Layered deposits in Juventae Chasma as seen by the European Space Agency's Mars Express orbiter's high-resolution stereo camera in November 2013. Credit: ESA/DLR/FU Berlin (G. Neukum)
Above is a time capsule of more than three billion years of Mars history. The right-hand side shows a bunch of blocky-looking things that formed after volcanic activity made the walls of Juventae Chasma collapse. In the center are what the European Space Agency calls “mystery mounds” made up of sulphate materials (indicating that they were changed by water a long time ago.)
“The mounds contain numerous layers that were most likely built up as lake-deposits during the Chasma’s wet epoch. But ice-laden dust raining out from the atmosphere – a phenomenon observed at the poles of Mars – may also have contributed to the formation of the layers,” ESA stated.
“While the water has long gone, wind erosion prevails, etching grooves into the exposed surfaces of the mounds and whipping up the surrounding dust into ripples.”
The picture was snapped Nov. 4 by the European Space Agency’s Mars Express mission. There’s been a lot of talk about water on Mars this past week, between this possible salty water find at the equator and news of the Mars Curiosity rover stumbling on to an ancient lake that could have supported life.
Mars Express has been humming along for 10 years and counting above the Red Planet. Check out some of its top discoveries in the past decade in this past article by Universe Today’s Ken Kremer.
This artist’s concept shows Mars Express set against a 35 km-wide crater in the Vastitas Borealis region of Mars at approximately 70.5°N / 103°E. The crater contains a permanent patch of water-ice that likely sits upon a dune field – some of the dunes are exposed towards the top left in this image. Copyright ESA/DLR/FU-Berlin-G.Neukum
Jupiter's moon, Europa, appears to have clay-like minerals on it (visible in blue in the false-color patch, amid red-colored water ice). The information came from new data analysis from NASA's Galileo mission, which concluded in 2003. The backdrop is a mosaic of visual-light images from Galileo's Near-Infrared Mapping Spectrometer. Credit: NASA/JPL-Caltech/SETI
The cool thing about space missions is long after they conclude, the data can yield the most interesting information. Here’s an example: Jupiter’s moon Europa may have a ripe spot for organic materials to take root.
Scouring the data from NASA’s past Galileo mission — which ended a decade ago — scientists unveiled an area with “clay-like minerals” on it that came to be after an asteroid or comet smashed into the surface. The connection? These celestial party-crashers often carry organics with them.
“Organic materials, which are important building blocks for life, are often found in comets and primitive asteroids,” stated Jim Shirley, a research scientist at NASA’s Jet Propulsion Laboratory. “Finding the rocky residues of this comet crash on Europa’s surface may open up a new chapter in the story of the search for life on Europa.”
Reprocessed Galileo image of Europa’s frozen surface by Ted Stryk (NASA/JPL/Ted Stryk)
Europa is considered one of the best spots in our solar system to look for life, due to the ocean lurking beneath its icy surface, surface salts that can provide energy, and a source of heat as the mighty Jupiter squeezes and releases the moon like a tennis ball.
The minerals (called phyllosilicates) emerged after Shirley’s team ran a new analysis on infrared pictures snapped by Galileo in 1998, basically working to refine the signal out of the images (which are much lower quality than what we are capable of today).
After the analysis, the phyllosilicates appeared in a “broken ring”, NASA stated, about 75 miles (120 kilometers) away from a crater site. The crater itself is about 20 miles (30 kilometers) in diameter. Scientists are betting that the ring of phyllosilicates is debris (“splash back of material”, NASA says), after a celestial body struck at or around a 45 degree angle from vertical. It’s unlikely the phyllosilicates came from Europa’s ocean given the crust, which can be as thick as 60 miles (100 kilometers).
Europa Report was a 2013 film that focused on a human mission to the Jovian moon. Poster by Start Motion Pictures.
“If the body was an asteroid, it was likely about 3,600 feet (1,100 meters) in diameter. If the body was a comet, it was likely about 5,600 feet (1,700 meters) in diameter. It would have been nearly the same size as the comet ISON before it passed around the sun a few weeks ago,” NASA stated.
