NASA revisits long-running Martian mystery as new data points to rock and dust
What scientists first thought was an underground lake is now likely a layer of rock and dust. NASA’s Mars Reconnaissance Orbiter has revisited the Red Planet using an enhanced radar technique, shedding new light on the Martian mystery.
FILE: See the Mars surface from the Curiosity rover
NASA’s Curiosity rover captured a clear panorama of Mars' Gale Crater in August.
Scientists have taken another look at the subsurface of Mars, continuing to close gaps in the long-running Martian mystery. NASA’s Mars Reconnaissance Orbiter (MRO) used an enhanced radar technique that showed a feature once thought to be an underground lake may actually be a layer of rock and dust buried beneath thousands of feet of ice on the planet’s south pole.
View of Mars' south polar ice cap Feb. 25, 2015, captured by the European Space Agency's Mars Express orbiter. (ESA/DLR/FU Berlin, CC BY-SA 3.0 IGO / FOX Weather)
MRO used a special maneuver that rolls the spacecraft over 120 degrees. This enhances the power of SHARAD, which is MRO’s Shallow Radar instrument used to examine the subsurface structure and composition of Mars. The "roll" then enables "the radar’s signal to penetrate deeper underground and provide a clearer image of the subsurface," NASA wrote.
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The maneuver has been very effective that scientists are eager to use the "rolls" at previously observed sites where buried ice may exist.
Before its success, team members had struggled because the radar’s antenna is at the back of MRO, causing the orbiter's body to obstruct its view and weaken the instrument's sensitivity.
After much work, engineers were able to establish the 120-degree roll, directing more of SHARAD’s signal to the surface. The technique requires careful planning to keep the spacecraft safe.
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NASA explains that the discovery of the suspected lake in 2018 launched a surge of scientific activity, as water is closely linked to life in the solar system.
This map shows the approximate area ESA's Mars Express detected signal that scientists interpreted as an underground lake in 2018. The red lines indicate NASA's MRO's path. (Planetary Science Institute / FOX Weather)
One of MRO’s SHARAD instrument scientists, Gareth Morgan, stated, "The lake hypothesis generated lots of creative work, which is exactly what exciting scientific discoveries are supposed to do. And while this new data won’t settle the debate, it makes it very hard to support the idea of a liquid water lake."
Although recent findings do not reinforce the idea of a lake below the Martian surface, it does suggest that the same radar technique could support future explorers, checking for subsurface resources elsewhere on Mars.