From “Astronomy Magazine” : “Why does Earth have continents?”

From “Astronomy Magazine”

9.15.22
Erik Klemetti

If you were to arrive in our solar system never having seen it before, you’d be impressed with variety. Giant gas planets with rings, moons spanning from minuscule to enormous, icy comets that hurtle in from the edges, rocky planets all with varying amounts of atmospheres. It almost seems like no two planets/moons formed the same way, but one really sticks out as an oddball.

It’s Earth. Our planet has liquid water (weird!) It has life (even weirder!) It has plate tectonics churning away (continued weirdness!) It even has gigantic masses of rocks unlike anything else in the solar system (totally weird!) Those masses are the continents, made of rocks like granite, sandstone, gneiss, slate, andesite, rhyolite and more.

The rest of the planets are almost entirely basalt or something close, but Earth. No, earth hides most of its basalt surface under deep oceans, instead letting its freak flag fly with continental rocks showing off to any passersby.

All of these unique features are connected. Plate tectonics may exist on Earth because we have liquid water at the surface. Life might be a product of the abundant water and volcanism. The composition of the Earth’s continents might be a product of life’s interactions with rock. It is all deep time evolution of minerals, rocks and organism that make Earth what it is.

What are continents anyway?

There is still a lot unknown about the formation of our continents. We’re pretty sure that no other planet has the silica-rich continental masses that Earth possesses. Mars might have a little bit of what geologists call “evolved” rocks (in other words, more silica than basalt). Venus could have a little bit as well. The Moon has anorthosite highlands that are a bit like continents except they formed from lighter minerals floating in a primordial magma ocean … that and those highlands are mostly all the same stuff.

No planet has the complex melange of volcanic rocks, sediment, metamorphic rocks and cooled magma that are Earth’s continents. The current theory, based on the ages of tiny zircon crystals found in Australia, is that our continents may have started forming over 4 billion years ago. However, whether they all formed quickly to close to their current size or have been slowly growing over time is an open question.

What makes continents so special?

Well, they are less dense and much thicker than the other flavour of plate on Earth, oceanic plates. Our ocean basins exist mainly because the crust underneath them are denser and thinner basalt plates, meaning they sit lower on the Earth’s ductile mantle (note: the Earth’s mantle is not made of molten magma). The continents, on the other hand, sit high because of their lower density and thicker profile, much like a volleyball sits higher in a pool than a tennis ball (a concept we call isostasy).

This difference does more than just create the different shapes of Earth’s surface. Continents are so buoyant that they can’t get shoved back into Earth’s mantle like the denser continental crust. Thus is born features like mountain belts formed from continental collision and subduction zones (and their volcanoes) where oceanic crust dives underneath continental crust.

The continents change as well. With plate tectonics comes the “supercontinent cycle” (also known as the Wilson Cycle) where continents collide to form massive supercontinents like Pangaea and then split apart over hundreds of millions of years. Today, the only thing we have close to a supercontinent is the amalgam of Europe, Asia and India.

The core of continents

The oldest parts of our continents are called cratons (and if those rocks are exposed at the surface, they’re called shields.) They represent the nucleus of each major continent, usually much smaller than the continent as a whole. These areas haven’t seen much in the ways of active tectonic processes like collisions or rifts for hundreds of millions to billions of years.

In North America, the craton stretches from northern Canada and Greenland (where the oldest rocks going back 3-4 billion years) to the south into Texas, but only parts of it are exposed at the surface. Most continents are more than just their cratons, so we know that the continents didn’t form all at once in the early history of the Earth. You can check out a map of the world’s cratons below to get a sense of the old cores of continents.
One of the biggest questions might be what got the whole continent thing started … and what keeps it going. It didn’t seem to happen at the other rocky planets of our solar system. This means that there are some factors that are likely intrinsic to Earth — our liquid water and molten/solid core — that helped continents develop as fully as they have. However, as they say, that’s not all.

See the full article here .


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Astronomy is a magazine about the science and hobby of Astronomy. Based near Milwaukee in Waukesha, Wisconsin, it is produced by Kalmbach Publishing. Astronomy’s readers include those interested in astronomy and those who want to know about sky events, observing techniques, astrophotography, and amateur astronomy in general.

Astronomy was founded in 1973 by Stephen A. Walther, a graduate of The University of Wisconsin–Stevens Point and amateur astronomer. The first issue, August 1973, consisted of 48 pages with five feature articles and information about what to see in the sky that month. Issues contained astrophotos and illustrations created by astronomical artists. Walther had worked part time as a planetarium lecturer at The University of Wisconsin–Milwaukee and developed an interest in photographing constellations at an early age. Although even in childhood he was interested to obsession in Astronomy, he did so poorly in mathematics that his mother despaired that he would ever be able to earn a living. However, he graduated in Journalism from the University of Wisconsin Stevens Point, and as a senior class project he created a business plan for a magazine for amateur astronomers. With the help of his brother David, he was able to bring the magazine to fruition. He died in 1977.