Monday, September 21, 2015

Magma Oceans on Jupiter's Moon Io May Solve Volcano Mystery

Something strange is happening on Io: The Jupiter moon's vigorous volcanoes are mysteriously offset from where scientists expected, and its underground magma oceans may be the cause.
A new model suggests that worlds caught in an intense push and pull of gravity, like the volcanic moon Io, are likely to have below-ground oceans of magma or water that stick around for a long time — in the water's case, providing a potential hotspot for the development of life.
"This is the first time the amount and distribution of heat produced by fluid tides in a subterranean magma ocean on Io has been studied in detail," Robert Tyler, the lead author of the new research from the University of Maryland, College Park and NASA's Goddard Space Flight Center, said in a statement. "We found that the pattern of tidal heating predicted by our fluid-tide model is able to produce the surface heat patterns that are actually observed on Io."

Fiery Io

Jupiter's moon Io is the most volcanically active body in the solar system. Its hundreds of volcanoes are caused by heat coming from the gravitational push and pull between Jupiter and the nearby moon Europa. The coming and going of Europa as it orbits, and Jupiter's steady influence, pulls Io into an oval orbit and flexes it, creating heat inside the moon due to friction.
Earlier models of the process envisioned a solid, claylike Io changing shape under the gravitational influence, but they had a strange flaw: the volcanoes were predicted to form over the spots with the greatest internal heating, but on the real Io the volcanoes form much farther east. When the discrepancy was published, in 2013, the researchers wrote that the moon might be rotating faster than expected or have a spongy magma ocean.
"It's hard to explain the regular pattern we see in so many volcanoes, all shifting in the same direction, using just our classical solid-body tidal heating models," Wade Henning, a co-author on the study and also from University of Maryland and NASA Goddard, said in the statement.

Implications for life on moons

While an underground magma ocean is certainly inhospitable, other moons in the solar system have liquid water seas below the surface, like icy Europa and Saturn's moon Enceladus, which are considered possible habitats for life. This new model suggests that liquid oceans might stick around for longer and also be more common beneath tidally stressed satellite surfaces. With energy sources and raw materials available, a long-lasting liquid water ocean could be a good place for life to develop.
Such oceans could begin to resonate with the push and pull of gravity, generating heat through tidal flow and lasting for a long time, said Christopher Hamilton, a co-author on the study from the University of Arizona, Tucson. "Therefore the mystery may be not how such subsurface oceans could survive, but how they could perish," he said. "Consequently, subsurface oceans within Io and other satellites could be even more common than what we've been able to observe so far."




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