The Geysers of Enceladus — Will Saturn’s Moon Reveal a “Second Genesis”?

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By Yidir K. Published on July 31, 2014 13:44
Saturn's Moon
The Geysers of Enceladus — Will Saturn’s Moon Reveal a “Second Genesis”? - © The Daily Galaxy --Great Discoveries Channel

“Should we ever discover that a second genesis had occurred in our solar system, independently outside the Earth,” said Carolyn Porco of the Space Science Institute in 2010 when she was director of flight operations and imaging team leader for the Cassini spacecraft during its flybys of Saturn's moon, Enceladus, “then I think at that point the spell is broken. The existence theorem has been proven, and we could safely infer from it that life was not a bug but a feature of the universe in which we live, that it’s commonplace and has occurred a staggering number of times.”

Fast forward to today, scientists have so far identified 101 geysers on Enceladus, and the results indicate that liquid water might be transported from the moon’s subsurface ocean all the way to its surface. Two new papers were published in the Astronomical Journal and together they represent the first comprehensive study of the connections between geysers, tidal stresses, and thermal emissions at the south pole of Enceladus.In the first study, researchers used 6.5 years of data from NASA’s Cassini spacecraft to identify 101 geysers erupting from the tiny moon. The geysers were found with techniques similar to those used to triangulate geological features on Earth. The results show that geysers are associated with small ‘hot spots’ on the moon – providing clues about the processes behind these eruptions of ice and water vapor. The work also indicates that water contained in Enceladus’ subsurface ocean might remain liquid as it passes up through the icy shell to the surface. Narrow cracks in the ice can remain open all the way from the surface down to the ocean if the cracks are filled with liquid water.

The graphic below shows a 3-D model of 98 geysers whose source locations and tilts were found in a Cassini imaging survey of Enceladus' south polar terrain by the method of triangulation. Image credit: NASA/JPL-Caltech/Space Science Institute

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“There are only two places the materials can originate from,” Carolyn Porco of the Space Science Institute told astrobio.net, “the near-surface, where they would have to be ice melted by friction into liquid and vapor, or the sea. Our work rules out the near-surface.” Porco is the leader of the Cassini imaging team and lead author of the first paper. “Once we had these results in hand, we knew right away heat was not causing the geysers, but vice versa,” Porco said. “It also told us the geysers are not a near-surface phenomenon, but have much deeper roots.”

This artist's rendering below shows a cross-section of the ice shell immediately beneath one of Enceladus' geyser-active fractures, illustrating the physical and thermal structure and the processes ongoing below and at the surface. Image credit: NASA/JPL-Caltech/Space Science Institute

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Cracks that reach from the ocean to the surface would not affect the potential for life on Enceladus, but they could provide easy access for sampling the moon’s subsurface ocean. If there is microbial life in the liquid ocean of Enceladus, ice particles from the sea could contain the evidence astrobiologists need to identify them.

“It could be snowing microbes at the surface of Enceladus,” said Porco. “All we have to do is get back there with proper instrumentation to find out.”

The second paper published in the Astronomical Journal shows why the plume brightness and height vary over time as Enceladus circles around Saturn. The giant planet’s powerful gravitational field causes tidal flexing of Enceladus as the moon orbits. This causes the fractures in the its icy crust to open and close, modulating the amount of material being vented by the geysers.

Back in March of March of 2010, the Cassini spacecraft tasted and sampled a surprising organic brew erupting in geyser-like fashion Enceladus during a close flyby. NASA scientists were amazed that this tiny moon is so active, ‘hot’ and brimming with water vapour and organic chemicals.

Heat maps of the surface show higher temperatures than previously known in the south polar region, with hot tracks running the length of giant fissures. Additionally, scientists say the organics ‘taste and smell’ like some of those found in a comet. The jets themselves harmlessly peppered Cassini, exerting measurable torque on the spacecraft, and providing an indirect measure of the plume density.

"A completely unexpected surprise is that the chemistry of Enceladus, what's coming out from inside, resembles that of a comet," said Hunter Waite, principal investigator for the Cassini Ion and Neutral Mass Spectrometer at the Southwest Research Institute in San Antonio. "To have primordial material coming out from inside a Saturn moon raises many questions on the formation of the Saturn system."

The Cassini Ion and Neutral Mass Spectrometer saw a much higher density of volatile gases, water vapour, carbon dioxide and carbon monoxide, as well as organic materials, some twenty times denser than expected. This dramatic increase in density was evident as the spacecraft flew over the area of the plumes.