To be clear, nobody has found organic materials on Europa directly, and even if they were detected it would then be another feat of science to determine if they related to life or not. This does, however, lend credence to theories that life came to Earth through comets and asteroids.
A concept drawing of what eventually became Valkyrie, Johnson Space Center's entry in the DARPA Robotics Challenge. Credit: NASA, via DARPA.
Here’s a new DARPA-inspired, NASA-built robot, complete with a glowing NASA Meatball in its chest, reminiscent of ET’s heart light. The robot’s name is Valkyrie and she was created by a team at the Johnson Space Center as part of the DARPA Robotics Challenge, a contest designed to find the life-saving robot of the future. While NASA’s current robot — Robonaut 2 – is just now getting a pair of legs, “Val” (officially named “R5″ by NASA) is a 1.9 meter tall, 125 kilogram, (6-foot 2-inch, 275-pound) rescue robot that can walk over multiple kinds of terrain, climb a ladder, use tools, and even drive.
According to an extensive article about the new robot in IEEE Spectrum, “This means that Valkyrie has to be capable of operating in the same spaces that a person would operate in, under the control of humans who have only minimal training with robots, which is why the robot’s design is based on a human form.”
Why is NASA building more robots? The thinking is that NASA could send human-like robots to Mars before they send humans. Right now, Valkyrie is not space-rated, but the team at JSC is just getting started.
She’s loaded with cameras, LIDAR, SONAR, is strong and powerful, and is just a great-looking robot.
“We really wanted to design the appearance of this robot to be one that was, when you saw it you’d say, wow, that’s awesome.” Nicolaus Radford, Project and Group Lead at the Dexterous Robotics Lab and JSC.
What’s the perfect holiday gift for any space fan? It’s the 2014 version of Steve Cariddi’s wonderful Year in Space Wall Calendar, which is now available to order, and thanks to Steve, Universe Today has another 5 copies to give away! This calendar is full of amazing color images, daily space facts, historical references, and it even shows you where you can look in the sky for all the best astronomical sights.
This is a gorgeous wall calendar that has over 120 beautiful photos of space, as well as in-depth info on human space flight, planetary exploration, and deep sky wonders. This calendar is huge — much larger than a traditional wall calendar — and last year it was named “Science Geek Gift of the Year” at Alan Boyle’s NBC “Cosmic Log” website.
For our giveaway, to be entered into the drawing, just put your email address into the box below (where it says “Enter the Giveaway”) before Monday, December 16, 2013.
Update: This giveaway is now closed.
These calendars normally sell for $16.95, but Universe Today readers can buy the calendar for only $12.95 or less (using the “Internet” discount), and get free U.S. shipping and discounted international shipping.
It’s published in cooperation with The Planetary Society, with an introduction by Bill Nye. Our thanks to Steve Cariddi for providing this giveaway opportunity for our readers!
Other features of this calendar:
– Background info and fun facts
– A sky summary of where to find naked-eye planets
– Space history dates
– Major holidays (U.S. and Canada)
– Daily Moon phases
– A mini-biography of famous astronomer, scientist, or astronaut each month
If this is the first time you’re registering for a giveaway from Universe Today, you’ll receive a confirmation email immediately where you’ll need to click a link to be entered into the drawing. For those who have registered previously, you’ll receive an email later where you can enter this drawing.
Where Should We Look for Life in the Solar System?
Emily Lakdawalla is the senior editor and planetary evangelist for the Planetary Society. She’s also one of the most knowledgeable people I know about everything that’s going on in the Solar System. From Curiosity’s exploration of Mars to the search for life in the icy outer reaches of the Solar System, Emily can give you the inside scoop.
In this short interview, Emily describes where she thinks we should be looking for life in the Solar System.
NASA's Morpheus Project -- a prototype for vertical landing and takeoff for other planets -- during a free flight test Dec. 10, 2013. Credit: NASA (@MorpheusLander Twitter feed)
What an otherworldly experience, without having to leave Earth! The Morpheus Project wrapped up a successful free-flight test yesterday. That picture above is just to whet your appetite for the actual video, which you can see (and definitely hear) after the jump below.
