Nasa is hiding evidence of soft-bodied aliens on Mars, claims controversial scientist who says he’ll prove the cover-up with a 'bombshell report'

  • Curiosity rover has snapped what may be trace fossils on the red planet, he says
  • Geomicrobiologist Barry DiGregorio says they resemble features here on Earth
  • Nasa is covering up the find so manned mission in 2030s can explore in depth, he claims

Evidence of life on Mars is being covered up by Nasa, according to a researcher Barry DiGregorio at a Buckingham University.

The agency’s space explorer, the Curiosity rover, has snapped what may be trace fossils created by soft-bodied creatures on the red planet, he says.

An upcoming 'bombshell' report will reveal how Nasa is aware of the find and has chosen to keep it hidden from the public, the scientist claims.

The controversial scientist believes the space agency could be ignoring the find because of its plans for a manned mission in the 2030s, when astronauts will explore Mars in more depth.

However, according to Nasa, the shapes captured in images from Mars are simply rock crystals that are currently undergoing analysis.

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Evidence of life on Mars is being covered up by Nasa, according to a researcher at a Buckingham University. The agency¿s space explorer, the Curiosity rover, has snapped what may be trace fossils on the red planet, he says. Pictured are the alleged trace fossils 

Evidence of life on Mars is being covered up by Nasa, according to a researcher at a Buckingham University. The agency’s space explorer, the Curiosity rover, has snapped what may be trace fossils on the red planet, he says. Pictured are the alleged trace fossils 

The findings were made by Barry DiGregorio, an honorary research fellow at the University of Buckingham who specialises in studies of microscopic life found in the soil of our planet.

Images beamed back from Mars by Curiosity appear to show patterns similar to Ordovician trace fossils Dr DiGregorio has photographed here on Earth, he says. 

Trace fossils are made by animals going about their lives, like footprints, burrows and waste matter, rather than the remains of the creatures themselves.   

Ordovician fossils are found in a geological layer spanning 41.2 million years from the end of the Cambrian Period 485.4 million years ago to the start of the Silurian Period 443.8 million years ago.

Dr DiGregorio says fossils on Mars represent signs of soft bodied creatures  which once roamed its surface.

Speaking to the Daily Express, he said: 'If not trace fossils, what other geological explanations will Nasa come up with?

Trace fossils are made by animals going about their lives, like footprints, burrows and waste matter, rather than the remains of the creatures themselves. This image shows a trace fossil from the Logan Formation, found in east-central Ohio and parts of western West Virginia

Trace fossils are made by animals going about their lives, like footprints, burrows and waste matter, rather than the remains of the creatures themselves. This image shows a trace fossil from the Logan Formation, found in east-central Ohio and parts of western West Virginia

Dr DiGregorio says fossils on Mars represent signs of soft bodied creatures which once roamed its surface. This image shows trackways from a slug-like animal, from the Cambrian, found in Blackberry Hill, central Wisconsin

Dr DiGregorio says fossils on Mars represent signs of soft bodied creatures which once roamed its surface. This image shows trackways from a slug-like animal, from the Cambrian, found in Blackberry Hill, central Wisconsin

This image shows burrows produced by crustaceans from the Middle Jurassic, found in Makhtesh Qatan, southern Israel

This image shows burrows produced by crustaceans from the Middle Jurassic, found in Makhtesh Qatan, southern Israel

This image shows Ophiomorpha and Thalassinoides trace fossils produced by crustaceans from the Late Miocene, found at Camacho formatio in Colonia Department, Uruguay.

This image shows Ophiomorpha and Thalassinoides trace fossils produced by crustaceans from the Late Miocene, found at Camacho formatio in Colonia Department, Uruguay.

'Nasa has turned its back on trying to get the data on this. The order came down from HQ that they should move the rover on to the next point.

'They didn't feel it was important enough to look at, I thought that was very odd, despite the fact Gale Crater was host to probably a series of lakes for billions and billions of years.

'We're talking about something that might have been equivalent to the Ordovician period on Earth.' 

The findings were made by Barry DiGregorio, an honorary research fellow at the University of Buckingham. This image shows Dr DiGregorio (right) with Apollo astronaut Neil Armstrong (left) 

The findings were made by Barry DiGregorio, an honorary research fellow at the University of Buckingham. This image shows Dr DiGregorio (right) with Apollo astronaut Neil Armstrong (left) 

Dr DiGregorio is not alone in his belief of evidence of life on Mars.  

In recent weeks, a European space probe swung into position around Mars in preparation to analyse its atmosphere for possible signs of life.

The European Space Agency said on Wednesday, February 21, its Trace Gas Orbiter successfully performed a delicate manoeuvre known as aerobraking that involved dipping into the red planet's upper atmosphere to slow the probe.

The agency says the orbiter will start looking for trace gases such as methane, which can result from biological or geological activity, in April.

It will also search for ice that could help future Mars landings.

A Nasa-made radio on board will also help relay signals from US rovers on the surface back to Earth.

Europe plans to land its own rover on Mars in 2021. A European test lander crashed on the surface of Mars in 2016.

