Skip to main content

Mars Express image shows the boundary between the planet’s hemispheres

Mars is very much a world of two halves – as highlighted by this new image from ESA’s Mars Express, which shows where the planet’s dramatically different hemispheres come together as one.
Mars is very much a world of two halves — as highlighted by this new image from ESA’s Mars Express, which shows where the planet’s dramatically different hemispheres come together as one. ESA/DLR/FU Berlin

The European Space Agency (ESA)’s Mars Express orbiter has captured this image of the Martian surface, showing the boundary between the planet’s north and south hemispheres. The two hemispheres are strikingly different. The northern hemisphere of Mars is generally smooth and flat, consisting of low plains with few impact craters. The southern hemisphere, however, is mountainous and covered in craters, with many areas of past volcanic activity.

To see the boundary between the two more clearly, the ESA also released this colored version of the image which represents elevation. The purple and blue areas are low, while the yellow and reds have higher altitudes. The bottom half of the image shows a high ridge, with a boundary beyond which lower plains lie.

This colour-coded topographic image shows a region of Mars’ surface named Nilosyrtis Mensae, based on data gathered by the Mars Express High Resolution Stereo Camera on 29 September 2019 during orbit 19908.
This color-coded topographic image shows a region of Mars’ surface named Nilosyrtis Mensae, based on data gathered by the Mars Express High Resolution Stereo Camera on September 29, 2019 during orbit 19908. ESA/DLR/FU Berlin, CC BY-SA 3.0 IGO

The area which separates the two hemispheres is called a “dichotomy boundary.” In this area, there are broken sections of ground called “fretted terrain,” and in this particular image, the region of fretted terrain is called  Nilosyrtis Mensae.

“Nilosyrtis Mensae has a labyrinthian appearance, with numerous channels and valleys carving through the terrain,” the ESA explained in a blog post. “Water, wind and ice have been strongly affecting this region, dissecting and eroding the terrain, along with changes in martian geology: valleys have formed over time and sliced across the region, and once-defined impact craters have slowly degraded, their walls and features gradually wearing away.”

The area is of interest not only because it is a boundary region, but also because it may contain clues to the history of water on Mars. There are ridges and grooves on the surface in the area which seem to have been made by a flowing material such as ice. At a distant time in the planet’s history, ice glaciers may have flowed across the surface of the planet, leaving impressions in the rock which are still visible today.

Georgina Torbet
Georgina is the Digital Trends space writer, covering human space exploration, planetary science, and cosmology. She…
The Perseverance rover is a tiny speck in this image of Mars taken from orbit
The white speck is NASA's Perseverance rover in the "South Séítah" area of Mars' Jezero Crater. The image was taken by the agency's Mars Reconnaissance Orbiter using its High-Resolution Imaging Science Experiment, or HiRISE, camera.

You can see NASA's Perseverance rover as spotted from the Martian skies in this image, captured by the High-Resolution Imaging Science Experiment (HiRISE) camera on board the Mars Reconnaissance Orbiter. The Mars Reconnaissance Orbiter observes Mars from orbit to study its geology and climate, and HiRISE is specifically designed to take high-resolution images of the planet's surface. That makes it the perfect tool for spotting the rover from high above.

The Perseverance rover is currently exploring the South Séítah region of the Jezero Crater, where it is wending between sand dunes, boulders, and rocky outcrops.

Read more
Perseverance selfie shows it’s been a busy Mars rover of late
Using its WATSON camera, NASA’s Perseverance Mars rover took this selfie over a rock nicknamed “Rochette,” on Sept.10, 2021, the 198th Martian day, or sol, of the mission. Two holes can be seen where the rover used its robotic arm to drill rock core samples.

The Perseverance Mars rover snapped a selfie recently, showing its tracks wending through the Martian dust and up to a rock named Rochette. This is the area where the rover collected one of its recent Mars samples, drilling into the rock to collect a small amount in its sample tubes.

Eventually, the tubes will be collected by a future rover and brought back to Earth for study. In the image, you can see the two drill holes in the rock where the rover took the samples.

Read more
Watch the European Space Agency test the parachute for its new Mars rover
ExoMars parachute deployed during high-altitude drop tests.

Next year, the NASA rovers Perseverance and Curiosity and the Chinese rover Zhurong will be joined by another Martian explorer: The European Space Agency (ESA) and Roscosmos's ExoMars rover, named after Rosalind Franklin. ESA recently released video footage of its parachute drop test for ExoMars, showing how the spacecraft will be slowed as it approaches the red planet.

Drop tests for touchdown on Mars

Read more