“WOOOOHOOOOO! How about them apples?!” the @MorpheusLander Twitter feed said shortly after the test wrapped up with a takeoff, hover and landing at NASA’s Kennedy Space Center. “Successful #FREEFLIGHT @NASAKennedy today!” the feed added later. “Get ready for us to #increasetheawesome as we progress through our tests!”
The team is of course analyzing the data to see how successful this free flight was for the planetary landing prototype that NASA is testing.
NASA’s goal with Morpheus is to demonstrate landing technologies at low cost, to possibly bring on to planetary missions in the future — and ultimately, human ones as well.
“The Morpheus project and the Autonomous Landing and Hazard Avoidance Technology (ALHAT) project provide technological foundations for key components of the greater exploration architecture necessary to move humans beyond low Earth orbit (LEO),” the project stated on its website.
A series of images from the High Resolution Imaging Science Experiment (HiRISE) camera on NASA's Mars Reconnaissance Orbiter show how the appearance of dark markings on Martian slope changes with the seasons. Image credit: NASA/JPL-Caltech/Univ. of Arizona.
Get ready, because here are some more findings about possible water on Mars. This picture above from the Mars Reconnaissance Orbiter is a series showing changing dark lines on an equatorial hillside — which could be an indication of salty water, scientists said.
As MRO circled the planet and peered at the lines with its High Resolution Imaging Science Experiment (HiRISE) camera, it tracked these changes at five locations in Valles Marineris, the biggest canyon our solar system has to offer. The lines were on slopes that faced the north and the south, and most intriguingly, they activated when the sun hit their respective sides.
“The equatorial surface region of Mars has been regarded as dry, free of liquid or frozen water, but we may need to rethink that,” stated Alfred McEwen of the University of Arizona in Tucson.
“The explanation that fits best is salty water is flowing down the slopes when the temperature rises,” added McEwen, who is HiRISE principal investigator. “We still don’t have any definite identification of water at these sites, but there’s nothing that rules it out, either.”
A 2010 image of ice excavated on Mars after a recent meteorite impact. Image from the Mars Reconnaissance Orbiter’s High Resolution Imaging Science Experiment (HiRISE) camera. Credit: NASA/JPL-Caltech/Univ. of Arizona
Scientists first spotted these types of features two years ago in the mid-latitudes of Mars, but in that case these were small features (usually less than 16 feet or five meters wide). The slopes observed here range as wide as 4,000 feet (1,200 meters).
Salt can keep water flowing even in temperatures where more pure water gets frozen, and also reduce the evaporation rate. NASA also noted it used data from two other MRO instruments (Compact Reconnaissance Imaging Spectrometer for Mars and the Context Camera) and the Mars Oddysey’s Thermal Emission Imaging System.
That’s not all, however. Scientists also reported 15 fresh craters that excavated ice that used to be hidden underneath the soil of Mars.
A radar on NASA’s Mars Reconnaissance Orbiter has detected widespread deposits of glacial ice in the mid-latitudes of Mars.NASA/JPL-Caltech/ASI/University of Rome/Southwest Research Institute
“The more we find, the more we can fill in a global map of where ice is buried,” stated Colin Dundas of the United States Geological Survey in Flagstaff, Ariz.
“We’ve now seen icy craters down to 39 degrees north, more than halfway from the pole to the equator. They tell us that either the average climate over several thousand years is wetter than present or that water vapor in the current atmosphere is concentrated near the surface. Ice could have formed under wetter conditions, with remnants from that time persisting today, but slowly disappearing.”
Results were presented at the American Geophysical Union’s fall meeting this week.
Artist's conception of the European Space Agency's CryoSat mission. Credit: ESA – P. Carril
The West Antarctic Ice Sheet is losing the equivalent of a Lake Tahoe in ice every single year, according to new measurements from the European Space Agency CryoSat satellite — quite a bit more than what was measured earlier. That’s 36 cubic miles or 150 cubic kilometers every single year.
The measured loss also affects sea levels around the world. Between 2005 and 2010, polar scientists previously calculated, oceans rose about 0.0110 inches (0.28 mm) a year due to West Antarctic melting. The new results suggest that the melting is about 15% higher. That would put the new sea-rise rate at 0.0115 inches (0.32 mm) a year.
