Verdant volcano in a silvery sea
I am endlessly fascinated by volcanoes -- their power, the science behind them, and of course their terrible beauty. I've stood on a few (though never an active one -- but that'll happen someday!) and they are among the most amazing geological features on our planet.
In the past few years, we've started getting incredible high-resolution pictures of volcanoes from space, and they never cease to amaze me. One I saw recently really got to me: the south Pacific volcano Tinakula, located over 2000 km northeast of Australia:
Ye. Gads. [Click to hephaestenate.]
This shot was taken by the Earth Observing-1 satellite, and shows the volcanic island in the ocean. The colors are stunning: the deep green of the vegetation on the volcanic slope, and the bizarre silvery color of the ocean. This image is actually natural color; the silver is due to the way the sunlight is reflecting and glinting off the choppy water.
Tinakula is sporadically active, and you can see the plume of steam (probably with some ash mixed in) blowing out. You can also see the shadows on the water; the sunlight is coming from the right.
This is a sparsely populated region, and observations of the volcano are pretty rare. But from space, everything on the surface of the Earth is visible at some point. And while you can't keep a constant eye on such things, even the occasional shot like this helps scientists understand what's going on below the surface. This helps us understand volcanoes, of course, but also adds to the knowledge database of geologists, vulcanologists, and seismologists. And given the number of people who live near active volcanoes, this knowledge saves lives. It really is that simple: the better we understand the world -- the Universe -- around us, the better off we are.
Image credit: NASA/Jesse Allen and Robert Simmon (Earth Observatory)
I love these satellite views of volcanoes from space, and I've collected quite a few into a gallery slideshow. Click the thumbnail picture to get a bigger picture and more information, and scroll through the gallery using the left and right arrows.]
Bad Astronomy Gallery
(click any image to see it full size)
In this image taken by NASA's Earth Observing-1 satellite, taken on January 6, 2011, you can see a long plume of ash and water vapor stretching to the east. The volcano has been rather gently erupting since New Year's Eve, so observations like this one are important in understanding the extent and nature of the activity.
I love the look and feel of this image; the terrain there is incredibly hostile, mountainous and remote. That's accentuated by the sunlight casting shadows across the region. This image was captured in mid-morning, just a few hours after local sunrise - you can tell by the shadows pointing north and west, so the Sun must have been south and east when this was snapped.
That whole area is lousy with incredible volcanoes... scan through this gallery and you'll see plenty more.
Image credit: NASA
Image credit: NASA
Just outside the field of view of this picture is the city of Yogyakarta, which has a population of 400,000. As you can imagine, satellite tracking of volcanoes like this are critical when major population centers lie so close to them.
Image credit: NASA/GSFC/METI/ERSDAC/JAROS, and the U.S./Japan ASTER Science Team
This is one of my favorite pictures of volcanoes from space, because it's almost seen straight down, the island is so nearly symmetric, and the plume so well-centered. It's exactly how I imagine these things should look from orbit!
Image credit: NASA
This image, taken by NASA's Aqua satellite in May 2010, shows the plume reaching south toward England.
Image credit: NASA
Image credit: NASA
Image credit: NASA
Over the past century, the volcano has been building itself back up, as you can see in this picture taken by the Earth Observing-1 satellite. It's over 2 km (1.2 miles) across now. It may be decades or centuries before another catastrophic eruption occurs, and in the meantime NASA keeps an eye on this sleeping giant.
Image credit: Jesse Allen/NASA EO-1 team
Mayon has a history of violence - in December 2009 and January 2010, just after this image was taken, it had a series of minor ash eruptions - and has been the cause of many, many deaths. Scientists studying volcanoes like Mayon learn how to predict their eruptions, and can save countless lives... just in case you were wondering what science has ever done to help people.
Image credit: NASA
NASA's Aqua satellite caught the collapse and subsequent eruption in this incredible picture. You can see the shadow of plume, and get a feel for the scale of this event.
The 1997 eruption of Soufriere killed 19 people on an island of 4000... showing that scientists predicting eruptions do in fact save many, many lives.
Image credit: NASA
Klyuchevskaya erupts calmly and steadily, releasing the pressure underneath it continuously, instead of in a more dramatic explosion. That whole region is lousy with craggy mountains and volcanoes; click the link to get access to a huge version of this image and get an overview of this forbidding landscape.
Image credit: NASA
Image credit: NASA
In this stunning shot (taken on November 19, 2010) the volcanoes of eastern Kamchatka, Russia, are seen to the northwest from a distance of about 1000 km (600 miles). You can even see the shadows of the volcanoes from the morning Sun.
Many of these volcanoes erupted in the 20th century, though for some it's been a few centuries since they were active. The large body of water is Lake Kronotsky, formed when lava from the Kronotsky volcano (the large symmetric cone in the center) dammed a river.
Image credit: NASA
The detector on the camera is a single row of pixels. As the satellite moves around the Earth, the detector sweeps over the landscape, and the one-dimensional row of pixels can be stacked up to create a continuous picture of what's going on below. It's just one more way scientists can observe our home planet and learn how it behaves. Sometimes learning about Earth isn't obvious, and stepping away - and using unusual methods - is the best way to do it.
Image credit: NASA
In 2002, Etna erupted in a relatively large display of lava and ash. This view was taken by Expedition 5 about the International Space Station, looking southeast at a low angle. This eruption let loose a river of lava down the flank of the volcano which set fire to pine trees there; the dark plume is from the eruption, but the whiter ones are from burning pine trees. The plume from this eruption blew south and was reported as far away as Libya, nearly 600 km distant.
Unlike Earth observing satellites, which point straight down, astronauts on the ISS have the luxury of seeing things at an angle, providing a more natural - and in this case, more spectacular - view to our human eyes and brain.
Image credit: NASA
Don't be fooled. The plume shut down a nearby airport (volcanic ash is composed of very spiky and sharp-edged glass and silicates which can be dangerous to breathe and can damage plane engines in flight) and causes many other snarls in the lives of Sicilians.
Image credit: MODIS Rapid Response Team, NASA/Goddard Space Flight Center
By precisely measuring the time it takes the pulses to hit the ground and reflect back, a map of the topography of the region can be assembled. This can then be used to make a model of the volcano in three dimensions, which can be viewed from any angle, even one mimicking the view from the ground.
Emily Lakdawalla at The Planetary Society Blog has the details on this amazing image, as well as a much larger version.
Image credit: DLR