New high-resolution heat maps of the south pole by Cassini's Composite Infrared Spectrometer show that the so-called tiger stripes, giant fissures that are the source of the geysers, are warm along almost their entire lengths, and reveal other warm fissures nearby. These more precise new measurements reveal temperatures of at least minus 93º Celsius. That is 17º warmer than previously seen and 93º Celsius warmer than other regions of the moon. The warmest regions along the tiger stripes correspond to two of the jet locations seen in Cassini images.

"These spectacular new data will really help us understand what powers the geysers. The surprisingly high temperatures make it more likely that there's liquid water not far below the surface," said John Spencer, Cassini scientist on the Composite Infrared Spectrometer team at the Southwest Research Institute in Colorado, USA.

Carolyn Porco, then director of flight operations and imaging team leader for the Cassini spacecraft, described Cassini’s findings of elevated temperatures in the moon’s polar region, as well as an enormous plume of icy particles shooting tens of thousands of kilometers into space. Analysis of the icy trail, which includes water vapor and trace amounts of organic materials such as methane, carbon dioxide, and propane, suggests it is fueled by geysers erupting from a pocket of salt water within the moon. The findings, noted Porco, point to the possibility of “an environment where life itself might be stirring.”

New discoveries on two of Saturn's 60 moons could fill the storyline for a full season of a SciFi Channel series on the hunt for extraterrestrial life.

Natural electrical activity was discovered on Titan, the largest of Saturn's moons followed by yesterday's announcement that scientists working on NASA's Cassini mission have detected sodium salts in ice grains of Saturn's outermost ring. Detecting salty ice indicates that Enceladus, which primarily replenishes the ring with material from discharging jets, could harbor a reservoir of liquid water -- perhaps an ocean -- beneath its surface. And, where's there's an ocean, there's a higher probability of finding some form of life.

"The original picture of the plumes as violently erupting Yellowstone-like geysers is changing," said Frank Postberg, Cassini scientist for the cosmic dust analyzer at the Max Planck Institute for Nuclear Physics in Heidelberg, Germany. "They seem more like steady jets of vapor and ice fed by a large water reservoir. However, we cannot decide yet if the water is currently 'trapped' within huge pockets in Enceladus' thick ice crust or still connected to a large ocean in contact with the rocky core."

Cassini discovered the water-ice jets in 2005 on Enceladus. These jets expel tiny ice grains and vapor, some of which escape the moon's gravity and form Saturn's outermost ring. Cassini's cosmic dust analyzer has examined the composition of those grains and found salt within them. Cassini was launched from the Kennedy Space Center in 1997 and has been orbiting Saturn since July 2004.
"We believe that the salty minerals deep inside Enceladus washed out from rock at the bottom of a liquid layer," said Postberg.

Scientists on Cassini's cosmic dust detector team conclude that liquid water must be present because it is the only way to dissolve the significant amounts of minerals that would account for the levels of salt detected. The process of sublimation, the mechanism by which vapor is released directly from solid ice in the crust, cannot account for the presence of salt.

This view below looks across the geyser basin of Enceladus, along fractures spewing water vapor and ice particles into space. Image credit: NASA/JPL-Caltech/SSI

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"Potential plume sources on Enceladus are an active area of research with evidence continuing to converge on a possible salt water ocean," said Linda Spilker, Cassini deputy project scientist at NASA's Jet Propulsion Laboratory in Pasadena, Calif. "Our next opportunity to gather data on Enceladus will come during two flybys in November."

The makeup of the outermost ring grains, determined when thousands of high-speed particle hits were registered by Cassini, provides indirect information about the composition of the plume material and what is inside Enceladus. The outermost ring particles are almost pure water ice, but nearly every time the dust analyzer has checked for the composition, it has found at least some sodium within the particles.

"Our measurements imply that besides table salt, the grains also contain carbonates like soda. Both components are in concentrations that match the predicted composition of an Enceladus ocean," Postberg said. "The carbonates also provide a slightly alkaline pH value. If the liquid source is an ocean, it could provide a suitable environment on Enceladus for the formation of life precursors when coupled with the heat measured near the moon's south pole and the organic compounds found within the plumes."

However, in another study published in Nature, researchers doing ground-based observations did not see sodium, an important salt component. That team notes that the amount of sodium being expelled from Enceladus is actually less than observed around many other planetary bodies. These scientists were looking for sodium in the plume vapor and could not see it in the expelled ice grains. They argue that if the plume vapor does come from ocean water, the evaporation must happen slowly deep underground, rather than as a violent geyser erupting into space.

"Finding salt in the plume gives evidence for liquid water below the surface," said Sascha Kempf, also a Cassini scientist for the cosmic dust analyzer from the Max Planck Institute for Nuclear Physics. "The lack of detection of sodium vapor in the plume gives hints about what the water reservoir might look like."

