Organisms in NASA's clean rooms may have already contaminated Mars

Have microbes hitchhiked to Mars? Organisms are found in NASA’s clean rooms which could have attached to the Perseverance rover and survived harsh trip to the Red Planet, scientist warns

  • A geneticist analyzed DNA from NASA’s JPL clean room where spacecraft are constructed
  • Christopher Mason found a number of organisms that can attach to metal surfaces, survive radiation and thrive in extreme cold 
  • Mason suggests that these organism could attach to spacecraft going to Mars
  • This means that humans may have already contaminated the Red Planet
  • This could lead rovers to uncover lifeforms that are actually from Earth 

NASA is eyeing the 2030s to put the first human boots on Mars, but a scientist suggests the American space agency may have already sent forms of life aboard its Perseverance rover to the Red Planet.

Christopher Mason, a geneticist at Weill Cornell Medicine, suggests that although NASA takes extreme measures to clean spacecraft and landers of microbes, there is a high probability that some survived the trip.

Through his research, Mason scanned the Jet Propulsion Lab’s (JPL) clean rooms for DNA and found the facilities ‘serve as an evolutionary selection process for the hardiest bugs.’

These organism can attached to metal surfaces, survive blasts of intense radiation and thrive in extremely cold environments.

‘These findings have implications for a form of planetary protection called ‘forward contamination’,’ Mason wrote in the BBC.

‘This is where we might bring something (accidentally or on purpose) to another planet.

‘It is important to ensure the safety and preservation of any life that might exist elsewhere in the Universe, since new organisms can wreak havoc when they arrive at a new ecosystem.’

NASA is eyeing the 2030s to put the first human boots on Mars, but a scientist suggests the American space agency may have already sent forms of life aboard its Perseverance rover to the Red Planet

NASA and scientists worldwide are continuously working on new protocols and innovations to ensure microbes do not contaminate space – and specifically make it to Mars.

The American space agency is very articulate when cleaning every inch of a craft by building one sterilized layer at a time. 

Spacecraft, like Perseverance, are constructed in JPL’s ISO-5 clean rooms that boast air filters and biological control protocols, which ensures ‘only a few hundred particles can contaminate each square foot and ideally no more than a few dozen spores per square meter,’ Mason writes.

However, he also notes that it is nearly impossible to get to zero biomass.

Researchers scanned the Jet Propulsion Lab’s (JPL) clean rooms for DNA and found the facilities ‘serve as an evolutionary selection process for the hardiest bugs’

These organism can attached to metal surfaces, survive blasts of intense radiation and thrive in extremely cold environments

Mason and his team conducted the investigation by extracting DNA from clean rooms, which were then sequenced to better understand what kind of microbes are living in the facilities.

Using what is called ‘shotgun’ sequencing, researchers were able to ‘blast’ DNA into billions of smaller fragments to sequence.

This allowed them to map each back to a known genome species in a sequence database.

‘In JPL’s clean rooms, we found evidence of microbes that have the potential to be problematic during space missions,’ wrote Mason.

‘These organisms have increased numbers of genes for DNA repair, giving them greater resistance against radiation, they can form biofilms on surfaces and equipment, can survive desiccation and thrive in cold environments.’

These findings are what Mason and other experts refer to as ‘forward contamination,’ which is the transport of Earth-based microbes to other celestial bodies, a disrupting concept for scientists who are searching for signs of life in an extraterrestrial sample.

The major implication with brining Earth microbes to Mars is that they could be mistaken for alien lifeforms and throw off decades of research.

Mason also notes that these tiny organisms could also form colonies in life-support equipment used by astronauts, which could malfunction in a life or death situation. 

The major implication with brining Earth microbes to Mars is that they could be mistaken for alien lifeforms and throw off decades of research

However, he also notes that these traveling organisms can change once they reach space.

New species have been found on the International Space Station that include similarities to those found in clean rooms – but with abilities to withstand high levels of radiation. 

‘Eventually, humans will set foot on Mars, carrying the cocktail of microbes that live on and inside our bodies with them. These microbes too will likely adapt, mutate, and change,’ wrote Mason.

‘They may even make life on Mars more tolerable for those who go there, since the unique genomes adapting to the Martian environment could be sequenced, transmitted back to Earth for further characterization, and then utilized for therapeutics and research on both planets.’

NASA MARS 2020: THE MISSION WILL SEE THE PERSEVERANCE ROVER AND INGENUITY HELICOPTER SEARCH FOR LIFE

NASA’s Mars 2020 mission will search for signs of ancient life on the Red Planet in a bid to help scientists better understand how life evolved on Earth. 

Named Perseverance, the main car-sized rover is explore an ancient river delta within the Jezero Crater, which was once filled with a 1,600ft deep lake.

It is believed that the region hosted microbial life some 3.5 to 3.9 billion years ago and the rover will examine soil samples to hunt for evidence of the life.

Nasa’s Mars 2020 rover (artist’s impression) is searching for signs of ancient life on Mars in a bid to help scientists better understand how life evolved on our own planet

The $2.5 billion (£1.95 billion) Mars 2020 spaceship launched on July 30 with the rover and helicopter inside – and landed successfully on February 18, 2021.

Perseverance landed inside the crater and will collect samples that will eventually be returned to Earth for further analysis.

A second mission will fly to the planet and return the samples, perhaps by the later 2020s in partnership with the European Space Agency.

This concept art shows the Mars 2020 rover landing on the red planet via NASA’s ‘sky-crane’ system

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