows through rocks that have been heated by magma. As that water heats up, the amountÂ
of pressure it’s under increases, and at a certain point, it’ll burst through the surface of the Earth to release that pressure. And voilĂ , you have a geyser. These water-eruption sites are often locatedÂ
in the middle of cone-shaped structures. That’s because the erupting water tendsÂ
to be full of lots of dissolved minerals, which get left behind whenÂ
the water part evaporates. But unlike volcanoes, they don’t spewÂ
lava, and they are much, much smaller. In fact, part of the reason Cuexcomate hasÂ
had its identity mistaken for so long is the fact that it’s enormous for a geyser, and may even be the largest geyser in the world. But despite its size and the factÂ
that we can’t directly prove what came out of Cuexcomate when itÂ
was active, for volcanologists, the shape and composition ofÂ
the dome are a dead giveaway. Its cone is made up almost entirely of calcite, a type of deposit that isn’tÂ
super common among geysers, but is definitely a mineral thatÂ
commonly is deposited by groundwater. And Cuexcomate still has warmÂ
water flowing through its base, although now it discharges undergroundÂ
instead of through the crater. As for why it formed where it did, that mayÂ
be impossible to say for sure at this point. Historical explanations have suggestedÂ
that it formed during a period of activity at PopocatĂ©petl, a volcanoÂ
about 60 kilometers to the west. Scientists haven’t yet been able toÂ
prove or disprove this origin story. But research at sites like YellowstoneÂ
have shown that volcanic activity can push groundwater upward, through layers of rock, where it can sometimes burstÂ
through the surface in a geyser. So it’s possible that, thoughÂ
Cuexcomate is not a volcano itself, iit did form because of volcanic activity. No matter what, CuexcomateÂ
still leaves the title of world’s smallest volcano up for grabs… and on the other side of theÂ
Pacific Ocean there’s another, truly volcanic candidate in the running. The volcano is named Taal,Â
and it sits in the middle of a lake on the island of Luzon in the Philippines. It’s just over 300 meters high, andÂ
there in the middle of a peaceful lake, it generally looks pretty tame and picturesque. But this little volcano is very much active. It’s erupted 30-some times in the lastÂ
500 years, including as recently as 2020. Some eruptions have destroyed nearby towns, and even reshaped the surrounding landscape. Which might seem kind ofÂ
drastic for such a wee volcano. But… there’s a reason it blows up so dramatically. That lake it’s sitting in? It’s actually a caldera belongingÂ
to a much larger volcanic system. Taal technically encompassesÂ
this whole enormous volcano, but all its recent activity hasÂ
been out of this visible part, known as Volcano Island, which isÂ
why people tend to think it’s small. The caldera it’s sitting in hasn’tÂ
exploded in at least 5000 years. But there’s still a lotÂ
going on beneath the surface. And that has to do with theÂ
type of volcano Taal is. See, when you imagine a generic volcano, you’re likely picturing a cinder cone volcano. These are pretty simple explosions. Basically, lava bursts out of theÂ
earth through a single vent, hardens, and then falls around the vent,Â
forming a tidy cone with a crater. But Taal is what’s called a stratovolcano,Â
and it’s a completely different beast. Stratovolcanoes have what’sÂ
called a conduit system, basically a system of channels leading magma up from deep below the surface of the Earth. The volcanoes grow over timeÂ
as different explosions dump alternating layers of lava, ash, orÂ
other debris one on top of the other. And what makes these so dangerousÂ
and unpredictable is that they don’t always blow out the top. As magma pushes through differentÂ
branches in the conduit system, it can burst out the side. Like, in 1707, Taal exploded out ofÂ
a different part of the caldera and formed a brand-new cone that’sÂ
now part of Volcano Island. And Volcano Island also hasÂ
at least five other vents where the volcano has erupted in the past. So while Taal looks deceivingly small, theÂ
part we see is just the tip of the iceberg. And this volcano has had a massive impactÂ
on the land around it for centuries. If there’s one thing that all of theseÂ
geological misfits have in common, it’s that none of them are quite what they seem. And first impressions alone often don’t tellÂ
us the full geological story of a place. All over our planet, completelyÂ
ordinary geological processes are making some amazingly weird places. And studying the oddballs andÂ
the extremes can help scientists sharpen their understandingÂ
of the more ordinary ways the ground is slowly evolving under our feet. Thanks for watching this episode of SciShow! If you enjoyed learning aboutÂ
these small, weird places, we bet you’ll love some of the muchÂ
bigger ones we’ve talked about! Like, we have this one about 5 super weird lakes which you might want to check out next. And, hey, pro top: if youÂ
subscribe to the channel, you’ll get videos like that poppingÂ
up in your YouTube feed all the time! So, something to consider. [♪ OUTRO]
My friend has always bragged about this being the world’s smallest mountain range, time to correct her!
Happy to see other people watch the Sci Show too :)
For marketing purposes, it's still the world's smallest mountain range.