3D map reveals 1.4m square miles of Mars in unprecedented detail


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Some of our most spectacular views of Mars have been presented on small, skinny strips of imagery.

Now, for the first time, scientists have joined these individual 30 to 60 mile (50 to 100km) wide strips to create a single complete 3D map.

The new map allows astronomers to 'stand' on planetary surfaces and could help explain how water and lava once flowed across the red planet.

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A view of a section of the image map Mosaic 'MC-11 East' is on the right and the topographical view can be seen on the left. The warmer colours show a higher elevation
A view of a section of the image map Mosaic 'MC-11 East' is on the right and the topographical view can be seen on the left. The warmer colours show a higher elevation
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Some of our most spectacular views of Mars have been presented on small, skinny strips of imagery.Now scientists have, for the first time, joined these individual 30 to 60 mile (50 to 100km) wide strips together to create a single complete 3D map. Pictured is a view of a section of the image map Mosaic 'MC-11 East' is on the right and the topographical view can be seen on the left. The warmer colours show a higher elevation

The colour-coded terrain models show the impressive height of the Meridiani Planum region at up to 820ft (250 metres) above the surface, seen in red.

This is in contrast to the blue 1,6404ft (5,000 metres) depth of the lower-lying Chryse Planitia region.

The first mosaic, pieced together by the German Aerospace Center (DLR), comprises 1.4 million square miles (2.3 million square km) of the surface.

It covers the vast crater-strewn highland region of the red planet, parts of the Ares Vallis outflow channel, the chaotic Aram Chaos region as well as the Meridiani Planum and Chryse Planitia plains.

The new map allows scientists to 'stand' on planetary surfaces and could help explain how water and lava once flowed across Mars. Pictured is a colour-coded perspective view showing the topography of the upper course of Ares Vallis near the Chryse Planitia plains

The new map allows scientists to 'stand' on planetary surfaces and could help explain how water and lava once flowed across Mars. Pictured is a colour-coded perspective view showing the topography of the upper course of Ares Vallis near the Chryse Planitia plains

HOW DID HRSC TAKE THE IMAGES? 

Constructing a 3D model such as this requires a spacecraft to look at the same surface feature twice at a different angle.

The High Resolution Stereo Camera (HRSC) on Mars Express is the only experiment that can do it with just one pass.

HRSC has nine scan lines that point fore, aft and straight down. This allows it to see a feature on approach, when its underneath and as it fades into the background.

HRSC has, during 14,000 orbits, transmitted 293.34 gigabytes of data to Earth.

'Gerhard Mercator and Carl Friedrich Gauss measured Earth, and with our survey of Mars we are following in their footsteps,' says Ralf Jaumann, a DLR planetary scientist.

The mosaic extends over 1,120 miles (1800km) from north to south and 810 miles (1,300km) from east to west.

Individual stereo and colour images from a total of 89 Martian orbits were combined to create the map.

'The strips were recorded at varying resolutions, with the sun at different positions and under varying weather conditions,' Jaumann said.

'The challenge was to combine them uniformly and without visible borders to form one large image.'

Perspective views look into the Ares Vallis outflow channel or into a crater altered by typical Mars erosion processes typical on Mars.

'At present, you cannot create a better image of the surface of Mars to show, for example, of the effects of flood and drought,' said Jaumann.

Pictured are parts of the Ares Vallis outflow channel. Constructing a 3D model such as this requires a spacecraft to look at the same surface feature twice at a different angle. HRSC on Mars Express is the only experiment that can do it with just one pass

Pictured are parts of the Ares Vallis outflow channel. Constructing a 3D model such as this requires a spacecraft to look at the same surface feature twice at a different angle. HRSC on Mars Express is the only experiment that can do it with just one pass

The data for this wide-area topography of Mars was acquired by Mars Express' High Resolution Stereo Camera (HRSC,) which has been orbiting the red planet since 2003.

Nine sensors record the surface of the planet from different angles and make it possible to map our planetary neighbour at high resolution, in colour, and in the third dimension – elevation.

HRSC has, during the course of more than 14,000 orbits, recorded and transmitted a total of 293.34 gigabytes of data to Earth.

About 97 percent of the planet has been recorded with image resolutions of up to 330ft (100 metres).

By around 2018, the team from DLR, wants to represent the whole of Mars as one coherent mosaic.

Pictured is the the strip up top of MC11, showing the Ares Vallis region, in the context of the rest of the region covered by the DLR's wide area topography survey. By around 2018, the team from DLR, wants to represent the whole of Mars as one coherent mosaic

Pictured is the the strip up top of MC11, showing the Ares Vallis region, in the context of the rest of the region covered by the DLR's wide area topography survey. By around 2018, the team from DLR, wants to represent the whole of Mars as one coherent mosaic



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