Dr DiGregorio says the agency¿s space explorer, the Curiosity rover, has snapped what may be trace fossils on the red planet

Dr DiGregorio says the agency’s space explorer, the Curiosity rover, has snapped what may be trace fossils on the red planet

In January 2018, Nasa announced that its Curiosity rover had spotted a set of mysterious ¿stick-like figures¿ on the red planet. The surface of the Martian rock target in this stereo, close-up image includes small hollows with a 'swallowtail' shape characteristic of gypsum crystals

In January 2018, Nasa announced that its Curiosity rover had spotted a set of mysterious ‘stick-like figures’ on the red planet. The surface of the Martian rock target in this stereo, close-up image includes small hollows with a 'swallowtail' shape characteristic of gypsum crystals

The shapes left behind will be familiar to geologists who have studied gypsum crystals formed in drying lakes on Earth.  This image shows a mineral vein with bright and dark portions that distinguishes this Martian rock investigated near the upper edge of Vera Rubin Ridge

The shapes left behind will be familiar to geologists who have studied gypsum crystals formed in drying lakes on Earth.  This image shows a mineral vein with bright and dark portions that distinguishes this Martian rock investigated near the upper edge of Vera Rubin Ridge

WHAT ARE THE TINY CRYSTAL SHAPES FOUND ON MARS?

In January 2018, Nasa announced that its Curiosity rover had spotted a set of mysterious ‘stick-like figures’ on the red planet.

In a photo shared to the rover’s Twitter account that week, the space agency gave its followers a look at the unusual formations found on the face of a Martian rock. 

The images were captured during the rover’s ‘working holiday’ at the end of December 2017.

On New Year’s Eve, Curiosity revisited an ‘interesting’ site as part of its activity plan, to get a closer look what Nasa says are some ‘very peculiar targets.’

It’s unclear what exactly created the quarter-inch-long ‘stick-figures,’ though the space agency says they could be crystals or minerals left in the gaps where crystals dissolved.

The shapes left behind will be familiar to geologists who have studied gypsum crystals formed in drying lakes on Earth.

Further inspection of similar features by the rover elsewhere on Mars may resolve the timing of when the crystal-shaped features formed, relative to when layers of sediment accumulated around them.

Another uncertainty is whether the original mineral that crystallised into these shapes remains in them or was subsequently dissolved away and replaced by something else. 

Answers may point to evidence of a drying lake or to groundwater that flowed through the sediment after it became cemented into rock.

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The Trace Gas Orbiter launched in March 2016 with the ill-fated Shiaparelli Demonstrator Module aboard a Proton rocket.

The pair arrived at the red planet in October of that year – but, just days before reaching the atmosphere, Shiaparelli was ejected toward Mars, ESA says.

The test lander entered Mars’ atmosphere at 21,000 km/h, and began to decelerate using aerobraking and a parachute.

But, due to technical problems, Shiaparelli’s braking thrusters and on-ground systems activated early, as though it had already landed, despite still being 3.7 kilometers above the surface.

The Trace Gas Orbiter, however, managed to successfully make it to its destination.

The Trace Gas Orbiter launched in March 2016 with the ill-fated Shiaparelli Demonstrator Module aboard a Proton rocket
The pair arrived at the red planet in October of that year – but, just days before reaching the atmosphere, Shiaparelli was ejected toward Mars, ESA says

Dr DiGregorio is not alone in his belief of evidence of life on Mars.  In recent weeks, a European space probe swung into position around Mars in preparation to analyse its atmosphere for possible signs of life

The craft was inserted into an elliptical orbit around Mars in October 2016, and performed a series of maneuvers in January 2017 to shift its angle of travel so it can get the best view of Mars.

It then began its aerobraking phase in March 2017, to slowly bring it down to a 400-km altitude orbit so it can begin its scientific mission in April of this year.

According to ESA, the Trace Gas Orbiter’s mission will run for roughly two years, during which it will observe the Martian atmosphere in search of gases that could be of ‘biological importance.’

And, its instruments will gather measurements to gain better understanding of the location and nature of these sources.

The craft will continue to relay information for the 2020 ExoMars rover mission until the end of 2022, ESA says.

WAS MARS EVER HOME TO LIQUID WATER?

Evidence of water on Mars dates back to the Mariner 9 mission, which arrived in 1971. It revealed clues of water erosion in river beds and canyons as well as weather fronts and fogs.

Viking orbiters that followed caused a revolution in our ideas about water on Mars by showing how floods broke through dams and carved deep valleys.

Mars is currently in the middle of an ice age, and before this study, scientists believed liquid water could not exist on its surface.

In June 2013, Curiosity found powerful evidence that water good enough to drink once flowed on Mars.

In September of the same year, the first scoop of soil analysed by Curiosity revealed that fine materials on the surface of the planet contain two per cent water by weight.

In 2017, Scientists provided the best estimates for water on Mars, claiming it once had more liquid H2O than the Arctic Ocean - and the planet kept these oceans for more than 1.5 billion years.

The findings suggest there was ample time and water for life on Mars to thrive, but over the last 3.7 billion years the red planet has lost 87 per cent of its water - leaving it barren and dry. 

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