Determining the nature and origin of the plume material is a top priority for Cassini during its extended tour, the Cassini Equinox Mission.

Scientists at Jet Propulsion Lab in California, the University of Colorado and the University of Central Florida in Orlando teamed up to analyze the plumes of water vapor and ice particles spewing from Saturn's Moon, Enceladus. They used data collected by the Cassini spacecraft's Ultraviolet Imaging Spectrograph (UVIS).

The team, including, found that the source of plumes may be vents on the moon that channel water vapor from a warm, probably liquid source to the surface at supersonic speeds.

"There are only three places in the solar system we know or suspect to have liquid water near the surface," said UCF Assistant Professor Joshua Colwell. "Earth, Jupiter's moon Europa and now Saturn's Enceladus. Water is a basic ingredient for life, and there are certainly implications there. If we find that the tidal heating that we believe causes these geysers is a common planetary systems phenomenon, then it gets really interesting."

The team's findings support a theory that the plumes observed are caused by a water source deep inside Enceladus. This is not a foreign concept. On earth, liquid water exists beneath the 15-million year-old ice at Lake Vostok, in Antarctica.

Scientists suggest that in Enceladus’s case, the ice grains would condense from the vapor escaping from the water source and stream through the cracks in the ice crust before heading into space. That’s likely what Cassini’s instruments detected in 2005 and 2007, the basis for the team’s investigation.

The team's work also suggests that another hypothesis is unlikely. That theory predicts that the plumes of gas and dust observed are caused by evaporation of volatile ice freshly exposed to space when Saturn’s tidal forces open vents in the south pole. But the team found more water vapor coming from the vents in 2007 at a time when the theory predicted there should have been less.

"Our observations do not agree with the predicted timing of the faults opening and closing due to tidal tension and compression," said Candice Hansen, the lead author on the project. "We don’t rule it out entirely . . . but we also definitely do not substantiate this hypothesis."

Instead, their results suggest that the behavior of the geysers supports a mathematical model that treats the vents as nozzles that channel water vapor from a liquid reservoir to the surface of the moon. By observing the flickering light of a star as the geysers blocked it out, the team found that the water vapor forms narrow jets. The authors theorize that only high temperatures close to the melting point of water ice could account for the high speed of the water vapor jets.

Until the two Voyager spacecraft passed near Enceladus, the sixth-largest moon of Saturn, in the early 1980s, very little was known about this small moon except for the identification of water ice on its surface.

The Voyager missions showed that Enceladus is only 500 km in diameter and reflects almost 100% of the sunlight that strikes it. Voyager 1 found that Enceladus orbited in the densest part of Saturn's diffuse E ring, indicating a possible link between the two, while Voyager 2 revealed that despite the moon's small size, it had a wide range of terrains ranging from ancient, heavily cratered surfaces to young, tectonically deformed terrain, with some regions with surface ages as young as 100 million years old.

The Cassini spacecraft performed several close flybys of Enceladus in 2005, revealing the moon's surface and environment in greater detail. In particular, the probe discovered a water-rich plume venting from the moon's south polar region. This discovery, along with the presence of escaping internal heat and very few (if any) impact craters in the south polar region, shows that Enceladus is geologically active today.

Given the level of tectonic resurfacing found on Enceladus, a critical factor in the evolution of life on Earth, has been an important driver of geology on this small moon. Enceladus the fourth body in the solar system to have confirmed volcanic activity, along with Earth, Neptune's Triton, and Jupiter's Io.

There are three ecosystems discovered on Earth that could mirror possible lifeforms on Enceladus. Two are based on methanogens, which belong to an ancient group related to bacteria, called the archaea -- the hardy survivalists of bacteria that thrive in harsh environments without oxygen. Deep volcanic rocks along the Columbia River and in Idaho Falls host two of these ecosystems, which pull their energy from the chemical interaction of different rocks. The third ecosystem is powered by the energy produced in the radioactive decay in rocks, and was found deep below the surface in a mine in South Africa.

NASA's Cassini spacecraft discovered a surprising organic brew erupting in geyser-like fashion from Saturn's moon Enceladus during a close flyby on March 12, 2008. Scientists were stunned that this tiny moon is so active, "hot" and teeming with water vapor and organic chemicals.

"Enceladus has got warmth, water and organic chemicals, some of the essential building blocks needed for life," said Dennis Matson, Cassini project scientist at NASA's Jet Propulsion Laboratory in Pasadena, Calif. "We have quite a recipe for life on our hands, but we have yet to find the final ingredient, liquid water, but Enceladus is only whetting our appetites for more."

"A completely unexpected surprise is that the chemistry of Enceladus, what's coming out from inside, resembles that of a comet," said Hunter Waite, principal investigator at the Southwest Research Institute in San Antonio. "To have primordial material coming out from inside a Saturn moon raises many questions on the formation of the Saturn system."