“We find that ice thinning continues to be most pronounced along fast-flowing ice streams of this sector and their tributaries, with thinning rates of between 4–8 m [13 to 26 feet] per year near to the grounding lines – where the ice streams lift up off the land and begin to float out over the ocean – of the Pine Island, Thwaites and Smith Glaciers,” stated Malcolm McMillan, a research fellow at the United Kingdom’s University of Leeds.
West Antarctic thinning between 2010 and 2013, as measured by the European Space Agency’s CryoSat satellite. Credit: CPOM/ESA
What scientists don’t know is whether the ice is thinning faster due to melting glaciers or if CryoSat — the European Space Agency satellite that made these measurements by radar following its launch in 2010 — is simply mapping the same rate of loss but in higher resolution as what was seen before.
“Thanks to its novel instrument design and to its near-polar orbit, CryoSat allows us to survey coastal and high-latitude regions of Antarctica that were beyond the capability of previous altimeter missions, and it seems that these regions are crucial for determining the overall imbalance,” stated Andrew Shepherd, a University of Leeds researcher who led the study.
The research was presented at the American Geophysical Union’s fall meeting this week.
Mars One proposes Phoenix-like lander for first privately funded mission to the Red Planet slated to blastoff in 2018. This film solar array experiment would provide additional power. Credit: Mars One
The Mars One non-profit foundation that aims to establish a permanent human settlement on the Red Planet in the mid-2020’s – with colonists volunteering for a one-way trip – took a major step forward today, Dec. 10, when they announced plans to launch the first ever privately funded space missions to Mars in 2018; as forerunners to gather critical measurements.
Bas Lansdorp, Mars One Co-founder and CEO announced plans to launch two missions to the Red Planet in 2018 – consisting of a robotic lander and an orbiting communications satellite; essential for transmitting the data collected on the Red Planet’s surface.
And he has partnered with a pair of prestigious space companies to get started.
Lansdorp made the announcement at a news media briefing held today at the National Press Club in Washington, DC.
“This will be the first private mission to Mars and the lander’s successful arrival and operation will be a historic accomplishment,” said Lansdorp.
Lansdorp stated that Mars One has signed contracts with Lockheed Martin and Surrey Satellite Technology Ltd. (SSTL) to develop mission concept studies – both are leading aerospace companies with vast experience in building spacecraft.
The 2018 Mars One lander would be a technology demonstrator and include a scoop, cameras and an exotic solar array to boost power and longevity.
The spacecraft structure would be based on NASA’s highly successful 2007 Phoenix Mars lander – built by Lockheed Martin – which discovered and dug into water ice buried just inches beneath the topsoil in the northern polar regions of the Red Planet.
3 Footpads of Phoenix Mars Lander atop Martian Ice
Phoenix thrusters blasted away Martian soil and exposed water ice. Proposed Mars One 2018 mission will build a new Phoenix-like lander from scratch to test technologies for extracting water into a useable form for future human colonists. NASA’s InSight 2016 mission will build a new Phoenix-like lander to peer deep into the Red Planet and investigate the nature and size of the mysterious Martian core. Credit: Ken Kremer, Marco Di Lorenzo, Phoenix Mission, NASA/JPL/UA/Max Planck Institute
“We are excited to have been selected by Mars One for this ambitious project and we’re already working on the mission concept study, starting with the proven design of Phoenix,” said Ed Sedivy, Civil Space chief engineer at Lockheed Martin Space Systems. “Having managed the Phoenix spacecraft development, I can tell you, landing on Mars is challenging and a thrill and this is going to be a very exciting mission.”
Lockheed Martin engineers will work for the next 3 to 4 months to study mission concepts as well as how to stack the orbiter and lander on the launcher,” Sedivy said at the briefing.
“The lander will provide proof of concept for some of the technologies that are important for a permanent human settlement on Mars,” said Lansdorp.
Two examples involve experiments to extract water into a usable form and construction of a thin film solar array to provide additional power to the spacecraft and eventual human colonists.
It would include a Phoenix like scoop to collect soils for the water extraction experiment and cameras for continuous video recording transmitted by the accompanying orbiter.
