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Astronomers see hints of life in clouds of Venus

MYSTERY WIRE – Astronomers have found a potential signal of life high in the atmosphere of our nearest neighboring planet, Venus. They caution they aren’t certain yet, calling it hints of bizarre microbes living in the sulfuric-acid-laden clouds of the hothouse planet.

Two telescopes in Hawaii and Chile spotted in those thick Venutian clouds the chemical signature of phosphine, a noxious gas that on Earth only is associated with life, according to a study in Monday’s journal Nature Astronomy.

Study authors and several outside experts say this is far from the first ever proof of life on another planet, but they can’t quite find a good explanation, chemical or geological, that doesn’t involve something alive.

And they agree it doesn’t satisfy the stringent requirement established by the late Carl Sagan of “extraordinary claims require extraordinary evidence.”

“It’s a hint of a possibility of biology in the clouds of Venus,” said study co-author David L. Clements, an Imperial College of London astrophysicist. “It’s not a smoking gun. It’s not even gunshot residue on the hands of your prime suspect, but there is a distinct whiff of cordite in the air which may be suggesting something.”

This May 2016 photo provided by researcher Jane Greaves shows the planet Venus, seen from the Japan Aerospace Exploration Agency’s Akatsuki probe. A report released on Monday, Sept. 14, 2020 says astronomers have found a potential signal of life high in the atmosphere of our nearest neighboring planet. (J. Greaves/Cardiff University/JAXA via AP)

As astronomers plan for future searches for life on planets outside our solar system, a major method is to look for chemical signatures that can only be made biological processes, called biosignatures. After three astronomers met in a bar in Hawaii they decided to aim that technique at the closest planet to Earth: Venus. And they looked for the obscure phosphine, which is three hydrogen atoms and a phosphorous atom.

On Earth, there are only two ways phosphine can be formed, study authors said. One is in an industrial process created by people, which included use as a chemical warfare agent in World War I, and the other as part of some kind of poorly understood function in animals and microbes.

Study co-author Sara Seager, an MIT planetary scientist, said the team of researchers “exhaustively went through every possibility and ruled all of them out: volcanoes, lightning strikes, small meteorites falling into the atmosphere. We worked all the known chemistry possible that might occur in Venus’s atmosphere, on the surface and the subsurface. Not a single process we looked at could produce phosphine in high enough quantities to explain our team’s findings.”

“So we are left with two remote possibilities. One is that there’s some unknown chemistry, some chemistry we don’t know about. The second more intriguing possibility is that there might be some kind of life-form in the Venus atmosphere that is producing the phosphine that we have detected,” Seager added.

Seager, Clements and colleagues have come up with a potential scenario for how life could exist on the inhospitable planet where temperatures on the surface are around 800 degrees (425 degrees Celsius) with no water of any form on the ground.

Seager said all the action may be 30 miles (50 kilometers) above the ground in the thick carbon-dioxide layer cloud deck. It’s actually room temperature or slightly warmer and has the same atmospheric pressure on Earth, but of course you couldn’t breathe it, Clements said. Adding to that there are droplets with tiny amounts of water but mostly sulfuric acid that is a billion times more acidic than what’s found on Earth.

The phosphine could be coming from some kind of microbes, single cell life most likely, inside those sulfuric acid droplets living their entire lifetimes in the clouds, Seager and Clements said. When the droplets fall, the potential life likely dries out and could then get picked up in another drop and reanimate, they said.

If there is life there, it could stay in the atmosphere for millions of years this way, Seager said.

Life is definitely a possibility, but this isn’t enough to say it’s a probability yet, said several outside scientists contacted by The Associated Press.

One of the first scientists to suggest life was possible on Venus was the famed astronomer Sagan in 1967. Planetary Science Institute astrobiologist David Grinspoon is one of the biggest promoters of the theory, writing a 1997 book on it. He called the finding “a legitimate biosignature, a legitimate hint that there could be something on Venus.”

NASA already is looking at two possible Venus missions, but hasn’t made a decision yet. One of them, called DAVINCI+, would go into the Venutian atmosphere as early as 2026.

NASA’s Long History of Examining Venus

This is the latest discovery in investigations of the planet that stretch back to the 1960s.

NASA’s Pioneer 5 space probe was originally intended to go to Venus.

Technical difficulties meant the mission was changed to instead investigate the interplanetary space between Earth and Venus.

It launched in March 1960 and provided the first map of the interplanetary magnetic field.

The first successful mission to Venus – and in fact the first successful mission to any planet – was Mariner 2. The Mariner space program was a series of NASA missions to investigate Venus, Mars and Mercury.

Mariner 2 launched in August 1962 and completed its Venus flyby in December that year.

It flew by at a range of 21,660 miles.

During a 42 minute visit of the planet, Mariner 2 conducted scans of the planet.

The data it collected indicated no significant difference in temperature across Venus. Readings showed temperatures of 421 degrees Fahrenheit on the dark side to 459 degrees Fahrenheit on the dayside.

Mariner 2 also found that there was a dense cloud layer that extended from 35 to 50 miles above the surface.

The final launch in the series, Mariner 10, was the first to investigate two planets within one mission.

It launched in November 1973 and flew by Venus in February 1974.

It returned more than 4,000 pictures of the planet as well as other important data before using Venusian gravity to change its course and head to Mercury for the rest of its mission.

In 1978, NASA sent a multiprobe mission to Venus.

Pioneer Venus 2 included a large probe and three smaller probes.

The Large Probe was released while about 7 million miles from the planet.

Four days later, the bus released the three small probes—the North Probe, Day Probe and the Night Probe—while about 6 million miles from Venus.

They each opened their instrument doors at altitudes of about 43.5 miles and began to transmit information about the Venusian atmosphere immediately.

Each probe took about 53 to 56 minutes to reach the surface. Two of the three small probes survived the hard impact. The so-called Day Probe transmitted data from the surface for 67 minutes, 37 seconds, before succumbing to the high temperatures, pressures and power depletion. Information from its nephelometer indicated that dust raised from its impact took several minutes to settle back to the ground.

Data from the probes indicated that between about 6 and 31 miles there is almost no convection in the atmosphere of Venus. Below a haze layer at about 19 miles, the atmosphere is relatively clear.

In November 2005, the European Space Agency launched Venus Express, a probe designed to explore the hot, dense atmosphere of Venus.

It was European Space A’s first Venus exploration mission and relayed information back to ESA until December 2014 when it is believed to have run out of fuel.

The Associated Press contributed to this report.