"Enceladus is by no means a comet. Comets have tails and orbit the sun, and Enceladus' activity is powered by internal heat while comet activity is powered by sunlight. Enceladus' brew is like carbonated water with an essence of natural gas," said Waite.

The Casssini Ion and Neutral Mass Spectrometer saw a much higher density of volatile gases, water vapor, carbon dioxide and carbon monoxide, as well as organic materials, some 20 times denser than expected. This dramatic increase in density was evident as the spacecraft flew over the area of the plumes.

New high-resolution heat maps of the south pole by Cassini's Composite Infrared Spectrometer show that the so-called tiger stripes, giant fissures that are the source of the geysers, are warm along almost their entire lengths, and reveal other warm fissures nearby. The warmest regions along the tiger stripes correspond to two of the jet locations seen in Cassini images.

"These spectacular new data will really help us understand what powers the geysers. The surprisingly high temperatures make it more likely that there's liquid water not far below the surface," said John Spencer, Cassini scientist on the Composite Infrared Spectrometer team at the Southwest Research Institute in Boulder, Colo.

Previous ultraviolet observations showed four jet sources, matching the locations of the plumes seen in previous images. This indicates that gas in the plume blasts off the surface into space, blending to form the larger plume.

At closest approach, Cassini was only 30 miles from Enceladus. When it flew through the plumes it was 120 miles from the moon's surface.

The first step toward answering the question of whether life exists inside the subsurface aquifer of Enceladus is to analyze the organic compounds in the plume. Cassini's passage through the plume provided some measurements that help us move toward an answer, and preliminary plans call for Cassini to fly through the plume again for more measurements in the future. Ultimately, another mission in the future could conceivably land near the plume or even return plume material to Earth for laboratory analysis.

Organic chemicals were part of the raw material from which Enceladus and Saturn's other moons formed. The origin of Enceladus' heat is less clear, but there are several possibilities that could have given Enceladus a layer of liquid water that persists today. Early on, it could have been heated by decay of short-lived radioactivity in rocks, with the heating prolonged by tidal influences.

Or perhaps an earlier oblong orbit could have brought more tidal heating than exists there today. A past tidal relationship with another moon could have caused the heat. Another theory says the heat could have been produced from a process called serpentization, where chemical binding of water and silicate rock could occur at the upper layer of the moon's core. This increases the volume of the rock and creates energy in the form of heat.

Any of these heating mechanisms might have created a liquid subsurface aquifer solution rich in organics, allowing Enceladus to serve up a suitable prebiotic soup.

The deep sea vent theory for the origin of life on Earth might apply to Enceladus as well. In this scenario, life on Earth began at the interface where chemically rich fluids, heated by tidal or other mechanisms, emerge from below the sea floor. Chemical energy is derived from the reduced gases, such as hydrogen-sulfide and hydrogen coming out from the vent in contact with a suitable oxidant, such as carbon dioxide. Hot spots on an Enceladus sea floor could be locales for this type of process.

We don't know how long it takes for life to start when the ingredients are there and the environment is suitable, but it appears to have happened quickly on Earth. So maybe it was possible that on Enceladus, life started in a "warm little pond" below the icy surface occurring over the last few tens of millions of years.

For life to persist once it has been established requires an environment of liquid water, the essential elements and nutrients, and an energy source. On Enceladus, there is evidence for liquid water, but we don't know its origin. The March 12, 2010 close flyby indicated there are some complex organic chemicals, as well. An energy source of some sort is producing geysers. As Cassini's exploration continues, NASA is seeking to bring together more pieces of this intriguing puzzle.

Carolyn Porco, Cassini, and Enceladus all feature in the Astrobiology Graphic History, Issue 4: Missions to the Outer Solar System, produced by the NASA Astrobiology Program and available at: http://www.astrobio.net/nasa-astrobio-graphic-novels/. Credit: NASA Astrobiology / Aaron L. Gronstal

Porco et al. (2014) “How the geysers, tidal stresses, and thermal emission across the south polar terrain of Enceladus are related," The Astronomical Journal, 148(3) doi:10.1088/0004-6256/148/3/45 Nimmo et al. (2014) “Tidally Modulated Eruptions on Enceladus: Cassini ISS Observations and Models," The Astronomical Journal, 148(3) doi:10.1088/0004-6256/148/3/46 - See more at: http://www.astrobio.net/news-brief/enceladus-in-101-geysers/#sthash.rcV2m77H.dpuf

The Daily Galaxy via NASA/Astrobio.net, JPL, ucf.edu/UCFnews

Image credits: NASA/JPL/Space Science Institute

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