Lava flows the ancient plains of Mars

Posted on March 6, 2014 by  in Dick Clippings

By carefully studying the boundaries between overlapping flows, planetary scientists can build up a picture of the eruption history of the Red Planet’s giant volcanoes. Lava floods the ancient plains of Mars

By ESA, Noordwijk, Netherlands  |  Published: Thursday, March 06, 2014

RELATED TOPICS: SOLAR SYSTEM | MARS | MARS EXPRESS | ESA

Lava flows in Daedalia Planum ESA/DLR/FU Berlin

Two distinct volcanic eruptions have flooded this area of Daedalia Planum with lava, flowing around an elevated fragment of ancient terrain.Daedalia_Planum_context

The European Space Agency’s Mars Express acquired the images November 28, 2013, toward the eastern boundary of the gigantic Tharsis Montes volcanic region where the largest volcanoes on Mars are found.

Daedalia Planum and Mistretta Crater in context

Topography data by MOLA Science Team; map compilation by Freie Univ. Berlin using GMT 4

The lava flows seen in this image come from Arsia Mons, the southernmost volcano in the Tharsis complex, which lies around 620 miles (1,000 kilometers) to the northwest of the region featured here. This volcanic region is thought to have been active until tens of millions of years ago, relatively recent on the planet’s geological timescale that spans 4.6 billion years.

The rough elevated terrain at the bottom of the main image is imprinted with three distinct but eroded impact craters, the largest of which is about 10 miles (16.5km) wide and named Mistretta. The ancient foundation it sits on once belonged to the vast southern highlands, but is now surrounded by a sea of lava, like many other isolated fragments that can be seen in the wider context image.

Daedalia_Planum_closeup

Daedalia Planum lava flows close up ESA/DLR/FU Berlin

Lava flows from two distinct eruptions have reached the foot of this particular feature.

The first eruption produced the lava flow to the south of the island (to the left in the main image and to the right in the close-up perspective image). This flow subsequently experienced extensive faulting due to tectonic forces, resulting in the numerous trough systems.

The younger lava flow (right in the main image, left in the close-up image) must have taken place after the tectonic event that caused the faulting because it overlies both the older lava surface and the tectonic features. Indeed, at the front of the flow, several tongues of lava have flowed preferentially along the lower ground of the troughs.

Daedalia_Planum_topography

Topography of Daedalia Planum and Mistretta Crater ESA/DLR/FU Berlin

The impact craters is another clear indication of the relative ages of the two flows: The older, fractured lava flow has more and larger ones than the younger flow.

 

The younger lava flow also has a rough texture, with many small ridges on the surface. These features form as a result of speed gradients within the lava flow due to the difference in temperature between the hot faster-flowing interior lava and the cooler slower “roof” of the flow that is exposed to the atmosphere.

Daedalia_Planum

Daedalia Planum and Mistretta Crater in 3-D ESA/DLR/FU Berlin

But neither lava flow traveled unimpeded. The highland “island” in this scene created an obstacle, forcing them to circle its flanks and override its base, most noticeable to the north (to the right in the main color, topography, and 3-D images).

The wider Daedalia Planum region bears witness to numerous lava flows similar to these, each one overlaying the last. By carefully studying the boundaries between overlapping flows, planetary scientists can build up a picture of the eruption history of the Red Planet’s giant volcanoes.

Source: http://astronomy.com/news/2014

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