Lockheed Martin is already under contract to build another Phoenix type lander for NASA that is slated to blastoff in 2016 on the InSight mission.
“They have a distinct legacy of participating in nearly every NASA mission to Mars,” said Lansdorp.
So if sufficient funding is found it seems apparent that lander construction should be accomplished in time.
However, building the science instruments from scratch to meet the tight timeline could be quite challenging.
Given that the lander is planned to launch in barely over four years, I asked Sedivy if that was sufficient time to select, design and develop the new science instruments planned for the 2018 mission.
“A typical life cycle for the Mars program provides three and a half years from commitment to design to launch. So we have about 1 year to commit to preliminary design for the 2018 launch, so that’s favorable,” Sedivy told Universe Today.
“Now as for having enough time for selecting the suite of science experiments that’s a little trickier. It depends on what’s actually selected and the maturity of those elements selected.”
“So we will provide Mars One with input as to where we see the development risks. And we’ll help guide the instrument selections to have a high probability that they will be ready in time for the 2018 launch window,” Sedivy told me.
Video caption: Mars One Crowdfunding Campaign 2018 Mars Mission
For the 2018 lander, Mars One also plans to include an experiment from a worldwide university challenge and items from several Science, Technology, Engineering and Math (STEM) challenge winners.
Surrey Satellite Technology Ltd. (SSTL) was selected to studying orbiter concepts that will provide a high bandwidth communications system in a Mars synchronous orbit and will be used to relay data and a live video feed from the lander on the surface of Mars back to Earth, according to Sir Martin Sweeting, Executive Chairman of SSTL.
There are still many unknowns at this stage including the sources for all the significant funding required by Mars One to transform their concepts into actual flight hardware.
“Crowdfunding and crowdsourcing activities are important means to do that,” said Lansdorp.
At the briefing, Lansdorp stated that Mars One has started an Indiegogo crowdfunding campaign. The goal is to raise $400,000 by Jan. 25, 2014.
Mars One is looking for sponsors and partners. They also plan a TV show to help select the winners of the first human crew to Mars from over 200,000 applicants from countries spread all across Earth.
The preliminary 2018 mission study contracts with Lockheed and Surrey are valued at $260,000 and $80,000 respectively.
Stay tuned here for Ken’s continuing Curiosity, Chang’e 3, LADEE, MAVEN and MOM news and his upcoming Antares launch reports from on site at NASA Wallops Flight Facility, VA.
Learn more about Mars, Curiosity, Orion, MAVEN, MOM, Mars rovers, Antares Launch, Chang’e 3, SpaceX and more at Ken’s upcoming presentations
Dec 11: “Curiosity, MAVEN and the Search for Life on Mars”, “LADEE & Antares ISS Launches from Virginia”, Rittenhouse Astronomical Society, Franklin Institute, Phila, PA, 8 PM
Dec 15-20: “Antares/Cygnus ISS Rocket Launch from Virginia”; Rodeway Inn, Chincoteague, VA, evening
Asteroid 2013 XY8 imaged on 2013, December 10, 2013 by E. Guido, N. Howes and M. Nicolini/Remanzacco Observatory.
A newly-discovered asteroid about the size of a space shuttle will fly past Earth on December 11, 2013 at a very safe distance of 760,000 kilometers (470,000 miles). The closest approach of Asteroid 2013 XY8 will be 11:14 UT, and its size is estimated between 31 – 68 meters. This asteroid is zipping along at about 14 kilometers per second, and of course at about 2 lunar distances away, there is no danger of this asteroid hitting Earth. The asteroid was discovered on Dec. 7 by the team at the Catalina Sky Survey, and our friends Ernesto Guido, Nick Howes and Martino Nicolini from the Remanzacco Observatory have provided a follow-up image of the asteroid, taken just this morning.
And as usual with close passing asteroids, the Virtual Telescope Project will is offering a live, online event sharing real-time images of 2013 XY8 with live commentary by their science staff. “It will be a nice opportunity to spy this 40 meter large asteroid moving across the stars,” said Gianluca Masi from the Virtual Telescope Project.
