A Super Discovery, 05.11.12

NASA’s Spitzer Space Telescope has made another monumental discovery: a “super-Earth.”

Twice as big as Earth, the super-Earth is, for now, called 55 Cancri e, and is situated in the constellation Cancer, about 41 light years away. For the first time, scientists were able to actually measure the light emanating (reflected) from the planet itself, instead of measuring how much light it blocks as it transits in front of its star. Because of the low measure­ments that were taken, scientists guess that the planet is probably very dark most of the time. It appears to be tidally locked, though (one side is stuck facing its star), and that side appears to have temperatures in excess of 3,000 Fahrenheit. Just so we’re clear on how hot that is, most kinds of metal will be liquid at that temperature.

Based on their observations, scientists are saying the planet most likely has a rocky core and is covered with water. Be­cause of the extreme heat on the sunny side, however, the water is probably in a “supercritical” state, where it exists as both liquid and gas. NASA claims the atmosphere is covered with steam. Regardless, the atmosphere appears to be very thin, as it is doing such a poor job of blocking its sun’s heat.

Based on all observations made at this point, the planet cannot support life.

Read more from NASA.

Help wanted: Moon Mappers

Have you ever wanted to make a contribution to astronomy, but felt helpless because you did not have any good equipment for deep space observation? Not to fear! Moon Mappers needs your help.

An initiative by Cosmo Quest, the project is to attempt to map out at least 1,000,000 craters on the surface of the moon before May 5th.

Credit: Moon Mappers

Now, it may sound kind of silly to think of going about counting holes in the ground (even if it is on another world), but believe it or not, craters yield a lot of information when studied closely. More and more, scientists are discovering that craters are often sheltering harbors for ice and other frozen chemicals, which would otherwise melt and be evaporated if they were not hidden in shadow. Chemical samples from inside the craters also provide clues as to what sort of things have bombarded the moon in the past.

What’s more, Cosmo Quest has made it easy. They have managed to partner with NASA and obtain some high-resolution photos from the Lunar Reconnaissance Orbiter (LROC), so all you have to do it properly mark out craters that appear to be about 1 meter in diameter on the photos. Sound simple? “There are literally millions of craters at that size,” says Dr. Pamela Gray, who is leading the Cosmo Quest project. This is so much more than a preschool counting exercise.

So, who’s up for adding some “lunar cartography” volunteer experience to their résumé?

Read more at Universe Today or Cosmo Quest’s Moon Mappers Project.

Snowing Microbes

Of all the places in our solar system (besides Earth) that are most likely to harbor life, none is better than Enceladus, Sat­urn’s sixth largest moon. Although extremely cold, it has been recording spouting geyser-like plumes of liquid water high into the air. Enceladus is one of only a few other places in our solar system with recorded geologic activity.

Although it is so very cold on Enceladus, that does not have researchers worried, because we have life here in our arctic oceans on Earth.

The lucky thing about the water being sprayed into the air also means that the probes that have been sent to Enceladus do not even need to land! All they have to do is fly through the spray to gather their samples and analyze the liquid. With the envi­ronment being so cold, however, all of the spray is probably being frozen into snow in the atmosphere. 
There are also concerns that perhaps the oceans are far too acidic to support life, but again, it may be possible for mi­crobes to survive in such conditions.

Microbes, are, in fact, what the researchers are looking for; millions of microscopic bacteria and other organisms that live just about everywhere here on Earth. As the water is likely being spurted from the oceans beneath the frozen surface of the planet, any life held within them would be blown up into the atmosphere in the geysers.

Read more from SPACE.com.

Life on Europa: a soda ocean? 03.02.12

Of all of the other places in our solar system, one of the most promising locations for extraterrestrial life has been Jupiter’s icy moon Europa. Completely covered with ice on the surface, researchers believe Europa harbors an ocean of liquid water at least 100 miles deep, which leads down to a rocky interior and a solid core of some type, most likely metal. Surface studies on the moon have yet to be conducted, however, so the re­searchers have no idea how thick the icy crust on the outside of the planet may be.

Credit: NASA.

While the possibility of an ocean of liquid water is more than enough to be excited about, some researchers are beginning to doubt whether or not life as we know it would be able to thrive on the chilling planet. What research has been done on the planet is beginning to lead the scientists to believe that whatever water is there would be highly contaminated by extremely acidic chemicals. There is some speculation that it is possible the acidity could be balanced out by more basal minerals at the ocean floor, but again, it is all speculation.

There are a few places on Earth where some microbes and other life forms thrive in highly acidic environments, but those areas are few and far between. So, the likelihood of life sur­viving on an entire planet like that? Very slim.

Without the bases and minerals at the ocean floor to balance out the pH, though, the researchers say the ocean would have moderately corrosive characteristics, “about the same as your average soft drink,” except it would be more along the lines of hydrogen peroxide than a cola. Swim time, anyone?

Information credit: SPACE.com.

Scientists re-thinking theories for life on Mars, 11.04.11

New interpretations of data from NASA and European orbiters are beginning to come together, suggesting that the possibility for life on Mars is not so strong on the surface, but much more promising for the subsurface directly underground.

This interpretation comes after researchers have discovered clay and certain types of minerals in the Martian subsurface. Clay can only be formed through the interaction of liquid water with rock, so finding clay under the surface suggests a much more consistent liquid presence than it does for the surface, which usually only has frozen ice in its craters and at its poles.

Image credit: Geology.com.

One of the minerals that they have discovered that supports their new theories is a rather icky-colored stone called prehnite. Prehnite can only form in areas where the temperature is over 400 degrees Fahrenheit, so the presence of prehnite and the abundant clay in the subsurface suggests the likelihood for strong hydrothermal (hot water) activity beneath the Martian surface.

That being the case, it is not so strange to think about the likelihood of finding life on Mars. Based on earth’s own geothermal and hydrothermal activity, scientists know it is possible for various kinds of life (usually bacteria and all manner of simple microbes) to live in their own environments, underground, away from the light of the sun.

So, is it time to chuck the rovers and reach for a shovel instead? Not necessarily. More research still needs to be done. There is also more than enough evidence left on the surface of Mars for astronomers to know there was liquid water there at times, and there is still plenty of ice left in some places, so the possibility for life is still there. The idea of finding bacteria on a planet puts the phrase “finding a needle in a haystack” to shame, though. Knowing where to look that is the hard part.

Credit: NASA.