Most of what scientists know of Jupiter's moon Europa they have gleaned from
a dozen or so close flybys from NASA's Voyager 2 spacecraft in 1979 and NASA's
Galileo spacecraft in the mid-to-late 1990s. Even in these fleeting,
paparazzi-like encounters, scientists have seen a fractured, ice-covered world
with tantalizing signs of a liquid water ocean under its surface. Such an
environment could potentially be a hospitable home for microbial life. But what
if we got to land on Europa's surface and conduct something along the lines of a
more in-depth interview? What would scientists ask? A new study in the journal
Astrobiology authored by a NASA-appointed science definition team lays out their
consensus on the most important questions to address.
"If one day humans send a robotic lander to the surface of Europa, we need to
know what to look for and what tools it should carry," said Robert Pappalardo,
the study's lead author, based at NASA's Jet Propulsion Laboratory, Pasadena,
Calif. "There is still a lot of preparation that is needed before we could land
on Europa, but studies like these will help us focus on the technologies
required to get us there, and on the data needed to help us scout out possible
landing locations. Europa is the most likely place in our solar system beyond
Earth to have life today, and a landed mission would be the best way to search
for signs of life."
The paper was authored by scientists from a number of other NASA centers and
universities, including the Johns Hopkins University Applied Physics Laboratory,
Laurel, Md.; University of Colorado, Boulder; University of Texas, Austin; and
the NASA Goddard Space Flight Center, Greenbelt, Md. The team found the most
important questions clustered around composition: what makes up the reddish
"freckles" and reddish cracks that stain the icy surface? What kind of chemistry
is occurring there? Are there organic molecules, which are among the building
blocks of life?
Additional priorities involved improving our images of Europa - getting a
look around at features on a human scale to provide context for the
compositional measurements. Also among the top priorities were questions related
to geological activity and the presence of liquid water: how active is the
surface? How much rumbling is there from the periodic gravitational squeezes
from its planetary host, the giant planet Jupiter? What do these detections tell
us about the characteristics of liquid water below the icy surface?
"Landing on the surface of Europa would be a key step in the astrobiological
investigation of that world," said Chris McKay, a senior editor of the journal
Astrobiology, who is based at NASA Ames Research Center, Moffett Field, Calif.
"This paper outlines the science that could be done on such a lander. The hope
would be that surface materials, possibly near the linear crack features,
include biomarkers carried up from the ocean."
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